%------------------------------------------------------------------------------
% File     : cvc5---1.0.5
% Problem  : CSR151^3 : TPTP v8.1.2. Released v5.3.0.
% Transfm  : none
% Format   : tptp
% Command  : do_cvc5 %s %d

% Computer : n004.cluster.edu
% Model    : x86_64 x86_64
% CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 2.10GHz
% Memory   : 8042.1875MB
% OS       : Linux 3.10.0-693.el7.x86_64
% CPULimit : 300s
% WCLimit  : 300s
% DateTime : Wed Aug 30 21:07:23 EDT 2023

% Result   : Theorem 3.11s 3.44s
% Output   : Proof 3.11s
% Verified : 
% SZS Type : -

% Comments : 
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.91/1.00  % Problem    : CSR151^3 : TPTP v8.1.2. Released v5.3.0.
% 0.91/1.01  % Command    : do_cvc5 %s %d
% 1.01/1.22  % Computer : n004.cluster.edu
% 1.01/1.22  % Model    : x86_64 x86_64
% 1.01/1.22  % CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 1.01/1.22  % Memory   : 8042.1875MB
% 1.01/1.22  % OS       : Linux 3.10.0-693.el7.x86_64
% 1.01/1.22  % CPULimit   : 300
% 1.01/1.22  % WCLimit    : 300
% 1.01/1.22  % DateTime   : Mon Aug 28 07:06:23 EDT 2023
% 1.01/1.22  % CPUTime    : 
% 2.14/2.34  %----Proving TH0
% 2.14/2.35  %------------------------------------------------------------------------------
% 2.14/2.35  % File     : CSR151^3 : TPTP v8.1.2. Released v5.3.0.
% 2.14/2.35  % Domain   : Commonsense Reasoning
% 2.14/2.35  % Problem  : Did someone like Bill in 2009?
% 2.14/2.35  % Version  : Especial.
% 2.14/2.35  % English  : During 2009 Mary liked Bill and Sue liked Bill. Is it the case
% 2.14/2.35  %            that someone liked Bill during 2009?
% 2.14/2.35  
% 2.14/2.35  % Refs     : [BP10]  Benzmueller & Pease (2010), Progress in Automating Hig
% 2.14/2.35  %          : [Ben11] Benzmueller (2011), Email to Geoff Sutcliffe
% 2.14/2.35  % Source   : [Ben11]
% 2.14/2.35  % Names    :
% 2.14/2.35  
% 2.14/2.35  % Status   : Theorem
% 2.14/2.35  % Rating   : 0.15 v8.1.0, 0.00 v7.4.0, 0.11 v7.3.0, 0.22 v7.2.0, 0.12 v7.1.0, 0.25 v7.0.0, 0.29 v6.4.0, 0.33 v6.3.0, 0.40 v6.2.0, 0.57 v6.1.0, 0.71 v5.5.0, 0.67 v5.4.0, 0.60 v5.3.0
% 2.14/2.35  % Syntax   : Number of formulae    : 5014 (1668 unt;1435 typ;   0 def)
% 2.14/2.35  %            Number of atoms       : 7503 ( 406 equ; 192 cnn)
% 2.14/2.35  %            Maximal formula atoms :   16 (   2 avg)
% 2.14/2.35  %            Number of connectives : 16668 ( 192   ~;  77   |;1315   &;14031   @)
% 2.14/2.35  %                                         ( 105 <=>; 948  =>;   0  <=;   0 <~>)
% 2.14/2.35  %            Maximal formula depth :   26 (   5 avg)
% 2.14/2.35  %            Number of types       :    3 (   1 usr)
% 2.14/2.35  %            Number of type conns  : 1319 (1319   >;   0   *;   0   +;   0  <<)
% 2.14/2.35  %            Number of symbols     : 1440 (1436 usr; 995 con; 0-7 aty)
% 2.14/2.35  %            Number of variables   : 2570 (   2   ^;2075   !; 493   ?;2570   :)
% 2.14/2.35  % SPC      : TH0_THM_EQU_NAR
% 2.14/2.35  
% 2.14/2.35  % Comments :
% 2.14/2.35  %------------------------------------------------------------------------------
% 2.14/2.35  %----Include SUMO axioms
% 2.14/2.35  %------------------------------------------------------------------------------
% 2.14/2.35  %----The extracted Signature
% 2.14/2.35  thf(numbers,type,
% 2.14/2.35      num: $tType ).
% 2.14/2.35  
% 2.14/2.35  thf(abstractCounterpart_THFTYPE_IiioI,type,
% 2.14/2.35      abstractCounterpart_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(acquaintance_THFTYPE_i,type,
% 2.14/2.35      acquaintance_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(age_THFTYPE_IiioI,type,
% 2.14/2.35      age_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(agent_THFTYPE_IiioI,type,
% 2.14/2.35      agent_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(altitude_THFTYPE_IiiioI,type,
% 2.14/2.35      altitude_THFTYPE_IiiioI: $i > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(ancestor_THFTYPE_IiioI,type,
% 2.14/2.35      ancestor_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(angleOfFigure_THFTYPE_i,type,
% 2.14/2.35      angleOfFigure_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(angularMeasure_THFTYPE_i,type,
% 2.14/2.35      angularMeasure_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(arcWeight_THFTYPE_IiioI,type,
% 2.14/2.35      arcWeight_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(atomicNumber_THFTYPE_IiioI,type,
% 2.14/2.35      atomicNumber_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(attends_THFTYPE_IiioI,type,
% 2.14/2.35      attends_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(attribute_THFTYPE_IiioI,type,
% 2.14/2.35      attribute_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(authors_THFTYPE_IiioI,type,
% 2.14/2.35      authors_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(average_THFTYPE_IiioI,type,
% 2.14/2.35      average_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(barometricPressure_THFTYPE_IiioI,type,
% 2.14/2.35      barometricPressure_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(beforeOrEqual_THFTYPE_IiioI,type,
% 2.14/2.35      beforeOrEqual_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(before_THFTYPE_IiioI,type,
% 2.14/2.35      before_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(believes_THFTYPE_IiooI,type,
% 2.14/2.35      believes_THFTYPE_IiooI: $i > $o > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(between_THFTYPE_IiiioI,type,
% 2.14/2.35      between_THFTYPE_IiiioI: $i > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(boilingPoint_THFTYPE_IiioI,type,
% 2.14/2.35      boilingPoint_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(bottom_THFTYPE_IiioI,type,
% 2.14/2.35      bottom_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(brother_THFTYPE_i,type,
% 2.14/2.35      brother_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(capability_THFTYPE_IIioIIiioIioI,type,
% 2.14/2.35      capability_THFTYPE_IIioIIiioIioI: ( $i > $o ) > ( $i > $i > $o ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(capability_THFTYPE_IiIiioIioI,type,
% 2.14/2.35      capability_THFTYPE_IiIiioIioI: $i > ( $i > $i > $o ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(causesProposition_THFTYPE_IoooI,type,
% 2.14/2.35      causesProposition_THFTYPE_IoooI: $o > $o > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(causesSubclass_THFTYPE_IiioI,type,
% 2.14/2.35      causesSubclass_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(causes_THFTYPE_IiioI,type,
% 2.14/2.35      causes_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(citizen_THFTYPE_i,type,
% 2.14/2.35      citizen_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(closedOn_THFTYPE_IiioI,type,
% 2.14/2.35      closedOn_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(color_THFTYPE_IiioI,type,
% 2.14/2.35      color_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(completelyFills_THFTYPE_IiioI,type,
% 2.14/2.35      completelyFills_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(component_THFTYPE_IiioI,type,
% 2.14/2.35      component_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(conclusion_THFTYPE_IoooI,type,
% 2.14/2.35      conclusion_THFTYPE_IoooI: $o > $o > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(conditionalProbability_THFTYPE_IooioI,type,
% 2.14/2.35      conditionalProbability_THFTYPE_IooioI: $o > $o > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(confersNorm_THFTYPE_IioioI,type,
% 2.14/2.35      confersNorm_THFTYPE_IioioI: $i > $o > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(confersObligation_THFTYPE_IoiioI,type,
% 2.14/2.35      confersObligation_THFTYPE_IoiioI: $o > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(confersRight_THFTYPE_IoiioI,type,
% 2.14/2.35      confersRight_THFTYPE_IoiioI: $o > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(connectedEngineeringComponents_THFTYPE_IiioI,type,
% 2.14/2.35      connectedEngineeringComponents_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(connected_THFTYPE_IiioI,type,
% 2.14/2.35      connected_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(connectsEngineeringComponents_THFTYPE_IiiioI,type,
% 2.14/2.35      connectsEngineeringComponents_THFTYPE_IiiioI: $i > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(connects_THFTYPE_IiiioI,type,
% 2.14/2.35      connects_THFTYPE_IiiioI: $i > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(considers_THFTYPE_IiooI,type,
% 2.14/2.35      considers_THFTYPE_IiooI: $i > $o > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(consistent_THFTYPE_IoooI,type,
% 2.14/2.35      consistent_THFTYPE_IoooI: $o > $o > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(containsInformation_THFTYPE_IiooI,type,
% 2.14/2.35      containsInformation_THFTYPE_IiooI: $i > $o > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(contains_THFTYPE_IiioI,type,
% 2.14/2.35      contains_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(contraryAttribute_THFTYPE_IiiiioI,type,
% 2.14/2.35      contraryAttribute_THFTYPE_IiiiioI: $i > $i > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(contraryAttribute_THFTYPE_IiioI,type,
% 2.14/2.35      contraryAttribute_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(contraryAttribute_THFTYPE_IioI,type,
% 2.14/2.35      contraryAttribute_THFTYPE_IioI: $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(contraryAttribute_THFTYPE_IoooI,type,
% 2.14/2.35      contraryAttribute_THFTYPE_IoooI: $o > $o > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(cooccur_THFTYPE_IiioI,type,
% 2.14/2.35      cooccur_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(copy_THFTYPE_IiioI,type,
% 2.14/2.35      copy_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(crosses_THFTYPE_IiioI,type,
% 2.14/2.35      crosses_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(date_THFTYPE_IiioI,type,
% 2.14/2.35      date_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(daughter_THFTYPE_IiioI,type,
% 2.14/2.35      daughter_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(decreasesLikelihood_THFTYPE_IoooI,type,
% 2.14/2.35      decreasesLikelihood_THFTYPE_IoooI: $o > $o > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(deprivesNorm_THFTYPE_IioioI,type,
% 2.14/2.35      deprivesNorm_THFTYPE_IioioI: $i > $o > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(depth_THFTYPE_IiiioI,type,
% 2.14/2.35      depth_THFTYPE_IiiioI: $i > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(desires_THFTYPE_IiooI,type,
% 2.14/2.35      desires_THFTYPE_IiooI: $i > $o > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(destination_THFTYPE_IiioI,type,
% 2.14/2.35      destination_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(developmentalForm_THFTYPE_IiioI,type,
% 2.14/2.35      developmentalForm_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(diameter_THFTYPE_IiioI,type,
% 2.14/2.35      diameter_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(direction_THFTYPE_IiioI,type,
% 2.14/2.35      direction_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(disjointDecomposition_THFTYPE_IiiiiiioI,type,
% 2.14/2.35      disjointDecomposition_THFTYPE_IiiiiiioI: $i > $i > $i > $i > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(disjointDecomposition_THFTYPE_IiiiiioI,type,
% 2.14/2.35      disjointDecomposition_THFTYPE_IiiiiioI: $i > $i > $i > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(disjointDecomposition_THFTYPE_IiiiioI,type,
% 2.14/2.35      disjointDecomposition_THFTYPE_IiiiioI: $i > $i > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(disjointDecomposition_THFTYPE_IiiioI,type,
% 2.14/2.35      disjointDecomposition_THFTYPE_IiiioI: $i > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(disjointDecomposition_THFTYPE_IiioI,type,
% 2.14/2.35      disjointDecomposition_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(disjointDecomposition_THFTYPE_IioI,type,
% 2.14/2.35      disjointDecomposition_THFTYPE_IioI: $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(disjointRelation_THFTYPE_IIiioIIiioIoI,type,
% 2.14/2.35      disjointRelation_THFTYPE_IIiioIIiioIoI: ( $i > $i > $o ) > ( $i > $i > $o ) > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(disjointRelation_THFTYPE_IIioIIioIoI,type,
% 2.14/2.35      disjointRelation_THFTYPE_IIioIIioIoI: ( $i > $o ) > ( $i > $o ) > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(disjointRelation_THFTYPE_IIioioIIioioIoI,type,
% 2.14/2.35      disjointRelation_THFTYPE_IIioioIIioioIoI: ( $i > $o > $i > $o ) > ( $i > $o > $i > $o ) > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(disjointRelation_THFTYPE_IIoooIIoooIoI,type,
% 2.14/2.35      disjointRelation_THFTYPE_IIoooIIoooIoI: ( $o > $o > $o ) > ( $o > $o > $o ) > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(disjointRelation_THFTYPE_IiIiioIoI,type,
% 2.14/2.35      disjointRelation_THFTYPE_IiIiioIoI: $i > ( $i > $i > $o ) > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(disjointRelation_THFTYPE_IiioI,type,
% 2.14/2.35      disjointRelation_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(disjoint_THFTYPE_IiioI,type,
% 2.14/2.35      disjoint_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(distance_THFTYPE_IiiioI,type,
% 2.14/2.35      distance_THFTYPE_IiiioI: $i > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(distributes_THFTYPE_IiioI,type,
% 2.14/2.35      distributes_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(div_THFTYPE_IiiiI,type,
% 2.14/2.35      div_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(documentation_THFTYPE_i,type,
% 2.14/2.35      documentation_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(domainSubclass_THFTYPE_IIIioIIiioIioIiioI,type,
% 2.14/2.35      domainSubclass_THFTYPE_IIIioIIiioIioIiioI: ( ( $i > $o ) > ( $i > $i > $o ) > $i > $o ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domainSubclass_THFTYPE_IIiiiIiioI,type,
% 2.14/2.35      domainSubclass_THFTYPE_IIiiiIiioI: ( $i > $i > $i ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domainSubclass_THFTYPE_IIiiiiiioIiioI,type,
% 2.14/2.35      domainSubclass_THFTYPE_IIiiiiiioIiioI: ( $i > $i > $i > $i > $i > $i > $o ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domainSubclass_THFTYPE_IIiioIiioI,type,
% 2.14/2.35      domainSubclass_THFTYPE_IIiioIiioI: ( $i > $i > $o ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domainSubclass_THFTYPE_IIioIiioI,type,
% 2.14/2.35      domainSubclass_THFTYPE_IIioIiioI: ( $i > $o ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domainSubclass_THFTYPE_IiiioI,type,
% 2.14/2.35      domainSubclass_THFTYPE_IiiioI: $i > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domain_THFTYPE_IIIIioIIiioIioIiioIiioI,type,
% 2.14/2.35      domain_THFTYPE_IIIIioIIiioIioIiioIiioI: ( ( ( $i > $o ) > ( $i > $i > $o ) > $i > $o ) > $i > $i > $o ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domain_THFTYPE_IIIiiIioIiioI,type,
% 2.14/2.35      domain_THFTYPE_IIIiiIioIiioI: ( ( $i > $i ) > $i > $o ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domain_THFTYPE_IIIiioIIiioIoIiioI,type,
% 2.14/2.35      domain_THFTYPE_IIIiioIIiioIoIiioI: ( ( $i > $i > $o ) > ( $i > $i > $o ) > $o ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domain_THFTYPE_IIIiioIioIiioI,type,
% 2.14/2.35      domain_THFTYPE_IIIiioIioIiioI: ( ( $i > $i > $o ) > $i > $o ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domain_THFTYPE_IIIioIIiioIioIiioI,type,
% 2.14/2.35      domain_THFTYPE_IIIioIIiioIioIiioI: ( ( $i > $o ) > ( $i > $i > $o ) > $i > $o ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domain_THFTYPE_IIIioIiIiioI,type,
% 2.14/2.35      domain_THFTYPE_IIIioIiIiioI: ( ( $i > $o ) > $i ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domain_THFTYPE_IIIioIioIiioI,type,
% 2.14/2.35      domain_THFTYPE_IIIioIioIiioI: ( ( $i > $o ) > $i > $o ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domain_THFTYPE_IIIoiIioIiioI,type,
% 2.14/2.35      domain_THFTYPE_IIIoiIioIiioI: ( ( $o > $i ) > $i > $o ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domain_THFTYPE_IIIoioIIiioIoIiioI,type,
% 2.14/2.35      domain_THFTYPE_IIIoioIIiioIoIiioI: ( ( $o > $i > $o ) > ( $i > $i > $o ) > $o ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domain_THFTYPE_IIiiIiioI,type,
% 2.14/2.35      domain_THFTYPE_IIiiIiioI: ( $i > $i ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domain_THFTYPE_IIiiiIiioI,type,
% 2.14/2.35      domain_THFTYPE_IIiiiIiioI: ( $i > $i > $i ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domain_THFTYPE_IIiiiiiioIiioI,type,
% 2.14/2.35      domain_THFTYPE_IIiiiiiioIiioI: ( $i > $i > $i > $i > $i > $i > $o ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domain_THFTYPE_IIiiiioIiioI,type,
% 2.14/2.35      domain_THFTYPE_IIiiiioIiioI: ( $i > $i > $i > $i > $o ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domain_THFTYPE_IIiiioIiioI,type,
% 2.14/2.35      domain_THFTYPE_IIiiioIiioI: ( $i > $i > $i > $o ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domain_THFTYPE_IIiioIiioI,type,
% 2.14/2.35      domain_THFTYPE_IIiioIiioI: ( $i > $i > $o ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domain_THFTYPE_IIioIiioI,type,
% 2.14/2.35      domain_THFTYPE_IIioIiioI: ( $i > $o ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domain_THFTYPE_IIioioIiioI,type,
% 2.14/2.35      domain_THFTYPE_IIioioIiioI: ( $i > $o > $i > $o ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domain_THFTYPE_IIiooIiioI,type,
% 2.14/2.35      domain_THFTYPE_IIiooIiioI: ( $i > $o > $o ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domain_THFTYPE_IIioooIiioI,type,
% 2.14/2.35      domain_THFTYPE_IIioooIiioI: ( $i > $o > $o > $o ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domain_THFTYPE_IIoiIiioI,type,
% 2.14/2.35      domain_THFTYPE_IIoiIiioI: ( $o > $i ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domain_THFTYPE_IIoiioIiioI,type,
% 2.14/2.35      domain_THFTYPE_IIoiioIiioI: ( $o > $i > $i > $o ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domain_THFTYPE_IIoioIiioI,type,
% 2.14/2.35      domain_THFTYPE_IIoioIiioI: ( $o > $i > $o ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domain_THFTYPE_IIooIiioI,type,
% 2.14/2.35      domain_THFTYPE_IIooIiioI: ( $o > $o ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domain_THFTYPE_IIooioIiioI,type,
% 2.14/2.35      domain_THFTYPE_IIooioIiioI: ( $o > $o > $i > $o ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domain_THFTYPE_IIoooIiioI,type,
% 2.14/2.35      domain_THFTYPE_IIoooIiioI: ( $o > $o > $o ) > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(domain_THFTYPE_IiiioI,type,
% 2.14/2.35      domain_THFTYPE_IiiioI: $i > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(duration_THFTYPE_IiioI,type,
% 2.14/2.35      duration_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(during_THFTYPE_IiioI,type,
% 2.14/2.35      during_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(earlier_THFTYPE_IiioI,type,
% 2.14/2.35      earlier_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(editor_THFTYPE_i,type,
% 2.14/2.35      editor_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(element_THFTYPE_IiioI,type,
% 2.14/2.35      element_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(employs_THFTYPE_IiioI,type,
% 2.14/2.35      employs_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(engineeringSubcomponent_THFTYPE_IiioI,type,
% 2.14/2.35      engineeringSubcomponent_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(entails_THFTYPE_IoooI,type,
% 2.14/2.35      entails_THFTYPE_IoooI: $o > $o > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(equal_THFTYPE_i,type,
% 2.14/2.35      equal_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(equivalenceRelationOn_THFTYPE_IIiioIioI,type,
% 2.14/2.35      equivalenceRelationOn_THFTYPE_IIiioIioI: ( $i > $i > $o ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(equivalentContentClass_THFTYPE_IiioI,type,
% 2.14/2.35      equivalentContentClass_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(equivalentContentInstance_THFTYPE_IiioI,type,
% 2.14/2.35      equivalentContentInstance_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(exactlyLocated_THFTYPE_IiioI,type,
% 2.14/2.35      exactlyLocated_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(exhaustiveAttribute_THFTYPE_IiiiiiioI,type,
% 2.14/2.35      exhaustiveAttribute_THFTYPE_IiiiiiioI: $i > $i > $i > $i > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(exhaustiveAttribute_THFTYPE_IiiioI,type,
% 2.14/2.35      exhaustiveAttribute_THFTYPE_IiiioI: $i > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(exhaustiveAttribute_THFTYPE_IiioI,type,
% 2.14/2.35      exhaustiveAttribute_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(exhaustiveDecomposition_THFTYPE_IiioI,type,
% 2.14/2.35      exhaustiveDecomposition_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(exhaustiveDecomposition_THFTYPE_IioI,type,
% 2.14/2.35      exhaustiveDecomposition_THFTYPE_IioI: $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(experiencer_THFTYPE_IiioI,type,
% 2.14/2.35      experiencer_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(exploits_THFTYPE_IiioI,type,
% 2.14/2.35      exploits_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(expressedInLanguage_THFTYPE_IiioI,type,
% 2.14/2.35      expressedInLanguage_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(externalImage_THFTYPE_i,type,
% 2.14/2.35      externalImage_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(faces_THFTYPE_IiioI,type,
% 2.14/2.35      faces_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(familyRelation_THFTYPE_IiioI,type,
% 2.14/2.35      familyRelation_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(father_THFTYPE_IiioI,type,
% 2.14/2.35      father_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(fills_THFTYPE_IiioI,type,
% 2.14/2.35      fills_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(finishes_THFTYPE_IiioI,type,
% 2.14/2.35      finishes_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(frequency_THFTYPE_IiioI,type,
% 2.14/2.35      frequency_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(geographicSubregion_THFTYPE_i,type,
% 2.14/2.35      geographicSubregion_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(geometricDistance_THFTYPE_IiiioI,type,
% 2.14/2.35      geometricDistance_THFTYPE_IiiioI: $i > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(geometricPart_THFTYPE_i,type,
% 2.14/2.35      geometricPart_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(geopoliticalSubdivision_THFTYPE_IiioI,type,
% 2.14/2.35      geopoliticalSubdivision_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(graphMeasure_THFTYPE_IiioI,type,
% 2.14/2.35      graphMeasure_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(graphPart_THFTYPE_IiioI,type,
% 2.14/2.35      graphPart_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(grasps_THFTYPE_IiioI,type,
% 2.14/2.35      grasps_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(greaterThanByQuality_THFTYPE_IiiioI,type,
% 2.14/2.35      greaterThanByQuality_THFTYPE_IiiioI: $i > $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(greaterThanOrEqualTo_THFTYPE_IiioI,type,
% 2.14/2.35      greaterThanOrEqualTo_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(greaterThan_THFTYPE_IiioI,type,
% 2.14/2.35      greaterThan_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(gt_THFTYPE_IiioI,type,
% 2.14/2.35      gt_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(gtet_THFTYPE_IiioI,type,
% 2.14/2.35      gtet_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(hasPurposeForAgent_THFTYPE_IioioI,type,
% 2.14/2.35      hasPurposeForAgent_THFTYPE_IioioI: $i > $o > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(hasPurpose_THFTYPE_IiooI,type,
% 2.14/2.35      hasPurpose_THFTYPE_IiooI: $i > $o > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(hasPurpose_THFTYPE_IooI,type,
% 2.14/2.35      hasPurpose_THFTYPE_IooI: $o > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(hasSkill_THFTYPE_IiioI,type,
% 2.14/2.35      hasSkill_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(height_THFTYPE_IiioI,type,
% 2.14/2.35      height_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(holdsDuring_THFTYPE_IiooI,type,
% 2.14/2.35      holdsDuring_THFTYPE_IiooI: $i > $o > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(holdsObligation_THFTYPE_IoioI,type,
% 2.14/2.35      holdsObligation_THFTYPE_IoioI: $o > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(holdsRight_THFTYPE_IoioI,type,
% 2.14/2.35      holdsRight_THFTYPE_IoioI: $o > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(hole_THFTYPE_IiioI,type,
% 2.14/2.35      hole_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(home_THFTYPE_IiioI,type,
% 2.14/2.35      home_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(husband_THFTYPE_IiioI,type,
% 2.14/2.35      husband_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(identicalListItems_THFTYPE_IiioI,type,
% 2.14/2.35      identicalListItems_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(identityElement_THFTYPE_IIiiiIioI,type,
% 2.14/2.35      identityElement_THFTYPE_IIiiiIioI: ( $i > $i > $i ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(identityElement_THFTYPE_IiioI,type,
% 2.14/2.35      identityElement_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(immediateInstance_THFTYPE_IiioI,type,
% 2.14/2.35      immediateInstance_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(immediateSubclass_THFTYPE_IiioI,type,
% 2.14/2.35      immediateSubclass_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(inList_THFTYPE_IiioI,type,
% 2.14/2.35      inList_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(inScopeOfInterest_THFTYPE_IiioI,type,
% 2.14/2.35      inScopeOfInterest_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(increasesLikelihood_THFTYPE_IoooI,type,
% 2.14/2.35      increasesLikelihood_THFTYPE_IoooI: $o > $o > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(independentProbability_THFTYPE_IoooI,type,
% 2.14/2.35      independentProbability_THFTYPE_IoooI: $o > $o > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(inhabits_THFTYPE_IiioI,type,
% 2.14/2.35      inhabits_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(inhibits_THFTYPE_IiioI,type,
% 2.14/2.35      inhibits_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(initialList_THFTYPE_IiioI,type,
% 2.14/2.35      initialList_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(initialPart_THFTYPE_IiioI,type,
% 2.14/2.35      initialPart_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(instance_THFTYPE_IIIIioIIiioIioIiioIioI,type,
% 2.14/2.35      instance_THFTYPE_IIIIioIIiioIioIiioIioI: ( ( ( $i > $o ) > ( $i > $i > $o ) > $i > $o ) > $i > $i > $o ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(instance_THFTYPE_IIIiiIioIioI,type,
% 2.14/2.35      instance_THFTYPE_IIIiiIioIioI: ( ( $i > $i ) > $i > $o ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(instance_THFTYPE_IIIiioIIiioIoIioI,type,
% 2.14/2.35      instance_THFTYPE_IIIiioIIiioIoIioI: ( ( $i > $i > $o ) > ( $i > $i > $o ) > $o ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(instance_THFTYPE_IIIiioIioIioI,type,
% 2.14/2.35      instance_THFTYPE_IIIiioIioIioI: ( ( $i > $i > $o ) > $i > $o ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(instance_THFTYPE_IIIioIIiioIioIioI,type,
% 2.14/2.35      instance_THFTYPE_IIIioIIiioIioIioI: ( ( $i > $o ) > ( $i > $i > $o ) > $i > $o ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(instance_THFTYPE_IIIioIiIioI,type,
% 2.14/2.35      instance_THFTYPE_IIIioIiIioI: ( ( $i > $o ) > $i ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(instance_THFTYPE_IIIioIioIioI,type,
% 2.14/2.35      instance_THFTYPE_IIIioIioIioI: ( ( $i > $o ) > $i > $o ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(instance_THFTYPE_IIIioioIiioIioI,type,
% 2.14/2.35      instance_THFTYPE_IIIioioIiioIioI: ( ( $i > $o > $i > $o ) > $i > $i > $o ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(instance_THFTYPE_IIIoioIIiioIoIioI,type,
% 2.14/2.35      instance_THFTYPE_IIIoioIIiioIoIioI: ( ( $o > $i > $o ) > ( $i > $i > $o ) > $o ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(instance_THFTYPE_IIiiIioI,type,
% 2.14/2.35      instance_THFTYPE_IIiiIioI: ( $i > $i ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(instance_THFTYPE_IIiiiIioI,type,
% 2.14/2.35      instance_THFTYPE_IIiiiIioI: ( $i > $i > $i ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(instance_THFTYPE_IIiiiiiioIioI,type,
% 2.14/2.35      instance_THFTYPE_IIiiiiiioIioI: ( $i > $i > $i > $i > $i > $i > $o ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(instance_THFTYPE_IIiiiioIioI,type,
% 2.14/2.35      instance_THFTYPE_IIiiiioIioI: ( $i > $i > $i > $i > $o ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(instance_THFTYPE_IIiiioIioI,type,
% 2.14/2.35      instance_THFTYPE_IIiiioIioI: ( $i > $i > $i > $o ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(instance_THFTYPE_IIiioIioI,type,
% 2.14/2.35      instance_THFTYPE_IIiioIioI: ( $i > $i > $o ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(instance_THFTYPE_IIioIioI,type,
% 2.14/2.35      instance_THFTYPE_IIioIioI: ( $i > $o ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(instance_THFTYPE_IIioioIioI,type,
% 2.14/2.35      instance_THFTYPE_IIioioIioI: ( $i > $o > $i > $o ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(instance_THFTYPE_IIiooIioI,type,
% 2.14/2.35      instance_THFTYPE_IIiooIioI: ( $i > $o > $o ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(instance_THFTYPE_IIioooIioI,type,
% 2.14/2.35      instance_THFTYPE_IIioooIioI: ( $i > $o > $o > $o ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(instance_THFTYPE_IIoiIioI,type,
% 2.14/2.35      instance_THFTYPE_IIoiIioI: ( $o > $i ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(instance_THFTYPE_IIoiioIioI,type,
% 2.14/2.35      instance_THFTYPE_IIoiioIioI: ( $o > $i > $i > $o ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(instance_THFTYPE_IIoioIioI,type,
% 2.14/2.35      instance_THFTYPE_IIoioIioI: ( $o > $i > $o ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(instance_THFTYPE_IIooIioI,type,
% 2.14/2.35      instance_THFTYPE_IIooIioI: ( $o > $o ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(instance_THFTYPE_IIooioIioI,type,
% 2.14/2.35      instance_THFTYPE_IIooioIioI: ( $o > $o > $i > $o ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(instance_THFTYPE_IIoooIioI,type,
% 2.14/2.35      instance_THFTYPE_IIoooIioI: ( $o > $o > $o ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(instance_THFTYPE_IiioI,type,
% 2.14/2.35      instance_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(instance_THFTYPE_IoioI,type,
% 2.14/2.35      instance_THFTYPE_IoioI: $o > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(instrument_THFTYPE_IiioI,type,
% 2.14/2.35      instrument_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(interiorPart_THFTYPE_IiioI,type,
% 2.14/2.35      interiorPart_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(inverse_THFTYPE_IIiioIIiioIoI,type,
% 2.14/2.35      inverse_THFTYPE_IIiioIIiioIoI: ( $i > $i > $o ) > ( $i > $i > $o ) > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(involvedInEvent_THFTYPE_IiioI,type,
% 2.14/2.35      involvedInEvent_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(irreflexiveOn_THFTYPE_IIiioIioI,type,
% 2.14/2.35      irreflexiveOn_THFTYPE_IIiioIioI: ( $i > $i > $o ) > $i > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(knows_THFTYPE_IiooI,type,
% 2.14/2.35      knows_THFTYPE_IiooI: $i > $o > $o ).
% 2.14/2.35  
% 2.14/2.35  thf(lAbnormalAnatomicalStructure_THFTYPE_i,type,
% 2.14/2.35      lAbnormalAnatomicalStructure_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAbove_THFTYPE_i,type,
% 2.14/2.35      lAbove_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAbsoluteValueFn_THFTYPE_IiiI,type,
% 2.14/2.35      lAbsoluteValueFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAbsoluteValueFn_THFTYPE_i,type,
% 2.14/2.35      lAbsoluteValueFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAbstract_THFTYPE_i,type,
% 2.14/2.35      lAbstract_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAbstractionFn_THFTYPE_IiiI,type,
% 2.14/2.35      lAbstractionFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAbstractionFn_THFTYPE_i,type,
% 2.14/2.35      lAbstractionFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAdditionFn_THFTYPE_IiiiI,type,
% 2.14/2.35      lAdditionFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAdditionFn_THFTYPE_i,type,
% 2.14/2.35      lAdditionFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAdjacent_THFTYPE_i,type,
% 2.14/2.35      lAdjacent_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAdjective_THFTYPE_i,type,
% 2.14/2.35      lAdjective_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAdverb_THFTYPE_i,type,
% 2.14/2.35      lAdverb_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAdvertising_THFTYPE_i,type,
% 2.14/2.35      lAdvertising_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAgeGroup_THFTYPE_i,type,
% 2.14/2.35      lAgeGroup_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAgent_THFTYPE_i,type,
% 2.14/2.35      lAgent_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAir_THFTYPE_i,type,
% 2.14/2.35      lAir_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAlethicAttribute_THFTYPE_i,type,
% 2.14/2.35      lAlethicAttribute_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAlga_THFTYPE_i,type,
% 2.14/2.35      lAlga_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAmbulating_THFTYPE_i,type,
% 2.14/2.35      lAmbulating_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAmpere_THFTYPE_i,type,
% 2.14/2.35      lAmpere_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAmphibian_THFTYPE_i,type,
% 2.14/2.35      lAmphibian_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAmu_THFTYPE_i,type,
% 2.14/2.35      lAmu_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAnatomicalStructure_THFTYPE_i,type,
% 2.14/2.35      lAnatomicalStructure_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAngleMeasure_THFTYPE_i,type,
% 2.14/2.35      lAngleMeasure_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAngstrom_THFTYPE_i,type,
% 2.14/2.35      lAngstrom_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAngularDegree_THFTYPE_i,type,
% 2.14/2.35      lAngularDegree_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAnimacyAttribute_THFTYPE_i,type,
% 2.14/2.35      lAnimacyAttribute_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAnimalAnatomicalStructure_THFTYPE_i,type,
% 2.14/2.35      lAnimalAnatomicalStructure_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAnimalLanguage_THFTYPE_i,type,
% 2.14/2.35      lAnimalLanguage_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAnimalSubstance_THFTYPE_i,type,
% 2.14/2.35      lAnimalSubstance_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAnimal_THFTYPE_i,type,
% 2.14/2.35      lAnimal_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAntiSymmetricPositionalAttribute_THFTYPE_i,type,
% 2.14/2.35      lAntiSymmetricPositionalAttribute_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAntisymmetricRelation_THFTYPE_i,type,
% 2.14/2.35      lAntisymmetricRelation_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lApe_THFTYPE_i,type,
% 2.14/2.35      lApe_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lApril_THFTYPE_i,type,
% 2.14/2.35      lApril_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAquaticMammal_THFTYPE_i,type,
% 2.14/2.35      lAquaticMammal_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lArachnid_THFTYPE_i,type,
% 2.14/2.35      lArachnid_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAreaMeasure_THFTYPE_i,type,
% 2.14/2.35      lAreaMeasure_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lArgument_THFTYPE_i,type,
% 2.14/2.35      lArgument_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lArtWork_THFTYPE_i,type,
% 2.14/2.35      lArtWork_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lArthropod_THFTYPE_i,type,
% 2.14/2.35      lArthropod_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lArticle_THFTYPE_i,type,
% 2.14/2.35      lArticle_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lArtifact_THFTYPE_i,type,
% 2.14/2.35      lArtifact_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lArtificialLanguage_THFTYPE_i,type,
% 2.14/2.35      lArtificialLanguage_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAsexualReproduction_THFTYPE_i,type,
% 2.14/2.35      lAsexualReproduction_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAsleep_THFTYPE_i,type,
% 2.14/2.35      lAsleep_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAssignmentFn_THFTYPE_IiiiI,type,
% 2.14/2.35      lAssignmentFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAssignmentFn_THFTYPE_IiiiiI,type,
% 2.14/2.35      lAssignmentFn_THFTYPE_IiiiiI: $i > $i > $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAssignmentFn_THFTYPE_i,type,
% 2.14/2.35      lAssignmentFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAssociativeFunction_THFTYPE_i,type,
% 2.14/2.35      lAssociativeFunction_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAstronomicalBody_THFTYPE_i,type,
% 2.14/2.35      lAstronomicalBody_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAsymmetricRelation_THFTYPE_i,type,
% 2.14/2.35      lAsymmetricRelation_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAtomGram_THFTYPE_i,type,
% 2.14/2.35      lAtomGram_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAtom_THFTYPE_i,type,
% 2.14/2.35      lAtom_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAtomicNucleus_THFTYPE_i,type,
% 2.14/2.35      lAtomicNucleus_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAttachingDevice_THFTYPE_i,type,
% 2.14/2.35      lAttachingDevice_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAttaching_THFTYPE_i,type,
% 2.14/2.35      lAttaching_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAttack_THFTYPE_i,type,
% 2.14/2.35      lAttack_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAttribute_THFTYPE_i,type,
% 2.14/2.35      lAttribute_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAudible_THFTYPE_i,type,
% 2.14/2.35      lAudible_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAugust_THFTYPE_i,type,
% 2.14/2.35      lAugust_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAutonomicProcess_THFTYPE_i,type,
% 2.14/2.35      lAutonomicProcess_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lAwake_THFTYPE_i,type,
% 2.14/2.35      lAwake_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBackFn_THFTYPE_IiiI,type,
% 2.14/2.35      lBackFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBackFn_THFTYPE_i,type,
% 2.14/2.35      lBackFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBacterium_THFTYPE_i,type,
% 2.14/2.35      lBacterium_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBattle_THFTYPE_i,type,
% 2.14/2.35      lBattle_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBecquerel_THFTYPE_i,type,
% 2.14/2.35      lBecquerel_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBeginFn_THFTYPE_IiiI,type,
% 2.14/2.35      lBeginFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBeginFn_THFTYPE_i,type,
% 2.14/2.35      lBeginFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBeginNodeFn_THFTYPE_IiiI,type,
% 2.14/2.35      lBeginNodeFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBeginNodeFn_THFTYPE_i,type,
% 2.14/2.35      lBeginNodeFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBeliefGroup_THFTYPE_i,type,
% 2.14/2.35      lBeliefGroup_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBelow_THFTYPE_i,type,
% 2.14/2.35      lBelow_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBetting_THFTYPE_i,type,
% 2.14/2.35      lBetting_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBeverage_THFTYPE_i,type,
% 2.14/2.35      lBeverage_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBinaryFunction_THFTYPE_i,type,
% 2.14/2.35      lBinaryFunction_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBinaryNumber_THFTYPE_i,type,
% 2.14/2.35      lBinaryNumber_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBinaryPredicate_THFTYPE_i,type,
% 2.14/2.35      lBinaryPredicate_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBinaryRelation_THFTYPE_i,type,
% 2.14/2.35      lBinaryRelation_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBiologicalAttribute_THFTYPE_i,type,
% 2.14/2.35      lBiologicalAttribute_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBiologicalProcess_THFTYPE_i,type,
% 2.14/2.35      lBiologicalProcess_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBiologicallyActiveSubstance_THFTYPE_i,type,
% 2.14/2.35      lBiologicallyActiveSubstance_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBird_THFTYPE_i,type,
% 2.14/2.35      lBird_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBirth_THFTYPE_i,type,
% 2.14/2.35      lBirth_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBit_THFTYPE_i,type,
% 2.14/2.35      lBit_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBlack_THFTYPE_i,type,
% 2.14/2.35      lBlack_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBlood_THFTYPE_i,type,
% 2.14/2.35      lBlood_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBlue_THFTYPE_i,type,
% 2.14/2.35      lBlue_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBodyCavity_THFTYPE_i,type,
% 2.14/2.35      lBodyCavity_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBodyCovering_THFTYPE_i,type,
% 2.14/2.35      lBodyCovering_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBodyJunction_THFTYPE_i,type,
% 2.14/2.35      lBodyJunction_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBodyMotion_THFTYPE_i,type,
% 2.14/2.35      lBodyMotion_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBodyPart_THFTYPE_i,type,
% 2.14/2.35      lBodyPart_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBodyPosition_THFTYPE_i,type,
% 2.14/2.35      lBodyPosition_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBodySubstance_THFTYPE_i,type,
% 2.14/2.35      lBodySubstance_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBodyVessel_THFTYPE_i,type,
% 2.14/2.35      lBodyVessel_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBoiling_THFTYPE_i,type,
% 2.14/2.35      lBoiling_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBone_THFTYPE_i,type,
% 2.14/2.35      lBone_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBook_THFTYPE_i,type,
% 2.14/2.35      lBook_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBorrowing_THFTYPE_i,type,
% 2.14/2.35      lBorrowing_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBreathing_THFTYPE_i,type,
% 2.14/2.35      lBreathing_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBritishThermalUnit_THFTYPE_i,type,
% 2.14/2.35      lBritishThermalUnit_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBuilding_THFTYPE_i,type,
% 2.14/2.35      lBuilding_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lBuying_THFTYPE_i,type,
% 2.14/2.35      lBuying_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lByte_THFTYPE_i,type,
% 2.14/2.35      lByte_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCalculating_THFTYPE_i,type,
% 2.14/2.35      lCalculating_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCalorie_THFTYPE_i,type,
% 2.14/2.35      lCalorie_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCandela_THFTYPE_i,type,
% 2.14/2.35      lCandela_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCanine_THFTYPE_i,type,
% 2.14/2.35      lCanine_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCarbohydrate_THFTYPE_i,type,
% 2.14/2.35      lCarbohydrate_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCardinalityFn_THFTYPE_IIioIiI,type,
% 2.14/2.35      lCardinalityFn_THFTYPE_IIioIiI: ( $i > $o ) > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCardinalityFn_THFTYPE_IiiI,type,
% 2.14/2.35      lCardinalityFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCardinalityFn_THFTYPE_i,type,
% 2.14/2.35      lCardinalityFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCarnivore_THFTYPE_i,type,
% 2.14/2.35      lCarnivore_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCarrying_THFTYPE_i,type,
% 2.14/2.35      lCarrying_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCaseRole_THFTYPE_i,type,
% 2.14/2.35      lCaseRole_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCeilingFn_THFTYPE_IiiI,type,
% 2.14/2.35      lCeilingFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCeilingFn_THFTYPE_i,type,
% 2.14/2.35      lCeilingFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCell_THFTYPE_i,type,
% 2.14/2.35      lCell_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCelsiusDegree_THFTYPE_i,type,
% 2.14/2.35      lCelsiusDegree_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCenterOfCircleFn_THFTYPE_IiiI,type,
% 2.14/2.35      lCenterOfCircleFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCenterOfCircleFn_THFTYPE_i,type,
% 2.14/2.35      lCenterOfCircleFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCentimeter_THFTYPE_i,type,
% 2.14/2.35      lCentimeter_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCentralTimeZone_THFTYPE_i,type,
% 2.14/2.35      lCentralTimeZone_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCertificate_THFTYPE_i,type,
% 2.14/2.35      lCertificate_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lChangeOfPossession_THFTYPE_i,type,
% 2.14/2.35      lChangeOfPossession_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCharacter_THFTYPE_i,type,
% 2.14/2.35      lCharacter_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lChemicalDecomposition_THFTYPE_i,type,
% 2.14/2.35      lChemicalDecomposition_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lChemicalProcess_THFTYPE_i,type,
% 2.14/2.35      lChemicalProcess_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lChemicalSynthesis_THFTYPE_i,type,
% 2.14/2.35      lChemicalSynthesis_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCircle_THFTYPE_i,type,
% 2.14/2.35      lCircle_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCity_THFTYPE_i,type,
% 2.14/2.35      lCity_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lClass_THFTYPE_i,type,
% 2.14/2.35      lClass_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lClassifying_THFTYPE_i,type,
% 2.14/2.35      lClassifying_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lClosedTwoDimensionalFigure_THFTYPE_i,type,
% 2.14/2.35      lClosedTwoDimensionalFigure_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lClothing_THFTYPE_i,type,
% 2.14/2.35      lClothing_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCloud_THFTYPE_i,type,
% 2.14/2.35      lCloud_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCognitiveAgent_THFTYPE_i,type,
% 2.14/2.35      lCognitiveAgent_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lColdBloodedVertebrate_THFTYPE_i,type,
% 2.14/2.35      lColdBloodedVertebrate_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCollection_THFTYPE_i,type,
% 2.14/2.35      lCollection_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lColorAttribute_THFTYPE_i,type,
% 2.14/2.35      lColorAttribute_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lColoring_THFTYPE_i,type,
% 2.14/2.35      lColoring_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCombining_THFTYPE_i,type,
% 2.14/2.35      lCombining_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCombustion_THFTYPE_i,type,
% 2.14/2.35      lCombustion_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCommercialAgent_THFTYPE_i,type,
% 2.14/2.35      lCommercialAgent_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCommercialService_THFTYPE_i,type,
% 2.14/2.35      lCommercialService_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCommitting_THFTYPE_i,type,
% 2.14/2.35      lCommitting_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCommunication_THFTYPE_i,type,
% 2.14/2.35      lCommunication_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCommutativeFunction_THFTYPE_i,type,
% 2.14/2.35      lCommutativeFunction_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lComparing_THFTYPE_i,type,
% 2.14/2.35      lComparing_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lComplementFn_THFTYPE_i,type,
% 2.14/2.35      lComplementFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lComplexNumber_THFTYPE_i,type,
% 2.14/2.35      lComplexNumber_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCompositeUnitOfMeasure_THFTYPE_i,type,
% 2.14/2.35      lCompositeUnitOfMeasure_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCompoundSubstance_THFTYPE_i,type,
% 2.14/2.35      lCompoundSubstance_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lComputerLanguage_THFTYPE_i,type,
% 2.14/2.35      lComputerLanguage_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lComputerProgram_THFTYPE_i,type,
% 2.14/2.35      lComputerProgram_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lComputerProgramming_THFTYPE_i,type,
% 2.14/2.35      lComputerProgramming_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCondensing_THFTYPE_i,type,
% 2.14/2.35      lCondensing_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lConfining_THFTYPE_i,type,
% 2.14/2.35      lConfining_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lConsciousnessAttribute_THFTYPE_i,type,
% 2.14/2.35      lConsciousnessAttribute_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lConstantQuantity_THFTYPE_i,type,
% 2.14/2.35      lConstantQuantity_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lConstructedLanguage_THFTYPE_i,type,
% 2.14/2.35      lConstructedLanguage_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lConstructing_THFTYPE_i,type,
% 2.14/2.35      lConstructing_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lContentBearingObject_THFTYPE_i,type,
% 2.14/2.35      lContentBearingObject_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lContentBearingPhysical_THFTYPE_i,type,
% 2.14/2.35      lContentBearingPhysical_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lContentBearingProcess_THFTYPE_i,type,
% 2.14/2.35      lContentBearingProcess_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lContentDevelopment_THFTYPE_i,type,
% 2.14/2.35      lContentDevelopment_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lContestAttribute_THFTYPE_i,type,
% 2.14/2.35      lContestAttribute_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lContest_THFTYPE_i,type,
% 2.14/2.35      lContest_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lContinent_THFTYPE_i,type,
% 2.14/2.35      lContinent_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lContinuousFunction_THFTYPE_i,type,
% 2.14/2.35      lContinuousFunction_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lContract_THFTYPE_i,type,
% 2.14/2.35      lContract_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCooking_THFTYPE_i,type,
% 2.14/2.35      lCooking_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCooling_THFTYPE_i,type,
% 2.14/2.35      lCooling_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCooperation_THFTYPE_i,type,
% 2.14/2.35      lCooperation_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCoordinatedUniversalTimeZone_THFTYPE_i,type,
% 2.14/2.35      lCoordinatedUniversalTimeZone_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCorporation_THFTYPE_i,type,
% 2.14/2.35      lCorporation_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCorpuscularObject_THFTYPE_i,type,
% 2.14/2.35      lCorpuscularObject_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCosineFn_THFTYPE_IiiI,type,
% 2.14/2.35      lCosineFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCosineFn_THFTYPE_i,type,
% 2.14/2.35      lCosineFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCoulomb_THFTYPE_i,type,
% 2.14/2.35      lCoulomb_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCounting_THFTYPE_i,type,
% 2.14/2.35      lCounting_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCounty_THFTYPE_i,type,
% 2.14/2.35      lCounty_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCovering_THFTYPE_i,type,
% 2.14/2.35      lCovering_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCreation_THFTYPE_i,type,
% 2.14/2.35      lCreation_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCrustacean_THFTYPE_i,type,
% 2.14/2.35      lCrustacean_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCup_THFTYPE_i,type,
% 2.14/2.35      lCup_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCurrencyMeasure_THFTYPE_i,type,
% 2.14/2.35      lCurrencyMeasure_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCurrency_THFTYPE_i,type,
% 2.14/2.35      lCurrency_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCutSetFn_THFTYPE_IiiI,type,
% 2.14/2.35      lCutSetFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCutSetFn_THFTYPE_i,type,
% 2.14/2.35      lCutSetFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lCutting_THFTYPE_i,type,
% 2.14/2.35      lCutting_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDamaging_THFTYPE_i,type,
% 2.14/2.35      lDamaging_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDamp_THFTYPE_i,type,
% 2.14/2.35      lDamp_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDancing_THFTYPE_i,type,
% 2.14/2.35      lDancing_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDayDuration_THFTYPE_i,type,
% 2.14/2.35      lDayDuration_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDayFn_THFTYPE_IiiiI,type,
% 2.14/2.35      lDayFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDayFn_THFTYPE_i,type,
% 2.14/2.35      lDayFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDay_THFTYPE_i,type,
% 2.14/2.35      lDay_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDead_THFTYPE_i,type,
% 2.14/2.35      lDead_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDeath_THFTYPE_i,type,
% 2.14/2.35      lDeath_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDecember_THFTYPE_i,type,
% 2.14/2.35      lDecember_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDeciding_THFTYPE_i,type,
% 2.14/2.35      lDeciding_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDeclaring_THFTYPE_i,type,
% 2.14/2.35      lDeclaring_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDecoding_THFTYPE_i,type,
% 2.14/2.35      lDecoding_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDecreasing_THFTYPE_i,type,
% 2.14/2.35      lDecreasing_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDeductiveArgument_THFTYPE_i,type,
% 2.14/2.35      lDeductiveArgument_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDefensiveManeuver_THFTYPE_i,type,
% 2.14/2.35      lDefensiveManeuver_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDemonstrating_THFTYPE_i,type,
% 2.14/2.35      lDemonstrating_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDenominatorFn_THFTYPE_i,type,
% 2.14/2.35      lDenominatorFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDensityFn_THFTYPE_i,type,
% 2.14/2.35      lDensityFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDeonticAttribute_THFTYPE_i,type,
% 2.14/2.35      lDeonticAttribute_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDesigning_THFTYPE_i,type,
% 2.14/2.35      lDesigning_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDestruction_THFTYPE_i,type,
% 2.14/2.35      lDestruction_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDetaching_THFTYPE_i,type,
% 2.14/2.35      lDetaching_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDevelopmentalAttribute_THFTYPE_i,type,
% 2.14/2.35      lDevelopmentalAttribute_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDevice_THFTYPE_i,type,
% 2.14/2.35      lDevice_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDiagnosticProcess_THFTYPE_i,type,
% 2.14/2.35      lDiagnosticProcess_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDigesting_THFTYPE_i,type,
% 2.14/2.35      lDigesting_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDirectedGraph_THFTYPE_i,type,
% 2.14/2.35      lDirectedGraph_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDirecting_THFTYPE_i,type,
% 2.14/2.35      lDirecting_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDirectionChange_THFTYPE_i,type,
% 2.14/2.35      lDirectionChange_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDirectionalAttribute_THFTYPE_i,type,
% 2.14/2.35      lDirectionalAttribute_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDisagreeing_THFTYPE_i,type,
% 2.14/2.35      lDisagreeing_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDiscovering_THFTYPE_i,type,
% 2.14/2.35      lDiscovering_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDiseaseOrSyndrome_THFTYPE_i,type,
% 2.14/2.35      lDiseaseOrSyndrome_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDisseminating_THFTYPE_i,type,
% 2.14/2.35      lDisseminating_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDivisionFn_THFTYPE_IiiiI,type,
% 2.14/2.35      lDivisionFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDivisionFn_THFTYPE_i,type,
% 2.14/2.35      lDivisionFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDrinking_THFTYPE_i,type,
% 2.14/2.35      lDrinking_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDriving_THFTYPE_i,type,
% 2.14/2.35      lDriving_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDry_THFTYPE_i,type,
% 2.14/2.35      lDry_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDrying_THFTYPE_i,type,
% 2.14/2.35      lDrying_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lDualObjectProcess_THFTYPE_i,type,
% 2.14/2.35      lDualObjectProcess_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lEast_THFTYPE_i,type,
% 2.14/2.35      lEast_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lEasternTimeZone_THFTYPE_i,type,
% 2.14/2.35      lEasternTimeZone_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lEating_THFTYPE_i,type,
% 2.14/2.35      lEating_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lEditionFn_THFTYPE_IiiiI,type,
% 2.14/2.35      lEditionFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lEditionFn_THFTYPE_i,type,
% 2.14/2.35      lEditionFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lEducationalOrganization_THFTYPE_i,type,
% 2.14/2.35      lEducationalOrganization_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lEducationalProcess_THFTYPE_i,type,
% 2.14/2.35      lEducationalProcess_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lEgg_THFTYPE_i,type,
% 2.14/2.35      lEgg_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lElection_THFTYPE_i,type,
% 2.14/2.35      lElection_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lElectronVolt_THFTYPE_i,type,
% 2.14/2.35      lElectronVolt_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lElectron_THFTYPE_i,type,
% 2.14/2.35      lElectron_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lElementalSubstance_THFTYPE_i,type,
% 2.14/2.35      lElementalSubstance_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lEmbryonic_THFTYPE_i,type,
% 2.14/2.35      lEmbryonic_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lEmotionalState_THFTYPE_i,type,
% 2.14/2.35      lEmotionalState_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lEncoding_THFTYPE_i,type,
% 2.14/2.35      lEncoding_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lEndFn_THFTYPE_IiiI,type,
% 2.14/2.35      lEndFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lEndFn_THFTYPE_i,type,
% 2.14/2.35      lEndFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lEndNodeFn_THFTYPE_IiiI,type,
% 2.14/2.35      lEndNodeFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lEndNodeFn_THFTYPE_i,type,
% 2.14/2.35      lEndNodeFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lEngineeringComponent_THFTYPE_i,type,
% 2.14/2.35      lEngineeringComponent_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lEngineeringConnection_THFTYPE_i,type,
% 2.14/2.35      lEngineeringConnection_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lEnglishLanguage_THFTYPE_i,type,
% 2.14/2.35      lEnglishLanguage_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lEntity_THFTYPE_i,type,
% 2.14/2.35      lEntity_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lEnzyme_THFTYPE_i,type,
% 2.14/2.35      lEnzyme_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lEquivalenceRelation_THFTYPE_i,type,
% 2.14/2.35      lEquivalenceRelation_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lEthnicGroup_THFTYPE_i,type,
% 2.14/2.35      lEthnicGroup_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lEuroCent_THFTYPE_i,type,
% 2.14/2.35      lEuroCent_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lEuroDollar_THFTYPE_i,type,
% 2.14/2.35      lEuroDollar_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lEvaporating_THFTYPE_i,type,
% 2.14/2.35      lEvaporating_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lEvenInteger_THFTYPE_i,type,
% 2.14/2.35      lEvenInteger_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lExperimenting_THFTYPE_i,type,
% 2.14/2.35      lExperimenting_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lExplanation_THFTYPE_i,type,
% 2.14/2.35      lExplanation_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lExponentiationFn_THFTYPE_IiiiI,type,
% 2.14/2.35      lExponentiationFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lExponentiationFn_THFTYPE_i,type,
% 2.14/2.35      lExponentiationFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lExpressing_THFTYPE_i,type,
% 2.14/2.35      lExpressing_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lExtensionFn_THFTYPE_IiiI,type,
% 2.14/2.35      lExtensionFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lExtensionFn_THFTYPE_i,type,
% 2.14/2.35      lExtensionFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFabric_THFTYPE_i,type,
% 2.14/2.35      lFabric_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFactualText_THFTYPE_i,type,
% 2.14/2.35      lFactualText_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFahrenheitDegree_THFTYPE_i,type,
% 2.14/2.35      lFahrenheitDegree_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFalling_THFTYPE_i,type,
% 2.14/2.35      lFalling_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFamilyGroup_THFTYPE_i,type,
% 2.14/2.35      lFamilyGroup_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFarad_THFTYPE_i,type,
% 2.14/2.35      lFarad_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFatTissue_THFTYPE_i,type,
% 2.14/2.35      lFatTissue_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFebruary_THFTYPE_i,type,
% 2.14/2.35      lFebruary_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFeline_THFTYPE_i,type,
% 2.14/2.35      lFeline_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFemale_THFTYPE_i,type,
% 2.14/2.35      lFemale_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFern_THFTYPE_i,type,
% 2.14/2.35      lFern_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFictionalText_THFTYPE_i,type,
% 2.14/2.35      lFictionalText_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFieldOfStudy_THFTYPE_i,type,
% 2.14/2.35      lFieldOfStudy_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFillable_THFTYPE_i,type,
% 2.14/2.35      lFillable_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFinancialInstrument_THFTYPE_i,type,
% 2.14/2.35      lFinancialInstrument_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFinancialTransaction_THFTYPE_i,type,
% 2.14/2.35      lFinancialTransaction_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFiniteSet_THFTYPE_i,type,
% 2.14/2.35      lFiniteSet_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFish_THFTYPE_i,type,
% 2.14/2.35      lFish_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFlammable_THFTYPE_i,type,
% 2.14/2.35      lFlammable_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFloorFn_THFTYPE_IiiI,type,
% 2.14/2.35      lFloorFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFloorFn_THFTYPE_i,type,
% 2.14/2.35      lFloorFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFlowRegion_THFTYPE_i,type,
% 2.14/2.35      lFlowRegion_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFloweringPlant_THFTYPE_i,type,
% 2.14/2.35      lFloweringPlant_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFluid_THFTYPE_i,type,
% 2.14/2.35      lFluid_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFood_THFTYPE_i,type,
% 2.14/2.35      lFood_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFootLength_THFTYPE_i,type,
% 2.14/2.35      lFootLength_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFormula_THFTYPE_i,type,
% 2.14/2.35      lFormula_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFreezing_THFTYPE_i,type,
% 2.14/2.35      lFreezing_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFrequencyMeasure_THFTYPE_i,type,
% 2.14/2.35      lFrequencyMeasure_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFreshWaterArea_THFTYPE_i,type,
% 2.14/2.35      lFreshWaterArea_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFriday_THFTYPE_i,type,
% 2.14/2.35      lFriday_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFrontFn_THFTYPE_IiiI,type,
% 2.14/2.35      lFrontFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFrontFn_THFTYPE_i,type,
% 2.14/2.35      lFrontFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFruitOrVegetable_THFTYPE_i,type,
% 2.14/2.35      lFruitOrVegetable_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFullyFormed_THFTYPE_i,type,
% 2.14/2.35      lFullyFormed_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFunctionQuantity_THFTYPE_i,type,
% 2.14/2.35      lFunctionQuantity_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFunction_THFTYPE_i,type,
% 2.14/2.35      lFunction_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFunding_THFTYPE_i,type,
% 2.14/2.35      lFunding_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFungus_THFTYPE_i,type,
% 2.14/2.35      lFungus_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFutureFn_THFTYPE_IiiI,type,
% 2.14/2.35      lFutureFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lFutureFn_THFTYPE_i,type,
% 2.14/2.35      lFutureFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGame_THFTYPE_i,type,
% 2.14/2.35      lGame_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGasMixture_THFTYPE_i,type,
% 2.14/2.35      lGasMixture_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGasMotion_THFTYPE_i,type,
% 2.14/2.35      lGasMotion_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGas_THFTYPE_i,type,
% 2.14/2.35      lGas_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGeneralizedIntersectionFn_THFTYPE_i,type,
% 2.14/2.35      lGeneralizedIntersectionFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGeneralizedUnionFn_THFTYPE_i,type,
% 2.14/2.35      lGeneralizedUnionFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGeographicArea_THFTYPE_i,type,
% 2.14/2.35      lGeographicArea_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGeologicalProcess_THFTYPE_i,type,
% 2.14/2.35      lGeologicalProcess_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGeometricFigure_THFTYPE_i,type,
% 2.14/2.35      lGeometricFigure_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGeometricPoint_THFTYPE_i,type,
% 2.14/2.35      lGeometricPoint_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGeopoliticalArea_THFTYPE_i,type,
% 2.14/2.35      lGeopoliticalArea_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGesture_THFTYPE_i,type,
% 2.14/2.35      lGesture_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGetting_THFTYPE_i,type,
% 2.14/2.35      lGetting_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGigaFn_THFTYPE_IiiI,type,
% 2.14/2.35      lGigaFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGigaFn_THFTYPE_i,type,
% 2.14/2.35      lGigaFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGivingBack_THFTYPE_i,type,
% 2.14/2.35      lGivingBack_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGiving_THFTYPE_i,type,
% 2.14/2.35      lGiving_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGland_THFTYPE_i,type,
% 2.14/2.35      lGland_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGovernmentFn_THFTYPE_IiiI,type,
% 2.14/2.35      lGovernmentFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGovernmentFn_THFTYPE_i,type,
% 2.14/2.35      lGovernmentFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGovernmentOrganization_THFTYPE_i,type,
% 2.14/2.35      lGovernmentOrganization_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGovernment_THFTYPE_i,type,
% 2.14/2.35      lGovernment_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGrabbing_THFTYPE_i,type,
% 2.14/2.35      lGrabbing_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGraduation_THFTYPE_i,type,
% 2.14/2.35      lGraduation_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGram_THFTYPE_i,type,
% 2.14/2.35      lGram_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGraphArc_THFTYPE_i,type,
% 2.14/2.35      lGraphArc_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGraphCircuit_THFTYPE_i,type,
% 2.14/2.35      lGraphCircuit_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGraphElement_THFTYPE_i,type,
% 2.14/2.35      lGraphElement_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGraphLoop_THFTYPE_i,type,
% 2.14/2.35      lGraphLoop_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGraphNode_THFTYPE_i,type,
% 2.14/2.35      lGraphNode_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGraphPathFn_THFTYPE_IiiiI,type,
% 2.14/2.35      lGraphPathFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGraphPathFn_THFTYPE_i,type,
% 2.14/2.35      lGraphPathFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGraphPath_THFTYPE_i,type,
% 2.14/2.35      lGraphPath_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGraph_THFTYPE_i,type,
% 2.14/2.35      lGraph_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGray_THFTYPE_i,type,
% 2.14/2.35      lGray_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGreatestCommonDivisorFn_THFTYPE_IiiI,type,
% 2.14/2.35      lGreatestCommonDivisorFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGreatestCommonDivisorFn_THFTYPE_i,type,
% 2.14/2.35      lGreatestCommonDivisorFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGroupOfPeople_THFTYPE_i,type,
% 2.14/2.35      lGroupOfPeople_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGroup_THFTYPE_i,type,
% 2.14/2.35      lGroup_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGrowth_THFTYPE_i,type,
% 2.14/2.35      lGrowth_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lGuiding_THFTYPE_i,type,
% 2.14/2.35      lGuiding_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lHearing_THFTYPE_i,type,
% 2.14/2.35      lHearing_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lHeating_THFTYPE_i,type,
% 2.14/2.35      lHeating_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lHenry_THFTYPE_i,type,
% 2.14/2.35      lHenry_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lHertz_THFTYPE_i,type,
% 2.14/2.35      lHertz_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lHiring_THFTYPE_i,type,
% 2.14/2.35      lHiring_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lHoleHostFn_THFTYPE_IiiI,type,
% 2.14/2.35      lHoleHostFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lHoleHostFn_THFTYPE_i,type,
% 2.14/2.35      lHoleHostFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lHoleSkinFn_THFTYPE_IiiI,type,
% 2.14/2.35      lHoleSkinFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lHoleSkinFn_THFTYPE_i,type,
% 2.14/2.35      lHoleSkinFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lHole_THFTYPE_i,type,
% 2.14/2.35      lHole_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lHominid_THFTYPE_i,type,
% 2.14/2.35      lHominid_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lHoofedMammal_THFTYPE_i,type,
% 2.14/2.35      lHoofedMammal_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lHorizontal_THFTYPE_i,type,
% 2.14/2.35      lHorizontal_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lHormone_THFTYPE_i,type,
% 2.14/2.35      lHormone_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lHorsepower_THFTYPE_i,type,
% 2.14/2.35      lHorsepower_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lHourDuration_THFTYPE_i,type,
% 2.14/2.35      lHourDuration_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lHourFn_THFTYPE_IiiiI,type,
% 2.14/2.35      lHourFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lHourFn_THFTYPE_i,type,
% 2.14/2.35      lHourFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lHour_THFTYPE_i,type,
% 2.14/2.35      lHour_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lHouse_THFTYPE_i,type,
% 2.14/2.35      lHouse_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lHumanLanguage_THFTYPE_i,type,
% 2.14/2.35      lHumanLanguage_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lHuman_THFTYPE_i,type,
% 2.14/2.35      lHuman_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lHunting_THFTYPE_i,type,
% 2.14/2.35      lHunting_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lIcon_THFTYPE_i,type,
% 2.14/2.35      lIcon_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lIlluminated_THFTYPE_i,type,
% 2.14/2.35      lIlluminated_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lImaginaryNumber_THFTYPE_i,type,
% 2.14/2.35      lImaginaryNumber_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lImaginaryPartFn_THFTYPE_IiiI,type,
% 2.14/2.35      lImaginaryPartFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lImaginaryPartFn_THFTYPE_i,type,
% 2.14/2.35      lImaginaryPartFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lImmediateFamilyFn_THFTYPE_IiiI,type,
% 2.14/2.35      lImmediateFamilyFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lImmediateFamilyFn_THFTYPE_i,type,
% 2.14/2.35      lImmediateFamilyFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lImmediateFutureFn_THFTYPE_IiiI,type,
% 2.14/2.35      lImmediateFutureFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lImmediateFutureFn_THFTYPE_i,type,
% 2.14/2.35      lImmediateFutureFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lImmediatePastFn_THFTYPE_IiiI,type,
% 2.14/2.35      lImmediatePastFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lImmediatePastFn_THFTYPE_i,type,
% 2.14/2.35      lImmediatePastFn_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lImpacting_THFTYPE_i,type,
% 2.14/2.35      lImpacting_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lImpelling_THFTYPE_i,type,
% 2.14/2.35      lImpelling_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lInchMercury_THFTYPE_i,type,
% 2.14/2.35      lInchMercury_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lInch_THFTYPE_i,type,
% 2.14/2.35      lInch_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lIncreasing_THFTYPE_i,type,
% 2.14/2.35      lIncreasing_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lInductiveArgument_THFTYPE_i,type,
% 2.14/2.35      lInductiveArgument_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lInformationMeasure_THFTYPE_i,type,
% 2.14/2.35      lInformationMeasure_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lIngesting_THFTYPE_i,type,
% 2.14/2.35      lIngesting_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lInheritableRelation_THFTYPE_i,type,
% 2.14/2.35      lInheritableRelation_THFTYPE_i: $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lInitialNodeFn_THFTYPE_IiiI,type,
% 2.14/2.35      lInitialNodeFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.35  
% 2.14/2.35  thf(lInitialNodeFn_THFTYPE_i,type,
% 2.14/2.35      lInitialNodeFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lInjecting_THFTYPE_i,type,
% 2.14/2.36      lInjecting_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lInjuring_THFTYPE_i,type,
% 2.14/2.36      lInjuring_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lInsect_THFTYPE_i,type,
% 2.14/2.36      lInsect_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lInserting_THFTYPE_i,type,
% 2.14/2.36      lInserting_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lIntegerSquareRootFn_THFTYPE_i,type,
% 2.14/2.36      lIntegerSquareRootFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lInteger_THFTYPE_i,type,
% 2.14/2.36      lInteger_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lIntentionalProcess_THFTYPE_i,type,
% 2.14/2.36      lIntentionalProcess_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lIntentionalPsychologicalProcess_THFTYPE_i,type,
% 2.14/2.36      lIntentionalPsychologicalProcess_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lIntentionalRelation_THFTYPE_i,type,
% 2.14/2.36      lIntentionalRelation_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lInternalAttribute_THFTYPE_i,type,
% 2.14/2.36      lInternalAttribute_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lInternalChange_THFTYPE_i,type,
% 2.14/2.36      lInternalChange_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lInterpreting_THFTYPE_i,type,
% 2.14/2.36      lInterpreting_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lIntersectionFn_THFTYPE_i,type,
% 2.14/2.36      lIntersectionFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lIntervalFn_THFTYPE_IiiiI,type,
% 2.14/2.36      lIntervalFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lIntervalFn_THFTYPE_i,type,
% 2.14/2.36      lIntervalFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lIntransitiveRelation_THFTYPE_i,type,
% 2.14/2.36      lIntransitiveRelation_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lInvalidDeductiveArgument_THFTYPE_i,type,
% 2.14/2.36      lInvalidDeductiveArgument_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lInvertebrate_THFTYPE_i,type,
% 2.14/2.36      lInvertebrate_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lInvestigating_THFTYPE_i,type,
% 2.14/2.36      lInvestigating_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lIrrationalNumber_THFTYPE_i,type,
% 2.14/2.36      lIrrationalNumber_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lIrreflexiveRelation_THFTYPE_i,type,
% 2.14/2.36      lIrreflexiveRelation_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lIsland_THFTYPE_i,type,
% 2.14/2.36      lIsland_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lJanuary_THFTYPE_i,type,
% 2.14/2.36      lJanuary_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lJoiningAnOrganization_THFTYPE_i,type,
% 2.14/2.36      lJoiningAnOrganization_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lJoule_THFTYPE_i,type,
% 2.14/2.36      lJoule_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lJudging_THFTYPE_i,type,
% 2.14/2.36      lJudging_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lJudicialOrganization_THFTYPE_i,type,
% 2.14/2.36      lJudicialOrganization_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lJudicialProcess_THFTYPE_i,type,
% 2.14/2.36      lJudicialProcess_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lJuly_THFTYPE_i,type,
% 2.14/2.36      lJuly_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lJune_THFTYPE_i,type,
% 2.14/2.36      lJune_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lKappaFn_THFTYPE_i,type,
% 2.14/2.36      lKappaFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lKeeping_THFTYPE_i,type,
% 2.14/2.36      lKeeping_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lKelvinDegree_THFTYPE_i,type,
% 2.14/2.36      lKelvinDegree_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lKilling_THFTYPE_i,type,
% 2.14/2.36      lKilling_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lKiloByte_THFTYPE_i,type,
% 2.14/2.36      lKiloByte_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lKiloFn_THFTYPE_IiiI,type,
% 2.14/2.36      lKiloFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lKiloFn_THFTYPE_i,type,
% 2.14/2.36      lKiloFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lKilogram_THFTYPE_i,type,
% 2.14/2.36      lKilogram_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lKilometer_THFTYPE_i,type,
% 2.14/2.36      lKilometer_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lLandArea_THFTYPE_i,type,
% 2.14/2.36      lLandArea_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lLandTransitway_THFTYPE_i,type,
% 2.14/2.36      lLandTransitway_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lLanguage_THFTYPE_i,type,
% 2.14/2.36      lLanguage_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lLarval_THFTYPE_i,type,
% 2.14/2.36      lLarval_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lLaw_THFTYPE_i,type,
% 2.14/2.36      lLaw_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lLeapYear_THFTYPE_i,type,
% 2.14/2.36      lLeapYear_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lLearning_THFTYPE_i,type,
% 2.14/2.36      lLearning_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lLeastCommonMultipleFn_THFTYPE_IiiI,type,
% 2.14/2.36      lLeastCommonMultipleFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lLeastCommonMultipleFn_THFTYPE_i,type,
% 2.14/2.36      lLeastCommonMultipleFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lLeavingAnOrganization_THFTYPE_i,type,
% 2.14/2.36      lLeavingAnOrganization_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lLeft_THFTYPE_i,type,
% 2.14/2.36      lLeft_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lLegalAction_THFTYPE_i,type,
% 2.14/2.36      lLegalAction_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lLegalDecision_THFTYPE_i,type,
% 2.14/2.36      lLegalDecision_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lLending_THFTYPE_i,type,
% 2.14/2.36      lLending_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lLengthMeasure_THFTYPE_i,type,
% 2.14/2.36      lLengthMeasure_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lLikely_THFTYPE_i,type,
% 2.14/2.36      lLikely_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lLinguisticCommunication_THFTYPE_i,type,
% 2.14/2.36      lLinguisticCommunication_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lLinguisticExpression_THFTYPE_i,type,
% 2.14/2.36      lLinguisticExpression_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lLiquidMixture_THFTYPE_i,type,
% 2.14/2.36      lLiquidMixture_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lLiquidMotion_THFTYPE_i,type,
% 2.14/2.36      lLiquidMotion_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lLiquid_THFTYPE_i,type,
% 2.14/2.36      lLiquid_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lListConcatenateFn_THFTYPE_IiiiI,type,
% 2.14/2.36      lListConcatenateFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lListConcatenateFn_THFTYPE_i,type,
% 2.14/2.36      lListConcatenateFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lListFn_THFTYPE_IiiI,type,
% 2.14/2.36      lListFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lListFn_THFTYPE_IiiiI,type,
% 2.14/2.36      lListFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lListFn_THFTYPE_i,type,
% 2.14/2.36      lListFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lListLengthFn_THFTYPE_IiiI,type,
% 2.14/2.36      lListLengthFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lListLengthFn_THFTYPE_i,type,
% 2.14/2.36      lListLengthFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lListOrderFn_THFTYPE_IiiiI,type,
% 2.14/2.36      lListOrderFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lListOrderFn_THFTYPE_i,type,
% 2.14/2.36      lListOrderFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lList_THFTYPE_i,type,
% 2.14/2.36      lList_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lListening_THFTYPE_i,type,
% 2.14/2.36      lListening_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lLiter_THFTYPE_i,type,
% 2.14/2.36      lLiter_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lLiving_THFTYPE_i,type,
% 2.14/2.36      lLiving_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lLogFn_THFTYPE_i,type,
% 2.14/2.36      lLogFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lLogicalOperator_THFTYPE_i,type,
% 2.14/2.36      lLogicalOperator_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lLooking_THFTYPE_i,type,
% 2.14/2.36      lLooking_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lLumen_THFTYPE_i,type,
% 2.14/2.36      lLumen_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lLux_THFTYPE_i,type,
% 2.14/2.36      lLux_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMachine_THFTYPE_i,type,
% 2.14/2.36      lMachine_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMagnitudeFn_THFTYPE_IiiI,type,
% 2.14/2.36      lMagnitudeFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMagnitudeFn_THFTYPE_i,type,
% 2.14/2.36      lMagnitudeFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMaintaining_THFTYPE_i,type,
% 2.14/2.36      lMaintaining_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMaking_THFTYPE_i,type,
% 2.14/2.36      lMaking_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMale_THFTYPE_i,type,
% 2.14/2.36      lMale_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMammal_THFTYPE_i,type,
% 2.14/2.36      lMammal_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMan_THFTYPE_i,type,
% 2.14/2.36      lMan_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lManaging_THFTYPE_i,type,
% 2.14/2.36      lManaging_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lManeuver_THFTYPE_i,type,
% 2.14/2.36      lManeuver_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lManualHumanLanguage_THFTYPE_i,type,
% 2.14/2.36      lManualHumanLanguage_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lManufacture_THFTYPE_i,type,
% 2.14/2.36      lManufacture_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lManufacturer_THFTYPE_i,type,
% 2.14/2.36      lManufacturer_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMarch_THFTYPE_i,type,
% 2.14/2.36      lMarch_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMarsupial_THFTYPE_i,type,
% 2.14/2.36      lMarsupial_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMassMeasure_THFTYPE_i,type,
% 2.14/2.36      lMassMeasure_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMatriculation_THFTYPE_i,type,
% 2.14/2.36      lMatriculation_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMaxFn_THFTYPE_IiiiI,type,
% 2.14/2.36      lMaxFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMaxFn_THFTYPE_i,type,
% 2.14/2.36      lMaxFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMaximalWeightedPathFn_THFTYPE_IiiiI,type,
% 2.14/2.36      lMaximalWeightedPathFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMaximalWeightedPathFn_THFTYPE_i,type,
% 2.14/2.36      lMaximalWeightedPathFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMay_THFTYPE_i,type,
% 2.14/2.36      lMay_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMeasureFn_THFTYPE_IiiiI,type,
% 2.14/2.36      lMeasureFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMeasureFn_THFTYPE_i,type,
% 2.14/2.36      lMeasureFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMeasuringDevice_THFTYPE_i,type,
% 2.14/2.36      lMeasuringDevice_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMeasuring_THFTYPE_i,type,
% 2.14/2.36      lMeasuring_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMeat_THFTYPE_i,type,
% 2.14/2.36      lMeat_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMeeting_THFTYPE_i,type,
% 2.14/2.36      lMeeting_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMegaByte_THFTYPE_i,type,
% 2.14/2.36      lMegaByte_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMegaFn_THFTYPE_IiiI,type,
% 2.14/2.36      lMegaFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMegaFn_THFTYPE_i,type,
% 2.14/2.36      lMegaFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMelting_THFTYPE_i,type,
% 2.14/2.36      lMelting_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMercantileOrganization_THFTYPE_i,type,
% 2.14/2.36      lMercantileOrganization_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMereologicalDifferenceFn_THFTYPE_IiiiI,type,
% 2.14/2.36      lMereologicalDifferenceFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMereologicalDifferenceFn_THFTYPE_i,type,
% 2.14/2.36      lMereologicalDifferenceFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMereologicalProductFn_THFTYPE_IiiiI,type,
% 2.14/2.36      lMereologicalProductFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMereologicalProductFn_THFTYPE_i,type,
% 2.14/2.36      lMereologicalProductFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMereologicalSumFn_THFTYPE_IiiiI,type,
% 2.14/2.36      lMereologicalSumFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMereologicalSumFn_THFTYPE_i,type,
% 2.14/2.36      lMereologicalSumFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMetal_THFTYPE_i,type,
% 2.14/2.36      lMetal_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMeter_THFTYPE_i,type,
% 2.14/2.36      lMeter_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMicroFn_THFTYPE_IiiI,type,
% 2.14/2.36      lMicroFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMicroFn_THFTYPE_i,type,
% 2.14/2.36      lMicroFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMicroorganism_THFTYPE_i,type,
% 2.14/2.36      lMicroorganism_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMile_THFTYPE_i,type,
% 2.14/2.36      lMile_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMilitaryForce_THFTYPE_i,type,
% 2.14/2.36      lMilitaryForce_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMilitaryOrganization_THFTYPE_i,type,
% 2.14/2.36      lMilitaryOrganization_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMilitaryProcess_THFTYPE_i,type,
% 2.14/2.36      lMilitaryProcess_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMilliFn_THFTYPE_IiiI,type,
% 2.14/2.36      lMilliFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMilliFn_THFTYPE_i,type,
% 2.14/2.36      lMilliFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMillimeter_THFTYPE_i,type,
% 2.14/2.36      lMillimeter_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMinFn_THFTYPE_IiiiI,type,
% 2.14/2.36      lMinFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMinFn_THFTYPE_i,type,
% 2.14/2.36      lMinFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMineral_THFTYPE_i,type,
% 2.14/2.36      lMineral_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMinimalCutSetFn_THFTYPE_IiiI,type,
% 2.14/2.36      lMinimalCutSetFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMinimalCutSetFn_THFTYPE_i,type,
% 2.14/2.36      lMinimalCutSetFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMinimalWeightedPathFn_THFTYPE_IiiiI,type,
% 2.14/2.36      lMinimalWeightedPathFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMinimalWeightedPathFn_THFTYPE_i,type,
% 2.14/2.36      lMinimalWeightedPathFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMinuteDuration_THFTYPE_i,type,
% 2.14/2.36      lMinuteDuration_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMinuteFn_THFTYPE_IiiiI,type,
% 2.14/2.36      lMinuteFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMinuteFn_THFTYPE_i,type,
% 2.14/2.36      lMinuteFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMinute_THFTYPE_i,type,
% 2.14/2.36      lMinute_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMixture_THFTYPE_i,type,
% 2.14/2.36      lMixture_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMmMercury_THFTYPE_i,type,
% 2.14/2.36      lMmMercury_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMole_THFTYPE_i,type,
% 2.14/2.36      lMole_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMolecule_THFTYPE_i,type,
% 2.14/2.36      lMolecule_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMollusk_THFTYPE_i,type,
% 2.14/2.36      lMollusk_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMonday_THFTYPE_i,type,
% 2.14/2.36      lMonday_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMonkey_THFTYPE_i,type,
% 2.14/2.36      lMonkey_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMonochromatic_THFTYPE_i,type,
% 2.14/2.36      lMonochromatic_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMonthDuration_THFTYPE_i,type,
% 2.14/2.36      lMonthDuration_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMonthFn_THFTYPE_IiiiI,type,
% 2.14/2.36      lMonthFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMonthFn_THFTYPE_i,type,
% 2.14/2.36      lMonthFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMonth_THFTYPE_i,type,
% 2.14/2.36      lMonth_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMorpheme_THFTYPE_i,type,
% 2.14/2.36      lMorpheme_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMoss_THFTYPE_i,type,
% 2.14/2.36      lMoss_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMotionDownward_THFTYPE_i,type,
% 2.14/2.36      lMotionDownward_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMotionPicture_THFTYPE_i,type,
% 2.14/2.36      lMotionPicture_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMotionUpward_THFTYPE_i,type,
% 2.14/2.36      lMotionUpward_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMotion_THFTYPE_i,type,
% 2.14/2.36      lMotion_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMountainTimeZone_THFTYPE_i,type,
% 2.14/2.36      lMountainTimeZone_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMultiGraph_THFTYPE_i,type,
% 2.14/2.36      lMultiGraph_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMultiplicationFn_THFTYPE_IiiiI,type,
% 2.14/2.36      lMultiplicationFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMultiplicationFn_THFTYPE_i,type,
% 2.14/2.36      lMultiplicationFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMuscle_THFTYPE_i,type,
% 2.14/2.36      lMuscle_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMusic_THFTYPE_i,type,
% 2.14/2.36      lMusic_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMusicalInstrument_THFTYPE_i,type,
% 2.14/2.36      lMusicalInstrument_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMutuallyDisjointClass_THFTYPE_i,type,
% 2.14/2.36      lMutuallyDisjointClass_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lMyriapod_THFTYPE_i,type,
% 2.14/2.36      lMyriapod_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNakedPromise_THFTYPE_i,type,
% 2.14/2.36      lNakedPromise_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNaming_THFTYPE_i,type,
% 2.14/2.36      lNaming_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNanoFn_THFTYPE_IiiI,type,
% 2.14/2.36      lNanoFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNanoFn_THFTYPE_i,type,
% 2.14/2.36      lNanoFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNation_THFTYPE_i,type,
% 2.14/2.36      lNation_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNaturalLanguage_THFTYPE_i,type,
% 2.14/2.36      lNaturalLanguage_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNaturalProcess_THFTYPE_i,type,
% 2.14/2.36      lNaturalProcess_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNaturalSubstance_THFTYPE_i,type,
% 2.14/2.36      lNaturalSubstance_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNear_THFTYPE_i,type,
% 2.14/2.36      lNear_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNecessity_THFTYPE_i,type,
% 2.14/2.36      lNecessity_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNegativeInfinity_THFTYPE_i,type,
% 2.14/2.36      lNegativeInfinity_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNegativeInteger_THFTYPE_i,type,
% 2.14/2.36      lNegativeInteger_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNegativeRealNumber_THFTYPE_i,type,
% 2.14/2.36      lNegativeRealNumber_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNeutron_THFTYPE_i,type,
% 2.14/2.36      lNeutron_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNewton_THFTYPE_i,type,
% 2.14/2.36      lNewton_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNonCompositeUnitOfMeasure_THFTYPE_i,type,
% 2.14/2.36      lNonCompositeUnitOfMeasure_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNonFloweringPlant_THFTYPE_i,type,
% 2.14/2.36      lNonFloweringPlant_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNonFullyFormed_THFTYPE_i,type,
% 2.14/2.36      lNonFullyFormed_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNonNullSet_THFTYPE_i,type,
% 2.14/2.36      lNonNullSet_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNonnegativeInteger_THFTYPE_i,type,
% 2.14/2.36      lNonnegativeInteger_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNonnegativeRealNumber_THFTYPE_i,type,
% 2.14/2.36      lNonnegativeRealNumber_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNormativeAttribute_THFTYPE_i,type,
% 2.14/2.36      lNormativeAttribute_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNorth_THFTYPE_i,type,
% 2.14/2.36      lNorth_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNounPhrase_THFTYPE_i,type,
% 2.14/2.36      lNounPhrase_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNoun_THFTYPE_i,type,
% 2.14/2.36      lNoun_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNovember_THFTYPE_i,type,
% 2.14/2.36      lNovember_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNullList_THFTYPE_i,type,
% 2.14/2.36      lNullList_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNullSet_THFTYPE_i,type,
% 2.14/2.36      lNullSet_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNumberE_THFTYPE_i,type,
% 2.14/2.36      lNumberE_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNumber_THFTYPE_i,type,
% 2.14/2.36      lNumber_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNumeratorFn_THFTYPE_i,type,
% 2.14/2.36      lNumeratorFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lNutrient_THFTYPE_i,type,
% 2.14/2.36      lNutrient_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lObjectAttitude_THFTYPE_i,type,
% 2.14/2.36      lObjectAttitude_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lObject_THFTYPE_i,type,
% 2.14/2.36      lObject_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lObjectiveNorm_THFTYPE_i,type,
% 2.14/2.36      lObjectiveNorm_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lObligation_THFTYPE_i,type,
% 2.14/2.36      lObligation_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lOctober_THFTYPE_i,type,
% 2.14/2.36      lOctober_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lOddInteger_THFTYPE_i,type,
% 2.14/2.36      lOddInteger_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lOffering_THFTYPE_i,type,
% 2.14/2.36      lOffering_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lOhm_THFTYPE_i,type,
% 2.14/2.36      lOhm_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lOlfactoryAttribute_THFTYPE_i,type,
% 2.14/2.36      lOlfactoryAttribute_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lOn_THFTYPE_i,type,
% 2.14/2.36      lOn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lOneDimensionalFigure_THFTYPE_i,type,
% 2.14/2.36      lOneDimensionalFigure_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lOneToOneFunction_THFTYPE_i,type,
% 2.14/2.36      lOneToOneFunction_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lOpenTwoDimensionalFigure_THFTYPE_i,type,
% 2.14/2.36      lOpenTwoDimensionalFigure_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lOrdering_THFTYPE_i,type,
% 2.14/2.36      lOrdering_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lOrganOrTissueProcess_THFTYPE_i,type,
% 2.14/2.36      lOrganOrTissueProcess_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lOrgan_THFTYPE_i,type,
% 2.14/2.36      lOrgan_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lOrganicObject_THFTYPE_i,type,
% 2.14/2.36      lOrganicObject_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lOrganismProcess_THFTYPE_i,type,
% 2.14/2.36      lOrganismProcess_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lOrganism_THFTYPE_i,type,
% 2.14/2.36      lOrganism_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lOrganization_THFTYPE_i,type,
% 2.14/2.36      lOrganization_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lOrganizationalProcess_THFTYPE_i,type,
% 2.14/2.36      lOrganizationalProcess_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lOunce_THFTYPE_i,type,
% 2.14/2.36      lOunce_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lOval_THFTYPE_i,type,
% 2.14/2.36      lOval_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPacificTimeZone_THFTYPE_i,type,
% 2.14/2.36      lPacificTimeZone_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPairwiseDisjointClass_THFTYPE_i,type,
% 2.14/2.36      lPairwiseDisjointClass_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lParamilitaryOrganization_THFTYPE_i,type,
% 2.14/2.36      lParamilitaryOrganization_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPartialOrderingRelation_THFTYPE_i,type,
% 2.14/2.36      lPartialOrderingRelation_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPartialValuedRelation_THFTYPE_i,type,
% 2.14/2.36      lPartialValuedRelation_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lParticleWord_THFTYPE_i,type,
% 2.14/2.36      lParticleWord_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPascal_THFTYPE_i,type,
% 2.14/2.36      lPascal_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPastFn_THFTYPE_IiiI,type,
% 2.14/2.36      lPastFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPastFn_THFTYPE_i,type,
% 2.14/2.36      lPastFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPatent_THFTYPE_i,type,
% 2.14/2.36      lPatent_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPathWeightFn_THFTYPE_IiiI,type,
% 2.14/2.36      lPathWeightFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPathWeightFn_THFTYPE_i,type,
% 2.14/2.36      lPathWeightFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPathologicProcess_THFTYPE_i,type,
% 2.14/2.36      lPathologicProcess_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPerFn_THFTYPE_i,type,
% 2.14/2.36      lPerFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPerception_THFTYPE_i,type,
% 2.14/2.36      lPerception_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPerceptualAttribute_THFTYPE_i,type,
% 2.14/2.36      lPerceptualAttribute_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPeriodicalIssueFn_THFTYPE_IiiiI,type,
% 2.14/2.36      lPeriodicalIssueFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPeriodicalIssueFn_THFTYPE_i,type,
% 2.14/2.36      lPeriodicalIssueFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPeriodical_THFTYPE_i,type,
% 2.14/2.36      lPeriodical_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPermanentResidence_THFTYPE_i,type,
% 2.14/2.36      lPermanentResidence_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPermission_THFTYPE_i,type,
% 2.14/2.36      lPermission_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPhrase_THFTYPE_i,type,
% 2.14/2.36      lPhrase_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPhysicalAttribute_THFTYPE_i,type,
% 2.14/2.36      lPhysicalAttribute_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPhysicalQuantity_THFTYPE_i,type,
% 2.14/2.36      lPhysicalQuantity_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPhysicalState_THFTYPE_i,type,
% 2.14/2.36      lPhysicalState_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPhysicalSystem_THFTYPE_i,type,
% 2.14/2.36      lPhysicalSystem_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPhysical_THFTYPE_i,type,
% 2.14/2.36      lPhysical_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPhysiologicProcess_THFTYPE_i,type,
% 2.14/2.36      lPhysiologicProcess_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPi_THFTYPE_i,type,
% 2.14/2.36      lPi_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPicoFn_THFTYPE_IiiI,type,
% 2.14/2.36      lPicoFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPicoFn_THFTYPE_i,type,
% 2.14/2.36      lPicoFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPint_THFTYPE_i,type,
% 2.14/2.36      lPint_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPlan_THFTYPE_i,type,
% 2.14/2.36      lPlan_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPlaneAngleMeasure_THFTYPE_i,type,
% 2.14/2.36      lPlaneAngleMeasure_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPlanning_THFTYPE_i,type,
% 2.14/2.36      lPlanning_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPlantAnatomicalStructure_THFTYPE_i,type,
% 2.14/2.36      lPlantAnatomicalStructure_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPlantSubstance_THFTYPE_i,type,
% 2.14/2.36      lPlantSubstance_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPlant_THFTYPE_i,type,
% 2.14/2.36      lPlant_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPlasma_THFTYPE_i,type,
% 2.14/2.36      lPlasma_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPliable_THFTYPE_i,type,
% 2.14/2.36      lPliable_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPoisoning_THFTYPE_i,type,
% 2.14/2.36      lPoisoning_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPoking_THFTYPE_i,type,
% 2.14/2.36      lPoking_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPoliceOrganization_THFTYPE_i,type,
% 2.14/2.36      lPoliceOrganization_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPoliticalOrganization_THFTYPE_i,type,
% 2.14/2.36      lPoliticalOrganization_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPoliticalProcess_THFTYPE_i,type,
% 2.14/2.36      lPoliticalProcess_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPollen_THFTYPE_i,type,
% 2.14/2.36      lPollen_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPolychromatic_THFTYPE_i,type,
% 2.14/2.36      lPolychromatic_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPosition_THFTYPE_i,type,
% 2.14/2.36      lPosition_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPositionalAttribute_THFTYPE_i,type,
% 2.14/2.36      lPositionalAttribute_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPositiveInfinity_THFTYPE_i,type,
% 2.14/2.36      lPositiveInfinity_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPositiveInteger_THFTYPE_i,type,
% 2.14/2.36      lPositiveInteger_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPositiveRealNumber_THFTYPE_i,type,
% 2.14/2.36      lPositiveRealNumber_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPossibility_THFTYPE_i,type,
% 2.14/2.36      lPossibility_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPoundForce_THFTYPE_i,type,
% 2.14/2.36      lPoundForce_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPoundMass_THFTYPE_i,type,
% 2.14/2.36      lPoundMass_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPowerSetFn_THFTYPE_i,type,
% 2.14/2.36      lPowerSetFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPrecipitation_THFTYPE_i,type,
% 2.14/2.36      lPrecipitation_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPredecessorFn_THFTYPE_IiiI,type,
% 2.14/2.36      lPredecessorFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPredecessorFn_THFTYPE_i,type,
% 2.14/2.36      lPredecessorFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPredicate_THFTYPE_i,type,
% 2.14/2.36      lPredicate_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPredicting_THFTYPE_i,type,
% 2.14/2.36      lPredicting_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPremisesFn_THFTYPE_IooI,type,
% 2.14/2.36      lPremisesFn_THFTYPE_IooI: $o > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(lPremisesFn_THFTYPE_i,type,
% 2.14/2.36      lPremisesFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPrepositionalPhrase_THFTYPE_i,type,
% 2.14/2.36      lPrepositionalPhrase_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPretending_THFTYPE_i,type,
% 2.14/2.36      lPretending_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPrimaryColor_THFTYPE_i,type,
% 2.14/2.36      lPrimaryColor_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPrimate_THFTYPE_i,type,
% 2.14/2.36      lPrimate_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPrimeNumber_THFTYPE_i,type,
% 2.14/2.36      lPrimeNumber_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lProbabilityAttribute_THFTYPE_i,type,
% 2.14/2.36      lProbabilityAttribute_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lProbabilityFn_THFTYPE_IoiI,type,
% 2.14/2.36      lProbabilityFn_THFTYPE_IoiI: $o > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lProbabilityFn_THFTYPE_i,type,
% 2.14/2.36      lProbabilityFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lProbabilityRelation_THFTYPE_i,type,
% 2.14/2.36      lProbabilityRelation_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lProcedure_THFTYPE_i,type,
% 2.14/2.36      lProcedure_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lProcess_THFTYPE_i,type,
% 2.14/2.36      lProcess_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lProduct_THFTYPE_i,type,
% 2.14/2.36      lProduct_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lProhibition_THFTYPE_i,type,
% 2.14/2.36      lProhibition_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPromise_THFTYPE_i,type,
% 2.14/2.36      lPromise_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPropertyFn_THFTYPE_IiiI,type,
% 2.14/2.36      lPropertyFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPropertyFn_THFTYPE_i,type,
% 2.14/2.36      lPropertyFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lProposition_THFTYPE_i,type,
% 2.14/2.36      lProposition_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPropositionalAttitude_THFTYPE_i,type,
% 2.14/2.36      lPropositionalAttitude_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lProstrate_THFTYPE_i,type,
% 2.14/2.36      lProstrate_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lProtein_THFTYPE_i,type,
% 2.14/2.36      lProtein_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lProton_THFTYPE_i,type,
% 2.14/2.36      lProton_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPseudoGraph_THFTYPE_i,type,
% 2.14/2.36      lPseudoGraph_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPsychologicalAttribute_THFTYPE_i,type,
% 2.14/2.36      lPsychologicalAttribute_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPsychologicalDysfunction_THFTYPE_i,type,
% 2.14/2.36      lPsychologicalDysfunction_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPsychologicalProcess_THFTYPE_i,type,
% 2.14/2.36      lPsychologicalProcess_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPublication_THFTYPE_i,type,
% 2.14/2.36      lPublication_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPurchaseContract_THFTYPE_i,type,
% 2.14/2.36      lPurchaseContract_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPureSubstance_THFTYPE_i,type,
% 2.14/2.36      lPureSubstance_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPursuing_THFTYPE_i,type,
% 2.14/2.36      lPursuing_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lPutting_THFTYPE_i,type,
% 2.14/2.36      lPutting_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lQuantityChange_THFTYPE_i,type,
% 2.14/2.36      lQuantityChange_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lQuantity_THFTYPE_i,type,
% 2.14/2.36      lQuantity_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lQuart_THFTYPE_i,type,
% 2.14/2.36      lQuart_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lQuaternaryFunction_THFTYPE_i,type,
% 2.14/2.36      lQuaternaryFunction_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lQuaternaryPredicate_THFTYPE_i,type,
% 2.14/2.36      lQuaternaryPredicate_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lQuaternaryRelation_THFTYPE_i,type,
% 2.14/2.36      lQuaternaryRelation_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lQuestioning_THFTYPE_i,type,
% 2.14/2.36      lQuestioning_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lQuintaryPredicate_THFTYPE_i,type,
% 2.14/2.36      lQuintaryPredicate_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lQuintaryRelation_THFTYPE_i,type,
% 2.14/2.36      lQuintaryRelation_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRadian_THFTYPE_i,type,
% 2.14/2.36      lRadian_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRadiatingElectromagnetic_THFTYPE_i,type,
% 2.14/2.36      lRadiatingElectromagnetic_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRadiatingInfrared_THFTYPE_i,type,
% 2.14/2.36      lRadiatingInfrared_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRadiatingLight_THFTYPE_i,type,
% 2.14/2.36      lRadiatingLight_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRadiatingNuclear_THFTYPE_i,type,
% 2.14/2.36      lRadiatingNuclear_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRadiatingSound_THFTYPE_i,type,
% 2.14/2.36      lRadiatingSound_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRadiatingXRay_THFTYPE_i,type,
% 2.14/2.36      lRadiatingXRay_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRadiating_THFTYPE_i,type,
% 2.14/2.36      lRadiating_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRankineDegree_THFTYPE_i,type,
% 2.14/2.36      lRankineDegree_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRationalNumberFn_THFTYPE_i,type,
% 2.14/2.36      lRationalNumberFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRationalNumber_THFTYPE_i,type,
% 2.14/2.36      lRationalNumber_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lReading_THFTYPE_i,type,
% 2.14/2.36      lReading_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRealNumberFn_THFTYPE_IiiI,type,
% 2.14/2.36      lRealNumberFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRealNumberFn_THFTYPE_i,type,
% 2.14/2.36      lRealNumberFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRealNumber_THFTYPE_i,type,
% 2.14/2.36      lRealNumber_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lReasoning_THFTYPE_i,type,
% 2.14/2.36      lReasoning_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lReciprocalFn_THFTYPE_IiiI,type,
% 2.14/2.36      lReciprocalFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lReciprocalFn_THFTYPE_i,type,
% 2.14/2.36      lReciprocalFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRecreationOrExercise_THFTYPE_i,type,
% 2.14/2.36      lRecreationOrExercise_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRecurrentTimeIntervalFn_THFTYPE_IiiiI,type,
% 2.14/2.36      lRecurrentTimeIntervalFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRecurrentTimeIntervalFn_THFTYPE_i,type,
% 2.14/2.36      lRecurrentTimeIntervalFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRed_THFTYPE_i,type,
% 2.14/2.36      lRed_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lReflexiveRelation_THFTYPE_i,type,
% 2.14/2.36      lReflexiveRelation_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRegion_THFTYPE_i,type,
% 2.14/2.36      lRegion_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRegulatoryProcess_THFTYPE_i,type,
% 2.14/2.36      lRegulatoryProcess_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRelationExtendedToQuantities_THFTYPE_i,type,
% 2.14/2.36      lRelationExtendedToQuantities_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRelation_THFTYPE_i,type,
% 2.14/2.36      lRelation_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRelationalAttribute_THFTYPE_i,type,
% 2.14/2.36      lRelationalAttribute_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRelativeComplementFn_THFTYPE_i,type,
% 2.14/2.36      lRelativeComplementFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRelativeTimeFn_THFTYPE_IiiiI,type,
% 2.14/2.36      lRelativeTimeFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRelativeTimeFn_THFTYPE_i,type,
% 2.14/2.36      lRelativeTimeFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lReleasing_THFTYPE_i,type,
% 2.14/2.36      lReleasing_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lReligiousOrganization_THFTYPE_i,type,
% 2.14/2.36      lReligiousOrganization_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lReligiousProcess_THFTYPE_i,type,
% 2.14/2.36      lReligiousProcess_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRemainderFn_THFTYPE_IiiiI,type,
% 2.14/2.36      lRemainderFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRemainderFn_THFTYPE_i,type,
% 2.14/2.36      lRemainderFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRemembering_THFTYPE_i,type,
% 2.14/2.36      lRemembering_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRemoving_THFTYPE_i,type,
% 2.14/2.36      lRemoving_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRepairing_THFTYPE_i,type,
% 2.14/2.36      lRepairing_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lReplication_THFTYPE_i,type,
% 2.14/2.36      lReplication_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRepresentationalArtWork_THFTYPE_i,type,
% 2.14/2.36      lRepresentationalArtWork_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lReproductiveBody_THFTYPE_i,type,
% 2.14/2.36      lReproductiveBody_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lReptile_THFTYPE_i,type,
% 2.14/2.36      lReptile_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRequesting_THFTYPE_i,type,
% 2.14/2.36      lRequesting_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lResidence_THFTYPE_i,type,
% 2.14/2.36      lResidence_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lResidentialBuilding_THFTYPE_i,type,
% 2.14/2.36      lResidentialBuilding_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRight_THFTYPE_i,type,
% 2.14/2.36      lRight_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRigid_THFTYPE_i,type,
% 2.14/2.36      lRigid_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRoadway_THFTYPE_i,type,
% 2.14/2.36      lRoadway_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRodent_THFTYPE_i,type,
% 2.14/2.36      lRodent_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRoom_THFTYPE_i,type,
% 2.14/2.36      lRoom_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRough_THFTYPE_i,type,
% 2.14/2.36      lRough_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRoundFn_THFTYPE_IiiI,type,
% 2.14/2.36      lRoundFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRoundFn_THFTYPE_i,type,
% 2.14/2.36      lRoundFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lRunning_THFTYPE_i,type,
% 2.14/2.36      lRunning_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSaltWaterArea_THFTYPE_i,type,
% 2.14/2.36      lSaltWaterArea_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSaturationAttribute_THFTYPE_i,type,
% 2.14/2.36      lSaturationAttribute_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSaturday_THFTYPE_i,type,
% 2.14/2.36      lSaturday_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSecondDuration_THFTYPE_i,type,
% 2.14/2.36      lSecondDuration_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSecondFn_THFTYPE_IiiiI,type,
% 2.14/2.36      lSecondFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSecondFn_THFTYPE_i,type,
% 2.14/2.36      lSecondFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSecond_THFTYPE_i,type,
% 2.14/2.36      lSecond_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSeed_THFTYPE_i,type,
% 2.14/2.36      lSeed_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSeeing_THFTYPE_i,type,
% 2.14/2.36      lSeeing_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSelecting_THFTYPE_i,type,
% 2.14/2.36      lSelecting_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSelfConnectedObject_THFTYPE_i,type,
% 2.14/2.36      lSelfConnectedObject_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSelling_THFTYPE_i,type,
% 2.14/2.36      lSelling_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSentence_THFTYPE_i,type,
% 2.14/2.36      lSentence_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSentientAgent_THFTYPE_i,type,
% 2.14/2.36      lSentientAgent_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSeparating_THFTYPE_i,type,
% 2.14/2.36      lSeparating_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSeptember_THFTYPE_i,type,
% 2.14/2.36      lSeptember_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSequenceFunction_THFTYPE_i,type,
% 2.14/2.36      lSequenceFunction_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSeriesVolumeFn_THFTYPE_IiiiI,type,
% 2.14/2.36      lSeriesVolumeFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSeriesVolumeFn_THFTYPE_i,type,
% 2.14/2.36      lSeriesVolumeFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSeries_THFTYPE_i,type,
% 2.14/2.36      lSeries_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lServiceContract_THFTYPE_i,type,
% 2.14/2.36      lServiceContract_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lServiceProcess_THFTYPE_i,type,
% 2.14/2.36      lServiceProcess_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSetOrClass_THFTYPE_i,type,
% 2.14/2.36      lSetOrClass_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSet_THFTYPE_i,type,
% 2.14/2.36      lSet_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSexAttribute_THFTYPE_i,type,
% 2.14/2.36      lSexAttribute_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSexualReproduction_THFTYPE_i,type,
% 2.14/2.36      lSexualReproduction_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lShapeAttribute_THFTYPE_i,type,
% 2.14/2.36      lShapeAttribute_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lShapeChange_THFTYPE_i,type,
% 2.14/2.36      lShapeChange_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lShooting_THFTYPE_i,type,
% 2.14/2.36      lShooting_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lShoreArea_THFTYPE_i,type,
% 2.14/2.36      lShoreArea_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSiemens_THFTYPE_i,type,
% 2.14/2.36      lSiemens_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSievert_THFTYPE_i,type,
% 2.14/2.36      lSievert_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSignumFn_THFTYPE_IiiI,type,
% 2.14/2.36      lSignumFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSignumFn_THFTYPE_i,type,
% 2.14/2.36      lSignumFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSineFn_THFTYPE_IiiI,type,
% 2.14/2.36      lSineFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSineFn_THFTYPE_i,type,
% 2.14/2.36      lSineFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSinging_THFTYPE_i,type,
% 2.14/2.36      lSinging_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSingleAgentProcess_THFTYPE_i,type,
% 2.14/2.36      lSingleAgentProcess_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSingleFamilyResidence_THFTYPE_i,type,
% 2.14/2.36      lSingleFamilyResidence_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSingleValuedRelation_THFTYPE_i,type,
% 2.14/2.36      lSingleValuedRelation_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSitting_THFTYPE_i,type,
% 2.14/2.36      lSitting_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSlug_THFTYPE_i,type,
% 2.14/2.36      lSlug_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSmelling_THFTYPE_i,type,
% 2.14/2.36      lSmelling_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSmoke_THFTYPE_i,type,
% 2.14/2.36      lSmoke_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSmooth_THFTYPE_i,type,
% 2.14/2.36      lSmooth_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSocialInteraction_THFTYPE_i,type,
% 2.14/2.36      lSocialInteraction_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSocialRole_THFTYPE_i,type,
% 2.14/2.36      lSocialRole_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSocialUnit_THFTYPE_i,type,
% 2.14/2.36      lSocialUnit_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSolidAngleMeasure_THFTYPE_i,type,
% 2.14/2.36      lSolidAngleMeasure_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSolid_THFTYPE_i,type,
% 2.14/2.36      lSolid_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSolution_THFTYPE_i,type,
% 2.14/2.36      lSolution_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSoundAttribute_THFTYPE_i,type,
% 2.14/2.36      lSoundAttribute_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSouth_THFTYPE_i,type,
% 2.14/2.36      lSouth_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSpatialRelation_THFTYPE_i,type,
% 2.14/2.36      lSpatialRelation_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSpeaking_THFTYPE_i,type,
% 2.14/2.36      lSpeaking_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSpeedFn_THFTYPE_IiiiI,type,
% 2.14/2.36      lSpeedFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSpeedFn_THFTYPE_i,type,
% 2.14/2.36      lSpeedFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSpokenHumanLanguage_THFTYPE_i,type,
% 2.14/2.36      lSpokenHumanLanguage_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSpore_THFTYPE_i,type,
% 2.14/2.36      lSpore_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSport_THFTYPE_i,type,
% 2.14/2.36      lSport_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSquareRootFn_THFTYPE_IiiI,type,
% 2.14/2.36      lSquareRootFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSquareRootFn_THFTYPE_i,type,
% 2.14/2.36      lSquareRootFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lStanding_THFTYPE_i,type,
% 2.14/2.36      lStanding_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lStateChange_THFTYPE_i,type,
% 2.14/2.36      lStateChange_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lStateOfMind_THFTYPE_i,type,
% 2.14/2.36      lStateOfMind_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lStateOrProvince_THFTYPE_i,type,
% 2.14/2.36      lStateOrProvince_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lStaticWaterArea_THFTYPE_i,type,
% 2.14/2.36      lStaticWaterArea_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lStating_THFTYPE_i,type,
% 2.14/2.36      lStating_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lStationaryArtifact_THFTYPE_i,type,
% 2.14/2.36      lStationaryArtifact_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSteradian_THFTYPE_i,type,
% 2.14/2.36      lSteradian_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lStreamWaterArea_THFTYPE_i,type,
% 2.14/2.36      lStreamWaterArea_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSubatomicParticle_THFTYPE_i,type,
% 2.14/2.36      lSubatomicParticle_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSubjectiveAssessmentAttribute_THFTYPE_i,type,
% 2.14/2.36      lSubjectiveAssessmentAttribute_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSubstance_THFTYPE_i,type,
% 2.14/2.36      lSubstance_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSubstituting_THFTYPE_i,type,
% 2.14/2.36      lSubstituting_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSubtractionFn_THFTYPE_IiiiI,type,
% 2.14/2.36      lSubtractionFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSubtractionFn_THFTYPE_i,type,
% 2.14/2.36      lSubtractionFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSuccessorFn_THFTYPE_IiiI,type,
% 2.14/2.36      lSuccessorFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSuccessorFn_THFTYPE_i,type,
% 2.14/2.36      lSuccessorFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSummary_THFTYPE_i,type,
% 2.14/2.36      lSummary_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSunday_THFTYPE_i,type,
% 2.14/2.36      lSunday_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSupposing_THFTYPE_i,type,
% 2.14/2.36      lSupposing_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSurfaceChange_THFTYPE_i,type,
% 2.14/2.36      lSurfaceChange_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSurgery_THFTYPE_i,type,
% 2.14/2.36      lSurgery_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSuspension_THFTYPE_i,type,
% 2.14/2.36      lSuspension_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSwimming_THFTYPE_i,type,
% 2.14/2.36      lSwimming_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSymbolicString_THFTYPE_i,type,
% 2.14/2.36      lSymbolicString_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSymmetricPositionalAttribute_THFTYPE_i,type,
% 2.14/2.36      lSymmetricPositionalAttribute_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSymmetricRelation_THFTYPE_i,type,
% 2.14/2.36      lSymmetricRelation_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSyntheticSubstance_THFTYPE_i,type,
% 2.14/2.36      lSyntheticSubstance_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lSystemeInternationalUnit_THFTYPE_i,type,
% 2.14/2.36      lSystemeInternationalUnit_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTactilePerception_THFTYPE_i,type,
% 2.14/2.36      lTactilePerception_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTangentFn_THFTYPE_IiiI,type,
% 2.14/2.36      lTangentFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTangentFn_THFTYPE_i,type,
% 2.14/2.36      lTangentFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTasteAttribute_THFTYPE_i,type,
% 2.14/2.36      lTasteAttribute_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTasting_THFTYPE_i,type,
% 2.14/2.36      lTasting_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTemperatureMeasure_THFTYPE_i,type,
% 2.14/2.36      lTemperatureMeasure_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTemporalCompositionFn_THFTYPE_IiiiI,type,
% 2.14/2.36      lTemporalCompositionFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTemporalCompositionFn_THFTYPE_i,type,
% 2.14/2.36      lTemporalCompositionFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTemporalRelation_THFTYPE_i,type,
% 2.14/2.36      lTemporalRelation_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTemporaryResidence_THFTYPE_i,type,
% 2.14/2.36      lTemporaryResidence_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTeraFn_THFTYPE_IiiI,type,
% 2.14/2.36      lTeraFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTeraFn_THFTYPE_i,type,
% 2.14/2.36      lTeraFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTerminalNodeFn_THFTYPE_IiiI,type,
% 2.14/2.36      lTerminalNodeFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTerminalNodeFn_THFTYPE_i,type,
% 2.14/2.36      lTerminalNodeFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTerminatingEmployment_THFTYPE_i,type,
% 2.14/2.36      lTerminatingEmployment_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTernaryFunction_THFTYPE_i,type,
% 2.14/2.36      lTernaryFunction_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTernaryPredicate_THFTYPE_i,type,
% 2.14/2.36      lTernaryPredicate_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTernaryRelation_THFTYPE_i,type,
% 2.14/2.36      lTernaryRelation_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTesla_THFTYPE_i,type,
% 2.14/2.36      lTesla_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lText_THFTYPE_i,type,
% 2.14/2.36      lText_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTextureAttribute_THFTYPE_i,type,
% 2.14/2.36      lTextureAttribute_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTherapeuticProcess_THFTYPE_i,type,
% 2.14/2.36      lTherapeuticProcess_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lThreeDimensionalFigure_THFTYPE_i,type,
% 2.14/2.36      lThreeDimensionalFigure_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lThursday_THFTYPE_i,type,
% 2.14/2.36      lThursday_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTimeDependentQuantity_THFTYPE_i,type,
% 2.14/2.36      lTimeDependentQuantity_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTimeDuration_THFTYPE_i,type,
% 2.14/2.36      lTimeDuration_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTimeIntervalFn_THFTYPE_IiiiI,type,
% 2.14/2.36      lTimeIntervalFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTimeIntervalFn_THFTYPE_i,type,
% 2.14/2.36      lTimeIntervalFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTimeInterval_THFTYPE_i,type,
% 2.14/2.36      lTimeInterval_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTimeMeasure_THFTYPE_i,type,
% 2.14/2.36      lTimeMeasure_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTimePoint_THFTYPE_i,type,
% 2.14/2.36      lTimePoint_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTimePosition_THFTYPE_i,type,
% 2.14/2.36      lTimePosition_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTimeZone_THFTYPE_i,type,
% 2.14/2.36      lTimeZone_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTissue_THFTYPE_i,type,
% 2.14/2.36      lTissue_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTotalOrderingRelation_THFTYPE_i,type,
% 2.14/2.36      lTotalOrderingRelation_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTotalValuedRelation_THFTYPE_i,type,
% 2.14/2.36      lTotalValuedRelation_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTouching_THFTYPE_i,type,
% 2.14/2.36      lTouching_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTraitAttribute_THFTYPE_i,type,
% 2.14/2.36      lTraitAttribute_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTransaction_THFTYPE_i,type,
% 2.14/2.36      lTransaction_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTransfer_THFTYPE_i,type,
% 2.14/2.36      lTransfer_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTransitiveRelation_THFTYPE_i,type,
% 2.14/2.36      lTransitiveRelation_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTransitway_THFTYPE_i,type,
% 2.14/2.36      lTransitway_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTranslating_THFTYPE_i,type,
% 2.14/2.36      lTranslating_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTranslocation_THFTYPE_i,type,
% 2.14/2.36      lTranslocation_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTransportationDevice_THFTYPE_i,type,
% 2.14/2.36      lTransportationDevice_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTransportation_THFTYPE_i,type,
% 2.14/2.36      lTransportation_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTree_THFTYPE_i,type,
% 2.14/2.36      lTree_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTrichotomizingRelation_THFTYPE_i,type,
% 2.14/2.36      lTrichotomizingRelation_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTruthValue_THFTYPE_i,type,
% 2.14/2.36      lTruthValue_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTuesday_THFTYPE_i,type,
% 2.14/2.36      lTuesday_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTwoDimensionalAngle_THFTYPE_i,type,
% 2.14/2.36      lTwoDimensionalAngle_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lTwoDimensionalFigure_THFTYPE_i,type,
% 2.14/2.36      lTwoDimensionalFigure_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUnaryConstantFunctionQuantity_THFTYPE_i,type,
% 2.14/2.36      lUnaryConstantFunctionQuantity_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUnaryFunction_THFTYPE_i,type,
% 2.14/2.36      lUnaryFunction_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUnconscious_THFTYPE_i,type,
% 2.14/2.36      lUnconscious_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUncovering_THFTYPE_i,type,
% 2.14/2.36      lUncovering_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUnemployed_THFTYPE_i,type,
% 2.14/2.36      lUnemployed_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUngrasping_THFTYPE_i,type,
% 2.14/2.36      lUngrasping_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUnilateralGetting_THFTYPE_i,type,
% 2.14/2.36      lUnilateralGetting_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUnilateralGiving_THFTYPE_i,type,
% 2.14/2.36      lUnilateralGiving_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUnilluminated_THFTYPE_i,type,
% 2.14/2.36      lUnilluminated_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUnionFn_THFTYPE_IiiiI,type,
% 2.14/2.36      lUnionFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUnionFn_THFTYPE_i,type,
% 2.14/2.36      lUnionFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUniqueList_THFTYPE_i,type,
% 2.14/2.36      lUniqueList_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUnitFn_THFTYPE_IiiI,type,
% 2.14/2.36      lUnitFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUnitFn_THFTYPE_i,type,
% 2.14/2.36      lUnitFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUnitOfAngularMeasure_THFTYPE_i,type,
% 2.14/2.36      lUnitOfAngularMeasure_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUnitOfArea_THFTYPE_i,type,
% 2.14/2.36      lUnitOfArea_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUnitOfAtmosphericPressure_THFTYPE_i,type,
% 2.14/2.36      lUnitOfAtmosphericPressure_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUnitOfCurrency_THFTYPE_i,type,
% 2.14/2.36      lUnitOfCurrency_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUnitOfDuration_THFTYPE_i,type,
% 2.14/2.36      lUnitOfDuration_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUnitOfFrequency_THFTYPE_i,type,
% 2.14/2.36      lUnitOfFrequency_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUnitOfInformation_THFTYPE_i,type,
% 2.14/2.36      lUnitOfInformation_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUnitOfLength_THFTYPE_i,type,
% 2.14/2.36      lUnitOfLength_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUnitOfMass_THFTYPE_i,type,
% 2.14/2.36      lUnitOfMass_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUnitOfMeasureMultiplier_THFTYPE_i,type,
% 2.14/2.36      lUnitOfMeasureMultiplier_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUnitOfMeasure_THFTYPE_i,type,
% 2.14/2.36      lUnitOfMeasure_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUnitOfTemperature_THFTYPE_i,type,
% 2.14/2.36      lUnitOfTemperature_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUnitOfVolume_THFTYPE_i,type,
% 2.14/2.36      lUnitOfVolume_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUnitedKingdomGallon_THFTYPE_i,type,
% 2.14/2.36      lUnitedKingdomGallon_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUnitedStatesCent_THFTYPE_i,type,
% 2.14/2.36      lUnitedStatesCent_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUnitedStatesDollar_THFTYPE_i,type,
% 2.14/2.36      lUnitedStatesDollar_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUnitedStatesGallon_THFTYPE_i,type,
% 2.14/2.36      lUnitedStatesGallon_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lUnlikely_THFTYPE_i,type,
% 2.14/2.36      lUnlikely_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lValidDeductiveArgument_THFTYPE_i,type,
% 2.14/2.36      lValidDeductiveArgument_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lVariableArityRelation_THFTYPE_i,type,
% 2.14/2.36      lVariableArityRelation_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lVehicle_THFTYPE_i,type,
% 2.14/2.36      lVehicle_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lVelocityFn_THFTYPE_IiiiiiI,type,
% 2.14/2.36      lVelocityFn_THFTYPE_IiiiiiI: $i > $i > $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lVelocityFn_THFTYPE_i,type,
% 2.14/2.36      lVelocityFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lVerbPhrase_THFTYPE_i,type,
% 2.14/2.36      lVerbPhrase_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lVerb_THFTYPE_i,type,
% 2.14/2.36      lVerb_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lVertebrate_THFTYPE_i,type,
% 2.14/2.36      lVertebrate_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lVertical_THFTYPE_i,type,
% 2.14/2.36      lVertical_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lViolentContest_THFTYPE_i,type,
% 2.14/2.36      lViolentContest_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lVirus_THFTYPE_i,type,
% 2.14/2.36      lVirus_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lVisualAttribute_THFTYPE_i,type,
% 2.14/2.36      lVisualAttribute_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lVitamin_THFTYPE_i,type,
% 2.14/2.36      lVitamin_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lVocalCords_THFTYPE_i,type,
% 2.14/2.36      lVocalCords_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lVocalizing_THFTYPE_i,type,
% 2.14/2.36      lVocalizing_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lVolt_THFTYPE_i,type,
% 2.14/2.36      lVolt_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lVolumeMeasure_THFTYPE_i,type,
% 2.14/2.36      lVolumeMeasure_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lVoting_THFTYPE_i,type,
% 2.14/2.36      lVoting_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWalking_THFTYPE_i,type,
% 2.14/2.36      lWalking_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWar_THFTYPE_i,type,
% 2.14/2.36      lWar_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWarmBloodedVertebrate_THFTYPE_i,type,
% 2.14/2.36      lWarmBloodedVertebrate_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWarranty_THFTYPE_i,type,
% 2.14/2.36      lWarranty_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWaterArea_THFTYPE_i,type,
% 2.14/2.36      lWaterArea_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWaterCloud_THFTYPE_i,type,
% 2.14/2.36      lWaterCloud_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWaterMotion_THFTYPE_i,type,
% 2.14/2.36      lWaterMotion_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWater_THFTYPE_i,type,
% 2.14/2.36      lWater_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWatt_THFTYPE_i,type,
% 2.14/2.36      lWatt_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWealthFn_THFTYPE_IiiI,type,
% 2.14/2.36      lWealthFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWealthFn_THFTYPE_i,type,
% 2.14/2.36      lWealthFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWeapon_THFTYPE_i,type,
% 2.14/2.36      lWeapon_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWearableItem_THFTYPE_i,type,
% 2.14/2.36      lWearableItem_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWeatherProcess_THFTYPE_i,type,
% 2.14/2.36      lWeatherProcess_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWeber_THFTYPE_i,type,
% 2.14/2.36      lWeber_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWedding_THFTYPE_i,type,
% 2.14/2.36      lWedding_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWednesday_THFTYPE_i,type,
% 2.14/2.36      lWednesday_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWeekDuration_THFTYPE_i,type,
% 2.14/2.36      lWeekDuration_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWeek_THFTYPE_i,type,
% 2.14/2.36      lWeek_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWest_THFTYPE_i,type,
% 2.14/2.36      lWest_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWet_THFTYPE_i,type,
% 2.14/2.36      lWet_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWetting_THFTYPE_i,type,
% 2.14/2.36      lWetting_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWhenFn_THFTYPE_IiiI,type,
% 2.14/2.36      lWhenFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWhenFn_THFTYPE_i,type,
% 2.14/2.36      lWhenFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWhereFn_THFTYPE_IiiiI,type,
% 2.14/2.36      lWhereFn_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWhereFn_THFTYPE_i,type,
% 2.14/2.36      lWhereFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWhite_THFTYPE_i,type,
% 2.14/2.36      lWhite_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWind_THFTYPE_i,type,
% 2.14/2.36      lWind_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWoman_THFTYPE_i,type,
% 2.14/2.36      lWoman_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWord_THFTYPE_i,type,
% 2.14/2.36      lWord_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWorm_THFTYPE_i,type,
% 2.14/2.36      lWorm_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lWriting_THFTYPE_i,type,
% 2.14/2.36      lWriting_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lYearDuration_THFTYPE_i,type,
% 2.14/2.36      lYearDuration_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lYearFn_THFTYPE_IiiI,type,
% 2.14/2.36      lYearFn_THFTYPE_IiiI: $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lYearFn_THFTYPE_i,type,
% 2.14/2.36      lYearFn_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lYear_THFTYPE_i,type,
% 2.14/2.36      lYear_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(lYellow_THFTYPE_i,type,
% 2.14/2.36      lYellow_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(larger_THFTYPE_IiioI,type,
% 2.14/2.36      larger_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(leader_THFTYPE_IiioI,type,
% 2.14/2.36      leader_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(legalRelation_THFTYPE_IiioI,type,
% 2.14/2.36      legalRelation_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(length_THFTYPE_IiioI,type,
% 2.14/2.36      length_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(lessThanOrEqualTo_THFTYPE_IiioI,type,
% 2.14/2.36      lessThanOrEqualTo_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(lessThan_THFTYPE_IiioI,type,
% 2.14/2.36      lessThan_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(lineMeasure_THFTYPE_i,type,
% 2.14/2.36      lineMeasure_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(linearExtent_THFTYPE_IiioI,type,
% 2.14/2.36      linearExtent_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(links_THFTYPE_IiiioI,type,
% 2.14/2.36      links_THFTYPE_IiiioI: $i > $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(located_THFTYPE_IiioI,type,
% 2.14/2.36      located_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(lt_THFTYPE_IiioI,type,
% 2.14/2.36      lt_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(ltet_THFTYPE_IiioI,type,
% 2.14/2.36      ltet_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(manner_THFTYPE_IiioI,type,
% 2.14/2.36      manner_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(material_THFTYPE_IiioI,type,
% 2.14/2.36      material_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(measure_THFTYPE_IiioI,type,
% 2.14/2.36      measure_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(meetsSpatially_THFTYPE_IiioI,type,
% 2.14/2.36      meetsSpatially_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(meetsTemporally_THFTYPE_IiioI,type,
% 2.14/2.36      meetsTemporally_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(meltingPoint_THFTYPE_IiioI,type,
% 2.14/2.36      meltingPoint_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(member_THFTYPE_IiioI,type,
% 2.14/2.36      member_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(minus1_THFTYPE_i,type,
% 2.14/2.36      minus1_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(minus_THFTYPE_IiiiI,type,
% 2.14/2.36      minus_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(modalAttribute_THFTYPE_IoioI,type,
% 2.14/2.36      modalAttribute_THFTYPE_IoioI: $o > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(monetaryValue_THFTYPE_IiioI,type,
% 2.14/2.36      monetaryValue_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(mother_THFTYPE_IiioI,type,
% 2.14/2.36      mother_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(multiplicativeFactor_THFTYPE_IiioI,type,
% 2.14/2.36      multiplicativeFactor_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(mutualAcquaintance_THFTYPE_i,type,
% 2.14/2.36      mutualAcquaintance_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n0_THFTYPE_i,type,
% 2.14/2.36      n0_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n0dot000000000001_THFTYPE_i,type,
% 2.14/2.36      n0dot000000000001_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n0dot000000001_THFTYPE_i,type,
% 2.14/2.36      n0dot000000001_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n0dot000001_THFTYPE_i,type,
% 2.14/2.36      n0dot000001_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n0dot001_THFTYPE_i,type,
% 2.14/2.36      n0dot001_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n0dot01_THFTYPE_i,type,
% 2.14/2.36      n0dot01_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n0dot0254_THFTYPE_i,type,
% 2.14/2.36      n0dot0254_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n0dot3048_THFTYPE_i,type,
% 2.14/2.36      n0dot3048_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n0dot5_THFTYPE_i,type,
% 2.14/2.36      n0dot5_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n1000000000000_THFTYPE_i,type,
% 2.14/2.36      n1000000000000_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n1000000000_THFTYPE_i,type,
% 2.14/2.36      n1000000000_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n1000000_THFTYPE_i,type,
% 2.14/2.36      n1000000_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n1000_THFTYPE_i,type,
% 2.14/2.36      n1000_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n100_THFTYPE_i,type,
% 2.14/2.36      n100_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n1024_THFTYPE_i,type,
% 2.14/2.36      n1024_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n1055dot05585262_THFTYPE_i,type,
% 2.14/2.36      n1055dot05585262_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n12_THFTYPE_i,type,
% 2.14/2.36      n12_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n14593dot90_THFTYPE_i,type,
% 2.14/2.36      n14593dot90_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n1609dot344_THFTYPE_i,type,
% 2.14/2.36      n1609dot344_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n180_THFTYPE_i,type,
% 2.14/2.36      n180_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n1_THFTYPE_i,type,
% 2.14/2.36      n1_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n1dot0Eminus10_THFTYPE_i,type,
% 2.14/2.36      n1dot0Eminus10_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n1dot60217733Eminus19_THFTYPE_i,type,
% 2.14/2.36      n1dot60217733Eminus19_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n1dot6605402Eminus24_THFTYPE_i,type,
% 2.14/2.36      n1dot6605402Eminus24_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n1dot8_THFTYPE_i,type,
% 2.14/2.36      n1dot8_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n24_THFTYPE_i,type,
% 2.14/2.36      n24_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n273dot15_THFTYPE_i,type,
% 2.14/2.36      n273dot15_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n28_THFTYPE_i,type,
% 2.14/2.36      n28_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n29_THFTYPE_i,type,
% 2.14/2.36      n29_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n29dot92_THFTYPE_i,type,
% 2.14/2.36      n29dot92_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n2_THFTYPE_i,type,
% 2.14/2.36      n2_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n30_THFTYPE_i,type,
% 2.14/2.36      n30_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n31_THFTYPE_i,type,
% 2.14/2.36      n31_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n32_THFTYPE_i,type,
% 2.14/2.36      n32_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n360_THFTYPE_i,type,
% 2.14/2.36      n360_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n365_THFTYPE_i,type,
% 2.14/2.36      n365_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n3_THFTYPE_i,type,
% 2.14/2.36      n3_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n3dot785411784_THFTYPE_i,type,
% 2.14/2.36      n3dot785411784_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n400_THFTYPE_i,type,
% 2.14/2.36      n400_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n453dot59237_THFTYPE_i,type,
% 2.14/2.36      n453dot59237_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n4_THFTYPE_i,type,
% 2.14/2.36      n4_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n4dot1868_THFTYPE_i,type,
% 2.14/2.36      n4dot1868_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n4dot448222_THFTYPE_i,type,
% 2.14/2.36      n4dot448222_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n4dot54609_THFTYPE_i,type,
% 2.14/2.36      n4dot54609_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n5_THFTYPE_i,type,
% 2.14/2.36      n5_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n60_THFTYPE_i,type,
% 2.14/2.36      n60_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n6_THFTYPE_i,type,
% 2.14/2.36      n6_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n746_THFTYPE_i,type,
% 2.14/2.36      n746_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n7_THFTYPE_i,type,
% 2.14/2.36      n7_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(n8_THFTYPE_i,type,
% 2.14/2.36      n8_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(names_THFTYPE_IiioI,type,
% 2.14/2.36      names_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(needs_THFTYPE_IiioI,type,
% 2.14/2.36      needs_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(occupiesPosition_THFTYPE_IiiioI,type,
% 2.14/2.36      occupiesPosition_THFTYPE_IiiioI: $i > $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(orientation_THFTYPE_IiiioI,type,
% 2.14/2.36      orientation_THFTYPE_IiiioI: $i > $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(origin_THFTYPE_IiioI,type,
% 2.14/2.36      origin_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(overlapsPartially_THFTYPE_IiioI,type,
% 2.14/2.36      overlapsPartially_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(overlapsSpatially_THFTYPE_IiioI,type,
% 2.14/2.36      overlapsSpatially_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(overlapsTemporally_THFTYPE_IiioI,type,
% 2.14/2.36      overlapsTemporally_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(parallel_THFTYPE_IiioI,type,
% 2.14/2.36      parallel_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(parent_THFTYPE_IiioI,type,
% 2.14/2.36      parent_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(part_THFTYPE_IiioI,type,
% 2.14/2.36      part_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(partialOrderingOn_THFTYPE_IIiioIioI,type,
% 2.14/2.36      partialOrderingOn_THFTYPE_IIiioIioI: ( $i > $i > $o ) > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(partiallyFills_THFTYPE_IiioI,type,
% 2.14/2.36      partiallyFills_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(partition_THFTYPE_IiiiiiiioI,type,
% 2.14/2.36      partition_THFTYPE_IiiiiiiioI: $i > $i > $i > $i > $i > $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(partition_THFTYPE_IiiiiiioI,type,
% 2.14/2.36      partition_THFTYPE_IiiiiiioI: $i > $i > $i > $i > $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(partition_THFTYPE_IiiiiioI,type,
% 2.14/2.36      partition_THFTYPE_IiiiiioI: $i > $i > $i > $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(partition_THFTYPE_IiiiioI,type,
% 2.14/2.36      partition_THFTYPE_IiiiioI: $i > $i > $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(partition_THFTYPE_IiiioI,type,
% 2.14/2.36      partition_THFTYPE_IiiioI: $i > $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(partition_THFTYPE_IioI,type,
% 2.14/2.36      partition_THFTYPE_IioI: $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(partlyLocated_THFTYPE_IiioI,type,
% 2.14/2.36      partlyLocated_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(pathLength_THFTYPE_IiioI,type,
% 2.14/2.36      pathLength_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(path_THFTYPE_IiioI,type,
% 2.14/2.36      path_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(patient_THFTYPE_IiioI,type,
% 2.14/2.36      patient_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(patient_THFTYPE_IiooI,type,
% 2.14/2.36      patient_THFTYPE_IiooI: $i > $o > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(penetrates_THFTYPE_IiioI,type,
% 2.14/2.36      penetrates_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(piece_THFTYPE_IiioI,type,
% 2.14/2.36      piece_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(plus_THFTYPE_IiiiI,type,
% 2.14/2.36      plus_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(pointOfFigure_THFTYPE_IiioI,type,
% 2.14/2.36      pointOfFigure_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(pointOfIntersection_THFTYPE_IiiioI,type,
% 2.14/2.36      pointOfIntersection_THFTYPE_IiiioI: $i > $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(possesses_THFTYPE_IiioI,type,
% 2.14/2.36      possesses_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(precondition_THFTYPE_IiioI,type,
% 2.14/2.36      precondition_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(prefers_THFTYPE_IioooI,type,
% 2.14/2.36      prefers_THFTYPE_IioooI: $i > $o > $o > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(premise_THFTYPE_IoooI,type,
% 2.14/2.36      premise_THFTYPE_IoooI: $o > $o > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(prevents_THFTYPE_IiioI,type,
% 2.14/2.36      prevents_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(properPart_THFTYPE_IiioI,type,
% 2.14/2.36      properPart_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(properlyFills_THFTYPE_IiioI,type,
% 2.14/2.36      properlyFills_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(property_THFTYPE_IiioI,type,
% 2.14/2.36      property_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(publishes_THFTYPE_IiioI,type,
% 2.14/2.36      publishes_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(radius_THFTYPE_IiioI,type,
% 2.14/2.36      radius_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(rangeSubclass_THFTYPE_IiioI,type,
% 2.14/2.36      rangeSubclass_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(range_THFTYPE_IiioI,type,
% 2.14/2.36      range_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(realization_THFTYPE_IiooI,type,
% 2.14/2.36      realization_THFTYPE_IiooI: $i > $o > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(refers_THFTYPE_IiioI,type,
% 2.14/2.36      refers_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(reflexiveOn_THFTYPE_IIiioIioI,type,
% 2.14/2.36      reflexiveOn_THFTYPE_IIiioIioI: ( $i > $i > $o ) > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(relatedEvent_THFTYPE_IiioI,type,
% 2.14/2.36      relatedEvent_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(relatedExternalConcept_THFTYPE_i,type,
% 2.14/2.36      relatedExternalConcept_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(relatedInternalConcept_THFTYPE_IIIiioIIiioIoIIiioIoI,type,
% 2.14/2.36      relatedInternalConcept_THFTYPE_IIIiioIIiioIoIIiioIoI: ( ( $i > $i > $o ) > ( $i > $i > $o ) > $o ) > ( $i > $i > $o ) > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(relatedInternalConcept_THFTYPE_IIiiIioI,type,
% 2.14/2.36      relatedInternalConcept_THFTYPE_IIiiIioI: ( $i > $i ) > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(relatedInternalConcept_THFTYPE_IIiiiIioI,type,
% 2.14/2.36      relatedInternalConcept_THFTYPE_IIiiiIioI: ( $i > $i > $i ) > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(relatedInternalConcept_THFTYPE_IIiiiiiioIIiioIoI,type,
% 2.14/2.36      relatedInternalConcept_THFTYPE_IIiiiiiioIIiioIoI: ( $i > $i > $i > $i > $i > $i > $o ) > ( $i > $i > $o ) > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(relatedInternalConcept_THFTYPE_IIiioIIIoiIioIoI,type,
% 2.14/2.36      relatedInternalConcept_THFTYPE_IIiioIIIoiIioIoI: ( $i > $i > $o ) > ( ( $o > $i ) > $i > $o ) > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(relatedInternalConcept_THFTYPE_IIiioIIiiiioIoI,type,
% 2.14/2.36      relatedInternalConcept_THFTYPE_IIiioIIiiiioIoI: ( $i > $i > $o ) > ( $i > $i > $i > $i > $o ) > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(relatedInternalConcept_THFTYPE_IIiioIIiioIoI,type,
% 2.14/2.36      relatedInternalConcept_THFTYPE_IIiioIIiioIoI: ( $i > $i > $o ) > ( $i > $i > $o ) > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(relatedInternalConcept_THFTYPE_IIiioIIiooIoI,type,
% 2.14/2.36      relatedInternalConcept_THFTYPE_IIiioIIiooIoI: ( $i > $i > $o ) > ( $i > $o > $o ) > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(relatedInternalConcept_THFTYPE_IIiioIioI,type,
% 2.14/2.36      relatedInternalConcept_THFTYPE_IIiioIioI: ( $i > $i > $o ) > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(relatedInternalConcept_THFTYPE_IIiooIIiioIoI,type,
% 2.14/2.36      relatedInternalConcept_THFTYPE_IIiooIIiioIoI: ( $i > $o > $o ) > ( $i > $i > $o ) > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(relatedInternalConcept_THFTYPE_IIiooIIiooIoI,type,
% 2.14/2.36      relatedInternalConcept_THFTYPE_IIiooIIiooIoI: ( $i > $o > $o ) > ( $i > $o > $o ) > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(relatedInternalConcept_THFTYPE_IIoiioIIoiioIoI,type,
% 2.14/2.36      relatedInternalConcept_THFTYPE_IIoiioIIoiioIoI: ( $o > $i > $i > $o ) > ( $o > $i > $i > $o ) > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(relatedInternalConcept_THFTYPE_IIoioIIoioIoI,type,
% 2.14/2.36      relatedInternalConcept_THFTYPE_IIoioIIoioIoI: ( $o > $i > $o ) > ( $o > $i > $o ) > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(relatedInternalConcept_THFTYPE_IiIiiIoI,type,
% 2.14/2.36      relatedInternalConcept_THFTYPE_IiIiiIoI: $i > ( $i > $i ) > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(relatedInternalConcept_THFTYPE_IiIiiiIoI,type,
% 2.14/2.36      relatedInternalConcept_THFTYPE_IiIiiiIoI: $i > ( $i > $i > $i ) > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(relatedInternalConcept_THFTYPE_IiIiioIoI,type,
% 2.14/2.36      relatedInternalConcept_THFTYPE_IiIiioIoI: $i > ( $i > $i > $o ) > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(relatedInternalConcept_THFTYPE_IiIiooIoI,type,
% 2.14/2.36      relatedInternalConcept_THFTYPE_IiIiooIoI: $i > ( $i > $o > $o ) > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(relatedInternalConcept_THFTYPE_IiioI,type,
% 2.14/2.36      relatedInternalConcept_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(relative_THFTYPE_IiioI,type,
% 2.14/2.36      relative_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(representsForAgent_THFTYPE_IiiioI,type,
% 2.14/2.36      representsForAgent_THFTYPE_IiiioI: $i > $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(representsInLanguage_THFTYPE_IiiioI,type,
% 2.14/2.36      representsInLanguage_THFTYPE_IiiioI: $i > $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(represents_THFTYPE_IiioI,type,
% 2.14/2.36      represents_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(resource_THFTYPE_IiioI,type,
% 2.14/2.36      resource_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(result_THFTYPE_IiioI,type,
% 2.14/2.36      result_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(sibling_THFTYPE_IiioI,type,
% 2.14/2.36      sibling_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(side_THFTYPE_IiioI,type,
% 2.14/2.36      side_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(sister_THFTYPE_i,type,
% 2.14/2.36      sister_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(smaller_THFTYPE_IiioI,type,
% 2.14/2.36      smaller_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(son_THFTYPE_IiioI,type,
% 2.14/2.36      son_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(spouse_THFTYPE_IiioI,type,
% 2.14/2.36      spouse_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(starts_THFTYPE_IiioI,type,
% 2.14/2.36      starts_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(stays_THFTYPE_i,type,
% 2.14/2.36      stays_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(subAttribute_THFTYPE_IiioI,type,
% 2.14/2.36      subAttribute_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(subCollection_THFTYPE_IiioI,type,
% 2.14/2.36      subCollection_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(subGraph_THFTYPE_IiioI,type,
% 2.14/2.36      subGraph_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(subList_THFTYPE_IiioI,type,
% 2.14/2.36      subList_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(subOrganization_THFTYPE_IiioI,type,
% 2.14/2.36      subOrganization_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(subPlan_THFTYPE_i,type,
% 2.14/2.36      subPlan_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(subProcess_THFTYPE_IiioI,type,
% 2.14/2.36      subProcess_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(subProposition_THFTYPE_IoooI,type,
% 2.14/2.36      subProposition_THFTYPE_IoooI: $o > $o > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(subSystem_THFTYPE_IiioI,type,
% 2.14/2.36      subSystem_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(subclass_THFTYPE_IiioI,type,
% 2.14/2.36      subclass_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(subrelation_THFTYPE_IIiiioIIiiioIoI,type,
% 2.14/2.36      subrelation_THFTYPE_IIiiioIIiiioIoI: ( $i > $i > $i > $o ) > ( $i > $i > $i > $o ) > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(subrelation_THFTYPE_IIiioIIIoiIioIoI,type,
% 2.14/2.36      subrelation_THFTYPE_IIiioIIIoiIioIoI: ( $i > $i > $o ) > ( ( $o > $i ) > $i > $o ) > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(subrelation_THFTYPE_IIiioIIIooIioIoI,type,
% 2.14/2.36      subrelation_THFTYPE_IIiioIIIooIioIoI: ( $i > $i > $o ) > ( ( $o > $o ) > $i > $o ) > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(subrelation_THFTYPE_IIiioIIiioIoI,type,
% 2.14/2.36      subrelation_THFTYPE_IIiioIIiioIoI: ( $i > $i > $o ) > ( $i > $i > $o ) > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(subrelation_THFTYPE_IIiioIIiooIoI,type,
% 2.14/2.36      subrelation_THFTYPE_IIiioIIiooIoI: ( $i > $i > $o ) > ( $i > $o > $o ) > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(subrelation_THFTYPE_IIiioIioI,type,
% 2.14/2.36      subrelation_THFTYPE_IIiioIioI: ( $i > $i > $o ) > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(subrelation_THFTYPE_IIioIIioIoI,type,
% 2.14/2.36      subrelation_THFTYPE_IIioIIioIoI: ( $i > $o ) > ( $i > $o ) > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(subrelation_THFTYPE_IIiooIIiioIoI,type,
% 2.14/2.36      subrelation_THFTYPE_IIiooIIiioIoI: ( $i > $o > $o ) > ( $i > $i > $o ) > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(subrelation_THFTYPE_IIoioIIiioIoI,type,
% 2.14/2.36      subrelation_THFTYPE_IIoioIIiioIoI: ( $o > $i > $o ) > ( $i > $i > $o ) > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(subrelation_THFTYPE_IIoooIIiioIoI,type,
% 2.14/2.36      subrelation_THFTYPE_IIoooIIiioIoI: ( $o > $o > $o ) > ( $i > $i > $o ) > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(subrelation_THFTYPE_IiIiioIoI,type,
% 2.14/2.36      subrelation_THFTYPE_IiIiioIoI: $i > ( $i > $i > $o ) > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(subrelation_THFTYPE_IiIoooIoI,type,
% 2.14/2.36      subrelation_THFTYPE_IiIoooIoI: $i > ( $o > $o > $o ) > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(subrelation_THFTYPE_IiioI,type,
% 2.14/2.36      subrelation_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(subset_THFTYPE_IiioI,type,
% 2.14/2.36      subset_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(subsumedExternalConcept_THFTYPE_i,type,
% 2.14/2.36      subsumedExternalConcept_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(subsumesContentClass_THFTYPE_IiioI,type,
% 2.14/2.36      subsumesContentClass_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(subsumesContentInstance_THFTYPE_IiioI,type,
% 2.14/2.36      subsumesContentInstance_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(subsumesContentInstance_THFTYPE_IiooI,type,
% 2.14/2.36      subsumesContentInstance_THFTYPE_IiooI: $i > $o > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(subsumingExternalConcept_THFTYPE_i,type,
% 2.14/2.36      subsumingExternalConcept_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(successorAttributeClosure_THFTYPE_IiioI,type,
% 2.14/2.36      successorAttributeClosure_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(successorAttribute_THFTYPE_IiioI,type,
% 2.14/2.36      successorAttribute_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(superficialPart_THFTYPE_IiioI,type,
% 2.14/2.36      superficialPart_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(surface_THFTYPE_IiioI,type,
% 2.14/2.36      surface_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(synonymousExternalConcept_THFTYPE_i,type,
% 2.14/2.36      synonymousExternalConcept_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(systemPart_THFTYPE_IiioI,type,
% 2.14/2.36      systemPart_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(temporalPart_THFTYPE_IiioI,type,
% 2.14/2.36      temporalPart_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(temporallyBetweenOrEqual_THFTYPE_IiiioI,type,
% 2.14/2.36      temporallyBetweenOrEqual_THFTYPE_IiiioI: $i > $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(temporallyBetween_THFTYPE_IiiioI,type,
% 2.14/2.36      temporallyBetween_THFTYPE_IiiioI: $i > $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(time_THFTYPE_IiioI,type,
% 2.14/2.36      time_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(times_THFTYPE_IiiiI,type,
% 2.14/2.36      times_THFTYPE_IiiiI: $i > $i > $i ).
% 2.14/2.36  
% 2.14/2.36  thf(top_THFTYPE_IiioI,type,
% 2.14/2.36      top_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(totalOrderingOn_THFTYPE_IIiioIioI,type,
% 2.14/2.36      totalOrderingOn_THFTYPE_IIiioIioI: ( $i > $i > $o ) > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(transactionAmount_THFTYPE_IiioI,type,
% 2.14/2.36      transactionAmount_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(traverses_THFTYPE_IiioI,type,
% 2.14/2.36      traverses_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(trichotomizingOn_THFTYPE_IIiioIioI,type,
% 2.14/2.36      trichotomizingOn_THFTYPE_IIiioIioI: ( $i > $i > $o ) > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(truth_THFTYPE_IoooI,type,
% 2.14/2.36      truth_THFTYPE_IoooI: $o > $o > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(typicalPart_THFTYPE_IiioI,type,
% 2.14/2.36      typicalPart_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(typicallyContainsPart_THFTYPE_IiioI,type,
% 2.14/2.36      typicallyContainsPart_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(uniqueIdentifier_THFTYPE_i,type,
% 2.14/2.36      uniqueIdentifier_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(uses_THFTYPE_IiioI,type,
% 2.14/2.36      uses_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(valence_THFTYPE_IIiioIioI,type,
% 2.14/2.36      valence_THFTYPE_IIiioIioI: ( $i > $i > $o ) > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(valence_THFTYPE_IIioIioI,type,
% 2.14/2.36      valence_THFTYPE_IIioIioI: ( $i > $o ) > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(valence_THFTYPE_IiioI,type,
% 2.14/2.36      valence_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(version_THFTYPE_IiioI,type,
% 2.14/2.36      version_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(wants_THFTYPE_IiioI,type,
% 2.14/2.36      wants_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(wears_THFTYPE_IiioI,type,
% 2.14/2.36      wears_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(weight_THFTYPE_i,type,
% 2.14/2.36      weight_THFTYPE_i: $i ).
% 2.14/2.36  
% 2.14/2.36  thf(width_THFTYPE_IiioI,type,
% 2.14/2.36      width_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  thf(wife_THFTYPE_IiioI,type,
% 2.14/2.36      wife_THFTYPE_IiioI: $i > $i > $o ).
% 2.14/2.36  
% 2.14/2.36  %----The translated axioms
% 2.14/2.36  thf(ax1,axiom,
% 2.14/2.36      identityElement_THFTYPE_IIiiiIioI @ lAdditionFn_THFTYPE_IiiiI @ n0_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation White EnglishLanguage "The &%Attribute of being white in color.")
% 2.14/2.36  %KIF documentation:(documentation ChemicalSynthesis EnglishLanguage "The &%Class of &%ChemicalProcesses in which a &%CompoundSubstance is formed from simpler reactants.")
% 2.14/2.36  thf(ax2,axiom,
% 2.14/2.36      ! [PROC: $i] :
% 2.14/2.36        ( ( instance_THFTYPE_IiioI @ PROC @ lOrganOrTissueProcess_THFTYPE_i )
% 2.14/2.36       => ? [THING: $i] :
% 2.14/2.36            ( ( located_THFTYPE_IiioI @ PROC @ THING )
% 2.14/2.36            & ( ( instance_THFTYPE_IiioI @ THING @ lOrgan_THFTYPE_i )
% 2.14/2.36              | ( instance_THFTYPE_IiioI @ THING @ lTissue_THFTYPE_i ) ) ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax3,axiom,
% 2.14/2.36      ! [NUMBER1: $i,LIST: $i] :
% 2.14/2.36        ( ( ( ( lListLengthFn_THFTYPE_IiiI @ LIST )
% 2.14/2.36            = NUMBER1 )
% 2.14/2.36          & ( instance_THFTYPE_IiioI @ LIST @ lList_THFTYPE_i )
% 2.14/2.36          & ( (~) @ ( LIST = lNullList_THFTYPE_i ) )
% 2.14/2.36          & ( instance_THFTYPE_IiioI @ NUMBER1 @ lPositiveInteger_THFTYPE_i ) )
% 2.14/2.36       => ! [NUMBER2: $i] :
% 2.14/2.36            ( ? [ITEM: $i] :
% 2.14/2.36                ( ( ( lListOrderFn_THFTYPE_IiiiI @ LIST @ NUMBER2 )
% 2.14/2.36                  = ITEM )
% 2.14/2.36                & ( inList_THFTYPE_IiioI @ ITEM @ LIST ) )
% 2.14/2.36          <=> ( ltet_THFTYPE_IiioI @ NUMBER2 @ NUMBER1 ) ) ) ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation pointOfFigure EnglishLanguage "(&%pointOfFigure ?POINT ?FIGURE) means that the &%GeometricPoint ?POINT is part of the &%GeometricFigure ?FIGURE.")
% 2.14/2.36  thf(ax4,axiom,
% 2.14/2.36      ! [ROLE: $i > $i > $o,ARG1: $i,ARG2: $i,PROC: $i] :
% 2.14/2.36        ( ( ( instance_THFTYPE_IIiioIioI @ ROLE @ lCaseRole_THFTYPE_i )
% 2.14/2.36          & ( ROLE @ ARG1 @ ARG2 )
% 2.14/2.36          & ( instance_THFTYPE_IiioI @ ARG1 @ PROC )
% 2.14/2.36          & ( subclass_THFTYPE_IiioI @ PROC @ lProcess_THFTYPE_i ) )
% 2.14/2.36       => ( capability_THFTYPE_IiIiioIioI @ PROC @ ROLE @ ARG2 ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax5,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lUnitOfMeasure_THFTYPE_i @ lPhysicalQuantity_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation PathologicProcess EnglishLanguage "A disordered process, activity, or state of the &%Organism as a whole, of a body system or systems, or of multiple &%Organs or &%Tissues. Included here are normal responses to a negative stimulus as well as patholologic conditions or states that are less specific than a disease. Pathologic functions frequently have systemic effects.")
% 2.14/2.36  %KIF documentation:(documentation Freezing EnglishLanguage "The &%Class of &%Processes where an &%Object is cooled and converted from a &%Liquid to a &%Solid.")
% 2.14/2.36  %KIF documentation:(documentation RemainderFn EnglishLanguage "(RemainderFn ?NUMBER ?DIVISOR) is the remainder of the number ?NUMBER divided by the number ?DIVISOR. The result has the same sign as ?DIVISOR.")
% 2.14/2.36  thf(ax6,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lCooling_THFTYPE_i @ lDecreasing_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation instrument EnglishLanguage "(instrument ?EVENT ?TOOL) means that ?TOOL is used by an agent in bringing about ?EVENT and that ?TOOL is not changed by ?EVENT. For example, the key is an &%instrument in the following proposition: The key opened the door. Note that &%instrument and &%resource cannot be satisfied by the same ordered pair.")
% 2.14/2.36  %KIF documentation:(documentation Quart EnglishLanguage "English unit of volume equal to 1/ 4 of a &%UnitedStatesGallon.")
% 2.14/2.36  thf(ax7,axiom,
% 2.14/2.36      range_THFTYPE_IiioI @ lPremisesFn_THFTYPE_i @ lProposition_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax8,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lAnimalAnatomicalStructure_THFTYPE_i @ lAnatomicalStructure_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax9,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lQuaternaryFunction_THFTYPE_i @ lQuintaryRelation_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation PureSubstance EnglishLanguage "The &%Class of &%Substances with constant composition. A &%PureSubstance can be either an element (&%ElementalSubstance) or a compound of elements (&%CompoundSubstance). Examples: Table salt (sodium chloride, NaCl), sugar (sucrose, C_{12}H_{22}O_{11}), water (H_2O), iron (Fe), copper (Cu), and oxygen (O_2).")
% 2.14/2.36  %KIF documentation:(documentation causesSubclass EnglishLanguage "The causation relation between subclasses of &%Process. (&%causesSubclass ?PROCESS1 ?PROCESS2) means that the subclass of &%Process ?PROCESS1 brings about the subclass of &%Process ?PROCESS2, e.g. (&%causesSubclass &%Killing &%Death).")
% 2.14/2.36  thf(ax10,axiom,
% 2.14/2.36      ! [GRAPH: $i,PATH: $i,NODE1: $i,NODE2: $i] :
% 2.14/2.36        ( ( ( graphPart_THFTYPE_IiioI @ PATH @ GRAPH )
% 2.14/2.36          & ( (~) @ ( instance_THFTYPE_IiioI @ GRAPH @ lDirectedGraph_THFTYPE_i ) ) )
% 2.14/2.36       => ( ( ( lGraphPathFn_THFTYPE_IiiiI @ NODE1 @ NODE2 )
% 2.14/2.36            = PATH )
% 2.14/2.36        <=> ( ( lGraphPathFn_THFTYPE_IiiiI @ NODE2 @ NODE1 )
% 2.14/2.36            = PATH ) ) ) ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation Meat EnglishLanguage "Any &%Food which was originally part of an &%Animal and is not ingested by drinking, including eggs and animal blood that is eaten as food. Note that this class covers both raw meat and meat that has been prepared in some way, e.g. by cooking. Note too that preparations involving &%Meat and &%FruitOrVegetable are classed directly under &%Food.")
% 2.14/2.36  %KIF documentation:(documentation ancestor EnglishLanguage "The transitive closure of the &%parent predicate. (&%ancestor ?DESCENDANT ?ANCESTOR) means that ?ANCESTOR is either the &%parent of ?DESCENDANT or the &%parent of the &%parent of &%DESCENDANT or etc.")
% 2.14/2.36  thf(ax11,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i @ lBinaryRelation_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax12,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lJudicialOrganization_THFTYPE_i @ lOrganization_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation NonnegativeInteger EnglishLanguage "An &%Integer that is greater than or equal to zero.")
% 2.14/2.36  thf(ax13,axiom,
% 2.14/2.36      ! [SOUND: $i,EMIT: $i] :
% 2.14/2.36        ( ( ( instance_THFTYPE_IiioI @ EMIT @ lRadiatingSound_THFTYPE_i )
% 2.14/2.36          & ( agent_THFTYPE_IiioI @ EMIT @ SOUND ) )
% 2.14/2.36       => ? [ATTR: $i] :
% 2.14/2.36            ( ( instance_THFTYPE_IiioI @ ATTR @ lSoundAttribute_THFTYPE_i )
% 2.14/2.36            & ( attribute_THFTYPE_IiioI @ SOUND @ ATTR ) ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax14,axiom,
% 2.14/2.36      ! [MINUTE: $i,SECOND2: $i,SECOND1: $i,NUMBER2: $i,NUMBER1: $i] :
% 2.14/2.36        ( ( ( instance_THFTYPE_IiioI @ SECOND1 @ ( lSecondFn_THFTYPE_IiiiI @ NUMBER1 @ MINUTE ) )
% 2.14/2.36          & ( instance_THFTYPE_IiioI @ SECOND2 @ ( lSecondFn_THFTYPE_IiiiI @ NUMBER2 @ MINUTE ) )
% 2.14/2.36          & ( ( minus_THFTYPE_IiiiI @ NUMBER2 @ NUMBER1 )
% 2.14/2.36            = n1_THFTYPE_i ) )
% 2.14/2.36       => ( meetsTemporally_THFTYPE_IiioI @ SECOND1 @ SECOND2 ) ) ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation UnitedStatesGallon EnglishLanguage "Unit of volume commonly used in the United States.")
% 2.14/2.36  %KIF documentation:(documentation ChemicalDecomposition EnglishLanguage "The &%Class of &%ChemicalProcesses in which a &%CompoundSubstance breaks down into simpler products.")
% 2.14/2.36  thf(ax15,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lAttaching_THFTYPE_i @ lDualObjectProcess_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation Coulomb EnglishLanguage "SI electric charge measure. Symbol: C. It is the quantity of electric charge transported through a cross section of a conductor in an electric circuit during each &%SecondDuration by a current of 1 &%Ampere. Coulomb = s*A.")
% 2.14/2.36  thf(ax16,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lTherapeuticProcess_THFTYPE_i @ lRepairing_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax17,axiom,
% 2.14/2.36      ! [ARC: $i] :
% 2.14/2.36        ( ( instance_THFTYPE_IiioI @ ARC @ lGraphArc_THFTYPE_i )
% 2.14/2.36       => ? [NODE1: $i,NODE2: $i] : ( links_THFTYPE_IiiioI @ NODE1 @ NODE2 @ ARC ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax18,axiom,
% 2.14/2.36      partition_THFTYPE_IiiioI @ lSubstance_THFTYPE_i @ lSyntheticSubstance_THFTYPE_i @ lNaturalSubstance_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax19,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i @ lIrreflexiveRelation_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax20,axiom,
% 2.14/2.36      ! [SENT: $i] :
% 2.14/2.36        ( ( instance_THFTYPE_IiioI @ SENT @ lSentence_THFTYPE_i )
% 2.14/2.36       => ? [PROP: $o] :
% 2.14/2.36            ( ( instance_THFTYPE_IoioI @ PROP @ lProposition_THFTYPE_i )
% 2.14/2.36            & ( containsInformation_THFTYPE_IiooI @ SENT @ PROP ) ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax21,axiom,
% 2.14/2.36      ! [NUMBER: $i] :
% 2.14/2.36        ( ( NUMBER
% 2.14/2.36          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.36       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lPoundMass_THFTYPE_i )
% 2.14/2.36          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n453dot59237_THFTYPE_i ) @ lGram_THFTYPE_i ) ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax22,axiom,
% 2.14/2.36      ! [GIVE: $i,AGENT: $i] :
% 2.14/2.36        ( ( ( instance_THFTYPE_IiioI @ GIVE @ lGiving_THFTYPE_i )
% 2.14/2.36          & ( agent_THFTYPE_IiioI @ GIVE @ AGENT ) )
% 2.14/2.36       => ( origin_THFTYPE_IiioI @ GIVE @ AGENT ) ) ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation GeometricPoint EnglishLanguage "The class of zero-dimensional &%GeometricFigures, i.e. the class of &%GeometricFigures that have position but lack extension in any dimension.")
% 2.14/2.36  thf(ax23,axiom,
% 2.14/2.36      ! [E2: $i,ATT: $i,E1: $i] :
% 2.14/2.36        ( ( greaterThanByQuality_THFTYPE_IiiioI @ E1 @ E2 @ ATT )
% 2.14/2.36       => ( (~) @ ( greaterThanByQuality_THFTYPE_IiiioI @ E2 @ E1 @ ATT ) ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax24,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lReproductiveBody_THFTYPE_i @ lBodyPart_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax25,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lFinancialTransaction_THFTYPE_i @ lTransaction_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax26,axiom,
% 2.14/2.36      ! [FORMULA: $o] :
% 2.14/2.36        ( ( modalAttribute_THFTYPE_IoioI @ FORMULA @ lNecessity_THFTYPE_i )
% 2.14/2.36       => ( modalAttribute_THFTYPE_IoioI @ FORMULA @ lPossibility_THFTYPE_i ) ) ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation Getting EnglishLanguage "The &%subclass of &%ChangeOfPossession where the &%agent gets something. Note that the source from which something is obtained is specified with the &%origin &%CaseRole.")
% 2.14/2.36  thf(ax27,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lGraphCircuit_THFTYPE_i @ lGraphPath_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation Supposing EnglishLanguage "Instances of this &%Class suppose, for the sake of argument, that a proposition is true. For example, John considered what he would do if he won the lottery.")
% 2.14/2.36  %KIF documentation:(documentation Judging EnglishLanguage "The subclass of &%Selecting where the &%agent opts for one belief out of a set of multiple possibilities that are available to him/ her.")
% 2.14/2.36  thf(ax28,axiom,
% 2.14/2.36      ! [OBJ: $i,PURSUE: $i,AGENT: $i] :
% 2.14/2.36        ( ( ( instance_THFTYPE_IiioI @ PURSUE @ lPursuing_THFTYPE_i )
% 2.14/2.36          & ( agent_THFTYPE_IiioI @ PURSUE @ AGENT )
% 2.14/2.36          & ( patient_THFTYPE_IiioI @ PURSUE @ OBJ ) )
% 2.14/2.36       => ( holdsDuring_THFTYPE_IiooI @ PURSUE @ ( wants_THFTYPE_IiioI @ AGENT @ OBJ ) ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax29,axiom,
% 2.14/2.36      disjoint_THFTYPE_IiioI @ lWarmBloodedVertebrate_THFTYPE_i @ lColdBloodedVertebrate_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax30,axiom,
% 2.14/2.36      ! [NUMBER: $i,QUANT: $i,UNIT: $i] :
% 2.14/2.36        ( ( ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ UNIT )
% 2.14/2.36            = QUANT )
% 2.14/2.36          & ( instance_THFTYPE_IiioI @ UNIT @ lUnitOfDuration_THFTYPE_i ) )
% 2.14/2.36       => ( instance_THFTYPE_IiioI @ QUANT @ lTimeDuration_THFTYPE_i ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax31,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lSubstituting_THFTYPE_i @ lDualObjectProcess_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax32,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lAugust_THFTYPE_i @ lMonth_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax33,axiom,
% 2.14/2.36      ! [VIRUS: $i,PROC: $i] :
% 2.14/2.36        ( ( ( instance_THFTYPE_IiioI @ VIRUS @ lVirus_THFTYPE_i )
% 2.14/2.36          & ( instance_THFTYPE_IiioI @ PROC @ lReplication_THFTYPE_i )
% 2.14/2.36          & ( agent_THFTYPE_IiioI @ PROC @ VIRUS ) )
% 2.14/2.36       => ? [CELL: $i] :
% 2.14/2.36            ( ( located_THFTYPE_IiioI @ PROC @ CELL )
% 2.14/2.36            & ( instance_THFTYPE_IiioI @ CELL @ lCell_THFTYPE_i ) ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax34,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lSexAttribute_THFTYPE_i @ lBiologicalAttribute_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax35,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lDrinking_THFTYPE_i @ lIngesting_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation Illuminated EnglishLanguage "The &%Attribute of &%Regions that are illuminated to some degree, i.e. in which some shapes are visually discernable.")
% 2.14/2.36  thf(ax36,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lReligiousOrganization_THFTYPE_i @ lBeliefGroup_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation UnitOfAngularMeasure EnglishLanguage "Every instance of this &%Class is a &%UnitOfMeasure that can be used with &%MeasureFn to form instances of &%AngleMeasure.")
% 2.14/2.36  thf(ax37,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lServiceProcess_THFTYPE_i @ lSocialInteraction_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax38,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lBiologicalProcess_THFTYPE_i @ lInternalChange_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax39,axiom,
% 2.14/2.36      ! [OBJ1: $i,OBJ2: $i] :
% 2.14/2.36        ( ( connected_THFTYPE_IiioI @ OBJ1 @ OBJ2 )
% 2.14/2.36       => ( ( meetsSpatially_THFTYPE_IiioI @ OBJ1 @ OBJ2 )
% 2.14/2.36          | ( overlapsSpatially_THFTYPE_IiioI @ OBJ1 @ OBJ2 ) ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax40,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lContentBearingObject_THFTYPE_i @ lContentBearingPhysical_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax41,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lChemicalProcess_THFTYPE_i @ lInternalChange_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax42,axiom,
% 2.14/2.36      range_THFTYPE_IiioI @ lSquareRootFn_THFTYPE_i @ lNumber_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax43,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lCanine_THFTYPE_i @ lCarnivore_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax44,axiom,
% 2.14/2.36      ! [COOL: $i,OBJ: $i] :
% 2.14/2.36        ( ( ( instance_THFTYPE_IiioI @ COOL @ lCooling_THFTYPE_i )
% 2.14/2.36          & ( patient_THFTYPE_IiioI @ COOL @ OBJ ) )
% 2.14/2.36       => ? [UNIT: $i,QUANT1: $i,QUANT2: $i] :
% 2.14/2.36            ( ( instance_THFTYPE_IiioI @ UNIT @ lTemperatureMeasure_THFTYPE_i )
% 2.14/2.36            & ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ COOL ) )
% 2.14/2.36              @ ( ( lMeasureFn_THFTYPE_IiiiI @ OBJ @ UNIT )
% 2.14/2.36                = QUANT1 ) )
% 2.14/2.36            & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ COOL ) )
% 2.14/2.36              @ ( ( lMeasureFn_THFTYPE_IiiiI @ OBJ @ UNIT )
% 2.14/2.36                = QUANT2 ) )
% 2.14/2.36            & ( lt_THFTYPE_IiioI @ QUANT2 @ QUANT1 ) ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax45,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lJudging_THFTYPE_i @ lSelecting_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax46,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lHearing_THFTYPE_i @ lPerception_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax47,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lTernaryPredicate_THFTYPE_i @ lPredicate_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax48,axiom,
% 2.14/2.36      ! [OBJ: $i,ATTACK: $i,AGENT: $i] :
% 2.14/2.36        ( ( ( instance_THFTYPE_IiioI @ ATTACK @ lAttack_THFTYPE_i )
% 2.14/2.36          & ( agent_THFTYPE_IiioI @ ATTACK @ AGENT )
% 2.14/2.36          & ( patient_THFTYPE_IiioI @ ATTACK @ OBJ ) )
% 2.14/2.36       => ( hasPurposeForAgent_THFTYPE_IioioI @ ATTACK
% 2.14/2.36          @ ? [DAMAGE: $i] :
% 2.14/2.36              ( ( instance_THFTYPE_IiioI @ DAMAGE @ lDamaging_THFTYPE_i )
% 2.14/2.36              & ( patient_THFTYPE_IiioI @ DAMAGE @ OBJ ) )
% 2.14/2.36          @ AGENT ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax49,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lBreathing_THFTYPE_i @ lOrganismProcess_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax50,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lDrying_THFTYPE_i @ lRemoving_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax51,axiom,
% 2.14/2.36      ! [MELT: $i] :
% 2.14/2.36        ( ( instance_THFTYPE_IiioI @ MELT @ lMelting_THFTYPE_i )
% 2.14/2.36       => ? [HEAT: $i] :
% 2.14/2.36            ( ( instance_THFTYPE_IiioI @ HEAT @ lHeating_THFTYPE_i )
% 2.14/2.36            & ( subProcess_THFTYPE_IiioI @ HEAT @ MELT ) ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax52,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lCircle_THFTYPE_i @ lOval_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax53,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lPositiveInteger_THFTYPE_i @ lPositiveRealNumber_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax54,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lCommercialService_THFTYPE_i @ lFinancialTransaction_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax55,axiom,
% 2.14/2.36      ! [BANK: $i] :
% 2.14/2.36        ( ( instance_THFTYPE_IiioI @ BANK @ lShoreArea_THFTYPE_i )
% 2.14/2.36       => ? [WATER: $i] :
% 2.14/2.36            ( ( instance_THFTYPE_IiioI @ WATER @ lWaterArea_THFTYPE_i )
% 2.14/2.36            & ( meetsSpatially_THFTYPE_IiioI @ BANK @ WATER ) ) ) ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation attribute EnglishLanguage "(&%attribute ?OBJECT ?PROPERTY) means that ?PROPERTY is a &%Attribute of ?OBJECT. For example, (&%attribute &%MyLittleRedWagon &%Red).")
% 2.14/2.36  thf(ax56,axiom,
% 2.14/2.36      ! [OBJ1: $i,OBJ2: $i] :
% 2.14/2.36        ( ( orientation_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ lAdjacent_THFTYPE_i )
% 2.14/2.36      <=> ( ( orientation_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ lNear_THFTYPE_i )
% 2.14/2.36          | ( connected_THFTYPE_IiioI @ OBJ1 @ OBJ2 ) ) ) ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation Contest EnglishLanguage "A &%SocialInteraction where the &%agent and &%patient are &%CognitiveAgents who are trying to defeat one another. Note that this concept is often applied in a metaphorical sense in natural language, when we speak, e.g., of the struggle of plants for space or sunlight, or of bacteria for food resources in some environment.")
% 2.14/2.36  thf(ax57,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lTransportationDevice_THFTYPE_i @ lDevice_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax58,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lSingleValuedRelation_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax59,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lTransportation_THFTYPE_i @ lTranslocation_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation WaterMotion EnglishLanguage "Any &%LiquidMotion where the &%Liquid is &%Water.")
% 2.14/2.36  thf(ax60,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lSubatomicParticle_THFTYPE_i @ lElementalSubstance_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation Remembering EnglishLanguage "The &%Class of &%PsychologicalProcesses which involve the recollection of prior experiences and/ or of knowledge which was previously acquired.")
% 2.14/2.36  %KIF documentation:(documentation BackFn EnglishLanguage "A &%Function that maps an &%Object to the side that is opposite the &%FrontFn of the &%Object. Note that this is a partial function, since some &%Objects do not have sides, e.g. apples and spheres. Note too that the &%range of this &%Function is indefinite in much the way that &%ImmediateFutureFn and &%ImmediatePastFn are indefinite. Although this indefiniteness is undesirable from a theoretical standpoint, it does not have significant practical implications, since there is widespread intersubjective agreement about the most common cases.")
% 2.14/2.36  thf(ax61,axiom,
% 2.14/2.36      ! [BACTERIUM: $i] :
% 2.14/2.36        ( ( instance_THFTYPE_IiioI @ BACTERIUM @ lBacterium_THFTYPE_i )
% 2.14/2.36       => ? [CELL1: $i] :
% 2.14/2.36            ( ( component_THFTYPE_IiioI @ CELL1 @ BACTERIUM )
% 2.14/2.36            & ( instance_THFTYPE_IiioI @ CELL1 @ lCell_THFTYPE_i )
% 2.14/2.36            & ! [CELL2: $i] :
% 2.14/2.36                ( ( ( component_THFTYPE_IiioI @ CELL2 @ BACTERIUM )
% 2.14/2.36                  & ( instance_THFTYPE_IiioI @ CELL2 @ lCell_THFTYPE_i ) )
% 2.14/2.36               => ( CELL1 = CELL2 ) ) ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax62,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lMicroorganism_THFTYPE_i @ lOrganism_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation links EnglishLanguage "a &%TernaryPredicate that specifies the &%GraphArc connecting two &%GraphNodes.")
% 2.14/2.36  thf(ax63,axiom,
% 2.14/2.36      ! [OBJ1: $i,OBJ2: $i] :
% 2.14/2.36        ( ( orientation_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ lEast_THFTYPE_i )
% 2.14/2.36      <=> ( orientation_THFTYPE_IiiioI @ OBJ2 @ OBJ1 @ lWest_THFTYPE_i ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax64,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lTotalOrderingRelation_THFTYPE_i @ lTrichotomizingRelation_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax65,axiom,
% 2.14/2.36      ! [CLASS: $i,ROW: $i] :
% 2.14/2.36        ( ( disjointDecomposition_THFTYPE_IiioI @ CLASS @ ROW )
% 2.14/2.36       => ! [ITEM: $i] :
% 2.14/2.36            ( ( inList_THFTYPE_IiioI @ ITEM @ ( lListFn_THFTYPE_IiiI @ ROW ) )
% 2.14/2.36           => ( subclass_THFTYPE_IiioI @ ITEM @ CLASS ) ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax66,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lRelation_THFTYPE_i @ lAbstract_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax67,axiom,
% 2.14/2.36      ! [OBJ: $i,MOTION: $i] :
% 2.14/2.36        ( ( ( instance_THFTYPE_IiioI @ MOTION @ lGasMotion_THFTYPE_i )
% 2.14/2.36          & ( patient_THFTYPE_IiioI @ MOTION @ OBJ ) )
% 2.14/2.36       => ( attribute_THFTYPE_IiioI @ OBJ @ lGas_THFTYPE_i ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax68,axiom,
% 2.14/2.36      ! [YEAR: $i] :
% 2.14/2.36        ( ( instance_THFTYPE_IiioI @ YEAR @ lYear_THFTYPE_i )
% 2.14/2.36       => ( duration_THFTYPE_IiioI @ YEAR @ ( lMeasureFn_THFTYPE_IiiiI @ n1_THFTYPE_i @ lYearDuration_THFTYPE_i ) ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax69,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lDecember_THFTYPE_i @ lMonth_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation path EnglishLanguage "(&%path ?MOTION ?PATH) means that ?PATH is a route along which ?MOTION occurs. For example, Highway 101 is the path in the following proposition: the car drove up Highway 101.")
% 2.14/2.36  thf(ax70,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lPredicate_THFTYPE_i @ lRelation_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation StateOfMind EnglishLanguage "The class &%StateOfMind is distinguished from its complement &%TraitAttribute by the fact that instances of the former are transient while instances of the latter are persistent features of a creature's behavioral/ psychological make-up.")
% 2.14/2.36  thf(ax71,axiom,
% 2.14/2.36      range_THFTYPE_IiioI @ lTimeIntervalFn_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation abstractCounterpart EnglishLanguage "(abstractCounterpart ?AB ?PHYS relates a &%Physical entity to an &%Abstract one which is an idealized model in some dimension of the &%Physical entity. For example, an &%Abstract &%GraphNode could be stated to be the counterpart of an actual &%Computer in a &%ComputerNetwork.")
% 2.14/2.36  thf(ax72,axiom,
% 2.14/2.36      ! [HOLE: $i,OBJ1: $i,OBJ2: $i] :
% 2.14/2.36        ( ( ( properlyFills_THFTYPE_IiioI @ OBJ1 @ HOLE )
% 2.14/2.36          & ( connected_THFTYPE_IiioI @ OBJ2 @ OBJ1 ) )
% 2.14/2.36       => ( connected_THFTYPE_IiioI @ HOLE @ OBJ2 ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax73,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lTemperatureMeasure_THFTYPE_i @ lConstantQuantity_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax74,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lDiseaseOrSyndrome_THFTYPE_i @ lBiologicalAttribute_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax75,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lDeductiveArgument_THFTYPE_i @ lArgument_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax76,axiom,
% 2.14/2.36      ! [CLASS: $i,INTERVAL_TYPE: $i,INTERVAL: $i] :
% 2.14/2.36        ( ( ( lTemporalCompositionFn_THFTYPE_IiiiI @ INTERVAL @ INTERVAL_TYPE )
% 2.14/2.36          = CLASS )
% 2.14/2.36       => ! [TIME1: $i,TIME2: $i] :
% 2.14/2.36            ( ( ( instance_THFTYPE_IiioI @ TIME1 @ CLASS )
% 2.14/2.36              & ( instance_THFTYPE_IiioI @ TIME2 @ CLASS )
% 2.14/2.36              & ( (~) @ ( TIME1 = TIME2 ) ) )
% 2.14/2.36           => ( ( meetsTemporally_THFTYPE_IiioI @ TIME1 @ TIME2 )
% 2.14/2.36              | ( meetsTemporally_THFTYPE_IiioI @ TIME2 @ TIME1 )
% 2.14/2.36              | ( earlier_THFTYPE_IiioI @ TIME1 @ TIME2 )
% 2.14/2.36              | ( earlier_THFTYPE_IiioI @ TIME2 @ TIME1 ) ) ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax77,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lNegativeInteger_THFTYPE_i @ lNegativeRealNumber_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation QuantityChange EnglishLanguage "Any &%InternalChange where a &%PhysicalQuantity associated with the &%patient is altered.")
% 2.14/2.36  thf(ax78,axiom,
% 2.14/2.36      ! [YEAR: $i] :
% 2.14/2.36        ( ( instance_THFTYPE_IiioI @ YEAR @ lYear_THFTYPE_i )
% 2.14/2.36       => ( ( lCardinalityFn_THFTYPE_IiiI @ ( lTemporalCompositionFn_THFTYPE_IiiiI @ YEAR @ lMonth_THFTYPE_i ) )
% 2.14/2.36          = n12_THFTYPE_i ) ) ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation interiorPart EnglishLanguage "(&%interiorPart ?OBJ1 ?OBJ2) means that ?OBJ1 is part ?OBJ2 and there is no overlap between ?OBJ1 and any &%superficialPart ?OBJ2.")
% 2.14/2.36  %KIF documentation:(documentation QuaternaryFunction EnglishLanguage "The &%Class of &%Functions that require exactly four arguments.")
% 2.14/2.36  %KIF documentation:(documentation ParamilitaryOrganization EnglishLanguage "An &%Organization which is much like a &%MilitaryOrganization, e.g. it is made up of armed fighters, except that it is not associated with a &%Government.")
% 2.14/2.36  thf(ax79,axiom,
% 2.14/2.36      ! [TIME2: $i,TIME1: $i] :
% 2.14/2.36        ( ( ( lRelativeTimeFn_THFTYPE_IiiiI @ TIME1 @ lPacificTimeZone_THFTYPE_i )
% 2.14/2.36          = TIME2 )
% 2.14/2.36       => ( TIME2
% 2.14/2.36          = ( plus_THFTYPE_IiiiI @ TIME1 @ n8_THFTYPE_i ) ) ) ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation TotalValuedRelation EnglishLanguage "A &%Relation is a &%TotalValuedRelation just in case there exists an assignment for the last argument position of the &%Relation given any assignment of values to every argument position except the last one. Note that declaring a &%Relation to be both a &%TotalValuedRelation and a &%SingleValuedRelation means that it is a total function.")
% 2.14/2.36  thf(ax80,axiom,
% 2.14/2.36      ! [FORMULA: $o,AGENT2: $i,AGENT1: $i] :
% 2.14/2.36        ( ( confersRight_THFTYPE_IoiioI @ FORMULA @ AGENT1 @ AGENT2 )
% 2.14/2.36       => ( holdsRight_THFTYPE_IoioI @ FORMULA @ AGENT2 ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax81,axiom,
% 2.14/2.36      ! [PERSON: $i,ATTRIBUTE: $i] :
% 2.14/2.36        ( ( ( attribute_THFTYPE_IiioI @ PERSON @ ATTRIBUTE )
% 2.14/2.36          & ( instance_THFTYPE_IiioI @ ATTRIBUTE @ lSocialRole_THFTYPE_i ) )
% 2.14/2.36       => ( instance_THFTYPE_IiioI @ PERSON @ lHuman_THFTYPE_i ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax82,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lPredicting_THFTYPE_i @ lIntentionalPsychologicalProcess_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax83,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lWedding_THFTYPE_i @ lDeclaring_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation Calorie EnglishLanguage "A &%Calorie is an energy measure.")
% 2.14/2.36  thf(ax84,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lInvertebrate_THFTYPE_i @ lAnimal_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation between EnglishLanguage "(between ?OBJ1 ?OBJ2 ?OBJ3) means that ?OBJ2 is spatially located between ?OBJ1 and ?OBJ3. Note that this implies that ?OBJ2 is directly between ?OBJ1 and ?OBJ3, i.e. the projections of ?OBJ1 and ?OBJ3 overlap with ?OBJ2.")
% 2.14/2.36  %KIF documentation:(documentation MilitaryForce EnglishLanguage "&%MilitaryForce is the subclass of &%Organizations that are organized along military lines and for the purpose of either defensive or offensive combat, whether or not the force is an official &%GovernmentOrganization.")
% 2.14/2.36  %KIF documentation:(documentation Investigating EnglishLanguage "The class of &%IntentionalPsychologicalProcesses where the &%agent attempts to obtaina information (i.e. a &%Proposition denoted by a &%Formula).")
% 2.14/2.36  %KIF documentation:(documentation YearFn EnglishLanguage "A &%UnaryFunction that maps a number to the corresponding calendar &%Year. For example, (&%YearFn 1912) returns the &%Class containing just one instance, the year of 1912. As might be expected, positive integers return years in the Common Era, while negative integers return years in B.C.E. Note that this function returns a &%Class as a value. The reason for this is that the related functions, viz. &%MonthFn, &%DayFn, &%HourFn, &%MinuteFn, and &%SecondFn, are used to generate both specific &%TimeIntervals and recurrent intervals, and the only way to do this is to make the domains and ranges of these functions classes rather than individuals.")
% 2.14/2.36  %KIF documentation:(documentation VariableArityRelation EnglishLanguage "The &%Class of &%Relations that do not have a fixed number of arguments.")
% 2.14/2.36  thf(ax85,axiom,
% 2.14/2.36      ! [START: $i,FINISH: $i,DROP: $i] :
% 2.14/2.36        ( ( ( instance_THFTYPE_IiioI @ DROP @ lFalling_THFTYPE_i )
% 2.14/2.36          & ( origin_THFTYPE_IiioI @ DROP @ START )
% 2.14/2.36          & ( destination_THFTYPE_IiioI @ DROP @ FINISH ) )
% 2.14/2.36       => ( orientation_THFTYPE_IiiioI @ FINISH @ START @ lBelow_THFTYPE_i ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax86,axiom,
% 2.14/2.36      ! [ORG: $i,AGENT: $i] :
% 2.14/2.36        ( ( ( instance_THFTYPE_IiioI @ ORG @ lOrganization_THFTYPE_i )
% 2.14/2.36          & ( member_THFTYPE_IiioI @ AGENT @ ORG ) )
% 2.14/2.36       => ( instance_THFTYPE_IiioI @ AGENT @ lAgent_THFTYPE_i ) ) ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation DefensiveManeuver EnglishLanguage "A &%Maneuver in a &%ViolentContest where the &%agent attempts to avoid being damaged.")
% 2.14/2.36  thf(ax87,axiom,
% 2.14/2.36      ! [OBJ: $i,HOLE1: $i] :
% 2.14/2.36        ( ( properlyFills_THFTYPE_IiioI @ OBJ @ HOLE1 )
% 2.14/2.36       => ? [HOLE2: $i] :
% 2.14/2.36            ( ( part_THFTYPE_IiioI @ HOLE2 @ HOLE1 )
% 2.14/2.36            & ( fills_THFTYPE_IiioI @ OBJ @ HOLE2 ) ) ) ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation greaterThanOrEqualTo EnglishLanguage "(&%greaterThanOrEqualTo ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is greater than the &%Quantity ?NUMBER2.")
% 2.14/2.36  %KIF documentation:(documentation connected EnglishLanguage "(connected ?OBJ1 ?OBJ2) means that ?OBJ1 &%meetsSpatially ?OBJ2 or that ?OBJ1 &%overlapsSpatially ?OBJ2.")
% 2.14/2.36  thf(ax88,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lBook_THFTYPE_i @ lText_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax89,axiom,
% 2.14/2.36      ! [FORMULA: $o] :
% 2.14/2.36        ( ( modalAttribute_THFTYPE_IoioI @ FORMULA @ lProhibition_THFTYPE_i )
% 2.14/2.36      <=> ( (~) @ ( modalAttribute_THFTYPE_IoioI @ FORMULA @ lPermission_THFTYPE_i ) ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax90,axiom,
% 2.14/2.36      ! [EAT: $i,CARNIVORE: $i,PREY: $i] :
% 2.14/2.36        ( ( ( instance_THFTYPE_IiioI @ CARNIVORE @ lCarnivore_THFTYPE_i )
% 2.14/2.36          & ( instance_THFTYPE_IiioI @ EAT @ lEating_THFTYPE_i )
% 2.14/2.36          & ( agent_THFTYPE_IiioI @ EAT @ CARNIVORE )
% 2.14/2.36          & ( patient_THFTYPE_IiioI @ EAT @ PREY ) )
% 2.14/2.36       => ( instance_THFTYPE_IiioI @ PREY @ lAnimal_THFTYPE_i ) ) ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation RelativeComplementFn EnglishLanguage "A &%BinaryFunction that maps two &%SetOrClasses to the difference between these &%SetOrClasses. More precisely, (&%RelativeComplementFn ?CLASS1 ?CLASS2) denotes the instances of ?CLASS1 that are not also instances of ?CLASS2.")
% 2.14/2.36  thf(ax91,axiom,
% 2.14/2.36      ! [OBJ: $i,BACTERIUM: $i] :
% 2.14/2.36        ( ( ( instance_THFTYPE_IiioI @ BACTERIUM @ lBacterium_THFTYPE_i )
% 2.14/2.36          & ( inhabits_THFTYPE_IiioI @ BACTERIUM @ OBJ ) )
% 2.14/2.36       => ( instance_THFTYPE_IiioI @ OBJ @ lOrganism_THFTYPE_i ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax92,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lCurrencyMeasure_THFTYPE_i @ lConstantQuantity_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax93,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lFatTissue_THFTYPE_i @ lTissue_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax94,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lArthropod_THFTYPE_i @ lInvertebrate_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation UnitedStatesDollar EnglishLanguage "A currency measure.")
% 2.14/2.36  %KIF documentation:(documentation mutualAcquaintance EnglishLanguage "(&%mutualAcquaintance ?H1 ?H2) means that ?H1 and ?H2 have met each other and know something about each other, such as name and appearance. Statements made with this predicate should be temporally specified with &%holdsDuring. See also the weaker, non-symmetric version of this predicate, &%acquaintance.")
% 2.14/2.36  thf(ax95,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lEvenInteger_THFTYPE_i @ lInteger_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax96,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lJanuary_THFTYPE_i @ lMonth_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation SpokenHumanLanguage EnglishLanguage "A &%SpokenHumanLanguage is a &%HumanLanguage which has as its medium the human voice. It can also berepresented visually through writing, although not all &%SpokenHumanLanguages have a codified written form.")
% 2.14/2.36  thf(ax97,axiom,
% 2.14/2.36      ! [BOIL: $i,MELT: $i,TYPE: $i] :
% 2.14/2.36        ( ( ( meltingPoint_THFTYPE_IiioI @ TYPE @ MELT )
% 2.14/2.36          & ( boilingPoint_THFTYPE_IiioI @ TYPE @ BOIL ) )
% 2.14/2.36       => ( gtet_THFTYPE_IiioI @ BOIL @ MELT ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax98,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lCorporation_THFTYPE_i @ lOrganization_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax99,axiom,
% 2.14/2.36      range_THFTYPE_IiioI @ lBeginFn_THFTYPE_i @ lTimePoint_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax100,axiom,
% 2.14/2.36      ! [OBJ: $i] :
% 2.14/2.36        ( ( instance_THFTYPE_IiioI @ OBJ @ lSelfConnectedObject_THFTYPE_i )
% 2.14/2.36       => ( side_THFTYPE_IiioI @ ( lBackFn_THFTYPE_IiiI @ OBJ ) @ OBJ ) ) ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation ExponentiationFn EnglishLanguage "(&%ExponentiationFn ?NUMBER ?INT) returns the &%RealNumber ?NUMBER raised to the power of the &%Integer ?INT.")
% 2.14/2.36  %KIF documentation:(documentation BiologicalProcess EnglishLanguage "A &%Process embodied in an &%Organism.")
% 2.14/2.36  thf(ax101,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lAir_THFTYPE_i @ lGasMixture_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax102,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lMyriapod_THFTYPE_i @ lArthropod_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation SurfaceChange EnglishLanguage "&%Processes which involve altering the properties that apply to the surface of an &%Object.")
% 2.14/2.36  thf(ax103,axiom,
% 2.14/2.36      exhaustiveAttribute_THFTYPE_IiiiiiioI @ lPhysicalState_THFTYPE_i @ lSolid_THFTYPE_i @ lFluid_THFTYPE_i @ lLiquid_THFTYPE_i @ lGas_THFTYPE_i @ lPlasma_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax104,axiom,
% 2.14/2.36      ! [HOLE: $i,OBJ1: $i,OBJ2: $i] :
% 2.14/2.36        ( ( ( fills_THFTYPE_IiioI @ OBJ1 @ HOLE )
% 2.14/2.36          & ( properPart_THFTYPE_IiioI @ OBJ2 @ OBJ1 ) )
% 2.14/2.36       => ( properlyFills_THFTYPE_IiioI @ OBJ2 @ HOLE ) ) ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation Function EnglishLanguage "A &%Function is a term-forming &%Relation that maps from a n-tuple of arguments to a range and that associates this n-tuple with at most one range element. Note that the range is a &%SetOrClass, and each element of the range is an instance of the &%SetOrClass.")
% 2.14/2.36  thf(ax105,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lFictionalText_THFTYPE_i @ lText_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax106,axiom,
% 2.14/2.36      ! [ACT: $i,FOOD: $i] :
% 2.14/2.36        ( ( ( instance_THFTYPE_IiioI @ ACT @ lIngesting_THFTYPE_i )
% 2.14/2.36          & ( resource_THFTYPE_IiioI @ ACT @ FOOD ) )
% 2.14/2.36       => ( instance_THFTYPE_IiioI @ FOOD @ lFood_THFTYPE_i ) ) ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation Directing EnglishLanguage "Instances of this &%Class urge some further action among the receivers. A &%Directing can be an &%Ordering, a &%Requesting or a &%Questioning.")
% 2.14/2.36  thf(ax107,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lHouse_THFTYPE_i @ lResidentialBuilding_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation Kilogram EnglishLanguage "Supermultiple of &%Gramm. Symbol: kg. 1 &%Kilogram = 1000 Grams.")
% 2.14/2.36  %KIF documentation:(documentation MmMercury EnglishLanguage "&%MmMercury is a &%UnitOfMeasure for &%barometricPressure. It is used to express the number of millimeters of mercury supported in a mercurial barometer by the surrounding air pressure.")
% 2.14/2.36  %KIF documentation:(documentation PhysicalQuantity EnglishLanguage "A &%PhysicalQuantity is a measure of some quantifiable aspect of the modeled world, such as 'the earth's diameter' (a constant length) and 'the stress in a loaded deformable solid' (a measure of stress, which is a function of three spatial coordinates). Every &%PhysicalQuantity is either a &%ConstantQuantity or &%FunctionQuantity. Instances of &%ConstantQuantity are dependent on a &%UnitOfMeasure, while instances of &%FunctionQuantity are &%Functions that map instances of &%ConstantQuantity to other instances of &%ConstantQuantity (e.g., a &%TimeDependentQuantity is a &%FunctionQuantity). Although the name and definition of &%PhysicalQuantity is borrowed from physics, a &%PhysicalQuantity need not be material. Aside from the dimensions of length, time, velocity, etc., nonphysical dimensions such as currency are also possible. Accordingly, amounts of money would be instances of &%PhysicalQuantity. A &%PhysicalQuantity is distinguished from a pure &%Number by the fact that the former is associated with a dimension of measurement.")
% 2.14/2.36  thf(ax108,axiom,
% 2.14/2.36      ! [NUMBER: $i,ROW: $i] :
% 2.14/2.36        ( ( ( lGreatestCommonDivisorFn_THFTYPE_IiiI @ ROW )
% 2.14/2.36          = NUMBER )
% 2.14/2.36       => ! [ELEMENT: $i] :
% 2.14/2.36            ( ( inList_THFTYPE_IiioI @ ELEMENT @ ( lListFn_THFTYPE_IiiI @ ROW ) )
% 2.14/2.36           => ( ( lRemainderFn_THFTYPE_IiiiI @ ELEMENT @ NUMBER )
% 2.14/2.36              = n0_THFTYPE_i ) ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax109,axiom,
% 2.14/2.36      range_THFTYPE_IiioI @ lIntegerSquareRootFn_THFTYPE_i @ lNonnegativeInteger_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation result EnglishLanguage "(result ?ACTION ?OUTPUT) means that ?OUTPUT is a product of ?ACTION. For example, house is a &%result in the following proposition: Eric built a house.")
% 2.14/2.36  thf(ax110,axiom,
% 2.14/2.36      ! [QUANT: $i,N: $i] :
% 2.14/2.36        ( ( QUANT
% 2.14/2.36          = ( lMeasureFn_THFTYPE_IiiiI @ N @ lAngularDegree_THFTYPE_i ) )
% 2.14/2.36       => ( instance_THFTYPE_IiioI @ QUANT @ lPlaneAngleMeasure_THFTYPE_i ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax111,axiom,
% 2.14/2.36      range_THFTYPE_IiioI @ lMaxFn_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation arcWeight EnglishLanguage "This predicate indicates the value of a &%GraphArc in a &%Graph. This could map to the length of a road in a road network or the flow rate of a pipe in a plumbing system.")
% 2.14/2.36  %KIF documentation:(documentation geographicSubregion EnglishLanguage "(&%geographicSubregion ?PART ?WHOLE) means that the &%GeographicArea ?PART is part of the &%GeographicArea ?WHOLE.")
% 2.14/2.36  %KIF documentation:(documentation Joule EnglishLanguage "SI energy measure. Symbol: J. It is the work done when the point of application of 1 &%Newton is displaced a distance of 1 &%Meter in the direction of the force. &%Joule = N*m = m^2*kg*s^(-2).")
% 2.14/2.36  thf(ax112,axiom,
% 2.14/2.36      ! [AGENT: $i] :
% 2.14/2.36        ( ( instance_THFTYPE_IiioI @ AGENT @ lCognitiveAgent_THFTYPE_i )
% 2.14/2.36       => ( capability_THFTYPE_IiIiioIioI @ lReasoning_THFTYPE_i @ agent_THFTYPE_IiioI @ AGENT ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax113,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lIntransitiveRelation_THFTYPE_i @ lBinaryRelation_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax114,axiom,
% 2.14/2.36      trichotomizingOn_THFTYPE_IIiioIioI @ greaterThanOrEqualTo_THFTYPE_IiioI @ lRealNumber_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax115,axiom,
% 2.14/2.36      ! [AGENT: $i,REL: $i > $i > $o,THING: $i] :
% 2.14/2.36        ( ( ( instance_THFTYPE_IIiioIioI @ REL @ lObjectAttitude_THFTYPE_i )
% 2.14/2.36          & ( REL @ AGENT @ THING ) )
% 2.14/2.36       => ( instance_THFTYPE_IiioI @ THING @ lPhysical_THFTYPE_i ) ) ).
% 2.14/2.36  
% 2.14/2.36  thf(ax116,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lCorpuscularObject_THFTYPE_i @ lSelfConnectedObject_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax117,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lSequenceFunction_THFTYPE_i @ lOneToOneFunction_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax118,axiom,
% 2.14/2.36      ! [OBJ: $i,DISCOVER: $i] :
% 2.14/2.36        ( ( ( instance_THFTYPE_IiioI @ DISCOVER @ lDiscovering_THFTYPE_i )
% 2.14/2.36          & ( patient_THFTYPE_IiioI @ DISCOVER @ OBJ ) )
% 2.14/2.36       => ? [PURSUE: $i] :
% 2.14/2.36            ( ( instance_THFTYPE_IiioI @ PURSUE @ lPursuing_THFTYPE_i )
% 2.14/2.36            & ( meetsTemporally_THFTYPE_IiioI @ ( lWhenFn_THFTYPE_IiiI @ PURSUE ) @ ( lWhenFn_THFTYPE_IiiI @ DISCOVER ) ) ) ) ).
% 2.14/2.36  
% 2.14/2.36  %KIF documentation:(documentation date EnglishLanguage "A &%BinaryPredicate that specifies a &%TimePosition in absolute calendar time, at the resolution of one day, for a particular &%Object or &%Process.")
% 2.14/2.36  %KIF documentation:(documentation Saturday EnglishLanguage "The &%Class of all calendar Saturdays.")
% 2.14/2.36  thf(ax119,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lPsychologicalDysfunction_THFTYPE_i @ lPsychologicalAttribute_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax120,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lSeed_THFTYPE_i @ lReproductiveBody_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax121,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lCombining_THFTYPE_i @ lDualObjectProcess_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax122,axiom,
% 2.14/2.36      subclass_THFTYPE_IiioI @ lAnimacyAttribute_THFTYPE_i @ lBiologicalAttribute_THFTYPE_i ).
% 2.14/2.36  
% 2.14/2.36  thf(ax123,axiom,
% 2.14/2.36      ! [QUANT2: $i,OBJ: $i,QUANT1: $i,PROC: $i] :
% 2.14/2.36        ( ( ( resource_THFTYPE_IiioI @ PROC @ OBJ )
% 2.14/2.36          & ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ PROC ) ) @ ( measure_THFTYPE_IiioI @ OBJ @ QUANT1 ) )
% 2.14/2.37          & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ PROC ) ) @ ( measure_THFTYPE_IiioI @ OBJ @ QUANT2 ) ) )
% 2.14/2.37       => ( gt_THFTYPE_IiioI @ QUANT1 @ QUANT2 ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax124,axiom,
% 2.14/2.37      range_THFTYPE_IiioI @ lHoleHostFn_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax125,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lPhysicalState_THFTYPE_i @ lInternalAttribute_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax126,axiom,
% 2.14/2.37      range_THFTYPE_IiioI @ lKappaFn_THFTYPE_i @ lClass_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation ProbabilityAttribute EnglishLanguage "A class containing all of the &%Attributes relating to objective, qualitative assessments of probability, e.g. &%Likely and &%Unlikely.")
% 2.14/2.37  thf(ax127,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lPrecipitation_THFTYPE_i @ lWeatherProcess_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation LiquidMixture EnglishLanguage "Any &%Mixture that satisfies two conditions, viz. it is made up predominantly of things which are a &%Liquid and any component other than &%Liquid in the &%Mixture is in the form of fine particles which are suspended in the &%Liquid.")
% 2.14/2.37  thf(ax128,axiom,
% 2.14/2.37      ! [REL: $i > $i > $o] :
% 2.14/2.37        ( ( instance_THFTYPE_IIiioIioI @ REL @ lIntransitiveRelation_THFTYPE_i )
% 2.14/2.37      <=> ! [INST1: $i,INST2: $i,INST3: $i] :
% 2.14/2.37            ( ( ( REL @ INST1 @ INST2 )
% 2.14/2.37              & ( REL @ INST2 @ INST3 ) )
% 2.14/2.37           => ( (~) @ ( REL @ INST1 @ INST3 ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax129,axiom,
% 2.14/2.37      ! [NUMBER: $i] :
% 2.14/2.37        ( ( NUMBER
% 2.14/2.37          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.37       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lCalorie_THFTYPE_i )
% 2.14/2.37          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n4dot1868_THFTYPE_i ) @ lJoule_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Boiling EnglishLanguage "The &%Class of &%Processes where a &%Substance is heated and converted from a &%Liquid to a &%Gas.")
% 2.14/2.37  thf(ax130,axiom,
% 2.14/2.37      ! [CONTEST: $i,MANEUVER: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ MANEUVER @ lManeuver_THFTYPE_i )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ CONTEST @ lViolentContest_THFTYPE_i )
% 2.14/2.37          & ( subProcess_THFTYPE_IiioI @ MANEUVER @ CONTEST ) )
% 2.14/2.37       => ( ( instance_THFTYPE_IiioI @ MANEUVER @ lAttack_THFTYPE_i )
% 2.14/2.37          | ( instance_THFTYPE_IiioI @ MANEUVER @ lDefensiveManeuver_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation NullSet EnglishLanguage "Any &%SetOrClass that contains no instances.")
% 2.14/2.37  %KIF documentation:(documentation Classifying EnglishLanguage "The &%Class of &%IntentionalPsychologicalProcesses which involve attaching a name or category to a thing or set of things. Note that &%Classifying is distinguished from &%Learning by the fact that the latter covers the acquisition by a &%CognitiveAgent of any &%Proposition, while the former involves the assignment of a label or category.")
% 2.14/2.37  %KIF documentation:(documentation pointOfIntersection EnglishLanguage "(&%pointOfIntersection ?FIGURE1 ?FIGURE2 ?POINT) means that the two straight lines ?FIGURE1 and ?FIGURE2 meet at the point ?POINT.")
% 2.14/2.37  thf(ax131,axiom,
% 2.14/2.37      ! [O: $i,S: $i,TOP: $i] :
% 2.14/2.37        ( ( ( top_THFTYPE_IiioI @ TOP @ O )
% 2.14/2.37          & ( side_THFTYPE_IiioI @ S @ O ) )
% 2.14/2.37       => ( (~) @ ( TOP = S ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation KappaFn EnglishLanguage "A class-forming operator that takes two arguments: a variable and a formula containing at least one unbound occurrence of the variable. The result of applying &%KappaFn to a variable and a formula is the &%SetOrClass of things that satisfy the formula. For example, we can denote the &%SetOrClass of prime numbers that are less than 100 with the following expression: (KappaFn ?NUMBER (and (instance ?NUMBER PrimeNumber) (lessThan ?NUMBER 100))). Note that the use of this function is discouraged, since there is currently no axiomatic support for it.")
% 2.14/2.37  thf(ax132,axiom,
% 2.14/2.37      ! [WAY: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ WAY @ lTransitway_THFTYPE_i )
% 2.14/2.37       => ( hasPurpose_THFTYPE_IooI
% 2.14/2.37          @ ? [TRANSPORT: $i] :
% 2.14/2.37              ( ( instance_THFTYPE_IiioI @ TRANSPORT @ lTransportation_THFTYPE_i )
% 2.14/2.37              & ( path_THFTYPE_IiioI @ TRANSPORT @ WAY ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation ManualHumanLanguage EnglishLanguage "A &%ManualHumanLanguage is a &%HumanLanguage which has as its medium gestures and movement, such as the shape, position, and movement of the hands.")
% 2.14/2.37  thf(ax133,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lInheritableRelation_THFTYPE_i @ lRelation_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation AntiSymmetricPositionalAttribute EnglishLanguage "&%AntiSymmetricPositionalAttribute is the class of &%PositionalAttribute that hold in only one direction. I.e. two objects cannot simulataneously be &%On each other.")
% 2.14/2.37  %KIF documentation:(documentation LeavingAnOrganization EnglishLanguage "The &%OrganizationalProcess of leaving an &%Organization, whether voluntarily or involuntarily.")
% 2.14/2.37  %KIF documentation:(documentation TemporalRelation EnglishLanguage "The &%Class of temporal &%Relations. This &%Class includes notions of (temporal) topology of intervals, (temporal) schemata, and (temporal) extension.")
% 2.14/2.37  thf(ax134,axiom,
% 2.14/2.37      ! [OBJ: $i,PLAN: $o] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IoioI @ PLAN @ lPlan_THFTYPE_i )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ OBJ @ lContentBearingObject_THFTYPE_i )
% 2.14/2.37          & ( containsInformation_THFTYPE_IiooI @ OBJ @ PLAN ) )
% 2.14/2.37       => ? [PLANNING: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ PLANNING @ lPlanning_THFTYPE_i )
% 2.14/2.37            & ( result_THFTYPE_IiioI @ PLANNING @ OBJ ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation CentralTimeZone EnglishLanguage "A &%TimeZone that covers much of the midwestern United States.")
% 2.14/2.37  thf(ax135,axiom,
% 2.14/2.37      partition_THFTYPE_IiiiioI @ lOrganism_THFTYPE_i @ lAnimal_THFTYPE_i @ lPlant_THFTYPE_i @ lMicroorganism_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax136,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lDigesting_THFTYPE_i @ lAutonomicProcess_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax137,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lCertificate_THFTYPE_i @ lText_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax138,axiom,
% 2.14/2.37      ! [NUMBER: $i,QUANT: $i,UNIT: $i] :
% 2.14/2.37        ( ( ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ UNIT )
% 2.14/2.37            = QUANT )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ UNIT @ lUnitOfVolume_THFTYPE_i ) )
% 2.14/2.37       => ( instance_THFTYPE_IiioI @ QUANT @ lVolumeMeasure_THFTYPE_i ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax139,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lTextureAttribute_THFTYPE_i @ lPerceptualAttribute_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax140,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lParticleWord_THFTYPE_i @ lWord_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation West EnglishLanguage "The compass direction of &%West.")
% 2.14/2.37  %KIF documentation:(documentation Swimming EnglishLanguage "Any deliberate and controlled &%BodyMotion through water that is accomplished by an &%Organism.")
% 2.14/2.37  thf(ax141,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lMoss_THFTYPE_i @ lNonFloweringPlant_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation ListLengthFn EnglishLanguage "A &%Function that takes a &%List as its sole argument and returns the number of items in the &%List. For example, (&%ListLengthFn (&%ListFn &%Monday &%Tuesday &%Wednesday)) would return the value 3.")
% 2.14/2.37  %KIF documentation:(documentation Unemployed EnglishLanguage "The &%Attribute of a &%CognitiveAgent when he/ she is unemployed.")
% 2.14/2.37  %KIF documentation:(documentation Amphibian EnglishLanguage "A cold-blooded, smooth-skinned &%Vertebrate which characteristically hatches as an aquatic larva, breathing by gills. When mature, the &%Amphibian breathes with &%Lungs.")
% 2.14/2.37  thf(ax142,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lPlan_THFTYPE_i @ lProcedure_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation UnilateralGetting EnglishLanguage "Any instance of &%Getting that is not part of a &%Transaction. In other words, any instance of &%Getting where nothing is given in return. Some examples of &%UnilateralGetting are: appropriating, commandeering, stealing, etc.")
% 2.14/2.37  thf(ax143,axiom,
% 2.14/2.37      ! [MONTH: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ MONTH @ lJuly_THFTYPE_i )
% 2.14/2.37       => ( duration_THFTYPE_IiioI @ MONTH @ ( lMeasureFn_THFTYPE_IiiiI @ n31_THFTYPE_i @ lDayDuration_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax144,axiom,
% 2.14/2.37      subAttribute_THFTYPE_IiioI @ lEmbryonic_THFTYPE_i @ lNonFullyFormed_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax145,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lBinaryRelation_THFTYPE_i @ lRelation_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Weapon EnglishLanguage "The &%Class of &%Devices that are designed primarily to damage or destroy &%Humans/ &%Animals, &%StationaryArtifacts or the places inhabited by &%Humans/ &%Animals.")
% 2.14/2.37  thf(ax146,axiom,
% 2.14/2.37      ! [MILLIUNIT: $i,UNIT: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ UNIT @ lUnitOfMeasure_THFTYPE_i )
% 2.14/2.37          & ( MILLIUNIT
% 2.14/2.37            = ( lMilliFn_THFTYPE_IiiI @ UNIT ) ) )
% 2.14/2.37       => ( ( lMeasureFn_THFTYPE_IiiiI @ n1_THFTYPE_i @ MILLIUNIT )
% 2.14/2.37          = ( lMeasureFn_THFTYPE_IiiiI @ n0dot001_THFTYPE_i @ UNIT ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation MotionUpward EnglishLanguage "&%Motion where an &%Object is moving away from the ground.")
% 2.14/2.37  thf(ax147,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lVerb_THFTYPE_i @ lWord_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax148,axiom,
% 2.14/2.37      ! [ACT: $i,ANIMAL: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ ACT @ lSurgery_THFTYPE_i )
% 2.14/2.37          & ( patient_THFTYPE_IiioI @ ACT @ ANIMAL ) )
% 2.14/2.37       => ? [SUBACT: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ SUBACT @ lCutting_THFTYPE_i )
% 2.14/2.37            & ( instance_THFTYPE_IiioI @ ANIMAL @ lAnimal_THFTYPE_i )
% 2.14/2.37            & ( patient_THFTYPE_IiioI @ SUBACT @ ANIMAL )
% 2.14/2.37            & ( subProcess_THFTYPE_IiioI @ SUBACT @ ACT ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax149,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lLearning_THFTYPE_i @ lIntentionalPsychologicalProcess_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation SyntheticSubstance EnglishLanguage "Any &%Substance that is the result of an &%IntentionalProcess, i.e. any substance that is created by &%Humans.")
% 2.14/2.37  thf(ax150,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lSport_THFTYPE_i @ lGame_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax151,axiom,
% 2.14/2.37      rangeSubclass_THFTYPE_IiioI @ lPowerSetFn_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Making EnglishLanguage "The &%subclass of &%Creation in which an individual &%Artifact or a type of &%Artifact is made.")
% 2.14/2.37  thf(ax152,axiom,
% 2.14/2.37      ! [OBJ: $i,FUNGUS: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ FUNGUS @ lFungus_THFTYPE_i )
% 2.14/2.37          & ( inhabits_THFTYPE_IiioI @ FUNGUS @ OBJ ) )
% 2.14/2.37       => ( instance_THFTYPE_IiioI @ OBJ @ lOrganism_THFTYPE_i ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax153,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lDefensiveManeuver_THFTYPE_i @ lManeuver_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax154,axiom,
% 2.14/2.37      ! [GRAB: $i,AGENT: $i,THING: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ GRAB @ lGrabbing_THFTYPE_i )
% 2.14/2.37          & ( agent_THFTYPE_IiioI @ GRAB @ AGENT )
% 2.14/2.37          & ( patient_THFTYPE_IiioI @ GRAB @ THING ) )
% 2.14/2.37       => ( ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ GRAB ) ) @ ( (~) @ ( grasps_THFTYPE_IiioI @ AGENT @ THING ) ) )
% 2.14/2.37          & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ GRAB ) ) @ ( grasps_THFTYPE_IiioI @ AGENT @ THING ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax155,axiom,
% 2.14/2.37      subAttribute_THFTYPE_IiioI @ lPlasma_THFTYPE_i @ lFluid_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax156,axiom,
% 2.14/2.37      ! [ALT: $i,OBJ: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ ALT @ lShapeChange_THFTYPE_i )
% 2.14/2.37          & ( patient_THFTYPE_IiioI @ ALT @ OBJ ) )
% 2.14/2.37       => ? [PROPERTY: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ PROPERTY @ lShapeAttribute_THFTYPE_i )
% 2.14/2.37            & ( ( ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ ALT ) ) @ ( attribute_THFTYPE_IiioI @ OBJ @ PROPERTY ) )
% 2.14/2.37                & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ ALT ) ) @ ( (~) @ ( attribute_THFTYPE_IiioI @ OBJ @ PROPERTY ) ) ) )
% 2.14/2.37              | ( ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ ALT ) ) @ ( (~) @ ( attribute_THFTYPE_IiioI @ OBJ @ PROPERTY ) ) )
% 2.14/2.37                & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ ALT ) ) @ ( attribute_THFTYPE_IiioI @ OBJ @ PROPERTY ) ) ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax157,axiom,
% 2.14/2.37      ! [NUMBER: $i] :
% 2.14/2.37        ( ( NUMBER
% 2.14/2.37          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.37       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lKilogram_THFTYPE_i )
% 2.14/2.37          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n1000_THFTYPE_i ) @ lGram_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Writing EnglishLanguage "A &%subclass of &%ContentDevelopment in which content is converted from one form (e.g. uttered, written or represented mentally) into a written form. Note that this class covers both transcription and original creation of written &%Texts.")
% 2.14/2.37  thf(ax158,axiom,
% 2.14/2.37      ! [DAY: $i,NUMBER: $i,HOUR: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ HOUR @ ( lHourFn_THFTYPE_IiiiI @ NUMBER @ DAY ) )
% 2.14/2.37       => ( lt_THFTYPE_IiioI @ NUMBER @ n24_THFTYPE_i ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax159,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lApe_THFTYPE_i @ lPrimate_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax160,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lGivingBack_THFTYPE_i @ lGiving_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Ape EnglishLanguage "Various &%Primates with no tails or only short tails.")
% 2.14/2.37  thf(ax161,axiom,
% 2.14/2.37      ! [TIME: $i,PHYS: $i] :
% 2.14/2.37        ( ( ( time_THFTYPE_IiioI @ PHYS @ TIME )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ TIME @ lTimePoint_THFTYPE_i ) )
% 2.14/2.37      <=> ( temporallyBetweenOrEqual_THFTYPE_IiiioI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ PHYS ) ) @ TIME @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ PHYS ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Prohibition EnglishLanguage "&%Prohibition is the &%DeonticAttribute that applies to &%Formulas that an &%Agent is forbidden, by some authority, to make true.")
% 2.14/2.37  thf(ax162,axiom,
% 2.14/2.37      ! [AGENT: $i,ENTITY: $i,REP: $i] :
% 2.14/2.37        ( ( representsForAgent_THFTYPE_IiiioI @ REP @ ENTITY @ AGENT )
% 2.14/2.37       => ( represents_THFTYPE_IiioI @ REP @ ENTITY ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax163,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lImpacting_THFTYPE_i @ lTouching_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax164,axiom,
% 2.14/2.37      ! [REL2: $i,NUMBER: $i,CLASS1: $i,CLASS2: $i,REL1: $i] :
% 2.14/2.37        ( ( ( domainSubclass_THFTYPE_IiiioI @ REL1 @ NUMBER @ CLASS1 )
% 2.14/2.37          & ( domainSubclass_THFTYPE_IiiioI @ REL2 @ NUMBER @ CLASS2 )
% 2.14/2.37          & ( disjoint_THFTYPE_IiioI @ CLASS1 @ CLASS2 ) )
% 2.14/2.37       => ( disjointRelation_THFTYPE_IiioI @ REL1 @ REL2 ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax165,axiom,
% 2.14/2.37      ! [PROCESS: $i,ORGANISM: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ ORGANISM @ lOrganism_THFTYPE_i )
% 2.14/2.37          & ( agent_THFTYPE_IiioI @ PROCESS @ ORGANISM ) )
% 2.14/2.37       => ( holdsDuring_THFTYPE_IiooI @ ( lWhenFn_THFTYPE_IiiI @ PROCESS ) @ ( attribute_THFTYPE_IiioI @ ORGANISM @ lLiving_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation PartialOrderingRelation EnglishLanguage "A &%BinaryRelation is a partial ordering if it is a &%ReflexiveRelation, an &%AntisymmetricRelation, and a &%TransitiveRelation.")
% 2.14/2.37  thf(ax166,axiom,
% 2.14/2.37      range_THFTYPE_IiioI @ lHoleSkinFn_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax167,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lGrabbing_THFTYPE_i @ lTouching_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax168,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lClass_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Ingesting EnglishLanguage "The &%Process by which &%Food is taken into an &%Animal.")
% 2.14/2.37  %KIF documentation:(documentation Mollusk EnglishLanguage "Soft-bodied &%Invertebrate that is usually contained in a shell. Includes oysters, clams, mussels, snails, slugs, octopi, and squid.")
% 2.14/2.37  thf(ax169,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lShapeChange_THFTYPE_i @ lInternalChange_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax170,axiom,
% 2.14/2.37      partition_THFTYPE_IiiioI @ lInteger_THFTYPE_i @ lNegativeInteger_THFTYPE_i @ lNonnegativeInteger_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation totalOrderingOn EnglishLanguage "A &%BinaryPredicate ?REL is a total ordering on a &%SetOrClass only if it is a partial ordering for which either (?REL ?INST1 ?INST2) or (?REL ?INST2 ?INST1) for every ?INST1 and ?INST2 in the &%SetOrClass.")
% 2.14/2.37  thf(ax171,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lUnitOfMeasureMultiplier_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax172,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lStationaryArtifact_THFTYPE_i @ lArtifact_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax173,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lSolidAngleMeasure_THFTYPE_i @ lAngleMeasure_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax174,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lFish_THFTYPE_i @ lColdBloodedVertebrate_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax175,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lChemicalSynthesis_THFTYPE_i @ lChemicalProcess_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax176,axiom,
% 2.14/2.37      ! [CLASS1: $i,CLASS2: $i] :
% 2.14/2.37        ( ( ( subsumesContentClass_THFTYPE_IiioI @ CLASS1 @ CLASS2 )
% 2.14/2.37          & ( subsumesContentClass_THFTYPE_IiioI @ CLASS2 @ CLASS1 ) )
% 2.14/2.37      <=> ( equivalentContentClass_THFTYPE_IiioI @ CLASS1 @ CLASS2 ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax177,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lTimeMeasure_THFTYPE_i @ lConstantQuantity_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation CardinalityFn EnglishLanguage "(CardinalityFn ?CLASS) returns the number of instances in the &%SetOrClass ?CLASS or the number of members in the ?CLASS &%Collection.")
% 2.14/2.37  thf(ax178,axiom,
% 2.14/2.37      ! [NUMBER: $i] :
% 2.14/2.37        ( ( NUMBER
% 2.14/2.37          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.37       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lByte_THFTYPE_i )
% 2.14/2.37          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n8_THFTYPE_i ) @ lBit_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Impacting EnglishLanguage "Any &%Touching where something comes into sudden, forceful, physical contact with something else. Some examples would be striking, knocking, whipping etc.")
% 2.14/2.37  %KIF documentation:(documentation ListFn EnglishLanguage "A &%Function that takes any number of arguments and returns the &%List containing those arguments in exactly the same order.")
% 2.14/2.37  thf(ax179,axiom,
% 2.14/2.37      ! [SECOND: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ SECOND @ lSecond_THFTYPE_i )
% 2.14/2.37       => ( duration_THFTYPE_IiioI @ SECOND @ ( lMeasureFn_THFTYPE_IiiiI @ n1_THFTYPE_i @ lSecondDuration_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation direction EnglishLanguage "(&%direction ?PROC ?ATTR) means that the &%Process ?PROC is moving in the direction ?ATTR. For example, one would use this &%Predicate to represent the fact that Max is moving &%North.")
% 2.14/2.37  thf(ax180,axiom,
% 2.14/2.37      ! [OBJ: $i,REGION: $i] :
% 2.14/2.37        ( ( exactlyLocated_THFTYPE_IiioI @ OBJ @ REGION )
% 2.14/2.37       => ( (~)
% 2.14/2.37          @ ? [OTHEROBJ: $i] :
% 2.14/2.37              ( ( exactlyLocated_THFTYPE_IiioI @ OTHEROBJ @ REGION )
% 2.14/2.37              & ( (~) @ ( OTHEROBJ = OBJ ) ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax181,axiom,
% 2.14/2.37      ! [COVER: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ COVER @ lBodyCovering_THFTYPE_i )
% 2.14/2.37       => ? [BODY: $i] :
% 2.14/2.37            ( ( superficialPart_THFTYPE_IiioI @ COVER @ BODY )
% 2.14/2.37            & ( ( instance_THFTYPE_IiioI @ BODY @ lOrganism_THFTYPE_i )
% 2.14/2.37              | ( instance_THFTYPE_IiioI @ BODY @ lBodyPart_THFTYPE_i ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation LinguisticCommunication EnglishLanguage "A &%Communication that involves the transfer of information via a &%LinguisticExpression.")
% 2.14/2.37  %KIF documentation:(documentation KiloByte EnglishLanguage "One &%KiloByte (KB) of information. One &%KiloByte is 1024 &%Bytes. Note that this sense of 'kilo' is different from the one accepted in the SI system.")
% 2.14/2.37  %KIF documentation:(documentation Decreasing EnglishLanguage "Any &%QuantityChange where the &%PhysicalQuantity is decreased.")
% 2.14/2.37  thf(ax182,axiom,
% 2.14/2.37      ! [TIME: $i,SITUATION: $o] :
% 2.14/2.37        ( ( holdsDuring_THFTYPE_IiooI @ TIME @ ( (~) @ SITUATION ) )
% 2.14/2.37       => ( (~) @ ( holdsDuring_THFTYPE_IiooI @ TIME @ SITUATION ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax183,axiom,
% 2.14/2.37      ! [INTERVAL1: $i,INTERVAL2: $i] :
% 2.14/2.37        ( ( overlapsTemporally_THFTYPE_IiioI @ INTERVAL1 @ INTERVAL2 )
% 2.14/2.37      <=> ? [INTERVAL3: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ INTERVAL3 @ lTimeInterval_THFTYPE_i )
% 2.14/2.37            & ( temporalPart_THFTYPE_IiioI @ INTERVAL3 @ INTERVAL1 )
% 2.14/2.37            & ( temporalPart_THFTYPE_IiioI @ INTERVAL3 @ INTERVAL2 ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Integer EnglishLanguage "A negative or nonnegative whole number.")
% 2.14/2.37  %KIF documentation:(documentation Food EnglishLanguage "Any &%SelfConnectedObject containing &%Nutrients, such as carbohydrates, proteins, and fats, that can be ingested by a living &%Animal and metabolized into energy and body tissue.")
% 2.14/2.37  thf(ax184,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lNeutron_THFTYPE_i @ lSubatomicParticle_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax185,axiom,
% 2.14/2.37      ! [HUMAN: $i,PROC: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ PROC @ lIntentionalProcess_THFTYPE_i )
% 2.14/2.37          & ( agent_THFTYPE_IiioI @ PROC @ HUMAN )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ HUMAN @ lAnimal_THFTYPE_i ) )
% 2.14/2.37       => ( holdsDuring_THFTYPE_IiooI @ ( lWhenFn_THFTYPE_IiiI @ PROC ) @ ( attribute_THFTYPE_IiioI @ HUMAN @ lAwake_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax186,axiom,
% 2.14/2.37      ! [CIRCLE: $i,RADIUS: $i] :
% 2.14/2.37        ( ( radius_THFTYPE_IiioI @ CIRCLE @ RADIUS )
% 2.14/2.37       => ? [POINT: $i] :
% 2.14/2.37          ! [PART: $i] :
% 2.14/2.37            ( ( pointOfFigure_THFTYPE_IiioI @ PART @ CIRCLE )
% 2.14/2.37           => ( geometricDistance_THFTYPE_IiiioI @ PART @ POINT @ RADIUS ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Organism EnglishLanguage "Generally, a living individual, including all &%Plants and &%Animals.")
% 2.14/2.37  thf(ax187,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lPlanning_THFTYPE_i @ lIntentionalPsychologicalProcess_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax188,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lDecoding_THFTYPE_i @ lWriting_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Egg EnglishLanguage "The fertilized or unfertilized female &%ReproductiveBody of an &%Animal. This includes &%Bird and &%Reptile eggs, as well as mammalian ova.")
% 2.14/2.37  %KIF documentation:(documentation False EnglishLanguage "The &%TruthValue of being false.")
% 2.14/2.37  %KIF documentation:(documentation PlantSubstance EnglishLanguage "&%BodySubstances that are produced exclusively by &%Plants.")
% 2.14/2.37  %KIF documentation:(documentation representsInLanguage EnglishLanguage "A very general predicate. (&%representsInLanguage ?THING ?ENTITY ?LANGUAGE) means that the &%LinguisticExpression ?THING stands for ?ENTITY in the &%Language ?LANGUAGE.")
% 2.14/2.37  thf(ax189,axiom,
% 2.14/2.37      range_THFTYPE_IiioI @ lCosineFn_THFTYPE_i @ lRealNumber_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax190,axiom,
% 2.14/2.37      ! [KILOUNIT: $i,UNIT: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ UNIT @ lUnitOfMeasure_THFTYPE_i )
% 2.14/2.37          & ( KILOUNIT
% 2.14/2.37            = ( lKiloFn_THFTYPE_IiiI @ UNIT ) ) )
% 2.14/2.37       => ( ( lMeasureFn_THFTYPE_IiiiI @ n1_THFTYPE_i @ KILOUNIT )
% 2.14/2.37          = ( lMeasureFn_THFTYPE_IiiiI @ n1000_THFTYPE_i @ UNIT ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation equivalenceRelationOn EnglishLanguage "A &%BinaryPredicate is an &%equivalenceRelationOn a &%SetOrClass only if the relation is &%reflexiveOn the &%SetOrClass and it is both a &%TransitiveRelation and a &%SymmetricRelation.")
% 2.14/2.37  thf(ax191,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lVisualAttribute_THFTYPE_i @ lPerceptualAttribute_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Attack EnglishLanguage "A &%Maneuver in a &%ViolentContest where the &%agent attempts to inflict damage on the &%patient.")
% 2.14/2.37  thf(ax192,axiom,
% 2.14/2.37      ! [DRIVE: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ DRIVE @ lDriving_THFTYPE_i )
% 2.14/2.37       => ? [VEHICLE: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ VEHICLE @ lVehicle_THFTYPE_i )
% 2.14/2.37            & ( patient_THFTYPE_IiioI @ DRIVE @ VEHICLE ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Hormone EnglishLanguage "In &%Animals, a chemical secreted by an endocrine gland whose products are released into the circulating fluid. &%Plant hormones or synthetic hormones which are used only to alter or control various physiologic processes, e.g., reproductive control agents, are assigned to the &%Class &%BiologicallyActiveSubstance. &%Hormones act as chemical messengers and regulate various physiologic processes such as growth, reproduction, metabolism, etc. They usually fall into two broad categories, viz. steroid hormones and peptide hormones.")
% 2.14/2.37  %KIF documentation:(documentation NaturalSubstance EnglishLanguage "Any &%Substance that is not the result of an &%IntentionalProcess, i.e. any substance that occurs naturally.")
% 2.14/2.37  %KIF documentation:(documentation Carrying EnglishLanguage "&%Transfer from one point to another by means of an &%Animal or &%Human.")
% 2.14/2.37  %KIF documentation:(documentation Standing EnglishLanguage "The &%BodyPosition of being upright, i.e. being fully extended and supported by nothing other than one's own feet.")
% 2.14/2.37  %KIF documentation:(documentation InvalidDeductiveArgument EnglishLanguage "&%DeductiveArguments that are not &%ValidDeductiveArguments, i.e. it is not the case that the set of &%premises in fact &%entails the &%conclusion.")
% 2.14/2.37  thf(ax193,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lTimeDependentQuantity_THFTYPE_i @ lUnaryConstantFunctionQuantity_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax194,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lHumanLanguage_THFTYPE_i @ lLanguage_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax195,axiom,
% 2.14/2.37      range_THFTYPE_IiioI @ lUnionFn_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Translating EnglishLanguage "Converting content from one &%Language into another. This covers oral translation (i.e. interpreting) as well as written translation.")
% 2.14/2.37  thf(ax196,axiom,
% 2.14/2.37      ! [ATTACK: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ ATTACK @ lAttack_THFTYPE_i )
% 2.14/2.37       => ? [CONTEST: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ CONTEST @ lViolentContest_THFTYPE_i )
% 2.14/2.37            & ( subProcess_THFTYPE_IiioI @ ATTACK @ CONTEST ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax197,axiom,
% 2.14/2.37      rangeSubclass_THFTYPE_IiioI @ lMinuteFn_THFTYPE_i @ lMinute_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax198,axiom,
% 2.14/2.37      ! [OBJ: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ OBJ @ lSelfConnectedObject_THFTYPE_i )
% 2.14/2.37       => ( side_THFTYPE_IiioI @ ( lFrontFn_THFTYPE_IiiI @ OBJ ) @ OBJ ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation UnitedKingdomGallon EnglishLanguage "Unit of volume commonly used in the United Kingdom.")
% 2.14/2.37  %KIF documentation:(documentation IrrationalNumber EnglishLanguage "Any &%RealNumber that is not also a &%RationalNumber.")
% 2.14/2.37  thf(ax199,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lSelling_THFTYPE_i @ lFinancialTransaction_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Periodical EnglishLanguage "A &%Series whose elements are published separately and on a periodic basis.")
% 2.14/2.37  thf(ax200,axiom,
% 2.14/2.37      ! [REL2: $i,CLASS1: $i,REL1: $i] :
% 2.14/2.37        ( ( ( subrelation_THFTYPE_IiioI @ REL1 @ REL2 )
% 2.14/2.37          & ( rangeSubclass_THFTYPE_IiioI @ REL2 @ CLASS1 ) )
% 2.14/2.37       => ( rangeSubclass_THFTYPE_IiioI @ REL1 @ CLASS1 ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax201,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lAlethicAttribute_THFTYPE_i @ lObjectiveNorm_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax202,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lSeeing_THFTYPE_i @ lPerception_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation WarmBloodedVertebrate EnglishLanguage "&%Vertebrates whose body temperature is internally regulated.")
% 2.14/2.37  %KIF documentation:(documentation Meeting EnglishLanguage "The coming together of two or more &%CognitiveAgents for the purpose of &%Communication. This covers informal meetings, e.g. visits with family members, and formal meetings, e.g. a board of directors meeting.")
% 2.14/2.37  thf(ax203,axiom,
% 2.14/2.37      ! [FROM: $i,QUANTITY: $i,CLASS: $i,TO: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ QUANTITY @ ( lIntervalFn_THFTYPE_IiiiI @ FROM @ TO ) )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ FROM @ CLASS )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ TO @ CLASS ) )
% 2.14/2.37       => ( instance_THFTYPE_IiioI @ QUANTITY @ CLASS ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax204,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lUniqueList_THFTYPE_i @ lList_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax205,axiom,
% 2.14/2.37      disjoint_THFTYPE_IiioI @ lParamilitaryOrganization_THFTYPE_i @ lGovernmentOrganization_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax206,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lBinaryFunction_THFTYPE_i @ lTernaryRelation_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Kilometer EnglishLanguage "Supermultiple of &%Meter. Symbol: km. A &%Meter is the 1000th part of a &%Kilometer")
% 2.14/2.37  thf(ax207,axiom,
% 2.14/2.37      ! [UNIT: $i,MICROUNIT: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ UNIT @ lUnitOfMeasure_THFTYPE_i )
% 2.14/2.37          & ( MICROUNIT
% 2.14/2.37            = ( lMicroFn_THFTYPE_IiiI @ UNIT ) ) )
% 2.14/2.37       => ( ( lMeasureFn_THFTYPE_IiiiI @ n1_THFTYPE_i @ MICROUNIT )
% 2.14/2.37          = ( lMeasureFn_THFTYPE_IiiiI @ n0dot000001_THFTYPE_i @ UNIT ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax208,axiom,
% 2.14/2.37      ! [PROCESS: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ PROCESS @ lDestruction_THFTYPE_i )
% 2.14/2.37      <=> ? [PATIENT: $i] :
% 2.14/2.37            ( ( patient_THFTYPE_IiioI @ PROCESS @ PATIENT )
% 2.14/2.37            & ( time_THFTYPE_IiioI @ PATIENT @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ PROCESS ) ) )
% 2.14/2.37            & ( (~) @ ( time_THFTYPE_IiioI @ PATIENT @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ PROCESS ) ) ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Coloring EnglishLanguage "The &%subclass of &%SurfaceChange where a &%ColorAttribute of the &%patient is altered. Note that the change in color may apply to just part of the object.")
% 2.14/2.37  thf(ax209,axiom,
% 2.14/2.37      ! [NUMBER: $i,QUANT: $i,UNIT: $i] :
% 2.14/2.37        ( ( ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ UNIT )
% 2.14/2.37            = QUANT )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ UNIT @ lUnitOfAngularMeasure_THFTYPE_i ) )
% 2.14/2.37       => ( instance_THFTYPE_IiioI @ QUANT @ lAngleMeasure_THFTYPE_i ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax210,axiom,
% 2.14/2.37      ! [OBJ: $i,HOLE1: $i] :
% 2.14/2.37        ( ( partiallyFills_THFTYPE_IiioI @ OBJ @ HOLE1 )
% 2.14/2.37       => ? [HOLE2: $i] :
% 2.14/2.37            ( ( part_THFTYPE_IiioI @ HOLE2 @ HOLE1 )
% 2.14/2.37            & ( completelyFills_THFTYPE_IiioI @ OBJ @ HOLE2 ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation RationalNumberFn EnglishLanguage "(&%RationalNumberFn ?NUMBER) returns the rational representation of ?NUMBER.")
% 2.14/2.37  thf(ax211,axiom,
% 2.14/2.37      ! [FORMULA: $o] :
% 2.14/2.37        ( ( modalAttribute_THFTYPE_IoioI @ FORMULA @ lPermission_THFTYPE_i )
% 2.14/2.37       => ( modalAttribute_THFTYPE_IoioI @ FORMULA @ lPossibility_THFTYPE_i ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Obligation EnglishLanguage "&%Attribute that applies to &%Propositions that an &%Agent is required, by some authority, to make true.")
% 2.14/2.37  thf(ax212,axiom,
% 2.14/2.37      range_THFTYPE_IiioI @ lGeneralizedIntersectionFn_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax213,axiom,
% 2.14/2.37      ! [ATTACH: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ ATTACH @ lAttaching_THFTYPE_i )
% 2.14/2.37       => ? [OBJ: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ OBJ @ lCorpuscularObject_THFTYPE_i )
% 2.14/2.37            & ( patient_THFTYPE_IiioI @ ATTACH @ OBJ ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax214,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lAmbulating_THFTYPE_i @ lTranslocation_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation AdditionFn EnglishLanguage "If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%AdditionFn ?NUMBER1 ?NUMBER2) is the arithmetical sum of these numbers.")
% 2.14/2.37  thf(ax215,axiom,
% 2.14/2.37      ! [CLASS: $i,CHILD: $i,PARENT: $i] :
% 2.14/2.37        ( ( ( parent_THFTYPE_IiioI @ CHILD @ PARENT )
% 2.14/2.37          & ( subclass_THFTYPE_IiioI @ CLASS @ lOrganism_THFTYPE_i )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ PARENT @ CLASS ) )
% 2.14/2.37       => ( instance_THFTYPE_IiioI @ CHILD @ CLASS ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Becquerel EnglishLanguage "SI activity measure. Symbol: Bq. It measures the amount of radioactivity contained in a given sample of matter. It is that quantity of a radioactive element in which there is one atomic disintegration per &%SecondDuration. &%Becquerel = s^(-1).")
% 2.14/2.37  %KIF documentation:(documentation BinaryPredicate EnglishLanguage "A &%Predicate relating two items - its valence is two.")
% 2.14/2.37  thf(ax216,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lPatent_THFTYPE_i @ lCertificate_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax217,axiom,
% 2.14/2.37      ! [DECISION: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ DECISION @ lLegalDecision_THFTYPE_i )
% 2.14/2.37       => ? [ACTION: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ ACTION @ lLegalAction_THFTYPE_i )
% 2.14/2.37            & ( refers_THFTYPE_IiioI @ DECISION @ ACTION ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation realization EnglishLanguage "A subrelation of &%represents. (&%realization ?PROCESS ?PROP) means that ?PROCESS is a Process which expresses the content of ?PROP. Examples include a particular musical performance, which realizes the content of a musical score, or the reading of a poem.")
% 2.14/2.37  thf(ax218,axiom,
% 2.14/2.37      ! [ROW: $i,ATTRCLASS: $i] :
% 2.14/2.37        ( ( exhaustiveAttribute_THFTYPE_IiioI @ ATTRCLASS @ ROW )
% 2.14/2.37       => ( (~)
% 2.14/2.37          @ ? [EL: $i] :
% 2.14/2.37              ( ( instance_THFTYPE_IiioI @ EL @ ATTRCLASS )
% 2.14/2.37              & ( (~)
% 2.14/2.37                @ ? [ATTR: $i,NUMBER: $i] :
% 2.14/2.37                    ( ( EL = ATTR )
% 2.14/2.37                    & ( ATTR
% 2.14/2.37                      = ( lListOrderFn_THFTYPE_IiiiI @ ( lListFn_THFTYPE_IiiI @ ROW ) @ NUMBER ) ) ) ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax219,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lPursuing_THFTYPE_i @ lIntentionalProcess_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Embryonic EnglishLanguage "The stage of an &%Organism or an &%AnatomicalStructure that exists only before the &%Organism is born. &%Mammals, for example, have this &%Attribute only prior to their birth.")
% 2.14/2.37  %KIF documentation:(documentation MeasureFn EnglishLanguage "This &%BinaryFunction maps a &%RealNumber and a &%UnitOfMeasure to that &%Number of units. It is used to express `measured' instances of &%PhysicalQuantity. Example: the concept of three meters is represented as (&%MeasureFn 3 &%Meter).")
% 2.14/2.37  thf(ax220,axiom,
% 2.14/2.37      ! [LANG: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ LANG @ lConstructedLanguage_THFTYPE_i )
% 2.14/2.37       => ? [PLAN: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ PLAN @ lPlanning_THFTYPE_i )
% 2.14/2.37            & ( result_THFTYPE_IiioI @ PLAN @ LANG ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax221,axiom,
% 2.14/2.37      ! [PERSON: $i,ORGANIZATION: $i,POSITION: $i] :
% 2.14/2.37        ( ( occupiesPosition_THFTYPE_IiiioI @ PERSON @ POSITION @ ORGANIZATION )
% 2.14/2.37       => ( member_THFTYPE_IiioI @ PERSON @ ORGANIZATION ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax222,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lPretending_THFTYPE_i @ lSocialInteraction_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Second EnglishLanguage "The &%Class of all clock &%Seconds.")
% 2.14/2.37  thf(ax223,axiom,
% 2.14/2.37      ! [OBJ1: $i,OBJ2: $i] :
% 2.14/2.37        ( ( subsumesContentInstance_THFTYPE_IiioI @ OBJ1 @ OBJ2 )
% 2.14/2.37       => ! [INFO: $o] :
% 2.14/2.37            ( ( containsInformation_THFTYPE_IiooI @ OBJ2 @ INFO )
% 2.14/2.37           => ( containsInformation_THFTYPE_IiooI @ OBJ1 @ INFO ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation ArtificialLanguage EnglishLanguage "The &%subclass of &%Languages that are designed by &%Humans.")
% 2.14/2.37  thf(ax224,axiom,
% 2.14/2.37      ! [OBJ1: $i,OBJ2: $i] :
% 2.14/2.37        ( ( ( subsumesContentInstance_THFTYPE_IiioI @ OBJ1 @ OBJ2 )
% 2.14/2.37          & ( subsumesContentInstance_THFTYPE_IiioI @ OBJ2 @ OBJ1 ) )
% 2.14/2.37      <=> ( equivalentContentInstance_THFTYPE_IiioI @ OBJ1 @ OBJ2 ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax225,axiom,
% 2.14/2.37      ! [COMPOUND: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ COMPOUND @ lCompoundSubstance_THFTYPE_i )
% 2.14/2.37      <=> ? [ELEMENT1: $i,ELEMENT2: $i,PROCESS: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ ELEMENT1 @ lElementalSubstance_THFTYPE_i )
% 2.14/2.37            & ( instance_THFTYPE_IiioI @ ELEMENT2 @ lElementalSubstance_THFTYPE_i )
% 2.14/2.37            & ( (~) @ ( ELEMENT1 = ELEMENT2 ) )
% 2.14/2.37            & ( instance_THFTYPE_IiioI @ PROCESS @ lChemicalSynthesis_THFTYPE_i )
% 2.14/2.37            & ( resource_THFTYPE_IiioI @ PROCESS @ ELEMENT1 )
% 2.14/2.37            & ( resource_THFTYPE_IiioI @ PROCESS @ ELEMENT2 )
% 2.14/2.37            & ( result_THFTYPE_IiioI @ PROCESS @ COMPOUND ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation SystemeInternationalUnit EnglishLanguage "The &%Class of Systeme International (SI) units.")
% 2.14/2.37  %KIF documentation:(documentation truth EnglishLanguage "The &%BinaryPredicate that relates a &%Sentence to its &%TruthValue.")
% 2.14/2.37  thf(ax226,axiom,
% 2.14/2.37      disjoint_THFTYPE_IiioI @ lWeatherProcess_THFTYPE_i @ lIntentionalProcess_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation properlyFills EnglishLanguage "(&%properlyFills ?OBJ ?HOLE) means that ?HOLE is properly (though perhaps incompletely) filled by ?OBJ, i.e. some part of ?HOLE is perfectly filled by ?OBJ. Note that &%properlyFills is the dual of &%completelyFills, and is so related to &%partiallyFills that ?OBJ &%properlyFills ?HOLE just in case ?OBJ &%partiallyFills every part of ?HOLE. (Thus, every perfect filler is both complete and proper in this sense). Every hole is connected with everything with which a proper filler of the hole is connected. Every proper part of a perfect filler of (a part of) a hole properly fills (that part of) that hole.")
% 2.14/2.37  %KIF documentation:(documentation Hiring EnglishLanguage "&%OrganizationalProcesses where someone is made an employee of an &%Organization.")
% 2.14/2.37  thf(ax227,axiom,
% 2.14/2.37      ! [C: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ C @ lCircle_THFTYPE_i )
% 2.14/2.37       => ? [R: $i] : ( radius_THFTYPE_IiioI @ C @ R ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax228,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lAreaMeasure_THFTYPE_i @ lFunctionQuantity_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax229,axiom,
% 2.14/2.37      ! [NUMBER: $i] :
% 2.14/2.37        ( ( NUMBER
% 2.14/2.37          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.37       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lCup_THFTYPE_i )
% 2.14/2.37          = ( lMeasureFn_THFTYPE_IiiiI @ ( div_THFTYPE_IiiiI @ NUMBER @ n2_THFTYPE_i ) @ lPint_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax230,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lLinguisticCommunication_THFTYPE_i @ lCommunication_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Month EnglishLanguage "The &%Class of all calendar &%Months.")
% 2.14/2.37  %KIF documentation:(documentation TransitiveRelation EnglishLanguage "A &%BinaryRelation ?REL is transitive if (?REL ?INST1 ?INST2) and (?REL ?INST2 ?INST3) imply (?REL ?INST1 ?INST3), for all ?INST1, ?INST2, and ?INST3.")
% 2.14/2.37  thf(ax231,axiom,
% 2.14/2.37      ! [PROCESS: $i,THING: $i,NAME: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ PROCESS @ lNaming_THFTYPE_i )
% 2.14/2.37          & ( patient_THFTYPE_IiioI @ PROCESS @ THING )
% 2.14/2.37          & ( destination_THFTYPE_IiioI @ PROCESS @ NAME ) )
% 2.14/2.37       => ( holdsDuring_THFTYPE_IiooI @ ( lFutureFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ PROCESS ) ) @ ( names_THFTYPE_IiioI @ NAME @ THING ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax232,axiom,
% 2.14/2.37      ! [NUMBER: $i,NUMBER2: $i,NUMBER1: $i] :
% 2.14/2.37        ( ( ( lMinFn_THFTYPE_IiiiI @ NUMBER1 @ NUMBER2 )
% 2.14/2.37          = NUMBER )
% 2.14/2.37       => ( ( ( NUMBER = NUMBER1 )
% 2.14/2.37            & ( lt_THFTYPE_IiioI @ NUMBER1 @ NUMBER2 ) )
% 2.14/2.37          | ( ( NUMBER = NUMBER2 )
% 2.14/2.37            & ( lt_THFTYPE_IiioI @ NUMBER2 @ NUMBER1 ) )
% 2.14/2.37          | ( ( NUMBER = NUMBER1 )
% 2.14/2.37            & ( NUMBER = NUMBER2 ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax233,axiom,
% 2.14/2.37      ! [MEMB: $i,GROUP: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ GROUP @ lGroup_THFTYPE_i )
% 2.14/2.37          & ( member_THFTYPE_IiioI @ MEMB @ GROUP ) )
% 2.14/2.37       => ( instance_THFTYPE_IiioI @ MEMB @ lAgent_THFTYPE_i ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Condensing EnglishLanguage "The &%Class of &%Processes where an &%Object is cooled and converted from a &%Gas to a &%Liquid.")
% 2.14/2.37  %KIF documentation:(documentation RadiatingElectromagnetic EnglishLanguage "&%RadiatingElectromagnetic is the subclass of &%Radiating processes in which electromagnetic radiation is transmitted or absorbed.")
% 2.14/2.37  thf(ax234,axiom,
% 2.14/2.37      range_THFTYPE_IiioI @ lMagnitudeFn_THFTYPE_i @ lRealNumber_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation temporallyBetween EnglishLanguage "(&%temporallyBetween ?POINT1 ?POINT2 ?POINT3) means that the &%TimePoint ?POINT2 is between the &%TimePoints ?POINT1 and ?POINT3, i.e. ?POINT1 is before ?POINT2 and ?POINT2 is before ?POINT3.")
% 2.14/2.37  thf(ax235,axiom,
% 2.14/2.37      ! [POINT: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ POINT @ lTimePoint_THFTYPE_i )
% 2.14/2.37          & ( (~) @ ( POINT = lNegativeInfinity_THFTYPE_i ) ) )
% 2.14/2.37       => ( before_THFTYPE_IiioI @ lNegativeInfinity_THFTYPE_i @ POINT ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Insect EnglishLanguage "A &%Class of small &%Arthropods that are air-breathing and that are distinguished by appearance.")
% 2.14/2.37  thf(ax236,axiom,
% 2.14/2.37      ! [OBJ: $i,COLORING: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ COLORING @ lColoring_THFTYPE_i )
% 2.14/2.37          & ( patient_THFTYPE_IiioI @ COLORING @ OBJ ) )
% 2.14/2.37       => ? [PROPERTY: $i,PART: $i] :
% 2.14/2.37            ( ( part_THFTYPE_IiioI @ PART @ OBJ )
% 2.14/2.37            & ( instance_THFTYPE_IiioI @ PROPERTY @ lColorAttribute_THFTYPE_i )
% 2.14/2.37            & ( ( ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ COLORING ) ) @ ( attribute_THFTYPE_IiioI @ PART @ PROPERTY ) )
% 2.14/2.37                & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ COLORING ) ) @ ( (~) @ ( attribute_THFTYPE_IiioI @ PART @ PROPERTY ) ) ) )
% 2.14/2.37              | ( ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ COLORING ) ) @ ( (~) @ ( attribute_THFTYPE_IiioI @ PART @ PROPERTY ) ) )
% 2.14/2.37                & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ COLORING ) ) @ ( attribute_THFTYPE_IiioI @ PART @ PROPERTY ) ) ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation SelfConnectedObject EnglishLanguage "A &%SelfConnectedObject is any &%Object that does not consist of two or more disconnected parts.")
% 2.14/2.37  %KIF documentation:(documentation InductiveArgument EnglishLanguage "An &%Argument which is inductive, i.e. it is claimed that a set of specific cases makes the &%conclusion, which generalizes these cases, more likely to be true.")
% 2.14/2.37  thf(ax237,axiom,
% 2.14/2.37      range_THFTYPE_IiioI @ lUnitFn_THFTYPE_i @ lUnitOfMeasure_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax238,axiom,
% 2.14/2.37      ! [AMOUNT: $i,TRANS: $i] :
% 2.14/2.37        ( ( transactionAmount_THFTYPE_IiioI @ TRANS @ AMOUNT )
% 2.14/2.37       => ? [OBJ: $i] :
% 2.14/2.37            ( ( patient_THFTYPE_IiioI @ TRANS @ OBJ )
% 2.14/2.37            & ( monetaryValue_THFTYPE_IiioI @ OBJ @ AMOUNT ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Summary EnglishLanguage "A short &%Text that is a summary of another, longer &%Text.")
% 2.14/2.37  thf(ax239,axiom,
% 2.14/2.37      ! [PARENT2: $i,ORGANISM1: $i,ORGANISM2: $i,PARENT1: $i] :
% 2.14/2.37        ( ( ( parent_THFTYPE_IiioI @ ORGANISM1 @ PARENT1 )
% 2.14/2.37          & ( parent_THFTYPE_IiioI @ ORGANISM2 @ PARENT1 )
% 2.14/2.37          & ( parent_THFTYPE_IiioI @ ORGANISM1 @ PARENT2 )
% 2.14/2.37          & ( parent_THFTYPE_IiioI @ ORGANISM2 @ PARENT2 )
% 2.14/2.37          & ( (~) @ ( ORGANISM1 = ORGANISM2 ) )
% 2.14/2.37          & ( (~) @ ( PARENT1 = PARENT2 ) ) )
% 2.14/2.37       => ( sibling_THFTYPE_IiioI @ ORGANISM1 @ ORGANISM2 ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation PhysiologicProcess EnglishLanguage "A normal process of an &%Organism or part of an &%Organism.")
% 2.14/2.37  %KIF documentation:(documentation conditionalProbability EnglishLanguage "One of the basic &%ProbabilityRelations. &%conditionalProbability is used to state the numeric value of a conditional probability. (&%conditionalProbability ?FORMULA1 ?FORMULA2 ?NUMBER) means that the probability of ?FORMULA2 being true given that ?FORMULA1 is true is ?NUMBER.")
% 2.14/2.37  thf(ax240,axiom,
% 2.14/2.37      ! [OBJ: $i,PLACE: $i,REMOVE: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ REMOVE @ lRemoving_THFTYPE_i )
% 2.14/2.37          & ( origin_THFTYPE_IiioI @ REMOVE @ PLACE )
% 2.14/2.37          & ( patient_THFTYPE_IiioI @ REMOVE @ OBJ ) )
% 2.14/2.37       => ( ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ REMOVE ) ) @ ( located_THFTYPE_IiioI @ OBJ @ PLACE ) )
% 2.14/2.37          & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ REMOVE ) ) @ ( (~) @ ( located_THFTYPE_IiioI @ OBJ @ PLACE ) ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax241,axiom,
% 2.14/2.37      ! [WEAPON: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ WEAPON @ lWeapon_THFTYPE_i )
% 2.14/2.37       => ( capability_THFTYPE_IiIiioIioI @ lDamaging_THFTYPE_i @ instrument_THFTYPE_IiioI @ WEAPON ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax242,axiom,
% 2.14/2.37      ! [REL2: $i,NUMBER: $i,CLASS1: $i,CLASS2: $i,REL1: $i] :
% 2.14/2.37        ( ( ( domain_THFTYPE_IiiioI @ REL1 @ NUMBER @ CLASS1 )
% 2.14/2.37          & ( domain_THFTYPE_IiiioI @ REL2 @ NUMBER @ CLASS2 )
% 2.14/2.37          & ( disjoint_THFTYPE_IiioI @ CLASS1 @ CLASS2 ) )
% 2.14/2.37       => ( disjointRelation_THFTYPE_IiioI @ REL1 @ REL2 ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax243,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lOval_THFTYPE_i @ lClosedTwoDimensionalFigure_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax244,axiom,
% 2.14/2.37      ! [PHRASE: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ PHRASE @ lVerbPhrase_THFTYPE_i )
% 2.14/2.37       => ? [VERB: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ VERB @ lVerb_THFTYPE_i )
% 2.14/2.37            & ( part_THFTYPE_IiioI @ VERB @ PHRASE ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation inScopeOfInterest EnglishLanguage "A very general &%Predicate. (&%inScopeOfInterest ?AGENT ?ENTITY) means that ?ENTITY is within the scope of interest of ?AGENT. Note that the interest indicated can be either positive or negative, i.e. the ?AGENT can have an interest in avoiding or promoting ?ENTITY.")
% 2.14/2.37  thf(ax245,axiom,
% 2.14/2.37      ! [NUMBER: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ NUMBER @ lPositiveRealNumber_THFTYPE_i )
% 2.14/2.37       => ( ( lSignumFn_THFTYPE_IiiI @ NUMBER )
% 2.14/2.37          = n1_THFTYPE_i ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax246,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lMaking_THFTYPE_i @ lCreation_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax247,axiom,
% 2.14/2.37      ! [REL2: $i,CLASS1: $i,CLASS2: $i,REL1: $i] :
% 2.14/2.37        ( ( ( rangeSubclass_THFTYPE_IiioI @ REL1 @ CLASS1 )
% 2.14/2.37          & ( rangeSubclass_THFTYPE_IiioI @ REL2 @ CLASS2 )
% 2.14/2.37          & ( disjoint_THFTYPE_IiioI @ CLASS1 @ CLASS2 ) )
% 2.14/2.37       => ( disjointRelation_THFTYPE_IiioI @ REL1 @ REL2 ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax248,axiom,
% 2.14/2.37      range_THFTYPE_IiioI @ lTeraFn_THFTYPE_i @ lUnitOfMeasure_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax249,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lFebruary_THFTYPE_i @ lMonth_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation SexAttribute EnglishLanguage "&%Attributes that indicate the sex of an &%Organism.")
% 2.14/2.37  thf(ax250,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lQuaternaryPredicate_THFTYPE_i @ lQuaternaryRelation_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation overlapsSpatially EnglishLanguage "(&%overlapsSpatially ?OBJ1 ?OBJ2) means that the &%Objects ?OBJ1 and ?OBJ2 have some parts in common. This is a reflexive and symmetric (but not transitive) relation.")
% 2.14/2.37  thf(ax251,axiom,
% 2.14/2.37      range_THFTYPE_IiioI @ lCardinalityFn_THFTYPE_i @ lNumber_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax252,axiom,
% 2.14/2.37      ! [DISSEMINATE: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ DISSEMINATE @ lDisseminating_THFTYPE_i )
% 2.14/2.37       => ? [AGENT1: $i,AGENT2: $i] :
% 2.14/2.37            ( ( destination_THFTYPE_IiioI @ DISSEMINATE @ AGENT1 )
% 2.14/2.37            & ( instance_THFTYPE_IiioI @ AGENT1 @ lCognitiveAgent_THFTYPE_i )
% 2.14/2.37            & ( destination_THFTYPE_IiioI @ DISSEMINATE @ AGENT2 )
% 2.14/2.37            & ( instance_THFTYPE_IiioI @ AGENT2 @ lCognitiveAgent_THFTYPE_i )
% 2.14/2.37            & ( (~) @ ( AGENT1 = AGENT2 ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation wants EnglishLanguage "(&%wants ?AGENT ?OBJECT) means that ?OBJECT is desired by ?AGENT, i.e. ?AGENT believes that ?OBJECT will satisfy one of its goals. Note that there is no implication that what is wanted by an agent is not already possessed by the agent.")
% 2.14/2.37  %KIF documentation:(documentation Moss EnglishLanguage "A &%NonFloweringPlant without true roots and little if any vascular tissue.")
% 2.14/2.37  %KIF documentation:(documentation disjointRelation EnglishLanguage "This predicate relates two &%Relations. (&%disjointRelation ?REL1 ?REL2) means that the two relations have no tuples in common.")
% 2.14/2.37  %KIF documentation:(documentation lessThan EnglishLanguage "(&%lessThan ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is less than the &%Quantity ?NUMBER2.")
% 2.14/2.37  thf(ax253,axiom,
% 2.14/2.37      ! [TEMP2: $i,TEMP1: $i,TIME: $i,SUBSTANCE: $i,TYPE: $i,MEASURE: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ SUBSTANCE @ TYPE )
% 2.14/2.37          & ( meltingPoint_THFTYPE_IiioI @ TYPE @ ( lMeasureFn_THFTYPE_IiiiI @ TEMP1 @ MEASURE ) )
% 2.14/2.37          & ( holdsDuring_THFTYPE_IiooI @ TIME @ ( measure_THFTYPE_IiioI @ SUBSTANCE @ ( lMeasureFn_THFTYPE_IiiiI @ TEMP2 @ MEASURE ) ) )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ MEASURE @ lUnitOfTemperature_THFTYPE_i )
% 2.14/2.37          & ( lt_THFTYPE_IiioI @ TEMP2 @ TEMP1 ) )
% 2.14/2.37       => ( ( holdsDuring_THFTYPE_IiooI @ TIME @ ( attribute_THFTYPE_IiioI @ SUBSTANCE @ lSolid_THFTYPE_i ) )
% 2.14/2.37          | ? [FREEZE: $i] :
% 2.14/2.37              ( ( overlapsTemporally_THFTYPE_IiioI @ ( lWhenFn_THFTYPE_IiiI @ FREEZE ) @ TIME )
% 2.14/2.37              & ( instance_THFTYPE_IiioI @ FREEZE @ lFreezing_THFTYPE_i )
% 2.14/2.37              & ( patient_THFTYPE_IiioI @ FREEZE @ SUBSTANCE ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax254,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lProbabilityRelation_THFTYPE_i @ lRelation_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax255,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lAntiSymmetricPositionalAttribute_THFTYPE_i @ lPositionalAttribute_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation MereologicalSumFn EnglishLanguage "(&%MereologicalSumFn ?OBJ1 ?OBJ2) denotes the &%Object consisting of the parts which belong to either ?OBJ1 or ?OBJ2.")
% 2.14/2.37  %KIF documentation:(documentation Thursday EnglishLanguage "The &%Class of all calendar Thursdays.")
% 2.14/2.37  thf(ax256,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lCreation_THFTYPE_i @ lInternalChange_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax257,axiom,
% 2.14/2.37      ! [OBJ1: $i,OBJ2: $i] :
% 2.14/2.37        ( ( overlapsSpatially_THFTYPE_IiioI @ OBJ1 @ OBJ2 )
% 2.14/2.37      <=> ? [OBJ3: $i] :
% 2.14/2.37            ( ( part_THFTYPE_IiioI @ OBJ3 @ OBJ1 )
% 2.14/2.37            & ( part_THFTYPE_IiioI @ OBJ3 @ OBJ2 ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation EuroDollar EnglishLanguage "A currency measure of most European Union countries.")
% 2.14/2.37  %KIF documentation:(documentation MinFn EnglishLanguage "(&%MinFn ?NUMBER1 ?NUMBER2) is the smallest of ?NUMBER1 and ?NUMBER2. In cases where ?NUMBER1 is equal to ?NUMBER2, &%MinFn returns one of its arguments.")
% 2.14/2.37  %KIF documentation:(documentation GraphArc EnglishLanguage "&%Graphs are comprised of &%GraphNodes and &%GraphArcs. Every &%GraphArc links two &%GraphNodes.")
% 2.14/2.37  thf(ax258,axiom,
% 2.14/2.37      ! [DEVICE: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ DEVICE @ lAttachingDevice_THFTYPE_i )
% 2.14/2.37       => ? [ATTACH: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ ATTACH @ lAttaching_THFTYPE_i )
% 2.14/2.37            & ( instrument_THFTYPE_IiioI @ ATTACH @ DEVICE ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax259,axiom,
% 2.14/2.37      ! [PHRASE: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ PHRASE @ lNounPhrase_THFTYPE_i )
% 2.14/2.37       => ? [NOUN: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ NOUN @ lNoun_THFTYPE_i )
% 2.14/2.37            & ( part_THFTYPE_IiioI @ NOUN @ PHRASE ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax260,axiom,
% 2.14/2.37      ! [PREMISES: $o,ARGUMENT: $o,PROPOSITION: $o] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IoioI @ ARGUMENT @ lArgument_THFTYPE_i )
% 2.14/2.37          & ( PREMISES
% 2.14/2.37            = ( lPremisesFn_THFTYPE_IooI @ ARGUMENT ) ) )
% 2.14/2.37       => ( ( subProposition_THFTYPE_IoooI @ PROPOSITION @ PREMISES )
% 2.14/2.37        <=> ( premise_THFTYPE_IoooI @ ARGUMENT @ PROPOSITION ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Decoding EnglishLanguage "Converting a document or message that has previously been encoded (see &%Encoding) into a &%Language that can be understood by a relatively large number of speakers.")
% 2.14/2.37  %KIF documentation:(documentation Suspension EnglishLanguage "A &%LiquidMixture where at least one of the components of the &%Mixture is equally distributed throughout the &%Mixture but is not dissolved in it.")
% 2.14/2.37  thf(ax261,axiom,
% 2.14/2.37      ! [PERSON: $i,ORG: $i,HIRE: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ HIRE @ lHiring_THFTYPE_i )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ ORG @ lOrganization_THFTYPE_i )
% 2.14/2.37          & ( agent_THFTYPE_IiioI @ HIRE @ ORG )
% 2.14/2.37          & ( patient_THFTYPE_IiioI @ HIRE @ PERSON ) )
% 2.14/2.37       => ( ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ HIRE ) ) @ ( (~) @ ( employs_THFTYPE_IiioI @ ORG @ PERSON ) ) )
% 2.14/2.37          & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ HIRE ) ) @ ( employs_THFTYPE_IiioI @ ORG @ PERSON ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax262,axiom,
% 2.14/2.37      ! [GRAPH: $i,NODE1: $i,NODE2: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ GRAPH @ lGraph_THFTYPE_i )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ NODE1 @ lGraphNode_THFTYPE_i )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ NODE2 @ lGraphNode_THFTYPE_i )
% 2.14/2.37          & ( graphPart_THFTYPE_IiioI @ NODE1 @ GRAPH )
% 2.14/2.37          & ( graphPart_THFTYPE_IiioI @ NODE2 @ GRAPH )
% 2.14/2.37          & ( (~) @ ( NODE1 = NODE2 ) ) )
% 2.14/2.37       => ? [ARC: $i,PATH: $i] :
% 2.14/2.37            ( ( links_THFTYPE_IiiioI @ NODE1 @ NODE2 @ ARC )
% 2.14/2.37            | ( ( subGraph_THFTYPE_IiioI @ PATH @ GRAPH )
% 2.14/2.37              & ( instance_THFTYPE_IiioI @ PATH @ lGraphPath_THFTYPE_i )
% 2.14/2.37              & ( ( ( ( lBeginNodeFn_THFTYPE_IiiI @ PATH )
% 2.14/2.37                    = NODE1 )
% 2.14/2.37                  & ( ( lEndNodeFn_THFTYPE_IiiI @ PATH )
% 2.14/2.37                    = NODE2 ) )
% 2.14/2.37                | ( ( ( lBeginNodeFn_THFTYPE_IiiI @ PATH )
% 2.14/2.37                    = NODE2 )
% 2.14/2.37                  & ( ( lEndNodeFn_THFTYPE_IiiI @ PATH )
% 2.14/2.37                    = NODE1 ) ) ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Substituting EnglishLanguage "The &%Class of &%Transfers where one thing is replaced with something else.")
% 2.14/2.37  thf(ax263,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lVariableArityRelation_THFTYPE_i @ lRelation_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax264,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lAnatomicalStructure_THFTYPE_i @ lOrganicObject_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax265,axiom,
% 2.14/2.37      ! [RELEASE: $i,GRAB: $i,AGENT: $i,THING: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ RELEASE @ lReleasing_THFTYPE_i )
% 2.14/2.37          & ( agent_THFTYPE_IiioI @ GRAB @ AGENT )
% 2.14/2.37          & ( patient_THFTYPE_IiioI @ GRAB @ THING ) )
% 2.14/2.37       => ( ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ RELEASE ) ) @ ( grasps_THFTYPE_IiioI @ AGENT @ THING ) )
% 2.14/2.37          & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ RELEASE ) ) @ ( (~) @ ( grasps_THFTYPE_IiioI @ AGENT @ THING ) ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation involvedInEvent EnglishLanguage "(involvedInEvent ?EVENT ?THING) means that in the &%Process ?EVENT, the &%Entity ?THING plays some &%CaseRole.")
% 2.14/2.37  thf(ax266,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lObjectiveNorm_THFTYPE_i @ lNormativeAttribute_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax267,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lDiscovering_THFTYPE_i @ lIntentionalPsychologicalProcess_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation LiquidMotion EnglishLanguage "Any &%Motion where the &%patient is a &%Liquid. This class would cover, in particular, the flow of &%Water.")
% 2.14/2.37  thf(ax268,axiom,
% 2.14/2.37      ! [SUB: $i,AREA: $i] :
% 2.14/2.37        ( ( geopoliticalSubdivision_THFTYPE_IiioI @ SUB @ AREA )
% 2.14/2.37       => ( (~) @ ( instance_THFTYPE_IiioI @ SUB @ lNation_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Series EnglishLanguage "A &%Text consisting of multiple self-contained units. Some examples are an encyclopedia containing a couple dozen volumes, a television series made up of many episodes, a film serial, etc.")
% 2.14/2.37  %KIF documentation:(documentation hasPurposeForAgent EnglishLanguage "Expresses a cognitive attitude of an agent with respect to a particular instance of Physical. More precisely, (&%hasPurposeForAgent ?THING ?FORMULA ?AGENT) means that the purpose of ?THING for ?AGENT is the proposition expressed by ?FORMULA. Very complex issues are involved here. In particular, the rules of inference of the first order predicate calculus are not truth-preserving for the second argument position of this &%Predicate.")
% 2.14/2.37  thf(ax269,axiom,
% 2.14/2.37      ! [CLASS: $i,ATTR2: $i,ATTR1: $i] :
% 2.14/2.37        ( ( ( subAttribute_THFTYPE_IiioI @ ATTR1 @ ATTR2 )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ ATTR2 @ CLASS ) )
% 2.14/2.37       => ( instance_THFTYPE_IiioI @ ATTR1 @ CLASS ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax270,axiom,
% 2.14/2.37      ! [ARTIFACT1: $i,ARTIFACT2: $i] :
% 2.14/2.37        ( ( version_THFTYPE_IiioI @ ARTIFACT1 @ ARTIFACT2 )
% 2.14/2.37       => ( subclass_THFTYPE_IiioI @ ARTIFACT1 @ ARTIFACT2 ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax271,axiom,
% 2.14/2.37      ! [OBJ1: $i,OBJ2: $i,OBJ3: $i] :
% 2.14/2.37        ( ( connects_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ OBJ3 )
% 2.14/2.37      <=> ( ( connected_THFTYPE_IiioI @ OBJ1 @ OBJ2 )
% 2.14/2.37          & ( connected_THFTYPE_IiioI @ OBJ1 @ OBJ3 )
% 2.14/2.37          & ( (~) @ ( connected_THFTYPE_IiioI @ OBJ2 @ OBJ3 ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax272,axiom,
% 2.14/2.37      ! [OBJ: $i,INST: $i,AGENT: $i,POKE: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ POKE @ lPoking_THFTYPE_i )
% 2.14/2.37          & ( agent_THFTYPE_IiioI @ POKE @ AGENT )
% 2.14/2.37          & ( patient_THFTYPE_IiioI @ POKE @ OBJ )
% 2.14/2.37          & ( instrument_THFTYPE_IiioI @ POKE @ INST ) )
% 2.14/2.37       => ( holdsDuring_THFTYPE_IiooI @ ( lWhenFn_THFTYPE_IiiI @ POKE ) @ ( connects_THFTYPE_IiiioI @ INST @ AGENT @ OBJ ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation TransportationDevice EnglishLanguage "A &%TransportationDevice is a &%Device which serves as the &%instrument in a &%Transportation &%Process which carries the &%patient of the &%Process from one point to another.")
% 2.14/2.37  %KIF documentation:(documentation ContentBearingProcess EnglishLanguage "Any &%Process, for example &%ManualHumanLanguage, which may contain a &%Proposition.")
% 2.14/2.37  thf(ax273,axiom,
% 2.14/2.37      ! [NUMBER: $i] :
% 2.14/2.37        ( ( NUMBER
% 2.14/2.37          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.37       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lCentimeter_THFTYPE_i )
% 2.14/2.37          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n0dot01_THFTYPE_i ) @ lMeter_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax274,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lUnitOfMeasureMultiplier_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Digesting EnglishLanguage "The &%Process by which &%Food that has been ingested is broken down into simpler chemical compounds and absorbed by the &%Organism.")
% 2.14/2.37  thf(ax275,axiom,
% 2.14/2.37      typicallyContainsPart_THFTYPE_IiioI @ lVocalCords_THFTYPE_i @ lHuman_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax276,axiom,
% 2.14/2.37      ! [CLASS: $i,RELATION: $i > $i > $o] :
% 2.14/2.37        ( ( reflexiveOn_THFTYPE_IIiioIioI @ RELATION @ CLASS )
% 2.14/2.37       => ! [INST: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ INST @ CLASS )
% 2.14/2.37           => ( RELATION @ INST @ INST ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax277,axiom,
% 2.14/2.37      ! [NUMBER: $i,QUANT: $i,UNIT: $i] :
% 2.14/2.37        ( ( ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ UNIT )
% 2.14/2.37            = QUANT )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ UNIT @ lUnitOfCurrency_THFTYPE_i ) )
% 2.14/2.37       => ( instance_THFTYPE_IiioI @ QUANT @ lCurrencyMeasure_THFTYPE_i ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax278,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lPollen_THFTYPE_i @ lPlantAnatomicalStructure_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax279,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lNation_THFTYPE_i @ lLandArea_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Transportation EnglishLanguage "&%Motion from one point to another by means of a &%TransportationDevice.")
% 2.14/2.37  thf(ax280,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lGiving_THFTYPE_i @ lChangeOfPossession_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation TimeIntervalFn EnglishLanguage "A &%BinaryFunction that takes two &%TimePoints as arguments and returns the &%TimeInterval defined by these two &%TimePoints. Note that the first &%TimePoint must occur earlier than the second &%TimePoint.")
% 2.14/2.37  thf(ax281,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lText_THFTYPE_i @ lContentBearingObject_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax282,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lEquivalenceRelation_THFTYPE_i @ lSymmetricRelation_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax283,axiom,
% 2.14/2.37      ! [THING2: $i,THING1: $i] :
% 2.14/2.37        ( ( THING1 = THING2 )
% 2.14/2.37       => ! [ATTR: $i] :
% 2.14/2.37            ( ( property_THFTYPE_IiioI @ THING1 @ ATTR )
% 2.14/2.37          <=> ( property_THFTYPE_IiioI @ THING2 @ ATTR ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax284,axiom,
% 2.14/2.37      ! [INT: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ INT @ lInteger_THFTYPE_i )
% 2.14/2.37       => ( INT
% 2.14/2.37          = ( lPredecessorFn_THFTYPE_IiiI @ ( lSuccessorFn_THFTYPE_IiiI @ INT ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax285,axiom,
% 2.14/2.37      range_THFTYPE_IiioI @ lRoundFn_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation wears EnglishLanguage "(&%wears ?AGENT ?CLOTHING) means that ?AGENT is wearing the item of &%Clothing ?CLOTHING.")
% 2.14/2.37  thf(ax286,axiom,
% 2.14/2.37      ! [NUMBER2: $i,NUMBER1: $i] :
% 2.14/2.37        ( ( ( lSquareRootFn_THFTYPE_IiiI @ NUMBER1 )
% 2.14/2.37          = NUMBER2 )
% 2.14/2.37       => ( ( times_THFTYPE_IiiiI @ NUMBER2 @ NUMBER2 )
% 2.14/2.37          = NUMBER1 ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax287,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lMarch_THFTYPE_i @ lMonth_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax288,axiom,
% 2.14/2.37      ! [PROCESS: $i,LOC: $i] :
% 2.14/2.37        ( ( destination_THFTYPE_IiioI @ PROCESS @ LOC )
% 2.14/2.37       => ( partlyLocated_THFTYPE_IiioI @ PROCESS @ LOC ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax289,axiom,
% 2.14/2.37      ! [NUMBER: $i] :
% 2.14/2.37        ( ( NUMBER
% 2.14/2.37          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.37       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lKiloByte_THFTYPE_i )
% 2.14/2.37          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n1024_THFTYPE_i ) @ lByte_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax290,axiom,
% 2.14/2.37      ! [GRAPH: $i,NUMBER2: $i,NUMBER1: $i] :
% 2.14/2.37        ( (~)
% 2.14/2.37        @ ? [PATH1: $i,PATH2: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ PATH1 @ ( lCutSetFn_THFTYPE_IiiI @ GRAPH ) )
% 2.14/2.37            & ( instance_THFTYPE_IiioI @ PATH2 @ ( lMinimalCutSetFn_THFTYPE_IiiI @ GRAPH ) )
% 2.14/2.37            & ( pathLength_THFTYPE_IiioI @ PATH1 @ NUMBER1 )
% 2.14/2.37            & ( pathLength_THFTYPE_IiioI @ PATH2 @ NUMBER2 )
% 2.14/2.37            & ( lt_THFTYPE_IiioI @ NUMBER1 @ NUMBER2 ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Impelling EnglishLanguage "The &%subclass of &%Transfer where the &%patient travels through space by means of a sudden, forceful event. Some examples would be shooting, throwing, tossing, etc.")
% 2.14/2.37  %KIF documentation:(documentation AtomGram EnglishLanguage "&%MassMeasure that is also known as the gram-atom. Defined as the mass in grams of 1 &%Mole of pure substance. For example, 1 &%AtomGram of Carbon 12 will be 12 &%Grams of pure Carbon 12. 2 &%AtomGrams of the same substance will be 24 &%Grams of it. This is an unusual unit in that it is essentially 1 &%Mole of 'stuff' measured in grams, so that the actual value (i.e. mass) depends on the type of substance.")
% 2.14/2.37  thf(ax291,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lGeometricFigure_THFTYPE_i @ lShapeAttribute_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation member EnglishLanguage "A specialized common sense notion of part for uniform parts of &%Collections. For example, each sheep in a flock of sheep would have the relationship of member to the flock.")
% 2.14/2.37  thf(ax292,axiom,
% 2.14/2.37      ! [HOLE: $i,OBJ1: $i,OBJ2: $i] :
% 2.14/2.37        ( ( ( fills_THFTYPE_IiioI @ OBJ1 @ HOLE )
% 2.14/2.37          & ( attribute_THFTYPE_IiioI @ OBJ2 @ lFillable_THFTYPE_i ) )
% 2.14/2.37       => ( (~) @ ( overlapsSpatially_THFTYPE_IiioI @ OBJ1 @ OBJ2 ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax293,axiom,
% 2.14/2.37      ! [NUMBER: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ NUMBER @ lImaginaryNumber_THFTYPE_i )
% 2.14/2.37       => ? [REAL: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ REAL @ lRealNumber_THFTYPE_i )
% 2.14/2.37            & ( NUMBER
% 2.14/2.37              = ( times_THFTYPE_IiiiI @ REAL @ ( lSquareRootFn_THFTYPE_IiiI @ minus1_THFTYPE_i ) ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax294,axiom,
% 2.14/2.37      ! [REP: $i,CHILD: $i,PARENT: $i] :
% 2.14/2.37        ( ( ( parent_THFTYPE_IiioI @ CHILD @ PARENT )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ REP @ lSexualReproduction_THFTYPE_i )
% 2.14/2.37          & ( agent_THFTYPE_IiioI @ REP @ PARENT )
% 2.14/2.37          & ( result_THFTYPE_IiioI @ REP @ CHILD ) )
% 2.14/2.37       => ( ( mother_THFTYPE_IiioI @ CHILD @ PARENT )
% 2.14/2.37          | ( father_THFTYPE_IiioI @ CHILD @ PARENT ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax295,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lComputerProgram_THFTYPE_i @ lProcedure_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax296,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lCombustion_THFTYPE_i @ lChemicalDecomposition_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax297,axiom,
% 2.14/2.37      ! [OBJ: $i,SOUND: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ SOUND @ lRadiatingSound_THFTYPE_i )
% 2.14/2.37          & ( agent_THFTYPE_IiioI @ SOUND @ OBJ )
% 2.14/2.37          & ( attribute_THFTYPE_IiioI @ SOUND @ lAudible_THFTYPE_i ) )
% 2.14/2.37       => ? [HUMAN: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ HUMAN @ lHuman_THFTYPE_i )
% 2.14/2.37            & ( capability_THFTYPE_IIioIIiioIioI
% 2.14/2.37              @ ^ [HEAR: $i] :
% 2.14/2.37                  ( ( instance_THFTYPE_IiioI @ HEAR @ lHearing_THFTYPE_i )
% 2.14/2.37                  & ( agent_THFTYPE_IiioI @ HEAR @ HUMAN )
% 2.14/2.37                  & ( destination_THFTYPE_IiioI @ HEAR @ HUMAN )
% 2.14/2.37                  & ( origin_THFTYPE_IiioI @ HEAR @ OBJ ) )
% 2.14/2.37              @ agent_THFTYPE_IiioI
% 2.14/2.37              @ HUMAN ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax298,axiom,
% 2.14/2.37      ! [SUBSTANCE1: $i,SUBSTANCE2: $i,PROC: $i] :
% 2.14/2.37        ( ( ( resource_THFTYPE_IiioI @ PROC @ SUBSTANCE1 )
% 2.14/2.37          & ( result_THFTYPE_IiioI @ PROC @ SUBSTANCE2 )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ SUBSTANCE1 @ lCompoundSubstance_THFTYPE_i )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ SUBSTANCE2 @ lElementalSubstance_THFTYPE_i ) )
% 2.14/2.37       => ( instance_THFTYPE_IiioI @ PROC @ lChemicalDecomposition_THFTYPE_i ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax299,axiom,
% 2.14/2.37      ! [ARC: $i,NODE1: $i,NODE2: $i] :
% 2.14/2.37        ( ( connects_THFTYPE_IiiioI @ ARC @ NODE1 @ NODE2 )
% 2.14/2.37       => ( connects_THFTYPE_IiiioI @ ARC @ NODE2 @ NODE1 ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Inch EnglishLanguage "English length unit of inches.")
% 2.14/2.37  thf(ax300,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lList_THFTYPE_i @ lRelation_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax301,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lHuman_THFTYPE_i @ lCognitiveAgent_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Damp EnglishLanguage "An &%Attribute which indicates that the associated &%Object contains some &%Liquid.")
% 2.14/2.37  thf(ax302,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lPoliceOrganization_THFTYPE_i @ lGovernmentOrganization_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax303,axiom,
% 2.14/2.37      ! [PRIME: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ PRIME @ lPrimeNumber_THFTYPE_i )
% 2.14/2.37       => ! [NUMBER: $i] :
% 2.14/2.37            ( ( ( lRemainderFn_THFTYPE_IiiiI @ PRIME @ NUMBER )
% 2.14/2.37              = n0_THFTYPE_i )
% 2.14/2.37           => ( ( NUMBER = n1_THFTYPE_i )
% 2.14/2.37              | ( NUMBER = PRIME ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax304,axiom,
% 2.14/2.37      ! [HOLE2: $i,HOLE1: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ HOLE1 @ lHole_THFTYPE_i )
% 2.14/2.37          & ( properPart_THFTYPE_IiioI @ HOLE2 @ HOLE1 ) )
% 2.14/2.37       => ? [OBJ: $i] :
% 2.14/2.37            ( ( meetsSpatially_THFTYPE_IiioI @ HOLE1 @ OBJ )
% 2.14/2.37            & ( (~) @ ( meetsSpatially_THFTYPE_IiioI @ HOLE2 @ OBJ ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax305,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lLeavingAnOrganization_THFTYPE_i @ lOrganizationalProcess_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax306,axiom,
% 2.14/2.37      ! [MONTH: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ MONTH @ lDecember_THFTYPE_i )
% 2.14/2.37       => ( duration_THFTYPE_IiioI @ MONTH @ ( lMeasureFn_THFTYPE_IiiiI @ n31_THFTYPE_i @ lDayDuration_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax307,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lShooting_THFTYPE_i @ lImpelling_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax308,axiom,
% 2.14/2.37      ! [SUBSTANCE: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ SUBSTANCE @ lSyntheticSubstance_THFTYPE_i )
% 2.14/2.37      <=> ? [PROCESS: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ PROCESS @ lIntentionalProcess_THFTYPE_i )
% 2.14/2.37            & ( result_THFTYPE_IiioI @ PROCESS @ SUBSTANCE )
% 2.14/2.37            & ( instance_THFTYPE_IiioI @ SUBSTANCE @ lSubstance_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax309,axiom,
% 2.14/2.37      ! [OBJ: $i,PROCESS: $i] :
% 2.14/2.37        ( ( origin_THFTYPE_IiioI @ PROCESS @ OBJ )
% 2.14/2.37       => ( located_THFTYPE_IiioI @ ( lWhereFn_THFTYPE_IiiiI @ PROCESS @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ PROCESS ) ) ) @ ( lWhereFn_THFTYPE_IiiiI @ OBJ @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ OBJ ) ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax310,axiom,
% 2.14/2.37      ! [INT: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ INT @ lInteger_THFTYPE_i )
% 2.14/2.37       => ( lt_THFTYPE_IiioI @ INT @ ( lSuccessorFn_THFTYPE_IiiI @ INT ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax311,axiom,
% 2.14/2.37      range_THFTYPE_IiioI @ lGigaFn_THFTYPE_i @ lUnitOfMeasure_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax312,axiom,
% 2.14/2.37      ! [AMBULATE: $i,AGENT: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ AMBULATE @ lAmbulating_THFTYPE_i )
% 2.14/2.37          & ( agent_THFTYPE_IiioI @ AMBULATE @ AGENT ) )
% 2.14/2.37       => ( attribute_THFTYPE_IiioI @ AGENT @ lStanding_THFTYPE_i ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax313,axiom,
% 2.14/2.37      identityElement_THFTYPE_IIiiiIioI @ lMultiplicationFn_THFTYPE_IiiiI @ n1_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation TerminatingEmployment EnglishLanguage "&%OrganizationalProcesses where someone ceases to be an employee of an &%Organization. Note that this covers being laid off, being fired, and voluntarily leaving a job.")
% 2.14/2.37  %KIF documentation:(documentation greaterThan EnglishLanguage "(&%greaterThan ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is greater than the &%Quantity ?NUMBER2.")
% 2.14/2.37  thf(ax314,axiom,
% 2.14/2.37      ! [SUPERCLASS: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ SUPERCLASS @ lPairwiseDisjointClass_THFTYPE_i )
% 2.14/2.37       => ! [CLASS1: $i,CLASS2: $i] :
% 2.14/2.37            ( ( ( instance_THFTYPE_IiioI @ CLASS1 @ SUPERCLASS )
% 2.14/2.37              & ( instance_THFTYPE_IiioI @ CLASS2 @ SUPERCLASS ) )
% 2.14/2.37           => ( ( CLASS1 = CLASS2 )
% 2.14/2.37              | ( disjoint_THFTYPE_IiioI @ CLASS1 @ CLASS2 ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax315,axiom,
% 2.14/2.37      ! [FORMULA: $o,AGENT2: $i,AGENT1: $i] :
% 2.14/2.37        ( ( confersObligation_THFTYPE_IoiioI @ FORMULA @ AGENT1 @ AGENT2 )
% 2.14/2.37       => ( holdsObligation_THFTYPE_IoioI @ FORMULA @ AGENT2 ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax316,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lMotionPicture_THFTYPE_i @ lText_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax317,axiom,
% 2.14/2.37      ! [OBJ: $i,T1: $i,ORGANISM: $i] :
% 2.14/2.37        ( ( holdsDuring_THFTYPE_IiooI @ T1 @ ( inhabits_THFTYPE_IiioI @ ORGANISM @ OBJ ) )
% 2.14/2.37       => ? [TIME: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ TIME @ lTimeInterval_THFTYPE_i )
% 2.14/2.37            & ( temporalPart_THFTYPE_IiioI @ TIME @ T1 )
% 2.14/2.37            & ( holdsDuring_THFTYPE_IiooI @ TIME @ ( located_THFTYPE_IiioI @ ORGANISM @ OBJ ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax318,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lPoisoning_THFTYPE_i @ lInjuring_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax319,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lPlantAnatomicalStructure_THFTYPE_i @ lAnatomicalStructure_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax320,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lCrustacean_THFTYPE_i @ lArthropod_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax321,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lStateOfMind_THFTYPE_i @ lPsychologicalAttribute_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax322,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lMolecule_THFTYPE_i @ lCompoundSubstance_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax323,axiom,
% 2.14/2.37      range_THFTYPE_IiioI @ lListOrderFn_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax324,axiom,
% 2.14/2.37      ! [REL: $i > $i > $o] :
% 2.14/2.37        ( ( instance_THFTYPE_IIiioIioI @ REL @ lIrreflexiveRelation_THFTYPE_i )
% 2.14/2.37      <=> ! [INST: $i] : ( (~) @ ( REL @ INST @ INST ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax325,axiom,
% 2.14/2.37      ! [INVESTIGATE: $i,PROP: $o,AGENT: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ INVESTIGATE @ lInvestigating_THFTYPE_i )
% 2.14/2.37          & ( agent_THFTYPE_IiioI @ INVESTIGATE @ AGENT )
% 2.14/2.37          & ( patient_THFTYPE_IiooI @ INVESTIGATE @ PROP ) )
% 2.14/2.37       => ( holdsDuring_THFTYPE_IiooI @ ( lWhenFn_THFTYPE_IiiI @ INVESTIGATE ) @ ( (~) @ ( knows_THFTYPE_IiooI @ AGENT @ PROP ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation ContentBearingPhysical EnglishLanguage "Any &%Object or &%Process that expresses content. This covers &%Objects that contain a &%Proposition, such as a book, as well as &%ManualSignLanguage, which may similarly contain a &%Proposition.")
% 2.14/2.37  %KIF documentation:(documentation located EnglishLanguage "(&%located ?PHYS ?OBJ) means that ?PHYS is &%partlyLocated at ?OBJ, and there is no &%part or &%subProcess of ?PHYS that is not &%located at ?OBJ.")
% 2.14/2.37  thf(ax326,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lTotalValuedRelation_THFTYPE_i @ lRelation_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax327,axiom,
% 2.14/2.37      ! [FORMULA: $o] :
% 2.14/2.37        ( ( modalAttribute_THFTYPE_IoioI @ FORMULA @ lObligation_THFTYPE_i )
% 2.14/2.37      <=> ( (~) @ ( modalAttribute_THFTYPE_IoioI @ ( (~) @ FORMULA ) @ lPermission_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Tasting EnglishLanguage "The &%subclass of &%Perception in which the sensing is done by of an &%Organ which can discriminate various tastes.")
% 2.14/2.37  thf(ax328,axiom,
% 2.14/2.37      ! [ACT: $i,FOOD: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ ACT @ lEating_THFTYPE_i )
% 2.14/2.37          & ( resource_THFTYPE_IiioI @ ACT @ FOOD ) )
% 2.14/2.37       => ( attribute_THFTYPE_IiioI @ FOOD @ lSolid_THFTYPE_i ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax329,axiom,
% 2.14/2.37      ! [OBJ1: $i,OBJ2: $i] :
% 2.14/2.37        ( ( orientation_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ lOn_THFTYPE_i )
% 2.14/2.37       => ( located_THFTYPE_IiioI @ OBJ1 @ OBJ2 ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax330,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lPrecipitation_THFTYPE_i @ lFalling_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation AntisymmetricRelation EnglishLanguage "&%BinaryRelation ?REL is an &%AntisymmetricRelation if for distinct ?INST1 and ?INST2, (?REL ?INST1 ?INST2) implies not (?REL ?INST2 ?INST1). In other words, for all ?INST1 and ?INST2, (?REL ?INST1 ?INST2) and (?REL ?INST2 ?INST1) imply that ?INST1 and ?INST2 are identical. Note that it is possible for an &%AntisymmetricRelation to be a &%ReflexiveRelation.")
% 2.14/2.37  thf(ax331,axiom,
% 2.14/2.37      ! [INTERVAL: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ INTERVAL @ lTimeInterval_THFTYPE_i )
% 2.14/2.37       => ( finishes_THFTYPE_IiioI @ ( lImmediatePastFn_THFTYPE_IiiI @ INTERVAL ) @ ( lPastFn_THFTYPE_IiiI @ INTERVAL ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax332,axiom,
% 2.14/2.37      ! [CLASS: $i,FUNCTION: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ FUNCTION @ lAssociativeFunction_THFTYPE_i )
% 2.14/2.37       => ! [INST1: $i,INST2: $i,INST3: $i] :
% 2.14/2.37            ( ( ( domain_THFTYPE_IiiioI @ FUNCTION @ n1_THFTYPE_i @ CLASS )
% 2.14/2.37              & ( instance_THFTYPE_IiioI @ INST1 @ CLASS )
% 2.14/2.37              & ( instance_THFTYPE_IiioI @ INST2 @ CLASS )
% 2.14/2.37              & ( instance_THFTYPE_IiioI @ INST3 @ CLASS ) )
% 2.14/2.37           => ( ( lAssignmentFn_THFTYPE_IiiiiI @ FUNCTION @ INST1 @ ( lAssignmentFn_THFTYPE_IiiiiI @ FUNCTION @ INST2 @ INST3 ) )
% 2.14/2.37              = ( lAssignmentFn_THFTYPE_IiiiiI @ FUNCTION @ ( lAssignmentFn_THFTYPE_IiiiiI @ FUNCTION @ INST1 @ INST2 ) @ INST3 ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation County EnglishLanguage "A &%GeopoliticalArea that is larger than a city, usually encompassing several cities, and smaller than a &%StateOrProvince. Aside from City, this is the smallest geopolitical subdivision, and it is known by various names in various counties, e.g. parrish, commune, etc.")
% 2.14/2.37  %KIF documentation:(documentation decreasesLikelihood EnglishLanguage "One of the basic &%ProbabilityRelations. (&%decreasesLikelihood ?FORMULA1 ?FORMULA2) means that ?FORMULA2 is less likely to be true if ?FORMULA1 is true.")
% 2.14/2.37  thf(ax333,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lViolentContest_THFTYPE_i @ lContest_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax334,axiom,
% 2.14/2.37      range_THFTYPE_IiioI @ lMinimalWeightedPathFn_THFTYPE_i @ lGraphPath_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax335,axiom,
% 2.14/2.37      ! [OBJ: $i,IMPACT: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ IMPACT @ lImpacting_THFTYPE_i )
% 2.14/2.37          & ( patient_THFTYPE_IiioI @ IMPACT @ OBJ ) )
% 2.14/2.37       => ? [IMPEL: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ IMPEL @ lImpelling_THFTYPE_i )
% 2.14/2.37            & ( patient_THFTYPE_IiioI @ IMPEL @ OBJ )
% 2.14/2.37            & ( earlier_THFTYPE_IiioI @ ( lWhenFn_THFTYPE_IiiI @ IMPEL ) @ ( lWhenFn_THFTYPE_IiiI @ IMPACT ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax336,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lPutting_THFTYPE_i @ lTransfer_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax337,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lArgument_THFTYPE_i @ lProposition_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax338,axiom,
% 2.14/2.37      ! [PROC: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ PROC @ lDirectionChange_THFTYPE_i )
% 2.14/2.37       => ? [ATTR: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ ATTR @ lDirectionalAttribute_THFTYPE_i )
% 2.14/2.37            & ( ( ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ PROC ) ) @ ( manner_THFTYPE_IiioI @ PROC @ ATTR ) )
% 2.14/2.37                & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ PROC ) ) @ ( (~) @ ( manner_THFTYPE_IiioI @ PROC @ ATTR ) ) ) )
% 2.14/2.37              | ( ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ PROC ) ) @ ( manner_THFTYPE_IiioI @ PROC @ ATTR ) )
% 2.14/2.37                & ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ PROC ) ) @ ( (~) @ ( manner_THFTYPE_IiioI @ PROC @ ATTR ) ) ) ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax339,axiom,
% 2.14/2.37      ! [MEMBER: $i,UNIT: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ UNIT @ lSocialUnit_THFTYPE_i )
% 2.14/2.37       => ? [HOME: $i] :
% 2.14/2.37            ( ( member_THFTYPE_IiioI @ MEMBER @ UNIT )
% 2.14/2.37           => ( home_THFTYPE_IiioI @ MEMBER @ HOME ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Carnivore EnglishLanguage "The &%Class of flesh-eating &%Mammals. Members of this &%Class typically have four or five claws on each paw. Includes cats, dogs, bears, racoons, and skunks.")
% 2.14/2.37  %KIF documentation:(documentation Mole EnglishLanguage "SI amount of substance unit. symbol: mol. It is one of the base units in SI. It is defined as follows: the &%Mole is the amount of substance of a system which contains as many elementary entities as there are atoms in 0.012 &%Kilograms of carbon 12. Note that, when this &%UnitOfMeasure is used, the elementary entities must be specified - they may be atoms, molecules, ions, electrons, etc. or groups of such particles.")
% 2.14/2.37  thf(ax340,axiom,
% 2.14/2.37      ! [MONTH1: $i,MONTH2: $i,YEAR: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ MONTH1 @ ( lMonthFn_THFTYPE_IiiiI @ lNovember_THFTYPE_i @ YEAR ) )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ MONTH2 @ ( lMonthFn_THFTYPE_IiiiI @ lDecember_THFTYPE_i @ YEAR ) ) )
% 2.14/2.37       => ( meetsTemporally_THFTYPE_IiioI @ MONTH1 @ MONTH2 ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation ArtWork EnglishLanguage "&%Artifacts that are created primarily for aesthetic appreciation. Note that this &%Class does not include most examples of architecture, which belong under &%StationaryArtifact.")
% 2.14/2.37  thf(ax341,axiom,
% 2.14/2.37      ! [CIRCLE: $i,LENGTH: $i] :
% 2.14/2.37        ( ( diameter_THFTYPE_IiioI @ CIRCLE @ LENGTH )
% 2.14/2.37       => ? [HALF: $i] :
% 2.14/2.37            ( ( radius_THFTYPE_IiioI @ CIRCLE @ HALF )
% 2.14/2.37            & ( ( times_THFTYPE_IiiiI @ HALF @ n2_THFTYPE_i )
% 2.14/2.37              = LENGTH ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax342,axiom,
% 2.14/2.37      ! [MONTH1: $i,MONTH2: $i,YEAR: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ MONTH1 @ ( lMonthFn_THFTYPE_IiiiI @ lJune_THFTYPE_i @ YEAR ) )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ MONTH2 @ ( lMonthFn_THFTYPE_IiiiI @ lJuly_THFTYPE_i @ YEAR ) ) )
% 2.14/2.37       => ( meetsTemporally_THFTYPE_IiioI @ MONTH1 @ MONTH2 ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax343,axiom,
% 2.14/2.37      ! [MIX: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ MIX @ lGasMixture_THFTYPE_i )
% 2.14/2.37       => ? [PART: $i] :
% 2.14/2.37            ( ( part_THFTYPE_IiioI @ PART @ MIX )
% 2.14/2.37            & ( attribute_THFTYPE_IiioI @ PART @ lGas_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation ServiceProcess EnglishLanguage "&%ServiceProcess denotes the class of events in which one agent performs a service for another. The service need not be commercial, and it need not be the case that the &%serviceRecipient pays or recompenses the &%serviceProvider for the service.")
% 2.14/2.37  %KIF documentation:(documentation AsexualReproduction EnglishLanguage "Asexual &%Processes of biological reproduction.")
% 2.14/2.37  thf(ax344,axiom,
% 2.14/2.37      rangeSubclass_THFTYPE_IiioI @ lMonthFn_THFTYPE_i @ lMonth_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation graphMeasure EnglishLanguage "(graphMeasure ?GRAPH ?MEAS) fixes a &%UnitOfMeasure that is used for the &%arcWeight of a given &%Graph. Stating such a relationship entails that the components of given graph are the &%abstractCounterparts of sets of &%Physical &%Entity(ies).")
% 2.14/2.37  thf(ax345,axiom,
% 2.14/2.37      partition_THFTYPE_IiiioI @ lRealNumber_THFTYPE_i @ lNegativeRealNumber_THFTYPE_i @ lNonnegativeRealNumber_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax346,axiom,
% 2.14/2.37      ! [NUMBER: $i] :
% 2.14/2.37        ( ( NUMBER
% 2.14/2.37          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.37       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lEuroCent_THFTYPE_i )
% 2.14/2.37          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n0dot01_THFTYPE_i ) @ lEuroDollar_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Solid EnglishLanguage "An &%Object has the &%Attribute of &%Solid if it has a fixed shape and a fixed volume.")
% 2.14/2.37  %KIF documentation:(documentation Language EnglishLanguage "A system of signs for expressing thought. The system can be either natural or artificial, i.e. something that emerges gradually as a cultural artifact or something that is intentionally created by a person or group of people.")
% 2.14/2.37  thf(ax347,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lRoom_THFTYPE_i @ lStationaryArtifact_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax348,axiom,
% 2.14/2.37      ! [LIST: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ LIST @ lList_THFTYPE_i )
% 2.14/2.37       => ? [NUMBER1: $i,ITEM1: $i] :
% 2.14/2.37            ( ( (~)
% 2.14/2.37              @ ( ( lListOrderFn_THFTYPE_IiiiI @ LIST @ NUMBER1 )
% 2.14/2.37                = ITEM1 ) )
% 2.14/2.37            & ! [NUMBER2: $i] :
% 2.14/2.37                ( ( ( instance_THFTYPE_IiioI @ NUMBER2 @ lPositiveInteger_THFTYPE_i )
% 2.14/2.37                  & ( lt_THFTYPE_IiioI @ NUMBER2 @ NUMBER1 ) )
% 2.14/2.37               => ? [ITEM2: $i] :
% 2.14/2.37                    ( ( lListOrderFn_THFTYPE_IiiiI @ LIST @ NUMBER2 )
% 2.14/2.37                    = ITEM2 ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Near EnglishLanguage "The relation of common sense adjacency. Note that, if an object is &%Near another object, then the objects are not &%connected.")
% 2.14/2.37  thf(ax349,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lSinging_THFTYPE_i @ lSpeaking_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation YearDuration EnglishLanguage "Time unit. one calendar year. 1 year = 365 days = 31536000 seconds.")
% 2.14/2.37  thf(ax350,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lSexualReproduction_THFTYPE_i @ lReplication_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax351,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lSpatialRelation_THFTYPE_i @ lRelation_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation TimePosition EnglishLanguage "Any &%TimePoint or &%TimeInterval along the universal timeline from &%NegativeInfinity to &%PositiveInfinity.")
% 2.14/2.37  thf(ax352,axiom,
% 2.14/2.37      ! [REMEMBER: $i,FORMULA: $o] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ REMEMBER @ lRemembering_THFTYPE_i )
% 2.14/2.37          & ( patient_THFTYPE_IiooI @ REMEMBER @ FORMULA ) )
% 2.14/2.37       => ? [TIME: $i] :
% 2.14/2.37            ( ( holdsDuring_THFTYPE_IiooI @ TIME @ FORMULA )
% 2.14/2.37            & ( ( before_THFTYPE_IiioI @ TIME @ ( lWhenFn_THFTYPE_IiiI @ REMEMBER ) )
% 2.14/2.37              | ( earlier_THFTYPE_IiioI @ TIME @ ( lWhenFn_THFTYPE_IiiI @ REMEMBER ) ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation confersObligation EnglishLanguage "Expresses the relationship between a a &%Formula, an &%Entity, and a &%CognitiveAgent when the &%Entity obligates the &%CognitiveAgent to bring it about that the &%Formula is true.")
% 2.14/2.37  %KIF documentation:(documentation ReligiousProcess EnglishLanguage "An &%OrganizationalProcess that is carried out within or by a &%ReligiousOrganization.")
% 2.14/2.37  thf(ax353,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lArticle_THFTYPE_i @ lText_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax354,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lOneDimensionalFigure_THFTYPE_i @ lGeometricFigure_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation ReproductiveBody EnglishLanguage "Reproductive structure of &%Organisms. Consists of an &%Embryonic &%Object and a nutritive/ protective envelope. Note that this class includes seeds, spores, and &%FruitOrVegetables, as well as the eggs produced by &%Animals.")
% 2.14/2.37  %KIF documentation:(documentation Week EnglishLanguage "The &%Class of all calendar weeks.")
% 2.14/2.37  %KIF documentation:(documentation Pollen EnglishLanguage "A powder produced by &%FloweringPlants that contains male gametes and is capable of fertilizing the seeds of &%FloweringPlants of the same species.")
% 2.14/2.37  thf(ax355,axiom,
% 2.14/2.37      range_THFTYPE_IiioI @ lListLengthFn_THFTYPE_i @ lNonnegativeInteger_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax356,axiom,
% 2.14/2.37      range_THFTYPE_IiioI @ lMicroFn_THFTYPE_i @ lUnitOfMeasure_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation WaterArea EnglishLanguage "A body which is made up predominantly of water, e.g. rivers, lakes, oceans, etc.")
% 2.14/2.37  thf(ax357,axiom,
% 2.14/2.37      ! [PERSON: $i,AREA: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ AREA @ lGeopoliticalArea_THFTYPE_i )
% 2.14/2.37          & ( leader_THFTYPE_IiioI @ ( lGovernmentFn_THFTYPE_IiiI @ AREA ) @ PERSON ) )
% 2.14/2.37       => ( leader_THFTYPE_IiioI @ AREA @ PERSON ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax358,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lTasteAttribute_THFTYPE_i @ lPerceptualAttribute_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Organ EnglishLanguage "A somewhat independent &%BodyPart that performs a specialized function. Note that this functional definition covers bodily systems, e.g. the digestive system or the central nervous system.")
% 2.14/2.37  thf(ax359,axiom,
% 2.14/2.37      ! [REL: $i > $i > $o] :
% 2.14/2.37        ( ( instance_THFTYPE_IIiioIioI @ REL @ lSymmetricRelation_THFTYPE_i )
% 2.14/2.37      <=> ! [INST1: $i,INST2: $i] :
% 2.14/2.37            ( ( REL @ INST1 @ INST2 )
% 2.14/2.37           => ( REL @ INST2 @ INST1 ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax360,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lRadiatingXRay_THFTYPE_i @ lRadiatingElectromagnetic_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation North EnglishLanguage "The compass direction of &%North.")
% 2.14/2.37  %KIF documentation:(documentation temporalPart EnglishLanguage "The temporal analogue of the spatial &%part predicate. (&%temporalPart ?POS1 ?POS2) means that &%TimePosition ?POS1 is part of &%TimePosition ?POS2. Note that since &%temporalPart is a &%ReflexiveRelation every &%TimePostion is a &%temporalPart of itself.")
% 2.14/2.37  %KIF documentation:(documentation Residence EnglishLanguage "A &%Building or part of a &%Building which provides some accomodation for sleeping.")
% 2.14/2.37  %KIF documentation:(documentation DenominatorFn EnglishLanguage "(&%DenominatorFn ?NUMBER) returns the denominator of the canonical reduced form of the &%RealNumber ?NUMBER.")
% 2.14/2.37  %KIF documentation:(documentation Pascal EnglishLanguage "SI pressure measure. Symbol:Pa. It is the pressure of one &%Newton per square &%Meter. &%Pascal = N/ m^2 = m^(-1)*kg*s^(-2).")
% 2.14/2.37  thf(ax361,axiom,
% 2.14/2.37      ! [DEVICE: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ DEVICE @ lDevice_THFTYPE_i )
% 2.14/2.37       => ? [PROC: $i] : ( capability_THFTYPE_IiIiioIioI @ PROC @ instrument_THFTYPE_IiioI @ DEVICE ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation July EnglishLanguage "The &%Class of all &%Months which are July.")
% 2.14/2.37  %KIF documentation:(documentation spouse EnglishLanguage "The relationship of marriage between two &%Humans.")
% 2.14/2.37  thf(ax362,axiom,
% 2.14/2.37      ! [ROW: $i,ELEMENT: $i] :
% 2.14/2.37        ( ( contraryAttribute_THFTYPE_IioI @ ROW )
% 2.14/2.37       => ( ( inList_THFTYPE_IiioI @ ELEMENT @ ( lListFn_THFTYPE_IiiI @ ROW ) )
% 2.14/2.37         => ( instance_THFTYPE_IiioI @ ELEMENT @ lAttribute_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation connectedEngineeringComponents EnglishLanguage "This is the most general connection relation between &%EngineeringComponents. If (&%connectedEngineeringComponents ?COMP1 ?COMP2), then neither ?COMP1 nor ?COMP2 can be an &%engineeringSubcomponent of the other. The relation &%connectedEngineeringComponents is a &%SymmetricRelation, there is no information in the direction of connection between two components. It is also an &%IrreflexiveRelation, no &%EngineeringComponent bears this relation to itself. Note that this relation does not associate a name or type with the connection.")
% 2.14/2.37  thf(ax363,axiom,
% 2.14/2.37      ! [DAY: $i,NUMBER: $i,MONTH: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ DAY @ ( lDayFn_THFTYPE_IiiiI @ NUMBER @ MONTH ) )
% 2.14/2.37       => ( ltet_THFTYPE_IiioI @ NUMBER @ n31_THFTYPE_i ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax364,axiom,
% 2.14/2.37      ! [AGENT: $i,RETURN: $i,DEST: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ RETURN @ lGivingBack_THFTYPE_i )
% 2.14/2.37          & ( agent_THFTYPE_IiioI @ RETURN @ AGENT )
% 2.14/2.37          & ( destination_THFTYPE_IiioI @ RETURN @ DEST ) )
% 2.14/2.37       => ? [GIVE: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ GIVE @ lGiving_THFTYPE_i )
% 2.14/2.37            & ( agent_THFTYPE_IiioI @ GIVE @ DEST )
% 2.14/2.37            & ( destination_THFTYPE_IiioI @ GIVE @ AGENT )
% 2.14/2.37            & ( earlier_THFTYPE_IiioI @ ( lWhenFn_THFTYPE_IiiI @ GIVE ) @ ( lWhenFn_THFTYPE_IiiI @ RETURN ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax365,axiom,
% 2.14/2.37      ! [OBJECT: $i,PART: $i,BOTTOM: $i] :
% 2.14/2.37        ( ( ( bottom_THFTYPE_IiioI @ BOTTOM @ OBJECT )
% 2.14/2.37          & ( part_THFTYPE_IiioI @ PART @ OBJECT )
% 2.14/2.37          & ( (~) @ ( connected_THFTYPE_IiioI @ PART @ BOTTOM ) ) )
% 2.14/2.37       => ( orientation_THFTYPE_IiiioI @ PART @ BOTTOM @ lAbove_THFTYPE_i ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Calculating EnglishLanguage "&%IntentionalPsychologicalProcesses which involve the consideration and/ or manipulation of instances of &%Quantity.")
% 2.14/2.37  thf(ax366,axiom,
% 2.14/2.37      ! [TIMECLASS1: $i,TIMECLASS2: $i,INTERVAL: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ INTERVAL @ ( lRecurrentTimeIntervalFn_THFTYPE_IiiiI @ TIMECLASS1 @ TIMECLASS2 ) )
% 2.14/2.37       => ? [TIME1: $i,TIME2: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ TIME1 @ TIMECLASS1 )
% 2.14/2.37            & ( instance_THFTYPE_IiioI @ TIME2 @ TIMECLASS2 )
% 2.14/2.37            & ( starts_THFTYPE_IiioI @ TIME1 @ INTERVAL )
% 2.14/2.37            & ( finishes_THFTYPE_IiioI @ TIME2 @ INTERVAL ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax367,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lJudicialProcess_THFTYPE_i @ lPoliticalProcess_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation UnitOfCurrency EnglishLanguage "Every instance of this &%Class is a &%UnitOfMeasure that can be used with &%MeasureFn to form instances of &%CurrencyMeasure.")
% 2.14/2.37  thf(ax368,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lManualHumanLanguage_THFTYPE_i @ lHumanLanguage_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax369,axiom,
% 2.14/2.37      disjoint_THFTYPE_IiioI @ lSolidAngleMeasure_THFTYPE_i @ lPlaneAngleMeasure_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax370,axiom,
% 2.14/2.37      contraryAttribute_THFTYPE_IiiiioI @ lSolid_THFTYPE_i @ lLiquid_THFTYPE_i @ lGas_THFTYPE_i @ lPlasma_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax371,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lPrecipitation_THFTYPE_i @ lWaterMotion_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation InternalChange EnglishLanguage "&%Processes which involve altering an internal property of an &%Object, e.g. the shape of the &%Object, its coloring, its structure, etc. &%Processes that are not instances of this class include changes that only affect the relationship to other objects, e.g. changes in spatial or temporal location.")
% 2.14/2.37  thf(ax372,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lSoundAttribute_THFTYPE_i @ lRelationalAttribute_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax373,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lCutting_THFTYPE_i @ lPoking_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax374,axiom,
% 2.14/2.37      ! [CLASS1: $i,REL: $i,CLASS2: $i] :
% 2.14/2.37        ( ( ( rangeSubclass_THFTYPE_IiioI @ REL @ CLASS1 )
% 2.14/2.37          & ( rangeSubclass_THFTYPE_IiioI @ REL @ CLASS2 ) )
% 2.14/2.37       => ( ( subclass_THFTYPE_IiioI @ CLASS1 @ CLASS2 )
% 2.14/2.37          | ( subclass_THFTYPE_IiioI @ CLASS2 @ CLASS1 ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation CorpuscularObject EnglishLanguage "A &%SelfConnectedObject whose parts have properties that are not shared by the whole.")
% 2.14/2.37  thf(ax375,axiom,
% 2.14/2.37      ! [NUMBER: $i,INT: $i] :
% 2.14/2.37        ( ( ( lCeilingFn_THFTYPE_IiiI @ NUMBER )
% 2.14/2.37          = INT )
% 2.14/2.37       => ( (~)
% 2.14/2.37          @ ? [OTHERINT: $i] :
% 2.14/2.37              ( ( instance_THFTYPE_IiioI @ OTHERINT @ lInteger_THFTYPE_i )
% 2.14/2.37              & ( gtet_THFTYPE_IiioI @ OTHERINT @ NUMBER )
% 2.14/2.37              & ( lt_THFTYPE_IiioI @ OTHERINT @ INT ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation PropertyFn EnglishLanguage "A &%UnaryFunction that maps an &%Agent to the &%Set of &%Objects owned by the &%Agent.")
% 2.14/2.37  thf(ax376,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lMilitaryOrganization_THFTYPE_i @ lGovernmentOrganization_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax377,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lMotionUpward_THFTYPE_i @ lMotion_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax378,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lMelting_THFTYPE_i @ lStateChange_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation SpeedFn EnglishLanguage "Maps an instance of &%LengthMeasure and an instance of &%TimeDuration to the speed represented by this proportion of distance and time. For example, (&%SpeedFn (&%MeasureFn 55 &%Mile)(&%MeasureFn 1 &%HourDuration)) represents the velocity of 55 miles per hour.")
% 2.14/2.37  thf(ax379,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lBodyCovering_THFTYPE_i @ lBodyPart_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation completelyFills EnglishLanguage "(&%completelyFills ?OBJ ?HOLE) means that some &%part of the &%Object ?OBJ fills the &%Hole ?HOLE. Note that if (&%completelyFills ?OBJ1 ?HOLE) and (&%part ?OBJ1 ?OBJ2), then (&%completelyFills ?OBJ2 ?HOLE). A complete filler of (a part of) a hole is connected with everything with which (that part of) the hole itself is connected. A perfect filler of (a part of) a hole completely fills every proper part of (that part of) that hole.")
% 2.14/2.37  thf(ax380,axiom,
% 2.14/2.37      ! [FUND: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ FUND @ lFunding_THFTYPE_i )
% 2.14/2.37       => ? [MONEY: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ MONEY @ lCurrency_THFTYPE_i )
% 2.14/2.37            & ( patient_THFTYPE_IiioI @ FUND @ MONEY ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax381,axiom,
% 2.14/2.37      partition_THFTYPE_IiiioI @ lEntity_THFTYPE_i @ lPhysical_THFTYPE_i @ lAbstract_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax382,axiom,
% 2.14/2.37      ! [GRAPH: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ GRAPH @ lGraph_THFTYPE_i )
% 2.14/2.37       => ? [NODE1: $i,NODE2: $i,NODE3: $i,ARC1: $i,ARC2: $i] :
% 2.14/2.37            ( ( graphPart_THFTYPE_IiioI @ NODE1 @ GRAPH )
% 2.14/2.37            & ( graphPart_THFTYPE_IiioI @ NODE2 @ GRAPH )
% 2.14/2.37            & ( graphPart_THFTYPE_IiioI @ NODE3 @ GRAPH )
% 2.14/2.37            & ( graphPart_THFTYPE_IiioI @ ARC1 @ GRAPH )
% 2.14/2.37            & ( graphPart_THFTYPE_IiioI @ ARC2 @ GRAPH )
% 2.14/2.37            & ( links_THFTYPE_IiiioI @ NODE1 @ NODE2 @ ARC1 )
% 2.14/2.37            & ( links_THFTYPE_IiiioI @ NODE2 @ NODE3 @ ARC2 )
% 2.14/2.37            & ( (~) @ ( NODE1 = NODE2 ) )
% 2.14/2.37            & ( (~) @ ( NODE2 = NODE3 ) )
% 2.14/2.37            & ( (~) @ ( NODE1 = NODE3 ) )
% 2.14/2.37            & ( (~) @ ( ARC1 = ARC2 ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax383,axiom,
% 2.14/2.37      ! [MONTH: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ MONTH @ lNovember_THFTYPE_i )
% 2.14/2.37       => ( duration_THFTYPE_IiioI @ MONTH @ ( lMeasureFn_THFTYPE_IiiiI @ n30_THFTYPE_i @ lDayDuration_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax384,axiom,
% 2.14/2.37      ! [REASON: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ REASON @ lReasoning_THFTYPE_i )
% 2.14/2.37       => ? [ARGUMENT: $o] :
% 2.14/2.37            ( ( instance_THFTYPE_IoioI @ ARGUMENT @ lArgument_THFTYPE_i )
% 2.14/2.37            & ( realization_THFTYPE_IiooI @ REASON @ ARGUMENT ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation SuccessorFn EnglishLanguage "A &%UnaryFunction that maps an &%Integer to its successor, e.g. the successor of 5 is 6.")
% 2.14/2.37  %KIF documentation:(documentation faces EnglishLanguage "(&%faces ?OBJ ?DIRECTION) means that the front of ?OBJ (see &%FrontFn) is positioned towards the compass direction ?DIRECTION. More precisely, it means that if a line were extended from the center of ?DIRECTION, the line would intersect with the front of ?OBJ before it intersected with its back (see &%BackFn).")
% 2.14/2.37  thf(ax385,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lTimeZone_THFTYPE_i @ lRelationalAttribute_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation height EnglishLanguage "The height of an &%Object is the distance between its &%top and its &%bottom.")
% 2.14/2.37  thf(ax386,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lTasting_THFTYPE_i @ lPerception_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax387,axiom,
% 2.14/2.37      ! [REL: $i > $i > $o,OBJ1: $i,OBJ2: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IIiioIioI @ REL @ lBinaryPredicate_THFTYPE_i )
% 2.14/2.37          & ( instance_THFTYPE_IIiioIioI @ REL @ lSpatialRelation_THFTYPE_i )
% 2.14/2.37          & ( REL @ OBJ1 @ OBJ2 ) )
% 2.14/2.37       => ( overlapsTemporally_THFTYPE_IiioI @ ( lWhenFn_THFTYPE_IiiI @ OBJ1 ) @ ( lWhenFn_THFTYPE_IiiI @ OBJ2 ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax388,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lSolution_THFTYPE_i @ lLiquidMixture_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax389,axiom,
% 2.14/2.37      ! [RUN: $i,TIME: $i,AGENT: $i,LENGTH1: $i,LENGTH2: $i,WALK: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ WALK @ lWalking_THFTYPE_i )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ RUN @ lRunning_THFTYPE_i )
% 2.14/2.37          & ( agent_THFTYPE_IiioI @ WALK @ AGENT )
% 2.14/2.37          & ( agent_THFTYPE_IiioI @ RUN @ AGENT )
% 2.14/2.37          & ( holdsDuring_THFTYPE_IiooI @ ( lWhenFn_THFTYPE_IiiI @ WALK ) @ ( measure_THFTYPE_IiioI @ AGENT @ ( lSpeedFn_THFTYPE_IiiiI @ LENGTH1 @ TIME ) ) )
% 2.14/2.37          & ( holdsDuring_THFTYPE_IiooI @ ( lWhenFn_THFTYPE_IiiI @ RUN ) @ ( measure_THFTYPE_IiioI @ AGENT @ ( lSpeedFn_THFTYPE_IiiiI @ LENGTH2 @ TIME ) ) ) )
% 2.14/2.37       => ( gt_THFTYPE_IiioI @ LENGTH2 @ LENGTH1 ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax390,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lMeat_THFTYPE_i @ lFood_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax391,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lSetOrClass_THFTYPE_i @ lAbstract_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax392,axiom,
% 2.14/2.37      ! [REP: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ REP @ lReplication_THFTYPE_i )
% 2.14/2.37       => ? [BODY: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ BODY @ lReproductiveBody_THFTYPE_i )
% 2.14/2.37            & ( result_THFTYPE_IiioI @ REP @ BODY ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax393,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lInjuring_THFTYPE_i @ lPathologicProcess_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax394,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lFloweringPlant_THFTYPE_i @ lPlant_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax395,axiom,
% 2.14/2.37      ! [PATH: $i,NODE1: $i,NODE2: $i] :
% 2.14/2.37        ( ( ( lMinimalWeightedPathFn_THFTYPE_IiiiI @ NODE1 @ NODE2 )
% 2.14/2.37          = PATH )
% 2.14/2.37       => ( instance_THFTYPE_IiioI @ PATH @ ( lGraphPathFn_THFTYPE_IiiiI @ NODE1 @ NODE2 ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax396,axiom,
% 2.14/2.37      contraryAttribute_THFTYPE_IiioI @ lSmooth_THFTYPE_i @ lRough_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax397,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lMammal_THFTYPE_i @ lWarmBloodedVertebrate_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation MereologicalDifferenceFn EnglishLanguage "(&%MereologicalDifferenceFn ?OBJ1 ?OBJ2) denotes the &%Object consisting of the parts which belong to ?OBJ1 and not to ?OBJ2.")
% 2.14/2.37  %KIF documentation:(documentation MountainTimeZone EnglishLanguage "A &%TimeZone that covers much of the Rocky Mountain region of the United States.")
% 2.14/2.37  thf(ax398,axiom,
% 2.14/2.37      range_THFTYPE_IiioI @ lGovernmentFn_THFTYPE_i @ lGovernment_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax399,axiom,
% 2.14/2.37      ! [GET: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ GET @ lUnilateralGetting_THFTYPE_i )
% 2.14/2.37       => ( (~)
% 2.14/2.37          @ ? [TRANS: $i] :
% 2.14/2.37              ( ( instance_THFTYPE_IiioI @ TRANS @ lTransaction_THFTYPE_i )
% 2.14/2.37              & ( subProcess_THFTYPE_IiioI @ GET @ TRANS ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax400,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lIntentionalProcess_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Tree EnglishLanguage "A Tree is a &%DirectedGraph that has no &%GraphLoops.")
% 2.14/2.37  %KIF documentation:(documentation SymmetricRelation EnglishLanguage "A &%BinaryRelation ?REL is symmetric just iff (?REL ?INST1 ?INST2) imples (?REL ?INST2 ?INST1), for all ?INST1 and ?INST2.")
% 2.14/2.37  thf(ax401,axiom,
% 2.14/2.37      range_THFTYPE_IiioI @ lNumeratorFn_THFTYPE_i @ lInteger_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax402,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lAmphibian_THFTYPE_i @ lColdBloodedVertebrate_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax403,axiom,
% 2.14/2.37      ! [STRUCTURE: $i,ANIMAL: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ STRUCTURE @ lAnimalAnatomicalStructure_THFTYPE_i )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ ANIMAL @ lOrganism_THFTYPE_i )
% 2.14/2.37          & ( part_THFTYPE_IiioI @ STRUCTURE @ ANIMAL ) )
% 2.14/2.37       => ( instance_THFTYPE_IiioI @ ANIMAL @ lAnimal_THFTYPE_i ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax404,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lManufacturer_THFTYPE_i @ lCorporation_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax405,axiom,
% 2.14/2.37      ! [POINT: $i,INTERVAL: $i] :
% 2.14/2.37        ( ( ( lBeginFn_THFTYPE_IiiI @ INTERVAL )
% 2.14/2.37          = POINT )
% 2.14/2.37       => ! [OTHERPOINT: $i] :
% 2.14/2.37            ( ( ( temporalPart_THFTYPE_IiioI @ OTHERPOINT @ INTERVAL )
% 2.14/2.37              & ( (~) @ ( OTHERPOINT = POINT ) ) )
% 2.14/2.37           => ( before_THFTYPE_IiioI @ POINT @ OTHERPOINT ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax406,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lSingleFamilyResidence_THFTYPE_i @ lPermanentResidence_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax407,axiom,
% 2.14/2.37      ! [DETACH: $i,OBJ1: $i,OBJ2: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ DETACH @ lDetaching_THFTYPE_i )
% 2.14/2.37          & ( patient_THFTYPE_IiioI @ DETACH @ OBJ1 )
% 2.14/2.37          & ( patient_THFTYPE_IiioI @ DETACH @ OBJ2 ) )
% 2.14/2.37       => ( ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ DETACH ) ) @ ( connected_THFTYPE_IiioI @ OBJ1 @ OBJ2 ) )
% 2.14/2.37          & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ DETACH ) ) @ ( (~) @ ( connected_THFTYPE_IiioI @ OBJ1 @ OBJ2 ) ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation BinaryNumber EnglishLanguage "Elements from the number system with base 2. Every &%BinaryNumber is expressed as a sequence of the digits 1 and 0.")
% 2.14/2.37  %KIF documentation:(documentation Voting EnglishLanguage "&%Voting is the activity of voting in an &%Election. Voting is typically done by individuals, while &%Elections are conducted by &%Organizations. The voting process by an individual voter is part of an &%Election process.")
% 2.14/2.37  thf(ax408,axiom,
% 2.14/2.37      rangeSubclass_THFTYPE_IiioI @ lEditionFn_THFTYPE_i @ lContentBearingObject_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax409,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lWalking_THFTYPE_i @ lAmbulating_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation RelationExtendedToQuantities EnglishLanguage "A &%RelationExtendedToQuantities is a &%Relation that, when it is true on a sequence of arguments that are &%RealNumbers, it is also true on a sequence of instances of &%ConstantQuantity with those magnitudes in some unit of measure. For example, the &%lessThan relation is extended to quantities. This means that for all pairs of quantities ?QUANTITY1 and ?QUANTITY2, (&%lessThan ?QUANTITY1 ?QUANTITY2) if and only if, for some ?NUMBER1, ?NUMBER2, and ?UNIT, ?QUANTITY1 = (&%MeasureFn ?NUMBER1 ?UNIT), ?QUANTITY2 = (&%MeasureFn ?NUMBER2 ?UNIT), and (&%lessThan ?NUMBER1 ?NUMBER2), for all units ?UNIT on which ?QUANTITY1 and ?QUANTITY2 can be measured. Note that, when a &%RelationExtendedToQuantities is extended from &%RealNumbers to instances of &%ConstantQuantity, the &%ConstantQuantity must be measured along the same physical dimension.")
% 2.14/2.37  thf(ax410,axiom,
% 2.14/2.37      ! [WET: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ WET @ lWetting_THFTYPE_i )
% 2.14/2.37       => ? [OBJ: $i] :
% 2.14/2.37            ( ( attribute_THFTYPE_IiioI @ OBJ @ lLiquid_THFTYPE_i )
% 2.14/2.37            & ( patient_THFTYPE_IiioI @ WET @ OBJ ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax411,axiom,
% 2.14/2.37      ! [FISH: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ FISH @ lFish_THFTYPE_i )
% 2.14/2.37       => ? [WATER: $i] :
% 2.14/2.37            ( ( inhabits_THFTYPE_IiioI @ FISH @ WATER )
% 2.14/2.37            & ( instance_THFTYPE_IiioI @ WATER @ lWater_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax412,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lCurrency_THFTYPE_i @ lFinancialInstrument_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax413,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lSeries_THFTYPE_i @ lText_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax414,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lHuman_THFTYPE_i @ lHominid_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax415,axiom,
% 2.14/2.37      ! [NUMBER: $i,LIST1: $i,NUMBER1: $i,LIST: $i] :
% 2.14/2.37        ( ( ( ( lListLengthFn_THFTYPE_IiiI @ LIST1 )
% 2.14/2.37            = NUMBER )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ LIST @ lList_THFTYPE_i )
% 2.14/2.37          & ( (~) @ ( LIST = lNullList_THFTYPE_i ) )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ NUMBER1 @ lPositiveInteger_THFTYPE_i ) )
% 2.14/2.37       => ? [LIST2: $i,ITEM: $i] :
% 2.14/2.37            ( ( initialList_THFTYPE_IiioI @ LIST1 @ LIST2 )
% 2.14/2.37            & ( ( lSuccessorFn_THFTYPE_IiiI @ NUMBER )
% 2.14/2.37              = ( lListLengthFn_THFTYPE_IiiI @ LIST2 ) )
% 2.14/2.37            & ( ( lListOrderFn_THFTYPE_IiiiI @ LIST2 @ ( lSuccessorFn_THFTYPE_IiiI @ NUMBER ) )
% 2.14/2.37              = ITEM ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation MinuteDuration EnglishLanguage "Time unit. 1 minute = 60 seconds. ")
% 2.14/2.37  thf(ax416,axiom,
% 2.14/2.37      ! [NUMBER: $i] :
% 2.14/2.37        ( ( NUMBER
% 2.14/2.37          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.37       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lDayDuration_THFTYPE_i )
% 2.14/2.37          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n24_THFTYPE_i ) @ lHourDuration_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation UnitOfMeasureMultiplier EnglishLanguage "Each &%instance of this &%Class is a &%UnaryFunction that, when evaluated on its single argument, a &%UnitOfMeasure, produces another &%UnitOfMeasure that is a numeric multiple of the argument.")
% 2.14/2.37  thf(ax417,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lFunction_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax418,axiom,
% 2.14/2.37      ! [AGENT: $i,TEXT: $i] :
% 2.14/2.37        ( ( authors_THFTYPE_IiioI @ AGENT @ TEXT )
% 2.14/2.37       => ? [PROCESS: $i,INSTANCE: $i] :
% 2.14/2.37            ( ( agent_THFTYPE_IiioI @ PROCESS @ AGENT )
% 2.14/2.37            & ( instance_THFTYPE_IiioI @ INSTANCE @ TEXT )
% 2.14/2.37            & ( result_THFTYPE_IiioI @ PROCESS @ TEXT ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax419,axiom,
% 2.14/2.37      range_THFTYPE_IiioI @ lWhenFn_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax420,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lRationalNumber_THFTYPE_i @ lRealNumber_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax421,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lPositiveRealNumber_THFTYPE_i @ lNonnegativeRealNumber_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax422,axiom,
% 2.14/2.37      ! [INTERVAL1: $i,INTERVAL2: $i] :
% 2.14/2.37        ( ( meetsTemporally_THFTYPE_IiioI @ INTERVAL1 @ INTERVAL2 )
% 2.14/2.37      <=> ( ( lEndFn_THFTYPE_IiiI @ INTERVAL1 )
% 2.14/2.37          = ( lBeginFn_THFTYPE_IiiI @ INTERVAL2 ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax423,axiom,
% 2.14/2.37      ! [MONTH: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ MONTH @ lMay_THFTYPE_i )
% 2.14/2.37       => ( duration_THFTYPE_IiioI @ MONTH @ ( lMeasureFn_THFTYPE_IiiiI @ n31_THFTYPE_i @ lDayDuration_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation inList EnglishLanguage "The analog of &%element and &%instance for &%Lists. (&%inList ?OBJ ?LIST) means that ?OBJ is in the &%List ?LIST. For example, (&%inList &%Tuesday (&%ListFn &%Monday &%Tuesday &%Wednesday)) would be true.")
% 2.14/2.37  thf(ax424,axiom,
% 2.14/2.37      ! [REL: $i > $i > $o] :
% 2.14/2.37        ( ( instance_THFTYPE_IIiioIioI @ REL @ lTotalOrderingRelation_THFTYPE_i )
% 2.14/2.37      <=> ! [INST1: $i,INST2: $i] :
% 2.14/2.37            ( ( ( REL @ INST1 @ INST2 )
% 2.14/2.37              | ( REL @ INST2 @ INST1 ) )
% 2.14/2.37            & ( ( (~) @ ( REL @ INST1 @ INST2 ) )
% 2.14/2.37              | ( (~) @ ( REL @ INST2 @ INST1 ) ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax425,axiom,
% 2.14/2.37      ! [BOILVAL: $i,OBJ: $i,MEAS: $i,VAL: $i,EVAP: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ EVAP @ lEvaporating_THFTYPE_i )
% 2.14/2.37          & ( boilingPoint_THFTYPE_IiioI @ OBJ @ ( lMeasureFn_THFTYPE_IiiiI @ BOILVAL @ MEAS ) )
% 2.14/2.37          & ( measure_THFTYPE_IiioI @ OBJ @ ( lMeasureFn_THFTYPE_IiiiI @ VAL @ MEAS ) )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ MEAS @ lUnitOfTemperature_THFTYPE_i )
% 2.14/2.37          & ( patient_THFTYPE_IiioI @ EVAP @ OBJ ) )
% 2.14/2.37       => ? [PART: $i] :
% 2.14/2.37            ( ( part_THFTYPE_IiioI @ PART @ OBJ )
% 2.14/2.37            & ( gt_THFTYPE_IiioI @ BOILVAL @ VAL )
% 2.14/2.37            & ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ EVAP ) ) @ ( attribute_THFTYPE_IiioI @ PART @ lLiquid_THFTYPE_i ) )
% 2.14/2.37            & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ EVAP ) ) @ ( attribute_THFTYPE_IiioI @ PART @ lGas_THFTYPE_i ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax426,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lAnimalSubstance_THFTYPE_i @ lBodySubstance_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax427,axiom,
% 2.14/2.37      ! [COMP2: $i,COMP1: $i] :
% 2.14/2.37        ( ( connectedEngineeringComponents_THFTYPE_IiioI @ COMP1 @ COMP2 )
% 2.14/2.37      <=> ? [CONNECTION: $i] : ( connectsEngineeringComponents_THFTYPE_IiiioI @ CONNECTION @ COMP1 @ COMP2 ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax428,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lSpore_THFTYPE_i @ lReproductiveBody_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax429,axiom,
% 2.14/2.37      ! [NUMBER: $i,QUANT: $i,UNIT: $i] :
% 2.14/2.37        ( ( ( NUMBER
% 2.14/2.37            = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ UNIT @ lUnitOfMeasure_THFTYPE_i )
% 2.14/2.37          & ( QUANT
% 2.14/2.37            = ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ UNIT ) ) )
% 2.14/2.37       => ( ( lMagnitudeFn_THFTYPE_IiiI @ QUANT )
% 2.14/2.37          = NUMBER ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation atomicNumber EnglishLanguage "(&%atomicNumber ?ELEMENT ?NUMBER) means that the &%ElementalSubstance ?ELEMENT has the atomic number ?NUMBER. The atomic number is the number of &%Protons in the nucleus of an &%Atom.")
% 2.14/2.37  thf(ax430,axiom,
% 2.14/2.37      disjointDecomposition_THFTYPE_IiiiiiioI @ lAbstract_THFTYPE_i @ lQuantity_THFTYPE_i @ lAttribute_THFTYPE_i @ lSetOrClass_THFTYPE_i @ lRelation_THFTYPE_i @ lProposition_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax431,axiom,
% 2.14/2.37      ! [CLASS: $i,INTERVAL_TYPE: $i,INTERVAL: $i] :
% 2.14/2.37        ( ( ( lTemporalCompositionFn_THFTYPE_IiiiI @ INTERVAL @ INTERVAL_TYPE )
% 2.14/2.37          = CLASS )
% 2.14/2.37       => ? [TIME: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ TIME @ CLASS )
% 2.14/2.37            & ( starts_THFTYPE_IiioI @ TIME @ INTERVAL ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation BodyPart EnglishLanguage "A collection of &%Cells and &%Tissues which are localized to a specific area of an &%Organism and which are not pathological. The instances of this &%Class range from gross structures to small components of complex &%Organs.")
% 2.14/2.37  thf(ax432,axiom,
% 2.14/2.37      ! [MINUTE: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ MINUTE @ lMinute_THFTYPE_i )
% 2.14/2.37       => ( duration_THFTYPE_IiioI @ MINUTE @ ( lMeasureFn_THFTYPE_IiiiI @ n1_THFTYPE_i @ lMinuteDuration_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax433,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lContentBearingProcess_THFTYPE_i @ lContentBearingPhysical_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax434,axiom,
% 2.14/2.37      range_THFTYPE_IiioI @ lWealthFn_THFTYPE_i @ lCurrencyMeasure_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax435,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lGeopoliticalArea_THFTYPE_i @ lGeographicArea_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax436,axiom,
% 2.14/2.37      range_THFTYPE_IiioI @ lAbstractionFn_THFTYPE_i @ lAttribute_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation engineeringSubcomponent EnglishLanguage "(&%engineeringSubcomponent ?SUB ?SUPER) means that the &%EngineeringComponent ?SUB is structurally a &%properPart of ?SUPER. This relation is an &%AsymmetricRelation, since two &%EngineeringComponents cannot be subcomponents of each other.")
% 2.14/2.37  %KIF documentation:(documentation Borrowing EnglishLanguage "The &%subclass of &%Getting &%Processes where the &%agent gets something for a limited period of time with the expectation that it will be returned later (perhaps with interest).")
% 2.14/2.37  %KIF documentation:(documentation Nutrient EnglishLanguage "A &%BiologicallyActiveSubstance required by an &%Organism. It is generally ingested as &%Food, and it is of primary interest because of its role in the biologic functioning of the &%Organism.")
% 2.14/2.37  %KIF documentation:(documentation depth EnglishLanguage "A &%TernaryPredicate that is used to state the &%distance between the &%top of an &%Object and another point that is above the &%top of the &%Object (often this other point will be sea level). Note that this &%Predicate can be used to specify, for example, the depth of marine life or submarines, for example.")
% 2.14/2.37  thf(ax437,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lComparing_THFTYPE_i @ lIntentionalPsychologicalProcess_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax438,axiom,
% 2.14/2.37      inverse_THFTYPE_IIiioIIiioIoI @ husband_THFTYPE_IiioI @ wife_THFTYPE_IiioI ).
% 2.14/2.37  
% 2.14/2.37  thf(ax439,axiom,
% 2.14/2.37      ! [PROC2: $i,PROC1: $i] :
% 2.14/2.37        ( ( causesSubclass_THFTYPE_IiioI @ PROC1 @ PROC2 )
% 2.14/2.37       => ! [INST2: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ INST2 @ PROC2 )
% 2.14/2.37           => ? [INST1: $i] :
% 2.14/2.37                ( ( instance_THFTYPE_IiioI @ INST1 @ PROC1 )
% 2.14/2.37                & ( causes_THFTYPE_IiioI @ INST1 @ INST2 ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax440,axiom,
% 2.14/2.37      range_THFTYPE_IiioI @ lPredecessorFn_THFTYPE_i @ lInteger_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Creation EnglishLanguage "The &%subclass of &%Process in which something is created. Note that the thing created is specified with the &%result &%CaseRole.")
% 2.14/2.37  thf(ax441,axiom,
% 2.14/2.37      ! [REL: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ REL @ lQuaternaryPredicate_THFTYPE_i )
% 2.14/2.37       => ( valence_THFTYPE_IiioI @ REL @ n4_THFTYPE_i ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax442,axiom,
% 2.14/2.37      range_THFTYPE_IiioI @ lLogFn_THFTYPE_i @ lRealNumber_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax443,axiom,
% 2.14/2.37      disjoint_THFTYPE_IiioI @ lOrganicObject_THFTYPE_i @ lArtifact_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax444,axiom,
% 2.14/2.37      ! [INSTRUMENT: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ INSTRUMENT @ lMusicalInstrument_THFTYPE_i )
% 2.14/2.37       => ( capability_THFTYPE_IiIiioIioI @ lMusic_THFTYPE_i @ instrument_THFTYPE_IiioI @ INSTRUMENT ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation VolumeMeasure EnglishLanguage "Measures of the amount of space in three dimensions.")
% 2.14/2.37  %KIF documentation:(documentation component EnglishLanguage "A specialized common sense notion of part for heterogeneous parts of complexes. (&%component ?COMPONENT ?WHOLE) means that ?COMPONENT is a component of ?WHOLE. Examples of component include the doors and walls of a house, the states or provinces of a country, or the limbs and organs of an animal. Compare &%piece, which is also a subrelation of &%part.")
% 2.14/2.37  thf(ax445,axiom,
% 2.14/2.37      ! [PERSON: $i,JOIN: $i,ORG: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ JOIN @ lJoiningAnOrganization_THFTYPE_i )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ ORG @ lOrganization_THFTYPE_i )
% 2.14/2.37          & ( agent_THFTYPE_IiioI @ JOIN @ PERSON )
% 2.14/2.37          & ( patient_THFTYPE_IiioI @ JOIN @ ORG ) )
% 2.14/2.37       => ( ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ JOIN ) ) @ ( (~) @ ( member_THFTYPE_IiioI @ PERSON @ ORG ) ) )
% 2.14/2.37          & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ JOIN ) ) @ ( member_THFTYPE_IiioI @ PERSON @ ORG ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation List EnglishLanguage "Every &%List is a particular ordered n-tuple of items. Generally speaking, &%Lists are created by means of the &%ListFn &%Function, which takes any number of items as arguments and returns a &%List with the items in the same order. Anything, including other &%Lists, may be an item in a &%List. Note too that &%Lists are extensional - two lists that have the same items in the same order are identical. Note too that a &%List may contain no items. In that case, the &%List is the &%NullList.")
% 2.14/2.37  thf(ax446,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lFalling_THFTYPE_i @ lMotionDownward_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax447,axiom,
% 2.14/2.37      ! [NUMBER: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ NUMBER @ lNonnegativeRealNumber_THFTYPE_i )
% 2.14/2.37      <=> ( ( gtet_THFTYPE_IiioI @ NUMBER @ n0_THFTYPE_i )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ NUMBER @ lRealNumber_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax448,axiom,
% 2.14/2.37      ! [PERCEPT: $i,AGENT: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ PERCEPT @ lPerception_THFTYPE_i )
% 2.14/2.37          & ( agent_THFTYPE_IiioI @ PERCEPT @ AGENT ) )
% 2.14/2.37       => ( instance_THFTYPE_IiioI @ AGENT @ lAnimal_THFTYPE_i ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax449,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lPositiveInteger_THFTYPE_i @ lNonnegativeInteger_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax450,axiom,
% 2.14/2.37      ! [PROCESS: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ PROCESS @ lCreation_THFTYPE_i )
% 2.14/2.37      <=> ? [PATIENT: $i] :
% 2.14/2.37            ( ( patient_THFTYPE_IiioI @ PROCESS @ PATIENT )
% 2.14/2.37            & ( time_THFTYPE_IiioI @ PATIENT @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ PROCESS ) ) )
% 2.14/2.37            & ( (~) @ ( time_THFTYPE_IiioI @ PATIENT @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ PROCESS ) ) ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation IrreflexiveRelation EnglishLanguage "&%Relation ?REL is irreflexive iff (?REL ?INST ?INST) holds for no value of ?INST.")
% 2.14/2.37  thf(ax451,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lNaming_THFTYPE_i @ lDeclaring_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Day EnglishLanguage "The &%Class of all calendar &%Days.")
% 2.14/2.37  %KIF documentation:(documentation EthnicGroup EnglishLanguage "A &%GroupOfPeople whose &%members originate from the same &%GeographicArea or share the same &%Language and/ or cultural practices.")
% 2.14/2.37  thf(ax452,axiom,
% 2.14/2.37      ! [MONTH: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ MONTH @ lJune_THFTYPE_i )
% 2.14/2.37       => ( duration_THFTYPE_IiioI @ MONTH @ ( lMeasureFn_THFTYPE_IiiiI @ n30_THFTYPE_i @ lDayDuration_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation equivalentContentClass EnglishLanguage "A &%BinaryPredicate that relates two subclasses of &%ContentBearingObject. (&%equivalentContentClass ?CLASS1 ?CLASS2) means that the content expressed by each instance of ?CLASS1 is also expressed by each instance of ?CLASS2, and vice versa. An example would be the relationship between English and Russian editions of Agatha Christie's 'Murder on the Orient Express'. Note that (&%equivalentContentClass ?CLASS1 ?CLASS2) implies (&%subsumesContentClass ?CLASS1 ?CLASS2) and (&%subsumesContentClass ?CLASS2 ?CLASS1).")
% 2.14/2.37  thf(ax453,axiom,
% 2.14/2.37      partition_THFTYPE_IiiioI @ lAmbulating_THFTYPE_i @ lWalking_THFTYPE_i @ lRunning_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation externalImage EnglishLanguage "A link between an Entity and a URL that represents or exemplifies the term in some way.")
% 2.14/2.37  thf(ax454,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lNoun_THFTYPE_i @ lWord_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax455,axiom,
% 2.14/2.37      partition_THFTYPE_IiiioI @ lPhysical_THFTYPE_i @ lObject_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation PastFn EnglishLanguage "A &%UnaryFunction that maps a &%TimePosition to the &%TimeInterval that meets it and that begins at &%NegativeInfinity.")
% 2.14/2.37  thf(ax456,axiom,
% 2.14/2.37      ! [AGENT: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ AGENT @ lSentientAgent_THFTYPE_i )
% 2.14/2.37       => ( capability_THFTYPE_IiIiioIioI @ lPerception_THFTYPE_i @ experiencer_THFTYPE_IiioI @ AGENT ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax457,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lWeatherProcess_THFTYPE_i @ lMotion_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation RoundFn EnglishLanguage "(&%RoundFn ?NUMBER) is the &%Integer closest to ?NUMBER on the number line. If ?NUMBER is halfway between two &%Integers (for example 3.5), it denotes the larger &%Integer.")
% 2.14/2.37  thf(ax458,axiom,
% 2.14/2.37      disjoint_THFTYPE_IiioI @ lAutonomicProcess_THFTYPE_i @ lIntentionalProcess_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax459,axiom,
% 2.14/2.37      ! [NUMBER: $i,QUANT: $i,UNIT: $i] :
% 2.14/2.37        ( ( ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ UNIT )
% 2.14/2.37            = QUANT )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ UNIT @ lUnitOfInformation_THFTYPE_i ) )
% 2.14/2.37       => ( instance_THFTYPE_IiioI @ QUANT @ lInformationMeasure_THFTYPE_i ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation ComputerLanguage EnglishLanguage "The class of &%Languages designed for and interpreted by a computer.")
% 2.14/2.37  %KIF documentation:(documentation multiplicativeFactor EnglishLanguage "(multiplicativeFactor ?NUMBER1 ?NUMBER2) means that ?NUMBER1 is a factor of ?NUMBER2, i.e. ?NUMBER1 can be multiplied by some &%Integer to give ?NUMBER2 as a result.")
% 2.14/2.37  thf(ax460,axiom,
% 2.14/2.37      ! [COMMUNICATE: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ COMMUNICATE @ lCommunication_THFTYPE_i )
% 2.14/2.37       => ? [PHYS: $i,ENTITY: $i,AGENT1: $i,AGENT2: $i] :
% 2.14/2.37            ( ( refers_THFTYPE_IiioI @ PHYS @ ENTITY )
% 2.14/2.37            & ( patient_THFTYPE_IiioI @ COMMUNICATE @ PHYS )
% 2.14/2.37            & ( instance_THFTYPE_IiioI @ AGENT1 @ lCognitiveAgent_THFTYPE_i )
% 2.14/2.37            & ( agent_THFTYPE_IiioI @ COMMUNICATE @ AGENT1 )
% 2.14/2.37            & ( instance_THFTYPE_IiioI @ AGENT2 @ lCognitiveAgent_THFTYPE_i )
% 2.14/2.37            & ( destination_THFTYPE_IiioI @ COMMUNICATE @ AGENT2 ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax461,axiom,
% 2.14/2.37      ! [CLASS: $i,INTERVAL_TYPE: $i,INTERVAL: $i] :
% 2.14/2.37        ( ( ( lTemporalCompositionFn_THFTYPE_IiiiI @ INTERVAL @ INTERVAL_TYPE )
% 2.14/2.37          = CLASS )
% 2.14/2.37       => ? [TIME: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ TIME @ CLASS )
% 2.14/2.37            & ( finishes_THFTYPE_IiioI @ TIME @ INTERVAL ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax462,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lUnitOfFrequency_THFTYPE_i @ lCompositeUnitOfMeasure_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Solution EnglishLanguage "A liquid mixture. The most abundant component in a solution is called the solvent. Other components are called solutes. A solution, though homogeneous, may nonetheless have variable composition. Any amount of salt, up to a maximum limit, can be dissolved in a given amount of water.")
% 2.14/2.37  thf(ax463,axiom,
% 2.14/2.37      ! [PERSON: $i,EDUCATION: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ EDUCATION @ lEducationalProcess_THFTYPE_i )
% 2.14/2.37          & ( patient_THFTYPE_IiioI @ EDUCATION @ PERSON ) )
% 2.14/2.37       => ( hasPurpose_THFTYPE_IiooI @ EDUCATION
% 2.14/2.37          @ ? [LEARN: $i] :
% 2.14/2.37              ( ( instance_THFTYPE_IiioI @ LEARN @ lLearning_THFTYPE_i )
% 2.14/2.37              & ( patient_THFTYPE_IiioI @ LEARN @ PERSON ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax464,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lGetting_THFTYPE_i @ lChangeOfPossession_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax465,axiom,
% 2.14/2.37      ! [MEASURE2: $i,MEASURE1: $i,CLOUD: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ CLOUD @ lWaterCloud_THFTYPE_i )
% 2.14/2.37       => ! [PART: $i] :
% 2.14/2.37            ( ( ( part_THFTYPE_IiioI @ PART @ CLOUD )
% 2.14/2.37              & ( (~) @ ( instance_THFTYPE_IiioI @ PART @ lWater_THFTYPE_i ) ) )
% 2.14/2.37           => ? [WATER: $i] :
% 2.14/2.37                ( ( instance_THFTYPE_IiioI @ WATER @ lWater_THFTYPE_i )
% 2.14/2.37                & ( part_THFTYPE_IiioI @ WATER @ CLOUD )
% 2.14/2.37                & ( measure_THFTYPE_IiioI @ WATER @ MEASURE1 )
% 2.14/2.37                & ( measure_THFTYPE_IiioI @ PART @ MEASURE2 )
% 2.14/2.37                & ( gt_THFTYPE_IiioI @ MEASURE1 @ MEASURE2 ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Fabric EnglishLanguage "&%Artifacts that are created by weaving together natural or synthetic fibers or by treating the skins of certain sorts of &%Animals. Note that this &%Class includes articles that are created by stitching together various types of fabrics, e.g. bedspreads. On the other hand, &%Clothing is not a &%subclass of &%Fabric, because many clothing items contain elements that are not fabrics.")
% 2.14/2.37  thf(ax466,axiom,
% 2.14/2.37      ! [ROW: $i,ELEMENT: $i] :
% 2.14/2.37        ( ( disjointDecomposition_THFTYPE_IioI @ ROW )
% 2.14/2.37       => ( ( inList_THFTYPE_IiioI @ ELEMENT @ ( lListFn_THFTYPE_IiiI @ ROW ) )
% 2.14/2.37         => ( instance_THFTYPE_IiioI @ ELEMENT @ lClass_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax467,axiom,
% 2.14/2.37      ! [FUN: $i,CLASS: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ FUN @ lOneToOneFunction_THFTYPE_i )
% 2.14/2.37       => ! [ARG1: $i,ARG2: $i] :
% 2.14/2.37            ( ( ( domain_THFTYPE_IiiioI @ FUN @ n1_THFTYPE_i @ CLASS )
% 2.14/2.37              & ( instance_THFTYPE_IiioI @ ARG1 @ CLASS )
% 2.14/2.37              & ( instance_THFTYPE_IiioI @ ARG2 @ CLASS )
% 2.14/2.37              & ( (~) @ ( ARG1 = ARG2 ) ) )
% 2.14/2.37           => ( (~)
% 2.14/2.37              @ ( ( lAssignmentFn_THFTYPE_IiiiI @ FUN @ ARG1 )
% 2.14/2.37                = ( lAssignmentFn_THFTYPE_IiiiI @ FUN @ ARG2 ) ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Music EnglishLanguage "The &%subclass of &%RadiatingSound where the sound is intended to be melodic and is produced deliberately.")
% 2.14/2.37  thf(ax468,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lPoliticalProcess_THFTYPE_i @ lOrganizationalProcess_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation AbsoluteValueFn EnglishLanguage "The value of (&%AbsoluteValueFn ?NUMBER) is the absolute value of the &%RealNumber ?NUMBER.")
% 2.14/2.37  %KIF documentation:(documentation OrganicObject EnglishLanguage "This class encompasses &%Organisms, &%CorpuscularObjects that are parts of &%Organisms, i.e. &%BodyParts, and &%CorpuscularObjects that are nonintentionally produced by &%Organisms, e.g. &%ReproductiveBodies.")
% 2.14/2.37  thf(ax469,axiom,
% 2.14/2.37      disjoint_THFTYPE_IiioI @ lObjectAttitude_THFTYPE_i @ lPropositionalAttitude_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation element EnglishLanguage "(element ?ENTITY ?SET) is true just in case ?ENTITY is contained in the &%Set ?SET. An &%Entity can be an &%element of another &%Entity only if the latter is a &%Set.")
% 2.14/2.37  thf(ax470,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lSpore_THFTYPE_i @ lPlantAnatomicalStructure_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax471,axiom,
% 2.14/2.37      ! [AGENT: $i,PROC: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ PROC @ lDiagnosticProcess_THFTYPE_i )
% 2.14/2.37          & ( agent_THFTYPE_IiioI @ PROC @ AGENT ) )
% 2.14/2.37       => ? [CAUSE: $i] : ( hasPurposeForAgent_THFTYPE_IioioI @ PROC @ ( knows_THFTYPE_IiooI @ AGENT @ ( causes_THFTYPE_IiioI @ CAUSE @ PROC ) ) @ AGENT ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax472,axiom,
% 2.14/2.37      ! [OBJ: $i,MELT: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ MELT @ lMelting_THFTYPE_i )
% 2.14/2.37          & ( patient_THFTYPE_IiioI @ MELT @ OBJ ) )
% 2.14/2.37       => ? [PART: $i] :
% 2.14/2.37            ( ( part_THFTYPE_IiioI @ PART @ OBJ )
% 2.14/2.37            & ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ MELT ) ) @ ( attribute_THFTYPE_IiioI @ PART @ lSolid_THFTYPE_i ) )
% 2.14/2.37            & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ MELT ) ) @ ( attribute_THFTYPE_IiioI @ PART @ lLiquid_THFTYPE_i ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax473,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lReligiousProcess_THFTYPE_i @ lOrganizationalProcess_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation HumanLanguage EnglishLanguage "The &%subclass of &%Languages used by &%Humans.")
% 2.14/2.37  %KIF documentation:(documentation ContentBearingObject EnglishLanguage "Any &%SelfConnectedObject that expresses content. This content may be a &%Proposition, e.g. when the &%ContentBearingObject is a &%Sentence or &%Text, or it may be a representation of an abstract or physical object, as with an &%Icon, a &%Word or a &%Phrase.")
% 2.14/2.37  thf(ax474,axiom,
% 2.14/2.37      ! [OBJ: $i,TIME: $i,DURATION: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ TIME @ lTimePoint_THFTYPE_i )
% 2.14/2.37          & ( holdsDuring_THFTYPE_IiooI @ TIME @ ( age_THFTYPE_IiioI @ OBJ @ DURATION ) ) )
% 2.14/2.37       => ( duration_THFTYPE_IiioI @ ( lTimeIntervalFn_THFTYPE_IiiiI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ OBJ ) ) @ TIME ) @ DURATION ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax475,axiom,
% 2.14/2.37      ! [CHILD: $i,PARENT: $i] :
% 2.14/2.37        ( ( ( parent_THFTYPE_IiioI @ CHILD @ PARENT )
% 2.14/2.37          & ( attribute_THFTYPE_IiioI @ PARENT @ lMale_THFTYPE_i ) )
% 2.14/2.37       => ( father_THFTYPE_IiioI @ CHILD @ PARENT ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax476,axiom,
% 2.14/2.37      ! [PROP: $i,FORMULA1: $o,FORMULA2: $o] :
% 2.14/2.37        ( ( ( modalAttribute_THFTYPE_IoioI @ FORMULA1 @ PROP )
% 2.14/2.37          & ( entails_THFTYPE_IoooI @ FORMULA1 @ FORMULA2 ) )
% 2.14/2.37       => ( modalAttribute_THFTYPE_IoioI @ FORMULA2 @ PROP ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax477,axiom,
% 2.14/2.37      ! [OBJECT: $i,AGENT: $i] :
% 2.14/2.37        ( ? [PROCESS: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ PROCESS @ lIntentionalProcess_THFTYPE_i )
% 2.14/2.37            & ( agent_THFTYPE_IiioI @ PROCESS @ AGENT )
% 2.14/2.37            & ( patient_THFTYPE_IiioI @ PROCESS @ OBJECT ) )
% 2.14/2.37      <=> ( inScopeOfInterest_THFTYPE_IiioI @ AGENT @ OBJECT ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation LeapYear EnglishLanguage "The &%Class of all leap years. These are years which are either (i.) evenly divisible by 4 and not by 100 or (ii.) evenly divisible by 400 (this latter case is known as a leap century).")
% 2.14/2.37  thf(ax478,axiom,
% 2.14/2.37      ! [INSERT: $i,OBJ1: $i,OBJ2: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ INSERT @ lInserting_THFTYPE_i )
% 2.14/2.37          & ( patient_THFTYPE_IiioI @ INSERT @ OBJ1 )
% 2.14/2.37          & ( destination_THFTYPE_IiioI @ INSERT @ OBJ2 ) )
% 2.14/2.37       => ( ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ INSERT ) ) @ ( (~) @ ( contains_THFTYPE_IiioI @ OBJ2 @ OBJ1 ) ) )
% 2.14/2.37          & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ INSERT ) ) @ ( contains_THFTYPE_IiioI @ OBJ2 @ OBJ1 ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax479,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lMutuallyDisjointClass_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation GraphCircuit EnglishLanguage "A &%GraphPath that begins (see &%BeginNodeFn) and ends (see &%EndNodeFn) at the same &%GraphNode.")
% 2.14/2.37  %KIF documentation:(documentation ServiceContract EnglishLanguage "A &%Contract where an &%Agent agrees to perform a service for another &%Agent (usually for a price).")
% 2.14/2.37  thf(ax480,axiom,
% 2.14/2.37      ! [MACHINE: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ MACHINE @ lMachine_THFTYPE_i )
% 2.14/2.37       => ! [PROC: $i] :
% 2.14/2.37            ( ( instrument_THFTYPE_IiioI @ PROC @ MACHINE )
% 2.14/2.37           => ? [RESOURCE: $i,RESULT: $i] :
% 2.14/2.37                ( ( resource_THFTYPE_IiioI @ PROC @ RESOURCE )
% 2.14/2.37                & ( result_THFTYPE_IiioI @ PROC @ RESULT ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax481,axiom,
% 2.14/2.37      ! [TEXT: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ TEXT @ lSummary_THFTYPE_i )
% 2.14/2.37       => ? [TEXT2: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ TEXT2 @ lText_THFTYPE_i )
% 2.14/2.37            & ( subsumesContentInstance_THFTYPE_IiioI @ TEXT2 @ TEXT ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax482,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lCity_THFTYPE_i @ lGeopoliticalArea_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation knows EnglishLanguage "The epistemic predicate of knowing. (&%knows ?AGENT ?FORMULA) means that ?AGENT knows the proposition expressed by ?FORMULA. Note that &%knows entails conscious awareness, so this &%Predicate cannot be used to express tacit or subconscious or unconscious knowledge.")
% 2.14/2.37  thf(ax483,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lSpokenHumanLanguage_THFTYPE_i @ lHumanLanguage_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax484,axiom,
% 2.14/2.37      ! [MIX: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ MIX @ lLiquidMixture_THFTYPE_i )
% 2.14/2.37       => ? [PART: $i] :
% 2.14/2.37            ( ( part_THFTYPE_IiioI @ PART @ MIX )
% 2.14/2.37            & ( attribute_THFTYPE_IiioI @ PART @ lLiquid_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax485,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lEmotionalState_THFTYPE_i @ lStateOfMind_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax486,axiom,
% 2.14/2.37      ! [MONTH: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ MONTH @ lMarch_THFTYPE_i )
% 2.14/2.37       => ( duration_THFTYPE_IiioI @ MONTH @ ( lMeasureFn_THFTYPE_IiiiI @ n31_THFTYPE_i @ lDayDuration_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax487,axiom,
% 2.14/2.37      partition_THFTYPE_IiiiioI @ lNumber_THFTYPE_i @ lRealNumber_THFTYPE_i @ lImaginaryNumber_THFTYPE_i @ lComplexNumber_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation SocialRole EnglishLanguage "The &%Class of all &%Attributes that specify the position or status of a &%CognitiveAgent within an &%Organization or other &%Group.")
% 2.14/2.37  thf(ax488,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lSeparating_THFTYPE_i @ lDualObjectProcess_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax489,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lMonkey_THFTYPE_i @ lPrimate_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax490,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lMilitaryProcess_THFTYPE_i @ lPoliticalProcess_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax491,axiom,
% 2.14/2.37      ! [P: $i,O2: $i,O1: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ P @ lAntiSymmetricPositionalAttribute_THFTYPE_i )
% 2.14/2.37          & ( orientation_THFTYPE_IiiioI @ O1 @ O2 @ P ) )
% 2.14/2.37       => ( (~) @ ( orientation_THFTYPE_IiiioI @ O2 @ O1 @ P ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax492,axiom,
% 2.14/2.37      ! [FUNCTION: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ FUNCTION @ lBinaryFunction_THFTYPE_i )
% 2.14/2.37       => ( valence_THFTYPE_IiioI @ FUNCTION @ n2_THFTYPE_i ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax493,axiom,
% 2.14/2.37      ! [LANGUAGE: $i,ENTITY: $i,REP: $i] :
% 2.14/2.37        ( ( representsInLanguage_THFTYPE_IiiioI @ REP @ ENTITY @ LANGUAGE )
% 2.14/2.37       => ? [AGENT: $i] : ( representsForAgent_THFTYPE_IiiioI @ REP @ ENTITY @ AGENT ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation TraitAttribute EnglishLanguage "&%Attributes that indicate the the behavior/ personality traits of an &%Organism.")
% 2.14/2.37  %KIF documentation:(documentation MassMeasure EnglishLanguage "A &%subclass of &%ConstantQuantity, instances of which are measures of the amount of matter in an &%Object.")
% 2.14/2.37  thf(ax494,axiom,
% 2.14/2.37      ! [P2: $i,P1: $i] :
% 2.14/2.37        ( ( causes_THFTYPE_IiioI @ P1 @ P2 )
% 2.14/2.37       => ( earlier_THFTYPE_IiioI @ ( lWhenFn_THFTYPE_IiiI @ P1 ) @ ( lWhenFn_THFTYPE_IiiI @ P2 ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax495,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lConsciousnessAttribute_THFTYPE_i @ lStateOfMind_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Newton EnglishLanguage "SI force measure. Symbol: N. It is that force which gives to a mass of 1 kilogram an acceleration of 1 &%Meter per &%SecondDuration. &%Newton = m*kg*s^(-2).")
% 2.14/2.37  %KIF documentation:(documentation ShapeChange EnglishLanguage "The &%Process of changing the shape of an &%Object.")
% 2.14/2.37  %KIF documentation:(documentation meetsTemporally EnglishLanguage "(&%meetsTemporally ?INTERVAL1 ?INTERVAL2) means that the terminal point of the &%TimeInterval ?INTERVAL1 is the initial point of the &%TimeInterval ?INTERVAL2.")
% 2.14/2.37  thf(ax496,axiom,
% 2.14/2.37      ! [INTERVAL1: $i,INTERVAL2: $i] :
% 2.14/2.37        ( ( starts_THFTYPE_IiioI @ INTERVAL1 @ INTERVAL2 )
% 2.14/2.37      <=> ( ( ( lBeginFn_THFTYPE_IiiI @ INTERVAL1 )
% 2.14/2.37            = ( lBeginFn_THFTYPE_IiiI @ INTERVAL2 ) )
% 2.14/2.37          & ( before_THFTYPE_IiioI @ ( lEndFn_THFTYPE_IiiI @ INTERVAL1 ) @ ( lEndFn_THFTYPE_IiiI @ INTERVAL2 ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Farad EnglishLanguage "SI capacitance measure. Symbol: F. It is the capacitance of a capacitator between the plates of which there appears a difference of potential of 1 &%Volt when it is charged by a quantity of electricity equal to 1 Coulomb. &%Farad = C/ V = m^(-2)*kg(-1)*s^4*A^2.")
% 2.14/2.37  thf(ax497,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lNaturalLanguage_THFTYPE_i @ lHumanLanguage_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax498,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lDeonticAttribute_THFTYPE_i @ lObjectiveNorm_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation AstronomicalBody EnglishLanguage "The &%Class of all astronomical objects of significant size. It includes &%SelfConnectedObjects like planets, stars, and asteroids, as well as &%Collections like nebulae, galaxies, and constellations. Note that the planet Earth is an &%AstronomicalBody, but every &%Region of Earth is a &%GeographicArea.")
% 2.14/2.37  %KIF documentation:(documentation HoleHostFn EnglishLanguage "A &%UnaryFunction that maps a &%Hole to the &%Object which is its principal host. The principle host of a &%Hole is its maximally connected host (a notion taken here to be defined only when the argument is a hole).")
% 2.14/2.37  %KIF documentation:(documentation MereologicalProductFn EnglishLanguage "(&%MereologicalProductFn ?OBJ1 ?OBJ2) denotes the &%Object consisting of the parts which belong to both ?OBJ1 and ?OBJ2.")
% 2.14/2.37  %KIF documentation:(documentation BritishThermalUnit EnglishLanguage "An energy measure.")
% 2.14/2.37  thf(ax499,axiom,
% 2.14/2.37      ! [OBJ: $i,DECREASE: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ DECREASE @ lDecreasing_THFTYPE_i )
% 2.14/2.37          & ( patient_THFTYPE_IiioI @ DECREASE @ OBJ ) )
% 2.14/2.37       => ? [UNIT: $i,QUANT1: $i,QUANT2: $i] :
% 2.14/2.37            ( ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ DECREASE ) )
% 2.14/2.37              @ ( ( lMeasureFn_THFTYPE_IiiiI @ OBJ @ UNIT )
% 2.14/2.37                = QUANT1 ) )
% 2.14/2.37            & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ DECREASE ) )
% 2.14/2.37              @ ( ( lMeasureFn_THFTYPE_IiiiI @ OBJ @ UNIT )
% 2.14/2.37                = QUANT2 ) )
% 2.14/2.37            & ( lt_THFTYPE_IiioI @ QUANT2 @ QUANT1 ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax500,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lBattle_THFTYPE_i @ lViolentContest_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Lending EnglishLanguage "The &%subclass of &%Giving &%Processes where the &%agent gives the &%destination something for a limited period of time with the expectation that it will be returned later (perhaps with interest).")
% 2.14/2.37  %KIF documentation:(documentation November EnglishLanguage "The &%Class of all &%Months which are November.")
% 2.14/2.37  thf(ax501,axiom,
% 2.14/2.37      ! [NUMBER2: $i,FORMULA1: $o,NUMBER1: $i,FORMULA2: $o] :
% 2.14/2.37        ( ( ( independentProbability_THFTYPE_IoooI @ FORMULA1 @ FORMULA2 )
% 2.14/2.37          & ( ( lProbabilityFn_THFTYPE_IoiI @ FORMULA2 )
% 2.14/2.37            = NUMBER1 )
% 2.14/2.37          & ( conditionalProbability_THFTYPE_IooioI @ FORMULA1 @ FORMULA2 @ NUMBER2 ) )
% 2.14/2.37       => ( NUMBER2 = NUMBER1 ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Smoke EnglishLanguage "A mixture of fine particles suspended in a gas that is produced by &%Combustion.")
% 2.14/2.37  thf(ax502,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lAttribute_THFTYPE_i @ lAbstract_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax503,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lCounting_THFTYPE_i @ lCalculating_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation ElementalSubstance EnglishLanguage "The &%Class of &%PureSubstances that cannot be separated into two or more &%Substances by ordinary chemical (or physical) means. This excludes nuclear reactions. &%ElementalSubstances are composed of only one kind of atom. Examples: Iron (Fe), copper (Cu), and oxygen (O_2). &%ElementalSubstances are the simplest &%PureSubstances.")
% 2.14/2.37  %KIF documentation:(documentation SingleFamilyResidence EnglishLanguage "A &%PermanentResidence which is intended to be the &%home of a single &%SocialUnit. This class covers &%Houses, &%ApartmentUnits, and &%CondominiumUnits.")
% 2.14/2.37  %KIF documentation:(documentation BeginNodeFn EnglishLanguage "A &%UnaryFunction that maps a &%GraphPath to the &%GraphNode that is the beginning of the &%GraphPath. Note that, unlike &%InitialNodeFn (which relates a &%GraphArc to a &%GraphNode), &%BeginNodeFn is a total function - every &%GraphPath has a beginning.")
% 2.14/2.37  thf(ax504,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lTernaryPredicate_THFTYPE_i @ lTernaryRelation_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax505,axiom,
% 2.14/2.37      ! [REL: $i > $i > $o,NUMBER2: $i,NUMBER1: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IIiioIioI @ REL @ lRelationExtendedToQuantities_THFTYPE_i )
% 2.14/2.37          & ( instance_THFTYPE_IIiioIioI @ REL @ lBinaryRelation_THFTYPE_i )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ NUMBER1 @ lRealNumber_THFTYPE_i )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ NUMBER2 @ lRealNumber_THFTYPE_i )
% 2.14/2.37          & ( REL @ NUMBER1 @ NUMBER2 ) )
% 2.14/2.37       => ! [UNIT: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ UNIT @ lUnitOfMeasure_THFTYPE_i )
% 2.14/2.37           => ( REL @ ( lMeasureFn_THFTYPE_IiiiI @ NUMBER1 @ UNIT ) @ ( lMeasureFn_THFTYPE_IiiiI @ NUMBER2 @ UNIT ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax506,axiom,
% 2.14/2.37      ! [OBJ: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ OBJ @ lObject_THFTYPE_i )
% 2.14/2.37       => ( ( attribute_THFTYPE_IiioI @ OBJ @ lMonochromatic_THFTYPE_i )
% 2.14/2.37          | ( attribute_THFTYPE_IiioI @ OBJ @ lPolychromatic_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax507,axiom,
% 2.14/2.37      range_THFTYPE_IiioI @ lPathWeightFn_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax508,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lGraph_THFTYPE_i @ lAbstract_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax509,axiom,
% 2.14/2.37      ! [PHRASE: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ PHRASE @ lPrepositionalPhrase_THFTYPE_i )
% 2.14/2.37       => ? [PREP: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ PREP @ lParticleWord_THFTYPE_i )
% 2.14/2.37            & ( part_THFTYPE_IiioI @ PREP @ PHRASE ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax510,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lUnitOfCurrency_THFTYPE_i @ lNonCompositeUnitOfMeasure_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation IntersectionFn EnglishLanguage "A &%BinaryFunction that maps two &%SetOrClasses to the intersection of these &%SetOrClasses. An object is an instance of the intersection of two &%SetOrClasses just in case it is an instance of both of those &%SetOrClasses.")
% 2.14/2.37  %KIF documentation:(documentation Bird EnglishLanguage "A &%Vertebrate having a constant body temperature and characterized by the presence of feathers.")
% 2.14/2.37  thf(ax511,axiom,
% 2.14/2.37      ! [NUMBER: $i] :
% 2.14/2.37        ( ( NUMBER
% 2.14/2.37          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.37       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lElectronVolt_THFTYPE_i )
% 2.14/2.37          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n1dot60217733Eminus19_THFTYPE_i ) @ lJoule_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax512,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lCognitiveAgent_THFTYPE_i @ lSentientAgent_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation SubjectiveAssessmentAttribute EnglishLanguage "The &%Class of &%NormativeAttributes which lack an objective criterion for their attribution, i.e. the attribution of these &%Attributes varies from subject to subject and even with respect to the same subject over time. This &%Class is, generally speaking, only used when mapping external knowledge sources to the SUMO. If a term from such a knowledge source seems to lack objective criteria for its attribution, it is assigned to this &%Class.")
% 2.14/2.37  thf(ax513,axiom,
% 2.14/2.37      range_THFTYPE_IiioI @ lPerFn_THFTYPE_i @ lFunctionQuantity_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Rodent EnglishLanguage "The &%Class of &%Mammals with one or two pairs of incisors for gnawing. Includes rats, mice, guinea pigs, and rabbits.")
% 2.14/2.37  thf(ax514,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lDamaging_THFTYPE_i @ lInternalChange_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation December EnglishLanguage "The &%Class of all &%Months which are December.")
% 2.14/2.37  thf(ax515,axiom,
% 2.14/2.37      ! [STUFF: $i,PROC: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ PROC @ lChemicalProcess_THFTYPE_i )
% 2.14/2.37          & ( ( resource_THFTYPE_IiioI @ PROC @ STUFF )
% 2.14/2.37            | ( result_THFTYPE_IiioI @ PROC @ STUFF ) ) )
% 2.14/2.37       => ( instance_THFTYPE_IiioI @ STUFF @ lPureSubstance_THFTYPE_i ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax516,axiom,
% 2.14/2.37      ! [PROP2: $o,PROP1: $o] :
% 2.14/2.37        ( ( subProposition_THFTYPE_IoooI @ PROP1 @ PROP2 )
% 2.14/2.37       => ! [OBJ1: $i,OBJ2: $i] :
% 2.14/2.37            ( ( ( containsInformation_THFTYPE_IiooI @ OBJ1 @ PROP1 )
% 2.14/2.37              & ( containsInformation_THFTYPE_IiooI @ OBJ2 @ PROP2 ) )
% 2.14/2.37           => ( subsumesContentInstance_THFTYPE_IiioI @ OBJ2 @ OBJ1 ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Maneuver EnglishLanguage "An intentional move or play within a &%Contest. In many cases, a &%Maneuver is a realization of part of a strategy for winning the &%Contest, but it also may be just an arbitrary or semi-arbitrary division of the overarching &%Contest, e.g. innings in a baseball game.")
% 2.14/2.37  thf(ax517,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lTotalOrderingRelation_THFTYPE_i @ lPartialOrderingRelation_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax518,axiom,
% 2.14/2.37      ! [OBJ1: $i,OBJ2: $i] :
% 2.14/2.37        ( ( orientation_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ lNorth_THFTYPE_i )
% 2.14/2.37      <=> ( orientation_THFTYPE_IiiioI @ OBJ2 @ OBJ1 @ lSouth_THFTYPE_i ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax519,axiom,
% 2.14/2.37      ! [HOLE2: $i,HOLE1: $i,OBJ1: $i,OBJ2: $i] :
% 2.14/2.37        ( ( ( hole_THFTYPE_IiioI @ HOLE1 @ OBJ1 )
% 2.14/2.37          & ( hole_THFTYPE_IiioI @ HOLE2 @ OBJ2 )
% 2.14/2.37          & ( overlapsSpatially_THFTYPE_IiioI @ HOLE1 @ HOLE2 ) )
% 2.14/2.37       => ( overlapsSpatially_THFTYPE_IiioI @ OBJ1 @ OBJ2 ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax520,axiom,
% 2.14/2.37      ! [FUNCTION: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ FUNCTION @ lUnaryFunction_THFTYPE_i )
% 2.14/2.37       => ( valence_THFTYPE_IiioI @ FUNCTION @ n1_THFTYPE_i ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation BodyVessel EnglishLanguage "Any tube-like structure which occurs naturally in an &%Organism and through which a &%BodySubstance can circulate.")
% 2.14/2.37  thf(ax521,axiom,
% 2.14/2.37      ! [OBJ1: $i,OBJ2: $i] :
% 2.14/2.37        ( ( larger_THFTYPE_IiioI @ OBJ1 @ OBJ2 )
% 2.14/2.37      <=> ! [QUANT1: $i,QUANT2: $i,UNIT: $i] :
% 2.14/2.37            ( ( ( measure_THFTYPE_IiioI @ OBJ1 @ ( lMeasureFn_THFTYPE_IiiiI @ QUANT1 @ UNIT ) )
% 2.14/2.37              & ( measure_THFTYPE_IiioI @ OBJ2 @ ( lMeasureFn_THFTYPE_IiiiI @ QUANT2 @ UNIT ) )
% 2.14/2.37              & ( instance_THFTYPE_IiioI @ UNIT @ lUnitOfLength_THFTYPE_i ) )
% 2.14/2.37           => ( gt_THFTYPE_IiioI @ QUANT1 @ QUANT2 ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax522,axiom,
% 2.14/2.37      contraryAttribute_THFTYPE_IiiiioI @ lNorth_THFTYPE_i @ lSouth_THFTYPE_i @ lEast_THFTYPE_i @ lWest_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax523,axiom,
% 2.14/2.37      ! [DECLARE: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ DECLARE @ lDeclaring_THFTYPE_i )
% 2.14/2.37       => ? [PROP: $o,NORM: $i] :
% 2.14/2.37            ( ( confersNorm_THFTYPE_IioioI @ DECLARE @ PROP @ NORM )
% 2.14/2.37            | ( deprivesNorm_THFTYPE_IioioI @ DECLARE @ PROP @ NORM ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax524,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lOrganicObject_THFTYPE_i @ lCorpuscularObject_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax525,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lMorpheme_THFTYPE_i @ lLinguisticExpression_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax526,axiom,
% 2.14/2.37      ! [G: $i,M: $i] :
% 2.14/2.37        ( ( graphMeasure_THFTYPE_IiioI @ G @ M )
% 2.14/2.37       => ! [AC: $i] :
% 2.14/2.37            ( ( graphPart_THFTYPE_IiioI @ AC @ G )
% 2.14/2.37            & ? [PC: $i] : ( abstractCounterpart_THFTYPE_IiioI @ AC @ PC ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax527,axiom,
% 2.14/2.37      ! [OBJ1: $i,OBJ2: $i] :
% 2.14/2.37        ( ( located_THFTYPE_IiioI @ OBJ1 @ OBJ2 )
% 2.14/2.37       => ! [SUB: $i] :
% 2.14/2.37            ( ( part_THFTYPE_IiioI @ SUB @ OBJ1 )
% 2.14/2.37           => ( located_THFTYPE_IiioI @ SUB @ OBJ2 ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Battle EnglishLanguage "A &%ViolentContest between two or more military units within the context of a war. Note that this does not cover the metaphorical sense of 'battle', which simply means a struggle of some sort. This sense should be represented with the more general concept of &%Contest.")
% 2.14/2.37  %KIF documentation:(documentation MultiplicationFn EnglishLanguage "If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%MultiplicationFn ?NUMBER1 ?NUMBER2) is the arithmetical product of these numbers.")
% 2.14/2.37  thf(ax528,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lSaturationAttribute_THFTYPE_i @ lInternalAttribute_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation October EnglishLanguage "The &%Class of all &%Months which are October.")
% 2.14/2.37  %KIF documentation:(documentation Lumen EnglishLanguage "SI luminous flux measure. Symbol: lm. It is the amount streaming outward through one solid angle of 1 &%Steradian from a uniform point source having an intensity of one &%Candela. &%Lumen = cd*sr = cd * 1.")
% 2.14/2.37  thf(ax529,axiom,
% 2.14/2.37      ! [ATTR2: $i,OBJ1: $i,ROW: $i,OBJ2: $i,ATTR1: $i] :
% 2.14/2.37        ( ( ( orientation_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ ATTR1 )
% 2.14/2.37          & ( contraryAttribute_THFTYPE_IioI @ ROW )
% 2.14/2.37          & ( inList_THFTYPE_IiioI @ ATTR1 @ ( lListFn_THFTYPE_IiiI @ ROW ) )
% 2.14/2.37          & ( inList_THFTYPE_IiioI @ ATTR2 @ ( lListFn_THFTYPE_IiiI @ ROW ) )
% 2.14/2.37          & ( (~) @ ( ATTR1 = ATTR2 ) ) )
% 2.14/2.37       => ( (~) @ ( orientation_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ ATTR2 ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax530,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lJoiningAnOrganization_THFTYPE_i @ lOrganizationalProcess_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation GigaFn EnglishLanguage "A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to 1,000,000,000 units of the original &%UnitOfMeasure. For example, (&%GigaFn &%Hertz) is 1,000,000,000 &%Hertz.")
% 2.14/2.37  %KIF documentation:(documentation StateChange EnglishLanguage "Any &%Process where the &%PhysicalState of &%part of the &%patient of the &%Process changes.")
% 2.14/2.37  thf(ax531,axiom,
% 2.14/2.37      ! [FROM: $i,QUANTITY: $i,TO: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ QUANTITY @ ( lIntervalFn_THFTYPE_IiiiI @ FROM @ TO ) )
% 2.14/2.37      <=> ( ( gtet_THFTYPE_IiioI @ QUANTITY @ FROM )
% 2.14/2.37          & ( ltet_THFTYPE_IiioI @ QUANTITY @ TO ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation ComputerProgram EnglishLanguage "A set of instructions in a computer programming language that can be executed by a computer.")
% 2.14/2.37  thf(ax532,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lTernaryRelation_THFTYPE_i @ lRelation_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Man EnglishLanguage "The class of &%Male &%Humans.")
% 2.14/2.37  thf(ax533,axiom,
% 2.14/2.37      ! [VALUE: $i,CLASS: $i,FUNCTION: $i,ROW: $i] :
% 2.14/2.37        ( ( ( range_THFTYPE_IiioI @ FUNCTION @ CLASS )
% 2.14/2.37          & ( ( lAssignmentFn_THFTYPE_IiiiI @ FUNCTION @ ROW )
% 2.14/2.37            = VALUE ) )
% 2.14/2.37       => ( instance_THFTYPE_IiioI @ VALUE @ CLASS ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Reasoning EnglishLanguage "The &%Class of &%IntentionalPsychologicalProcesses which involve concluding, on the basis of either deductive or inductive evidence, that a particular &%Proposition or &%Sentence is true.")
% 2.14/2.37  %KIF documentation:(documentation HoleSkinFn EnglishLanguage "A &%UnaryFunction that maps a &%Hole to the skin of the &%Hole. The skin of a &%Hole is the fusion of those superficial parts (see &%superficialPart) of the &%Hole's principal host (see &%HoleHostFn) with which the &%Hole is externally connected.")
% 2.14/2.37  %KIF documentation:(documentation June EnglishLanguage "The &%Class of all &%Months which are June.")
% 2.14/2.37  thf(ax534,axiom,
% 2.14/2.37      partition_THFTYPE_IiiioI @ lPhysicalQuantity_THFTYPE_i @ lConstantQuantity_THFTYPE_i @ lFunctionQuantity_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax535,axiom,
% 2.14/2.37      partition_THFTYPE_IiiioI @ lRelation_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i @ lPartialValuedRelation_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax536,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lContest_THFTYPE_i @ lSocialInteraction_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax537,axiom,
% 2.14/2.37      ! [OBJ1: $i,OBJ2: $i] :
% 2.14/2.37        ( ( surface_THFTYPE_IiioI @ OBJ1 @ OBJ2 )
% 2.14/2.37       => ! [OBJ3: $i] :
% 2.14/2.37            ( ( superficialPart_THFTYPE_IiioI @ OBJ3 @ OBJ2 )
% 2.14/2.37           => ( part_THFTYPE_IiioI @ OBJ3 @ OBJ1 ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax538,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lClassifying_THFTYPE_i @ lIntentionalPsychologicalProcess_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation ValidDeductiveArgument EnglishLanguage "A &%DeductiveArgument which is valid, i.e. the set of &%premises in fact &%entails the &%conclusion.")
% 2.14/2.37  %KIF documentation:(documentation Vertebrate EnglishLanguage "An &%Animal which has a spinal column.")
% 2.14/2.37  thf(ax539,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lReplication_THFTYPE_i @ lOrganismProcess_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax540,axiom,
% 2.14/2.37      ! [THING: $i,POS: $i] :
% 2.14/2.37        ( ( temporalPart_THFTYPE_IiioI @ POS @ ( lWhenFn_THFTYPE_IiiI @ THING ) )
% 2.14/2.37      <=> ( time_THFTYPE_IiioI @ THING @ POS ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation City EnglishLanguage "A &%LandArea of relatively small size, inhabited by a community of people, and having some sort of political structure. Note that this class includes both large cities and small settlements like towns, villages, hamlets, etc.")
% 2.14/2.37  thf(ax541,axiom,
% 2.14/2.37      contraryAttribute_THFTYPE_IiioI @ lRigid_THFTYPE_i @ lPliable_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax542,axiom,
% 2.14/2.37      ! [NUMBER: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ NUMBER @ lQuantity_THFTYPE_i )
% 2.14/2.37       => ( n1_THFTYPE_i
% 2.14/2.37          = ( times_THFTYPE_IiiiI @ NUMBER @ ( lReciprocalFn_THFTYPE_IiiI @ NUMBER ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax543,axiom,
% 2.14/2.37      ! [CONFINE: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ CONFINE @ lConfining_THFTYPE_i )
% 2.14/2.37       => ? [AGENT: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ AGENT @ lAnimal_THFTYPE_i )
% 2.14/2.37            & ( patient_THFTYPE_IiioI @ CONFINE @ AGENT ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation employs EnglishLanguage "(&%employs ?ORG ?PERSON) means that ?ORG has hired ?PERSON and currently retains ?PERSON, on a salaried, hourly or contractual basis, to provide services in exchange for monetary compensation.")
% 2.14/2.37  thf(ax544,axiom,
% 2.14/2.37      range_THFTYPE_IiioI @ lReciprocalFn_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax545,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lGraphNode_THFTYPE_i @ lGraphElement_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax546,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lCovering_THFTYPE_i @ lPutting_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax547,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lSmelling_THFTYPE_i @ lPerception_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax548,axiom,
% 2.14/2.37      ! [LAND1: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ LAND1 @ lLandArea_THFTYPE_i )
% 2.14/2.37       => ? [LAND2: $i] :
% 2.14/2.37            ( ( part_THFTYPE_IiioI @ LAND1 @ LAND2 )
% 2.14/2.37            & ( ( instance_THFTYPE_IiioI @ LAND2 @ lContinent_THFTYPE_i )
% 2.14/2.37              | ( instance_THFTYPE_IiioI @ LAND2 @ lIsland_THFTYPE_i ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation partialOrderingOn EnglishLanguage "A &%BinaryPredicate is a partial ordering on a &%SetOrClass only if the relation is &%reflexiveOn the &%SetOrClass, and it is both an &%AntisymmetricRelation, and a &%TransitiveRelation.")
% 2.14/2.37  %KIF documentation:(documentation Poisoning EnglishLanguage "A &%Poisoning is caused by an external substance. Since &%Poisoning is not possible without some biologic function which affects the &%Organism being injured, it is a subclass of &%BiologicalProcess.")
% 2.14/2.37  %KIF documentation:(documentation subsumingExternalConcept EnglishLanguage "(&%subsumingExternalConcept ?STRING ?THING ?LANGUAGE) means that the SUMO concept ?THING subsumes the meaning of ?STRING in ?LANGUAGE, i.e. the concept ?THING is broader in meaning than ?STRING.")
% 2.14/2.37  %KIF documentation:(documentation IntentionalRelation EnglishLanguage "The &%Class of &%Relations between an &%Agent and one or more &%Entities, where the &%Relation requires that the &%Agent have awareness of the &%Entity.")
% 2.14/2.37  %KIF documentation:(documentation Slug EnglishLanguage "English mass unit of slugs.")
% 2.14/2.37  thf(ax549,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lInjecting_THFTYPE_i @ lInserting_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax550,axiom,
% 2.14/2.37      ! [EXPRESS: $i,AGENT: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ EXPRESS @ lExpressing_THFTYPE_i )
% 2.14/2.37          & ( agent_THFTYPE_IiioI @ EXPRESS @ AGENT ) )
% 2.14/2.37       => ? [STATE: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ STATE @ lStateOfMind_THFTYPE_i )
% 2.14/2.37            & ( attribute_THFTYPE_IiioI @ AGENT @ STATE )
% 2.14/2.37            & ( represents_THFTYPE_IiioI @ EXPRESS @ STATE ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation PartialValuedRelation EnglishLanguage "A &%Relation is a &%PartialValuedRelation just in case it is not a &%TotalValuedRelation, i.e. just in case assigning values to every argument position except the last one does not necessarily mean that there is a value assignment for the last argument position. Note that, if a &%Relation is both a &%PartialValuedRelation and a &%SingleValuedRelation, then it is a partial function.")
% 2.14/2.37  %KIF documentation:(documentation authors EnglishLanguage "(&%authors ?AGENT ?TEXT) means that ?AGENT is creatively responsible for ?TEXT. For example, Agatha Christie is author of Murder_on_the_Orient_Express.")
% 2.14/2.37  %KIF documentation:(documentation EducationalOrganization EnglishLanguage "A &%EducationalOrganization is an institution of learning. Some examples are public and private K-12 schools, and colleges and universities.")
% 2.14/2.37  %KIF documentation:(documentation Pliable EnglishLanguage "The shape of an &%Object with this &%Attribute can easily be altered.")
% 2.14/2.37  thf(ax551,axiom,
% 2.14/2.37      ! [PERSON: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ PERSON @ lHuman_THFTYPE_i )
% 2.14/2.37          & ! [ORG: $i] : ( (~) @ ( employs_THFTYPE_IiioI @ ORG @ PERSON ) ) )
% 2.14/2.37      <=> ( attribute_THFTYPE_IiioI @ PERSON @ lUnemployed_THFTYPE_i ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Mixture EnglishLanguage "A &%Mixture is two or more &%PureSubstances, combined in varying proportions - each retaining its own specific properties. The components of a &%Mixture can be separated by physical means, i.e. without the making and breaking of chemical bonds. Examples: Air, table salt thoroughly dissolved in water, milk, wood, and concrete. ")
% 2.14/2.37  %KIF documentation:(documentation ListConcatenateFn EnglishLanguage "A &%Function that returns the concatenation of the two &%Lists that are given as arguments. For example, the value of (&%ListConcatenateFn (&%ListFn &%Monday &%Tuesday) (&%ListFn &%Wednesday &%Thursday)) would be (&%ListFn &%Monday &%Tuesday &%Wednesday &%Thursday).")
% 2.14/2.37  thf(ax552,axiom,
% 2.14/2.37      partition_THFTYPE_IiiioI @ lResidence_THFTYPE_i @ lPermanentResidence_THFTYPE_i @ lTemporaryResidence_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Experimenting EnglishLanguage "&%Investigating the truth of a &%Proposition by constructing and observing a trial. Note that the trial may be either controlled or uncontrolled, blind or not blind.")
% 2.14/2.37  thf(ax553,axiom,
% 2.14/2.37      ! [SITUATION: $o,TIME2: $i,TIME1: $i] :
% 2.14/2.37        ( ( ( holdsDuring_THFTYPE_IiooI @ TIME1 @ SITUATION )
% 2.14/2.37          & ( temporalPart_THFTYPE_IiioI @ TIME2 @ TIME1 ) )
% 2.14/2.37       => ( holdsDuring_THFTYPE_IiooI @ TIME2 @ SITUATION ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Rigid EnglishLanguage "The shape of an &%Object with this &%Attribute cannot be altered without breaking.")
% 2.14/2.37  %KIF documentation:(documentation Formula EnglishLanguage "A syntactically well-formed formula in the SUO-KIF knowledge representation language.")
% 2.14/2.37  thf(ax554,axiom,
% 2.14/2.37      ! [BUY: $i,AGENT: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ BUY @ lBuying_THFTYPE_i )
% 2.14/2.37          & ( agent_THFTYPE_IiioI @ BUY @ AGENT ) )
% 2.14/2.37       => ( destination_THFTYPE_IiioI @ BUY @ AGENT ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax555,axiom,
% 2.14/2.37      ! [MOTION: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ MOTION @ lWaterMotion_THFTYPE_i )
% 2.14/2.37       => ? [WATER: $i] :
% 2.14/2.37            ( ( patient_THFTYPE_IiioI @ MOTION @ WATER )
% 2.14/2.37            & ( instance_THFTYPE_IiioI @ WATER @ lWater_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax556,axiom,
% 2.14/2.37      ! [CARRY: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ CARRY @ lCarrying_THFTYPE_i )
% 2.14/2.37       => ? [ANIMAL: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ ANIMAL @ lAnimal_THFTYPE_i )
% 2.14/2.37            & ( instrument_THFTYPE_IiioI @ CARRY @ ANIMAL ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax557,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lDemonstrating_THFTYPE_i @ lDisseminating_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation PredecessorFn EnglishLanguage "A &%UnaryFunction that maps an &%Integer to its predecessor, e.g. the predecessor of 5 is 4.")
% 2.14/2.37  %KIF documentation:(documentation Law EnglishLanguage "&%Attribute that applies to &%Propositions that are required by a government or a branch of the government and that are enforced with penalties for noncompliance. These &%Propositions may be codified as legislation or they may be more informal, as in the case of government policy.")
% 2.14/2.37  thf(ax558,axiom,
% 2.14/2.37      ! [T2: $i,T1: $i,SIT1: $o,SIT2: $o] :
% 2.14/2.37        ( ( ( holdsDuring_THFTYPE_IiooI @ T2 @ SIT2 )
% 2.14/2.37          & ( holdsDuring_THFTYPE_IiooI @ T1 @ SIT1 )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ T1 @ lTimeInterval_THFTYPE_i )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ T2 @ lTimeInterval_THFTYPE_i )
% 2.14/2.37          & ( causesProposition_THFTYPE_IoooI @ SIT1 @ SIT2 ) )
% 2.14/2.37       => ( beforeOrEqual_THFTYPE_IiioI @ ( lBeginFn_THFTYPE_IiiI @ T1 ) @ ( lBeginFn_THFTYPE_IiiI @ T2 ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax559,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lOrgan_THFTYPE_i @ lBodyPart_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation House EnglishLanguage "A &%ResidentialBuilding which is intended to be inhabited by members of the same &%SocialUnit. &%Houses are distinguished from temporary housing like hotels and multi-family dwellings like condominium and apartment buildings.")
% 2.14/2.37  thf(ax560,axiom,
% 2.14/2.37      ! [NUMBER: $i,PERIODICAL: $i,ISSUE: $i] :
% 2.14/2.37        ( ( ( lPeriodicalIssueFn_THFTYPE_IiiiI @ PERIODICAL @ NUMBER )
% 2.14/2.37          = ISSUE )
% 2.14/2.37       => ( subsumesContentClass_THFTYPE_IiioI @ PERIODICAL @ ISSUE ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax561,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lManeuver_THFTYPE_i @ lIntentionalProcess_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Ampere EnglishLanguage "SI electric current measure. Symbol: A. It is one of the base units in SI. It is defined as follows: the &%Ampere is that constant current which, if maintained in two straight parallel conductors of infinite length, of negligible circular cross-section, and placed 1 &%Meter apart in a vacuum, would produce between these conductors a force equal to 2*10^(-7) &%Newton per &%Meter of length.")
% 2.14/2.37  %KIF documentation:(documentation InformationMeasure EnglishLanguage "Measures of the amount of information. Includes &%Bit, &%Byte, and multiples of these, e.g. &%KiloByte and &%MegaByte.")
% 2.14/2.37  thf(ax562,axiom,
% 2.14/2.37      ! [RESIDENCE: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ RESIDENCE @ lResidence_THFTYPE_i )
% 2.14/2.37       => ( ( instance_THFTYPE_IiioI @ RESIDENCE @ lHouse_THFTYPE_i )
% 2.14/2.37          | ? [BUILDING: $i] :
% 2.14/2.37              ( ( instance_THFTYPE_IiioI @ BUILDING @ lResidentialBuilding_THFTYPE_i )
% 2.14/2.37              & ( part_THFTYPE_IiioI @ RESIDENCE @ BUILDING ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax563,axiom,
% 2.14/2.37      ! [FORMULA: $o] :
% 2.14/2.37        ( ( modalAttribute_THFTYPE_IoioI @ FORMULA @ lObligation_THFTYPE_i )
% 2.14/2.37       => ( modalAttribute_THFTYPE_IoioI @ FORMULA @ lPermission_THFTYPE_i ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax564,axiom,
% 2.14/2.37      ! [ALGA: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ ALGA @ lAlga_THFTYPE_i )
% 2.14/2.37       => ? [WATER: $i] :
% 2.14/2.37            ( ( inhabits_THFTYPE_IiioI @ ALGA @ WATER )
% 2.14/2.37            & ( instance_THFTYPE_IiioI @ WATER @ lWater_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax565,axiom,
% 2.14/2.37      ! [NUMBER: $i] :
% 2.14/2.37        ( ( NUMBER
% 2.14/2.37          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.37       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lAmu_THFTYPE_i )
% 2.14/2.37          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n1dot6605402Eminus24_THFTYPE_i ) @ lGram_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Expressing EnglishLanguage "Instances of this &%Class express a state of the &%agent. For example, Jane thanked Barbara for the present she had given her. The thanking in this case expresses the gratitude of Jane towards Barbara. Note that &%Expressing, unlike the other speech act types, is not a subclass of &%LinguisticCommunication. This is because emotions, for example, can be expressed without language, e.g. by smiling.")
% 2.14/2.37  thf(ax566,axiom,
% 2.14/2.37      ! [NUMBER: $i] :
% 2.14/2.37        ( ( NUMBER
% 2.14/2.37          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.37       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lYearDuration_THFTYPE_i )
% 2.14/2.37          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n365_THFTYPE_i ) @ lDayDuration_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax567,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lPlaneAngleMeasure_THFTYPE_i @ lAngleMeasure_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax568,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lResidentialBuilding_THFTYPE_i @ lResidence_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax569,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lConstructedLanguage_THFTYPE_i @ lArtificialLanguage_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax570,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lFruitOrVegetable_THFTYPE_i @ lReproductiveBody_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax571,axiom,
% 2.14/2.37      ! [OBJ1: $i,OBJ2: $i] :
% 2.14/2.37        ( ( superficialPart_THFTYPE_IiioI @ OBJ1 @ OBJ2 )
% 2.14/2.37       => ( ( (~) @ ( interiorPart_THFTYPE_IiioI @ OBJ1 @ OBJ2 ) )
% 2.14/2.37          & ( (~)
% 2.14/2.37            @ ? [OBJ3: $i] : ( interiorPart_THFTYPE_IiioI @ OBJ3 @ OBJ1 ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax572,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lRelationExtendedToQuantities_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax573,axiom,
% 2.14/2.37      subAttribute_THFTYPE_IiioI @ lContract_THFTYPE_i @ lPromise_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax574,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lNation_THFTYPE_i @ lGeopoliticalArea_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax575,axiom,
% 2.14/2.37      range_THFTYPE_IiioI @ lSuccessorFn_THFTYPE_i @ lInteger_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax576,axiom,
% 2.14/2.37      ! [PROCESS: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ PROCESS @ lPsychologicalProcess_THFTYPE_i )
% 2.14/2.37       => ? [ANIMAL: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ ANIMAL @ lAnimal_THFTYPE_i )
% 2.14/2.37            & ( experiencer_THFTYPE_IiioI @ PROCESS @ ANIMAL ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax577,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lCooking_THFTYPE_i @ lMaking_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax578,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lUncovering_THFTYPE_i @ lRemoving_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax579,axiom,
% 2.14/2.37      ! [ROW: $i,ITEM: $i] :
% 2.14/2.37        ( ( lListOrderFn_THFTYPE_IiiiI @ ( lListFn_THFTYPE_IiiiI @ ROW @ ITEM ) @ ( lListLengthFn_THFTYPE_IiiI @ ( lListFn_THFTYPE_IiiiI @ ROW @ ITEM ) ) )
% 2.14/2.37        = ITEM ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation PositionalAttribute EnglishLanguage "&%Attributes characterizing the orientation of an &%Object, e.g. &%Vertical versus &%Horizontal, &%Left versus &%Right etc.")
% 2.14/2.37  %KIF documentation:(documentation side EnglishLanguage "(&%side ?SIDE ?OBJECT) means that ?SIDE is a side of the object, as opposed to the &%top or &%bottom.")
% 2.14/2.37  thf(ax580,axiom,
% 2.14/2.37      ! [NODE: $i,GRAPH: $i,ARC: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ GRAPH @ lGraphPath_THFTYPE_i )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ ARC @ lGraphArc_THFTYPE_i )
% 2.14/2.37          & ( graphPart_THFTYPE_IiioI @ ARC @ GRAPH ) )
% 2.14/2.37       => ( ( ( lTerminalNodeFn_THFTYPE_IiiI @ ARC )
% 2.14/2.37            = NODE )
% 2.14/2.37         => ( (~)
% 2.14/2.37            @ ? [OTHER: $i] :
% 2.14/2.37                ( ( ( lTerminalNodeFn_THFTYPE_IiiI @ OTHER )
% 2.14/2.37                  = NODE )
% 2.14/2.37                & ( (~) @ ( OTHER = ARC ) ) ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax581,axiom,
% 2.14/2.37      subAttribute_THFTYPE_IiioI @ lPromise_THFTYPE_i @ lObligation_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax582,axiom,
% 2.14/2.37      ! [NUMBER: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ NUMBER @ lRationalNumber_THFTYPE_i )
% 2.14/2.37       => ? [INT1: $i,INT2: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ INT1 @ lInteger_THFTYPE_i )
% 2.14/2.37            & ( instance_THFTYPE_IiioI @ INT2 @ lInteger_THFTYPE_i )
% 2.14/2.37            & ( NUMBER
% 2.14/2.37              = ( div_THFTYPE_IiiiI @ INT1 @ INT2 ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax583,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lAmbulating_THFTYPE_i @ lBodyMotion_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation UnaryConstantFunctionQuantity EnglishLanguage "A &%subclass of &%FunctionQuantity, instances of which are returned by &%UnaryFunctions that map from one instance of the &%Class &%ConstantQuantity to another instance of the &%Class &%ConstantQuantity.")
% 2.14/2.37  %KIF documentation:(documentation manner EnglishLanguage "(&%manner ?PROCESS ?MANNER) means that the &%Process ?PROCESS is qualified by the &%Attribute ?MANNER. The &%Attributes of &%Processes are usually denoted by adverbs and include things like the speed of the wind, the style of a dance, or the intensity of a sports competition.")
% 2.14/2.37  %KIF documentation:(documentation MinimalWeightedPathFn EnglishLanguage "This &%BinaryFunction assigns two &%GraphNodes to the &%GraphPath with the smallest sum of weighted arcs between the two &%GraphNodes.")
% 2.14/2.37  %KIF documentation:(documentation inverse EnglishLanguage "The inverse of a &%BinaryRelation is a relation in which all the tuples of the original relation are reversed. In other words, one &%BinaryRelation is the inverse of another if they are equivalent when their arguments are swapped.")
% 2.14/2.37  %KIF documentation:(documentation NonFullyFormed EnglishLanguage "The stage of an &%Organism before it is &%FullyFormed.")
% 2.14/2.37  thf(ax584,axiom,
% 2.14/2.37      ! [FUNCTION: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ FUNCTION @ lTernaryFunction_THFTYPE_i )
% 2.14/2.37       => ( valence_THFTYPE_IiioI @ FUNCTION @ n3_THFTYPE_i ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation QuintaryPredicate EnglishLanguage "The &%Class of &%Predicates that require five arguments.")
% 2.14/2.37  thf(ax585,axiom,
% 2.14/2.37      ! [LIST3: $i,LIST2: $i,LIST1: $i] :
% 2.14/2.37        ( ( LIST3
% 2.14/2.37          = ( lListConcatenateFn_THFTYPE_IiiiI @ LIST1 @ LIST2 ) )
% 2.14/2.37      <=> ! [NUMBER1: $i,NUMBER2: $i] :
% 2.14/2.37            ( ( ( ltet_THFTYPE_IiioI @ NUMBER1 @ ( lListLengthFn_THFTYPE_IiiI @ LIST1 ) )
% 2.14/2.37              & ( ltet_THFTYPE_IiioI @ NUMBER2 @ ( lListLengthFn_THFTYPE_IiiI @ LIST2 ) )
% 2.14/2.37              & ( instance_THFTYPE_IiioI @ NUMBER1 @ lPositiveInteger_THFTYPE_i )
% 2.14/2.37              & ( instance_THFTYPE_IiioI @ NUMBER2 @ lPositiveInteger_THFTYPE_i ) )
% 2.14/2.37           => ( ( ( lListOrderFn_THFTYPE_IiiiI @ LIST3 @ NUMBER1 )
% 2.14/2.37                = ( lListOrderFn_THFTYPE_IiiiI @ LIST1 @ NUMBER1 ) )
% 2.14/2.37              & ( ( lListOrderFn_THFTYPE_IiiiI @ LIST3 @ ( plus_THFTYPE_IiiiI @ ( lListLengthFn_THFTYPE_IiiI @ LIST1 ) @ NUMBER2 ) )
% 2.14/2.37                = ( lListOrderFn_THFTYPE_IiiiI @ LIST2 @ NUMBER2 ) ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax586,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lContentBearingPhysical_THFTYPE_i @ lPhysical_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax587,axiom,
% 2.14/2.37      partition_THFTYPE_IiiioI @ lTimePosition_THFTYPE_i @ lTimeInterval_THFTYPE_i @ lTimePoint_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax588,axiom,
% 2.14/2.37      contraryAttribute_THFTYPE_IiioI @ lEmbryonic_THFTYPE_i @ lLarval_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax589,axiom,
% 2.14/2.37      ! [OBJ: $i] :
% 2.14/2.37        ( ( attribute_THFTYPE_IiioI @ OBJ @ lPolychromatic_THFTYPE_i )
% 2.14/2.37       => ? [PART1: $i,PART2: $i,COLOR1: $i,COLOR2: $i] :
% 2.14/2.37            ( ( superficialPart_THFTYPE_IiioI @ PART1 @ OBJ )
% 2.14/2.37            & ( superficialPart_THFTYPE_IiioI @ PART2 @ OBJ )
% 2.14/2.37            & ( attribute_THFTYPE_IiioI @ PART1 @ COLOR1 )
% 2.14/2.37            & ( attribute_THFTYPE_IiioI @ PART2 @ COLOR2 )
% 2.14/2.37            & ( instance_THFTYPE_IiioI @ COLOR1 @ lColorAttribute_THFTYPE_i )
% 2.14/2.37            & ( instance_THFTYPE_IiioI @ COLOR2 @ lColorAttribute_THFTYPE_i )
% 2.14/2.37            & ( (~) @ ( COLOR1 = COLOR2 ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation ViolentContest EnglishLanguage "A &%Contest where one participant attempts to physically injure another participant.")
% 2.14/2.37  thf(ax590,axiom,
% 2.14/2.37      ! [PART: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ PART @ lBodyPart_THFTYPE_i )
% 2.14/2.37       => ? [ORGANISM: $i,TIME: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ ORGANISM @ lOrganism_THFTYPE_i )
% 2.14/2.37            & ( temporalPart_THFTYPE_IiioI @ TIME @ ( lWhenFn_THFTYPE_IiiI @ ORGANISM ) )
% 2.14/2.37            & ( holdsDuring_THFTYPE_IiooI @ TIME @ ( component_THFTYPE_IiioI @ PART @ ORGANISM ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Melting EnglishLanguage "The &%Class of &%Processes where an &%Object is heated and converted from a &%Solid to a &%Liquid.")
% 2.14/2.37  %KIF documentation:(documentation UnaryFunction EnglishLanguage "The &%Class of &%Functions that require a single argument.")
% 2.14/2.37  thf(ax591,axiom,
% 2.14/2.37      ! [NUMBER: $i] :
% 2.14/2.37        ( ( NUMBER
% 2.14/2.37          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.37       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lAngularDegree_THFTYPE_i )
% 2.14/2.37          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ ( div_THFTYPE_IiiiI @ lPi_THFTYPE_i @ n180_THFTYPE_i ) ) @ lRadian_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation PhysicalSystem EnglishLanguage "&%PhysicalSystem is the class of complex &%Physical things. A &%PhysicalSystem may have one or more corresponding abstract &%Graph representations.")
% 2.14/2.37  thf(ax592,axiom,
% 2.14/2.37      ! [SUBSTANCE: $i,ANIMAL: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ SUBSTANCE @ lAnimalSubstance_THFTYPE_i )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ ANIMAL @ lOrganism_THFTYPE_i )
% 2.14/2.37          & ( part_THFTYPE_IiioI @ SUBSTANCE @ ANIMAL ) )
% 2.14/2.37       => ( instance_THFTYPE_IiioI @ ANIMAL @ lAnimal_THFTYPE_i ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax593,axiom,
% 2.14/2.37      ! [DOC: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ DOC @ lCertificate_THFTYPE_i )
% 2.14/2.37       => ? [PROP: $o,NORM: $i] :
% 2.14/2.37            ( ( confersNorm_THFTYPE_IioioI @ DOC @ PROP @ NORM )
% 2.14/2.37            | ( deprivesNorm_THFTYPE_IioioI @ DOC @ PROP @ NORM ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax594,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lSocialRole_THFTYPE_i @ lRelationalAttribute_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Metal EnglishLanguage "A &%Metal is an &%ElementalSubstance that conducts heat and electricity, is shiny and reflects many colors of light, and can be hammered into sheets or drawn into wire. About 80% of the known chemical elements (&%ElementalSubstances) are metals.")
% 2.14/2.37  %KIF documentation:(documentation Uncovering EnglishLanguage "The &%Class of &%Removing processes where the &%agent uncovers the &%patient, either completely or only partially.")
% 2.14/2.37  thf(ax595,axiom,
% 2.14/2.37      ! [LIST2: $i,LIST1: $i] :
% 2.14/2.37        ( ( subList_THFTYPE_IiioI @ LIST1 @ LIST2 )
% 2.14/2.37       => ? [NUMBER3: $i] :
% 2.14/2.37          ! [ITEM: $i] :
% 2.14/2.37            ( ( inList_THFTYPE_IiioI @ ITEM @ LIST1 )
% 2.14/2.37           => ? [NUMBER1: $i,NUMBER2: $i] :
% 2.14/2.37                ( ( ( lListOrderFn_THFTYPE_IiiiI @ LIST1 @ NUMBER1 )
% 2.14/2.37                  = ITEM )
% 2.14/2.37                & ( ( lListOrderFn_THFTYPE_IiiiI @ LIST2 @ NUMBER2 )
% 2.14/2.37                  = ITEM )
% 2.14/2.37                & ( NUMBER2
% 2.14/2.37                  = ( plus_THFTYPE_IiiiI @ NUMBER1 @ NUMBER3 ) ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation material EnglishLanguage "(&%material ?SUBSTANCE ?OBJECT) means that ?OBJECT is structurally made up in part of ?SUBSTANCE. This relation encompasses the concepts of 'composed of', 'made of', and 'formed of'. For example, plastic is a &%material of my computer monitor. Compare &%part and its subrelations, viz &%component and &%piece.")
% 2.14/2.37  %KIF documentation:(documentation TimeMeasure EnglishLanguage "The class of temporal durations (instances of &%TimeDuration) and positions of &%TimePoints and &%TimeIntervals along the universal timeline (instances of &%TimePosition).")
% 2.14/2.37  thf(ax596,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lExplanation_THFTYPE_i @ lDeductiveArgument_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation UnitOfTemperature EnglishLanguage "Every instance of this &%Class is a &%UnitOfMeasure that can be used with &%MeasureFn to form instances of &%TemperatureMeasure.")
% 2.14/2.37  %KIF documentation:(documentation Entity EnglishLanguage "The universal class of individuals. This is the root node of the ontology.")
% 2.14/2.37  thf(ax597,axiom,
% 2.14/2.37      subAttribute_THFTYPE_IiioI @ lWarranty_THFTYPE_i @ lServiceContract_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax598,axiom,
% 2.14/2.37      subAttribute_THFTYPE_IiioI @ lLaw_THFTYPE_i @ lObligation_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation WhenFn EnglishLanguage "A &%UnaryFunction that maps an &%Object or &%Process to the exact &%TimeInterval during which it exists. Note that, for every &%TimePoint ?TIME outside of the &%TimeInterval (WhenFn ?THING), (time ?THING ?TIME) does not hold.")
% 2.14/2.37  %KIF documentation:(documentation properPart EnglishLanguage "(&%properPart ?OBJ1 ?OBJ2) means that ?OBJ1 is a part of ?OBJ2 other than ?OBJ2 itself. This is a &%TransitiveRelation and &%AsymmetricRelation (hence an &%IrreflexiveRelation).")
% 2.14/2.37  %KIF documentation:(documentation bottom EnglishLanguage "(&%bottom ?BOTTOM ?OBJECT) holds if ?BOTTOM is the lowest or deepest maximal superficial part of ?OBJECT.")
% 2.14/2.37  thf(ax599,axiom,
% 2.14/2.37      ! [NUMBER: $i] :
% 2.14/2.37        ( ( NUMBER
% 2.14/2.37          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.37       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lUnitedStatesGallon_THFTYPE_i )
% 2.14/2.37          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n3dot785411784_THFTYPE_i ) @ lLiter_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Minute EnglishLanguage "The &%Class of all clock &%Minutes.")
% 2.14/2.37  thf(ax600,axiom,
% 2.14/2.37      ! [PRETEND: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ PRETEND @ lPretending_THFTYPE_i )
% 2.14/2.37       => ? [PERSON: $i,PROP: $o] :
% 2.14/2.37            ( ( hasPurpose_THFTYPE_IiooI @ PRETEND @ ( believes_THFTYPE_IiooI @ PERSON @ PROP ) )
% 2.14/2.37            & ( truth_THFTYPE_IoooI @ PROP @ $true ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax601,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lConstantQuantity_THFTYPE_i @ lPhysicalQuantity_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax602,axiom,
% 2.14/2.37      ! [OBJ1: $i,OBJ2: $i] :
% 2.14/2.37        ( ( orientation_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ lOn_THFTYPE_i )
% 2.14/2.37       => ( (~) @ ( orientation_THFTYPE_IiiioI @ OBJ2 @ OBJ1 @ lOn_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax603,axiom,
% 2.14/2.37      ! [OBJECT: $i,PART: $i,TOP: $i] :
% 2.14/2.37        ( ( ( top_THFTYPE_IiioI @ TOP @ OBJECT )
% 2.14/2.37          & ( part_THFTYPE_IiioI @ PART @ OBJECT )
% 2.14/2.37          & ( (~) @ ( connected_THFTYPE_IiioI @ PART @ TOP ) ) )
% 2.14/2.37       => ( orientation_THFTYPE_IiiioI @ PART @ TOP @ lBelow_THFTYPE_i ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax604,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lMaintaining_THFTYPE_i @ lIntentionalProcess_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation barometricPressure EnglishLanguage "(&%barometricPressure ?AREA ?PRESSURE) means that the atmospheric pressure measured at ?AREA is ?PRESSURE. Barometric pressure is typically expressed in units of &%InchMercury or &%MmMercury. For example, standard sea level pressure is 29.92 inches (760 mm) of mercury: (&%barometricPressure &%SeaLevel (&%MeasureFn 29.92 &%InchMercury)).")
% 2.14/2.37  %KIF documentation:(documentation Substance EnglishLanguage "An &%Object in which every part is similar to every other in every relevant respect. More precisely, something is a &%Substance when it has only arbitrary pieces as parts - any parts have properties which are similar to those of the whole. Note that a &%Substance may nonetheless have physical properties that vary. For example, the temperature, chemical constitution, density, etc. may change from one part to another. An example would be a body of water.")
% 2.14/2.37  %KIF documentation:(documentation Falling EnglishLanguage "&%Falling is the class of events in which something moves from a higher location to a lower location under the force of gravity.")
% 2.14/2.37  thf(ax605,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lVitamin_THFTYPE_i @ lNutrient_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax606,axiom,
% 2.14/2.37      ! [COMBUSTION: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ COMBUSTION @ lCombustion_THFTYPE_i )
% 2.14/2.37       => ? [HEAT: $i,LIGHT: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ HEAT @ lHeating_THFTYPE_i )
% 2.14/2.37            & ( instance_THFTYPE_IiioI @ LIGHT @ lRadiatingLight_THFTYPE_i )
% 2.14/2.37            & ( subProcess_THFTYPE_IiioI @ HEAT @ COMBUSTION )
% 2.14/2.37            & ( subProcess_THFTYPE_IiioI @ LIGHT @ COMBUSTION ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation ImmediateFamilyFn EnglishLanguage "(&%ImmediateFamilyFn ?PERSON) denotes the immediate family of ?PERSON, i.e. the &%Group consisting of the &%parents of ?PERSON and anyone of whom ?PERSON is a &%parent.")
% 2.14/2.37  thf(ax607,axiom,
% 2.14/2.37      ! [TIME2: $i,TIME1: $i] :
% 2.14/2.37        ( ( ( lRelativeTimeFn_THFTYPE_IiiiI @ TIME1 @ lEasternTimeZone_THFTYPE_i )
% 2.14/2.37          = TIME2 )
% 2.14/2.37       => ( TIME2
% 2.14/2.37          = ( plus_THFTYPE_IiiiI @ TIME1 @ n5_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation IntegerSquareRootFn EnglishLanguage "(&%IntegerSquareRootFn ?NUMBER) returns the integer square root of ?NUMBER.")
% 2.14/2.37  %KIF documentation:(documentation Room EnglishLanguage "A &%properPart of a &%Building which is separated from the exterior of the &%Building and/ or other &%Rooms of the &%Building by walls. Some &%Rooms may have a specific purpose, e.g. sleeping, bathing, cooking, entertainment, etc.")
% 2.14/2.37  %KIF documentation:(documentation overlapsPartially EnglishLanguage "(&%overlapsPartially ?OBJ1 ?OBJ2) means that ?OBJ1 and ?OBJ2 have part(s) in common, but neither ?OBJ1 nor ?OBJ2 is a &%part of the other.")
% 2.14/2.37  thf(ax608,axiom,
% 2.14/2.37      ! [LINE2: $i,LINE1: $i] :
% 2.14/2.37        ( ( parallel_THFTYPE_IiioI @ LINE1 @ LINE2 )
% 2.14/2.37       => ( (~)
% 2.14/2.37          @ ? [POINT: $i] : ( pointOfIntersection_THFTYPE_IiiioI @ LINE1 @ LINE2 @ POINT ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation crosses EnglishLanguage "(crosses ?OBJ1 ?OBJ2) means that &%Object ?OBJ1 &%traverses Object ?OBJ2, without being &%connected to it.")
% 2.14/2.37  %KIF documentation:(documentation Inserting EnglishLanguage "&%Putting one thing inside of another thing.")
% 2.14/2.37  thf(ax609,axiom,
% 2.14/2.37      ! [OBJ: $i,AGENT: $i] :
% 2.14/2.37        ( ( wants_THFTYPE_IiioI @ AGENT @ OBJ )
% 2.14/2.37       => ( desires_THFTYPE_IiooI @ AGENT @ ( possesses_THFTYPE_IiioI @ AGENT @ OBJ ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation DivisionFn EnglishLanguage "If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%DivisionFn ?NUMBER1 ?NUMBER2) is the result of dividing ?NUMBER1 by ?NUMBER2. Note that when ?NUMBER1 = 1 (&%DivisionFn ?NUMBER1 ?NUMBER2) is the reciprocal of ?NUMBER2. Note too that (&%DivisionFn ?NUMBER1 ?NUMBER2) is undefined when ?NUMBER2 = 0.")
% 2.14/2.37  %KIF documentation:(documentation EasternTimeZone EnglishLanguage "A &%TimeZone that covers much of the eastern United States.")
% 2.14/2.37  thf(ax610,axiom,
% 2.14/2.37      ! [REL: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ REL @ lAsymmetricRelation_THFTYPE_i )
% 2.14/2.37      <=> ( ( instance_THFTYPE_IiioI @ REL @ lAntisymmetricRelation_THFTYPE_i )
% 2.14/2.37          & ( instance_THFTYPE_IiioI @ REL @ lIrreflexiveRelation_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax611,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lEngineeringConnection_THFTYPE_i @ lEngineeringComponent_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax612,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lUnilateralGiving_THFTYPE_i @ lGiving_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Cooling EnglishLanguage "Any &%Decreasing &%Process where the &%PhysicalQuantity decreased is a &%TemperatureMeasure.")
% 2.14/2.37  thf(ax613,axiom,
% 2.14/2.37      disjoint_THFTYPE_IiioI @ lCorpuscularObject_THFTYPE_i @ lSubstance_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax614,axiom,
% 2.14/2.37      partition_THFTYPE_IiiioI @ lRealNumber_THFTYPE_i @ lRationalNumber_THFTYPE_i @ lIrrationalNumber_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation FinancialTransaction EnglishLanguage "A &%Transaction where an instance of &%Currency is exchanged for something else.")
% 2.14/2.37  %KIF documentation:(documentation overlapsTemporally EnglishLanguage "(&%overlapsTemporally ?INTERVAL1 ?INTERVAL2) means that the &%TimeIntervals ?INTERVAL1 and ?INTERVAL2 have a &%TimeInterval as a common part.")
% 2.14/2.37  thf(ax615,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lNullSet_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax616,axiom,
% 2.14/2.37      ! [AMOUNT: $i,PERSON: $i] :
% 2.14/2.37        ( ( ( lWealthFn_THFTYPE_IiiI @ PERSON )
% 2.14/2.37          = AMOUNT )
% 2.14/2.37      <=> ( monetaryValue_THFTYPE_IiioI @ ( lPropertyFn_THFTYPE_IiiI @ PERSON ) @ AMOUNT ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation InternalAttribute EnglishLanguage "Any &%Attribute of an &%Entity that is an internal property of the &%Entity, e.g. its shape, its color, its fragility, etc.")
% 2.14/2.37  %KIF documentation:(documentation DayDuration EnglishLanguage "Time unit. 1 day = 24 hours.")
% 2.14/2.37  thf(ax617,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lCarrying_THFTYPE_i @ lTransfer_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation MegaFn EnglishLanguage "A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to 1,000,000 units of the original &%UnitOfMeasure. For example, (&%MegaFn &%Hertz) is 1,000,000 &%Hertz.")
% 2.14/2.37  %KIF documentation:(documentation uses EnglishLanguage "(&%uses ?OBJECT AGENT) means that ?OBJECT is used by ?AGENT as an instrument in an unspecified &%Process. This &%Predicate, as its corresponding axiom indicates, is a composition of the &%CaseRoles &%agent and &%instrument.")
% 2.14/2.37  %KIF documentation:(documentation IntentionalProcess EnglishLanguage "A &%Process that has a specific purpose for the &%CognitiveAgent who performs it.")
% 2.14/2.37  %KIF documentation:(documentation husband EnglishLanguage "(&%husband ?MAN ?WOMAN) means that ?MAN is the husband of ?WOMAN.")
% 2.14/2.37  %KIF documentation:(documentation holdsObligation EnglishLanguage "Expresses a relationship between a &%Formula and a &%CognitiveAgent whereby the &%CognitiveAgent has the obligation to bring it about that the &%Formula is true.")
% 2.14/2.37  thf(ax618,axiom,
% 2.14/2.37      ! [LEARN: $i,PROP: $o,AGENT: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ LEARN @ lLearning_THFTYPE_i )
% 2.14/2.37          & ( agent_THFTYPE_IiioI @ LEARN @ AGENT )
% 2.14/2.37          & ( patient_THFTYPE_IiooI @ LEARN @ PROP ) )
% 2.14/2.37       => ( ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ LEARN ) ) @ ( (~) @ ( knows_THFTYPE_IiooI @ AGENT @ PROP ) ) )
% 2.14/2.37          & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ LEARN ) ) @ ( knows_THFTYPE_IiooI @ AGENT @ PROP ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation deprivesNorm EnglishLanguage "Expresses the relationship between an &%Entity, a &%Formula, and an &%ObjectiveNorm when the &%Entity brings it about that the &%Formula does not have the &%ObjectiveNorm.")
% 2.14/2.37  %KIF documentation:(documentation NumberE EnglishLanguage "&%NumberE is the &%RealNumber that is the base for natural logarithms. It is approximately equal to 2.718282.")
% 2.14/2.37  thf(ax619,axiom,
% 2.14/2.37      ! [NUMBER: $i,ROW: $i] :
% 2.14/2.37        ( ( ( lGreatestCommonDivisorFn_THFTYPE_IiiI @ ROW )
% 2.14/2.37          = NUMBER )
% 2.14/2.37       => ( (~)
% 2.14/2.37          @ ? [GREATER: $i] :
% 2.14/2.37              ( ( gt_THFTYPE_IiioI @ GREATER @ NUMBER )
% 2.14/2.37              & ! [ELEMENT: $i] :
% 2.14/2.37                  ( ( inList_THFTYPE_IiioI @ ELEMENT @ ( lListFn_THFTYPE_IiiI @ ROW ) )
% 2.14/2.37                 => ( ( lRemainderFn_THFTYPE_IiiiI @ ELEMENT @ GREATER )
% 2.14/2.37                    = n0_THFTYPE_i ) ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax620,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lGraphElement_THFTYPE_i @ lAbstract_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax621,axiom,
% 2.14/2.37      ! [LANG: $i,AGENT: $i,PROC: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ LANG @ lAnimalLanguage_THFTYPE_i )
% 2.14/2.37          & ( agent_THFTYPE_IiioI @ PROC @ AGENT )
% 2.14/2.37          & ( instrument_THFTYPE_IiioI @ PROC @ LANG ) )
% 2.14/2.37       => ( ( instance_THFTYPE_IiioI @ AGENT @ lAnimal_THFTYPE_i )
% 2.14/2.37          & ( (~) @ ( instance_THFTYPE_IiioI @ AGENT @ lHuman_THFTYPE_i ) ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax622,axiom,
% 2.14/2.37      ! [RESIDENCE: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ RESIDENCE @ lPermanentResidence_THFTYPE_i )
% 2.14/2.37       => ? [PERSON: $i] : ( home_THFTYPE_IiioI @ PERSON @ RESIDENCE ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation MilitaryOrganization EnglishLanguage "Any heavily armed &%Organization that is part of a &%Government and that is charged with representing the &%Government in international conflicts.")
% 2.14/2.37  thf(ax623,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lMollusk_THFTYPE_i @ lInvertebrate_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  thf(ax624,axiom,
% 2.14/2.37      ! [MONTH: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ MONTH @ lJanuary_THFTYPE_i )
% 2.14/2.37       => ( duration_THFTYPE_IiioI @ MONTH @ ( lMeasureFn_THFTYPE_IiiiI @ n31_THFTYPE_i @ lDayDuration_THFTYPE_i ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  thf(ax625,axiom,
% 2.14/2.37      ! [DEPTH: $i,OBJ1: $i,OBJ2: $i] :
% 2.14/2.37        ( ( depth_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ DEPTH )
% 2.14/2.37       => ? [BOTTOM: $i] :
% 2.14/2.37            ( ( bottom_THFTYPE_IiioI @ BOTTOM @ OBJ1 )
% 2.14/2.37            & ( distance_THFTYPE_IiiioI @ BOTTOM @ OBJ2 @ DEPTH ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Ounce EnglishLanguage "English unit of volume equal to 1/ 8 of a &%Cup.")
% 2.14/2.37  %KIF documentation:(documentation KiloFn EnglishLanguage "A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to 1,000 units of the original &%UnitOfMeasure. For example, (&%KiloFn &%Gram) is 1,000 &%Grams.")
% 2.14/2.37  thf(ax626,axiom,
% 2.14/2.37      ! [MOTION: $i] :
% 2.14/2.37        ( ( instance_THFTYPE_IiioI @ MOTION @ lBodyMotion_THFTYPE_i )
% 2.14/2.37       => ? [OBJ: $i,AGENT: $i] :
% 2.14/2.37            ( ( instance_THFTYPE_IiioI @ OBJ @ lBodyPart_THFTYPE_i )
% 2.14/2.37            & ( patient_THFTYPE_IiioI @ MOTION @ OBJ )
% 2.14/2.37            & ( instance_THFTYPE_IiioI @ AGENT @ lOrganism_THFTYPE_i )
% 2.14/2.37            & ( agent_THFTYPE_IiioI @ MOTION @ AGENT ) ) ) ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Process EnglishLanguage "The class of things that happen and have temporal parts or stages. Examples include extended events like a football match or a race, actions like &%Pursuing and &%Reading, and biological processes. The formal definition is: anything that occurs in time but is not an &%Object. Note that a &%Process may have participants 'inside' it which are &%Objects, such as the players in a football match. In a 4D ontology, a &%Process is something whose spatiotemporal extent is thought of as dividing into temporal stages roughly perpendicular to the time-axis.")
% 2.14/2.37  thf(ax627,axiom,
% 2.14/2.37      subclass_THFTYPE_IiioI @ lGame_THFTYPE_i @ lRecreationOrExercise_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation relatedEvent EnglishLanguage "(relatedEvent ?EVENT1 ?EVENT2) means that the &%Process ?EVENT1 is related to the Process ?EVENT2. The relationship is between separate individual events, not events and their subprocesses. On the other hand, two &%subProcesses of the same overarching event may be &%relatedEvents. The argument order does not imply temporal ordering.")
% 2.14/2.37  thf(ax628,axiom,
% 2.14/2.37      disjoint_THFTYPE_IiioI @ lAttaching_THFTYPE_i @ lDetaching_THFTYPE_i ).
% 2.14/2.37  
% 2.14/2.37  %KIF documentation:(documentation Surgery EnglishLanguage "Any &%TherapeuticProcess that involves making an incision in the &%Animal that is the &%patient of the &%TherapeuticProcess.")
% 2.14/2.37  thf(ax629,axiom,
% 2.14/2.37      ! [BIO: $i,PROC: $i] :
% 2.14/2.37        ( ( ( instance_THFTYPE_IiioI @ PROC @ lTherapeuticProcess_THFTYPE_i )
% 2.14/2.37          & ( patient_THFTYPE_IiioI @ PROC @ BIO ) )
% 2.14/2.37       => ( ( instance_THFTYPE_IiioI @ BIO @ lOrganism_THFTYPE_i )
% 2.14/2.37          | ? [ORG: $i] :
% 2.14/2.37              ( ( instance_THFTYPE_IiioI @ ORG @ lOrganism_THFTYPE_i )
% 2.14/2.38              & ( part_THFTYPE_IiioI @ BIO @ ORG ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax630,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lKilling_THFTYPE_i @ lDestruction_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax631,axiom,
% 2.14/2.38      ! [COLL: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ COLL @ lCollection_THFTYPE_i )
% 2.14/2.38       => ? [OBJ: $i] : ( member_THFTYPE_IiioI @ OBJ @ COLL ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax632,axiom,
% 2.14/2.38      disjointDecomposition_THFTYPE_IiiiiioI @ lArthropod_THFTYPE_i @ lArachnid_THFTYPE_i @ lMyriapod_THFTYPE_i @ lInsect_THFTYPE_i @ lCrustacean_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax633,axiom,
% 2.14/2.38      range_THFTYPE_IiioI @ lFutureFn_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax634,axiom,
% 2.14/2.38      ! [PROC: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ PROC @ lBiologicalProcess_THFTYPE_i )
% 2.14/2.38       => ? [OBJ: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ OBJ @ lOrganism_THFTYPE_i )
% 2.14/2.38            & ( located_THFTYPE_IiioI @ PROC @ OBJ ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax635,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lDirectionalAttribute_THFTYPE_i @ lPositionalAttribute_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation SymmetricPositionalAttribute EnglishLanguage "&%SymmetricAttribute is the class of &%PositionalAttribute that hold between two items regardless of their order or orientation.")
% 2.14/2.38  thf(ax636,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lBodyVessel_THFTYPE_i @ lBodyCavity_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Horizontal EnglishLanguage "Attribute used to indicate that an &%Object is positioned width-wise with respect to another &%Object.")
% 2.14/2.38  thf(ax637,axiom,
% 2.14/2.38      ! [PATHCLASS: $i,GRAPH: $i] :
% 2.14/2.38        ( ( ( lMinimalCutSetFn_THFTYPE_IiiI @ GRAPH )
% 2.14/2.38          = PATHCLASS )
% 2.14/2.38       => ? [NUMBER: $i] :
% 2.14/2.38          ! [PATH: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ PATH @ PATHCLASS )
% 2.14/2.38           => ( pathLength_THFTYPE_IiioI @ PATH @ NUMBER ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax638,axiom,
% 2.14/2.38      partition_THFTYPE_IiiioI @ lPureSubstance_THFTYPE_i @ lCompoundSubstance_THFTYPE_i @ lElementalSubstance_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation TimeZone EnglishLanguage "An &%Attribute which is used to specify coordinates in which time measures are uniform, i.e. all time devices are synchronized to the same &%TimePositions.")
% 2.14/2.38  %KIF documentation:(documentation Fillable EnglishLanguage "Something is &%Fillable if it can be filled by something else. Note that 'filled' here means perfectly filled. Something is fillable just in case it is part of a hole, i.e., fillability is an exclusive property of holes and their parts.")
% 2.14/2.38  thf(ax639,axiom,
% 2.14/2.38      ! [NUMBER: $i] :
% 2.14/2.38        ( ( NUMBER
% 2.14/2.38          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.38       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lUnitedStatesCent_THFTYPE_i )
% 2.14/2.38          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n0dot01_THFTYPE_i ) @ lUnitedStatesDollar_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation CommutativeFunction EnglishLanguage "A &%BinaryFunction is commutative if the ordering of the arguments of the function has no effect on the value returned by the function. More precisely, a function ?FUNCTION is commutative just in case (?FUNCTION ?INST1 ?INST2) is equal to (?FUNCTION ?INST2 ?INST1), for all ?INST1 and ?INST2.")
% 2.14/2.38  thf(ax640,axiom,
% 2.14/2.38      ! [PATH: $i,ORG: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ PATH @ lPathologicProcess_THFTYPE_i )
% 2.14/2.38          & ( experiencer_THFTYPE_IiioI @ PATH @ ORG ) )
% 2.14/2.38       => ? [PART: $i,DISEASE: $i] :
% 2.14/2.38            ( ( part_THFTYPE_IiioI @ PART @ ORG )
% 2.14/2.38            & ( instance_THFTYPE_IiioI @ DISEASE @ lDiseaseOrSyndrome_THFTYPE_i )
% 2.14/2.38            & ( attribute_THFTYPE_IiioI @ PART @ DISEASE ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax641,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lAlga_THFTYPE_i @ lNonFloweringPlant_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Committing EnglishLanguage "Instances of this &%Class commit the &%agent to some future course. For example, Bob promised Susan that he would be home by 11pm.")
% 2.14/2.38  %KIF documentation:(documentation BodyMotion EnglishLanguage "Any &%Motion where the &%agent is an &%Organism and the &%patient is a &%BodyPart.")
% 2.14/2.38  thf(ax642,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lBodyMotion_THFTYPE_i @ lMotion_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax643,axiom,
% 2.14/2.38      ! [LEARN: $i,AGENT: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ LEARN @ lLearning_THFTYPE_i )
% 2.14/2.38          & ( agent_THFTYPE_IiioI @ LEARN @ AGENT ) )
% 2.14/2.38       => ( instance_THFTYPE_IiioI @ AGENT @ lCognitiveAgent_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax644,axiom,
% 2.14/2.38      ! [DAY: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ DAY @ lDay_THFTYPE_i )
% 2.14/2.38       => ( duration_THFTYPE_IiioI @ DAY @ ( lMeasureFn_THFTYPE_IiiiI @ n1_THFTYPE_i @ lDayDuration_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax645,axiom,
% 2.14/2.38      ! [POINT2: $i,POINT1: $i,LENGTH: $i] :
% 2.14/2.38        ( ( geometricDistance_THFTYPE_IiiioI @ POINT1 @ POINT2 @ LENGTH )
% 2.14/2.38       => ( geometricDistance_THFTYPE_IiiioI @ POINT2 @ POINT1 @ LENGTH ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation War EnglishLanguage "A military confrontation between two or more &%GeopoliticalAreas or &%Organizations whose members are &%GeopoliticalAreas. As the corresponding axiom specifies, a &%War is made up of &%Battles.")
% 2.14/2.38  thf(ax646,axiom,
% 2.14/2.38      range_THFTYPE_IiioI @ lMinFn_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Mineral EnglishLanguage "Any of various naturally occurring homogeneous substances (such as stone, coal, salt, sulfur, sand, petroleum), or synthetic substances having the chemical composition and crystalline form and properties of a naturally occurring mineral.")
% 2.14/2.38  %KIF documentation:(documentation Requesting EnglishLanguage "A request expresses a desire that some future action be performed. For example, the 5th Battalion requested air support from the 3rd Bomber Group. Note that this class covers proposals, recommendations, suggestions, etc.")
% 2.14/2.38  thf(ax647,axiom,
% 2.14/2.38      ! [ORGANISM1: $i,ORGANISM2: $i] :
% 2.14/2.38        ( ( familyRelation_THFTYPE_IiioI @ ORGANISM1 @ ORGANISM2 )
% 2.14/2.38       => ? [ORGANISM3: $i] :
% 2.14/2.38            ( ( ancestor_THFTYPE_IiioI @ ORGANISM3 @ ORGANISM1 )
% 2.14/2.38            & ( ancestor_THFTYPE_IiioI @ ORGANISM3 @ ORGANISM2 ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax648,axiom,
% 2.14/2.38      rangeSubclass_THFTYPE_IiioI @ lHourFn_THFTYPE_i @ lHour_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax649,axiom,
% 2.14/2.38      ! [FORMULA: $o] :
% 2.14/2.38        ( ( modalAttribute_THFTYPE_IoioI @ FORMULA @ lUnlikely_THFTYPE_i )
% 2.14/2.38       => ( gt_THFTYPE_IiioI @ ( lProbabilityFn_THFTYPE_IoiI @ ( truth_THFTYPE_IoooI @ FORMULA @ $false ) ) @ ( lProbabilityFn_THFTYPE_IoiI @ ( truth_THFTYPE_IoooI @ FORMULA @ $true ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax650,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lShapeAttribute_THFTYPE_i @ lInternalAttribute_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax651,axiom,
% 2.14/2.38      ! [AGENT_1: $i,AGENT_2: $i,PROC: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ PROC @ lSingleAgentProcess_THFTYPE_i )
% 2.14/2.38          & ( agent_THFTYPE_IiioI @ PROC @ AGENT_1 )
% 2.14/2.38          & ( agent_THFTYPE_IiioI @ PROC @ AGENT_2 ) )
% 2.14/2.38       => ( AGENT_1 = AGENT_2 ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Sentence EnglishLanguage "A syntactically well-formed formula of a &%Language. It includes, at minimum, a predicate and a subject (which may be explicit or implicit), and it expresses a &%Proposition.")
% 2.14/2.38  thf(ax652,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lUngrasping_THFTYPE_i @ lDetaching_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax653,axiom,
% 2.14/2.38      ! [TEMP: $i,PRES: $i,MELT: $i,X: $i,Y: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ X @ Y )
% 2.14/2.38          & ( subclass_THFTYPE_IiioI @ Y @ lPureSubstance_THFTYPE_i )
% 2.14/2.38          & ( meltingPoint_THFTYPE_IiioI @ Y @ ( lMeasureFn_THFTYPE_IiiiI @ MELT @ lKelvinDegree_THFTYPE_i ) )
% 2.14/2.38          & ( barometricPressure_THFTYPE_IiioI @ X @ ( lMeasureFn_THFTYPE_IiiiI @ PRES @ lInchMercury_THFTYPE_i ) )
% 2.14/2.38          & ( gt_THFTYPE_IiioI @ PRES @ n29dot92_THFTYPE_i )
% 2.14/2.38          & ( measure_THFTYPE_IiioI @ X @ ( lMeasureFn_THFTYPE_IiiiI @ TEMP @ lKelvinDegree_THFTYPE_i ) )
% 2.14/2.38          & ( lt_THFTYPE_IiioI @ TEMP @ MELT ) )
% 2.14/2.38       => ( attribute_THFTYPE_IiioI @ X @ lSolid_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax654,axiom,
% 2.14/2.38      ! [CLASS: $i,RELATION: $i > $i > $o] :
% 2.14/2.38        ( ( partialOrderingOn_THFTYPE_IIiioIioI @ RELATION @ CLASS )
% 2.14/2.38       => ( ( reflexiveOn_THFTYPE_IIiioIioI @ RELATION @ CLASS )
% 2.14/2.38          & ( instance_THFTYPE_IIiioIioI @ RELATION @ lTransitiveRelation_THFTYPE_i )
% 2.14/2.38          & ( instance_THFTYPE_IIiioIioI @ RELATION @ lAntisymmetricRelation_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation subCollection EnglishLanguage "(&%subCollection ?COLL1 ?COLL2) means that the &%Collection ?COLL1 is a proper part of the &%Collection ?COLL2.")
% 2.14/2.38  %KIF documentation:(documentation TherapeuticProcess EnglishLanguage "A &%Process that is carried out for the purpose of curing, improving or reducing the pain associated with a &%DiseaseOrSyndrome.")
% 2.14/2.38  thf(ax655,axiom,
% 2.14/2.38      ! [FUNCTION1: $i,FUNCTION2: $i,CLASS1: $i,CLASS2: $i] :
% 2.14/2.38        ( ( distributes_THFTYPE_IiioI @ FUNCTION1 @ FUNCTION2 )
% 2.14/2.38       => ! [INST1: $i,INST2: $i,INST3: $i] :
% 2.14/2.38            ( ( ( domain_THFTYPE_IiiioI @ FUNCTION1 @ n1_THFTYPE_i @ CLASS1 )
% 2.14/2.38              & ( instance_THFTYPE_IiioI @ INST1 @ CLASS1 )
% 2.14/2.38              & ( instance_THFTYPE_IiioI @ INST2 @ CLASS1 )
% 2.14/2.38              & ( instance_THFTYPE_IiioI @ INST3 @ CLASS1 )
% 2.14/2.38              & ( domain_THFTYPE_IiiioI @ FUNCTION2 @ n1_THFTYPE_i @ CLASS2 )
% 2.14/2.38              & ( instance_THFTYPE_IiioI @ INST1 @ CLASS2 )
% 2.14/2.38              & ( instance_THFTYPE_IiioI @ INST2 @ CLASS2 )
% 2.14/2.38              & ( instance_THFTYPE_IiioI @ INST3 @ CLASS2 ) )
% 2.14/2.38           => ( ( lAssignmentFn_THFTYPE_IiiiiI @ FUNCTION1 @ INST1 @ ( lAssignmentFn_THFTYPE_IiiiiI @ FUNCTION2 @ INST2 @ INST3 ) )
% 2.14/2.38              = ( lAssignmentFn_THFTYPE_IiiiiI @ FUNCTION2 @ ( lAssignmentFn_THFTYPE_IiiiiI @ FUNCTION1 @ INST1 @ INST2 ) @ ( lAssignmentFn_THFTYPE_IiiiiI @ FUNCTION1 @ INST1 @ INST3 ) ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax656,axiom,
% 2.14/2.38      ! [DEVICE: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ DEVICE @ lMeasuringDevice_THFTYPE_i )
% 2.14/2.38       => ( hasPurpose_THFTYPE_IiooI @ DEVICE
% 2.14/2.38          @ ? [MEASURE: $i] :
% 2.14/2.38              ( ( instance_THFTYPE_IiioI @ MEASURE @ lMeasuring_THFTYPE_i )
% 2.14/2.38              & ( instrument_THFTYPE_IiioI @ MEASURE @ DEVICE ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax657,axiom,
% 2.14/2.38      ! [OBJ: $i,MOTION: $i,PLACE: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ MOTION @ lMotion_THFTYPE_i )
% 2.14/2.38          & ( patient_THFTYPE_IiioI @ MOTION @ OBJ )
% 2.14/2.38          & ( destination_THFTYPE_IiioI @ MOTION @ PLACE ) )
% 2.14/2.38       => ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ MOTION ) ) @ ( located_THFTYPE_IiioI @ OBJ @ PLACE ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Detaching EnglishLanguage "A &%Process where the &%agent detaches one thing from something else. Note that &%Detaching is different from &%Separating in that the latter applies to &%Substances, while the former applies to &%CorpuscularObjects. Note too that &%Detaching is different from &%Removing in that one or both of the two things which are detached may or may not be moved from the location where they were attached.")
% 2.14/2.38  %KIF documentation:(documentation expressedInLanguage EnglishLanguage "(&%expressedInLanguage ?EXPRESS ?LANG) means that the &%LinguisticExpression ?EXPRESS is part of the &%Language ?LANG.")
% 2.14/2.38  thf(ax658,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lCaseRole_THFTYPE_i @ lBinaryPredicate_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Drinking EnglishLanguage "The &%Process by which liquid &%Food, i.e. &%Beverages, are incorporated into an &%Animal.")
% 2.14/2.38  thf(ax659,axiom,
% 2.14/2.38      ! [PERSON: $i,ORG: $i] :
% 2.14/2.38        ( ( employs_THFTYPE_IiioI @ ORG @ PERSON )
% 2.14/2.38       => ? [POSITION: $i] : ( occupiesPosition_THFTYPE_IiiioI @ PERSON @ POSITION @ ORG ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax660,axiom,
% 2.14/2.38      ! [SITUATION1: $o,SITUATION2: $o,TIME: $i] :
% 2.14/2.38        ( ( ( holdsDuring_THFTYPE_IiooI @ TIME @ SITUATION1 )
% 2.14/2.38          & ( entails_THFTYPE_IoooI @ SITUATION1 @ SITUATION2 ) )
% 2.14/2.38       => ( holdsDuring_THFTYPE_IiooI @ TIME @ SITUATION2 ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation GeneralizedIntersectionFn EnglishLanguage "A &%UnaryFunction that takes a &%SetOrClass of &%Classes as its single argument and returns a &%SetOrClass which is the intersection of all of the &%Classes in the original &%SetOrClass, i.e. the &%SetOrClass containing just those instances which are instances of all instances of the original &%SetOrClass.")
% 2.14/2.38  %KIF documentation:(documentation BodyCavity EnglishLanguage "Any &%BodyPart which contains an unfilled space, e.g. &%BodyVessels, the atria and ventricles of the heart, the lungs, etc.")
% 2.14/2.38  thf(ax661,axiom,
% 2.14/2.38      range_THFTYPE_IiioI @ lAbsoluteValueFn_THFTYPE_i @ lNonnegativeRealNumber_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation RelationalAttribute EnglishLanguage "Any &%Attribute that an &%Entity has by virtue of a relationship that it bears to another &%Entity or set of &%Entities, e.g. &%SocialRoles and &%PositionalAttributes.")
% 2.14/2.38  thf(ax662,axiom,
% 2.14/2.38      ! [P: $i,O2: $i,O1: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ P @ lSymmetricPositionalAttribute_THFTYPE_i )
% 2.14/2.38          & ( orientation_THFTYPE_IiiioI @ O1 @ O2 @ P ) )
% 2.14/2.38       => ( orientation_THFTYPE_IiiioI @ O2 @ O1 @ P ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax663,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lAdverb_THFTYPE_i @ lWord_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax664,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lLandArea_THFTYPE_i @ lGeographicArea_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Explanation EnglishLanguage "An &%Argument where the conclusion is an observed fact and the premises are other facts which collectively imply the conclusion. Note that this is the they hypothetico-deductive model of explanation.")
% 2.14/2.38  thf(ax665,axiom,
% 2.14/2.38      disjoint_THFTYPE_IiioI @ lSaltWaterArea_THFTYPE_i @ lFreshWaterArea_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax666,axiom,
% 2.14/2.38      ! [HOLE1: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ HOLE1 @ lHole_THFTYPE_i )
% 2.14/2.38       => ? [HOLE2: $i] : ( properPart_THFTYPE_IiioI @ HOLE2 @ HOLE1 ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Invertebrate EnglishLanguage "An &%Animal which has no spinal column.")
% 2.14/2.38  thf(ax667,axiom,
% 2.14/2.38      ! [TIME: $i,FORMULA: $o,ENTITY: $i,NORM: $i] :
% 2.14/2.38        ( ( holdsDuring_THFTYPE_IiooI @ TIME @ ( deprivesNorm_THFTYPE_IioioI @ ENTITY @ FORMULA @ NORM ) )
% 2.14/2.38       => ( ( holdsDuring_THFTYPE_IiooI @ ( lImmediatePastFn_THFTYPE_IiiI @ TIME ) @ ( modalAttribute_THFTYPE_IoioI @ FORMULA @ NORM ) )
% 2.14/2.38          & ( holdsDuring_THFTYPE_IiooI @ ( lImmediateFutureFn_THFTYPE_IiiI @ TIME ) @ ( (~) @ ( modalAttribute_THFTYPE_IoioI @ FORMULA @ NORM ) ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax668,axiom,
% 2.14/2.38      ! [PATIENT: $i,KILL: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ KILL @ lKilling_THFTYPE_i )
% 2.14/2.38          & ( patient_THFTYPE_IiioI @ KILL @ PATIENT ) )
% 2.14/2.38       => ( ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ KILL ) ) @ ( attribute_THFTYPE_IiioI @ PATIENT @ lLiving_THFTYPE_i ) )
% 2.14/2.38          & ( holdsDuring_THFTYPE_IiooI @ ( lFutureFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ KILL ) ) @ ( attribute_THFTYPE_IiioI @ PATIENT @ lDead_THFTYPE_i ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Enzyme EnglishLanguage "A complex &%Protein that is produced by living cells and which catalyzes specific biochemical reactions. There are six main types of enzymes: oxidoreductases, transferases, hydrolases, lyases, isomerases, and ligases.")
% 2.14/2.38  thf(ax669,axiom,
% 2.14/2.38      ! [POINT2: $i,POINT1: $i,INTERVAL: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ POINT1 @ lTimePoint_THFTYPE_i )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ POINT2 @ lTimePoint_THFTYPE_i )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ INTERVAL @ lTimeInterval_THFTYPE_i )
% 2.14/2.38          & ( ( lTimeIntervalFn_THFTYPE_IiiiI @ POINT1 @ POINT2 )
% 2.14/2.38            = INTERVAL ) )
% 2.14/2.38       => ! [POINT: $i] :
% 2.14/2.38            ( ( temporallyBetweenOrEqual_THFTYPE_IiiioI @ POINT1 @ POINT @ POINT2 )
% 2.14/2.38          <=> ( temporalPart_THFTYPE_IiioI @ POINT @ INTERVAL ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax670,axiom,
% 2.14/2.38      ! [HOLE: $i,OBJ1: $i,OBJ2: $i] :
% 2.14/2.38        ( ( ( hole_THFTYPE_IiioI @ HOLE @ OBJ1 )
% 2.14/2.38          & ( hole_THFTYPE_IiioI @ HOLE @ OBJ2 ) )
% 2.14/2.38       => ? [OBJ3: $i] :
% 2.14/2.38            ( ( properPart_THFTYPE_IiioI @ OBJ3 @ ( lMereologicalProductFn_THFTYPE_IiiiI @ OBJ1 @ OBJ2 ) )
% 2.14/2.38            & ( hole_THFTYPE_IiioI @ HOLE @ OBJ3 ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax671,axiom,
% 2.14/2.38      ! [SENTENCE: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ SENTENCE @ lSentence_THFTYPE_i )
% 2.14/2.38       => ? [PHRASE1: $i,PHRASE2: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ PHRASE1 @ lNounPhrase_THFTYPE_i )
% 2.14/2.38            & ( instance_THFTYPE_IiioI @ PHRASE2 @ lVerbPhrase_THFTYPE_i )
% 2.14/2.38            & ( part_THFTYPE_IiioI @ PHRASE1 @ SENTENCE )
% 2.14/2.38            & ( part_THFTYPE_IiioI @ PHRASE2 @ SENTENCE ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax672,axiom,
% 2.14/2.38      ! [GROUP: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ GROUP @ lBeliefGroup_THFTYPE_i )
% 2.14/2.38       => ? [BELIEF: $o] :
% 2.14/2.38          ! [MEMB: $i] :
% 2.14/2.38            ( ( member_THFTYPE_IiioI @ MEMB @ GROUP )
% 2.14/2.38           => ( believes_THFTYPE_IiooI @ MEMB @ BELIEF ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation DevelopmentalAttribute EnglishLanguage "&%Attributes that indicate the stage of development of an &%Organism.")
% 2.14/2.38  thf(ax673,axiom,
% 2.14/2.38      ! [TO: $i,TRANSPORT: $i,MOVE: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ TRANSPORT @ lVehicle_THFTYPE_i )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ MOVE @ lTranslocation_THFTYPE_i )
% 2.14/2.38          & ( instrument_THFTYPE_IiioI @ MOVE @ TRANSPORT )
% 2.14/2.38          & ( destination_THFTYPE_IiioI @ MOVE @ TO ) )
% 2.14/2.38       => ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ MOVE ) ) @ ( located_THFTYPE_IiioI @ TRANSPORT @ TO ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax674,axiom,
% 2.14/2.38      ! [VALUE: $i,CLASS: $i,FUNCTION: $i,ROW: $i] :
% 2.14/2.38        ( ( ( rangeSubclass_THFTYPE_IiioI @ FUNCTION @ CLASS )
% 2.14/2.38          & ( ( lAssignmentFn_THFTYPE_IiiiI @ FUNCTION @ ROW )
% 2.14/2.38            = VALUE ) )
% 2.14/2.38       => ( subclass_THFTYPE_IiioI @ VALUE @ CLASS ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax675,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lSyntheticSubstance_THFTYPE_i @ lSubstance_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax676,axiom,
% 2.14/2.38      ! [OBJ: $i] :
% 2.14/2.38        ( ( attribute_THFTYPE_IiioI @ OBJ @ lWet_THFTYPE_i )
% 2.14/2.38       => ! [PART: $i] :
% 2.14/2.38            ( ( part_THFTYPE_IiioI @ PART @ OBJ )
% 2.14/2.38           => ? [SUBPART: $i] :
% 2.14/2.38                ( ( part_THFTYPE_IiioI @ SUBPART @ PART )
% 2.14/2.38                & ( attribute_THFTYPE_IiioI @ SUBPART @ lLiquid_THFTYPE_i ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax677,axiom,
% 2.14/2.38      ! [NUMBER: $i] :
% 2.14/2.38        ( ( NUMBER
% 2.14/2.38          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.38       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lOunce_THFTYPE_i )
% 2.14/2.38          = ( lMeasureFn_THFTYPE_IiiiI @ ( div_THFTYPE_IiiiI @ NUMBER @ n8_THFTYPE_i ) @ lCup_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation MilliFn EnglishLanguage "A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to .001 units of the original &%UnitOfMeasure. For example, (&%MilliFn &%Gram) is .001 &%Grams.")
% 2.14/2.38  thf(ax678,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lOlfactoryAttribute_THFTYPE_i @ lPerceptualAttribute_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax679,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lSubstance_THFTYPE_i @ lSelfConnectedObject_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax680,axiom,
% 2.14/2.38      ! [INTERVAL: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ INTERVAL @ lTimeInterval_THFTYPE_i )
% 2.14/2.38       => ( ( lPastFn_THFTYPE_IiiI @ INTERVAL )
% 2.14/2.38          = ( lTimeIntervalFn_THFTYPE_IiiiI @ lNegativeInfinity_THFTYPE_i @ ( lBeginFn_THFTYPE_IiiI @ INTERVAL ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax681,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lEducationalOrganization_THFTYPE_i @ lOrganization_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation names EnglishLanguage "(&%names ?STRING ?ENTITY) means that the thing ?ENTITY has the &%SymbolicString ?STRING as its name. Note that &%names and &%represents are the two immediate &%subrelations of &%refers. The predicate &%names is used when the referring item is merely a tag without connotative content, while the predicate &%represents is used for referring items that have such content.")
% 2.14/2.38  thf(ax682,axiom,
% 2.14/2.38      range_THFTYPE_IiioI @ lNanoFn_THFTYPE_i @ lUnitOfMeasure_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation BodyPosition EnglishLanguage "The class of &%Attributes expressing configurations of bodies or parts of bodies of animals or humans, e.g. standing, sitting, kneeling, lying down, etc.")
% 2.14/2.38  %KIF documentation:(documentation represents EnglishLanguage "A very general semiotics &%Predicate. (&%represents ?THING ?ENTITY) means that ?THING in some way indicates, expresses, connotes, pictures, describes, etc. ?ENTITY. The &%Predicates &%containsInformation and &%realization are subrelations of &%represents. Note that &%represents is a subrelation of &%refers, since something can represent something else only if it refers to this other thing. See the documentation string for &%names.")
% 2.14/2.38  thf(ax683,axiom,
% 2.14/2.38      ! [NUMBER: $i,ANGLE: $i] :
% 2.14/2.38        ( ( measure_THFTYPE_IiioI @ ANGLE @ ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lAngularDegree_THFTYPE_i ) )
% 2.14/2.38       => ( ( gtet_THFTYPE_IiioI @ NUMBER @ n0_THFTYPE_i )
% 2.14/2.38          & ( ltet_THFTYPE_IiioI @ NUMBER @ n360_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Spore EnglishLanguage "Any &%ReproductiveBody of a &%NonFloweringPlant.")
% 2.14/2.38  %KIF documentation:(documentation GeologicalProcess EnglishLanguage "The class of activities that are caused by geological forces and affect geological features, and which may affect the biosphere as well.")
% 2.14/2.38  thf(ax684,axiom,
% 2.14/2.38      trichotomizingOn_THFTYPE_IIiioIioI @ lessThanOrEqualTo_THFTYPE_IiioI @ lRealNumber_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax685,axiom,
% 2.14/2.38      ! [MONTH: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ MONTH @ lApril_THFTYPE_i )
% 2.14/2.38       => ( duration_THFTYPE_IiioI @ MONTH @ ( lMeasureFn_THFTYPE_IiiiI @ n30_THFTYPE_i @ lDayDuration_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax686,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lPrepositionalPhrase_THFTYPE_i @ lPhrase_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation surface EnglishLanguage "(&%surface ?OBJ1 ?OBJ2) means that ?OBJ1 is a maximally connected &%superficialPart of ?OBJ2. Note that some &%SelfConnectedObjects have more than one surface, e.g. a hollow object like a tennis ball has both an inner and an outer surface.")
% 2.14/2.38  %KIF documentation:(documentation Device EnglishLanguage "A &%Device is an &%Artifact whose purpose is to serve as an &%instrument in a specific subclass of &%Process.")
% 2.14/2.38  %KIF documentation:(documentation CompositeUnitOfMeasure EnglishLanguage "Instances of this &%Class are &%UnitsOfMeasure defined by the functional composition of other units, each of which might be a &%CompositeUnitOfMeasure or a &%NonCompositeUnitOfMeasure.")
% 2.14/2.38  %KIF documentation:(documentation acquaintance EnglishLanguage "(&%acquaintance ?H1 ?H2) means that ?H1 has met and knows something about ?H2, such as ?H2's name and appearance. Statements made with this predicate should be temporally specified with &%holdsDuring. Note that &%acquaintance is not symmetric. For the symmetric version, see &%mutualAcquaintance.")
% 2.14/2.38  %KIF documentation:(documentation Quantity EnglishLanguage "Any specification of how many or how much of something there is. Accordingly, there are two subclasses of &%Quantity: &%Number (how many) and &%PhysicalQuantity (how much).")
% 2.14/2.38  %KIF documentation:(documentation conclusion EnglishLanguage "(&%conclusion ?ARGUMENT ?PROPOSITION) means that the &%Proposition ?PROPOSITION is the conclusion explicitly drawn from the &%Argument ?ARGUMENT. Note that it may or may not be the case that ?ARGUMENT &%entails ?PROPOSITION.")
% 2.14/2.38  thf(ax687,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lDirectionChange_THFTYPE_i @ lMotion_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax688,axiom,
% 2.14/2.38      ! [INTERVAL1: $i,INTERVAL2: $i] :
% 2.14/2.38        ( ( during_THFTYPE_IiioI @ INTERVAL1 @ INTERVAL2 )
% 2.14/2.38       => ( ( before_THFTYPE_IiioI @ ( lEndFn_THFTYPE_IiiI @ INTERVAL1 ) @ ( lEndFn_THFTYPE_IiiI @ INTERVAL2 ) )
% 2.14/2.38          & ( before_THFTYPE_IiioI @ ( lBeginFn_THFTYPE_IiiI @ INTERVAL2 ) @ ( lBeginFn_THFTYPE_IiiI @ INTERVAL1 ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Keeping EnglishLanguage "The &%Class of &%Processes where the &%agent keeps something in a particular location for an extended period of time.")
% 2.14/2.38  thf(ax689,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lRunning_THFTYPE_i @ lAmbulating_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Below EnglishLanguage "This &%PositionalAttribute is derived from the up/ down schema and may or may not involve contact. Note that this means directly below, i.e., if one object is &%Below another object, then the projections of the two objects overlap.")
% 2.14/2.38  thf(ax690,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lRecreationOrExercise_THFTYPE_i @ lIntentionalProcess_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax691,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lPartialOrderingRelation_THFTYPE_i @ lAntisymmetricRelation_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation RankineDegree EnglishLanguage "A &%TemperatureMeasure. Note that 0 &%RankineDegrees is the same as the absolute zero (i.e. 0 &%KelvinDegrees).")
% 2.14/2.38  %KIF documentation:(documentation PseudoGraph EnglishLanguage "The &%Class of pseudographs. A pseudograph is a &%Graph containing at least one &%GraphLoop.")
% 2.14/2.38  %KIF documentation:(documentation UnitedStatesCent EnglishLanguage "A currency measure. 1 &%UnitedStatesCent is equal to .01 &%UnitedStatesDollars.")
% 2.14/2.38  thf(ax692,axiom,
% 2.14/2.38      ! [CLASS1: $i,CLASS2: $i] :
% 2.14/2.38        ( ( disjoint_THFTYPE_IiioI @ CLASS1 @ CLASS2 )
% 2.14/2.38      <=> ! [INST: $i] :
% 2.14/2.38            ( (~)
% 2.14/2.38            @ ( ( instance_THFTYPE_IiioI @ INST @ CLASS1 )
% 2.14/2.38              & ( instance_THFTYPE_IiioI @ INST @ CLASS2 ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax693,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lVehicle_THFTYPE_i @ lTransportationDevice_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax694,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lOrganization_THFTYPE_i @ lCognitiveAgent_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax695,axiom,
% 2.14/2.38      ! [OBJ: $i,PURSUE: $i,AGENT: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ PURSUE @ lPursuing_THFTYPE_i )
% 2.14/2.38          & ( agent_THFTYPE_IiioI @ PURSUE @ AGENT )
% 2.14/2.38          & ( patient_THFTYPE_IiioI @ PURSUE @ OBJ ) )
% 2.14/2.38       => ( holdsDuring_THFTYPE_IiooI @ PURSUE @ ( (~) @ ( possesses_THFTYPE_IiioI @ AGENT @ OBJ ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax696,axiom,
% 2.14/2.38      ! [TIME: $i,ORG: $i] :
% 2.14/2.38        ( ( holdsDuring_THFTYPE_IiooI @ TIME @ ( attribute_THFTYPE_IiioI @ ORG @ lLarval_THFTYPE_i ) )
% 2.14/2.38       => ( holdsDuring_THFTYPE_IiooI @ ( lPastFn_THFTYPE_IiiI @ TIME )
% 2.14/2.38          @ ? [BIRTH: $i] :
% 2.14/2.38              ( ( instance_THFTYPE_IiioI @ BIRTH @ lBirth_THFTYPE_i )
% 2.14/2.38              & ( experiencer_THFTYPE_IiioI @ BIRTH @ ORG ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax697,axiom,
% 2.14/2.38      ! [ORGANISM: $i,DIGEST: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ DIGEST @ lDigesting_THFTYPE_i )
% 2.14/2.38          & ( agent_THFTYPE_IiioI @ DIGEST @ ORGANISM ) )
% 2.14/2.38       => ? [INGEST: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ INGEST @ lIngesting_THFTYPE_i )
% 2.14/2.38            & ( agent_THFTYPE_IiioI @ INGEST @ ORGANISM )
% 2.14/2.38            & ( overlapsTemporally_THFTYPE_IiioI @ ( lWhenFn_THFTYPE_IiiI @ INGEST ) @ ( lWhenFn_THFTYPE_IiiI @ DIGEST ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax698,axiom,
% 2.14/2.38      disjointDecomposition_THFTYPE_IiiioI @ lFood_THFTYPE_i @ lMeat_THFTYPE_i @ lBeverage_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax699,axiom,
% 2.14/2.38      ! [OBJ: $i,NUMBER2: $i,ROW: $i,NUMBER1: $i] :
% 2.14/2.38        ( ( contraryAttribute_THFTYPE_IioI @ ROW )
% 2.14/2.38       => ! [ATTR1: $i,ATTR2: $i] :
% 2.14/2.38            ( ( ( ATTR1
% 2.14/2.38                = ( lListOrderFn_THFTYPE_IiiiI @ ( lListFn_THFTYPE_IiiI @ ROW ) @ NUMBER1 ) )
% 2.14/2.38              & ( ATTR2
% 2.14/2.38                = ( lListOrderFn_THFTYPE_IiiiI @ ( lListFn_THFTYPE_IiiI @ ROW ) @ NUMBER2 ) )
% 2.14/2.38              & ( (~) @ ( NUMBER1 = NUMBER2 ) ) )
% 2.14/2.38           => ( ( property_THFTYPE_IiioI @ OBJ @ ATTR1 )
% 2.14/2.38             => ( (~) @ ( property_THFTYPE_IiioI @ OBJ @ ATTR2 ) ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation TernaryRelation EnglishLanguage "&%TernaryRelations relate three items. The two &%subclasses of &%TernaryRelation are &%TernaryPredicate and &%BinaryFunction.")
% 2.14/2.38  %KIF documentation:(documentation Pi EnglishLanguage "&%Pi is the &%RealNumber that is the ratio of the perimeter of a circle to its diameter. It is approximately equal to 3.141592653589793.")
% 2.14/2.38  thf(ax700,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lFern_THFTYPE_i @ lNonFloweringPlant_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation origin EnglishLanguage "(&%origin ?PROCESS ?SOURCE) means that ?SOURCE indicates where the ?Process began. Note that this relation implies that ?SOURCE is present at the beginning of the process, but need not participate throughout the process. For example, the submarine is the &%origin in the following proposition: the missile was launched from a submarine.")
% 2.14/2.38  %KIF documentation:(documentation SaltWaterArea EnglishLanguage "A &%WaterArea whose &%Water is saline, e.g. oceans and seas.")
% 2.14/2.38  %KIF documentation:(documentation Roadway EnglishLanguage "&%Roadway is the subclass of &%LandTransitways that are areas intended for surface travel by self-powered, wheeled vehicles, excluding those that travel on tracks. &%Roadways have been at least minimally improved to enable the passage of vehicles. &%Roadways include dirt and gravelled roads, paved streets, and expressways.")
% 2.14/2.38  %KIF documentation:(documentation parent EnglishLanguage "The general relationship of parenthood. (&%parent ?CHILD ?PARENT) means that ?PARENT is a biological parent of ?CHILD.")
% 2.14/2.38  %KIF documentation:(documentation PsychologicalAttribute EnglishLanguage "&%Attributes that characterize the mental or behavioral life of an &%Organism.")
% 2.14/2.38  thf(ax701,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lWearableItem_THFTYPE_i @ lArtifact_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation during EnglishLanguage "(&%during ?INTERVAL1 ?INTERVAL2) means that ?INTERVAL1 starts after and ends before ?INTERVAL2.")
% 2.14/2.38  thf(ax702,axiom,
% 2.14/2.38      ! [PROC: $i,TIME1: $i] :
% 2.14/2.38        ( ( frequency_THFTYPE_IiioI @ PROC @ TIME1 )
% 2.14/2.38       => ! [TIME2: $i] :
% 2.14/2.38            ( ( duration_THFTYPE_IiioI @ TIME2 @ TIME1 )
% 2.14/2.38           => ? [POSITION: $i] :
% 2.14/2.38                ( ( temporalPart_THFTYPE_IiioI @ POSITION @ TIME2 )
% 2.14/2.38                & ( holdsDuring_THFTYPE_IiooI @ POSITION
% 2.14/2.38                  @ ? [INST: $i] : ( instance_THFTYPE_IiioI @ INST @ PROC ) ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax703,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lContinuousFunction_THFTYPE_i @ lFunction_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation immediateSubclass EnglishLanguage "A &%SetOrClass ?CLASS1 is an &%immediateSubclass of another &%SetOrClass ?CLASS2 just in case ?CLASS1 is a subclass of ?CLASS2 and there is no other subclass of ?CLASS2 such that ?CLASS1 is also a subclass of it.")
% 2.14/2.38  thf(ax704,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i @ lAntisymmetricRelation_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax705,axiom,
% 2.14/2.38      ! [COLL1: $i,COLL2: $i] :
% 2.14/2.38        ( ( subCollection_THFTYPE_IiioI @ COLL1 @ COLL2 )
% 2.14/2.38      <=> ! [MEMBER: $i] :
% 2.14/2.38            ( ( member_THFTYPE_IiioI @ MEMBER @ COLL1 )
% 2.14/2.38           => ( member_THFTYPE_IiioI @ MEMBER @ COLL2 ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation StreamWaterArea EnglishLanguage "A relatively narrow &%WaterArea where the water flows constantly and in the same direction, e.g. a river, a stream, etc.")
% 2.14/2.38  thf(ax706,axiom,
% 2.14/2.38      ! [X: $i,Y: $i] :
% 2.14/2.38        ( ( leader_THFTYPE_IiioI @ X @ Y )
% 2.14/2.38       => ( attribute_THFTYPE_IiioI @ Y @ lLiving_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Comparing EnglishLanguage "The &%Class of &%IntentionalPsychologicalProcesses which involve comparing, relating, contrasting, etc. the properties of two or more &%Entities.")
% 2.14/2.38  thf(ax707,axiom,
% 2.14/2.38      ! [INT2: $i,INT1: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ INT1 @ lInteger_THFTYPE_i )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ INT2 @ lInteger_THFTYPE_i ) )
% 2.14/2.38       => ( (~)
% 2.14/2.38          @ ( ( lt_THFTYPE_IiioI @ INT1 @ INT2 )
% 2.14/2.38            & ( lt_THFTYPE_IiioI @ INT2 @ ( lSuccessorFn_THFTYPE_IiiI @ INT1 ) ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax708,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lEnzyme_THFTYPE_i @ lProtein_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax709,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lCommercialAgent_THFTYPE_i @ lAgent_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax710,axiom,
% 2.14/2.38      disjointDecomposition_THFTYPE_IiiiiiioI @ lMammal_THFTYPE_i @ lAquaticMammal_THFTYPE_i @ lHoofedMammal_THFTYPE_i @ lMarsupial_THFTYPE_i @ lRodent_THFTYPE_i @ lPrimate_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Pretending EnglishLanguage "Any &%SocialInteraction where a &%CognitiveAgent or &%Group of &%CognitiveAgents attempts to make another &%CognitiveAgent or &%Group of &%CognitiveAgents believe something that is false. This covers deceit, affectation, impersonation, and entertainment productions, to give just a few examples.")
% 2.14/2.38  thf(ax711,axiom,
% 2.14/2.38      ! [FORMULA: $o] :
% 2.14/2.38        ( ( modalAttribute_THFTYPE_IoioI @ FORMULA @ lLikely_THFTYPE_i )
% 2.14/2.38       => ( gt_THFTYPE_IiioI @ ( lProbabilityFn_THFTYPE_IoiI @ ( truth_THFTYPE_IoooI @ FORMULA @ $true ) ) @ ( lProbabilityFn_THFTYPE_IoiI @ ( truth_THFTYPE_IoooI @ FORMULA @ $false ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Centimeter EnglishLanguage "Submultiple of &%Meter. Symbol: cm. It is the 100th part of a &%Meter")
% 2.14/2.38  %KIF documentation:(documentation Measuring EnglishLanguage "The &%Class of &%Calculating &%Processes where the aim is to determine the &%PhysicalQuantity of some aspect of the &%patient.")
% 2.14/2.38  thf(ax712,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lSubstituting_THFTYPE_i @ lTransfer_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax713,axiom,
% 2.14/2.38      ! [POINT: $i,FIGURE1: $i,FIGURE2: $i] :
% 2.14/2.38        ( ( pointOfIntersection_THFTYPE_IiiioI @ FIGURE1 @ FIGURE2 @ POINT )
% 2.14/2.38       => ( ( pointOfFigure_THFTYPE_IiioI @ POINT @ FIGURE1 )
% 2.14/2.38          & ( pointOfFigure_THFTYPE_IiioI @ POINT @ FIGURE2 ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax714,axiom,
% 2.14/2.38      ! [OBJ: $i,TASTE: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ TASTE @ lTasting_THFTYPE_i )
% 2.14/2.38          & ( patient_THFTYPE_IiioI @ TASTE @ OBJ ) )
% 2.14/2.38       => ? [ATTR: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ ATTR @ lTasteAttribute_THFTYPE_i )
% 2.14/2.38            & ( attribute_THFTYPE_IiioI @ OBJ @ ATTR ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation UnitOfMass EnglishLanguage "Every instance of this &%Class is a &%UnitOfMeasure that can be used with &%MeasureFn to form instances of &%MassMeasure, which denote the amount of matter in &%PhysicalObjects.")
% 2.14/2.38  thf(ax715,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lDetaching_THFTYPE_i @ lDualObjectProcess_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax716,axiom,
% 2.14/2.38      ! [ANIMAL: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ ANIMAL @ lAnimal_THFTYPE_i )
% 2.14/2.38       => ? [ATTR: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ ATTR @ lSexAttribute_THFTYPE_i )
% 2.14/2.38            & ( attribute_THFTYPE_IiioI @ ANIMAL @ ATTR ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax717,axiom,
% 2.14/2.38      range_THFTYPE_IiioI @ lImmediateFutureFn_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax718,axiom,
% 2.14/2.38      partition_THFTYPE_IiiioI @ lAnatomicalStructure_THFTYPE_i @ lAnimalAnatomicalStructure_THFTYPE_i @ lPlantAnatomicalStructure_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax719,axiom,
% 2.14/2.38      range_THFTYPE_IiioI @ lPastFn_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation containsInformation EnglishLanguage "A subrelation of &%represents. This predicate relates a &%ContentBearingPhysical to the &%Proposition that is expressed by the &%ContentBearingPhysical. Examples include the relationships between a physical novel and its story and between a printed score and its musical content.")
% 2.14/2.38  %KIF documentation:(documentation AtomicNucleus EnglishLanguage "The core of the &%Atom. It is composed of &%Protons and &%Neutrons.")
% 2.14/2.38  thf(ax720,axiom,
% 2.14/2.38      ! [ORG: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ ORG @ lMilitaryForce_THFTYPE_i )
% 2.14/2.38       => ( capability_THFTYPE_IiIiioIioI @ lViolentContest_THFTYPE_i @ agent_THFTYPE_IiioI @ ORG ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax721,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lStateOrProvince_THFTYPE_i @ lGeopoliticalArea_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax722,axiom,
% 2.14/2.38      ! [MACHINE: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ MACHINE @ lMachine_THFTYPE_i )
% 2.14/2.38       => ? [COMP1: $i,COMP2: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ COMP1 @ lEngineeringComponent_THFTYPE_i )
% 2.14/2.38            & ( instance_THFTYPE_IiioI @ COMP2 @ lEngineeringComponent_THFTYPE_i )
% 2.14/2.38            & ( (~) @ ( COMP1 = COMP2 ) )
% 2.14/2.38            & ( part_THFTYPE_IiioI @ COMP1 @ MACHINE )
% 2.14/2.38            & ( part_THFTYPE_IiioI @ COMP2 @ MACHINE ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation IntentionalPsychologicalProcess EnglishLanguage "An &%IntentionalProcess that can be realized entirely within the mind or brain of an &%Organism. Thus, for example, &%Reasoning is a subclass of &%IntentionalPsychologicalProcess, because one can reason simply by exercising one's mind/ brain. On the other hand, &%RecreationOrExercise is not a subclass of &%IntentionalPsychologicalProcess, because many instances of &%RecreationOrExercise necessarily have &%subProcesses of &%BodyMotion.")
% 2.14/2.38  %KIF documentation:(documentation subGraph EnglishLanguage "The relation between two &%Graphs when one &%Graph is a part of the other. (&%subGraph ?GRAPH1 ?GRAPH2) means that ?GRAPH1 is a part of ?GRAPH2.")
% 2.14/2.38  thf(ax723,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lGraphArc_THFTYPE_i @ lGraphElement_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax724,axiom,
% 2.14/2.38      ! [TEMP2: $i,TEMP1: $i,TIME: $i,SUBSTANCE: $i,TYPE: $i,MEASURE: $i] :
% 2.14/2.38        ( ( ( boilingPoint_THFTYPE_IiioI @ TYPE @ ( lMeasureFn_THFTYPE_IiiiI @ TEMP1 @ MEASURE ) )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ SUBSTANCE @ TYPE )
% 2.14/2.38          & ( holdsDuring_THFTYPE_IiooI @ TIME @ ( measure_THFTYPE_IiioI @ SUBSTANCE @ ( lMeasureFn_THFTYPE_IiiiI @ TEMP2 @ MEASURE ) ) )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ MEASURE @ lUnitOfTemperature_THFTYPE_i )
% 2.14/2.38          & ( gtet_THFTYPE_IiioI @ TEMP2 @ TEMP1 ) )
% 2.14/2.38       => ( ( holdsDuring_THFTYPE_IiooI @ TIME @ ( attribute_THFTYPE_IiioI @ SUBSTANCE @ lGas_THFTYPE_i ) )
% 2.14/2.38          | ? [BOIL: $i] :
% 2.14/2.38              ( ( overlapsTemporally_THFTYPE_IiioI @ ( lWhenFn_THFTYPE_IiiI @ BOIL ) @ TIME )
% 2.14/2.38              & ( instance_THFTYPE_IiioI @ BOIL @ lBoiling_THFTYPE_i )
% 2.14/2.38              & ( patient_THFTYPE_IiioI @ BOIL @ SUBSTANCE ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax725,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lCommitting_THFTYPE_i @ lLinguisticCommunication_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Listening EnglishLanguage "Any instance of &%Hearing which is intentional.")
% 2.14/2.38  %KIF documentation:(documentation GraphElement EnglishLanguage "Noncompositional parts of &%Graphs. These parts are restricted to &%GraphNodes and &%GraphArcs.")
% 2.14/2.38  %KIF documentation:(documentation SecondFn EnglishLanguage "A &%BinaryFunction that assigns a &%PositiveRealNumber and a subclass of &%Minutes to the &%Seconds within each &%Minute corresponding to that &%PositiveRealNumber. For example, (&%SecondFn 4 (&%MinuteFn 5 &%Hour)) is the &%Class of all fourth &%Seconds of every fifth &%Minute of every hour. For another example, (&%SecondFn 8 &%Minute) would return the eighth second of every minute. For still another example, (&%SecondFn 9 (&%MinuteFn 15 (&%HourFn 14 (&%DayFn 18 (&%MonthFn &%August (&%YearFn 1912)))))) denotes 9 seconds and 15 minutes after 2 PM on the 18th day of August 1912.")
% 2.14/2.38  %KIF documentation:(documentation Attribute EnglishLanguage "Qualities which we cannot or choose not to reify into subclasses of &%Object.")
% 2.14/2.38  %KIF documentation:(documentation HourFn EnglishLanguage "A &%BinaryFunction that assigns a &%PositiveRealNumber and a subclass of &%Days to the &%Hours within each &%Day corresponding to that &%NonnegativeInteger. For example, (&%HourFn 12 &%Thursday) is the &%Class of all instances of noon Thursday. For another example, (&%HourFn 0 &%Day) would return the class of all instances of midnight. For still another example, (&%HourFn 14 (&%DayFn 18 (&%MonthFn &%August (&%YearFn 1912)))) denotes 2 PM on the 18th day of August 1912.")
% 2.14/2.38  thf(ax726,axiom,
% 2.14/2.38      ! [NUMBER: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ NUMBER @ lEvenInteger_THFTYPE_i )
% 2.14/2.38       => ( ( lRemainderFn_THFTYPE_IiiiI @ NUMBER @ n2_THFTYPE_i )
% 2.14/2.38          = n0_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation WeekDuration EnglishLanguage "Time unit. A week's duration is seven days.")
% 2.14/2.38  thf(ax727,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lLiquidMixture_THFTYPE_i @ lMixture_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax728,axiom,
% 2.14/2.38      ! [COMP: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ COMP @ lEngineeringComponent_THFTYPE_i )
% 2.14/2.38       => ? [DEVICE: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ DEVICE @ lDevice_THFTYPE_i )
% 2.14/2.38            & ( component_THFTYPE_IiioI @ COMP @ DEVICE ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax729,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lCommunication_THFTYPE_i @ lContentBearingProcess_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax730,axiom,
% 2.14/2.38      ! [NUMBER: $i] :
% 2.14/2.38        ( ( NUMBER
% 2.14/2.38          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.38       => ( ltet_THFTYPE_IiioI @ ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lMonthDuration_THFTYPE_i ) @ ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n31_THFTYPE_i ) @ lDayDuration_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax731,axiom,
% 2.14/2.38      ! [NODE: $i,GRAPH: $i,ARC: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ GRAPH @ lGraphPath_THFTYPE_i )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ ARC @ lGraphArc_THFTYPE_i )
% 2.14/2.38          & ( graphPart_THFTYPE_IiioI @ ARC @ GRAPH ) )
% 2.14/2.38       => ( ( ( lInitialNodeFn_THFTYPE_IiiI @ ARC )
% 2.14/2.38            = NODE )
% 2.14/2.38         => ( (~)
% 2.14/2.38            @ ? [OTHER: $i] :
% 2.14/2.38                ( ( ( lInitialNodeFn_THFTYPE_IiiI @ OTHER )
% 2.14/2.38                  = NODE )
% 2.14/2.38                & ( (~) @ ( OTHER = ARC ) ) ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax732,axiom,
% 2.14/2.38      ! [OBJ: $i,AGENT: $i] :
% 2.14/2.38        ( ( exploits_THFTYPE_IiioI @ OBJ @ AGENT )
% 2.14/2.38       => ? [PROCESS: $i] :
% 2.14/2.38            ( ( agent_THFTYPE_IiioI @ PROCESS @ AGENT )
% 2.14/2.38            & ( resource_THFTYPE_IiioI @ PROCESS @ OBJ ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax733,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lProbabilityRelation_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Vitamin EnglishLanguage "A &%Nutrient present in natural products or made synthetically, which is essential in the diet of &%Humans and other higher &%Animals. Included here are &%Vitamin precursors and provitamins.")
% 2.14/2.38  %KIF documentation:(documentation FreshWaterArea EnglishLanguage "A &%WaterArea whose &%Water is not saline, e.g. most rivers and lakes.")
% 2.14/2.38  thf(ax734,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lTransitway_THFTYPE_i @ lRegion_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Guiding EnglishLanguage "Any &%IntentionalProcess where the &%agent tries to direct the behavior of another &%Object, whether an &%Agent or not.")
% 2.14/2.38  %KIF documentation:(documentation Proposition EnglishLanguage "&%Propositions are &%Abstract entities that express a complete thought or a set of such thoughts. As an example, the formula '(instance Yojo Cat)' expresses the &%Proposition that the entity named Yojo is an element of the &%Class of Cats. Note that propositions are not restricted to the content expressed by individual sentences of a &%Language. They may encompass the content expressed by theories, books, and even whole libraries. It is important to distinguish &%Propositions from the &%ContentBearingObjects that express them. A &%Proposition is a piece of information, e.g. that the cat is on the mat, but a &%ContentBearingObject is an &%Object that represents this information. A &%Proposition is an abstraction that may have multiple representations: strings, sounds, icons, etc. For example, the &%Proposition that the cat is on the mat is represented here as a string of graphical characters displayed on a monitor and/ or printed on paper, but it can be represented by a sequence of sounds or by some non-latin alphabet or by some cryptographic form")
% 2.14/2.38  %KIF documentation:(documentation angularMeasure EnglishLanguage "(&%angularMeasure ?ANGLE ?MEASURE) means that the two-dimensional geometric angle ?ANGLE has the &%PlaneAngleMeasure of ?MEASURE.")
% 2.14/2.38  thf(ax735,axiom,
% 2.14/2.38      ! [INTERVAL: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ INTERVAL @ lTimeInterval_THFTYPE_i )
% 2.14/2.38       => ( starts_THFTYPE_IiioI @ ( lImmediateFutureFn_THFTYPE_IiiI @ INTERVAL ) @ ( lFutureFn_THFTYPE_IiiI @ INTERVAL ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax736,axiom,
% 2.14/2.38      ! [ANAT: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ ANAT @ lAnatomicalStructure_THFTYPE_i )
% 2.14/2.38       => ? [ORGANISM: $i,TIME: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ ORGANISM @ lOrganism_THFTYPE_i )
% 2.14/2.38            & ( temporalPart_THFTYPE_IiioI @ TIME @ ( lWhenFn_THFTYPE_IiiI @ ORGANISM ) )
% 2.14/2.38            & ( holdsDuring_THFTYPE_IiooI @ TIME @ ( part_THFTYPE_IiioI @ ANAT @ ORGANISM ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax737,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lWorm_THFTYPE_i @ lInvertebrate_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax738,axiom,
% 2.14/2.38      ! [X: $i,Y: $i] :
% 2.14/2.38        ( ( subclass_THFTYPE_IiioI @ X @ Y )
% 2.14/2.38       => ( ( instance_THFTYPE_IiioI @ X @ lSetOrClass_THFTYPE_i )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ Y @ lSetOrClass_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax739,axiom,
% 2.14/2.38      ! [POINT3: $i,POINT2: $i,POINT1: $i] :
% 2.14/2.38        ( ( temporallyBetweenOrEqual_THFTYPE_IiiioI @ POINT1 @ POINT2 @ POINT3 )
% 2.14/2.38      <=> ( ( beforeOrEqual_THFTYPE_IiioI @ POINT1 @ POINT2 )
% 2.14/2.38          & ( beforeOrEqual_THFTYPE_IiioI @ POINT2 @ POINT3 ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax740,axiom,
% 2.14/2.38      ! [POINT: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ POINT @ lTimePoint_THFTYPE_i )
% 2.14/2.38          & ( (~) @ ( POINT = lPositiveInfinity_THFTYPE_i ) ) )
% 2.14/2.38       => ? [OTHERPOINT: $i] : ( temporallyBetween_THFTYPE_IiiioI @ POINT @ OTHERPOINT @ lPositiveInfinity_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax741,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lManufacture_THFTYPE_i @ lMaking_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation property EnglishLanguage "This &%Predicate holds between an instance of &%Entity and an instance of &%Attribute. (&%property ?ENTITY ?ATTR) means that ?ENTITY has the &%Attribute ?ATTR.")
% 2.14/2.38  thf(ax742,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lLanguage_THFTYPE_i @ lLinguisticExpression_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax743,axiom,
% 2.14/2.38      ! [OBJ1: $i,OBJ2: $i] :
% 2.14/2.38        ( ( orientation_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ lNear_THFTYPE_i )
% 2.14/2.38       => ( orientation_THFTYPE_IiiioI @ OBJ2 @ OBJ1 @ lNear_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax744,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lRemoving_THFTYPE_i @ lTransfer_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation representsForAgent EnglishLanguage "A very general predicate. (&%representsForAgent ?ENTITY1 ?ENTITY2 ?AGENT) means that the ?AGENT chooses to use ?ENTITY1 to 'stand for' ?ENTITY2.")
% 2.14/2.38  thf(ax745,axiom,
% 2.14/2.38      ! [CLASS: $i,RELATION: $i > $i > $o] :
% 2.14/2.38        ( ( totalOrderingOn_THFTYPE_IIiioIioI @ RELATION @ CLASS )
% 2.14/2.38      <=> ( ( partialOrderingOn_THFTYPE_IIiioIioI @ RELATION @ CLASS )
% 2.14/2.38          & ( trichotomizingOn_THFTYPE_IIiioIioI @ RELATION @ CLASS ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation temporallyBetweenOrEqual EnglishLanguage "(&%temporallyBetweenOrEqual ?POINT1 ?POINT2 ?POINT3) means that the &%TimePoint ?POINT1 is before or equal to the &%TimePoint ?POINT2 and ?POINT2 is before or equal to the &%TimePoint ?POINT3.")
% 2.14/2.38  %KIF documentation:(documentation LogFn EnglishLanguage "(LogFn ?NUMBER ?INT) returns the logarithm of the &%RealNumber ?NUMBER in the base denoted by the &%Integer ?INT.")
% 2.14/2.38  %KIF documentation:(documentation leader EnglishLanguage "(&%leader ?INSTITUTION ?PERSON) means that the leader of ?INSTITUTION is ?PERSON.")
% 2.14/2.38  thf(ax746,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lCondensing_THFTYPE_i @ lStateChange_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation irreflexiveOn EnglishLanguage "A &%BinaryPredicate is irreflexive on a &%SetOrClass only if no instance of the &%SetOrClass bears the relation to itself.")
% 2.14/2.38  thf(ax747,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lPartialValuedRelation_THFTYPE_i @ lRelation_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation GasMixture EnglishLanguage "Any &%Mixture that satisfies two conditions, viz. it is made up predominantly of things which are a &%Gas and any component other than &%Gas in the &%Mixture is in the form of fine particles which are suspended in the &%Gas.")
% 2.14/2.38  %KIF documentation:(documentation mother EnglishLanguage "The general relationship of motherhood. (&%mother ?CHILD ?MOTHER) means that ?MOTHER is the biological mother of ?CHILD.")
% 2.14/2.38  %KIF documentation:(documentation top EnglishLanguage "(&%top ?TOP ?OBJECT) means that ?TOP is the highest maximal superficial part of ?OBJECT.")
% 2.14/2.38  thf(ax748,axiom,
% 2.14/2.38      ! [ARTIFACT: $i] :
% 2.14/2.38        ( ? [BUILD: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ BUILD @ lConstructing_THFTYPE_i )
% 2.14/2.38            & ( result_THFTYPE_IiioI @ BUILD @ ARTIFACT ) )
% 2.14/2.38      <=> ( instance_THFTYPE_IiioI @ ARTIFACT @ lStationaryArtifact_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Walking EnglishLanguage "&%Ambulating relatively slowly, i.e. moving in such a way that at least one foot is always in contact with the ground.")
% 2.14/2.38  thf(ax749,axiom,
% 2.14/2.38      disjoint_THFTYPE_IiioI @ lNounPhrase_THFTYPE_i @ lVerbPhrase_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax750,axiom,
% 2.14/2.38      ! [PROC: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ PROC @ lSingleAgentProcess_THFTYPE_i )
% 2.14/2.38       => ? [AGENT: $i] : ( agent_THFTYPE_IiioI @ PROC @ AGENT ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation BodyCovering EnglishLanguage "Any &%BodyPart which is a covering of another &%BodyPart or of an entire &%Organism. This would include the rinds of &%FruitOrVegetables and the skins of &%Animals.")
% 2.14/2.38  %KIF documentation:(documentation TotalOrderingRelation EnglishLanguage "A &%BinaryRelation is a &%TotalOrderingRelation if it is a &%PartialOrderingRelation and a &%TrichotomizingRelation.")
% 2.14/2.38  thf(ax751,axiom,
% 2.14/2.38      ! [AGENT: $i,WAR: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ WAR @ lWar_THFTYPE_i )
% 2.14/2.38          & ( agent_THFTYPE_IiioI @ WAR @ AGENT ) )
% 2.14/2.38       => ( ( instance_THFTYPE_IiioI @ AGENT @ lGeopoliticalArea_THFTYPE_i )
% 2.14/2.38          | ( ( instance_THFTYPE_IiioI @ AGENT @ lOrganization_THFTYPE_i )
% 2.14/2.38            & ! [MEMBER: $i] :
% 2.14/2.38                ( ( member_THFTYPE_IiioI @ MEMBER @ AGENT )
% 2.14/2.38               => ( instance_THFTYPE_IiioI @ MEMBER @ lGeopoliticalArea_THFTYPE_i ) ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax752,axiom,
% 2.14/2.38      ! [OBJ: $i,AGENT: $i,REL: $i > $i > $o,ROW: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IIiioIioI @ REL @ lIntentionalRelation_THFTYPE_i )
% 2.14/2.38          & ( REL @ AGENT @ ROW )
% 2.14/2.38          & ( inList_THFTYPE_IiioI @ OBJ @ ( lListFn_THFTYPE_IiiI @ ROW ) ) )
% 2.14/2.38       => ( inScopeOfInterest_THFTYPE_IiioI @ AGENT @ OBJ ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax753,axiom,
% 2.14/2.38      ! [OBJ1: $i,OBJ2: $i] :
% 2.14/2.38        ( ( contains_THFTYPE_IiioI @ OBJ1 @ OBJ2 )
% 2.14/2.38      <=> ? [HOLE: $i] :
% 2.14/2.38            ( ( hole_THFTYPE_IiioI @ HOLE @ OBJ1 )
% 2.14/2.38            & ( properlyFills_THFTYPE_IiioI @ OBJ2 @ HOLE ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Set EnglishLanguage "A &%SetOrClass that satisfies extensionality as well as other constraints specified by some choice of set theory. &%Sets differ from &%Classes in two important respects. First, &%Sets are extensional - two &%Sets with the same &%elements are identical. Second, a &%Set can be an arbitrary stock of objects. That is, there is no requirement that &%Sets have an associated condition that determines their membership. Note that &%Sets are not assumed to be unique sets, i.e. &%elements of a &%Set may occur more than once in the &%Set.")
% 2.14/2.38  thf(ax754,axiom,
% 2.14/2.38      disjointDecomposition_THFTYPE_IiiiioI @ lNonFloweringPlant_THFTYPE_i @ lAlga_THFTYPE_i @ lFern_THFTYPE_i @ lMoss_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax755,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lMilitaryForce_THFTYPE_i @ lPoliticalOrganization_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Rough EnglishLanguage "An &%Object with this &%Attribute has a rough surface.")
% 2.14/2.38  thf(ax756,axiom,
% 2.14/2.38      ! [ORG: $i] :
% 2.14/2.38        ( ( attribute_THFTYPE_IiioI @ ORG @ lEmbryonic_THFTYPE_i )
% 2.14/2.38       => ? [BODY: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ BODY @ lReproductiveBody_THFTYPE_i )
% 2.14/2.38            & ( located_THFTYPE_IiioI @ ORG @ BODY ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax757,axiom,
% 2.14/2.38      ! [NUMBER: $i] :
% 2.14/2.38        ( ( NUMBER
% 2.14/2.38          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.38       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lWeekDuration_THFTYPE_i )
% 2.14/2.38          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n7_THFTYPE_i ) @ lDayDuration_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation relatedExternalConcept EnglishLanguage "Used to signify a three-place relation between a concept in an external knowledge source, a concept in the SUMO, and the name of the other knowledge source.")
% 2.14/2.38  thf(ax758,axiom,
% 2.14/2.38      ! [NUMBER: $i] :
% 2.14/2.38        ( ( NUMBER
% 2.14/2.38          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.38       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lCelsiusDegree_THFTYPE_i )
% 2.14/2.38          = ( lMeasureFn_THFTYPE_IiiiI @ ( div_THFTYPE_IiiiI @ ( minus_THFTYPE_IiiiI @ NUMBER @ n32_THFTYPE_i ) @ n1dot8_THFTYPE_i ) @ lFahrenheitDegree_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax759,axiom,
% 2.14/2.38      ! [TEMP2: $i,TEMP1: $i,BOILING: $i,SUBSTANCE: $i,TYPE: $i,MEASURE: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ BOILING @ lBoiling_THFTYPE_i )
% 2.14/2.38          & ( boilingPoint_THFTYPE_IiioI @ TYPE @ ( lMeasureFn_THFTYPE_IiiiI @ TEMP1 @ MEASURE ) )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ SUBSTANCE @ TYPE )
% 2.14/2.38          & ( patient_THFTYPE_IiioI @ BOILING @ SUBSTANCE )
% 2.14/2.38          & ( holdsDuring_THFTYPE_IiooI @ ( lWhenFn_THFTYPE_IiiI @ BOILING ) @ ( measure_THFTYPE_IiioI @ SUBSTANCE @ ( lMeasureFn_THFTYPE_IiiiI @ TEMP2 @ MEASURE ) ) )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ MEASURE @ lUnitOfTemperature_THFTYPE_i ) )
% 2.14/2.38       => ( gtet_THFTYPE_IiioI @ TEMP2 @ TEMP1 ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax760,axiom,
% 2.14/2.38      ! [WEEK: $i,DAY1: $i,DAY2: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ DAY1 @ lTuesday_THFTYPE_i )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ DAY2 @ lWednesday_THFTYPE_i )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ WEEK @ lWeek_THFTYPE_i )
% 2.14/2.38          & ( temporalPart_THFTYPE_IiioI @ DAY1 @ WEEK )
% 2.14/2.38          & ( temporalPart_THFTYPE_IiioI @ DAY2 @ WEEK ) )
% 2.14/2.38       => ( meetsTemporally_THFTYPE_IiioI @ DAY1 @ DAY2 ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax761,axiom,
% 2.14/2.38      disjoint_THFTYPE_IiioI @ lDamaging_THFTYPE_i @ lRepairing_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax762,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lSurgery_THFTYPE_i @ lTherapeuticProcess_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax763,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lHormone_THFTYPE_i @ lBodySubstance_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax764,axiom,
% 2.14/2.38      ! [AGENT: $i,DEATH: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ DEATH @ lDeath_THFTYPE_i )
% 2.14/2.38          & ( experiencer_THFTYPE_IiioI @ DEATH @ AGENT ) )
% 2.14/2.38       => ( holdsDuring_THFTYPE_IiooI @ ( lFutureFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ DEATH ) ) @ ( attribute_THFTYPE_IiioI @ AGENT @ lDead_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Predicting EnglishLanguage "The &%Class of &%IntentionalPsychologicalProcesses which involve the formulation of a &%Proposition about a state of affairs which might be realized in the future.")
% 2.14/2.38  thf(ax765,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lWeapon_THFTYPE_i @ lDevice_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation MaximalWeightedPathFn EnglishLanguage "This &%BinaryFunction assigns two &%GraphNodes to the &%GraphPath with the largest sum of weighted arcs between the two &%GraphNodes.")
% 2.14/2.38  %KIF documentation:(documentation PrimaryColor EnglishLanguage "Colors which can be blended to form any color and which cannot be derived from any other colors.")
% 2.14/2.38  %KIF documentation:(documentation ElectronVolt EnglishLanguage "The &%ElectronVolt is an energy measure. Symbol: eV. It is the kinetic energy acquired by an electron in passing through a potential difference of 1 &%Volt in a vacuum.")
% 2.14/2.38  thf(ax766,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lYear_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Crustacean EnglishLanguage "A &%Class of &%Arthropods that mainly dwells in water and has a segmented body and a chitinous exoskeleton. Includes lobsters, crabs, shrimp, and barnacles.")
% 2.14/2.38  %KIF documentation:(documentation AttachingDevice EnglishLanguage "A &%Device whose purpose is to attach one thing to something else, e.g. nails, screws, buttons, etc.")
% 2.14/2.38  thf(ax767,axiom,
% 2.14/2.38      ! [DIGEST: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ DIGEST @ lDigesting_THFTYPE_i )
% 2.14/2.38       => ? [DECOMP: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ DECOMP @ lChemicalDecomposition_THFTYPE_i )
% 2.14/2.38            & ( subProcess_THFTYPE_IiioI @ DECOMP @ DIGEST ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax768,axiom,
% 2.14/2.38      disjoint_THFTYPE_IiioI @ lFabric_THFTYPE_i @ lStationaryArtifact_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax769,axiom,
% 2.14/2.38      partition_THFTYPE_IiiioI @ lSetOrClass_THFTYPE_i @ lSet_THFTYPE_i @ lClass_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax770,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lExpressing_THFTYPE_i @ lCommunication_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation NormativeAttribute EnglishLanguage "A &%Class containing all of the &%Attributes that are specific to morality, legality, aesthetics, etiquette, etc. Many of these attributes express a judgement that something ought or ought not to be the case.")
% 2.14/2.38  %KIF documentation:(documentation Transitway EnglishLanguage "&%Transitway is the broadest class of regions which may be passed through as a &%path in instances of &%Translocation. &%Transitway includes land, air, and sea regions, and it includes both natural and artificial transitways.")
% 2.14/2.38  %KIF documentation:(documentation Number EnglishLanguage "A measure of how many things there are, or how much there is, of a certain kind. &%Numbers are subclassed into &%RealNumber, &%ComplexNumber, and &%ImaginaryNumber.")
% 2.14/2.38  thf(ax771,axiom,
% 2.14/2.38      ! [MAT: $i,ORG: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ MAT @ lMatriculation_THFTYPE_i )
% 2.14/2.38          & ( agent_THFTYPE_IiioI @ MAT @ ORG ) )
% 2.14/2.38       => ( instance_THFTYPE_IiioI @ ORG @ lEducationalOrganization_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Separating EnglishLanguage "A &%Process where a &%SelfConnectedObject is separated into (some of) its &%parts. Note that &%Separating is different from &%Detaching in that the latter only results in the two objects not being &%connected. Note too that &%Separating is different from &%Removing in that one or both of the two things which are separated may or may not be moved from the location where they were separated.")
% 2.14/2.38  %KIF documentation:(documentation independentProbability EnglishLanguage "One of the basic &%ProbabilityRelations. (&%independentProbability ?FORMULA1 ?FORMULA2) means that the probabilities of ?FORMULA1 and ?FORMULA2 being true are independent.")
% 2.14/2.38  thf(ax772,axiom,
% 2.14/2.38      ! [NUMBER2: $i,NUMBER1: $i] :
% 2.14/2.38        ( ( gtet_THFTYPE_IiioI @ NUMBER1 @ NUMBER2 )
% 2.14/2.38      <=> ( ( NUMBER1 = NUMBER2 )
% 2.14/2.38          | ( gt_THFTYPE_IiioI @ NUMBER1 @ NUMBER2 ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation FullyFormed EnglishLanguage "The stage of an &%Organism when it has reached the end of its growth phase.")
% 2.14/2.38  %KIF documentation:(documentation Wetting EnglishLanguage "The &%Class of &%Processes where a &%Liquid is added to an &%Object.")
% 2.14/2.38  thf(ax773,axiom,
% 2.14/2.38      ! [ISLE: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ ISLE @ lIsland_THFTYPE_i )
% 2.14/2.38       => ? [WATER: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ WATER @ lWaterArea_THFTYPE_i )
% 2.14/2.38            & ( meetsSpatially_THFTYPE_IiioI @ ISLE @ WATER ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation SineFn EnglishLanguage "(&%SineFn ?DEGREE) is the sine of the &%PlaneAngleMeasure ?DEGREE. The sine of ?DEGREE is the ratio of the side opposite ?DEGREE to the hypotenuse in a right-angled triangle.")
% 2.14/2.38  thf(ax774,axiom,
% 2.14/2.38      ! [OBJECT: $i,BOTTOM: $i,TOP: $i,HEIGHT: $i] :
% 2.14/2.38        ( ( ( height_THFTYPE_IiioI @ OBJECT @ HEIGHT )
% 2.14/2.38          & ( top_THFTYPE_IiioI @ TOP @ OBJECT )
% 2.14/2.38          & ( bottom_THFTYPE_IiioI @ BOTTOM @ OBJECT ) )
% 2.14/2.38       => ( distance_THFTYPE_IiiioI @ TOP @ BOTTOM @ HEIGHT ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax775,axiom,
% 2.14/2.38      ! [NUMBER: $i] :
% 2.14/2.38        ( ( NUMBER
% 2.14/2.38          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.38       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lCelsiusDegree_THFTYPE_i )
% 2.14/2.38          = ( lMeasureFn_THFTYPE_IiiiI @ ( minus_THFTYPE_IiiiI @ NUMBER @ n273dot15_THFTYPE_i ) @ lKelvinDegree_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax776,axiom,
% 2.14/2.38      ! [AGENT: $i,CLOTHING: $i] :
% 2.14/2.38        ( ( wears_THFTYPE_IiioI @ AGENT @ CLOTHING )
% 2.14/2.38       => ( located_THFTYPE_IiioI @ CLOTHING @ AGENT ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation UniqueList EnglishLanguage "A &%List in which no item appears more than once, i.e. a &%List for which there are no distinct numbers ?NUMBER1 and ?NUMBER2 such that (&%ListOrderFn ?LIST ?NUMBER1) and (&%ListOrderFn ?LIST ?NUMBER2) return the same value.")
% 2.14/2.38  thf(ax777,axiom,
% 2.14/2.38      range_THFTYPE_IiioI @ lMereologicalDifferenceFn_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Physical EnglishLanguage "An entity that has a location in space-time. Note that locations are themselves understood to have a location in space-time.")
% 2.14/2.38  thf(ax778,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lMeeting_THFTYPE_i @ lSocialInteraction_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax779,axiom,
% 2.14/2.38      subAttribute_THFTYPE_IiioI @ lWet_THFTYPE_i @ lDamp_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax780,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lEducationalProcess_THFTYPE_i @ lGuiding_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation TangentFn EnglishLanguage "(&%TangentFn ?DEGREE) is the tangent of the &%PlaneAngleMeasure ?DEGREE. The tangent of ?DEGREE is the ratio of the side opposite ?DEGREE to the side next to ?DEGREE in a right-angled triangle.")
% 2.14/2.38  thf(ax781,axiom,
% 2.14/2.38      ! [INTERVAL1: $i,INTERVAL2: $i] :
% 2.14/2.38        ( ( earlier_THFTYPE_IiioI @ INTERVAL1 @ INTERVAL2 )
% 2.14/2.38      <=> ( before_THFTYPE_IiioI @ ( lEndFn_THFTYPE_IiiI @ INTERVAL1 ) @ ( lBeginFn_THFTYPE_IiiI @ INTERVAL2 ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax782,axiom,
% 2.14/2.38      ! [MINUTE: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ MINUTE @ lMinute_THFTYPE_i )
% 2.14/2.38       => ( ( lCardinalityFn_THFTYPE_IiiI @ ( lTemporalCompositionFn_THFTYPE_IiiiI @ MINUTE @ lSecond_THFTYPE_i ) )
% 2.14/2.38          = n60_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax783,axiom,
% 2.14/2.38      ! [MOLE: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ MOLE @ lMolecule_THFTYPE_i )
% 2.14/2.38       => ? [ATOM1: $i,ATOM2: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ ATOM1 @ lAtom_THFTYPE_i )
% 2.14/2.38            & ( instance_THFTYPE_IiioI @ ATOM2 @ lAtom_THFTYPE_i )
% 2.14/2.38            & ( part_THFTYPE_IiioI @ ATOM1 @ MOLE )
% 2.14/2.38            & ( part_THFTYPE_IiioI @ ATOM2 @ MOLE )
% 2.14/2.38            & ( (~) @ ( ATOM1 = ATOM2 ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation BinaryRelation EnglishLanguage "&%BinaryRelations are relations that are true only of pairs of things. &%BinaryRelations are represented as slots in frame systems.")
% 2.14/2.38  thf(ax784,axiom,
% 2.14/2.38      ! [DIS: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ DIS @ lDisagreeing_THFTYPE_i )
% 2.14/2.38       => ? [A1: $i,A2: $i,STATE1: $i,STATE2: $i,STMT1: $o,STMT2: $o] :
% 2.14/2.38            ( ( subProcess_THFTYPE_IiioI @ STATE1 @ DIS )
% 2.14/2.38            & ( subProcess_THFTYPE_IiioI @ STATE2 @ DIS )
% 2.14/2.38            & ( agent_THFTYPE_IiioI @ STATE1 @ A1 )
% 2.14/2.38            & ( agent_THFTYPE_IiioI @ STATE2 @ A2 )
% 2.14/2.38            & ( containsInformation_THFTYPE_IiooI @ STATE1 @ STMT1 )
% 2.14/2.38            & ( containsInformation_THFTYPE_IiooI @ STATE2 @ STMT2 )
% 2.14/2.38            & ( (~) @ ( consistent_THFTYPE_IoooI @ STMT1 @ STMT2 ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax785,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lGeometricPoint_THFTYPE_i @ lGeometricFigure_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax786,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lRelationExtendedToQuantities_THFTYPE_i @ lRelation_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Corporation EnglishLanguage "An &%Organization that has a special legal status that allows a group of persons to act as a &%CommercialAgent and that insulates the owners (shareholders) from many liabilities that might result from the corporation's operation.")
% 2.14/2.38  thf(ax787,axiom,
% 2.14/2.38      ! [OBJ: $i,AGENT: $i] :
% 2.14/2.38        ( ( wants_THFTYPE_IiioI @ AGENT @ OBJ )
% 2.14/2.38       => ? [PURP: $o] : ( hasPurposeForAgent_THFTYPE_IioioI @ OBJ @ PURP @ AGENT ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax788,axiom,
% 2.14/2.38      range_THFTYPE_IiioI @ lRationalNumberFn_THFTYPE_i @ lRationalNumber_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax789,axiom,
% 2.14/2.38      ! [CHILD: $i,PARENT: $i] :
% 2.14/2.38        ( ( daughter_THFTYPE_IiioI @ CHILD @ PARENT )
% 2.14/2.38       => ( attribute_THFTYPE_IiioI @ CHILD @ lFemale_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax790,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lPartialOrderingRelation_THFTYPE_i @ lReflexiveRelation_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Sievert EnglishLanguage "SI dose equivalent measure. Symbol: Sv. It is a unit of biologic dose of ionizing radiation. The &%Sievert makes it possible to normalize doses of different types of radiation. It takes into account the relative biologic effectiveness of ionizing radiation, since each form of such radiation--e.g., X rays, gamma rays, neutrons-- has a slightly different effect on living tissue for a given absorbed dose. The dose equivalent of a given type of radiation (in &%Sievert) is the dose of the radiation in &%Gray multiplied by a quality factor that is based on the relative biologic effectiveness of the radiation. Accordingly, one &%Sievert is generally defined as the amount of radiation roughly equivalent in biologic effectiveness to one &%Gray of gamma radiation. &%Sievert = J/ kg = m^2*s^(-2)")
% 2.14/2.38  thf(ax791,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lImpelling_THFTYPE_i @ lTransfer_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax792,axiom,
% 2.14/2.38      ! [OBJ1: $i,OBJ2: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ OBJ1 @ lObject_THFTYPE_i )
% 2.14/2.38          & ( partlyLocated_THFTYPE_IiioI @ OBJ1 @ OBJ2 ) )
% 2.14/2.38       => ( overlapsSpatially_THFTYPE_IiioI @ OBJ1 @ OBJ2 ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation PoliceOrganization EnglishLanguage "Any &%GovernmentOrganization that is charged with domestic enforcement of the laws of the &%Government.")
% 2.14/2.38  %KIF documentation:(documentation East EnglishLanguage "The compass direction of &%East.")
% 2.14/2.38  thf(ax793,axiom,
% 2.14/2.38      ! [PATH: $i,ARC2: $i,ARC1: $i,NUMBER2: $i,SUM: $i,NUMBER1: $i] :
% 2.14/2.38        ( ( ( ( lPathWeightFn_THFTYPE_IiiI @ PATH )
% 2.14/2.38            = SUM )
% 2.14/2.38          & ( graphPart_THFTYPE_IiioI @ ARC1 @ PATH )
% 2.14/2.38          & ( graphPart_THFTYPE_IiioI @ ARC2 @ PATH )
% 2.14/2.38          & ( arcWeight_THFTYPE_IiioI @ ARC1 @ NUMBER1 )
% 2.14/2.38          & ( arcWeight_THFTYPE_IiioI @ ARC2 @ NUMBER2 )
% 2.14/2.38          & ! [ARC3: $i] :
% 2.14/2.38              ( ( graphPart_THFTYPE_IiioI @ ARC3 @ PATH )
% 2.14/2.38             => ( ( ARC3 = ARC1 )
% 2.14/2.38                | ( ARC3 = ARC2 ) ) ) )
% 2.14/2.38       => ( ( lPathWeightFn_THFTYPE_IiiI @ PATH )
% 2.14/2.38          = ( plus_THFTYPE_IiiiI @ NUMBER1 @ NUMBER2 ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax794,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lSelecting_THFTYPE_i @ lIntentionalPsychologicalProcess_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax795,axiom,
% 2.14/2.38      range_THFTYPE_IiioI @ lAssignmentFn_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax796,axiom,
% 2.14/2.38      ! [Y: $i,YEAR: $i,MONTH: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ MONTH @ ( lMonthFn_THFTYPE_IiiiI @ lFebruary_THFTYPE_i @ YEAR ) )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ Y @ YEAR )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ Y @ lLeapYear_THFTYPE_i ) )
% 2.14/2.38       => ( duration_THFTYPE_IiioI @ MONTH @ ( lMeasureFn_THFTYPE_IiiiI @ n29_THFTYPE_i @ lDayDuration_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Polychromatic EnglishLanguage "An &%Object with this &%Attribute has different colors on different parts of its surface.")
% 2.14/2.38  thf(ax797,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lWetting_THFTYPE_i @ lPutting_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Atom EnglishLanguage "An extremely small unit of matter that retains its identity in Chemical reactions. It consists of an &%AtomicNucleus and &%Electrons surrounding the &%AtomicNucleus.")
% 2.14/2.38  thf(ax798,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lEquivalenceRelation_THFTYPE_i @ lTransitiveRelation_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax799,axiom,
% 2.14/2.38      ! [ORG: $i,POSITION: $i,AGENT: $i] :
% 2.14/2.38        ( ( occupiesPosition_THFTYPE_IiiioI @ AGENT @ POSITION @ ORG )
% 2.14/2.38       => ( attribute_THFTYPE_IiioI @ AGENT @ POSITION ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax800,axiom,
% 2.14/2.38      ! [AREA: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ AREA @ lWaterArea_THFTYPE_i )
% 2.14/2.38       => ? [BED: $i,HOLE: $i,WATER: $i] :
% 2.14/2.38            ( ( ( lHoleHostFn_THFTYPE_IiiI @ HOLE )
% 2.14/2.38              = BED )
% 2.14/2.38            & ( instance_THFTYPE_IiioI @ WATER @ lWater_THFTYPE_i )
% 2.14/2.38            & ( properlyFills_THFTYPE_IiioI @ WATER @ HOLE )
% 2.14/2.38            & ( ( lMereologicalSumFn_THFTYPE_IiiiI @ BED @ WATER )
% 2.14/2.38              = AREA ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax801,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lPosition_THFTYPE_i @ lSocialRole_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax802,axiom,
% 2.14/2.38      ! [COMP2: $i,COMP1: $i] :
% 2.14/2.38        ( ( connectedEngineeringComponents_THFTYPE_IiioI @ COMP1 @ COMP2 )
% 2.14/2.38       => ( ( (~) @ ( engineeringSubcomponent_THFTYPE_IiioI @ COMP1 @ COMP2 ) )
% 2.14/2.38          & ( (~) @ ( engineeringSubcomponent_THFTYPE_IiioI @ COMP2 @ COMP1 ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax803,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lBodyPart_THFTYPE_i @ lAnatomicalStructure_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation ProbabilityRelation EnglishLanguage "The &%Class of &%Relations that permit assessment of the probability of an event or situation.")
% 2.14/2.38  %KIF documentation:(documentation Candela EnglishLanguage "SI luminosity intensity measure. Symbol: cd. It is one of the base units in SI, and it is currently defined as follows: the &%Candela is the luminous intensity, in a given direction, of a source that emits monochromatic radiation of frequency 540*10^12 &%Hertz and that has a radiant intensity in that direction of 1/ 683 &%Watt per &%Steradian.")
% 2.14/2.38  %KIF documentation:(documentation Gram EnglishLanguage "Submultiple of kilogram. Symbol: g. 1 kilogram = 1000 &%Grams.")
% 2.14/2.38  thf(ax804,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lSpeaking_THFTYPE_i @ lVocalizing_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax805,axiom,
% 2.14/2.38      disjoint_THFTYPE_IiioI @ lPathologicProcess_THFTYPE_i @ lPhysiologicProcess_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax806,axiom,
% 2.14/2.38      ! [GRAPH2: $i,GRAPH1: $i,ELEMENT: $i] :
% 2.14/2.38        ( ( ( subGraph_THFTYPE_IiioI @ GRAPH1 @ GRAPH2 )
% 2.14/2.38          & ( graphPart_THFTYPE_IiioI @ ELEMENT @ GRAPH1 ) )
% 2.14/2.38       => ( graphPart_THFTYPE_IiioI @ ELEMENT @ GRAPH2 ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Necessity EnglishLanguage "Attribute that applies to &%Propositions that are necessary, i.e. true in every possible world.")
% 2.14/2.38  %KIF documentation:(documentation domainSubclass EnglishLanguage "&%Predicate used to specify argument type restrictions of &%Predicates. The formula (&%domainSubclass ?REL ?INT ?CLASS) means that the ?INT'th element of each tuple in the relation ?REL must be a subclass of ?CLASS.")
% 2.14/2.38  %KIF documentation:(documentation AnimacyAttribute EnglishLanguage "&%Attributes that indicate whether an &%Organism is alive or not.")
% 2.14/2.38  %KIF documentation:(documentation Amu EnglishLanguage "Atomic mass unit. Symbol: u. It is the mass of the twelfth part of an atom of the Carbon 12 isotope.")
% 2.14/2.38  thf(ax807,axiom,
% 2.14/2.38      ! [DEPTH: $i,OBJ1: $i,OBJ2: $i] :
% 2.14/2.38        ( ( depth_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ DEPTH )
% 2.14/2.38       => ( orientation_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ lBelow_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax808,axiom,
% 2.14/2.38      rangeSubclass_THFTYPE_IiioI @ lSeriesVolumeFn_THFTYPE_i @ lText_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation penetrates EnglishLanguage "(penetrates ?OBJ1 ?OBJ2) means that ?OBJ1 is &%connected to ?OBJ2 along at least one whole dimension (length, width or depth).")
% 2.14/2.38  thf(ax809,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lCompoundSubstance_THFTYPE_i @ lPureSubstance_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax810,axiom,
% 2.14/2.38      ! [SPORE: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ SPORE @ lSpore_THFTYPE_i )
% 2.14/2.38       => ? [PLANT: $i,TIME: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ PLANT @ lNonFloweringPlant_THFTYPE_i )
% 2.14/2.38            & ( holdsDuring_THFTYPE_IiooI @ TIME @ ( part_THFTYPE_IiioI @ SPORE @ PLANT ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax811,axiom,
% 2.14/2.38      ! [OBJ1: $i,OBJ2: $i] :
% 2.14/2.38        ( ( orientation_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ lRight_THFTYPE_i )
% 2.14/2.38      <=> ( orientation_THFTYPE_IiiioI @ OBJ2 @ OBJ1 @ lLeft_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax812,axiom,
% 2.14/2.38      partition_THFTYPE_IiiioI @ lTwoDimensionalFigure_THFTYPE_i @ lOpenTwoDimensionalFigure_THFTYPE_i @ lClosedTwoDimensionalFigure_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax813,axiom,
% 2.14/2.38      ! [CHILD: $i,REP: $i,PARENT: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ REP @ lReplication_THFTYPE_i )
% 2.14/2.38          & ( agent_THFTYPE_IiioI @ REP @ PARENT )
% 2.14/2.38          & ( result_THFTYPE_IiioI @ REP @ CHILD ) )
% 2.14/2.38       => ( parent_THFTYPE_IiioI @ CHILD @ PARENT ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax814,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lBoiling_THFTYPE_i @ lStateChange_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Hole EnglishLanguage "A hole is an immaterial body located at the surface of an &%Object. Since every &%Hole is ontologically dependent on its host (i.e., the object in which it is a hole), being a &%Hole is defined as being a &%hole in something. Note that two &%Holes may occupy the same region, or part of the same region, without sharing any parts. Any two hosts of a hole have a common proper part that entirely hosts the hole. A common host of two holes hosts all parts of the sum of those holes. Any object that includes the host of a hole is a host of that hole, unless its parts also include parts of that very hole. Overlapping holes have overlapping hosts. No hole is atomic. Holes are connected with their hosts. No hole can have a proper part that is externally connected with exactly the same things as the hole itself.")
% 2.14/2.38  %KIF documentation:(documentation trichotomizingOn EnglishLanguage "A &%BinaryPredicate ?REL is trichotomizing on a &%SetOrClass only if, for all instances ?INST1 and ?INST2 of the &%SetOrClass, at least one of the following holds: (?REL ?INST1 ?INST2), (?REL ?INST2 ?INST1) or (equal ?INST1 ?INST2).")
% 2.14/2.38  %KIF documentation:(documentation Mammal EnglishLanguage "A &%Vertebrate having a constant body temperature and characterized by the presence of hair, mammary glands, and sweat glands.")
% 2.14/2.38  thf(ax815,axiom,
% 2.14/2.38      ! [PATIENT: $i,KILL: $i,AGENT: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ KILL @ lKilling_THFTYPE_i )
% 2.14/2.38          & ( agent_THFTYPE_IiioI @ KILL @ AGENT )
% 2.14/2.38          & ( patient_THFTYPE_IiioI @ KILL @ PATIENT ) )
% 2.14/2.38       => ( ( instance_THFTYPE_IiioI @ AGENT @ lOrganism_THFTYPE_i )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ PATIENT @ lOrganism_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax816,axiom,
% 2.14/2.38      disjointDecomposition_THFTYPE_IiiiioI @ lPrimate_THFTYPE_i @ lApe_THFTYPE_i @ lMonkey_THFTYPE_i @ lHominid_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax817,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lSpeaking_THFTYPE_i @ lLinguisticCommunication_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax818,axiom,
% 2.14/2.38      disjoint_THFTYPE_IiioI @ lCollection_THFTYPE_i @ lSelfConnectedObject_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax819,axiom,
% 2.14/2.38      ! [OBJ: $i,KEEP: $i,AGENT: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ KEEP @ lKeeping_THFTYPE_i )
% 2.14/2.38          & ( agent_THFTYPE_IiioI @ KEEP @ AGENT )
% 2.14/2.38          & ( patient_THFTYPE_IiioI @ KEEP @ OBJ ) )
% 2.14/2.38       => ? [PUT: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ PUT @ lPutting_THFTYPE_i )
% 2.14/2.38            & ( agent_THFTYPE_IiioI @ PUT @ AGENT )
% 2.14/2.38            & ( patient_THFTYPE_IiioI @ PUT @ OBJ )
% 2.14/2.38            & ( earlier_THFTYPE_IiioI @ ( lWhenFn_THFTYPE_IiiI @ PUT ) @ ( lWhenFn_THFTYPE_IiiI @ KEEP ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation LinguisticExpression EnglishLanguage "This is the subclass of &%ContentBearingPhysical which are language-related. Note that this &%Class encompasses both &%Language and the the elements of &%Languages, e.g. &%Words.")
% 2.14/2.38  %KIF documentation:(documentation WeatherProcess EnglishLanguage "&%WeatherProcess is the broadest class of processes that involve weather, including weather seasons (not to be confused with instances of &%SeasonOfYear), weather systems, and short-term weather events.")
% 2.14/2.38  thf(ax820,axiom,
% 2.14/2.38      ! [NUMBER: $i,TEXT2: $i,TEXT1: $i] :
% 2.14/2.38        ( ( ( lEditionFn_THFTYPE_IiiiI @ TEXT1 @ NUMBER )
% 2.14/2.38          = TEXT2 )
% 2.14/2.38       => ( subsumesContentClass_THFTYPE_IiioI @ TEXT1 @ TEXT2 ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Siemens EnglishLanguage "SI electric conductance measure. Symbol: S. In the case of direct current, the conductance in &%Siemens is the reciprocal of the resistance in &%Ohms, in the case of alternating current, it is the reciprocal of the impedance in ohms. siemens = A/ V = m^(-2)*kg(-1)*s^(3)*A^2.")
% 2.14/2.38  %KIF documentation:(documentation ImmediatePastFn EnglishLanguage "A &%UnaryFunction that maps a &%TimePosition to a short, indeterminate &%TimeInterval that immediately precedes the &%TimePosition.")
% 2.14/2.38  %KIF documentation:(documentation Replication EnglishLanguage "The &%Process of biological reproduction. This can be either a sexual or an asexual process.")
% 2.14/2.38  %KIF documentation:(documentation May EnglishLanguage "The &%Class of all &%Months which are May.")
% 2.14/2.38  thf(ax821,axiom,
% 2.14/2.38      ! [FORMULA: $o,AGENT: $i,QUESTION: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ QUESTION @ lQuestioning_THFTYPE_i )
% 2.14/2.38          & ( agent_THFTYPE_IiioI @ QUESTION @ AGENT )
% 2.14/2.38          & ( patient_THFTYPE_IiooI @ QUESTION @ FORMULA )
% 2.14/2.38          & ( instance_THFTYPE_IoioI @ FORMULA @ lFormula_THFTYPE_i ) )
% 2.14/2.38       => ( holdsDuring_THFTYPE_IiooI @ ( lWhenFn_THFTYPE_IiiI @ QUESTION ) @ ( (~) @ ( knows_THFTYPE_IiooI @ AGENT @ FORMULA ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax822,axiom,
% 2.14/2.38      disjoint_THFTYPE_IiioI @ lComplexNumber_THFTYPE_i @ lRealNumber_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax823,axiom,
% 2.14/2.38      ! [INTERVAL1: $i,INTERVAL2: $i] :
% 2.14/2.38        ( ( ( ( lBeginFn_THFTYPE_IiiI @ INTERVAL1 )
% 2.14/2.38            = ( lBeginFn_THFTYPE_IiiI @ INTERVAL2 ) )
% 2.14/2.38          & ( ( lEndFn_THFTYPE_IiiI @ INTERVAL1 )
% 2.14/2.38            = ( lEndFn_THFTYPE_IiiI @ INTERVAL2 ) ) )
% 2.14/2.38       => ( INTERVAL1 = INTERVAL2 ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax824,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lKeeping_THFTYPE_i @ lIntentionalProcess_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation SetOrClass EnglishLanguage "The &%SetOrClass of &%Sets and &%Classes, i.e. any instance of &%Abstract that has &%elements or &%instances.")
% 2.14/2.38  thf(ax825,axiom,
% 2.14/2.38      ! [INJ: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ INJ @ lInjuring_THFTYPE_i )
% 2.14/2.38      <=> ( ( instance_THFTYPE_IiioI @ INJ @ lDamaging_THFTYPE_i )
% 2.14/2.38          & ? [ORGANISM: $i] :
% 2.14/2.38              ( ( instance_THFTYPE_IiioI @ ORGANISM @ lOrganism_THFTYPE_i )
% 2.14/2.38              & ( patient_THFTYPE_IiioI @ INJ @ ORGANISM ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax826,axiom,
% 2.14/2.38      ! [CBO1: $i,CBO2: $i,PUB1: $i,EDITION1: $i,EDITION2: $i,PUB2: $i,INT2: $i,DATE2: $i,INT1: $i,DATE1: $i,TEXT: $i] :
% 2.14/2.38        ( ( ( ( lEditionFn_THFTYPE_IiiiI @ TEXT @ INT1 )
% 2.14/2.38            = EDITION1 )
% 2.14/2.38          & ( ( lEditionFn_THFTYPE_IiiiI @ TEXT @ INT2 )
% 2.14/2.38            = EDITION2 )
% 2.14/2.38          & ( gt_THFTYPE_IiioI @ INT2 @ INT1 )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ PUB1 @ lPublication_THFTYPE_i )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ PUB2 @ lPublication_THFTYPE_i )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ CBO1 @ EDITION1 )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ CBO2 @ EDITION2 )
% 2.14/2.38          & ( patient_THFTYPE_IiioI @ PUB1 @ CBO1 )
% 2.14/2.38          & ( patient_THFTYPE_IiioI @ PUB2 @ CBO2 )
% 2.14/2.38          & ( date_THFTYPE_IiioI @ PUB1 @ DATE1 )
% 2.14/2.38          & ( date_THFTYPE_IiioI @ PUB2 @ DATE2 ) )
% 2.14/2.38       => ( before_THFTYPE_IiioI @ ( lEndFn_THFTYPE_IiiI @ DATE1 ) @ ( lEndFn_THFTYPE_IiiI @ DATE2 ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax827,axiom,
% 2.14/2.38      ! [PROC: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ PROC @ lPoliticalProcess_THFTYPE_i )
% 2.14/2.38       => ? [POL: $i] :
% 2.14/2.38            ( ( ( instance_THFTYPE_IiioI @ POL @ lGovernment_THFTYPE_i )
% 2.14/2.38              | ? [GOV: $i] :
% 2.14/2.38                  ( ( instance_THFTYPE_IiioI @ GOV @ lGovernment_THFTYPE_i )
% 2.14/2.38                  & ( member_THFTYPE_IiioI @ POL @ GOV ) ) )
% 2.14/2.38            & ( ( agent_THFTYPE_IiioI @ PROC @ POL )
% 2.14/2.38              | ( patient_THFTYPE_IiioI @ PROC @ POL ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax828,axiom,
% 2.14/2.38      ! [NUMBER: $i] :
% 2.14/2.38        ( ( NUMBER
% 2.14/2.38          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.38       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lMinuteDuration_THFTYPE_i )
% 2.14/2.38          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n60_THFTYPE_i ) @ lSecondDuration_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax829,axiom,
% 2.14/2.38      ! [OBJ: $i,SEE: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ SEE @ lSeeing_THFTYPE_i )
% 2.14/2.38          & ( patient_THFTYPE_IiioI @ SEE @ OBJ ) )
% 2.14/2.38       => ( holdsDuring_THFTYPE_IiooI @ ( lWhenFn_THFTYPE_IiiI @ SEE ) @ ( attribute_THFTYPE_IiioI @ OBJ @ lIlluminated_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax830,axiom,
% 2.14/2.38      ! [LEAP: $i,NUMBER: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ LEAP @ lLeapYear_THFTYPE_i )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ LEAP @ ( lYearFn_THFTYPE_IiiI @ NUMBER ) ) )
% 2.14/2.38       => ( ( ( ( lRemainderFn_THFTYPE_IiiiI @ NUMBER @ n4_THFTYPE_i )
% 2.14/2.38              = n0_THFTYPE_i )
% 2.14/2.38            & ( (~)
% 2.14/2.38              @ ( ( lRemainderFn_THFTYPE_IiiiI @ NUMBER @ n100_THFTYPE_i )
% 2.14/2.38                = n0_THFTYPE_i ) ) )
% 2.14/2.38          | ( ( lRemainderFn_THFTYPE_IiiiI @ NUMBER @ n400_THFTYPE_i )
% 2.14/2.38            = n0_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation boilingPoint EnglishLanguage "The temperature at which a &%PureSubstance changes state from a &%Liquid to a &%Gas.")
% 2.14/2.38  thf(ax831,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lIntentionalPsychologicalProcess_THFTYPE_i @ lIntentionalProcess_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax832,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lPsychologicalAttribute_THFTYPE_i @ lBiologicalAttribute_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation partiallyFills EnglishLanguage "(&%partiallyFills ?OBJ ?HOLE) means that ?OBJ &%completelyFills some part of ?HOLE. Note that if (&%partiallyFills ?OBJ1 ?HOLE) and (&%part ?OBJ1 ?OBJ2), then (&%partiallyFills ?OBJ2 ?HOLE). Note too that a partial filler need not be wholly inside a hole (it may stick out), which means that every complete filler also qualifies as (is a limit case of) a partial one.")
% 2.14/2.38  thf(ax833,axiom,
% 2.14/2.38      ! [OBJ: $i,INCREASE: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ INCREASE @ lIncreasing_THFTYPE_i )
% 2.14/2.38          & ( patient_THFTYPE_IiioI @ INCREASE @ OBJ ) )
% 2.14/2.38       => ? [UNIT: $i,QUANT1: $i,QUANT2: $i] :
% 2.14/2.38            ( ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ INCREASE ) )
% 2.14/2.38              @ ( ( lMeasureFn_THFTYPE_IiiiI @ OBJ @ UNIT )
% 2.14/2.38                = QUANT1 ) )
% 2.14/2.38            & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ INCREASE ) )
% 2.14/2.38              @ ( ( lMeasureFn_THFTYPE_IiiiI @ OBJ @ UNIT )
% 2.14/2.38                = QUANT2 ) )
% 2.14/2.38            & ( gt_THFTYPE_IiioI @ QUANT2 @ QUANT1 ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax834,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lTernaryFunction_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Article EnglishLanguage "A relatively short &%Text that either is unbound or is bound with other &%Articles in a &%Book.")
% 2.14/2.38  thf(ax835,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lTissue_THFTYPE_i @ lBodySubstance_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Arthropod EnglishLanguage "A &%Class of &%Invertebrate that includes &%Arachnids and &%Insects.")
% 2.14/2.38  thf(ax836,axiom,
% 2.14/2.38      contraryAttribute_THFTYPE_IiioI @ lAbove_THFTYPE_i @ lBelow_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax837,axiom,
% 2.14/2.38      ! [CHILD: $i,PARENT: $i] :
% 2.14/2.38        ( ( son_THFTYPE_IiioI @ CHILD @ PARENT )
% 2.14/2.38       => ( attribute_THFTYPE_IiioI @ CHILD @ lMale_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax838,axiom,
% 2.14/2.38      ! [MONTH1: $i,MONTH2: $i,YEAR: $i] :
% 2.14/2.38        ( ( ( MONTH1
% 2.14/2.38            = ( lMonthFn_THFTYPE_IiiiI @ lApril_THFTYPE_i @ YEAR ) )
% 2.14/2.38          & ( MONTH2
% 2.14/2.38            = ( lMonthFn_THFTYPE_IiiiI @ lMay_THFTYPE_i @ YEAR ) ) )
% 2.14/2.38       => ( meetsTemporally_THFTYPE_IiioI @ MONTH1 @ MONTH2 ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax839,axiom,
% 2.14/2.38      range_THFTYPE_IiioI @ lSubtractionFn_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax840,axiom,
% 2.14/2.38      contraryAttribute_THFTYPE_IiioI @ lRight_THFTYPE_i @ lLeft_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax841,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lBeverage_THFTYPE_i @ lFood_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax842,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lCaseRole_THFTYPE_i @ lAsymmetricRelation_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax843,axiom,
% 2.14/2.38      range_THFTYPE_IiioI @ lSineFn_THFTYPE_i @ lRealNumber_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation believes EnglishLanguage "The epistemic predicate of belief. (&%believes ?AGENT ?FORMULA) means that ?AGENT believes the proposition expressed by ?FORMULA.")
% 2.14/2.38  %KIF documentation:(documentation Text EnglishLanguage "A &%LinguisticExpression or set of &%LinguisticExpressions that perform a specific function related to &%Communication, e.g. express a discourse about a particular topic, and that are inscribed in a &%CorpuscularObject by &%Humans.")
% 2.14/2.38  %KIF documentation:(documentation CommercialService EnglishLanguage "Any &%FinancialTransaction by a &%CommercialAgent where the aim is to produce a profit.")
% 2.14/2.38  thf(ax844,axiom,
% 2.14/2.38      ! [MAN: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ MAN @ lMan_THFTYPE_i )
% 2.14/2.38       => ( attribute_THFTYPE_IiioI @ MAN @ lMale_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax845,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lDevice_THFTYPE_i @ lArtifact_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax846,axiom,
% 2.14/2.38      ! [PATH1: $i,MEASURE1: $i,PROCESS: $i,DISTANCE: $i,SOURCE: $i,DEST: $i] :
% 2.14/2.38        ( ( ( path_THFTYPE_IiioI @ PROCESS @ PATH1 )
% 2.14/2.38          & ( origin_THFTYPE_IiioI @ PROCESS @ SOURCE )
% 2.14/2.38          & ( destination_THFTYPE_IiioI @ PROCESS @ DEST )
% 2.14/2.38          & ( length_THFTYPE_IiioI @ PATH1 @ MEASURE1 )
% 2.14/2.38          & ( distance_THFTYPE_IiiioI @ SOURCE @ DEST @ DISTANCE )
% 2.14/2.38          & ( (~) @ ( gt_THFTYPE_IiioI @ MEASURE1 @ DISTANCE ) ) )
% 2.14/2.38       => ! [OBJ: $i] :
% 2.14/2.38            ( ( part_THFTYPE_IiioI @ OBJ @ PATH1 )
% 2.14/2.38           => ( between_THFTYPE_IiiioI @ SOURCE @ OBJ @ DEST ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax847,axiom,
% 2.14/2.38      ! [ATOM: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ ATOM @ lAtom_THFTYPE_i )
% 2.14/2.38       => ? [PROTON: $i,ELECTRON: $i] :
% 2.14/2.38            ( ( component_THFTYPE_IiioI @ PROTON @ ATOM )
% 2.14/2.38            & ( component_THFTYPE_IiioI @ ELECTRON @ ATOM )
% 2.14/2.38            & ( instance_THFTYPE_IiioI @ PROTON @ lProton_THFTYPE_i )
% 2.14/2.38            & ( instance_THFTYPE_IiioI @ ELECTRON @ lElectron_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax848,axiom,
% 2.14/2.38      ! [NUMBER2: $i,NUMBER1: $i] :
% 2.14/2.38        ( ( ( lRoundFn_THFTYPE_IiiI @ NUMBER1 )
% 2.14/2.38          = NUMBER2 )
% 2.14/2.38       => ( ( ( lt_THFTYPE_IiioI @ ( minus_THFTYPE_IiiiI @ NUMBER1 @ ( lFloorFn_THFTYPE_IiiI @ NUMBER1 ) ) @ n0dot5_THFTYPE_i )
% 2.14/2.38           => ( NUMBER2
% 2.14/2.38              = ( lFloorFn_THFTYPE_IiiI @ NUMBER1 ) ) )
% 2.14/2.38          | ( ( gtet_THFTYPE_IiioI @ ( minus_THFTYPE_IiiiI @ NUMBER1 @ ( lFloorFn_THFTYPE_IiiI @ NUMBER1 ) ) @ n0dot5_THFTYPE_i )
% 2.14/2.38           => ( NUMBER2
% 2.14/2.38              = ( lCeilingFn_THFTYPE_IiiI @ NUMBER1 ) ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax849,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lPhysical_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation LogicalOperator EnglishLanguage "This &%Class comprises all of the logical operators (viz. 'and', 'or', 'not', '=>', and '<=>').")
% 2.14/2.38  thf(ax850,axiom,
% 2.14/2.38      range_THFTYPE_IiioI @ lAdditionFn_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation EngineeringConnection EnglishLanguage "An &%EngineeringConnection is an &%EngineeringComponent that represents a connection relationship between two other &%EngineeringComponents. It is a reification of the &%Predicate &%connectedEngineeringComponents. That means that whenever this &%Predicate holds between two &%EngineeringComponents, there exists an &%EngineeringConnection. The practical reason for reifying a relationship is to be able to attach other information about it. For example, one might want to say that a particular connection is associated with some shared parameters, or that it is of a particular type. &%EngineeringConnections are &%EngineeringComponents and can therefore be an &%engineeringSubcomponent of other &%EngineeringComponents. However, to provide for modular regularity in component systems, &%EngineeringConnections cannot be connected. For each pair of &%EngineeringComponents related by &%connectedEngineeringComponents, there exists at least one &%EngineeringConnection. However, that object may not be unique, and the same &%EngineeringConnection may be associated with several pairs of &%EngineeringComponents.")
% 2.14/2.38  thf(ax851,axiom,
% 2.14/2.38      ! [LIST2: $i,LIST1: $i] :
% 2.14/2.38        ( ( subList_THFTYPE_IiioI @ LIST1 @ LIST2 )
% 2.14/2.38       => ! [ITEM: $i] :
% 2.14/2.38            ( ( inList_THFTYPE_IiioI @ ITEM @ LIST1 )
% 2.14/2.38           => ( inList_THFTYPE_IiioI @ ITEM @ LIST2 ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax852,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lEncoding_THFTYPE_i @ lWriting_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Cup EnglishLanguage "English unit of volume equal to 1/2 of a &%Pint.")
% 2.14/2.38  thf(ax853,axiom,
% 2.14/2.38      ! [NUMBER: $i] :
% 2.14/2.38        ( ( NUMBER
% 2.14/2.38          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.38       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lAngstrom_THFTYPE_i )
% 2.14/2.38          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n1dot0Eminus10_THFTYPE_i ) @ lMeter_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax854,axiom,
% 2.14/2.38      ! [PATH: $i,ARC1: $i,SUBPATH: $i,SUM: $i,NUMBER1: $i] :
% 2.14/2.38        ( ( ( ( lPathWeightFn_THFTYPE_IiiI @ PATH )
% 2.14/2.38            = SUM )
% 2.14/2.38          & ( subGraph_THFTYPE_IiioI @ SUBPATH @ PATH )
% 2.14/2.38          & ( graphPart_THFTYPE_IiioI @ ARC1 @ PATH )
% 2.14/2.38          & ( arcWeight_THFTYPE_IiioI @ ARC1 @ NUMBER1 )
% 2.14/2.38          & ! [ARC2: $i] :
% 2.14/2.38              ( ( graphPart_THFTYPE_IiioI @ ARC2 @ PATH )
% 2.14/2.38             => ( ( graphPart_THFTYPE_IiioI @ ARC2 @ SUBPATH )
% 2.14/2.38                | ( ARC2 = ARC1 ) ) ) )
% 2.14/2.38       => ( SUM
% 2.14/2.38          = ( plus_THFTYPE_IiiiI @ ( lPathWeightFn_THFTYPE_IiiI @ SUBPATH ) @ NUMBER1 ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax855,axiom,
% 2.14/2.38      ! [UNIT: $i,MEGAUNIT: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ UNIT @ lUnitOfMeasure_THFTYPE_i )
% 2.14/2.38          & ( MEGAUNIT
% 2.14/2.38            = ( lMegaFn_THFTYPE_IiiI @ UNIT ) ) )
% 2.14/2.38       => ( ( lMeasureFn_THFTYPE_IiiiI @ n1_THFTYPE_i @ MEGAUNIT )
% 2.14/2.38          = ( lMeasureFn_THFTYPE_IiiiI @ n1000000_THFTYPE_i @ UNIT ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax856,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lWaterMotion_THFTYPE_i @ lLiquidMotion_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax857,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lGroupOfPeople_THFTYPE_i @ lGroup_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax858,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lPerceptualAttribute_THFTYPE_i @ lRelationalAttribute_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax859,axiom,
% 2.14/2.38      typicalPart_THFTYPE_IiioI @ lVocalCords_THFTYPE_i @ lHuman_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Manufacture EnglishLanguage "The &%Making of &%Artifacts on a mass scale.")
% 2.14/2.38  thf(ax860,axiom,
% 2.14/2.38      ! [NODE: $i,ARC: $i] :
% 2.14/2.38        ( ( ( ( lInitialNodeFn_THFTYPE_IiiI @ ARC )
% 2.14/2.38            = NODE )
% 2.14/2.38          & ( ( lTerminalNodeFn_THFTYPE_IiiI @ ARC )
% 2.14/2.38            = NODE ) )
% 2.14/2.38       => ( instance_THFTYPE_IiioI @ ARC @ lGraphLoop_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax861,axiom,
% 2.14/2.38      ! [ROW: $i,ITEM: $i] : ( initialList_THFTYPE_IiioI @ ( lListFn_THFTYPE_IiiI @ ROW ) @ ( lListFn_THFTYPE_IiiiI @ ROW @ ITEM ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation SequenceFunction EnglishLanguage "The &%Class of &%OneToOneFunctions whose range is a subclass of the &%PositiveIntegers.")
% 2.14/2.38  thf(ax862,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lTranslating_THFTYPE_i @ lContentDevelopment_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax863,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lTactilePerception_THFTYPE_i @ lPerception_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax864,axiom,
% 2.14/2.38      disjoint_THFTYPE_IiioI @ lLinguisticExpression_THFTYPE_i @ lIcon_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax865,axiom,
% 2.14/2.38      ! [NUMBER: $i] :
% 2.14/2.38        ( ( NUMBER
% 2.14/2.38          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.38       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lInch_THFTYPE_i )
% 2.14/2.38          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n0dot0254_THFTYPE_i ) @ lMeter_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax866,axiom,
% 2.14/2.38      ! [INJ: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ INJ @ lInjuring_THFTYPE_i )
% 2.14/2.38       => ? [STRUCT: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ STRUCT @ lAnatomicalStructure_THFTYPE_i )
% 2.14/2.38            & ( patient_THFTYPE_IiioI @ INJ @ STRUCT ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax867,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lConstructing_THFTYPE_i @ lMaking_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax868,axiom,
% 2.14/2.38      ! [NUMBER: $i,QUANT: $i,UNIT: $i] :
% 2.14/2.38        ( ( ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ UNIT )
% 2.14/2.38            = QUANT )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ UNIT @ lUnitOfFrequency_THFTYPE_i ) )
% 2.14/2.38       => ( instance_THFTYPE_IiioI @ QUANT @ lFrequencyMeasure_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax869,axiom,
% 2.14/2.38      ! [FREEZE: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ FREEZE @ lFreezing_THFTYPE_i )
% 2.14/2.38       => ? [COOL: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ COOL @ lCooling_THFTYPE_i )
% 2.14/2.38            & ( subProcess_THFTYPE_IiioI @ COOL @ FREEZE ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation March EnglishLanguage "The &%Class of all &%Months which are March.")
% 2.14/2.38  thf(ax870,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lStreamWaterArea_THFTYPE_i @ lFlowRegion_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Deciding EnglishLanguage "The subclass of &%Selecting where the &%agent opts for one course of action out of a set of multiple possibilities that are open to him/ her.")
% 2.14/2.38  thf(ax871,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lConstructedLanguage_THFTYPE_i @ lHumanLanguage_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax872,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lAnimalLanguage_THFTYPE_i @ lLanguage_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax873,axiom,
% 2.14/2.38      ! [CLASS: $i,ATTR: $i,ROW: $i] :
% 2.14/2.38        ( ( exhaustiveAttribute_THFTYPE_IiioI @ CLASS @ ROW )
% 2.14/2.38       => ( ( inList_THFTYPE_IiioI @ ATTR @ ( lListFn_THFTYPE_IiiI @ ROW ) )
% 2.14/2.38         => ( instance_THFTYPE_IiioI @ ATTR @ lAttribute_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation home EnglishLanguage "The relation between a &%Human and a &%PermanentResidence of the &%Human.")
% 2.14/2.38  %KIF documentation:(documentation Object EnglishLanguage "Corresponds roughly to the class of ordinary objects. Examples include normal physical objects, geographical regions, and locations of &%Processes, the complement of &%Objects in the &%Physical class. In a 4D ontology, an &%Object is something whose spatiotemporal extent is thought of as dividing into spatial parts roughly parallel to the time-axis.")
% 2.14/2.38  thf(ax874,axiom,
% 2.14/2.38      ! [DECODE: $i,DOC1: $i,PROP: $o] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ DECODE @ lDecoding_THFTYPE_i )
% 2.14/2.38          & ( patient_THFTYPE_IiioI @ DECODE @ DOC1 ) )
% 2.14/2.38       => ? [ENCODE: $i,DOC2: $i,TIME: $i] :
% 2.14/2.38            ( ( containsInformation_THFTYPE_IiooI @ DOC2 @ PROP )
% 2.14/2.38            & ( containsInformation_THFTYPE_IiooI @ DOC1 @ PROP )
% 2.14/2.38            & ( temporalPart_THFTYPE_IiioI @ TIME @ ( lPastFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ DECODE ) ) )
% 2.14/2.38            & ( holdsDuring_THFTYPE_IiooI @ TIME
% 2.14/2.38              @ ( ( instance_THFTYPE_IiioI @ ENCODE @ lEncoding_THFTYPE_i )
% 2.14/2.38                & ( patient_THFTYPE_IiioI @ ENCODE @ DOC2 ) ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax875,axiom,
% 2.14/2.38      ! [INST: $i,REL: $i > $i > $o] :
% 2.14/2.38        ( ( instance_THFTYPE_IIiioIioI @ REL @ lReflexiveRelation_THFTYPE_i )
% 2.14/2.38      <=> ( REL @ INST @ INST ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax876,axiom,
% 2.14/2.38      ! [CONTEST: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ CONTEST @ lContest_THFTYPE_i )
% 2.14/2.38       => ? [AGENT1: $i,AGENT2: $i,PURP1: $o,PURP2: $o] :
% 2.14/2.38            ( ( agent_THFTYPE_IiioI @ CONTEST @ AGENT1 )
% 2.14/2.38            & ( agent_THFTYPE_IiioI @ CONTEST @ AGENT2 )
% 2.14/2.38            & ( hasPurposeForAgent_THFTYPE_IioioI @ CONTEST @ PURP1 @ AGENT1 )
% 2.14/2.38            & ( hasPurposeForAgent_THFTYPE_IioioI @ CONTEST @ PURP2 @ AGENT2 )
% 2.14/2.38            & ( (~) @ ( AGENT1 = AGENT2 ) )
% 2.14/2.38            & ( (~) @ ( PURP1 = PURP2 ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax877,axiom,
% 2.14/2.38      ! [OBJ: $i,PROCESS: $i,REL: $i > $i > $o] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IIiioIioI @ REL @ lCaseRole_THFTYPE_i )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ OBJ @ lObject_THFTYPE_i )
% 2.14/2.38          & ( REL @ PROCESS @ OBJ ) )
% 2.14/2.38       => ? [TIME: $i] : ( overlapsSpatially_THFTYPE_IiioI @ ( lWhereFn_THFTYPE_IiiiI @ PROCESS @ TIME ) @ OBJ ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation ImaginaryNumber EnglishLanguage "Any &%Number that is the result of multiplying a &%RealNumber by the square root of -1.")
% 2.14/2.38  %KIF documentation:(documentation Cooperation EnglishLanguage "The &%subclass of &%SocialInteraction where the participants involved work together for the achievement of a common goal.")
% 2.14/2.38  thf(ax878,axiom,
% 2.14/2.38      disjoint_THFTYPE_IiioI @ lHeating_THFTYPE_i @ lCooling_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax879,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lBuying_THFTYPE_i @ lFinancialTransaction_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax880,axiom,
% 2.14/2.38      ! [INTERVAL: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ INTERVAL @ lTimeInterval_THFTYPE_i )
% 2.14/2.38       => ( meetsTemporally_THFTYPE_IiioI @ ( lPastFn_THFTYPE_IiiI @ INTERVAL ) @ INTERVAL ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax881,axiom,
% 2.14/2.38      ! [BOOK: $i,ARTICLE1: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ ARTICLE1 @ lArticle_THFTYPE_i )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ BOOK @ lBook_THFTYPE_i )
% 2.14/2.38          & ( subsumesContentInstance_THFTYPE_IiioI @ BOOK @ ARTICLE1 ) )
% 2.14/2.38       => ? [ARTICLE2: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ ARTICLE2 @ lArticle_THFTYPE_i )
% 2.14/2.38            & ( (~) @ ( ARTICLE2 = ARTICLE1 ) )
% 2.14/2.38            & ( subsumesContentInstance_THFTYPE_IiioI @ BOOK @ ARTICLE2 ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation premise EnglishLanguage "(&%premise ?ARGUMENT ?PROPOSITION) means that the &%Proposition ?PROPOSITION is an explicit assumption of the &%Argument ?ARGUMENT.")
% 2.14/2.38  thf(ax882,axiom,
% 2.14/2.38      range_THFTYPE_IiioI @ lExtensionFn_THFTYPE_i @ lClass_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax883,axiom,
% 2.14/2.38      ! [MEAT: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ MEAT @ lMeat_THFTYPE_i )
% 2.14/2.38       => ! [PART: $i] :
% 2.14/2.38            ( ( part_THFTYPE_IiioI @ PART @ MEAT )
% 2.14/2.38           => ? [SUBPART: $i,TIME: $i,ANIMAL: $i] :
% 2.14/2.38                ( ( part_THFTYPE_IiioI @ SUBPART @ PART )
% 2.14/2.38                & ( holdsDuring_THFTYPE_IiooI @ TIME
% 2.14/2.38                  @ ( ( instance_THFTYPE_IiioI @ ANIMAL @ lAnimal_THFTYPE_i )
% 2.14/2.38                    & ( part_THFTYPE_IiioI @ SUBPART @ ANIMAL ) ) ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax884,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lArtWork_THFTYPE_i @ lArtifact_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax885,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lManaging_THFTYPE_i @ lOrganizationalProcess_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Clothing EnglishLanguage "&%Artifact made out of fabrics and possibly other materials that are used to cover the bodies of &%Humans.")
% 2.14/2.38  %KIF documentation:(documentation August EnglishLanguage "The &%Class of all &%Months which are August.")
% 2.14/2.38  thf(ax886,axiom,
% 2.14/2.38      ! [MONTH1: $i,MONTH2: $i,YEAR: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ MONTH1 @ ( lMonthFn_THFTYPE_IiiiI @ lSeptember_THFTYPE_i @ YEAR ) )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ MONTH2 @ ( lMonthFn_THFTYPE_IiiiI @ lOctober_THFTYPE_i @ YEAR ) ) )
% 2.14/2.38       => ( meetsTemporally_THFTYPE_IiioI @ MONTH1 @ MONTH2 ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation MonthDuration EnglishLanguage "Time unit. A month's duration is at least 28 days, and no more than 31 days. Note that this unit is a range, rather than an exact amount, unlike most other units.")
% 2.14/2.38  thf(ax887,axiom,
% 2.14/2.38      ! [ORDER: $i,FORMULA: $o] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ ORDER @ lOrdering_THFTYPE_i )
% 2.14/2.38          & ( patient_THFTYPE_IiooI @ ORDER @ FORMULA ) )
% 2.14/2.38       => ( modalAttribute_THFTYPE_IoioI @ FORMULA @ lObligation_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax888,axiom,
% 2.14/2.38      ! [THING: $i] : ( instance_THFTYPE_IiioI @ THING @ lEntity_THFTYPE_i ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Communication EnglishLanguage "A &%SocialInteraction that involves the transfer of information between two or more &%CognitiveAgents. Note that &%Communication is closely related to, but essentially different from, &%ContentDevelopment. The latter involves the creation or modification of a &%ContentBearingObject, while &%Communication is the transfer of information for the purpose of conveying a message.")
% 2.14/2.38  %KIF documentation:(documentation experiencer EnglishLanguage "(&%experiencer ?PROCESS ?AGENT) means that ?AGENT experiences the &%Process ?PROCESS. For example, Yojo is the &%experiencer of seeing in the following proposition: Yojo sees the fish. Note that &%experiencer, unlike &%agent, does not entail a causal relation between its arguments.")
% 2.14/2.38  thf(ax889,axiom,
% 2.14/2.38      range_THFTYPE_IiioI @ lEndFn_THFTYPE_i @ lTimePoint_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax890,axiom,
% 2.14/2.38      ! [ACT: $i,AGENT: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ ACT @ lReligiousProcess_THFTYPE_i )
% 2.14/2.38          & ( agent_THFTYPE_IiioI @ ACT @ AGENT ) )
% 2.14/2.38       => ( ( instance_THFTYPE_IiioI @ AGENT @ lReligiousOrganization_THFTYPE_i )
% 2.14/2.38          | ? [ORG: $i] :
% 2.14/2.38              ( ( member_THFTYPE_IiioI @ AGENT @ ORG )
% 2.14/2.38              & ( instance_THFTYPE_IiioI @ ORG @ lReligiousOrganization_THFTYPE_i ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax891,axiom,
% 2.14/2.38      ! [INTERACTION: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ INTERACTION @ lSocialInteraction_THFTYPE_i )
% 2.14/2.38       => ? [AGENT1: $i,AGENT2: $i] :
% 2.14/2.38            ( ( involvedInEvent_THFTYPE_IiioI @ INTERACTION @ AGENT1 )
% 2.14/2.38            & ( involvedInEvent_THFTYPE_IiioI @ INTERACTION @ AGENT2 )
% 2.14/2.38            & ( instance_THFTYPE_IiioI @ AGENT1 @ lAgent_THFTYPE_i )
% 2.14/2.38            & ( instance_THFTYPE_IiioI @ AGENT2 @ lAgent_THFTYPE_i )
% 2.14/2.38            & ( (~) @ ( AGENT1 = AGENT2 ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation editor EnglishLanguage "(&%editor ?AGENT ?TEXT) means that ?AGENT is an editor of ?TEXT.")
% 2.14/2.38  %KIF documentation:(documentation Arachnid EnglishLanguage "A &%Class of &%Arthropods that includes ticks and spiders.")
% 2.14/2.38  %KIF documentation:(documentation beforeOrEqual EnglishLanguage "(&%beforeOrEqual ?POINT1 ?POINT2) means that ?POINT1 is identical with ?POINT2 or occurs before it on the universal timeline.")
% 2.14/2.38  %KIF documentation:(documentation destination EnglishLanguage "(destination ?PROCESS ?GOAL) means that ?GOAL is the target or goal of the Process ?PROCESS. For example, Danbury would be the destination in the following proposition: Bob went to Danbury. Note that this is a very general &%CaseRole and, in particular, that it covers the concepts of 'recipient' and 'beneficiary'. Thus, John would be the &%destination in the following proposition: Tom gave a book to John.")
% 2.14/2.38  %KIF documentation:(documentation Right EnglishLanguage "This &%PositionalAttribute is derived from the left/ right schema. Note that this means directly to the right, so that, if one object is to the right of another, then the projections of the two objects overlap.")
% 2.14/2.38  thf(ax892,axiom,
% 2.14/2.38      ! [LOOP: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ LOOP @ lGraphLoop_THFTYPE_i )
% 2.14/2.38      <=> ? [NODE: $i] : ( links_THFTYPE_IiiioI @ NODE @ NODE @ LOOP ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation starts EnglishLanguage "(&%starts ?INTERVAL1 ?INTERVAL2) means that ?INTERVAL1 and ?INTERVAL2 are both &%TimeIntervals that have the same initial &%TimePoint and that ?INTERVAL1 ends before ?INTERVAL2.")
% 2.14/2.38  thf(ax893,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lTruthValue_THFTYPE_i @ lRelationalAttribute_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation PathWeightFn EnglishLanguage "A &%UnaryFunction that maps a &%GraphPath to the sum of the &%arcWeights on the &%GraphArcs in the &%GraphPath.")
% 2.14/2.38  thf(ax894,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lVoting_THFTYPE_i @ lDeciding_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax895,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lMeasuringDevice_THFTYPE_i @ lDevice_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax896,axiom,
% 2.14/2.38      ! [OBJECT: $i,AGENT: $i] :
% 2.14/2.38        ( ( needs_THFTYPE_IiioI @ AGENT @ OBJECT )
% 2.14/2.38       => ( wants_THFTYPE_IiioI @ AGENT @ OBJECT ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax897,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lCounty_THFTYPE_i @ lLandArea_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax898,axiom,
% 2.14/2.38      ! [NUMBER: $i,CLASS1: $i,REL: $i,CLASS2: $i] :
% 2.14/2.38        ( ( ( domainSubclass_THFTYPE_IiiioI @ REL @ NUMBER @ CLASS1 )
% 2.14/2.38          & ( domainSubclass_THFTYPE_IiiioI @ REL @ NUMBER @ CLASS2 ) )
% 2.14/2.38       => ( ( subclass_THFTYPE_IiioI @ CLASS1 @ CLASS2 )
% 2.14/2.38          | ( subclass_THFTYPE_IiioI @ CLASS2 @ CLASS1 ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax899,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lDirecting_THFTYPE_i @ lLinguisticCommunication_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax900,axiom,
% 2.14/2.38      ! [ATOM: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ ATOM @ lAtom_THFTYPE_i )
% 2.14/2.38       => ! [NUCLEUS1: $i,NUCLEUS2: $i] :
% 2.14/2.38            ( ( ( component_THFTYPE_IiioI @ NUCLEUS1 @ ATOM )
% 2.14/2.38              & ( component_THFTYPE_IiioI @ NUCLEUS2 @ ATOM )
% 2.14/2.38              & ( instance_THFTYPE_IiioI @ NUCLEUS1 @ lAtomicNucleus_THFTYPE_i )
% 2.14/2.38              & ( instance_THFTYPE_IiioI @ NUCLEUS2 @ lAtomicNucleus_THFTYPE_i ) )
% 2.14/2.38           => ( NUCLEUS1 = NUCLEUS2 ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Above EnglishLanguage "This is a &%PositionalAttribute derived from the up/ down schema and not involving contact. Note that this means directly above, i.e., if one object is &%Above another object, then the projections of the two objects overlap.")
% 2.14/2.38  thf(ax901,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lNonnegativeInteger_THFTYPE_i @ lNonnegativeRealNumber_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Region EnglishLanguage "A topographic location. &%Regions encompass surfaces of &%Objects, imaginary places, and &%GeographicAreas. Note that a &%Region is the only kind of &%Object which can be located at itself. Note too that &%Region is not a subclass of &%SelfConnectedObject, because some &%Regions, e.g. archipelagos, have &%parts which are not &%connected with one another.")
% 2.14/2.38  %KIF documentation:(documentation Death EnglishLanguage "The &%Process of dying.")
% 2.14/2.38  thf(ax902,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lEngineeringComponent_THFTYPE_i @ lDevice_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax903,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lNonnegativeInteger_THFTYPE_i @ lInteger_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation NonCompositeUnitOfMeasure EnglishLanguage "Instances of this &%Class are &%UnitsOfMeasure that are applied to a single dimension, and so are not intrinsically defined by the functional composition of other units.")
% 2.14/2.38  thf(ax904,axiom,
% 2.14/2.38      ! [CLASS: $i,SEQ: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ SEQ @ lSequenceFunction_THFTYPE_i )
% 2.14/2.38          & ( range_THFTYPE_IiioI @ SEQ @ CLASS ) )
% 2.14/2.38       => ( subclass_THFTYPE_IiioI @ CLASS @ lInteger_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation version EnglishLanguage "Some &%Artifacts have a life cycle with discrete stages or versions. (&%version ARTIFACT1 ARTIFACT2) means that ARTIFACT1 is a version of ARTIFACT2. Note that this &%Predicate relates subclasses of &%Artifact and not instances.")
% 2.14/2.38  thf(ax905,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lRadiatingSound_THFTYPE_i @ lRadiating_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax906,axiom,
% 2.14/2.38      ! [OBJECT: $i,AGENT2: $i,AGENT1: $i] :
% 2.14/2.38        ( ? [BORROW: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ BORROW @ lBorrowing_THFTYPE_i )
% 2.14/2.38            & ( agent_THFTYPE_IiioI @ BORROW @ AGENT1 )
% 2.14/2.38            & ( origin_THFTYPE_IiioI @ BORROW @ AGENT2 )
% 2.14/2.38            & ( patient_THFTYPE_IiioI @ BORROW @ OBJECT ) )
% 2.14/2.38      <=> ? [LEND: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ LEND @ lLending_THFTYPE_i )
% 2.14/2.38            & ( agent_THFTYPE_IiioI @ LEND @ AGENT2 )
% 2.14/2.38            & ( destination_THFTYPE_IiioI @ LEND @ AGENT1 )
% 2.14/2.38            & ( patient_THFTYPE_IiioI @ LEND @ OBJECT ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax907,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lTranslocation_THFTYPE_i @ lMotion_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax908,axiom,
% 2.14/2.38      ! [PRODUCT: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ PRODUCT @ lProduct_THFTYPE_i )
% 2.14/2.38       => ? [MANUFACTURE: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ MANUFACTURE @ lManufacture_THFTYPE_i )
% 2.14/2.38            & ( result_THFTYPE_IiioI @ MANUFACTURE @ PRODUCT ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax909,axiom,
% 2.14/2.38      ! [DAY: $i,NUMBER2: $i,HOUR2: $i,NUMBER1: $i,HOUR1: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ HOUR1 @ ( lHourFn_THFTYPE_IiiiI @ NUMBER1 @ DAY ) )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ HOUR2 @ ( lHourFn_THFTYPE_IiiiI @ NUMBER2 @ DAY ) )
% 2.14/2.38          & ( ( minus_THFTYPE_IiiiI @ NUMBER2 @ NUMBER1 )
% 2.14/2.38            = n1_THFTYPE_i ) )
% 2.14/2.38       => ( meetsTemporally_THFTYPE_IiioI @ HOUR1 @ HOUR2 ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax910,axiom,
% 2.14/2.38      ! [POINT: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ POINT @ lTimePoint_THFTYPE_i )
% 2.14/2.38       => ? [INTERVAL: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ INTERVAL @ lTimeInterval_THFTYPE_i )
% 2.14/2.38            & ( temporalPart_THFTYPE_IiioI @ POINT @ INTERVAL ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation SocialUnit EnglishLanguage "A &%GroupOfPeople who all have the same &%home.")
% 2.14/2.38  thf(ax911,axiom,
% 2.14/2.38      range_THFTYPE_IiioI @ lImmediatePastFn_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Reading EnglishLanguage "A &%subclass of &%ContentDevelopment in which content is converted from a written form into a spoken representation. Note that the class &%Interpreting should be used in cases where a &%Text is read silently.")
% 2.14/2.38  %KIF documentation:(documentation Precipitation EnglishLanguage "&%Precipitation is the process of water molecules falling from the air to the ground, in either a liquid or frozen state.")
% 2.14/2.38  %KIF documentation:(documentation TimeDuration EnglishLanguage "Any measure of length of time, with or without respect to the universal timeline.")
% 2.14/2.38  %KIF documentation:(documentation GovernmentFn EnglishLanguage "(&%GovernmentFn ?AREA) denotes the &%Government of the &%GeopoliticalArea ?AREA. For example, (&%GovernmentFn &%UnitedStates) denotes the Federal-level government of the United States, (&%GovernmentFn &%PuertoRico) denotes the government of the Commonwealth of Puerto Rico.")
% 2.14/2.38  %KIF documentation:(documentation BeliefGroup EnglishLanguage "A &%GroupOfPeople whose &%members share a belief or set of beliefs.")
% 2.14/2.38  thf(ax912,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lAstronomicalBody_THFTYPE_i @ lRegion_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax913,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lGeologicalProcess_THFTYPE_i @ lInternalChange_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax914,axiom,
% 2.14/2.38      trichotomizingOn_THFTYPE_IIiioIioI @ greaterThan_THFTYPE_IiioI @ lRealNumber_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Selecting EnglishLanguage "The &%Class of &%IntentionalPsychologicalProcesses which involve opting for one or more &%Entity out of a larger set of &%Entities. Note that this covers all cases of judging or evaluating.")
% 2.14/2.38  thf(ax915,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lTransfer_THFTYPE_i @ lTranslocation_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Patent EnglishLanguage "A &%Certificate that expresses the content of an invention that has been accorded legal protection by a governemental entity.")
% 2.14/2.38  thf(ax916,axiom,
% 2.14/2.38      ! [ROW2: $i,ROW1: $i] :
% 2.14/2.38        ( ( ( contraryAttribute_THFTYPE_IioI @ ROW1 )
% 2.14/2.38          & ( identicalListItems_THFTYPE_IiioI @ ( lListFn_THFTYPE_IiiI @ ROW1 ) @ ( lListFn_THFTYPE_IiiI @ ROW2 ) ) )
% 2.14/2.38       => ( contraryAttribute_THFTYPE_IioI @ ROW2 ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax917,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lVertebrate_THFTYPE_i @ lAnimal_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Constructing EnglishLanguage "The &%subclass of &%Making in which a &%StationaryArtifact is built.")
% 2.14/2.38  %KIF documentation:(documentation Seeing EnglishLanguage "The &%subclass of &%Perception in which the sensing is done by an ocular &%Organ.")
% 2.14/2.38  %KIF documentation:(documentation successorAttribute EnglishLanguage "(&%successorAttribute ?ATTR1 ?ATTR2) means that ?ATTR2 is the &%Attribute that comes immediately after ?ATTR1 on the scale that they share.")
% 2.14/2.38  thf(ax918,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lPositionalAttribute_THFTYPE_i @ lRelationalAttribute_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax919,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lGasMotion_THFTYPE_i @ lMotion_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax920,axiom,
% 2.14/2.38      subAttribute_THFTYPE_IiioI @ lLiquid_THFTYPE_i @ lFluid_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax921,axiom,
% 2.14/2.38      ! [POINT: $i,INTERVAL: $i] :
% 2.14/2.38        ( ( ( lEndFn_THFTYPE_IiiI @ INTERVAL )
% 2.14/2.38          = POINT )
% 2.14/2.38       => ! [OTHERPOINT: $i] :
% 2.14/2.38            ( ( ( temporalPart_THFTYPE_IiioI @ OTHERPOINT @ INTERVAL )
% 2.14/2.38              & ( (~) @ ( OTHERPOINT = POINT ) ) )
% 2.14/2.38           => ( before_THFTYPE_IiioI @ OTHERPOINT @ POINT ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation relative EnglishLanguage "(&%relative ?O1 ?O2) means that ?O1 and ?O2 are relatives, whether through common ancestry (consanguinity), someone's marriage (affinity), or someone's adoption. This definition is intentionally broad, so as to capture a wide array of `familial' relations. The notion of who counts as `family' also varies between cultures, but that aspect of meaning is not addressed here.")
% 2.14/2.38  thf(ax922,axiom,
% 2.14/2.38      ! [NUMBER: $i] :
% 2.14/2.38        ( ( NUMBER
% 2.14/2.38          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.38       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lQuart_THFTYPE_i )
% 2.14/2.38          = ( lMeasureFn_THFTYPE_IiiiI @ ( div_THFTYPE_IiiiI @ NUMBER @ n4_THFTYPE_i ) @ lUnitedStatesGallon_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation BiologicallyActiveSubstance EnglishLanguage "A &%Substance that is capable of inducing a change in the structure or functioning of an &%Organism. This &%Class includes &%Substances used in the treatment, diagnosis, prevention or analysis of normal and abnormal body function. This &%Class also includes &%Substances that occur naturally in the body and are administered therapeutically. Finally, &%BiologicallyActiveSubstance includes &%Nutrients, most drugs of abuse, and agents that require special handling because of their toxicity.")
% 2.14/2.38  thf(ax923,axiom,
% 2.14/2.38      disjoint_THFTYPE_IiioI @ lFactualText_THFTYPE_i @ lFictionalText_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax924,axiom,
% 2.14/2.38      ! [OBJ1: $i,OBJ2: $i] :
% 2.14/2.38        ( ( traverses_THFTYPE_IiioI @ OBJ1 @ OBJ2 )
% 2.14/2.38       => ( ( crosses_THFTYPE_IiioI @ OBJ1 @ OBJ2 )
% 2.14/2.38          | ( penetrates_THFTYPE_IiioI @ OBJ1 @ OBJ2 ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax925,axiom,
% 2.14/2.38      ! [OBJ: $i] :
% 2.14/2.38        ( ( attribute_THFTYPE_IiioI @ OBJ @ lDry_THFTYPE_i )
% 2.14/2.38       => ( (~)
% 2.14/2.38          @ ? [SUBOBJ: $i] :
% 2.14/2.38              ( ( part_THFTYPE_IiioI @ SUBOBJ @ OBJ )
% 2.14/2.38              & ( attribute_THFTYPE_IiioI @ SUBOBJ @ lLiquid_THFTYPE_i ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Alga EnglishLanguage "A chiefly aquatic plant that contains chlorophyll, but does not form embryos during development and lacks vascular tissue.")
% 2.14/2.38  thf(ax926,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lEthnicGroup_THFTYPE_i @ lGroupOfPeople_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax927,axiom,
% 2.14/2.38      ! [OBJ: $i,REPAIR: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ REPAIR @ lRepairing_THFTYPE_i )
% 2.14/2.38          & ( patient_THFTYPE_IiioI @ REPAIR @ OBJ ) )
% 2.14/2.38       => ? [DAMAGE: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ DAMAGE @ lDamaging_THFTYPE_i )
% 2.14/2.38            & ( patient_THFTYPE_IiioI @ DAMAGE @ OBJ )
% 2.14/2.38            & ( earlier_THFTYPE_IiioI @ ( lWhenFn_THFTYPE_IiiI @ DAMAGE ) @ ( lWhenFn_THFTYPE_IiiI @ REPAIR ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax928,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lVocalizing_THFTYPE_i @ lRadiatingSound_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Microorganism EnglishLanguage "An &%Organism that can be seen only with the aid of a microscope.")
% 2.14/2.38  thf(ax929,axiom,
% 2.14/2.38      ! [NUMBER: $i,QUANTITY: $i] :
% 2.14/2.38        ( ( QUANTITY
% 2.14/2.38          = ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lCoulomb_THFTYPE_i ) )
% 2.14/2.38       => ( instance_THFTYPE_IiioI @ QUANTITY @ lTimeDependentQuantity_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation GovernmentOrganization EnglishLanguage "&%GovernmentOrganization is the class of official &%Organizations that are concerned with the government of a &%GeopoliticalArea at some level. They may be a &%subOrganization of a government.")
% 2.14/2.38  thf(ax930,axiom,
% 2.14/2.38      ! [WEEK: $i,DAY1: $i,DAY2: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ DAY1 @ lThursday_THFTYPE_i )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ DAY2 @ lFriday_THFTYPE_i )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ WEEK @ lWeek_THFTYPE_i )
% 2.14/2.38          & ( temporalPart_THFTYPE_IiioI @ DAY1 @ WEEK )
% 2.14/2.38          & ( temporalPart_THFTYPE_IiioI @ DAY2 @ WEEK ) )
% 2.14/2.38       => ( meetsTemporally_THFTYPE_IiioI @ DAY1 @ DAY2 ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax931,axiom,
% 2.14/2.38      ! [CONTENT: $o,AGENT: $i,TEXT: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ TEXT @ lFactualText_THFTYPE_i )
% 2.14/2.38          & ( authors_THFTYPE_IiioI @ AGENT @ TEXT )
% 2.14/2.38          & ( subsumesContentInstance_THFTYPE_IiooI @ TEXT @ CONTENT )
% 2.14/2.38          & ( instance_THFTYPE_IoioI @ CONTENT @ lFormula_THFTYPE_i ) )
% 2.14/2.38       => ( believes_THFTYPE_IiooI @ AGENT @ CONTENT ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax932,axiom,
% 2.14/2.38      partition_THFTYPE_IiiiiioI @ lGeometricFigure_THFTYPE_i @ lGeometricPoint_THFTYPE_i @ lOneDimensionalFigure_THFTYPE_i @ lTwoDimensionalFigure_THFTYPE_i @ lThreeDimensionalFigure_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax933,axiom,
% 2.14/2.38      ! [LIST2: $i,LIST1: $i] :
% 2.14/2.38        ( ( initialList_THFTYPE_IiioI @ LIST1 @ LIST2 )
% 2.14/2.38       => ! [NUMBER1: $i,NUMBER2: $i] :
% 2.14/2.38            ( ( ( ( lListLengthFn_THFTYPE_IiiI @ LIST1 )
% 2.14/2.38                = NUMBER1 )
% 2.14/2.38              & ( ltet_THFTYPE_IiioI @ NUMBER2 @ NUMBER1 ) )
% 2.14/2.38           => ( ( lListOrderFn_THFTYPE_IiiiI @ LIST1 @ NUMBER2 )
% 2.14/2.38              = ( lListOrderFn_THFTYPE_IiiiI @ LIST2 @ NUMBER2 ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax934,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lTraitAttribute_THFTYPE_i @ lPsychologicalAttribute_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation PermanentResidence EnglishLanguage "A &%Residence where people live, i.e. where people have a &%home.")
% 2.14/2.38  thf(ax935,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lCooperation_THFTYPE_i @ lSocialInteraction_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax936,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lPartialOrderingRelation_THFTYPE_i @ lTransitiveRelation_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation PremisesFn EnglishLanguage "(&%PremisesFn ?ARGUMENT) returns the complete set of &%premises of the &%Argument ?ARGUMENT.")
% 2.14/2.38  thf(ax937,axiom,
% 2.14/2.38      ! [DEGREE: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ DEGREE @ lPlaneAngleMeasure_THFTYPE_i )
% 2.14/2.38       => ( ( lTangentFn_THFTYPE_IiiI @ DEGREE )
% 2.14/2.38          = ( div_THFTYPE_IiiiI @ ( lSineFn_THFTYPE_IiiI @ DEGREE ) @ ( lCosineFn_THFTYPE_IiiI @ DEGREE ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax938,axiom,
% 2.14/2.38      ! [OBJECT: $i,OBJECTTYPE: $i,PART: $i] :
% 2.14/2.38        ( ( ( subclass_THFTYPE_IiioI @ OBJECTTYPE @ lSubstance_THFTYPE_i )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ OBJECT @ OBJECTTYPE )
% 2.14/2.38          & ( part_THFTYPE_IiioI @ PART @ OBJECT ) )
% 2.14/2.38       => ( instance_THFTYPE_IiioI @ PART @ OBJECTTYPE ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation ImmediateFutureFn EnglishLanguage "A &%UnaryFunction that maps a &%TimePosition to a short, indeterminate &%TimeInterval that immediately follows the &%TimePosition.")
% 2.14/2.38  thf(ax939,axiom,
% 2.14/2.38      identityElement_THFTYPE_IIiiiIioI @ lDivisionFn_THFTYPE_IiiiI @ n1_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax940,axiom,
% 2.14/2.38      ! [NUMBER: $i,CLASS: $i,REL: $i > $o,ROW: $i] :
% 2.14/2.38        ( ( ( domainSubclass_THFTYPE_IIioIiioI @ REL @ NUMBER @ CLASS )
% 2.14/2.38          & ( REL @ ROW ) )
% 2.14/2.38       => ( subclass_THFTYPE_IiioI @ ( lListOrderFn_THFTYPE_IiiiI @ ( lListFn_THFTYPE_IiiI @ ROW ) @ NUMBER ) @ CLASS ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation OneDimensionalFigure EnglishLanguage "The class of &%GeometricFigures that have position and an extension along a single dimension, viz. straight lines.")
% 2.14/2.38  %KIF documentation:(documentation NegativeRealNumber EnglishLanguage "A &%RealNumber that is less than zero.")
% 2.14/2.38  thf(ax941,axiom,
% 2.14/2.38      range_THFTYPE_IiioI @ lFloorFn_THFTYPE_i @ lInteger_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Speaking EnglishLanguage "Any &%LinguisticGeneration which is also a &%Vocalizing, i.e. any &%LinguisticCommunication by a &%Human which involves his/ her vocal cords.")
% 2.14/2.38  %KIF documentation:(documentation hasSkill EnglishLanguage "Similar to the &%capability &%Predicate with the additional restriction that the ability be practised/ demonstrated to some measurable degree.")
% 2.14/2.38  thf(ax942,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lPerception_THFTYPE_i @ lPsychologicalProcess_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax943,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lNonnegativeRealNumber_THFTYPE_i @ lRealNumber_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax944,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lNaturalProcess_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax945,axiom,
% 2.14/2.38      ! [REL: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ REL @ lTernaryPredicate_THFTYPE_i )
% 2.14/2.38       => ( valence_THFTYPE_IiioI @ REL @ n3_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax946,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lBone_THFTYPE_i @ lTissue_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax947,axiom,
% 2.14/2.38      range_THFTYPE_IiioI @ lMeasureFn_THFTYPE_i @ lPhysicalQuantity_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation TimePoint EnglishLanguage "An extensionless point on the universal timeline. The &%TimePoints at which &%Processes occur can be known with various degrees of precision and approximation, but conceptually &%TimePoints are point-like and not interval-like. That is, it doesn't make sense to talk about how long a &%TimePoint lasts.")
% 2.14/2.38  %KIF documentation:(documentation subsumedExternalConcept EnglishLanguage "(&%subsumedExternalConcept ?STRING ?THING ?LANGUAGE) means that the SUMO concept ?THING is subsumed by the meaning of ?STRING in ?LANGUAGE, i.e. the concept ?THING is narrower in meaning than ?STRING.")
% 2.14/2.38  thf(ax948,axiom,
% 2.14/2.38      ! [OBJ1: $i,OBJ2: $i] :
% 2.14/2.38        ( ( orientation_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ lHorizontal_THFTYPE_i )
% 2.14/2.38      <=> ( orientation_THFTYPE_IiiioI @ OBJ2 @ OBJ1 @ lHorizontal_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation RecreationOrExercise EnglishLanguage "A &%Process that is carried out for the purpose of recreation or exercise. Since &%RecreationOrExercise is a subclass of &%IntentionalProcess, the intent of a process determines whether or not it is an instance of the class. Hence, if John and Bill watch the same program on television, and John watches it to relax while Bill watches it solely to satisfy an educational requirement, then John's watching the movie is an instance of &%RecreationOrExercise, while Bill's is not (both cases of watching the television program would however be in the class of &%Seeing, since being an instance of this latter class is not determined by intention).")
% 2.14/2.38  %KIF documentation:(documentation Dancing EnglishLanguage "Any &%BodyMotion of &%Humans which is deliberately coordinated with music.")
% 2.14/2.38  thf(ax949,axiom,
% 2.14/2.38      ! [MONTH: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ MONTH @ lAugust_THFTYPE_i )
% 2.14/2.38       => ( duration_THFTYPE_IiioI @ MONTH @ ( lMeasureFn_THFTYPE_IiiiI @ n31_THFTYPE_i @ lDayDuration_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax950,axiom,
% 2.14/2.38      ! [HOUR: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ HOUR @ lHour_THFTYPE_i )
% 2.14/2.38       => ( duration_THFTYPE_IiioI @ HOUR @ ( lMeasureFn_THFTYPE_IiiiI @ n1_THFTYPE_i @ lHourDuration_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Buying EnglishLanguage "A &%FinancialTransaction in which an instance of &%CurrencyMeasure is exchanged for an instance of &%Physical.")
% 2.14/2.38  thf(ax951,axiom,
% 2.14/2.38      rangeSubclass_THFTYPE_IiioI @ lPeriodicalIssueFn_THFTYPE_i @ lPeriodical_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax952,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lEating_THFTYPE_i @ lIngesting_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation FahrenheitDegree EnglishLanguage "A &%UnitOfTemperature that is commonly used in the United States. On the Fahrenheit scale, the freezing point of water is 32 &%FahrenheitDegrees, and the boiling point of water is 212 &%FahrenheitDegrees.")
% 2.14/2.38  thf(ax953,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lHiring_THFTYPE_i @ lJoiningAnOrganization_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax954,axiom,
% 2.14/2.38      range_THFTYPE_IiioI @ lListConcatenateFn_THFTYPE_i @ lList_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax955,axiom,
% 2.14/2.38      ! [ORG: $i,TEXT: $i] :
% 2.14/2.38        ( ( publishes_THFTYPE_IiioI @ ORG @ TEXT )
% 2.14/2.38      <=> ? [PUB: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ PUB @ lPublication_THFTYPE_i )
% 2.14/2.38            & ( agent_THFTYPE_IiioI @ PUB @ ORG )
% 2.14/2.38            & ( patient_THFTYPE_IiioI @ PUB @ TEXT ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax956,axiom,
% 2.14/2.38      ! [OBJ1: $i,OBJ2: $i] :
% 2.14/2.38        ( ( orientation_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ lOn_THFTYPE_i )
% 2.14/2.38       => ( connected_THFTYPE_IiioI @ OBJ1 @ OBJ2 ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation PlaneAngleMeasure EnglishLanguage "The value of an angle in a plane.")
% 2.14/2.38  thf(ax957,axiom,
% 2.14/2.38      ! [REL: $i > $i > $o] :
% 2.14/2.38        ( ( instance_THFTYPE_IIiioIioI @ REL @ lAntisymmetricRelation_THFTYPE_i )
% 2.14/2.38      <=> ! [INST1: $i,INST2: $i] :
% 2.14/2.38            ( ( ( REL @ INST1 @ INST2 )
% 2.14/2.38              & ( REL @ INST2 @ INST1 ) )
% 2.14/2.38           => ( INST1 = INST2 ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation part EnglishLanguage "The basic mereological relation. All other mereological relations are defined in terms of this one. (&%part ?PART ?WHOLE) simply means that the &%Object ?PART is part of the &%Object ?WHOLE. Note that, since &%part is a &%ReflexiveRelation, every &%Object is a part of itself.")
% 2.14/2.38  thf(ax958,axiom,
% 2.14/2.38      ! [CLASS: $i,INTERVAL_TYPE: $i,INTERVAL: $i] :
% 2.14/2.38        ( ( ( lTemporalCompositionFn_THFTYPE_IiiiI @ INTERVAL @ INTERVAL_TYPE )
% 2.14/2.38          = CLASS )
% 2.14/2.38       => ! [TIME1: $i] :
% 2.14/2.38            ( ( ( instance_THFTYPE_IiioI @ TIME1 @ CLASS )
% 2.14/2.38              & ( (~) @ ( finishes_THFTYPE_IiioI @ TIME1 @ INTERVAL ) ) )
% 2.14/2.38           => ? [TIME2: $i] :
% 2.14/2.38                ( ( instance_THFTYPE_IiioI @ TIME2 @ CLASS )
% 2.14/2.38                & ( meetsTemporally_THFTYPE_IiioI @ TIME1 @ TIME2 ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Class EnglishLanguage "&%Classes differ from &%Sets in three important respects. First, &%Classes are not assumed to be extensional. That is, distinct &%Classes might well have exactly the same instances. Second, &%Classes typically have an associated `condition' that determines the instances of the &%Class. So, for example, the condition `human' determines the &%Class of &%Humans. Note that some &%Classes might satisfy their own condition (e.g., the &%Class of &%Abstract things is &%Abstract) and hence be instances of themselves. Third, the instances of a class may occur only once within the class, i.e. a class cannot contain duplicate instances.")
% 2.14/2.38  thf(ax959,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lCommutativeFunction_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax960,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lMotion_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax961,axiom,
% 2.14/2.38      ! [ORG: $i,ATT: $i] :
% 2.14/2.38        ( ( ( attribute_THFTYPE_IiioI @ ORG @ ATT )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ ATT @ lBiologicalAttribute_THFTYPE_i ) )
% 2.14/2.38       => ( instance_THFTYPE_IiioI @ ORG @ lOrganism_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation CognitiveAgent EnglishLanguage "A &%SentientAgent with responsibilities and the ability to reason, deliberate, make plans, etc. This is essentially the legal/ ethical notion of a person. Note that, although &%Human is a subclass of &%CognitiveAgent, there may be instances of &%CognitiveAgent which are not also instances of &%Human. For example, chimpanzees, gorillas, dolphins, whales, and some extraterrestrials (if they exist) may be &%CognitiveAgents.")
% 2.14/2.38  thf(ax962,axiom,
% 2.14/2.38      exhaustiveAttribute_THFTYPE_IiiioI @ lAnimacyAttribute_THFTYPE_i @ lLiving_THFTYPE_i @ lDead_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax963,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lStateOrProvince_THFTYPE_i @ lLandArea_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax964,axiom,
% 2.14/2.38      ! [ISLAND: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ ISLAND @ lIsland_THFTYPE_i )
% 2.14/2.38       => ( (~)
% 2.14/2.38          @ ? [AREA: $i,PART1: $i,PART2: $i] :
% 2.14/2.38              ( ( instance_THFTYPE_IiioI @ AREA @ lLandArea_THFTYPE_i )
% 2.14/2.38              & ( part_THFTYPE_IiioI @ PART1 @ ISLAND )
% 2.14/2.38              & ( part_THFTYPE_IiioI @ PART2 @ AREA )
% 2.14/2.38              & ( (~) @ ( part_THFTYPE_IiioI @ ISLAND @ AREA ) )
% 2.14/2.38              & ( (~) @ ( part_THFTYPE_IiioI @ AREA @ ISLAND ) )
% 2.14/2.38              & ( meetsSpatially_THFTYPE_IiioI @ PART1 @ PART2 ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax965,axiom,
% 2.14/2.38      ! [OBJ1: $i,OBJ2: $i] :
% 2.14/2.38        ( ( orientation_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ lVertical_THFTYPE_i )
% 2.14/2.38      <=> ( orientation_THFTYPE_IiiioI @ OBJ2 @ OBJ1 @ lVertical_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax966,axiom,
% 2.14/2.38      disjointDecomposition_THFTYPE_IiiiioI @ lPhrase_THFTYPE_i @ lVerbPhrase_THFTYPE_i @ lNounPhrase_THFTYPE_i @ lPrepositionalPhrase_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Ungrasping EnglishLanguage "Any instance of &%Detaching which results in a situation where it is not the case that the &%agent &%grasps something which he/ she &%grasps previously.")
% 2.14/2.38  %KIF documentation:(documentation Stating EnglishLanguage "Instances of this &%Class commit the &%agent to some truth. For example, John claimed that the moon is made of green cheese.")
% 2.14/2.38  thf(ax967,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lAtomicNucleus_THFTYPE_i @ lSubatomicParticle_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax968,axiom,
% 2.14/2.38      ! [DIRECT: $i,OBJ1: $i,OBJ2: $i,OBJ3: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ DIRECT @ lDirectionalAttribute_THFTYPE_i )
% 2.14/2.38          & ( orientation_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ DIRECT )
% 2.14/2.38          & ( orientation_THFTYPE_IiiioI @ OBJ2 @ OBJ3 @ DIRECT ) )
% 2.14/2.38       => ( between_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ OBJ3 ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax969,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lSymmetricPositionalAttribute_THFTYPE_i @ lPositionalAttribute_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation GraphPath EnglishLanguage "Informally, a single, directed route between two &%GraphNodes in a &%Graph. Formally, a &%DirectedGraph that is a &%subGraph of the original &%Graph and such that no two &%GraphArcs in the &%DirectedGraph have the same intial node (see &%InitialNodeFn) or the same terminal node (see &%TerminalNodeFn).")
% 2.14/2.38  thf(ax970,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lHouse_THFTYPE_i @ lSingleFamilyResidence_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax971,axiom,
% 2.14/2.38      disjoint_THFTYPE_IiioI @ lRoom_THFTYPE_i @ lBuilding_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation TasteAttribute EnglishLanguage "The &%Class of &%Attributes relating to the taste of &%Objects.")
% 2.14/2.38  %KIF documentation:(documentation PoliticalOrganization EnglishLanguage "An &%Organization that is attempting to bring about some sort of political change.")
% 2.14/2.38  thf(ax972,axiom,
% 2.14/2.38      ! [MORPH: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ MORPH @ lMorpheme_THFTYPE_i )
% 2.14/2.38       => ? [WORD: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ WORD @ lWord_THFTYPE_i )
% 2.14/2.38            & ( part_THFTYPE_IiioI @ MORPH @ WORD ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax973,axiom,
% 2.14/2.38      disjoint_THFTYPE_IiioI @ lNaturalProcess_THFTYPE_i @ lIntentionalProcess_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax974,axiom,
% 2.14/2.38      ! [SURFACE: $i,OBJ: $i,ATTRIBUTE: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ ATTRIBUTE @ lTextureAttribute_THFTYPE_i )
% 2.14/2.38          & ( attribute_THFTYPE_IiioI @ OBJ @ ATTRIBUTE )
% 2.14/2.38          & ( surface_THFTYPE_IiioI @ SURFACE @ OBJ ) )
% 2.14/2.38       => ( attribute_THFTYPE_IiioI @ SURFACE @ ATTRIBUTE ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax975,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lMotionDownward_THFTYPE_i @ lMotion_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Combustion EnglishLanguage "The &%Class of &%ChemicalProcesses in which an &%Object reacts with oxygen and gives off heat. This includes all &%Processes in which something is burning.")
% 2.14/2.38  %KIF documentation:(documentation MegaByte EnglishLanguage "One &%MegaByte (MB) of information. One &%MegaByte is 1024 &%KiloBytes. Note that this sense of 'mega' is different from the one accepted in the SI system.")
% 2.14/2.38  thf(ax976,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lUnaryFunction_THFTYPE_i @ lFunction_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax977,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lQuaternaryRelation_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax978,axiom,
% 2.14/2.38      ! [MINUTE: $i,NUMBER: $i,SECOND: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ SECOND @ ( lSecondFn_THFTYPE_IiiiI @ NUMBER @ MINUTE ) )
% 2.14/2.38       => ( lt_THFTYPE_IiioI @ NUMBER @ n60_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation before EnglishLanguage "(&%before ?POINT1 ?POINT2) means that ?POINT1 precedes ?POINT2 on the universal timeline.")
% 2.14/2.38  thf(ax979,axiom,
% 2.14/2.38      ! [OBJ: $i,HOLE: $i] :
% 2.14/2.38        ( ( hole_THFTYPE_IiioI @ HOLE @ OBJ )
% 2.14/2.38       => ( (~) @ ( overlapsSpatially_THFTYPE_IiioI @ HOLE @ OBJ ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation MotionPicture EnglishLanguage "A &%ContentBearingObject which depicts motion (and which may have an audio or text component as well). This &%Class covers films, videos, etc.")
% 2.14/2.38  %KIF documentation:(documentation subList EnglishLanguage "(&%subList ?LIST1 ?LIST2) means that ?LIST1 is a sublist of ?LIST2, i.e. every element of ?LIST1 is an element of ?LIST2 and the elements that are common to both &%Lists have the same order in both &%Lists. Elements that are common to both Lists and are consecutive in one list must also be consecutive in the other list. (Therefore - the list of prime numbers smaller than 10 [1 2 3 5 7] is not a subList of the natural numbers smaller than 10 [1 2 3 4 5 6 7 8 9]).")
% 2.14/2.38  thf(ax980,axiom,
% 2.14/2.38      ! [O: $i,M: $i] :
% 2.14/2.38        ( ( length_THFTYPE_IiioI @ O @ M )
% 2.14/2.38       => ( (~)
% 2.14/2.38          @ ? [M2: $i] :
% 2.14/2.38              ( ( linearExtent_THFTYPE_IiioI @ O @ M2 )
% 2.14/2.38              & ( gt_THFTYPE_IiioI @ M2 @ M ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax981,axiom,
% 2.14/2.38      inverse_THFTYPE_IIiioIIiioIoI @ greaterThan_THFTYPE_IiioI @ lessThan_THFTYPE_IiioI ).
% 2.14/2.38  
% 2.14/2.38  thf(ax982,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lPhysicalQuantity_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax983,axiom,
% 2.14/2.38      ! [NUMBER: $i,INT: $i] :
% 2.14/2.38        ( ( ( lFloorFn_THFTYPE_IiiI @ NUMBER )
% 2.14/2.38          = INT )
% 2.14/2.38       => ( (~)
% 2.14/2.38          @ ? [OTHERINT: $i] :
% 2.14/2.38              ( ( instance_THFTYPE_IiioI @ OTHERINT @ lInteger_THFTYPE_i )
% 2.14/2.38              & ( ltet_THFTYPE_IiioI @ OTHERINT @ NUMBER )
% 2.14/2.38              & ( gt_THFTYPE_IiioI @ OTHERINT @ INT ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax984,axiom,
% 2.14/2.38      range_THFTYPE_IiioI @ lKiloFn_THFTYPE_i @ lUnitOfMeasure_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Hominid EnglishLanguage "Includes &%Humans and relatively recent ancestors of &%Humans.")
% 2.14/2.38  thf(ax985,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lPathologicProcess_THFTYPE_i @ lBiologicalProcess_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation traverses EnglishLanguage "(&%traverses ?OBJ1 ?OBJ2) means that ?OBJ1 crosses or extends across ?OBJ2. Note that &%crosses and &%penetrates are subrelations of &%traverses.")
% 2.14/2.38  thf(ax986,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lTimeDuration_THFTYPE_i @ lTimeMeasure_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Damaging EnglishLanguage "The &%Class of &%Processes where the &%agent brings about a situation where the &%patient no longer functions normally or as intended.")
% 2.14/2.38  thf(ax987,axiom,
% 2.14/2.38      range_THFTYPE_IiioI @ lCenterOfCircleFn_THFTYPE_i @ lGeometricPoint_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax988,axiom,
% 2.14/2.38      partition_THFTYPE_IiiioI @ lInteger_THFTYPE_i @ lOddInteger_THFTYPE_i @ lEvenInteger_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax989,axiom,
% 2.14/2.38      ! [NUMBER: $i,QUANTITY: $i] :
% 2.14/2.38        ( ( QUANTITY
% 2.14/2.38          = ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lBecquerel_THFTYPE_i ) )
% 2.14/2.38       => ( instance_THFTYPE_IiioI @ QUANTITY @ lTimeDependentQuantity_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax990,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lIntentionalRelation_THFTYPE_i @ lRelation_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax991,axiom,
% 2.14/2.38      ! [ORGANISM: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ ORGANISM @ lOrganism_THFTYPE_i )
% 2.14/2.38       => ? [BIRTH: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ BIRTH @ lBirth_THFTYPE_i )
% 2.14/2.38            & ( experiencer_THFTYPE_IiioI @ BIRTH @ ORGANISM ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax992,axiom,
% 2.14/2.38      ! [MONTH1: $i,MONTH2: $i,YEAR: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ MONTH1 @ ( lMonthFn_THFTYPE_IiiiI @ lAugust_THFTYPE_i @ YEAR ) )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ MONTH2 @ ( lMonthFn_THFTYPE_IiiiI @ lSeptember_THFTYPE_i @ YEAR ) ) )
% 2.14/2.38       => ( meetsTemporally_THFTYPE_IiioI @ MONTH1 @ MONTH2 ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax993,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lCalculating_THFTYPE_i @ lIntentionalPsychologicalProcess_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax994,axiom,
% 2.14/2.38      ! [INVESTIGATE: $i,PROP: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ INVESTIGATE @ lInvestigating_THFTYPE_i )
% 2.14/2.38          & ( patient_THFTYPE_IiioI @ INVESTIGATE @ PROP ) )
% 2.14/2.38       => ( instance_THFTYPE_IiioI @ PROP @ lFormula_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax995,axiom,
% 2.14/2.38      partition_THFTYPE_IiiioI @ lAttribute_THFTYPE_i @ lInternalAttribute_THFTYPE_i @ lRelationalAttribute_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax996,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lPropositionalAttitude_THFTYPE_i @ lAsymmetricRelation_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax997,axiom,
% 2.14/2.38      rangeSubclass_THFTYPE_IiioI @ lDayFn_THFTYPE_i @ lDay_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax998,axiom,
% 2.14/2.38      ! [ADVERT: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ ADVERT @ lAdvertising_THFTYPE_i )
% 2.14/2.38       => ? [OBJ: $i] :
% 2.14/2.38            ( ( refers_THFTYPE_IiioI @ ADVERT @ OBJ )
% 2.14/2.38            & ( hasPurpose_THFTYPE_IiooI @ ADVERT
% 2.14/2.38              @ ? [SALE: $i] :
% 2.14/2.38                  ( ( instance_THFTYPE_IiioI @ SALE @ lSelling_THFTYPE_i )
% 2.14/2.38                  & ( patient_THFTYPE_IiioI @ SALE @ OBJ ) ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax999,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lChangeOfPossession_THFTYPE_i @ lSocialInteraction_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation distributes EnglishLanguage "A &%BinaryFunction ?FUNCTION1 is distributive over another &%BinaryFunction ?FUNCTION2 just in case (?FUNCTION1 ?INST1 (?FUNCTION2 ?INST2 ?INST3)) is equal to (?FUNCTION2 (?FUNCTION1 ?INST1 ?INST2) (?FUNCTION1 ?INST1 ?INST3)), for all ?INST1, ?INST2, and ?INST3.")
% 2.14/2.38  thf(ax1000,axiom,
% 2.14/2.38      ! [MEET: $i,AGENT2: $i,AGENT1: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ MEET @ lMeeting_THFTYPE_i )
% 2.14/2.38          & ( agent_THFTYPE_IiioI @ MEET @ AGENT1 )
% 2.14/2.38          & ( agent_THFTYPE_IiioI @ MEET @ AGENT2 ) )
% 2.14/2.38       => ( holdsDuring_THFTYPE_IiooI @ ( lWhenFn_THFTYPE_IiiI @ MEET ) @ ( orientation_THFTYPE_IiiioI @ AGENT1 @ AGENT2 @ lNear_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation range EnglishLanguage "Gives the range of a function. In other words, (&%range ?FUNCTION ?CLASS) means that all of the values assigned by ?FUNCTION are &%instances of ?CLASS.")
% 2.14/2.38  thf(ax1001,axiom,
% 2.14/2.38      ! [TEMP: $i,BOIL: $i,MELT: $i,X: $i,Y: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ X @ Y )
% 2.14/2.38          & ( subclass_THFTYPE_IiioI @ Y @ lPureSubstance_THFTYPE_i )
% 2.14/2.38          & ( boilingPoint_THFTYPE_IiioI @ Y @ ( lMeasureFn_THFTYPE_IiiiI @ BOIL @ lKelvinDegree_THFTYPE_i ) )
% 2.14/2.38          & ( meltingPoint_THFTYPE_IiioI @ Y @ ( lMeasureFn_THFTYPE_IiiiI @ MELT @ lKelvinDegree_THFTYPE_i ) )
% 2.14/2.38          & ( measure_THFTYPE_IiioI @ X @ ( lMeasureFn_THFTYPE_IiiiI @ TEMP @ lKelvinDegree_THFTYPE_i ) )
% 2.14/2.38          & ( gt_THFTYPE_IiioI @ TEMP @ MELT )
% 2.14/2.38          & ( lt_THFTYPE_IiioI @ TEMP @ BOIL ) )
% 2.14/2.38       => ( attribute_THFTYPE_IiioI @ X @ lLiquid_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1002,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lGame_THFTYPE_i @ lContest_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1003,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lApril_THFTYPE_i @ lMonth_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1004,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lBird_THFTYPE_i @ lWarmBloodedVertebrate_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Translocation EnglishLanguage "&%Translocation is that class of &%Motions in which an object moves from one place to another. In the case of round trips, the &%origin and &%destination are the same, but the intervening motion passes through other locations. &%Translocation represents linear motion, in contrast to rotation or other movement in place. A vehicle is not necessary, &%Ambulating is a kind of &%Translocation.")
% 2.14/2.38  %KIF documentation:(documentation Agent EnglishLanguage "Something or someone that can act on its own and produce changes in the world.")
% 2.14/2.38  %KIF documentation:(documentation PeriodicalIssueFn EnglishLanguage "A &%BinaryFunction that maps a subclass of &%Periodical and a number to all of the issues of the &%Periodical corresponding to the number.")
% 2.14/2.38  thf(ax1005,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lAntisymmetricRelation_THFTYPE_i @ lBinaryRelation_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1006,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lEvaporating_THFTYPE_i @ lStateChange_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1007,axiom,
% 2.14/2.38      range_THFTYPE_IiioI @ lMaximalWeightedPathFn_THFTYPE_i @ lGraphPath_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation connectsEngineeringComponents EnglishLanguage "&%connectsEngineeringComponents is a &%TernaryPredicate that maps from an &%EngineeringConnection to the &%EngineeringComponents it connects. Since &%EngineeringComponents cannot be connected to themselves and there cannot be an &%EngineeringConnection without a &%connectedEngineeringComponents &%Predicate, the second and third arguments of any &%connectsEngineeringComponents relationship will always be distinct for any given first argument.")
% 2.14/2.38  %KIF documentation:(documentation Feline EnglishLanguage "The &%Class of &%Carnivores with completely separable toes, slim bodies, and rounded heads. All felines other than the cheetah have retractable claws.")
% 2.14/2.38  thf(ax1008,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lProcedure_THFTYPE_i @ lProposition_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation systemPart EnglishLanguage "(&%systemPart ?PART ?SYSTEM) means that the &%Physical thing ?PART is a &%SystemElement in the &%PhysicalSystem ?SYSTEM.")
% 2.14/2.38  %KIF documentation:(documentation Killing EnglishLanguage "The &%subclass of &%Destruction in which the death of an &%Organism is caused by an &%Organism. Note that in cases of suicide the &%Organism would be the same in both cases.")
% 2.14/2.38  thf(ax1009,axiom,
% 2.14/2.38      ! [WOMAN: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ WOMAN @ lWoman_THFTYPE_i )
% 2.14/2.38       => ( attribute_THFTYPE_IiioI @ WOMAN @ lFemale_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(synonymousExternalConcept "average" average EnglishLanguage)
% 2.14/2.38  %KIF documentation:(documentation Volt EnglishLanguage "SI electric potential measure. Symbol: V. It is the difference of electric potential between two points of a conducting wire carrying a constant current of 1 &%Ampere, when the power dissipated between these points is equal to 1 &%Watt. &%Volt = W/ A = m^2*kg*s^(-3)*A^(-1).")
% 2.14/2.38  %KIF documentation:(documentation EquivalenceRelation EnglishLanguage "A &%BinaryRelation is an equivalence relation if it is a &%ReflexiveRelation, a &%SymmetricRelation, and a &%TransitiveRelation.")
% 2.14/2.38  %KIF documentation:(documentation Muscle EnglishLanguage "Nonrigid &%Tissue appearing only in &%Animals and composed largely of contractile cells.")
% 2.14/2.38  %KIF documentation:(documentation Hour EnglishLanguage "The &%Class of all clock &%Hours.")
% 2.14/2.38  %KIF documentation:(documentation closedOn EnglishLanguage "A &%BinaryFunction is closed on a &%SetOrClass if it is defined for all instances of the &%SetOrClass and its value is always an instance of the &%SetOrClass.")
% 2.14/2.38  %KIF documentation:(documentation Seed EnglishLanguage "The fertilized or unfertilized female &%ReproductiveBody of a &%FloweringPlant.")
% 2.14/2.38  %KIF documentation:(documentation holdsRight EnglishLanguage "Expresses a relationship between a &%Formula and a &%CognitiveAgent whereby the &%CognitiveAgent has the right to bring it about that the &%Formula is true.")
% 2.14/2.38  %KIF documentation:(documentation disjoint EnglishLanguage "&%Classes are &%disjoint only if they share no instances, i.e. just in case the result of applying &%IntersectionFn to them is empty.")
% 2.14/2.38  %KIF documentation:(documentation Fish EnglishLanguage "A cold-blooded aquatic &%Vertebrate characterized by fins and breathing by gills. Included here are &%Fish having either a bony skeleton, such as a perch, or a cartilaginous skeleton, such as a shark. Also included are those &%Fish lacking a jaw, such as a lamprey or hagfish.")
% 2.14/2.38  thf(ax1010,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lPublication_THFTYPE_i @ lManufacture_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation capability EnglishLanguage "(&%capability ?PROCESS ?ROLE ?OBJ) means that ?OBJ has the ability to play the role of ?ROLE in &%Processes of type ?PROCESS.")
% 2.14/2.38  thf(ax1011,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lOffering_THFTYPE_i @ lCommitting_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation SubatomicParticle EnglishLanguage "The class of &%ElementalSubstances that are smaller than &%Atoms and compose &%Atoms.")
% 2.14/2.38  thf(ax1012,axiom,
% 2.14/2.38      ! [CLASS: $i,RELATION: $i > $i > $o] :
% 2.14/2.38        ( ( trichotomizingOn_THFTYPE_IIiioIioI @ RELATION @ CLASS )
% 2.14/2.38       => ! [INST1: $i,INST2: $i] :
% 2.14/2.38            ( ( ( instance_THFTYPE_IiioI @ INST1 @ CLASS )
% 2.14/2.38              & ( instance_THFTYPE_IiioI @ INST2 @ CLASS ) )
% 2.14/2.38           => ( ( RELATION @ INST1 @ INST2 )
% 2.14/2.38              | ( RELATION @ INST2 @ INST1 )
% 2.14/2.38              | ( INST1 = INST2 ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1013,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lPhysicalAttribute_THFTYPE_i @ lInternalAttribute_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1014,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lDestruction_THFTYPE_i @ lDamaging_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation TimeInterval EnglishLanguage "An interval of time. Note that a &%TimeInterval has both an extent and a location on the universal timeline. Note too that a &%TimeInterval has no gaps, i.e. this class contains only convex time intervals.")
% 2.14/2.38  thf(ax1015,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lMusicalInstrument_THFTYPE_i @ lDevice_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1016,axiom,
% 2.14/2.38      ! [REGION: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ REGION @ lRegion_THFTYPE_i )
% 2.14/2.38       => ? [PHYS: $i] : ( located_THFTYPE_IiioI @ PHYS @ REGION ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1017,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lVirus_THFTYPE_i @ lMicroorganism_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1018,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lNounPhrase_THFTYPE_i @ lPhrase_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1019,axiom,
% 2.14/2.38      ! [REL2: $i > $o,ROW2: $i,REL1: $i > $o] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IIioIioI @ REL1 @ lPredicate_THFTYPE_i )
% 2.14/2.38          & ( instance_THFTYPE_IIioIioI @ REL2 @ lPredicate_THFTYPE_i )
% 2.14/2.38          & ( disjointRelation_THFTYPE_IIioIIioIoI @ REL1 @ REL2 )
% 2.14/2.38          & ( (~) @ ( REL1 = REL2 ) )
% 2.14/2.38          & ( REL1 @ ROW2 ) )
% 2.14/2.38       => ( (~) @ ( REL2 @ ROW2 ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1020,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lRegulatoryProcess_THFTYPE_i @ lGuiding_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1021,axiom,
% 2.14/2.38      ! [GRAPH: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ GRAPH @ lPseudoGraph_THFTYPE_i )
% 2.14/2.38      <=> ? [LOOP: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ LOOP @ lGraphLoop_THFTYPE_i )
% 2.14/2.38            & ( graphPart_THFTYPE_IiioI @ LOOP @ GRAPH ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation GivingBack EnglishLanguage "Any instance of &%Giving where the &%agent gives something to the &%destination which was previously given to the &%agent by the &%destination, e.g. returing a book that was borrowed from someone.")
% 2.14/2.38  %KIF documentation:(documentation modalAttribute EnglishLanguage "A &%BinaryRelation that is used to state the normative force of a &%Proposition. (&%modalAttribute ?FORMULA ?PROP) means that the &%Proposition expressed by ?FORMULA has the &%NormativeAttribute ?PROP. For example, (&%modalAttribute (&%exists (?ACT ?OBJ) (&%and (&%instance ?ACT &%Giving) (&%agent ?ACT John) (&%patient ?ACT ?OBJ) (&%destination ?ACT Tom))) &%Obligation) means that John is obligated to give Tom something.")
% 2.14/2.38  %KIF documentation:(documentation Product EnglishLanguage "An &%Artifact that is produced by &%Manufacture.")
% 2.14/2.38  %KIF documentation:(documentation entails EnglishLanguage "The operator of logical entailment. (&%entails ?FORMULA1 ?FORMULA2) means that ?FORMULA2 can be derived from ?FORMULA1 by means of the proof theory of SUO-KIF.")
% 2.14/2.38  %KIF documentation:(documentation Cutting EnglishLanguage "The &%subclass of &%Poking &%Processes which involve a sharp &%instrument.")
% 2.14/2.38  thf(ax1022,axiom,
% 2.14/2.38      ! [OBJ: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ OBJ @ lSubstance_THFTYPE_i )
% 2.14/2.38      <=> ? [ATTR: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ ATTR @ lPhysicalState_THFTYPE_i )
% 2.14/2.38            & ( attribute_THFTYPE_IiioI @ OBJ @ ATTR ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1023,axiom,
% 2.14/2.38      ! [P: $i,A: $i,C: $i] :
% 2.14/2.38        ( ( ( wears_THFTYPE_IiioI @ A @ C )
% 2.14/2.38          & ( part_THFTYPE_IiioI @ P @ C ) )
% 2.14/2.38       => ( wears_THFTYPE_IiioI @ A @ P ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1024,axiom,
% 2.14/2.38      ! [OBJ1: $i,OBJ2: $i] :
% 2.14/2.38        ( ( orientation_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ lAbove_THFTYPE_i )
% 2.14/2.38       => ( (~) @ ( connected_THFTYPE_IiioI @ OBJ1 @ OBJ2 ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1025,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lBinaryFunction_THFTYPE_i @ lFunction_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1026,axiom,
% 2.14/2.38      ! [REL: $i > $i > $o] :
% 2.14/2.38        ( ( instance_THFTYPE_IIiioIioI @ REL @ lTransitiveRelation_THFTYPE_i )
% 2.14/2.38      <=> ! [INST1: $i,INST2: $i,INST3: $i] :
% 2.14/2.38            ( ( ( REL @ INST1 @ INST2 )
% 2.14/2.38              & ( REL @ INST2 @ INST3 ) )
% 2.14/2.38           => ( REL @ INST1 @ INST3 ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1027,axiom,
% 2.14/2.38      exhaustiveAttribute_THFTYPE_IiiioI @ lSexAttribute_THFTYPE_i @ lFemale_THFTYPE_i @ lMale_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1028,axiom,
% 2.14/2.38      ! [NUMBER: $i] :
% 2.14/2.38        ( ( NUMBER
% 2.14/2.38          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.38       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lSlug_THFTYPE_i )
% 2.14/2.38          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n14593dot90_THFTYPE_i ) @ lGram_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1029,axiom,
% 2.14/2.38      ! [OBJ: $i,SMELL: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ SMELL @ lSmelling_THFTYPE_i )
% 2.14/2.38          & ( patient_THFTYPE_IiioI @ SMELL @ OBJ ) )
% 2.14/2.38       => ? [ATTR: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ ATTR @ lOlfactoryAttribute_THFTYPE_i )
% 2.14/2.38            & ( attribute_THFTYPE_IiioI @ OBJ @ ATTR ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1030,axiom,
% 2.14/2.38      ! [CLASS: $i,INTERVAL_TYPE: $i,INTERVAL: $i] :
% 2.14/2.38        ( ( ( lTemporalCompositionFn_THFTYPE_IiiiI @ INTERVAL @ INTERVAL_TYPE )
% 2.14/2.38          = CLASS )
% 2.14/2.38       => ! [TIME1: $i,TIME2: $i] :
% 2.14/2.38            ( ( ( instance_THFTYPE_IiioI @ TIME1 @ INTERVAL_TYPE )
% 2.14/2.38              & ( instance_THFTYPE_IiioI @ TIME2 @ CLASS ) )
% 2.14/2.38           => ? [DURATION: $i] :
% 2.14/2.38                ( ( duration_THFTYPE_IiioI @ TIME1 @ DURATION )
% 2.14/2.38                & ( duration_THFTYPE_IiioI @ TIME2 @ DURATION ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Putting EnglishLanguage "The &%Class of &%Processes where something is put in a location. Note that the location is specified with the &%CaseRole &%destination.")
% 2.14/2.38  %KIF documentation:(documentation PoliticalProcess EnglishLanguage "An &%OrganizationalProcess carried out by, for or against officially constituted governments. Some examples would be voting on proposed legislation, electing a government representative, or even overthrowing a government in a revolution.")
% 2.14/2.38  thf(ax1031,axiom,
% 2.14/2.38      partition_THFTYPE_IiiiioI @ lRelation_THFTYPE_i @ lPredicate_THFTYPE_i @ lFunction_THFTYPE_i @ lList_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation OrganizationalProcess EnglishLanguage "An &%IntentionalProcess that involves an &%Organization.")
% 2.14/2.38  %KIF documentation:(documentation MagnitudeFn EnglishLanguage "The magnitude of a &%PhysicalQuantity is the numeric value for the quantity. In other words, &%MagnitudeFn converts a &%PhysicalQuantity with an associated &%UnitOfMeasure into an ordinary &%RealNumber. For example, the magnitude of the &%ConstantQuantity 2 &%Kilometers is the &%RealNumber 2. Note that the magnitude of a quantity in a given unit times that unit is equal to the original quantity.")
% 2.14/2.38  thf(ax1032,axiom,
% 2.14/2.38      ! [CHANGE: $i,OBJ: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ CHANGE @ lInternalChange_THFTYPE_i )
% 2.14/2.38          & ( patient_THFTYPE_IiioI @ CHANGE @ OBJ ) )
% 2.14/2.38       => ? [PROPERTY: $i] :
% 2.14/2.38            ( ( ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ CHANGE ) ) @ ( attribute_THFTYPE_IiioI @ OBJ @ PROPERTY ) )
% 2.14/2.38              & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ CHANGE ) ) @ ( (~) @ ( attribute_THFTYPE_IiioI @ OBJ @ PROPERTY ) ) ) )
% 2.14/2.38            | ( ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ CHANGE ) ) @ ( (~) @ ( attribute_THFTYPE_IiioI @ OBJ @ PROPERTY ) ) )
% 2.14/2.38              & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ CHANGE ) ) @ ( attribute_THFTYPE_IiioI @ OBJ @ PROPERTY ) ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation RegulatoryProcess EnglishLanguage "an &%Guiding whose aim is the enforcement of rules or regulations. Note the key differences between &%RegulatoryProcess and the related concept &%Managing. The latter implies a long-term relationship between a single manager and limited number of agents who are managed, while the former implies a normative standard to which the activities of the regulated are referred.")
% 2.14/2.38  thf(ax1033,axiom,
% 2.14/2.38      ! [EXPRESS: $i,LANGUAGE: $i] :
% 2.14/2.38        ( ( expressedInLanguage_THFTYPE_IiioI @ EXPRESS @ LANGUAGE )
% 2.14/2.38      <=> ? [PROP: $i] : ( representsInLanguage_THFTYPE_IiiioI @ EXPRESS @ PROP @ LANGUAGE ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Prostrate EnglishLanguage "The &%BodyPosition of lying down, being in a horizontal position.")
% 2.14/2.38  thf(ax1034,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lBodyPosition_THFTYPE_i @ lBiologicalAttribute_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Smooth EnglishLanguage "An &%Object with this &%Attribute has a smooth surface.")
% 2.14/2.38  %KIF documentation:(documentation RadiatingSound EnglishLanguage "The &%subclass of &%Radiating in which sound waves are given off or absorbed. Some examples include creaking, roaring, and whistling.")
% 2.14/2.38  %KIF documentation:(documentation Adverb EnglishLanguage "One of the parts of speech. The &%Class of &%Words that conventionally denote &%Attributes of &%Processes.")
% 2.14/2.38  thf(ax1035,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lChemicalDecomposition_THFTYPE_i @ lChemicalProcess_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1036,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lUnaryFunction_THFTYPE_i @ lBinaryRelation_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1037,axiom,
% 2.14/2.38      ! [NUMBER: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ NUMBER @ lNonnegativeRealNumber_THFTYPE_i )
% 2.14/2.38       => ( ( ( lSignumFn_THFTYPE_IiiI @ NUMBER )
% 2.14/2.38            = n1_THFTYPE_i )
% 2.14/2.38          | ( ( lSignumFn_THFTYPE_IiiI @ NUMBER )
% 2.14/2.38            = n0_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1038,axiom,
% 2.14/2.38      ! [NUMBER: $i,QUANT: $i,UNIT: $i] :
% 2.14/2.38        ( ( ( NUMBER
% 2.14/2.38            = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ UNIT @ lUnitOfMeasure_THFTYPE_i )
% 2.14/2.38          & ( QUANT
% 2.14/2.38            = ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ UNIT ) ) )
% 2.14/2.38       => ( ( lUnitFn_THFTYPE_IiiI @ QUANT )
% 2.14/2.38          = UNIT ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Betting EnglishLanguage "A &%FinancialTransaction where an instance of &%CurrencyMeasure is exchanged for the possibility of winning a larger instance of &%CurrencyMeasure within the context of some sort of &%Game.")
% 2.14/2.38  thf(ax1039,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lRepresentationalArtWork_THFTYPE_i @ lArtWork_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1040,axiom,
% 2.14/2.38      contraryAttribute_THFTYPE_IiioI @ lHorizontal_THFTYPE_i @ lVertical_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1041,axiom,
% 2.14/2.38      ! [MEET: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ MEET @ lMeeting_THFTYPE_i )
% 2.14/2.38       => ? [AGENT1: $i,AGENT2: $i] :
% 2.14/2.38            ( ( agent_THFTYPE_IiioI @ MEET @ AGENT1 )
% 2.14/2.38            & ( agent_THFTYPE_IiioI @ MEET @ AGENT2 )
% 2.14/2.38            & ( hasPurpose_THFTYPE_IiooI @ MEET
% 2.14/2.38              @ ? [COMM: $i] :
% 2.14/2.38                  ( ( instance_THFTYPE_IiioI @ COMM @ lCommunication_THFTYPE_i )
% 2.14/2.38                  & ( agent_THFTYPE_IiioI @ COMM @ AGENT1 )
% 2.14/2.38                  & ( agent_THFTYPE_IiioI @ COMM @ AGENT2 ) ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1042,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lJuly_THFTYPE_i @ lMonth_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation developmentalForm EnglishLanguage "(&%developmentalForm ?OBJECT ?FORM) means that ?FORM is an earlier stage in the individual maturation of ?OBJECT. For example, tadpole and caterpillar are &%developmentalForms of frogs and butterflies, respectively.")
% 2.14/2.38  %KIF documentation:(documentation LengthMeasure EnglishLanguage "A &%subclass of &%ConstantQuantity, instances of which are measures of length.")
% 2.14/2.38  thf(ax1043,axiom,
% 2.14/2.38      ! [FORMULA: $i,AGENT: $i,REL: $i > $i > $o] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IIiioIioI @ REL @ lPropositionalAttitude_THFTYPE_i )
% 2.14/2.38          & ( REL @ AGENT @ FORMULA ) )
% 2.14/2.38       => ( instance_THFTYPE_IiioI @ FORMULA @ lFormula_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation ThreeDimensionalFigure EnglishLanguage "The class of &%GeometricFigures that have position and an extension along three dimensions, viz. geometric solids like polyhedrons and cylinders.")
% 2.14/2.38  %KIF documentation:(documentation Plasma EnglishLanguage "An extremely energetic &%PhysicalState that consists of atomic nuclei stripped of electrons. That is, a plasma is composed of positive ions and free electrons. &%Plasma behaves differently enough from &%Gas that it is referred to as the fourth state of matter.")
% 2.14/2.38  thf(ax1044,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lSaturday_THFTYPE_i @ lDay_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1045,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lRodent_THFTYPE_i @ lMammal_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1046,axiom,
% 2.14/2.38      ! [ORGANISM: $i,REP: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ REP @ lSexualReproduction_THFTYPE_i )
% 2.14/2.38          & ( result_THFTYPE_IiioI @ REP @ ORGANISM ) )
% 2.14/2.38       => ? [MOTHER: $i,FATHER: $i] :
% 2.14/2.38            ( ( mother_THFTYPE_IiioI @ ORGANISM @ MOTHER )
% 2.14/2.38            & ( father_THFTYPE_IiioI @ ORGANISM @ FATHER ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1047,axiom,
% 2.14/2.38      ! [OBJ1: $i,COMBINE: $i,OBJ2: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ COMBINE @ lCombining_THFTYPE_i )
% 2.14/2.38          & ( resource_THFTYPE_IiioI @ COMBINE @ OBJ1 )
% 2.14/2.38          & ( result_THFTYPE_IiioI @ COMBINE @ OBJ2 ) )
% 2.14/2.38      <=> ( ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ COMBINE ) ) @ ( (~) @ ( part_THFTYPE_IiioI @ OBJ1 @ OBJ2 ) ) )
% 2.14/2.38          & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ COMBINE ) ) @ ( part_THFTYPE_IiioI @ OBJ1 @ OBJ2 ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation subSystem EnglishLanguage "(&%subSystem ?SUB ?SYSTEM) means that the &%PhysicalSystem ?SUB is a part of the &%PhysicalSystem ?SYSTEM.")
% 2.14/2.38  thf(ax1048,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lCompositeUnitOfMeasure_THFTYPE_i @ lUnitOfMeasure_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation CommercialAgent EnglishLanguage "An &%Agent that provides products and/ or services for a fee with the aim of making a profit.")
% 2.14/2.38  thf(ax1049,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lQuaternaryFunction_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Unlikely EnglishLanguage "The &%ProbabilityAttribute of being improbable, i.e. more likely than not to be &%False.")
% 2.14/2.38  thf(ax1050,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lPairwiseDisjointClass_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1051,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lTwoDimensionalFigure_THFTYPE_i @ lGeometricFigure_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1052,axiom,
% 2.14/2.38      ! [WORD: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ WORD @ lWord_THFTYPE_i )
% 2.14/2.38       => ? [PART: $i] :
% 2.14/2.38            ( ( part_THFTYPE_IiioI @ PART @ WORD )
% 2.14/2.38            & ( instance_THFTYPE_IiioI @ PART @ lMorpheme_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1053,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lLandTransitway_THFTYPE_i @ lTransitway_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation GeometricFigure EnglishLanguage "The class of all geometric figures, i.e. the class of all abstract, spatial representations. The instances of this class are &%GeometricPoints, &%TwoDimensionalFigures or &%ThreeDimensionalFigures.")
% 2.14/2.38  %KIF documentation:(documentation IntransitiveRelation EnglishLanguage "A &%BinaryRelation ?REL is intransitive only if (?REL ?INST1 ?INST2) and (?REL ?INST2 ?INST3) imply not (?REL ?INST1 ?INST3), for all ?INST1, ?INST2, and ?INST3.")
% 2.14/2.38  %KIF documentation:(documentation Questioning EnglishLanguage "A request for information. For example, John asked Bill if the President had said anything about taxes in his State of the Union address.")
% 2.14/2.38  %KIF documentation:(documentation GasMotion EnglishLanguage "Any &%Motion where the &%patient is a &%Gas. This class would cover, in particular, the motion of &%Air, e.g. a breeze or wind.")
% 2.14/2.38  thf(ax1054,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lBeliefGroup_THFTYPE_i @ lGroupOfPeople_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1055,axiom,
% 2.14/2.38      ! [CLOTHING: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ CLOTHING @ lClothing_THFTYPE_i )
% 2.14/2.38       => ? [FABRIC: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ FABRIC @ lFabric_THFTYPE_i )
% 2.14/2.38            & ( part_THFTYPE_IiioI @ FABRIC @ CLOTHING ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation diameter EnglishLanguage "(&%diameter ?CIRCLE ?LENGTH) means that the diameter of the &%Circle ?CIRCLE has a length of ?LENGTH.")
% 2.14/2.38  %KIF documentation:(documentation EvenInteger EnglishLanguage "An &%Integer that is evenly divisible by 2.")
% 2.14/2.38  %KIF documentation:(documentation MicroFn EnglishLanguage "A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to .000001 units of the original &%UnitOfMeasure. For example, (&%MicroFn &%Meter) is .000001 &%Meters.")
% 2.14/2.38  %KIF documentation:(documentation Interpreting EnglishLanguage "Any &%Process of assigning a &%Proposition to a &%Text, i.e. understanding the &%Text.")
% 2.14/2.38  thf(ax1056,axiom,
% 2.14/2.38      ! [OBJ: $i,SEE: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ SEE @ lSeeing_THFTYPE_i )
% 2.14/2.38          & ( patient_THFTYPE_IiioI @ SEE @ OBJ ) )
% 2.14/2.38       => ? [ATTR: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ ATTR @ lColorAttribute_THFTYPE_i )
% 2.14/2.38            & ( holdsDuring_THFTYPE_IiooI @ ( lWhenFn_THFTYPE_IiiI @ SEE ) @ ( color_THFTYPE_IiioI @ OBJ @ ATTR ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1057,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lExperimenting_THFTYPE_i @ lInvestigating_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation sibling EnglishLanguage "The relationship between two &%Organisms that have the same &%mother and &%father. Note that this relationship does not hold between half-brothers, half-sisters, etc.")
% 2.14/2.38  thf(ax1058,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lSelfConnectedObject_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1059,axiom,
% 2.14/2.38      ( ( lMeasureFn_THFTYPE_IiiiI @ n0_THFTYPE_i @ lAngularDegree_THFTYPE_i )
% 2.14/2.38      = ( lMeasureFn_THFTYPE_IiiiI @ n360_THFTYPE_i @ lAngularDegree_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Virus EnglishLanguage "An &%Organism consisting of a core of a single nucleic acid enclosed in a protective coat of protein. A virus may replicate only inside a host living cell. A virus exhibits some but not all of the usual characteristics of living things.")
% 2.14/2.38  thf(ax1060,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lColoring_THFTYPE_i @ lSurfaceChange_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation PsychologicalProcess EnglishLanguage "A &%BiologicalProcess which takes place in the mind or brain of an &%Organism and which may be manifested in the behavior of the &%Organism.")
% 2.14/2.38  %KIF documentation:(documentation needs EnglishLanguage "(&%needs ?AGENT ?OBJECT) means that ?OBJECT is physically required for the continued existence of ?AGENT.")
% 2.14/2.38  %KIF documentation:(documentation Monochromatic EnglishLanguage "An &%Object with this &%Attribute has the same color on every part of its surface.")
% 2.14/2.38  thf(ax1061,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lElection_THFTYPE_i @ lOrganizationalProcess_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1062,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lComparing_THFTYPE_i @ lDualObjectProcess_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1063,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lRepresentationalArtWork_THFTYPE_i @ lIcon_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Transaction EnglishLanguage "The &%subclass of &%ChangeOfPossession where something is exchanged for something else.")
% 2.14/2.38  thf(ax1064,axiom,
% 2.14/2.38      ! [READ: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ READ @ lReading_THFTYPE_i )
% 2.14/2.38       => ? [TEXT: $i,PROP: $o] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ TEXT @ lText_THFTYPE_i )
% 2.14/2.38            & ( containsInformation_THFTYPE_IiooI @ TEXT @ PROP )
% 2.14/2.38            & ( realization_THFTYPE_IiooI @ READ @ PROP ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Transfer EnglishLanguage "Any &%instance of &%Translocation where the &%agent and the &%patient are not the same thing.")
% 2.14/2.38  thf(ax1065,axiom,
% 2.14/2.38      ! [TRANS: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ TRANS @ lTransaction_THFTYPE_i )
% 2.14/2.38       => ? [AGENT1: $i,AGENT2: $i,GIVE1: $i,GIVE2: $i,OBJ1: $i,OBJ2: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ GIVE1 @ lGiving_THFTYPE_i )
% 2.14/2.38            & ( instance_THFTYPE_IiioI @ GIVE2 @ lGiving_THFTYPE_i )
% 2.14/2.38            & ( subProcess_THFTYPE_IiioI @ GIVE1 @ TRANS )
% 2.14/2.38            & ( subProcess_THFTYPE_IiioI @ GIVE2 @ TRANS )
% 2.14/2.38            & ( agent_THFTYPE_IiioI @ GIVE1 @ AGENT1 )
% 2.14/2.38            & ( agent_THFTYPE_IiioI @ GIVE2 @ AGENT2 )
% 2.14/2.38            & ( patient_THFTYPE_IiioI @ GIVE1 @ OBJ1 )
% 2.14/2.38            & ( patient_THFTYPE_IiioI @ GIVE2 @ OBJ2 )
% 2.14/2.38            & ( destination_THFTYPE_IiioI @ GIVE1 @ AGENT2 )
% 2.14/2.38            & ( destination_THFTYPE_IiioI @ GIVE2 @ AGENT1 )
% 2.14/2.38            & ( (~) @ ( AGENT1 = AGENT2 ) )
% 2.14/2.38            & ( (~) @ ( OBJ1 = OBJ2 ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1066,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lWaterArea_THFTYPE_i @ lGeographicArea_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation AbstractionFn EnglishLanguage "A &%UnaryFunction that maps a &%Class into the instance of &%Attribute that specifies the condition(s) for membership in the &%Class.")
% 2.14/2.38  thf(ax1067,axiom,
% 2.14/2.38      ! [GIVE: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ GIVE @ lUnilateralGiving_THFTYPE_i )
% 2.14/2.38       => ( (~)
% 2.14/2.38          @ ? [TRANS: $i] :
% 2.14/2.38              ( ( instance_THFTYPE_IiioI @ TRANS @ lTransaction_THFTYPE_i )
% 2.14/2.38              & ( subProcess_THFTYPE_IiioI @ GIVE @ TRANS ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Position EnglishLanguage "A formal position of reponsibility within an &%Organization. Examples of &%Positions include president, laboratory director, senior researcher, sales representative, etc.")
% 2.14/2.38  thf(ax1068,axiom,
% 2.14/2.38      range_THFTYPE_IiioI @ lWhereFn_THFTYPE_i @ lRegion_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation EngineeringComponent EnglishLanguage "A fundamental concept that applies in many engineering domains. An &%EngineeringComponent is an element of a &%Device that is a physically whole object, such as one might see listed as standard parts in a catalog. The main difference betweeen &%EngineeringComponents and arbitrary globs of matter is that &%EngineeringComponents are object-like in a modeling sense. Thus, an &%EngineeringComponent is not an arbtrary subregion, but a part of a system with a stable identity.")
% 2.14/2.38  %KIF documentation:(documentation Argument EnglishLanguage "Any proposition which has the form of a deductive or inductive argument, i.e. a set of premises which, it is claimed, imply a conclusion.")
% 2.14/2.38  thf(ax1069,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lOrganOrTissueProcess_THFTYPE_i @ lAutonomicProcess_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation orientation EnglishLanguage "A general &%Predicate for indicating how two &%Objects are oriented with respect to one another. For example, (orientation ?OBJ1 ?OBJ2 North) means that ?OBJ1 is north of ?OBJ2, and (orientation ?OBJ1 ?OBJ2 Vertical) means that ?OBJ1 is positioned vertically with respect to ?OBJ2.")
% 2.14/2.38  %KIF documentation:(documentation ReflexiveRelation EnglishLanguage "&%Relation ?REL is reflexive iff (?REL ?INST ?INST) for all ?INST.")
% 2.14/2.38  thf(ax1070,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lBiologicalAttribute_THFTYPE_i @ lInternalAttribute_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1071,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lPublication_THFTYPE_i @ lContentDevelopment_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1072,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lComputerProgramming_THFTYPE_i @ lContentDevelopment_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation confersNorm EnglishLanguage "Expresses the relationship between a &%Formula, an &%Entity, and an &%ObjectiveNorm when the &%Entity brings it about that the &%Formula has the &%ObjectiveNorm.")
% 2.14/2.38  %KIF documentation:(documentation Pint EnglishLanguage "English unit of volume equal to 1/2 of a &%Quart.")
% 2.14/2.38  %KIF documentation:(documentation Water EnglishLanguage "The &%Class of samples of the compound H20. Note that this &%Class covers both pure and impure &%Water.")
% 2.14/2.38  thf(ax1073,axiom,
% 2.14/2.38      ! [NUMBER: $i] :
% 2.14/2.38        ( ( NUMBER
% 2.14/2.38          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.38       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lHourDuration_THFTYPE_i )
% 2.14/2.38          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n60_THFTYPE_i ) @ lMinuteDuration_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1074,axiom,
% 2.14/2.38      ! [OBJECT: $i,WIDTH: $i] :
% 2.14/2.38        ( ( width_THFTYPE_IiioI @ OBJECT @ WIDTH )
% 2.14/2.38      <=> ? [SIDE1: $i,SIDE2: $i] :
% 2.14/2.38            ( ( side_THFTYPE_IiioI @ SIDE1 @ OBJECT )
% 2.14/2.38            & ( side_THFTYPE_IiioI @ SIDE2 @ OBJECT )
% 2.14/2.38            & ( distance_THFTYPE_IiiioI @ SIDE1 @ SIDE2 @ WIDTH ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation subclass EnglishLanguage "(&%subclass ?CLASS1 ?CLASS2) means that ?CLASS1 is a subclass of ?CLASS2, i.e. every instance of ?CLASS1 is also an instance of ?CLASS2. A class may have multiple superclasses and subclasses.")
% 2.14/2.38  thf(ax1075,axiom,
% 2.14/2.38      ! [PART: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ PART @ lAnatomicalStructure_THFTYPE_i )
% 2.14/2.38       => ? [CELL: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ CELL @ lCell_THFTYPE_i )
% 2.14/2.38            & ( part_THFTYPE_IiioI @ CELL @ PART ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1076,axiom,
% 2.14/2.38      ! [EVENT: $i,CBO: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ EVENT @ lPlanning_THFTYPE_i )
% 2.14/2.38          & ( result_THFTYPE_IiioI @ EVENT @ CBO )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ CBO @ lContentBearingObject_THFTYPE_i ) )
% 2.14/2.38       => ? [PLAN: $o] :
% 2.14/2.38            ( ( instance_THFTYPE_IoioI @ PLAN @ lPlan_THFTYPE_i )
% 2.14/2.38            & ( containsInformation_THFTYPE_IiooI @ CBO @ PLAN ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation CaseRole EnglishLanguage "The &%Class of &%Predicates relating the spatially distinguished parts of a &%Process. &%CaseRoles include, for example, the &%agent, &%patient or &%destination of an action, the flammable substance in a burning process, or the water that falls in rain.")
% 2.14/2.38  thf(ax1077,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lQuintaryRelation_THFTYPE_i @ lRelation_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1078,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lWord_THFTYPE_i @ lLinguisticExpression_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Touching EnglishLanguage "Any &%Transfer where two &%Objects are brought into immediate physical contact with one another.")
% 2.14/2.38  thf(ax1079,axiom,
% 2.14/2.38      ! [HORMONE: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ HORMONE @ lHormone_THFTYPE_i )
% 2.14/2.38       => ? [PROCESS: $i,GLAND: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ GLAND @ lGland_THFTYPE_i )
% 2.14/2.38            & ( instrument_THFTYPE_IiioI @ PROCESS @ GLAND )
% 2.14/2.38            & ( result_THFTYPE_IiioI @ PROCESS @ HORMONE ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1080,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lTemporalRelation_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation PicoFn EnglishLanguage "A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to .000000000001 units of the original &%UnitOfMeasure. For example, (&%PicoFn &%SecondDuration) is .000000000001 &%SecondDurations.")
% 2.14/2.38  %KIF documentation:(documentation PhysicalAttribute EnglishLanguage "An &%InternalAttribute given by physical properties of the object.")
% 2.14/2.38  thf(ax1081,axiom,
% 2.14/2.38      partition_THFTYPE_IiiioI @ lSubstance_THFTYPE_i @ lPureSubstance_THFTYPE_i @ lMixture_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation ConstructedLanguage EnglishLanguage "An &%ConstructedLanguage is a &%HumanLanguage that did not evolve spontaneously within a language community, but rather had its core grammar and vocabulary invented by one or more language experts, often with an aim to produce a more grammatically regular language than any language that has evolved naturally. This &%Class includes languages like Esperanto that were created to facilitate international communication")
% 2.14/2.38  thf(ax1082,axiom,
% 2.14/2.38      ! [PROC: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ PROC @ lIntentionalProcess_THFTYPE_i )
% 2.14/2.38       => ? [AGENT: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ AGENT @ lCognitiveAgent_THFTYPE_i )
% 2.14/2.38            & ( agent_THFTYPE_IiioI @ PROC @ AGENT ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1083,axiom,
% 2.14/2.38      ! [VALUE: $i,REL: $i > $i > $i > $o,NUMBER2: $i,NUMBER1: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IIiiioIioI @ REL @ lRelationExtendedToQuantities_THFTYPE_i )
% 2.14/2.38          & ( instance_THFTYPE_IIiiioIioI @ REL @ lTernaryRelation_THFTYPE_i )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ NUMBER1 @ lRealNumber_THFTYPE_i )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ NUMBER2 @ lRealNumber_THFTYPE_i )
% 2.14/2.38          & ( REL @ NUMBER1 @ NUMBER2 @ VALUE ) )
% 2.14/2.38       => ! [UNIT: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ UNIT @ lUnitOfMeasure_THFTYPE_i )
% 2.14/2.38           => ( REL @ ( lMeasureFn_THFTYPE_IiiiI @ NUMBER1 @ UNIT ) @ ( lMeasureFn_THFTYPE_IiiiI @ NUMBER2 @ UNIT ) @ ( lMeasureFn_THFTYPE_IiiiI @ VALUE @ UNIT ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1084,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lAgent_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation agent EnglishLanguage "(&%agent ?PROCESS ?AGENT) means that ?AGENT is an active determinant, either animate or inanimate, of the &%Process ?PROCESS, with or without voluntary intention. For example, Eve is an &%agent in the following proposition: Eve bit an apple.")
% 2.14/2.38  thf(ax1085,axiom,
% 2.14/2.38      ! [ATTR2: $i,ATTR1: $i] :
% 2.14/2.38        ( ( ATTR1 = ATTR2 )
% 2.14/2.38       => ! [THING: $i] :
% 2.14/2.38            ( ( property_THFTYPE_IiioI @ THING @ ATTR1 )
% 2.14/2.38          <=> ( property_THFTYPE_IiioI @ THING @ ATTR2 ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation AngleMeasure EnglishLanguage "The value of an angle in a plane or in a solid.")
% 2.14/2.38  thf(ax1086,axiom,
% 2.14/2.38      ! [ITEM: $i,LIST2: $i,LIST1: $i] :
% 2.14/2.38        ( ( identicalListItems_THFTYPE_IiioI @ LIST1 @ LIST2 )
% 2.14/2.38       => ( ( inList_THFTYPE_IiioI @ ITEM @ LIST1 )
% 2.14/2.38        <=> ( inList_THFTYPE_IiioI @ ITEM @ LIST2 ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Electron EnglishLanguage "&%SubatomicParticles that surround the &%AtomicNucleus. They have a negative charge.")
% 2.14/2.38  %KIF documentation:(documentation Mile EnglishLanguage "English length unit of miles.")
% 2.14/2.38  thf(ax1087,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lProtein_THFTYPE_i @ lNutrient_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1088,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lCounty_THFTYPE_i @ lGeopoliticalArea_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1089,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lUnitOfAtmosphericPressure_THFTYPE_i @ lCompositeUnitOfMeasure_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1090,axiom,
% 2.14/2.38      ! [WEEK: $i,DAY1: $i,DAY2: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ DAY1 @ lSaturday_THFTYPE_i )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ DAY2 @ lSunday_THFTYPE_i )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ WEEK @ lWeek_THFTYPE_i )
% 2.14/2.38          & ( temporalPart_THFTYPE_IiioI @ DAY1 @ WEEK )
% 2.14/2.38          & ( temporalPart_THFTYPE_IiioI @ DAY2 @ WEEK ) )
% 2.14/2.38       => ( meetsTemporally_THFTYPE_IiioI @ DAY1 @ DAY2 ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation linearExtent EnglishLanguage "&%BinaryPredicate that is used to state the measure of an &%Object from one point to another point along its surface. Note that the difference between the predicates &%length and &%distance is that the &%length is used to state the &%LengthMeasure of one of the dimensions of a single object, while &%distance is used to state the &%LengthMeasure that separates two distinct objects.")
% 2.14/2.38  thf(ax1091,axiom,
% 2.14/2.38      range_THFTYPE_IiioI @ lIntersectionFn_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation ComplementFn EnglishLanguage "The complement of a given &%SetOrClass C is the &%SetOrClass of all things that are not instances of C. In other words, an object is an instance of the complement of a &%SetOrClass C just in case it is not an instance of C.")
% 2.14/2.38  %KIF documentation:(documentation ResidentialBuilding EnglishLanguage "A &%Building which provides some accomodation for sleeping. Note that this class does not cover just permanent residences, e.g. &%Houses and condominium and apartment buildings, but also temporary residences, e.g. hotels and dormitories. &%ResidentialBuildings are also distinguished from &%CommercialBuildings, which are intended to serve an organizational rather than a residential function.")
% 2.14/2.38  %KIF documentation:(documentation GeneralizedUnionFn EnglishLanguage "A &%UnaryFunction that takes a &%SetOrClass of &%Classes as its single argument and returns a &%SetOrClass which is the merge of all of the &%Classes in the original &%SetOrClass, i.e. the &%SetOrClass containing just those instances which are instances of an instance of the original &%SetOrClass.")
% 2.14/2.38  thf(ax1092,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lWeek_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1093,axiom,
% 2.14/2.38      ! [QUANT: $i,OBJ1: $i,OBJ2: $i] :
% 2.14/2.38        ( ( distance_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ QUANT )
% 2.14/2.38       => ( distance_THFTYPE_IiiioI @ OBJ2 @ OBJ1 @ QUANT ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Living EnglishLanguage "This &%Attribute applies to &%Organisms that are alive.")
% 2.14/2.38  thf(ax1094,axiom,
% 2.14/2.38      ! [TIME: $i,PROC: $i,ATTR1: $i] :
% 2.14/2.38        ( ( holdsDuring_THFTYPE_IiooI @ TIME @ ( faces_THFTYPE_IiioI @ PROC @ ATTR1 ) )
% 2.14/2.38       => ! [ATTR2: $i] :
% 2.14/2.38            ( ( holdsDuring_THFTYPE_IiooI @ TIME @ ( faces_THFTYPE_IiioI @ PROC @ ATTR2 ) )
% 2.14/2.38           => ( ATTR2 = ATTR1 ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1095,axiom,
% 2.14/2.38      ! [INJECT: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ INJECT @ lInjecting_THFTYPE_i )
% 2.14/2.38       => ? [SUBSTANCE: $i,ANIMAL: $i] :
% 2.14/2.38            ( ( patient_THFTYPE_IiioI @ INJECT @ SUBSTANCE )
% 2.14/2.38            & ( instance_THFTYPE_IiioI @ SUBSTANCE @ lBiologicallyActiveSubstance_THFTYPE_i )
% 2.14/2.38            & ( attribute_THFTYPE_IiioI @ SUBSTANCE @ lLiquid_THFTYPE_i )
% 2.14/2.38            & ( destination_THFTYPE_IiioI @ INJECT @ ANIMAL )
% 2.14/2.38            & ( instance_THFTYPE_IiioI @ ANIMAL @ lAnimal_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1096,axiom,
% 2.14/2.38      ! [NUMBER: $i] :
% 2.14/2.38        ( ( NUMBER
% 2.14/2.38          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.38       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lPint_THFTYPE_i )
% 2.14/2.38          = ( lMeasureFn_THFTYPE_IiiiI @ ( div_THFTYPE_IiiiI @ NUMBER @ n2_THFTYPE_i ) @ lQuart_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1097,axiom,
% 2.14/2.38      ! [AGENT: $i,PROC: $i] :
% 2.14/2.38        ( ( hasSkill_THFTYPE_IiioI @ PROC @ AGENT )
% 2.14/2.38       => ( capability_THFTYPE_IiIiioIioI @ PROC @ agent_THFTYPE_IiioI @ AGENT ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1098,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lLogicalOperator_THFTYPE_i @ lPredicate_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1099,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lIcon_THFTYPE_i @ lContentBearingPhysical_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1100,axiom,
% 2.14/2.38      disjoint_THFTYPE_IiioI @ lLeavingAnOrganization_THFTYPE_i @ lJoiningAnOrganization_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1101,axiom,
% 2.14/2.38      ! [NUMBER: $i,NUMBER2: $i,NUMBER1: $i] :
% 2.14/2.38        ( ( ( lMaxFn_THFTYPE_IiiiI @ NUMBER1 @ NUMBER2 )
% 2.14/2.38          = NUMBER )
% 2.14/2.38       => ( ( ( NUMBER = NUMBER1 )
% 2.14/2.38            & ( gt_THFTYPE_IiioI @ NUMBER1 @ NUMBER2 ) )
% 2.14/2.38          | ( ( NUMBER = NUMBER2 )
% 2.14/2.38            & ( gt_THFTYPE_IiioI @ NUMBER2 @ NUMBER1 ) )
% 2.14/2.38          | ( ( NUMBER = NUMBER1 )
% 2.14/2.38            & ( NUMBER = NUMBER2 ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation WaterCloud EnglishLanguage "Any &%Cloud that is composed primarily of water vapor.")
% 2.14/2.38  %KIF documentation:(documentation EndNodeFn EnglishLanguage "A &%UnaryFunction that maps a &%GraphPath to the &%GraphNode that is the end of the &%GraphPath. Note that, unlike &%TerminalNodeFn (which relates a &%GraphArc to a &%GraphNode), &%EndNodeFn is a total function - every &%GraphPath has a end.")
% 2.14/2.38  thf(ax1102,axiom,
% 2.14/2.38      disjoint_THFTYPE_IiioI @ lClothing_THFTYPE_i @ lStationaryArtifact_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1103,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lFunctionQuantity_THFTYPE_i @ lPhysicalQuantity_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation FatTissue EnglishLanguage "Nonrigid &%Tissue that is composed largely of fat cells.")
% 2.14/2.38  thf(ax1104,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lInformationMeasure_THFTYPE_i @ lConstantQuantity_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Beverage EnglishLanguage "Any &%Food that is ingested by &%Drinking. Note that this class is disjoint with the other subclasses of &%Food, i.e. &%Meat and &%FruitOrVegetable.")
% 2.14/2.38  thf(ax1105,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lBorrowing_THFTYPE_i @ lGetting_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1106,axiom,
% 2.14/2.38      contraryAttribute_THFTYPE_IiioI @ lUnilluminated_THFTYPE_i @ lIlluminated_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation CelsiusDegree EnglishLanguage "A &%TemperatureMeasure. The freezing point and the boiling point of water are, respectively, 0 &%CelsiusDegrees and 100 &%CelsiusDegrees.")
% 2.14/2.38  %KIF documentation:(documentation Procedure EnglishLanguage "A sequence-dependent specification. Some examples are &%ComputerPrograms, finite-state machines, cooking recipes, musical scores, conference schedules, driving directions, and the scripts of plays and movies.")
% 2.14/2.38  thf(ax1107,axiom,
% 2.14/2.38      disjointDecomposition_THFTYPE_IiiiioI @ lColdBloodedVertebrate_THFTYPE_i @ lAmphibian_THFTYPE_i @ lFish_THFTYPE_i @ lReptile_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Neutron EnglishLanguage "Components of the &%AtomicNucleus. They have no charge.")
% 2.14/2.38  %KIF documentation:(documentation StaticWaterArea EnglishLanguage "A &%WaterArea in which water does not flow constantly or in the same direction, e.g. most lakes and ponds.")
% 2.14/2.38  thf(ax1108,axiom,
% 2.14/2.38      rangeSubclass_THFTYPE_IiioI @ lGraphPathFn_THFTYPE_i @ lGraphPath_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1109,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lRegion_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1110,axiom,
% 2.14/2.38      ! [TIME: $i,ORG: $i] :
% 2.14/2.38        ( ( holdsDuring_THFTYPE_IiooI @ TIME @ ( attribute_THFTYPE_IiioI @ ORG @ lEmbryonic_THFTYPE_i ) )
% 2.14/2.38       => ( holdsDuring_THFTYPE_IiooI @ TIME
% 2.14/2.38          @ ( (~)
% 2.14/2.38            @ ? [BIRTH: $i] :
% 2.14/2.38                ( ( instance_THFTYPE_IiioI @ BIRTH @ lBirth_THFTYPE_i )
% 2.14/2.38                & ( experiencer_THFTYPE_IiioI @ BIRTH @ ORG ) ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation OneToOneFunction EnglishLanguage "The &%Class of &%UnaryFunctions which are one to one. A function F is one to one just in case for all X, Y in the domain of F, if X is not identical to Y, then F(X) is not identical to F(Y).")
% 2.14/2.38  thf(ax1111,axiom,
% 2.14/2.38      ! [ENTITY: $i] :
% 2.14/2.38        ( ( property_THFTYPE_IiioI @ ENTITY @ lPromise_THFTYPE_i )
% 2.14/2.38       => ( ( property_THFTYPE_IiioI @ ENTITY @ lContract_THFTYPE_i )
% 2.14/2.38          | ( property_THFTYPE_IiioI @ ENTITY @ lNakedPromise_THFTYPE_i ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1112,axiom,
% 2.14/2.38      ! [ROW: $i,ITEM: $i] :
% 2.14/2.38        ( ( lListLengthFn_THFTYPE_IiiI @ ( lListFn_THFTYPE_IiiiI @ ROW @ ITEM ) )
% 2.14/2.38        = ( lSuccessorFn_THFTYPE_IiiI @ ( lListLengthFn_THFTYPE_IiiI @ ( lListFn_THFTYPE_IiiI @ ROW ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation son EnglishLanguage "The general relationship of being a son. (&%son ?CHILD ?PARENT) means that ?CHILD is the biological son of ?PARENT.")
% 2.14/2.38  %KIF documentation:(documentation AnimalAnatomicalStructure EnglishLanguage "&%AnatomicalStructures that are possessed exclusively by &%Animals.")
% 2.14/2.38  thf(ax1113,axiom,
% 2.14/2.38      ! [GRAPH: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ GRAPH @ lGraph_THFTYPE_i )
% 2.14/2.38       => ( subclass_THFTYPE_IiioI @ ( lMinimalCutSetFn_THFTYPE_IiiI @ GRAPH ) @ ( lCutSetFn_THFTYPE_IiiI @ GRAPH ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Vertical EnglishLanguage "Attribute used to indicate that an &%Object is positioned height-wise with respect to another &%Object.")
% 2.14/2.38  thf(ax1114,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lObjectAttitude_THFTYPE_i @ lIntentionalRelation_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation resource EnglishLanguage "(&%resource ?PROCESS ?RESOURCE) means that ?RESOURCE is present at the beginning of ?PROCESS, is used by ?PROCESS, and as a consequence is changed by ?PROCESS. For example, soap is a &%resource in the following proposition: the gun was carved out of soap. Note that &%resource differs from &%instrument, another subrelation of &%patient, in that its internal or physical properties are altered in some way by the &%Process.")
% 2.14/2.38  thf(ax1115,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lIngesting_THFTYPE_i @ lOrganismProcess_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Adjacent EnglishLanguage "Used to assert that an object ?OBJ1 is close to, near or abutting ?OBJ2. This &%PositionalAttribute covers the following common sense notions: adjoins, abuts, is contiguous to, is juxtaposed, and is close to.")
% 2.14/2.38  thf(ax1116,axiom,
% 2.14/2.38      ! [R: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ R @ lCaseRole_THFTYPE_i )
% 2.14/2.38       => ( subrelation_THFTYPE_IiIiioIoI @ R @ involvedInEvent_THFTYPE_IiioI ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation FloweringPlant EnglishLanguage "A &%Plant that produces seeds and flowers. This class includes trees, shrubs, herbs, and flowers.")
% 2.14/2.38  %KIF documentation:(documentation Driving EnglishLanguage "Controlling the direction and/or speed of a &%Vehicle. This includes navigating a ship, driving a car or truck, operating a train, etc.")
% 2.14/2.38  %KIF documentation:(documentation lineMeasure EnglishLanguage "(&%lineMeasure ?LINE ?MEASURE) means that the straight line ?LINE has the &%LengthMeasure of ?MEASURE.")
% 2.14/2.38  thf(ax1117,axiom,
% 2.14/2.38      subAttribute_THFTYPE_IiioI @ lDead_THFTYPE_i @ lUnconscious_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Gland EnglishLanguage "An &%Organ that removes &%Substances from the &%Blood, alters them in some way, and then releases them.")
% 2.14/2.38  %KIF documentation:(documentation Proton EnglishLanguage "Components of the &%AtomicNucleus. They have a positive charge.")
% 2.14/2.38  %KIF documentation:(documentation MonthFn EnglishLanguage "A &%BinaryFunction that maps a subclass of &%Month and a subclass of &%Year to the class containing the &%Months corresponding to thos &%Years. For example (&%MonthFn &%January (&%YearFn 1912)) is the class containing the eighth &%Month, i.e. August, of the &%Year 1912. For another example, (&%MonthFn &%August &%Year) is equal to &%August, the class of all months of August. Note that this function returns a &%Class as a value. The reason for this is that the related functions, viz. DayFn, HourFn, MinuteFn, and SecondFn, are used to generate both specific &%TimeIntervals and recurrent intervals, and the only way to do this is to make the domains and ranges of these functions classes rather than individuals.")
% 2.14/2.38  thf(ax1118,axiom,
% 2.14/2.38      ! [OBJ: $i,ATTR2: $i,ATTR1: $i,TIME1: $i] :
% 2.14/2.38        ( ( ( holdsDuring_THFTYPE_IiooI @ TIME1 @ ( developmentalForm_THFTYPE_IiioI @ OBJ @ ATTR1 ) )
% 2.14/2.38          & ( successorAttributeClosure_THFTYPE_IiioI @ ATTR2 @ ATTR1 ) )
% 2.14/2.38       => ? [TIME2: $i] :
% 2.14/2.38            ( ( earlier_THFTYPE_IiioI @ TIME2 @ TIME1 )
% 2.14/2.38            & ( holdsDuring_THFTYPE_IiooI @ TIME2 @ ( developmentalForm_THFTYPE_IiioI @ OBJ @ ATTR2 ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation desires EnglishLanguage "(&%desires ?AGENT ?FORMULA) means that ?AGENT wants to bring about the state of affairs expressed by ?FORMULA. Note that there is no implication that what is desired by the agent is not already true. Note too that &%desires is distinguished from &%wants only in that the former is a &%PropositionalAttitude, while &%wants is an &%ObjectAttitude.")
% 2.14/2.38  %KIF documentation:(documentation width EnglishLanguage "&%BinaryPredicate that is used to state the measure of an &%Object from side to side at its widest span.")
% 2.14/2.38  thf(ax1119,axiom,
% 2.14/2.38      ! [AGENT: $i,BIRTH: $i,DEATH: $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IiioI @ DEATH @ lDeath_THFTYPE_i )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ BIRTH @ lBirth_THFTYPE_i )
% 2.14/2.38          & ( experiencer_THFTYPE_IiioI @ DEATH @ AGENT )
% 2.14/2.38          & ( experiencer_THFTYPE_IiioI @ BIRTH @ AGENT ) )
% 2.14/2.38       => ? [TIME: $i] :
% 2.14/2.38            ( ( meetsTemporally_THFTYPE_IiioI @ ( lWhenFn_THFTYPE_IiiI @ BIRTH ) @ TIME )
% 2.14/2.38            & ( meetsTemporally_THFTYPE_IiioI @ TIME @ ( lWhenFn_THFTYPE_IiiI @ DEATH ) )
% 2.14/2.38            & ( holdsDuring_THFTYPE_IiooI @ TIME @ ( attribute_THFTYPE_IiioI @ AGENT @ lLiving_THFTYPE_i ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Left EnglishLanguage "This &%PositionalAttribute is derived from the left/ right schema. Note that this means directly to the left, so that, if one object is to the left of another, then the projections of the two objects overlap.")
% 2.14/2.38  thf(ax1120,axiom,
% 2.14/2.38      ! [UNIT: $i,FUNCTION: $i > $i] :
% 2.14/2.38        ( ( ( instance_THFTYPE_IIiiIioI @ FUNCTION @ lUnitOfMeasureMultiplier_THFTYPE_i )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ UNIT @ lCompositeUnitOfMeasure_THFTYPE_i ) )
% 2.14/2.38       => ( instance_THFTYPE_IiioI @ ( FUNCTION @ UNIT ) @ lCompositeUnitOfMeasure_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Larval EnglishLanguage "Form of most &%Invertebrates, &%Amphibians, and &%Fish immediately after they hatch. This form is fundamentally unlike the adult form, and metamorphosis is required to reach the latter form.")
% 2.14/2.38  thf(ax1121,axiom,
% 2.14/2.38      ! [ACTION: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ ACTION @ lCreation_THFTYPE_i )
% 2.14/2.38       => ? [RESULT: $i] : ( result_THFTYPE_IiioI @ ACTION @ RESULT ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Cell EnglishLanguage "The fundamental structural and functional unit of living &%Organisms.")
% 2.14/2.38  %KIF documentation:(documentation PrepositionalPhrase EnglishLanguage "A &%Phrase that begins with a preposition and that functions as an &%Adjective or an &%Adverb.")
% 2.14/2.38  thf(ax1122,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lPrimate_THFTYPE_i @ lMammal_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation Monkey EnglishLanguage "Various &%Primates with relatively long tails.")
% 2.14/2.38  %KIF documentation:(documentation QuaternaryRelation EnglishLanguage "&%QuaternaryRelations relate four items. The two &%subclasses of &%QuaternaryRelation are &%QuaternaryPredicate and &%TernaryFunction.")
% 2.14/2.38  thf(ax1123,axiom,
% 2.14/2.38      partition_THFTYPE_IiiiiiiioI @ lCommunication_THFTYPE_i @ lStating_THFTYPE_i @ lSupposing_THFTYPE_i @ lDirecting_THFTYPE_i @ lCommitting_THFTYPE_i @ lExpressing_THFTYPE_i @ lDeclaring_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation daughter EnglishLanguage "The general relationship of daughterhood. (&%daughter ?CHILD ?PARENT) means that ?CHILD is the biological daughter of ?PARENT.")
% 2.14/2.38  %KIF documentation:(documentation identityElement EnglishLanguage "An object ?ID is the identity element for BinaryFunction ?FUNCTION just in case, for every instance ?INST, applying ?FUNCTION to ?INST and ?ID results in ?INST.")
% 2.14/2.38  thf(ax1124,axiom,
% 2.14/2.38      ! [COND: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ COND @ lCondensing_THFTYPE_i )
% 2.14/2.38       => ? [COOL: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ COOL @ lCooling_THFTYPE_i )
% 2.14/2.38            & ( subProcess_THFTYPE_IiioI @ COOL @ COND ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1125,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lDisagreeing_THFTYPE_i @ lStating_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation rangeSubclass EnglishLanguage "(&%rangeSubclass ?FUNCTION ?CLASS) means that all of the values assigned by ?FUNCTION are &%subclasses of ?CLASS.")
% 2.14/2.38  %KIF documentation:(documentation consistent EnglishLanguage "(&%consistent ?PROP1 ?PROP2) means that the two &%Propositions ?PROP1 and ?PROP2 are consistent with one another, i.e. it is possible for both of them to be true at the same time.")
% 2.14/2.38  %KIF documentation:(documentation DeductiveArgument EnglishLanguage "An &%Argument which has the form of a deduction, i.e. it is claimed that the set of &%premises &%entails the &%conclusion.")
% 2.14/2.38  thf(ax1126,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lUnitOfLength_THFTYPE_i @ lNonCompositeUnitOfMeasure_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1127,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lTotalValuedRelation_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1128,axiom,
% 2.14/2.38      range_THFTYPE_IiioI @ lSpeedFn_THFTYPE_i @ lFunctionQuantity_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1129,axiom,
% 2.14/2.38      ! [OBJ: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ OBJ @ lFood_THFTYPE_i )
% 2.14/2.38       => ? [ATTR: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ ATTR @ lTasteAttribute_THFTYPE_i )
% 2.14/2.38            & ( attribute_THFTYPE_IiioI @ OBJ @ ATTR ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1130,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lDualObjectProcess_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1131,axiom,
% 2.14/2.38      ! [GOV: $i,ORG: $i] :
% 2.14/2.38        ( ( ( subOrganization_THFTYPE_IiioI @ ORG @ GOV )
% 2.14/2.38          & ( instance_THFTYPE_IiioI @ GOV @ lGovernmentOrganization_THFTYPE_i ) )
% 2.14/2.38       => ( instance_THFTYPE_IiioI @ ORG @ lGovernmentOrganization_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation RealNumber EnglishLanguage "Any &%Number that can be expressed as a (possibly infinite) decimal, i.e. any &%Number that has a position on the number line.")
% 2.14/2.38  %KIF documentation:(documentation RealNumberFn EnglishLanguage "(RealNumberFn ?NUMBER) returns the part of ?NUMBER that is a &%RealNumber.")
% 2.14/2.38  thf(ax1132,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lFabric_THFTYPE_i @ lArtifact_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1133,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lGraduation_THFTYPE_i @ lLeavingAnOrganization_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1134,axiom,
% 2.14/2.38      ! [MOTHER: $i,CHILD: $i] :
% 2.14/2.38        ( ( mother_THFTYPE_IiioI @ CHILD @ MOTHER )
% 2.14/2.38       => ( attribute_THFTYPE_IiioI @ MOTHER @ lFemale_THFTYPE_i ) ) ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation WealthFn EnglishLanguage "A &%UnaryFunction that maps an &%Agent to a &%CurrencyMeasure specifying the value of the property owned by the &%Agent. Note that this &%Function is generally used in conjunction with the &%Function &%PropertyFn, e.g. (&%WealthFn (&%PropertyFn BillGates)) would return the monetary value of the sum of Bill Gates' holdings.")
% 2.14/2.38  %KIF documentation:(documentation ConsciousnessAttribute EnglishLanguage "&%Attributes that indicate whether an &%Organism is conscious or the qualitative degree of consciousness of an &%Organism.")
% 2.14/2.38  thf(ax1135,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lTemporalRelation_THFTYPE_i @ lRelation_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1136,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lGeopoliticalArea_THFTYPE_i @ lAgent_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1137,axiom,
% 2.14/2.38      ! [BUILDING: $i] :
% 2.14/2.38        ( ( instance_THFTYPE_IiioI @ BUILDING @ lBuilding_THFTYPE_i )
% 2.14/2.38       => ? [HUMAN: $i] :
% 2.14/2.38            ( ( instance_THFTYPE_IiioI @ HUMAN @ lHuman_THFTYPE_i )
% 2.14/2.38            & ( ( inhabits_THFTYPE_IiioI @ HUMAN @ BUILDING )
% 2.14/2.38              | ? [ACT: $i] :
% 2.14/2.38                  ( ( agent_THFTYPE_IiioI @ ACT @ HUMAN )
% 2.14/2.38                  & ( located_THFTYPE_IiioI @ ACT @ BUILDING ) ) ) ) ) ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1138,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lPrimaryColor_THFTYPE_i @ lColorAttribute_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1139,axiom,
% 2.14/2.38      range_THFTYPE_IiioI @ lDensityFn_THFTYPE_i @ lFunctionQuantity_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1140,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lIrrationalNumber_THFTYPE_i @ lRealNumber_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1141,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lNaturalSubstance_THFTYPE_i @ lSubstance_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  thf(ax1142,axiom,
% 2.14/2.38      subclass_THFTYPE_IiioI @ lOrganismProcess_THFTYPE_i @ lPhysiologicProcess_THFTYPE_i ).
% 2.14/2.38  
% 2.14/2.38  %KIF documentation:(documentation exhaustiveAttribute EnglishLanguage "This predicate relates a &%Class to a set of &%Attributes, and it means that the elements of this set exhaust the instances of the &%Class. For example, (&%exhaustiveAttribute &%PhysicalState &%Solid &%Fluid &%Liquid &%Gas &%Plasma) means that there are only five instances of the class &%PhysicalState, viz. &%Solid, &%Fluid, &%Liquid, &%Gas and &%Plasma.")
% 2.14/2.38  %KIF documentation:(documentation average EnglishLanguage "A partial function that relates a &%List to a &%RealNumber, provided that the &%List only has list elements that are &%RealNumbers. The &%RealNumber associated with the &%List is equal to the mathematical average of the &%RealNumbers in the &%List divided by the total number of list elements.")
% 2.14/2.39  %KIF documentation:(documentation MinimalCutSetFn EnglishLanguage "A &%UnaryFunction that assigns a &%Graph the &%Class of &%GraphPaths which comprise cutsets for the &%Graph and which have the least number of &%GraphArcs.")
% 2.14/2.39  thf(ax1143,axiom,
% 2.14/2.39      ! [HOLE: $i,OBJ1: $i] :
% 2.14/2.39        ( ( completelyFills_THFTYPE_IiioI @ OBJ1 @ HOLE )
% 2.14/2.39       => ? [OBJ2: $i] :
% 2.14/2.39            ( ( part_THFTYPE_IiioI @ OBJ2 @ OBJ1 )
% 2.14/2.39            & ( fills_THFTYPE_IiioI @ OBJ2 @ HOLE ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation BodyJunction EnglishLanguage "The place where two &%BodyParts meet or connect.")
% 2.14/2.39  thf(ax1144,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lGroup_THFTYPE_i @ lAgent_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1145,axiom,
% 2.14/2.39      ! [DEFENSE: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ DEFENSE @ lDefensiveManeuver_THFTYPE_i )
% 2.14/2.39       => ? [CONTEST: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ CONTEST @ lViolentContest_THFTYPE_i )
% 2.14/2.39            & ( subProcess_THFTYPE_IiioI @ DEFENSE @ CONTEST ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Pursuing EnglishLanguage "The class of &%IntentionalProcesses where something is sought. Some examples would be hunting, shopping, trawling, and stalking.")
% 2.14/2.39  %KIF documentation:(documentation DirectionChange EnglishLanguage "The act of changing the direction in which the &%patient of the act is oriented.")
% 2.14/2.39  thf(ax1146,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lRemembering_THFTYPE_i @ lPsychologicalProcess_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1147,axiom,
% 2.14/2.39      rangeSubclass_THFTYPE_IiioI @ lRecurrentTimeIntervalFn_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1148,axiom,
% 2.14/2.39      ! [OBJ: $i,BOIL: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ BOIL @ lBoiling_THFTYPE_i )
% 2.14/2.39          & ( patient_THFTYPE_IiioI @ BOIL @ OBJ ) )
% 2.14/2.39       => ? [PART: $i] :
% 2.14/2.39            ( ( part_THFTYPE_IiioI @ PART @ OBJ )
% 2.14/2.39            & ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ BOIL ) ) @ ( attribute_THFTYPE_IiioI @ PART @ lLiquid_THFTYPE_i ) )
% 2.14/2.39            & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ BOIL ) ) @ ( attribute_THFTYPE_IiioI @ PART @ lGas_THFTYPE_i ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1149,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lFunction_THFTYPE_i @ lSingleValuedRelation_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1150,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lAnimal_THFTYPE_i @ lOrganism_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1151,axiom,
% 2.14/2.39      ! [OBJ1: $i,OBJ2: $i] :
% 2.14/2.39        ( ( properPart_THFTYPE_IiioI @ OBJ1 @ OBJ2 )
% 2.14/2.39      <=> ( ( part_THFTYPE_IiioI @ OBJ1 @ OBJ2 )
% 2.14/2.39          & ( (~) @ ( part_THFTYPE_IiioI @ OBJ2 @ OBJ1 ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1152,axiom,
% 2.14/2.39      ! [UNIT: $i,FUNCTION: $i > $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IIiiIioI @ FUNCTION @ lUnitOfMeasureMultiplier_THFTYPE_i )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ UNIT @ lNonCompositeUnitOfMeasure_THFTYPE_i ) )
% 2.14/2.39       => ( instance_THFTYPE_IiioI @ ( FUNCTION @ UNIT ) @ lNonCompositeUnitOfMeasure_THFTYPE_i ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation February EnglishLanguage "The &%Class of all &%Months which are February.")
% 2.14/2.39  thf(ax1153,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lUnitOfArea_THFTYPE_i @ lCompositeUnitOfMeasure_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1154,axiom,
% 2.14/2.39      ! [COOK: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ COOK @ lCooking_THFTYPE_i )
% 2.14/2.39       => ? [FOOD: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ FOOD @ lFood_THFTYPE_i )
% 2.14/2.39            & ( result_THFTYPE_IiioI @ COOK @ FOOD ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation AssignmentFn EnglishLanguage "If F is a &%Function with a value for the objects denoted by N1,..., NK, then (&%AssignmentFn F N1 ... NK) is the value of applying F to the objects denoted by N1,..., NK. Otherwise, the value is undefined.")
% 2.14/2.39  thf(ax1155,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lSingleValuedRelation_THFTYPE_i @ lRelation_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1156,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lFood_THFTYPE_i @ lSelfConnectedObject_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1157,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lSpatialRelation_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1158,axiom,
% 2.14/2.39      ! [STATE: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ STATE @ lStateOrProvince_THFTYPE_i )
% 2.14/2.39       => ? [LAND: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ LAND @ lNation_THFTYPE_i )
% 2.14/2.39            & ( properPart_THFTYPE_IiioI @ STATE @ LAND ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1159,axiom,
% 2.14/2.39      ! [FORMULA: $o,PREDICT: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ PREDICT @ lPredicting_THFTYPE_i )
% 2.14/2.39          & ( patient_THFTYPE_IiooI @ PREDICT @ FORMULA ) )
% 2.14/2.39       => ? [TIME: $i] :
% 2.14/2.39            ( ( holdsDuring_THFTYPE_IiooI @ TIME @ FORMULA )
% 2.14/2.39            & ( ( before_THFTYPE_IiioI @ TIME @ ( lWhenFn_THFTYPE_IiiI @ PREDICT ) )
% 2.14/2.39              | ( earlier_THFTYPE_IiioI @ TIME @ ( lWhenFn_THFTYPE_IiiI @ PREDICT ) ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation TruthValue EnglishLanguage "The &%Class of truth values, e.g. &%True and &%False. These are &%Attributes of &%Sentences and &%Propositions.")
% 2.14/2.39  %KIF documentation:(documentation Meter EnglishLanguage "SI &%UnitOfLength. Symbol: m. It is one of the base units in SI, and it is currently defined as follows: the &%Meter is the length of the path traveled by light in a vacuum during a time interval of 1/ 299792458 of a &%SecondDuration.")
% 2.14/2.39  thf(ax1160,axiom,
% 2.14/2.39      ! [PARTICLE: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ PARTICLE @ lSubatomicParticle_THFTYPE_i )
% 2.14/2.39       => ? [ATOM: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ ATOM @ lAtom_THFTYPE_i )
% 2.14/2.39            & ( part_THFTYPE_IiioI @ PARTICLE @ ATOM ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1161,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lInserting_THFTYPE_i @ lPutting_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1162,axiom,
% 2.14/2.39      ! [CLASS: $i,ENTITY: $i] :
% 2.14/2.39        ( ( immediateInstance_THFTYPE_IiioI @ ENTITY @ CLASS )
% 2.14/2.39       => ( (~)
% 2.14/2.39          @ ? [SUBCLASS: $i] :
% 2.14/2.39              ( ( subclass_THFTYPE_IiioI @ SUBCLASS @ CLASS )
% 2.14/2.39              & ( (~) @ ( SUBCLASS = CLASS ) )
% 2.14/2.39              & ( instance_THFTYPE_IiioI @ ENTITY @ SUBCLASS ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1163,axiom,
% 2.14/2.39      ! [NUMBER: $i,NUMBER2: $i,NUMBER1: $i] :
% 2.14/2.39        ( ( ( lRemainderFn_THFTYPE_IiiiI @ NUMBER1 @ NUMBER2 )
% 2.14/2.39          = NUMBER )
% 2.14/2.39       => ( ( lSignumFn_THFTYPE_IiiI @ NUMBER2 )
% 2.14/2.39          = ( lSignumFn_THFTYPE_IiiI @ NUMBER ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1164,axiom,
% 2.14/2.39      range_THFTYPE_IiioI @ lMultiplicationFn_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1165,axiom,
% 2.14/2.39      ? [THING: $i] : ( instance_THFTYPE_IiioI @ THING @ lEntity_THFTYPE_i ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Evaporating EnglishLanguage "The &%Class of &%Processes where a &%Substance is converted from a &%Liquid to a &%Gas at a temperature below its &%Boiling point.")
% 2.14/2.39  thf(ax1166,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lOneToOneFunction_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1167,axiom,
% 2.14/2.39      range_THFTYPE_IiioI @ lSignumFn_THFTYPE_i @ lInteger_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1168,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lGraphPath_THFTYPE_i @ lDirectedGraph_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1169,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lBuilding_THFTYPE_i @ lStationaryArtifact_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1170,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lSinging_THFTYPE_i @ lMusic_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1171,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lInductiveArgument_THFTYPE_i @ lArgument_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1172,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lEquivalenceRelation_THFTYPE_i @ lReflexiveRelation_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1173,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lTranslating_THFTYPE_i @ lDualObjectProcess_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1174,axiom,
% 2.14/2.39      ! [AVERAGE: $i,LIST: $i] :
% 2.14/2.39        ( ( average_THFTYPE_IiioI @ LIST @ AVERAGE )
% 2.14/2.39       => ! [LISTITEM: $i] :
% 2.14/2.39            ( ( inList_THFTYPE_IiioI @ LISTITEM @ LIST )
% 2.14/2.39           => ( instance_THFTYPE_IiioI @ LISTITEM @ lRealNumber_THFTYPE_i ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1175,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lSingleAgentProcess_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1176,axiom,
% 2.14/2.39      rangeSubclass_THFTYPE_IiioI @ lSecondFn_THFTYPE_i @ lSecond_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Lux EnglishLanguage "SI illuminance measure. Symbol: lx. It is the amount of illumination provided when one &%Lumen is evenly distributed over an area of 1 square &%Meter. This is also equivalent to the illumination that would exist on a surface all points of which are one &%Meter from a point source of one &%Candela. &%Lux = lm/ m^2 = m^(-2)*cd.")
% 2.14/2.39  thf(ax1177,axiom,
% 2.14/2.39      ! [PHYS: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ PHYS @ lPhysical_THFTYPE_i )
% 2.14/2.39      <=> ? [LOC: $i,TIME: $i] :
% 2.14/2.39            ( ( located_THFTYPE_IiioI @ PHYS @ LOC )
% 2.14/2.39            & ( time_THFTYPE_IiioI @ PHYS @ TIME ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1178,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lAdjective_THFTYPE_i @ lWord_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation familyRelation EnglishLanguage "A very general &%Predicate for biological relationships. (&%familyRelation ?ORGANISM1 ?ORGANISM2) means that ?ORGANISM1 and ?ORGANISM2 are biologically derived from a common ancestor.")
% 2.14/2.39  %KIF documentation:(documentation possesses EnglishLanguage "&%Relation that holds between an &%Agent and an &%Object when the &%Agent has ownership of the &%Object.")
% 2.14/2.39  %KIF documentation:(documentation Breathing EnglishLanguage "The &%Process of respiration, by which oxygen is made available to an &%Animal. This covers processes of inhalation, exhalation, and alternations between the two.")
% 2.14/2.39  %KIF documentation:(documentation Ohm EnglishLanguage "SI electric resistance measure. It is the electric resistance between two points of a conductor when a constant difference of potential of 1 &%Volt, applied between these two points, produces in this conductor a current of 1 &%Ampere, this conductor not being the force of any electromotive force. &%Ohm = V/ A = m^2*kg*s^(-3)*A^(-2).")
% 2.14/2.39  %KIF documentation:(documentation exploits EnglishLanguage "(&%exploits ?OBJ ?AGENT) means that ?OBJ is used by ?AGENT as a &%resource in an unspecified instance of &%Process. This &%Predicate, as its corresponding axiom indicates, is a composition of the relations &%agent and &%resource.")
% 2.14/2.39  thf(ax1179,axiom,
% 2.14/2.39      ! [CONNECTION: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ CONNECTION @ lEngineeringConnection_THFTYPE_i )
% 2.14/2.39       => ? [COMP1: $i,COMP2: $i] : ( connectsEngineeringComponents_THFTYPE_IiiioI @ CONNECTION @ COMP1 @ COMP2 ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1180,axiom,
% 2.14/2.39      ! [ATTR2: $i,ATTR1: $i] :
% 2.14/2.39        ( ( successorAttribute_THFTYPE_IiioI @ ATTR1 @ ATTR2 )
% 2.14/2.39       => ( successorAttributeClosure_THFTYPE_IiioI @ ATTR1 @ ATTR2 ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation duration EnglishLanguage "(&%duration ?POS ?TIME) means that the duration of the &%TimePosition ?POS is ?TIME. Note that this &%Predicate can be used in conjunction with the &%Function &%WhenFn to specify the duration of any instance of &%Physical.")
% 2.14/2.39  %KIF documentation:(documentation ComplexNumber EnglishLanguage "A &%Number that has the form: x + yi, where x and y are &%RealNumbers and i is the square root of -1.")
% 2.14/2.39  thf(ax1181,axiom,
% 2.14/2.39      ! [AGENT: $i,SELL: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ SELL @ lSelling_THFTYPE_i )
% 2.14/2.39          & ( agent_THFTYPE_IiioI @ SELL @ AGENT ) )
% 2.14/2.39       => ( origin_THFTYPE_IiioI @ SELL @ AGENT ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1182,axiom,
% 2.14/2.39      disjoint_THFTYPE_IiioI @ lCanine_THFTYPE_i @ lFeline_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation ObjectAttitude EnglishLanguage "The &%Class of &%IntentionalRelations where the &%Agent has awareness of an instance of &%Physical.")
% 2.14/2.39  thf(ax1183,axiom,
% 2.14/2.39      subAttribute_THFTYPE_IiioI @ lNakedPromise_THFTYPE_i @ lPromise_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation PacificTimeZone EnglishLanguage "A &%TimeZone that covers much of the western part of the United States.")
% 2.14/2.39  %KIF documentation:(documentation ConstantQuantity EnglishLanguage "A &%ConstantQuantity is a &%PhysicalQuantity that has a constant value, e.g. 3 &%Meters and 5 &%HourDurations. The magnitude (see &%MagnitudeFn) of every &%ConstantQuantity is a &%RealNumber. &%ConstantQuantity is distinguished from &%FunctionQuantity, in that each instance of the latter is formed through the mapping of one &%PhysicalQuantity to another &%PhysicalQuantity. Each instance of &%ConstantQuantity is expressed with the &%BinaryFunction &%MeasureFn, which takes a &%Number and a &%UnitOfMeasure as arguments. For example, 3 &%Meters is expressed as (&%MeasureFn 3 &%Meter). Instances of &%ConstantQuantity form a partial order (see &%PartialOrderingRelation) with the &%lessThan relation, since &%lessThan is a &%RelationExtendedToQuantities and &%lessThan is defined over the &%RealNumbers. The &%lessThan relation is not a total order (see &%TotalOrderingRelation) over the class &%ConstantQuantity since elements of some subclasses of &%ConstantQuantity (such as length quantities) are incomparable to elements of other subclasses of &%ConstantQuantity (such as mass quantities).")
% 2.14/2.39  %KIF documentation:(documentation Election EnglishLanguage "&%Election is the class of events conducted by an organization, in which qualified participants vote for officers, adopt resolutions, or settle other issues in that &%Organization.")
% 2.14/2.39  %KIF documentation:(documentation IntervalFn EnglishLanguage "A &%BinaryFunction that maps two instances of &%ConstantQuantity to the &%subclass of &%ConstantQuantity that comprises the interval from the first &%ConstantQuantity to the second &%ConstantQuantity. For example, (&%IntervalFn (&%MeasureFn 8 &%Meter) (&%MeasureFn 14 &%Meter)) would return the &%subclass of &%ConstantQuantity comprising quantities between 8 and 14 meters in length.")
% 2.14/2.39  thf(ax1184,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lResidence_THFTYPE_i @ lStationaryArtifact_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1185,axiom,
% 2.14/2.39      ! [CHANGE: $i,OBJ: $i,AGENT2: $i,AGENT1: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ CHANGE @ lChangeOfPossession_THFTYPE_i )
% 2.14/2.39          & ( patient_THFTYPE_IiioI @ CHANGE @ OBJ )
% 2.14/2.39          & ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ CHANGE ) ) @ ( possesses_THFTYPE_IiioI @ AGENT1 @ OBJ ) )
% 2.14/2.39          & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ CHANGE ) ) @ ( possesses_THFTYPE_IiioI @ AGENT2 @ OBJ ) ) )
% 2.14/2.39       => ( (~) @ ( AGENT1 = AGENT2 ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Dry EnglishLanguage "An &%Attribute which indicates that the associated &%Object contains no &%Liquid.")
% 2.14/2.39  %KIF documentation:(documentation FrequencyMeasure EnglishLanguage "A &%subclass of &%TimeDependentQuantity, instances of which are measures of the frequency with which some &%Process occurs.")
% 2.14/2.39  thf(ax1186,axiom,
% 2.14/2.39      ! [PROCESS: $i,AGENT: $i,DECIDE: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ DECIDE @ lDeciding_THFTYPE_i )
% 2.14/2.39          & ( agent_THFTYPE_IiioI @ DECIDE @ AGENT )
% 2.14/2.39          & ( patient_THFTYPE_IiioI @ DECIDE @ PROCESS ) )
% 2.14/2.39       => ( ( instance_THFTYPE_IiioI @ PROCESS @ lIntentionalProcess_THFTYPE_i )
% 2.14/2.39          & ( agent_THFTYPE_IiioI @ PROCESS @ AGENT ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation radius EnglishLanguage "(&%radius ?CIRCLE ?LENGTH) means that the radius of the &%Circle ?CIRCLE has a length of ?LENGTH.")
% 2.14/2.39  thf(ax1187,axiom,
% 2.14/2.39      ! [REL: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ REL @ lVariableArityRelation_THFTYPE_i )
% 2.14/2.39       => ( (~)
% 2.14/2.39          @ ? [INT: $i] : ( valence_THFTYPE_IiioI @ REL @ INT ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation VocalCords EnglishLanguage "The vocal cords, are composed of two folds of mucous membrane stretched horizontally across the larynx. They vibrate, modulating the flow of air being expelled from the lungs during &%Vocalizing. ")
% 2.14/2.39  thf(ax1188,axiom,
% 2.14/2.39      ! [E3: $i,E2: $i,ATT: $i,E1: $i] :
% 2.14/2.39        ( ( ( greaterThanByQuality_THFTYPE_IiiioI @ E1 @ E2 @ ATT )
% 2.14/2.39          & ( greaterThanByQuality_THFTYPE_IiiioI @ E2 @ E3 @ ATT ) )
% 2.14/2.39       => ( greaterThanByQuality_THFTYPE_IiiioI @ E1 @ E3 @ ATT ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1189,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lColdBloodedVertebrate_THFTYPE_i @ lVertebrate_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1190,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lNumber_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1191,axiom,
% 2.14/2.39      ! [SET: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ SET @ lNonNullSet_THFTYPE_i )
% 2.14/2.39       => ? [INST: $i] : ( instance_THFTYPE_IiioI @ INST @ SET ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1192,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lContentDevelopment_THFTYPE_i @ lIntentionalProcess_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1193,axiom,
% 2.14/2.39      ! [CLASS: $i,INTERVAL_TYPE: $i,INTERVAL: $i] :
% 2.14/2.39        ( ( ( lTemporalCompositionFn_THFTYPE_IiiiI @ INTERVAL @ INTERVAL_TYPE )
% 2.14/2.39          = CLASS )
% 2.14/2.39       => ! [TIME1: $i] :
% 2.14/2.39            ( ( ( instance_THFTYPE_IiioI @ TIME1 @ CLASS )
% 2.14/2.39              & ( (~) @ ( starts_THFTYPE_IiioI @ TIME1 @ INTERVAL ) ) )
% 2.14/2.39           => ? [TIME2: $i] :
% 2.14/2.39                ( ( instance_THFTYPE_IiioI @ TIME2 @ CLASS )
% 2.14/2.39                & ( meetsTemporally_THFTYPE_IiioI @ TIME2 @ TIME1 ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1194,axiom,
% 2.14/2.39      ! [OBJ: $i,HOLE: $i] :
% 2.14/2.39        ( ( hole_THFTYPE_IiioI @ HOLE @ OBJ )
% 2.14/2.39       => ( connected_THFTYPE_IiioI @ HOLE @ OBJ ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation ReligiousOrganization EnglishLanguage "An &%Organization whose members share a set of religious beliefs.")
% 2.14/2.39  thf(ax1195,axiom,
% 2.14/2.39      subAttribute_THFTYPE_IiioI @ lLarval_THFTYPE_i @ lNonFullyFormed_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1196,axiom,
% 2.14/2.39      ! [PERSON: $i,AREA: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ AREA @ lGeopoliticalArea_THFTYPE_i )
% 2.14/2.39          & ( leader_THFTYPE_IiioI @ AREA @ PERSON ) )
% 2.14/2.39       => ( leader_THFTYPE_IiioI @ ( lGovernmentFn_THFTYPE_IiiI @ AREA ) @ PERSON ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1197,axiom,
% 2.14/2.39      ! [NUMBER: $i] :
% 2.14/2.39        ( ( lSuccessorFn_THFTYPE_IiiI @ NUMBER )
% 2.14/2.39        = ( plus_THFTYPE_IiiiI @ NUMBER @ n1_THFTYPE_i ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1198,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lPropositionalAttitude_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation AngularDegree EnglishLanguage "A plane angle measure.")
% 2.14/2.39  thf(ax1199,axiom,
% 2.14/2.39      ! [OBJ1: $i,OBJ2: $i] :
% 2.14/2.39        ( ( copy_THFTYPE_IiioI @ OBJ1 @ OBJ2 )
% 2.14/2.39       => ! [ATTR: $i] :
% 2.14/2.39            ( ( attribute_THFTYPE_IiioI @ OBJ1 @ ATTR )
% 2.14/2.39           => ( attribute_THFTYPE_IiioI @ OBJ2 @ ATTR ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1200,axiom,
% 2.14/2.39      ! [REL2: $i,NUMBER: $i,CLASS1: $i,REL1: $i] :
% 2.14/2.39        ( ( ( subrelation_THFTYPE_IiioI @ REL1 @ REL2 )
% 2.14/2.39          & ( domainSubclass_THFTYPE_IiiioI @ REL2 @ NUMBER @ CLASS1 ) )
% 2.14/2.39       => ( domainSubclass_THFTYPE_IiiioI @ REL1 @ NUMBER @ CLASS1 ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation smaller EnglishLanguage "(&%smaller ?OBJ1 ?OBJ2) means that ?OBJ1 is smaller, with respect to all &%LengthMeasures, than ?OBJ2.")
% 2.14/2.39  thf(ax1201,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lUnitOfMass_THFTYPE_i @ lNonCompositeUnitOfMeasure_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1202,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lFunding_THFTYPE_i @ lGiving_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1203,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lGroup_THFTYPE_i @ lCollection_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Currency EnglishLanguage "Any element of the official currrency of some &%Nation. This covers both &%CurrencyBills and &%CurrencyCoins.")
% 2.14/2.39  %KIF documentation:(documentation precondition EnglishLanguage "A very general &%Predicate. (&%precondition ?PROC1 ?PROC2) means that an instance of ?PROC2 can exist only if an instance of ?PROC1 also exists.")
% 2.14/2.39  %KIF documentation:(documentation UnitOfLength EnglishLanguage "Every instance of this &%Class is a &%UnitOfMeasure that can be used with &%MeasureFn to form instances of &%LengthMeasure.")
% 2.14/2.39  thf(ax1204,axiom,
% 2.14/2.39      ! [SEPARATE: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ SEPARATE @ lSeparating_THFTYPE_i )
% 2.14/2.39       => ? [OBJ: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ OBJ @ lSelfConnectedObject_THFTYPE_i )
% 2.14/2.39            & ( patient_THFTYPE_IiioI @ SEPARATE @ OBJ ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1205,axiom,
% 2.14/2.39      ! [ATTR2: $i,ATTR1: $i] :
% 2.14/2.39        ( ( subAttribute_THFTYPE_IiioI @ ATTR1 @ ATTR2 )
% 2.14/2.39       => ! [OBJ: $i] :
% 2.14/2.39            ( ( property_THFTYPE_IiioI @ OBJ @ ATTR1 )
% 2.14/2.39           => ( property_THFTYPE_IiioI @ OBJ @ ATTR2 ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation uniqueIdentifier EnglishLanguage "The class of &%names that uniquely identify an instance of &%Entity. Some examples of &%uniqueIdentifiers are the keys of tables in database applications and the ISBN (International Standard Book Number).")
% 2.14/2.39  thf(ax1206,axiom,
% 2.14/2.39      ! [BUSINESS: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ BUSINESS @ lCommercialService_THFTYPE_i )
% 2.14/2.39       => ? [AGENT: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ AGENT @ lCommercialAgent_THFTYPE_i )
% 2.14/2.39            & ( agent_THFTYPE_IiioI @ BUSINESS @ AGENT ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1207,axiom,
% 2.14/2.39      ! [JUNCT: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ JUNCT @ lBodyJunction_THFTYPE_i )
% 2.14/2.39       => ? [OBJ1: $i,OBJ2: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ OBJ1 @ lBodyPart_THFTYPE_i )
% 2.14/2.39            & ( instance_THFTYPE_IiioI @ OBJ2 @ lBodyPart_THFTYPE_i )
% 2.14/2.39            & ( connects_THFTYPE_IiiioI @ JUNCT @ OBJ1 @ OBJ2 ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1208,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lPropositionalAttitude_THFTYPE_i @ lIntentionalRelation_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1209,axiom,
% 2.14/2.39      ! [REL: $i > $i > $o,ROW: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IIiioIioI @ REL @ lTotalValuedRelation_THFTYPE_i )
% 2.14/2.39      <=> ? [VALENCE: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IIiioIioI @ REL @ lRelation_THFTYPE_i )
% 2.14/2.39            & ( valence_THFTYPE_IIiioIioI @ REL @ VALENCE )
% 2.14/2.39            & ( ! [NUMBER: $i,ELEMENT: $i,CLASS: $i] :
% 2.14/2.39                  ( ( ( lt_THFTYPE_IiioI @ NUMBER @ VALENCE )
% 2.14/2.39                    & ( domain_THFTYPE_IIiioIiioI @ REL @ NUMBER @ CLASS )
% 2.14/2.39                    & ( ELEMENT
% 2.14/2.39                      = ( lListOrderFn_THFTYPE_IiiiI @ ( lListFn_THFTYPE_IiiI @ ROW ) @ NUMBER ) ) )
% 2.14/2.39                 => ( instance_THFTYPE_IiioI @ ELEMENT @ CLASS ) )
% 2.14/2.39             => ? [ITEM: $i] : ( REL @ ROW @ ITEM ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation TactilePerception EnglishLanguage "The &%subclass of &%Perception in which the sensing is done by &%Touching. Note that &%Touching need not involve &%TactilePerception. For example, a person who has lost all sensation in both of his legs would have no &%TactilePerception of anything his legs were &%Touching.")
% 2.14/2.39  thf(ax1210,axiom,
% 2.14/2.39      ! [OBJ: $i,PLACE: $i,DISCOVER: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ DISCOVER @ lDiscovering_THFTYPE_i )
% 2.14/2.39          & ( patient_THFTYPE_IiioI @ DISCOVER @ OBJ )
% 2.14/2.39          & ( holdsDuring_THFTYPE_IiooI @ ( lWhenFn_THFTYPE_IiiI @ DISCOVER ) @ ( located_THFTYPE_IiioI @ OBJ @ PLACE ) ) )
% 2.14/2.39       => ? [LEARN: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ LEARN @ lLearning_THFTYPE_i )
% 2.14/2.39            & ( subProcess_THFTYPE_IiioI @ LEARN @ DISCOVER )
% 2.14/2.39            & ( patient_THFTYPE_IiooI @ LEARN @ ( located_THFTYPE_IiioI @ OBJ @ PLACE ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1211,axiom,
% 2.14/2.39      ! [NUMBER2: $i,FORMULA1: $o,NUMBER1: $i,FORMULA2: $o] :
% 2.14/2.39        ( ( ( increasesLikelihood_THFTYPE_IoooI @ FORMULA1 @ FORMULA2 )
% 2.14/2.39          & ( ( lProbabilityFn_THFTYPE_IoiI @ FORMULA2 )
% 2.14/2.39            = NUMBER1 )
% 2.14/2.39          & ( conditionalProbability_THFTYPE_IooioI @ FORMULA1 @ FORMULA2 @ NUMBER2 ) )
% 2.14/2.39       => ( gt_THFTYPE_IiioI @ NUMBER2 @ NUMBER1 ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1212,axiom,
% 2.14/2.39      rangeSubclass_THFTYPE_IiioI @ lCutSetFn_THFTYPE_i @ lGraphPath_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Myriapod EnglishLanguage "A &%Class of &%Arthropods that includes centipedes and millipedes.")
% 2.14/2.39  thf(ax1213,axiom,
% 2.14/2.39      ! [TEXT: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ TEXT @ lText_THFTYPE_i )
% 2.14/2.39       => ? [PART: $i] :
% 2.14/2.39            ( ( part_THFTYPE_IiioI @ PART @ TEXT )
% 2.14/2.39            & ( instance_THFTYPE_IiioI @ PART @ lLinguisticExpression_THFTYPE_i ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1214,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lPoking_THFTYPE_i @ lIntentionalProcess_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Unconscious EnglishLanguage "&%Attribute that applies to &%Organisms that are unconscious. An &%Organism may be &%Unconscious because it is &%Dead or because of a blow to the head, a drug, etc.")
% 2.14/2.39  thf(ax1215,axiom,
% 2.14/2.39      ! [CLASS: $i,RELATION: $i > $i > $o] :
% 2.14/2.39        ( ( equivalenceRelationOn_THFTYPE_IIiioIioI @ RELATION @ CLASS )
% 2.14/2.39       => ( ( instance_THFTYPE_IIiioIioI @ RELATION @ lTransitiveRelation_THFTYPE_i )
% 2.14/2.39          & ( instance_THFTYPE_IIiioIioI @ RELATION @ lSymmetricRelation_THFTYPE_i )
% 2.14/2.39          & ( reflexiveOn_THFTYPE_IIiioIioI @ RELATION @ CLASS ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Oval EnglishLanguage "The class of &%ClosedTwoDimensionalFigures that are produced by the intersection of a &%Cone with a &%ClosedTwoDimensionalFigure.")
% 2.14/2.39  thf(ax1216,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lSymmetricRelation_THFTYPE_i @ lBinaryRelation_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Protein EnglishLanguage "A &%Nutrient made up of amino acids joined by peptide bonds.")
% 2.14/2.39  %KIF documentation:(documentation Noun EnglishLanguage "One of the parts of speech. The &%Class of &%Words that conventionally denote &%Objects.")
% 2.14/2.39  thf(ax1217,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lWar_THFTYPE_i @ lViolentContest_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1218,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lSubjectiveAssessmentAttribute_THFTYPE_i @ lNormativeAttribute_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1219,axiom,
% 2.14/2.39      ! [NUMBER: $i] :
% 2.14/2.39        ( ( NUMBER
% 2.14/2.39          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.39       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lPoundForce_THFTYPE_i )
% 2.14/2.39          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n4dot448222_THFTYPE_i ) @ lNewton_THFTYPE_i ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1220,axiom,
% 2.14/2.39      ! [LIST: $i] :
% 2.14/2.39        ( ( LIST = lNullList_THFTYPE_i )
% 2.14/2.39      <=> ( ( instance_THFTYPE_IiioI @ LIST @ lList_THFTYPE_i )
% 2.14/2.39          & ( (~)
% 2.14/2.39            @ ? [ITEM: $i] : ( inList_THFTYPE_IiioI @ ITEM @ LIST ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Monday EnglishLanguage "The &%Class of all calendar Mondays.")
% 2.14/2.39  thf(ax1221,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lInterpreting_THFTYPE_i @ lIntentionalPsychologicalProcess_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation FloorFn EnglishLanguage "(&%FloorFn ?NUMBER) returns the largest &%Integer less than or equal to the &%RealNumber ?NUMBER.")
% 2.14/2.39  thf(ax1222,axiom,
% 2.14/2.39      ! [CLASS: $i,ROW: $i] :
% 2.14/2.39        ( ( disjointDecomposition_THFTYPE_IiioI @ CLASS @ ROW )
% 2.14/2.39       => ! [ITEM1: $i,ITEM2: $i] :
% 2.14/2.39            ( ( ( inList_THFTYPE_IiioI @ ITEM1 @ ( lListFn_THFTYPE_IiiI @ ROW ) )
% 2.14/2.39              & ( inList_THFTYPE_IiioI @ ITEM2 @ ( lListFn_THFTYPE_IiiI @ ROW ) )
% 2.14/2.39              & ( (~) @ ( ITEM1 = ITEM2 ) ) )
% 2.14/2.39           => ( disjoint_THFTYPE_IiioI @ ITEM1 @ ITEM2 ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation GeopoliticalArea EnglishLanguage "Any &%GeographicArea which is associated with some sort of political structure. This class includes &%Lands, &%Cities, districts of cities, counties, etc. Note that the identity of a &%GeopoliticalArea may remain constant after a change in borders.")
% 2.14/2.39  %KIF documentation:(documentation SingleValuedRelation EnglishLanguage "A &%Relation is a &%SingleValuedRelation just in case an assignment of values to every argument position except the last one determines at most one assignment for the last argument position. Note that not all &%SingleValuedRelations are &%TotalValuedRelations.")
% 2.14/2.39  thf(ax1223,axiom,
% 2.14/2.39      ! [MONTH1: $i,MONTH2: $i,YEAR: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ MONTH1 @ ( lMonthFn_THFTYPE_IiiiI @ lOctober_THFTYPE_i @ YEAR ) )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ MONTH2 @ ( lMonthFn_THFTYPE_IiiiI @ lNovember_THFTYPE_i @ YEAR ) ) )
% 2.14/2.39       => ( meetsTemporally_THFTYPE_IiioI @ MONTH1 @ MONTH2 ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1224,axiom,
% 2.14/2.39      disjoint_THFTYPE_IiioI @ lSeparating_THFTYPE_i @ lCombining_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Worm EnglishLanguage "Long, narrow, soft-bodied &%Invertebrates.")
% 2.14/2.39  %KIF documentation:(documentation graphPart EnglishLanguage "A basic relation for &%Graphs and their parts. (&%graphPart ?PART ?GRAPH) means that ?PART is a &%GraphArc or &%GraphNode of the &%Graph ?GRAPH.")
% 2.14/2.39  thf(ax1225,axiom,
% 2.14/2.39      ! [VOCAL: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ VOCAL @ lVocalizing_THFTYPE_i )
% 2.14/2.39       => ? [HUMAN: $i,VC: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ HUMAN @ lHuman_THFTYPE_i )
% 2.14/2.39            & ( instance_THFTYPE_IiioI @ VC @ lVocalCords_THFTYPE_i )
% 2.14/2.39            & ( part_THFTYPE_IiioI @ VC @ HUMAN )
% 2.14/2.39            & ( agent_THFTYPE_IiioI @ VOCAL @ HUMAN )
% 2.14/2.39            & ( instrument_THFTYPE_IiioI @ VOCAL @ VC ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Angstrom EnglishLanguage "The &%Angstrom is a &%LengthMeasure. 1 &%Angstrom = 10^(-10) m")
% 2.14/2.39  %KIF documentation:(documentation instance EnglishLanguage "An object is an &%instance of a &%SetOrClass if it is included in that &%SetOrClass. An individual may be an instance of many classes, some of which may be subclasses of others. Thus, there is no assumption in the meaning of &%instance about specificity or uniqueness.")
% 2.14/2.39  %KIF documentation:(documentation StationaryArtifact EnglishLanguage "A &%StationaryArtifact is an &%Artifact that has a fixed spatial location. Most instances of this &%Class are architectural works, e.g. the Eiffel Tower, the Great Pyramids, office towers, single-family houses, etc.")
% 2.14/2.39  %KIF documentation:(documentation causes EnglishLanguage "The causation relation between instances of &%Process. (&%causes ?PROCESS1 ?PROCESS2) means that the instance of &%Process ?PROCESS1 brings about the instance of &%Process ?PROCESS2.")
% 2.14/2.39  %KIF documentation:(documentation subOrganization EnglishLanguage "(&%subOrganization ?ORG1 ?ORG2) means that ?ORG1 is an &%Organization which is a part of the &%Organization ?ORG2. Note that &%subOrganization is a &%ReflexiveRelation, so every &%Organization is a &%subOrganization of itself.")
% 2.14/2.39  %KIF documentation:(documentation RadiatingNuclear EnglishLanguage "Releasing atomic energy, i.e. energy from a nuclear reaction.")
% 2.14/2.39  %KIF documentation:(documentation Tuesday EnglishLanguage "The &%Class of all calendar Tuesdays.")
% 2.14/2.39  thf(ax1226,axiom,
% 2.14/2.39      ! [REL: $i > $i > $o] :
% 2.14/2.39        ( ( instance_THFTYPE_IIiioIioI @ REL @ lSingleValuedRelation_THFTYPE_i )
% 2.14/2.39       => ! [ROW: $i,ITEM1: $i,ITEM2: $i] :
% 2.14/2.39            ( ( ( REL @ ROW @ ITEM1 )
% 2.14/2.39              & ( REL @ ROW @ ITEM2 ) )
% 2.14/2.39           => ( ITEM1 = ITEM2 ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1227,axiom,
% 2.14/2.39      ! [QUANT: $i,UNIT: $i,N: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ QUANT @ ( lMeasureFn_THFTYPE_IiiiI @ N @ UNIT ) )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ UNIT @ lNonCompositeUnitOfMeasure_THFTYPE_i ) )
% 2.14/2.39       => ( instance_THFTYPE_IiioI @ QUANT @ lConstantQuantity_THFTYPE_i ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Machine EnglishLanguage "&%Machines are &%Devices that that have a well-defined &%resource and &%result and that automatically convert the &%resource into the &%result.")
% 2.14/2.39  %KIF documentation:(documentation DiagnosticProcess EnglishLanguage "A &%Process that is carried out for the purpose of determining the nature of a &%DiseaseOrSyndrome.")
% 2.14/2.39  %KIF documentation:(documentation FiniteSet EnglishLanguage "A &%Set containing a finite number of elements.")
% 2.14/2.39  thf(ax1228,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lTwoDimensionalAngle_THFTYPE_i @ lOpenTwoDimensionalFigure_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation FieldOfStudy EnglishLanguage "An academic or applied discipline with recognized experts and with a core of accepted theory or practice. Note that &%FieldOfStudy is a &%subclass of &%Proposition, because a &%FieldOfStudy is understood to be a body of abstract, informational content, with varying degrees of certainty attached to each element of this content.")
% 2.14/2.39  %KIF documentation:(documentation Wednesday EnglishLanguage "The &%Class of all calendar Wednesdays.")
% 2.14/2.39  thf(ax1229,axiom,
% 2.14/2.39      ! [X: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ X @ lNegativeInteger_THFTYPE_i )
% 2.14/2.39       => ( gt_THFTYPE_IiioI @ n0_THFTYPE_i @ X ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Demonstrating EnglishLanguage "Exhibiting something or a range of things before the public in a particular location. This would cover software demos, theatrical plays, lectures, dance and music recitals, museum exhibitions, etc.")
% 2.14/2.39  %KIF documentation:(documentation Injuring EnglishLanguage "The process of creating a traumatic wound or injury. Since &%Injuring is not possible without some biologic function of the organism being injured, it is a subclass of &%BiologicalProcess.")
% 2.14/2.39  %KIF documentation:(documentation AsymmetricRelation EnglishLanguage "A &%BinaryRelation is asymmetric if and only if it is both an &%AntisymmetricRelation and an &%IrreflexiveRelation.")
% 2.14/2.39  %KIF documentation:(documentation Poking EnglishLanguage "The &%Class of &%Processes where the &%agent pierces the surface of the &%Object with an &%instrument.")
% 2.14/2.39  %KIF documentation:(documentation Molecule EnglishLanguage "A molecule is the smallest unit of matter of a &%CompoundSubstance that retains all the physical and chemical properties of that substance, e.g., Ne, H2, H2O. A molecule is two or more &%Atoms linked by a chemical bond.")
% 2.14/2.39  thf(ax1230,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lMetal_THFTYPE_i @ lElementalSubstance_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1231,axiom,
% 2.14/2.39      ! [OBJ: $i] :
% 2.14/2.39        ( ( attribute_THFTYPE_IiioI @ OBJ @ lFullyFormed_THFTYPE_i )
% 2.14/2.39       => ? [GROWTH: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ GROWTH @ lGrowth_THFTYPE_i )
% 2.14/2.39            & ( experiencer_THFTYPE_IiioI @ GROWTH @ OBJ )
% 2.14/2.39            & ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ OBJ ) ) @ ( attribute_THFTYPE_IiioI @ OBJ @ lNonFullyFormed_THFTYPE_i ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1232,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lMultiGraph_THFTYPE_i @ lGraph_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation CompoundSubstance EnglishLanguage "The &%Class of &%Substances that contain two or more elements (&%ElementalSubstances), in definite proportion by weight. The composition of a pure compound will be invariant, regardless of the method of preparation. Compounds are composed of more than one kind of atom (element). The term molecule is often used for the smallest unit of a compound that still retains all of the properties of the compound. Examples: Table salt (sodium chloride, NaCl), sugar (sucrose, C_{12}H_{22}O_{11}), and water (H_2O). ")
% 2.14/2.39  %KIF documentation:(documentation weight EnglishLanguage "(&%weight ?O ?MM) means that on planet earth the &%SelfConnectedObject ?O has the weight ?MM.")
% 2.14/2.39  %KIF documentation:(documentation Liter EnglishLanguage "Unit of volume in the metric system. It is currently defined to be equal to one cubic decimeter (0.001 cubic meter). Symbol: l.")
% 2.14/2.39  thf(ax1233,axiom,
% 2.14/2.39      ! [ATTR: $i,AGENT: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ ATTR @ lPsychologicalAttribute_THFTYPE_i )
% 2.14/2.39          & ( attribute_THFTYPE_IiioI @ AGENT @ ATTR ) )
% 2.14/2.39       => ( instance_THFTYPE_IiioI @ AGENT @ lSentientAgent_THFTYPE_i ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation WhereFn EnglishLanguage "Maps an &%Object and a &%TimePoint at which the &%Object exists to the &%Region where the &%Object existed at that &%TimePoint.")
% 2.14/2.39  %KIF documentation:(documentation Naming EnglishLanguage "The &%Process of assigning a name to someone or something.")
% 2.14/2.39  thf(ax1234,axiom,
% 2.14/2.39      ! [ATTACH: $i,OBJ1: $i,OBJ2: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ ATTACH @ lAttaching_THFTYPE_i )
% 2.14/2.39          & ( patient_THFTYPE_IiioI @ ATTACH @ OBJ1 )
% 2.14/2.39          & ( patient_THFTYPE_IiioI @ ATTACH @ OBJ2 ) )
% 2.14/2.39       => ( ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ ATTACH ) ) @ ( (~) @ ( connected_THFTYPE_IiioI @ OBJ1 @ OBJ2 ) ) )
% 2.14/2.39          & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ ATTACH ) ) @ ( connected_THFTYPE_IiioI @ OBJ1 @ OBJ2 ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1235,axiom,
% 2.14/2.39      ! [ROOM: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ ROOM @ lRoom_THFTYPE_i )
% 2.14/2.39       => ? [BUILD: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ BUILD @ lBuilding_THFTYPE_i )
% 2.14/2.39            & ( properPart_THFTYPE_IiioI @ ROOM @ BUILD ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1236,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lPrimeNumber_THFTYPE_i @ lInteger_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Grabbing EnglishLanguage "Any instance of &%Touching which results in a situation where the &%agent &%grasps the &%patient of the &%Touching.")
% 2.14/2.39  %KIF documentation:(documentation Disagreeing EnglishLanguage "A &%Stating in which two &%Agents have contradictory statements. This is distinguished from &%Arguing in that the statement in dispute may be a simple assertion, rather than a chain of deduction, and that two entities must be disagreeing with each other, whereas a single entity may craft an argument for a given point of view, without the need for another agent to disagree with.")
% 2.14/2.39  %KIF documentation:(documentation inhibits EnglishLanguage "A very general &%Predicate. (&%inhibits ?PROC1 ?PROC2) means that the &%Process ?PROC1 inhibits or hinders the occurrence of the &%Process ?PROC2. For example, obstructing an object inhibits moving it. Note that this is a relation between types of &%Processes, not between instances.")
% 2.14/2.39  %KIF documentation:(documentation Drying EnglishLanguage "The &%Class of &%Processes where a &%Liquid is removed from an &%Object.")
% 2.14/2.39  thf(ax1237,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lElementalSubstance_THFTYPE_i @ lPureSubstance_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1238,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lTransaction_THFTYPE_i @ lChangeOfPossession_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1239,axiom,
% 2.14/2.39      ! [NUMBER2: $i,MONTH: $i,DAY1: $i,DAY2: $i,NUMBER1: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ DAY1 @ ( lDayFn_THFTYPE_IiiiI @ NUMBER1 @ MONTH ) )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ DAY2 @ ( lDayFn_THFTYPE_IiiiI @ NUMBER2 @ MONTH ) )
% 2.14/2.39          & ( ( minus_THFTYPE_IiiiI @ NUMBER2 @ NUMBER1 )
% 2.14/2.39            = n1_THFTYPE_i ) )
% 2.14/2.39       => ( meetsTemporally_THFTYPE_IiioI @ DAY1 @ DAY2 ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1240,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lCaseRole_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1241,axiom,
% 2.14/2.39      ! [OBJ: $i,COND: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ COND @ lCondensing_THFTYPE_i )
% 2.14/2.39          & ( patient_THFTYPE_IiioI @ COND @ OBJ ) )
% 2.14/2.39       => ? [PART: $i] :
% 2.14/2.39            ( ( part_THFTYPE_IiioI @ PART @ OBJ )
% 2.14/2.39            & ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ COND ) ) @ ( attribute_THFTYPE_IiioI @ PART @ lGas_THFTYPE_i ) )
% 2.14/2.39            & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ COND ) ) @ ( attribute_THFTYPE_IiioI @ PART @ lLiquid_THFTYPE_i ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1242,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lIntentionalPsychologicalProcess_THFTYPE_i @ lPsychologicalProcess_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1243,axiom,
% 2.14/2.39      ! [ORG: $i,GRAD: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ GRAD @ lGraduation_THFTYPE_i )
% 2.14/2.39          & ( agent_THFTYPE_IiioI @ GRAD @ ORG ) )
% 2.14/2.39       => ( instance_THFTYPE_IiioI @ ORG @ lEducationalOrganization_THFTYPE_i ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation NonnegativeRealNumber EnglishLanguage "A &%RealNumber that is greater than or equal to zero.")
% 2.14/2.39  %KIF documentation:(documentation reflexiveOn EnglishLanguage "A &%BinaryPredicate is reflexive on a &%SetOrClass only if every instance of the &%SetOrClass bears the relation to itself.")
% 2.14/2.39  thf(ax1244,axiom,
% 2.14/2.39      ! [PART: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ PART @ lGraphElement_THFTYPE_i )
% 2.14/2.39       => ? [GRAPH: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ GRAPH @ lGraph_THFTYPE_i )
% 2.14/2.39            & ( graphPart_THFTYPE_IiioI @ PART @ GRAPH ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Bacterium EnglishLanguage "A small, typically one-celled, prokaryotic &%Microorganism.")
% 2.14/2.39  thf(ax1245,axiom,
% 2.14/2.39      ! [STRUCTURE: $i,PLANT: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ STRUCTURE @ lPlantAnatomicalStructure_THFTYPE_i )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ PLANT @ lOrganism_THFTYPE_i )
% 2.14/2.39          & ( part_THFTYPE_IiioI @ STRUCTURE @ PLANT ) )
% 2.14/2.39       => ( instance_THFTYPE_IiioI @ PLANT @ lPlant_THFTYPE_i ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Smelling EnglishLanguage "The &%subclass of &%Perception in which the sensing is done by an olefactory &%Organ.")
% 2.14/2.39  %KIF documentation:(documentation InchMercury EnglishLanguage "&%InchMercury is a &%UnitOfMeasure for &%barometricPressure. It is used to express the number of inches of mercury supported in a mercurial barometer by the surrounding air pressure.")
% 2.14/2.39  %KIF documentation:(documentation CeilingFn EnglishLanguage "(&%CeilingFn ?NUMBER) returns the smallest &%Integer greater than or equal to the &%RealNumber ?NUMBER.")
% 2.14/2.39  thf(ax1246,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lGovernment_THFTYPE_i @ lGovernmentOrganization_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation larger EnglishLanguage "(&%larger ?OBJ1 ?OBJ2) means that ?OBJ1 is larger, with respect to all &%LengthMeasures, than ?OBJ2.")
% 2.14/2.39  %KIF documentation:(documentation Increasing EnglishLanguage "Any &%QuantityChange where the &%PhysicalQuantity is increased.")
% 2.14/2.39  %KIF documentation:(documentation KelvinDegree EnglishLanguage "SI &%UnitOfMeasure used with &%MeasureFn to produce terms denoting instances of &%TemperatureMeasure. Symbol: K. It is one of the base units in SI (it is also a unit in the ITS system). Kelvin differs from the Celsius scale in that the triple point of water is defined to be 273.16 &%KelvinDegrees while it is 0 &%CelsiusDegrees. The magnitudes of intervals in the two scales are the same. By definition the conversion constant is 273.15.")
% 2.14/2.39  thf(ax1247,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lAbnormalAnatomicalStructure_THFTYPE_i @ lAnatomicalStructure_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Confining EnglishLanguage "The &%Class of &%Keeping &%Processes where the &%patient is a &%Human or an &%Animal and is kept involuntarily. This covers caging, imprisonment, jailing, etc.")
% 2.14/2.39  %KIF documentation:(documentation Tesla EnglishLanguage "SI magnetic flux density measure. Symbol: T. One &%Tesla equals one &%Weber per square &%Meter. &%Tesla = Wb/ m^2 = kg*s^(-2)*A^(-1).")
% 2.14/2.39  thf(ax1248,axiom,
% 2.14/2.39      ! [POINT2: $i,POINT1: $i,INTERVAL: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ POINT1 @ lTimePoint_THFTYPE_i )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ POINT2 @ lTimePoint_THFTYPE_i )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ INTERVAL @ lTimeInterval_THFTYPE_i )
% 2.14/2.39          & ( ( lTimeIntervalFn_THFTYPE_IiiiI @ POINT1 @ POINT2 )
% 2.14/2.39            = INTERVAL ) )
% 2.14/2.39       => ( ( ( lBeginFn_THFTYPE_IiiI @ INTERVAL )
% 2.14/2.39            = POINT1 )
% 2.14/2.39          & ( ( lEndFn_THFTYPE_IiiI @ INTERVAL )
% 2.14/2.39            = POINT2 ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1249,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lPhrase_THFTYPE_i @ lLinguisticExpression_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation UnitOfAtmosphericPressure EnglishLanguage "&%UnitOfAtmosphericPressure includes those instances of &%UnitOfMeasure used to measure atmospheric pressure (&%barometricPressure), e.g., &%InchMercury.")
% 2.14/2.39  thf(ax1250,axiom,
% 2.14/2.39      ! [PROCESS: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ PROCESS @ lDualObjectProcess_THFTYPE_i )
% 2.14/2.39       => ? [OBJ1: $i,OBJ2: $i] :
% 2.14/2.39            ( ( patient_THFTYPE_IiioI @ PROCESS @ OBJ1 )
% 2.14/2.39            & ( patient_THFTYPE_IiioI @ PROCESS @ OBJ2 )
% 2.14/2.39            & ( (~) @ ( OBJ1 = OBJ2 ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1251,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lCorporation_THFTYPE_i @ lCommercialAgent_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1252,axiom,
% 2.14/2.39      ! [AGENT: $i,PROC: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ PROC @ lIntentionalProcess_THFTYPE_i )
% 2.14/2.39          & ( agent_THFTYPE_IiioI @ PROC @ AGENT ) )
% 2.14/2.39       => ? [PURP: $o] : ( hasPurposeForAgent_THFTYPE_IioioI @ PROC @ PURP @ AGENT ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1253,axiom,
% 2.14/2.39      ! [NUMBER: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ NUMBER @ lNegativeRealNumber_THFTYPE_i )
% 2.14/2.39      <=> ( ( lt_THFTYPE_IiioI @ NUMBER @ n0_THFTYPE_i )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ NUMBER @ lRealNumber_THFTYPE_i ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1254,axiom,
% 2.14/2.39      range_THFTYPE_IiioI @ lInitialNodeFn_THFTYPE_i @ lGraphNode_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1255,axiom,
% 2.14/2.39      ! [WEAPON: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ WEAPON @ lWeapon_THFTYPE_i )
% 2.14/2.39       => ( hasPurpose_THFTYPE_IiooI @ WEAPON
% 2.14/2.39          @ ? [D: $i,PATIENT: $i] :
% 2.14/2.39              ( ( instance_THFTYPE_IiioI @ D @ lDamaging_THFTYPE_i )
% 2.14/2.39              & ( instrument_THFTYPE_IiioI @ D @ WEAPON )
% 2.14/2.39              & ( patient_THFTYPE_IiioI @ D @ PATIENT ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Repairing EnglishLanguage "The &%Class of &%Processes where the &%agent makes a modification or series of modifications to an &%Object that is not functioning as intended so that it works properly.")
% 2.14/2.39  thf(ax1256,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lDirectedGraph_THFTYPE_i @ lGraph_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1257,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lRealNumber_THFTYPE_i @ lNumber_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1258,axiom,
% 2.14/2.39      ! [ATTR2: $i,OBJ1: $i,OBJ2: $i,ATTR1: $i] :
% 2.14/2.39        ( ( ( orientation_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ ATTR1 )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ ATTR1 @ lDirectionalAttribute_THFTYPE_i )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ ATTR2 @ lDirectionalAttribute_THFTYPE_i )
% 2.14/2.39          & ( (~) @ ( ATTR1 = ATTR2 ) ) )
% 2.14/2.39       => ( (~) @ ( orientation_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ ATTR2 ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1259,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lLegalAction_THFTYPE_i @ lContest_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1260,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lQuaternaryPredicate_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1261,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lGovernmentOrganization_THFTYPE_i @ lOrganization_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation AbnormalAnatomicalStructure EnglishLanguage "Any &%AnatomicalStructure which is not normally found in the &%Organism of which it is a part, i.e. it is the result of a &%PathologicProcess. This class covers tumors, birth marks, goiters, etc.")
% 2.14/2.39  thf(ax1262,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lRadiatingInfrared_THFTYPE_i @ lRadiatingElectromagnetic_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1263,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lAutonomicProcess_THFTYPE_i @ lPhysiologicProcess_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1264,axiom,
% 2.14/2.39      ! [ROW: $i] :
% 2.14/2.39        ( ( partition_THFTYPE_IioI @ ROW )
% 2.14/2.39      <=> ( ( exhaustiveDecomposition_THFTYPE_IioI @ ROW )
% 2.14/2.39          & ( disjointDecomposition_THFTYPE_IioI @ ROW ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1265,axiom,
% 2.14/2.39      partition_THFTYPE_IiiioI @ lLiquidMixture_THFTYPE_i @ lSolution_THFTYPE_i @ lSuspension_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1266,axiom,
% 2.14/2.39      ! [TIME2: $i,TIME1: $i] :
% 2.14/2.39        ( ( ( lRelativeTimeFn_THFTYPE_IiiiI @ TIME1 @ lCentralTimeZone_THFTYPE_i )
% 2.14/2.39          = TIME2 )
% 2.14/2.39       => ( TIME2
% 2.14/2.39          = ( plus_THFTYPE_IiiiI @ TIME1 @ n6_THFTYPE_i ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1267,axiom,
% 2.14/2.39      range_THFTYPE_IiioI @ lMegaFn_THFTYPE_i @ lUnitOfMeasure_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1268,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lBodyCavity_THFTYPE_i @ lBodyPart_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1269,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lHunting_THFTYPE_i @ lPursuing_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1270,axiom,
% 2.14/2.39      ! [NUMBER: $i] :
% 2.14/2.39        ( ( NUMBER
% 2.14/2.39          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.39       => ( gtet_THFTYPE_IiioI @ ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lMonthDuration_THFTYPE_i ) @ ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n28_THFTYPE_i ) @ lDayDuration_THFTYPE_i ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation geometricPart EnglishLanguage "(&%geometricPart ?PART ?WHOLE) means that the &%GeometricFigure ?PART is part of the &%GeometricFigure ?WHOLE.")
% 2.14/2.39  %KIF documentation:(documentation JoiningAnOrganization EnglishLanguage "The &%OrganizationalProcess of becoming a &%member of an &%Organization.")
% 2.14/2.39  thf(ax1271,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lMonth_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Asleep EnglishLanguage "&%Attribute that applies to &%Organisms that are sleeping.")
% 2.14/2.39  %KIF documentation:(documentation holdsDuring EnglishLanguage "(&%holdsDuring ?TIME ?FORMULA) means that the proposition denoted by ?FORMULA is true in the time frame ?TIME. Note that this implies that ?FORMULA is true at every &%TimePoint which is a &%temporalPart of ?TIME.")
% 2.14/2.39  %KIF documentation:(documentation ObjectiveNorm EnglishLanguage "The &%Class of &%NormativeAttributes that are associated with an objective criterion for their attribution, i.e. there is broad consensus about the cases where these attributes are applicable.")
% 2.14/2.39  %KIF documentation:(documentation Permission EnglishLanguage "&%Attribute that applies to &%Propositions that an &%Agent is permitted, by some authority, to make true.")
% 2.14/2.39  %KIF documentation:(documentation subsumesContentClass EnglishLanguage "A &%BinaryPredicate that relates two subclasses of &%ContentBearingObject. (&%subsumesContentClass ?CLASS1 ?CLASS2) means that the content expressed by each instance of ?CLASS2 is also expressed by each instance of ?CLASS1. Examples include the relationship between a poem and one of its stanzas or between a book and one of its chapters. Note that this is a relation between subclasses of &%ContentBearingObject, rather than instances. If one wants to relate instances, the &%Predicate &%subsumesContentInstance can be used. Note that &%subsumesContentClass is needed in many cases. Consider, for example, the relation between the King James edition of the Bible and its Book of Genesis. This relation holds for every copy of this edition and not just for a single instance.")
% 2.14/2.39  thf(ax1272,axiom,
% 2.14/2.39      ! [FORMULA: $o,COMMIT: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ COMMIT @ lCommitting_THFTYPE_i )
% 2.14/2.39          & ( patient_THFTYPE_IiooI @ COMMIT @ FORMULA )
% 2.14/2.39          & ( instance_THFTYPE_IoioI @ FORMULA @ lFormula_THFTYPE_i ) )
% 2.14/2.39       => ( modalAttribute_THFTYPE_IoioI @ FORMULA @ lPromise_THFTYPE_i ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1273,axiom,
% 2.14/2.39      ! [MOVEMENT: $i,PLACE1: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ MOVEMENT @ lTranslocation_THFTYPE_i )
% 2.14/2.39          & ( origin_THFTYPE_IiioI @ MOVEMENT @ PLACE1 ) )
% 2.14/2.39       => ? [PLACE2: $i,STAGE: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ PLACE2 @ lRegion_THFTYPE_i )
% 2.14/2.39            & ( (~) @ ( PLACE1 = PLACE2 ) )
% 2.14/2.39            & ( subProcess_THFTYPE_IiioI @ STAGE @ MOVEMENT )
% 2.14/2.39            & ( located_THFTYPE_IiioI @ STAGE @ PLACE2 ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Growth EnglishLanguage "The &%Process of biological development in which an &%Organism or part of an &%Organism changes its form or its size.")
% 2.14/2.39  %KIF documentation:(documentation synonymousExternalConcept EnglishLanguage "(&%synonymousExternalConcept ?STRING ?THING ?LANGUAGE) means that the SUMO concept ?THING has the same meaning as ?STRING in ?LANGUAGE.")
% 2.14/2.39  thf(ax1274,axiom,
% 2.14/2.39      ! [GRAPH: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ GRAPH @ lMultiGraph_THFTYPE_i )
% 2.14/2.39      <=> ? [ARC1: $i,ARC2: $i,NODE1: $i,NODE2: $i] :
% 2.14/2.39            ( ( graphPart_THFTYPE_IiioI @ ARC1 @ GRAPH )
% 2.14/2.39            & ( graphPart_THFTYPE_IiioI @ ARC2 @ GRAPH )
% 2.14/2.39            & ( graphPart_THFTYPE_IiioI @ NODE1 @ GRAPH )
% 2.14/2.39            & ( graphPart_THFTYPE_IiioI @ NODE2 @ GRAPH )
% 2.14/2.39            & ( links_THFTYPE_IiiioI @ NODE1 @ NODE2 @ ARC1 )
% 2.14/2.39            & ( links_THFTYPE_IiiioI @ NODE1 @ NODE2 @ ARC2 )
% 2.14/2.39            & ( (~) @ ( ARC1 = ARC2 ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1275,axiom,
% 2.14/2.39      ! [NUMBER: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ NUMBER @ lComplexNumber_THFTYPE_i )
% 2.14/2.39       => ? [REAL1: $i,REAL2: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ REAL1 @ lRealNumber_THFTYPE_i )
% 2.14/2.39            & ( instance_THFTYPE_IiioI @ REAL2 @ lRealNumber_THFTYPE_i )
% 2.14/2.39            & ( NUMBER
% 2.14/2.39              = ( plus_THFTYPE_IiiiI @ REAL1 @ ( times_THFTYPE_IiiiI @ REAL2 @ ( lSquareRootFn_THFTYPE_IiiI @ minus1_THFTYPE_i ) ) ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1276,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lTree_THFTYPE_i @ lGraph_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1277,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lBone_THFTYPE_i @ lAnimalSubstance_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1278,axiom,
% 2.14/2.39      partition_THFTYPE_IiiioI @ lArgument_THFTYPE_i @ lDeductiveArgument_THFTYPE_i @ lInductiveArgument_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1279,axiom,
% 2.14/2.39      range_THFTYPE_IiioI @ lTerminalNodeFn_THFTYPE_i @ lGraphNode_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1280,axiom,
% 2.14/2.39      ! [TACTILE: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ TACTILE @ lTactilePerception_THFTYPE_i )
% 2.14/2.39       => ? [TOUCH: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ TOUCH @ lTouching_THFTYPE_i )
% 2.14/2.39            & ( subProcess_THFTYPE_IiioI @ TOUCH @ TACTILE ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Woman EnglishLanguage "The class of &%Female &%Humans.")
% 2.14/2.39  %KIF documentation:(documentation FictionalText EnglishLanguage "The class of &%Texts that purport to be largely a product of the author's imagination, i.e. the author does not believe that most of the content conveyed by the text is an accurate depiction of the real world. Note that something can be an instance of &%FictionalText, even if it is completely true. Whether something is a &%FictionalText is determined by the beliefs of the agent creating the text.")
% 2.14/2.39  thf(ax1281,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lQuaternaryFunction_THFTYPE_i @ lFunction_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1282,axiom,
% 2.14/2.39      range_THFTYPE_IiioI @ lGeneralizedUnionFn_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1283,axiom,
% 2.14/2.39      ! [REL: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ REL @ lQuintaryPredicate_THFTYPE_i )
% 2.14/2.39       => ( valence_THFTYPE_IiioI @ REL @ n5_THFTYPE_i ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Heating EnglishLanguage "Any &%Increasing &%Process where the &%PhysicalQuantity increased is a &%TemperatureMeasure.")
% 2.14/2.39  %KIF documentation:(documentation Millimeter EnglishLanguage "Submultiple of Meter. Symbol: mm. A millimeter is the 1000th part of a meter")
% 2.14/2.39  thf(ax1284,axiom,
% 2.14/2.39      ! [ATTR2: $i,ENTITY: $i,TIME1: $i,ATTR1: $i] :
% 2.14/2.39        ( ( ( successorAttribute_THFTYPE_IiioI @ ATTR1 @ ATTR2 )
% 2.14/2.39          & ( holdsDuring_THFTYPE_IiooI @ TIME1 @ ( property_THFTYPE_IiioI @ ENTITY @ ATTR2 ) ) )
% 2.14/2.39       => ? [TIME2: $i] :
% 2.14/2.39            ( ( temporalPart_THFTYPE_IiioI @ TIME2 @ ( lPastFn_THFTYPE_IiiI @ TIME1 ) )
% 2.14/2.39            & ( holdsDuring_THFTYPE_IiooI @ TIME2 @ ( property_THFTYPE_IiioI @ ENTITY @ ATTR1 ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1285,axiom,
% 2.14/2.39      ! [HOLE: $i,OBJ1: $i] :
% 2.14/2.39        ( ( completelyFills_THFTYPE_IiioI @ OBJ1 @ HOLE )
% 2.14/2.39       => ! [OBJ2: $i] :
% 2.14/2.39            ( ( connected_THFTYPE_IiioI @ OBJ2 @ HOLE )
% 2.14/2.39           => ( connected_THFTYPE_IiioI @ OBJ2 @ OBJ1 ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1286,axiom,
% 2.14/2.39      disjoint_THFTYPE_IiioI @ lNonFloweringPlant_THFTYPE_i @ lFloweringPlant_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Matriculation EnglishLanguage "The &%OrganizationalProcess of joining an &%EducationalOrganization as a student.")
% 2.14/2.39  thf(ax1287,axiom,
% 2.14/2.39      ! [PROC1: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ PROC1 @ lProcess_THFTYPE_i )
% 2.14/2.39       => ? [PROC2: $i] : ( causes_THFTYPE_IiioI @ PROC2 @ PROC1 ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1288,axiom,
% 2.14/2.39      ! [Y1: $i,MONTH1: $i,MONTH2: $i,YEAR2: $i,Y2: $i,YEAR1: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ MONTH1 @ ( lMonthFn_THFTYPE_IiiiI @ lDecember_THFTYPE_i @ YEAR1 ) )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ MONTH2 @ ( lMonthFn_THFTYPE_IiiiI @ lJanuary_THFTYPE_i @ YEAR2 ) )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ Y1 @ YEAR1 )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ Y2 @ YEAR2 )
% 2.14/2.39          & ( meetsTemporally_THFTYPE_IiioI @ Y1 @ Y2 ) )
% 2.14/2.39       => ( meetsTemporally_THFTYPE_IiioI @ MONTH1 @ MONTH2 ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1289,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lMarsupial_THFTYPE_i @ lMammal_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1290,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lDigesting_THFTYPE_i @ lOrganismProcess_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1291,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lObject_THFTYPE_i @ lPhysical_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1292,axiom,
% 2.14/2.39      ! [AREA: $i,ISLE: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ ISLE @ lIsland_THFTYPE_i )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ AREA @ lGeographicArea_THFTYPE_i )
% 2.14/2.39          & ( meetsSpatially_THFTYPE_IiioI @ ISLE @ AREA ) )
% 2.14/2.39       => ( (~) @ ( instance_THFTYPE_IiioI @ AREA @ lLandArea_THFTYPE_i ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Hearing EnglishLanguage "The &%subclass of &%Perception in which the sensing is done by an auditory &%Organ.")
% 2.14/2.39  %KIF documentation:(documentation ContestAttribute EnglishLanguage "A &%Class containing &%Attributes that are specific to participants in a &%Contest. In particular, these &%Attributes indicate the position of one of the &%agents in the &%Contest with respect to other &%agent(s) in the &%Contest. Some examples of these &%Attributes are winning, losing, won, lost, etc.")
% 2.14/2.39  %KIF documentation:(documentation TerminalNodeFn EnglishLanguage "A &%UnaryFunction that maps a &%GraphArc to the terminal node of the &%GraphArc. Note that this is a partial function. In particular, the function is undefined for &%GraphArcs that are not part of a &%DirectedGraph.")
% 2.14/2.39  thf(ax1293,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lAsexualReproduction_THFTYPE_i @ lReplication_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1294,axiom,
% 2.14/2.39      ! [TRANS: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ TRANS @ lFinancialTransaction_THFTYPE_i )
% 2.14/2.39       => ? [OBJ: $i] :
% 2.14/2.39            ( ( patient_THFTYPE_IiioI @ TRANS @ OBJ )
% 2.14/2.39            & ( instance_THFTYPE_IiioI @ OBJ @ lCurrency_THFTYPE_i ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1295,axiom,
% 2.14/2.39      subAttribute_THFTYPE_IiioI @ lGas_THFTYPE_i @ lFluid_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1296,axiom,
% 2.14/2.39      ! [CLASS: $i,INTERVAL_TYPE: $i,INTERVAL: $i] :
% 2.14/2.39        ( ( ( lTemporalCompositionFn_THFTYPE_IiiiI @ INTERVAL @ INTERVAL_TYPE )
% 2.14/2.39          = CLASS )
% 2.14/2.39       => ! [TIME: $i] :
% 2.14/2.39            ( ( ( instance_THFTYPE_IiioI @ TIME @ lTimePoint_THFTYPE_i )
% 2.14/2.39              & ( temporalPart_THFTYPE_IiioI @ TIME @ INTERVAL ) )
% 2.14/2.39           => ? [INSTANCE: $i] :
% 2.14/2.39                ( ( instance_THFTYPE_IiioI @ INSTANCE @ CLASS )
% 2.14/2.39                & ( temporalPart_THFTYPE_IiioI @ TIME @ INSTANCE ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation altitude EnglishLanguage "A &%TernaryPredicate that is used to state the &%distance between the &%top of an &%Object and another point that is below the &%top of the &%Object (often this other point will be sea level). Note that this &%Predicate can be used to specify, for example, the height of geographic features, e.g. mountains, the altitude of aircraft, and the orbit of satellites around the Earth.")
% 2.14/2.39  thf(ax1297,axiom,
% 2.14/2.39      ! [YEAR2: $i,YEAR1: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ YEAR1 @ lYear_THFTYPE_i )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ YEAR2 @ lYear_THFTYPE_i )
% 2.14/2.39          & ( ( minus_THFTYPE_IiiiI @ YEAR2 @ YEAR1 )
% 2.14/2.39            = n1_THFTYPE_i ) )
% 2.14/2.39       => ( meetsTemporally_THFTYPE_IiioI @ YEAR1 @ YEAR2 ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1298,axiom,
% 2.14/2.39      range_THFTYPE_IiioI @ lBackFn_THFTYPE_i @ lSelfConnectedObject_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1299,axiom,
% 2.14/2.39      partition_THFTYPE_IiiioI @ lHuman_THFTYPE_i @ lMan_THFTYPE_i @ lWoman_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1300,axiom,
% 2.14/2.39      ! [SMOKE: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ SMOKE @ lSmoke_THFTYPE_i )
% 2.14/2.39       => ? [BURNING: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ BURNING @ lCombustion_THFTYPE_i )
% 2.14/2.39            & ( result_THFTYPE_IiioI @ BURNING @ SMOKE ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1301,axiom,
% 2.14/2.39      ! [FORMULA: $o] :
% 2.14/2.39        ( ( modalAttribute_THFTYPE_IoioI @ FORMULA @ lNecessity_THFTYPE_i )
% 2.14/2.39      <=> ( (~) @ ( modalAttribute_THFTYPE_IoioI @ ( (~) @ FORMULA ) @ lPossibility_THFTYPE_i ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1302,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lHoofedMammal_THFTYPE_i @ lMammal_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation ExtensionFn EnglishLanguage "A &%UnaryFunction that maps an &%Attribute into the &%Class whose condition for membership is the &%Attribute.")
% 2.14/2.39  thf(ax1303,axiom,
% 2.14/2.39      range_THFTYPE_IiioI @ lTangentFn_THFTYPE_i @ lRealNumber_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1304,axiom,
% 2.14/2.39      ! [FORMULA: $o,AGENT: $i] :
% 2.14/2.39        ( ( knows_THFTYPE_IiooI @ AGENT @ FORMULA )
% 2.14/2.39       => ( believes_THFTYPE_IiooI @ AGENT @ FORMULA ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1305,axiom,
% 2.14/2.39      ! [CBO1: $i,CBO2: $i,PUB1: $i,PUB2: $i,VOLUME2: $i,INT2: $i,VOLUME1: $i,DATE2: $i,INT1: $i,DATE1: $i,TEXT: $i] :
% 2.14/2.39        ( ( ( subclass_THFTYPE_IiioI @ TEXT @ lPeriodical_THFTYPE_i )
% 2.14/2.39          & ( ( lSeriesVolumeFn_THFTYPE_IiiiI @ TEXT @ INT1 )
% 2.14/2.39            = VOLUME1 )
% 2.14/2.39          & ( ( lSeriesVolumeFn_THFTYPE_IiiiI @ TEXT @ INT2 )
% 2.14/2.39            = VOLUME2 )
% 2.14/2.39          & ( gt_THFTYPE_IiioI @ INT2 @ INT1 )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ PUB1 @ lPublication_THFTYPE_i )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ PUB2 @ lPublication_THFTYPE_i )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ CBO1 @ VOLUME1 )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ CBO2 @ VOLUME2 )
% 2.14/2.39          & ( patient_THFTYPE_IiioI @ PUB1 @ CBO1 )
% 2.14/2.39          & ( patient_THFTYPE_IiioI @ PUB2 @ CBO2 )
% 2.14/2.39          & ( date_THFTYPE_IiioI @ PUB1 @ DATE1 )
% 2.14/2.39          & ( date_THFTYPE_IiioI @ PUB2 @ DATE2 ) )
% 2.14/2.39       => ( before_THFTYPE_IiioI @ ( lEndFn_THFTYPE_IiiI @ DATE1 ) @ ( lEndFn_THFTYPE_IiiI @ DATE2 ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1306,axiom,
% 2.14/2.39      ! [THING2: $i,THING1: $i] :
% 2.14/2.39        ( ( THING1 = THING2 )
% 2.14/2.39       => ! [CLASS: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ THING1 @ CLASS )
% 2.14/2.39          <=> ( instance_THFTYPE_IiioI @ THING2 @ CLASS ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Managing EnglishLanguage "&%OrganizationalProcesses that involve overseeing the activities of others. Note the key differences between &%RegulatoryProcess and its sibling &%Managing. The latter implies a long-term relationship between the manager and the managed, while the former implies a normative standard to which the activities of the regulated are referred.")
% 2.14/2.39  thf(ax1307,axiom,
% 2.14/2.39      trichotomizingOn_THFTYPE_IIiioIioI @ lessThan_THFTYPE_IiioI @ lRealNumber_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1308,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i @ lBinaryRelation_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1309,axiom,
% 2.14/2.39      ! [SUBPROC: $i,PROC: $i] :
% 2.14/2.39        ( ( subProcess_THFTYPE_IiioI @ SUBPROC @ PROC )
% 2.14/2.39       => ( temporalPart_THFTYPE_IiioI @ ( lWhenFn_THFTYPE_IiiI @ SUBPROC ) @ ( lWhenFn_THFTYPE_IiiI @ PROC ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Removing EnglishLanguage "The &%Class of &%Processes where something is taken away from a location. Note that the thing removed and the location are specified with the &%CaseRoles &%patient and &%origin, respectively.")
% 2.14/2.39  thf(ax1310,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lLending_THFTYPE_i @ lGiving_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1311,axiom,
% 2.14/2.39      ! [SUBSET: $i,SET: $i] :
% 2.14/2.39        ( ( subset_THFTYPE_IiioI @ SUBSET @ SET )
% 2.14/2.39       => ! [ELEMENT: $i] :
% 2.14/2.39            ( ( element_THFTYPE_IiioI @ ELEMENT @ SUBSET )
% 2.14/2.39           => ( element_THFTYPE_IiioI @ ELEMENT @ SET ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1312,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lSeptember_THFTYPE_i @ lMonth_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1313,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lMonday_THFTYPE_i @ lDay_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1314,axiom,
% 2.14/2.39      ! [OBJ: $i,DRY: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ DRY @ lDrying_THFTYPE_i )
% 2.14/2.39          & ( patient_THFTYPE_IiioI @ DRY @ OBJ ) )
% 2.14/2.39       => ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ DRY ) ) @ ( attribute_THFTYPE_IiioI @ OBJ @ lDry_THFTYPE_i ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1315,axiom,
% 2.14/2.39      ! [SUB: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ SUB @ lSubstituting_THFTYPE_i )
% 2.14/2.39       => ? [PUT: $i,REMOVE: $i,OBJ1: $i,OBJ2: $i,PLACE: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ PUT @ lPutting_THFTYPE_i )
% 2.14/2.39            & ( instance_THFTYPE_IiioI @ REMOVE @ lRemoving_THFTYPE_i )
% 2.14/2.39            & ( subProcess_THFTYPE_IiioI @ PUT @ SUB )
% 2.14/2.39            & ( subProcess_THFTYPE_IiioI @ REMOVE @ SUB )
% 2.14/2.39            & ( patient_THFTYPE_IiioI @ REMOVE @ OBJ1 )
% 2.14/2.39            & ( origin_THFTYPE_IiioI @ REMOVE @ PLACE )
% 2.14/2.39            & ( patient_THFTYPE_IiioI @ PUT @ OBJ2 )
% 2.14/2.39            & ( destination_THFTYPE_IiioI @ PUT @ PLACE )
% 2.14/2.39            & ( (~) @ ( OBJ1 = OBJ2 ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Running EnglishLanguage "&%Ambulating relatively quickly, i.e. moving in such a way that, with each step, neither foot is in contact with the ground for a period of time.")
% 2.14/2.39  thf(ax1316,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lPlant_THFTYPE_i @ lOrganism_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1317,axiom,
% 2.14/2.39      ! [STUFF: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ STUFF @ lTissue_THFTYPE_i )
% 2.14/2.39       => ? [PART: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ PART @ lCell_THFTYPE_i )
% 2.14/2.39            & ( part_THFTYPE_IiioI @ PART @ STUFF ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation identicalListItems EnglishLanguage "(&%identicalListItems ?LIST1 ?LIST2) means that ?LIST1 and ?LIST2 have exactly the same items in their respective lists. Although ?LIST1 and ?LIST2 are required to share exactly the same items, they may order these items differently.")
% 2.14/2.39  %KIF documentation:(documentation Gesture EnglishLanguage "Any &%BodyMotion, e.g. a hand wave, a nod of the head, a smile, which is also an instance of &%Communication.")
% 2.14/2.39  thf(ax1318,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lSummary_THFTYPE_i @ lText_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1319,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lStreamWaterArea_THFTYPE_i @ lWaterArea_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation initialList EnglishLanguage "(&%initialList ?LIST1 ?LIST2) means that ?LIST1 is a &%subList of ?LIST2 and (&%ListOrderFn ?LIST1 ?NUMBER) returns the same value as (&%ListOrderFn ?LIST2 ?NUMBER) for all of the values of ?NUMBER over which (&%ListOrderFn ?LIST1 ?NUMBER) is defined.")
% 2.14/2.39  thf(ax1320,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lContinent_THFTYPE_i @ lLandArea_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1321,axiom,
% 2.14/2.39      ! [BATTLE: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ BATTLE @ lBattle_THFTYPE_i )
% 2.14/2.39       => ? [ATTACK: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ ATTACK @ lViolentContest_THFTYPE_i )
% 2.14/2.39            & ( subProcess_THFTYPE_IiioI @ ATTACK @ BATTLE ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation valence EnglishLanguage "Specifies the number of arguments that a relation can take. If a relation does not have a fixed number of arguments, it does not have a valence and it is an instance of &%VariableArityRelation.")
% 2.14/2.39  thf(ax1322,axiom,
% 2.14/2.39      ! [SET: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ SET @ lFiniteSet_THFTYPE_i )
% 2.14/2.39       => ? [NUMBER: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ NUMBER @ lNonnegativeInteger_THFTYPE_i )
% 2.14/2.39            & ( NUMBER
% 2.14/2.39              = ( lCardinalityFn_THFTYPE_IiiI @ SET ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Singing EnglishLanguage "&%Speaking that is also &%Music.")
% 2.14/2.39  thf(ax1323,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lCloud_THFTYPE_i @ lGasMixture_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1324,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lShoreArea_THFTYPE_i @ lLandArea_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Marsupial EnglishLanguage "The &%Class of &%Mammals which have a pouch for their young.")
% 2.14/2.39  %KIF documentation:(documentation patient EnglishLanguage "(&%patient ?PROCESS ?ENTITY) means that ?ENTITY is a participant in ?PROCESS that may be moved, said, experienced, etc. For example, the direct objects in the sentences 'The cat swallowed the canary' and 'Billy likes the beer' would be examples of &%patients. Note that the &%patient of a &%Process may or may not undergo structural change as a result of the &%Process. The &%CaseRole of &%patient is used when one wants to specify as broadly as possible the object of a &%Process.")
% 2.14/2.39  thf(ax1325,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lLiquidMotion_THFTYPE_i @ lMotion_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1326,axiom,
% 2.14/2.39      disjointDecomposition_THFTYPE_IiiiioI @ lLanguage_THFTYPE_i @ lAnimalLanguage_THFTYPE_i @ lHumanLanguage_THFTYPE_i @ lComputerLanguage_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Looking EnglishLanguage "Any instance of &%Seeing which is intentional.")
% 2.14/2.39  %KIF documentation:(documentation cooccur EnglishLanguage "(&%cooccur ?THING1 ?THING2) means that the &%Object or &%Process ?THING1 occurs at the same time as, together with, or jointly with the &%Object or &%Process ?THING2. This covers the following temporal relations: is co-incident with, is concurrent with, is contemporaneous with, and is concomitant with.")
% 2.14/2.39  thf(ax1327,axiom,
% 2.14/2.39      ! [NUMBER2: $i,NUMBER1: $i] :
% 2.14/2.39        ( ( ( ( lAbsoluteValueFn_THFTYPE_IiiI @ NUMBER1 )
% 2.14/2.39            = NUMBER2 )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ NUMBER1 @ lRealNumber_THFTYPE_i )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ NUMBER2 @ lRealNumber_THFTYPE_i ) )
% 2.14/2.39      <=> ( ( ( instance_THFTYPE_IiioI @ NUMBER1 @ lNonnegativeRealNumber_THFTYPE_i )
% 2.14/2.39            & ( NUMBER1 = NUMBER2 ) )
% 2.14/2.39          | ( ( instance_THFTYPE_IiioI @ NUMBER1 @ lNegativeRealNumber_THFTYPE_i )
% 2.14/2.39            & ( NUMBER2
% 2.14/2.39              = ( minus_THFTYPE_IiiiI @ n0_THFTYPE_i @ NUMBER1 ) ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation South EnglishLanguage "The compass direction of &%South.")
% 2.14/2.39  thf(ax1328,axiom,
% 2.14/2.39      ! [PROCESS: $i,PROP: $o] :
% 2.14/2.39        ( ( realization_THFTYPE_IiooI @ PROCESS @ PROP )
% 2.14/2.39       => ? [OBJ: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ OBJ @ lContentBearingObject_THFTYPE_i )
% 2.14/2.39            & ( containsInformation_THFTYPE_IiooI @ OBJ @ PROP ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1329,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lIncreasing_THFTYPE_i @ lQuantityChange_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1330,axiom,
% 2.14/2.39      ! [NUCLEUS: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ NUCLEUS @ lAtomicNucleus_THFTYPE_i )
% 2.14/2.39       => ? [NEUTRON: $i,PROTON: $i] :
% 2.14/2.39            ( ( component_THFTYPE_IiioI @ NEUTRON @ NUCLEUS )
% 2.14/2.39            & ( component_THFTYPE_IiioI @ PROTON @ NUCLEUS )
% 2.14/2.39            & ( instance_THFTYPE_IiioI @ NEUTRON @ lNeutron_THFTYPE_i )
% 2.14/2.39            & ( instance_THFTYPE_IiioI @ PROTON @ lProton_THFTYPE_i ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation RecurrentTimeIntervalFn EnglishLanguage "A function that is useful for generating recurring time intervals. For example, (&%RecurrentTimeIntervalFn (&%HourFn 6 &%Day) (&%HourFn 12 &%Day)) returns the &%Class of &%TimeIntervals beginning at 6 in the morning and ending at 12 noon. For another example, (&%RecurrentTimeInterval &%Saturday &%Sunday) returns the &%Class of all weekends. For still another example, (&%RecurrentTimeInterval &%June &%August) returns the &%Class containing the academic summer period.")
% 2.14/2.39  %KIF documentation:(documentation JudicialProcess EnglishLanguage "Any legal proceeding which is conducted by a &%JudicialOrganization. Note that there is an important difference between the concepts &%LegalAction and &%JudicialProcess. The former refers to legal claims that are brought by a plaintiff, e.g. law suits, while the second refers to trials and other sorts of judicial hearings where the merits of a &%LegalAction are decided.")
% 2.14/2.39  thf(ax1331,axiom,
% 2.14/2.39      ! [SET: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ SET @ lNullSet_THFTYPE_i )
% 2.14/2.39       => ( (~)
% 2.14/2.39          @ ? [INST: $i] : ( instance_THFTYPE_IiioI @ INST @ SET ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation FutureFn EnglishLanguage "A &%UnaryFunction that maps a &%TimePosition to the &%TimeInterval which it meets and which ends at &%PositiveInfinity.")
% 2.14/2.39  %KIF documentation:(documentation exhaustiveDecomposition EnglishLanguage "An &%exhaustiveDecomposition of a &%Class C is a set of subclasses of C such that every instance of C is an instance of one of the subclasses in the set. Note: this does not necessarily mean that the elements of the set are disjoint (see &%partition - a &%partition is a disjoint exhaustive decomposition).")
% 2.14/2.39  thf(ax1332,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lListening_THFTYPE_i @ lHearing_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation monetaryValue EnglishLanguage "A &%BinaryPredicate that associates an &%Object or &%Process with its value expressed as an instance of &%CurrencyMeasure.")
% 2.14/2.39  %KIF documentation:(documentation exactlyLocated EnglishLanguage "The actual, minimal location of an Object. This is a subrelation of the more general &%Predicate &%located.")
% 2.14/2.39  thf(ax1333,axiom,
% 2.14/2.39      ! [PERSON: $i,LEAVE: $i,ORG: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ LEAVE @ lLeavingAnOrganization_THFTYPE_i )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ ORG @ lOrganization_THFTYPE_i )
% 2.14/2.39          & ( agent_THFTYPE_IiioI @ LEAVE @ PERSON )
% 2.14/2.39          & ( patient_THFTYPE_IiioI @ LEAVE @ ORG ) )
% 2.14/2.39       => ( ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ LEAVE ) ) @ ( member_THFTYPE_IiioI @ PERSON @ ORG ) )
% 2.14/2.39          & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ LEAVE ) ) @ ( (~) @ ( member_THFTYPE_IiioI @ PERSON @ ORG ) ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation partition EnglishLanguage "A &%partition of a class C is a set of mutually &%disjoint classes (a subclass partition) which covers C. Every instance of C is an instance of exactly one of the subclasses in the partition.")
% 2.14/2.39  thf(ax1334,axiom,
% 2.14/2.39      ! [POL: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ POL @ lPoliticalOrganization_THFTYPE_i )
% 2.14/2.39       => ? [PROC: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ PROC @ lPoliticalProcess_THFTYPE_i )
% 2.14/2.39            & ( agent_THFTYPE_IiioI @ PROC @ POL ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1335,axiom,
% 2.14/2.39      ! [CLASS: $i,FUNCTION: $i] :
% 2.14/2.39        ( ( ( closedOn_THFTYPE_IiioI @ FUNCTION @ CLASS )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ FUNCTION @ lUnaryFunction_THFTYPE_i ) )
% 2.14/2.39       => ! [INST: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ INST @ CLASS )
% 2.14/2.39           => ( instance_THFTYPE_IiioI @ ( lAssignmentFn_THFTYPE_IiiiI @ FUNCTION @ INST ) @ CLASS ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation January EnglishLanguage "The &%Class of all &%Months which are January.")
% 2.14/2.39  thf(ax1336,axiom,
% 2.14/2.39      ! [OBJECT: $i,AGENT2: $i,AGENT1: $i] :
% 2.14/2.39        ( ? [BUY: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ BUY @ lBuying_THFTYPE_i )
% 2.14/2.39            & ( agent_THFTYPE_IiioI @ BUY @ AGENT1 )
% 2.14/2.39            & ( origin_THFTYPE_IiioI @ BUY @ AGENT2 )
% 2.14/2.39            & ( patient_THFTYPE_IiioI @ BUY @ OBJECT ) )
% 2.14/2.39      <=> ? [SELL: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ SELL @ lSelling_THFTYPE_i )
% 2.14/2.39            & ( agent_THFTYPE_IiioI @ SELL @ AGENT2 )
% 2.14/2.39            & ( destination_THFTYPE_IiioI @ SELL @ AGENT1 )
% 2.14/2.39            & ( patient_THFTYPE_IiioI @ SELL @ OBJECT ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Declaring EnglishLanguage "The &%Class of &%LinguisticCommunications that effect an institutional alteration when performed by competent authority. Some examples are nominating, marrying, and excommunicating.")
% 2.14/2.39  thf(ax1337,axiom,
% 2.14/2.39      ! [OBJ: $i,MOTION: $i,PLACE: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ MOTION @ lMotion_THFTYPE_i )
% 2.14/2.39          & ( patient_THFTYPE_IiioI @ MOTION @ OBJ )
% 2.14/2.39          & ( origin_THFTYPE_IiioI @ MOTION @ PLACE ) )
% 2.14/2.39       => ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ MOTION ) ) @ ( located_THFTYPE_IiioI @ OBJ @ PLACE ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Horsepower EnglishLanguage "A power measure that is equal to 746 &%Watts.")
% 2.14/2.39  thf(ax1338,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lContestAttribute_THFTYPE_i @ lObjectiveNorm_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1339,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lWednesday_THFTYPE_i @ lDay_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1340,axiom,
% 2.14/2.39      ! [CURRENCY: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ CURRENCY @ lCurrency_THFTYPE_i )
% 2.14/2.39       => ? [MEASURE: $i] : ( monetaryValue_THFTYPE_IiioI @ CURRENCY @ MEASURE ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1341,axiom,
% 2.14/2.39      ! [CONTENT: $i,INTERPRET: $i,AGENT: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ INTERPRET @ lInterpreting_THFTYPE_i )
% 2.14/2.39          & ( agent_THFTYPE_IiioI @ INTERPRET @ AGENT )
% 2.14/2.39          & ( patient_THFTYPE_IiioI @ INTERPRET @ CONTENT )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ CONTENT @ lContentBearingObject_THFTYPE_i ) )
% 2.14/2.39       => ? [PROP: $o] : ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ INTERPRET ) ) @ ( believes_THFTYPE_IiooI @ AGENT @ ( containsInformation_THFTYPE_IiooI @ CONTENT @ PROP ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1342,axiom,
% 2.14/2.39      ! [ORG: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ ORG @ lMercantileOrganization_THFTYPE_i )
% 2.14/2.39       => ( hasPurpose_THFTYPE_IooI
% 2.14/2.39          @ ? [SELL: $i] :
% 2.14/2.39              ( ( instance_THFTYPE_IiioI @ SELL @ lSelling_THFTYPE_i )
% 2.14/2.39              & ( instance_THFTYPE_IiioI @ SELL @ lCommercialService_THFTYPE_i )
% 2.14/2.39              & ( agent_THFTYPE_IiioI @ SELL @ ORG ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1343,axiom,
% 2.14/2.39      ! [PURPOSE: $o,THING: $i] :
% 2.14/2.39        ( ( hasPurpose_THFTYPE_IiooI @ THING @ PURPOSE )
% 2.14/2.39       => ? [AGENT: $i] : ( hasPurposeForAgent_THFTYPE_IioioI @ THING @ PURPOSE @ AGENT ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation FrontFn EnglishLanguage "A &%Function that maps an &%Object to the side that generally receives the most attention or that typically faces the direction in which the &%Object moves. Note that this is a partial function, since some &%Objects do not have sides, e.g. apples and spheres. Note too that the &%range of this &%Function is indefinite in much the way that &%ImmediateFutureFn and &%ImmediatePastFn are indefinite. Although this indefiniteness is undesirable from a theoretical standpoint, it does not have significant practical implications, since there is widespread intersubjective agreement about the most common cases.")
% 2.14/2.39  thf(ax1344,axiom,
% 2.14/2.39      ! [PICOUNIT: $i,UNIT: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ UNIT @ lUnitOfMeasure_THFTYPE_i )
% 2.14/2.39          & ( PICOUNIT
% 2.14/2.39            = ( lPicoFn_THFTYPE_IiiI @ UNIT ) ) )
% 2.14/2.39       => ( ( lMeasureFn_THFTYPE_IiiiI @ n1_THFTYPE_i @ PICOUNIT )
% 2.14/2.39          = ( lMeasureFn_THFTYPE_IiiiI @ n0dot000000000001_THFTYPE_i @ UNIT ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1345,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lPermanentResidence_THFTYPE_i @ lResidence_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1346,axiom,
% 2.14/2.39      ! [CLASS: $i,ATTRIBUTE: $i] :
% 2.14/2.39        ( ( ( lExtensionFn_THFTYPE_IiiI @ ATTRIBUTE )
% 2.14/2.39          = CLASS )
% 2.14/2.39      <=> ( ( lAbstractionFn_THFTYPE_IiiI @ CLASS )
% 2.14/2.39          = ATTRIBUTE ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation AutonomicProcess EnglishLanguage "The class of &%PhysiologicProcesses of which there is not conscious awareness and control.")
% 2.14/2.39  thf(ax1347,axiom,
% 2.14/2.39      ! [QUANT: $i,UNIT: $i,N: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ QUANT @ ( lMeasureFn_THFTYPE_IiiiI @ N @ UNIT ) )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ UNIT @ lCompositeUnitOfMeasure_THFTYPE_i ) )
% 2.14/2.39       => ( instance_THFTYPE_IiioI @ QUANT @ lFunctionQuantity_THFTYPE_i ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1348,axiom,
% 2.14/2.39      successorAttribute_THFTYPE_IiioI @ lNonFullyFormed_THFTYPE_i @ lFullyFormed_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1349,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lMinute_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation DiseaseOrSyndrome EnglishLanguage "A &%BiologicalAttribute which qualifies something that alters or interferes with a normal process, state or activity of an &%Organism. It is usually characterized by the abnormal functioning of one or more of the host's systems, parts, or &%Organs.")
% 2.14/2.39  thf(ax1350,axiom,
% 2.14/2.39      ! [GIGAUNIT: $i,UNIT: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ UNIT @ lUnitOfMeasure_THFTYPE_i )
% 2.14/2.39          & ( GIGAUNIT
% 2.14/2.39            = ( lGigaFn_THFTYPE_IiiI @ UNIT ) ) )
% 2.14/2.39       => ( ( lMeasureFn_THFTYPE_IiiiI @ n1_THFTYPE_i @ GIGAUNIT )
% 2.14/2.39          = ( lMeasureFn_THFTYPE_IiiiI @ n1000000000_THFTYPE_i @ UNIT ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1351,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lTimePoint_THFTYPE_i @ lTimePosition_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1352,axiom,
% 2.14/2.39      ! [TEMP2: $i,TEMP1: $i,TIME: $i,BOIL: $i,TEMP3: $i,SUBSTANCE: $i,TYPE: $i,MEASURE: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ SUBSTANCE @ TYPE )
% 2.14/2.39          & ( boilingPoint_THFTYPE_IiioI @ TYPE @ ( lMeasureFn_THFTYPE_IiiiI @ TEMP1 @ MEASURE ) )
% 2.14/2.39          & ( meltingPoint_THFTYPE_IiioI @ TYPE @ ( lMeasureFn_THFTYPE_IiiiI @ TEMP2 @ MEASURE ) )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ MEASURE @ lUnitOfTemperature_THFTYPE_i )
% 2.14/2.39          & ( holdsDuring_THFTYPE_IiooI @ TIME @ ( measure_THFTYPE_IiioI @ SUBSTANCE @ ( lMeasureFn_THFTYPE_IiiiI @ TEMP3 @ MEASURE ) ) )
% 2.14/2.39          & ( gt_THFTYPE_IiioI @ TEMP3 @ TEMP2 )
% 2.14/2.39          & ( lt_THFTYPE_IiioI @ TEMP3 @ TEMP1 ) )
% 2.14/2.39       => ( ( holdsDuring_THFTYPE_IiooI @ TIME @ ( attribute_THFTYPE_IiioI @ SUBSTANCE @ lLiquid_THFTYPE_i ) )
% 2.14/2.39          | ? [MELT: $i] :
% 2.14/2.39              ( ( overlapsTemporally_THFTYPE_IiioI @ ( lWhenFn_THFTYPE_IiiI @ MELT ) @ TIME )
% 2.14/2.39              & ( instance_THFTYPE_IiioI @ MELT @ lMelting_THFTYPE_i )
% 2.14/2.39              & ( patient_THFTYPE_IiioI @ BOIL @ SUBSTANCE ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Blue EnglishLanguage "The &%Attribute of being blue in color.")
% 2.14/2.39  %KIF documentation:(documentation Island EnglishLanguage "A &%LandArea that is completely surrounded by a &%WaterArea.")
% 2.14/2.39  %KIF documentation:(documentation time EnglishLanguage "This relation holds between an instance of &%Physical and an instance of &%TimePosition just in case the temporal lifespan of the former includes the latter. In other words, (&%time ?THING ?TIME) means that ?THING existed or occurred at ?TIME. Note that &%time does for instances of &%Physical what &%holdsDuring does for instances of &%Formula. The constants &%located and &%time are the basic spatial and temporal predicates, respectively.")
% 2.14/2.39  thf(ax1353,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lHour_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1354,axiom,
% 2.14/2.39      partition_THFTYPE_IiiioI @ lChemicalProcess_THFTYPE_i @ lChemicalSynthesis_THFTYPE_i @ lChemicalDecomposition_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation subset EnglishLanguage "(subset ?SET1 ?SET2) is true just in case the &%elements of the &%Set ?SET1 are also &%elements of the &%Set ?SET2.")
% 2.14/2.39  %KIF documentation:(documentation ShoreArea EnglishLanguage "A &%ShoreArea is a &%LandArea approximately 1-3 km wide bordering a body of water, such as an ocean, bay, river, or lake. A &%ShoreArea may comprise a variety of &%LandForms, such as dunes, sloughs, and marshes.")
% 2.14/2.39  thf(ax1355,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lBiologicallyActiveSubstance_THFTYPE_i @ lSubstance_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Designing EnglishLanguage "The spatial analogue of &%Planning. &%Designing a &%Collection of &%Objects involves determining a placement of the &%Objects with respect to one another and perhaps other &%Objects as well, in order to satisfy a particular purpose.")
% 2.14/2.39  thf(ax1356,axiom,
% 2.14/2.39      disjoint_THFTYPE_IiioI @ lSubjectiveAssessmentAttribute_THFTYPE_i @ lObjectiveNorm_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1357,axiom,
% 2.14/2.39      ! [OBJ: $i,PART: $i,ATTR: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ OBJ @ lSubstance_THFTYPE_i )
% 2.14/2.39          & ( attribute_THFTYPE_IiioI @ OBJ @ ATTR )
% 2.14/2.39          & ( part_THFTYPE_IiioI @ PART @ OBJ ) )
% 2.14/2.39       => ( attribute_THFTYPE_IiioI @ PART @ ATTR ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1358,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lBreathing_THFTYPE_i @ lAutonomicProcess_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1359,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lClosedTwoDimensionalFigure_THFTYPE_i @ lTwoDimensionalFigure_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1360,axiom,
% 2.14/2.39      ! [SURFACE: $i,OBJ: $i,ATTRIBUTE: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ ATTRIBUTE @ lShapeAttribute_THFTYPE_i )
% 2.14/2.39          & ( attribute_THFTYPE_IiioI @ OBJ @ ATTRIBUTE )
% 2.14/2.39          & ( surface_THFTYPE_IiioI @ SURFACE @ OBJ ) )
% 2.14/2.39       => ( attribute_THFTYPE_IiioI @ SURFACE @ ATTRIBUTE ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1361,axiom,
% 2.14/2.39      disjoint_THFTYPE_IiioI @ lDecoding_THFTYPE_i @ lEncoding_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1362,axiom,
% 2.14/2.39      ! [OBJ: $i] :
% 2.14/2.39        ( ? [CHANGE: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ CHANGE @ lShapeChange_THFTYPE_i )
% 2.14/2.39            & ( patient_THFTYPE_IiioI @ CHANGE @ OBJ ) )
% 2.14/2.39       => ( attribute_THFTYPE_IiioI @ OBJ @ lPliable_THFTYPE_i ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1363,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lAttachingDevice_THFTYPE_i @ lDevice_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Reptile EnglishLanguage "A &%ColdBloodedVertebrate having an external covering of scales or horny plates. &%Reptiles breathe by means of &%Lungs and generally lay eggs.")
% 2.14/2.39  %KIF documentation:(documentation NegativeInteger EnglishLanguage "An &%Integer that is less than zero.")
% 2.14/2.39  thf(ax1364,axiom,
% 2.14/2.39      ! [INTERVAL: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ INTERVAL @ lTimeInterval_THFTYPE_i )
% 2.14/2.39       => ( before_THFTYPE_IiioI @ ( lBeginFn_THFTYPE_IiiI @ INTERVAL ) @ ( lEndFn_THFTYPE_IiiI @ INTERVAL ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Animal EnglishLanguage "An &%Organism with eukaryotic &%Cells, and lacking stiff cell walls, plastids, and photosynthetic pigments.")
% 2.14/2.39  thf(ax1365,axiom,
% 2.14/2.39      ! [NUMBER: $i] :
% 2.14/2.39        ( ( NUMBER
% 2.14/2.39          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.39       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lUnitedKingdomGallon_THFTYPE_i )
% 2.14/2.39          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n4dot54609_THFTYPE_i ) @ lLiter_THFTYPE_i ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1366,axiom,
% 2.14/2.39      ! [X: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ X @ lNonnegativeInteger_THFTYPE_i )
% 2.14/2.39       => ( gt_THFTYPE_IiioI @ X @ minus1_THFTYPE_i ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1367,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lTrichotomizingRelation_THFTYPE_i @ lBinaryRelation_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1368,axiom,
% 2.14/2.39      ! [TIME: $i,PROC: $i,ATTR1: $i] :
% 2.14/2.39        ( ( holdsDuring_THFTYPE_IiooI @ TIME @ ( direction_THFTYPE_IiioI @ PROC @ ATTR1 ) )
% 2.14/2.39       => ! [ATTR2: $i] :
% 2.14/2.39            ( ( holdsDuring_THFTYPE_IiooI @ TIME @ ( direction_THFTYPE_IiioI @ PROC @ ATTR2 ) )
% 2.14/2.39           => ( ATTR2 = ATTR1 ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation VerbPhrase EnglishLanguage "A &%Phrase that has the same function as a &%Verb.")
% 2.14/2.39  %KIF documentation:(documentation PrimeNumber EnglishLanguage "An &%Integer that is evenly divisible only by itself and 1.")
% 2.14/2.39  thf(ax1369,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lDecreasing_THFTYPE_i @ lQuantityChange_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1370,axiom,
% 2.14/2.39      disjointDecomposition_THFTYPE_IiiiioI @ lInvertebrate_THFTYPE_i @ lWorm_THFTYPE_i @ lMollusk_THFTYPE_i @ lArthropod_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1371,axiom,
% 2.14/2.39      disjoint_THFTYPE_IiioI @ lAstronomicalBody_THFTYPE_i @ lGeographicArea_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1372,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lAttack_THFTYPE_i @ lManeuver_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Plant EnglishLanguage "An &%Organism having cellulose cell walls, growing by synthesis of &%Substances, generally distinguished by the presence of chlorophyll, and lacking the power of locomotion.")
% 2.14/2.39  %KIF documentation:(documentation documentation EnglishLanguage "A relation between objects in the domain of discourse and strings of natural language text stated in a particular &%HumanLanguage. The domain of &%documentation is not constants (names), but the objects themselves. This means that one does not quote the names when associating them with their documentation.")
% 2.14/2.39  thf(ax1373,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lCommunication_THFTYPE_i @ lSocialInteraction_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1374,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lFinancialInstrument_THFTYPE_i @ lCertificate_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Liquid EnglishLanguage "An &%Object has the &%Attribute of &%Liquid if it has a fixed volume but not a fixed shape.")
% 2.14/2.39  thf(ax1375,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lMeasuring_THFTYPE_i @ lCalculating_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation SpatialRelation EnglishLanguage "The &%Class of &%Relations that are spatial in a wide sense. This &%Class includes mereological relations and topological relations.")
% 2.14/2.39  thf(ax1376,axiom,
% 2.14/2.39      ! [P: $i,T2: $i,T1: $i,D1: $i,D2: $i,O1: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ T1 @ lTranslocation_THFTYPE_i )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ T2 @ lTranslocation_THFTYPE_i )
% 2.14/2.39          & ( origin_THFTYPE_IiioI @ T1 @ O1 )
% 2.14/2.39          & ( origin_THFTYPE_IiioI @ T2 @ D1 )
% 2.14/2.39          & ( destination_THFTYPE_IiioI @ T1 @ D1 )
% 2.14/2.39          & ( destination_THFTYPE_IiioI @ T2 @ D2 )
% 2.14/2.39          & ( experiencer_THFTYPE_IiioI @ T1 @ P )
% 2.14/2.39          & ( experiencer_THFTYPE_IiioI @ T2 @ P ) )
% 2.14/2.39       => ? [T: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ T @ lTranslocation_THFTYPE_i )
% 2.14/2.39            & ( origin_THFTYPE_IiioI @ T @ O1 )
% 2.14/2.39            & ( destination_THFTYPE_IiioI @ T @ D2 )
% 2.14/2.39            & ( subProcess_THFTYPE_IiioI @ T1 @ T )
% 2.14/2.39            & ( subProcess_THFTYPE_IiioI @ T2 @ T )
% 2.14/2.39            & ( experiencer_THFTYPE_IiioI @ T @ P )
% 2.14/2.39            & ( starts_THFTYPE_IiioI @ ( lWhenFn_THFTYPE_IiiI @ T1 ) @ ( lWhenFn_THFTYPE_IiiI @ T ) )
% 2.14/2.39            & ( finishes_THFTYPE_IiioI @ ( lWhenFn_THFTYPE_IiiI @ T2 ) @ ( lWhenFn_THFTYPE_IiiI @ T ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1377,axiom,
% 2.14/2.39      contraryAttribute_THFTYPE_IiioI @ lMale_THFTYPE_i @ lFemale_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1378,axiom,
% 2.14/2.39      ! [A1: $i,T1: $i,A2: $i] :
% 2.14/2.39        ( ( ( holdsDuring_THFTYPE_IiooI @ T1 @ ( legalRelation_THFTYPE_IiioI @ A1 @ A2 ) )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ A1 @ lOrganism_THFTYPE_i )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ A2 @ lOrganism_THFTYPE_i ) )
% 2.14/2.39       => ( holdsDuring_THFTYPE_IiooI @ T1 @ ( relative_THFTYPE_IiioI @ A1 @ A2 ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1379,axiom,
% 2.14/2.39      ! [SUBSTANCE: $i,MIXTURE: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ MIXTURE @ lMixture_THFTYPE_i )
% 2.14/2.39          & ( part_THFTYPE_IiioI @ SUBSTANCE @ MIXTURE )
% 2.14/2.39          & ( (~) @ ( instance_THFTYPE_IiioI @ SUBSTANCE @ lMixture_THFTYPE_i ) ) )
% 2.14/2.39       => ( instance_THFTYPE_IiioI @ SUBSTANCE @ lPureSubstance_THFTYPE_i ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1380,axiom,
% 2.14/2.39      ! [ARTIFACT: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ ARTIFACT @ lStationaryArtifact_THFTYPE_i )
% 2.14/2.39       => ? [PLACE: $i] :
% 2.14/2.39            ( ( holdsDuring_THFTYPE_IiooI @ ( lWhenFn_THFTYPE_IiiI @ ARTIFACT ) @ ( located_THFTYPE_IiioI @ ARTIFACT @ PLACE ) )
% 2.14/2.39            & ( (~)
% 2.14/2.39              @ ? [P2: $i] :
% 2.14/2.39                  ( ( holdsDuring_THFTYPE_IiooI @ ( lWhenFn_THFTYPE_IiiI @ ARTIFACT ) @ ( located_THFTYPE_IiioI @ ARTIFACT @ P2 ) )
% 2.14/2.39                  & ( (~) @ ( PLACE = P2 ) ) ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Promise EnglishLanguage "&%Attribute that applies to &%Propositions that an &%Agent promises to make true. &%Promises may be implicit or explicit. They may be expressed in a written or verbal or gestural manner.")
% 2.14/2.39  thf(ax1381,axiom,
% 2.14/2.39      ! [C: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ C @ lCircle_THFTYPE_i )
% 2.14/2.39       => ? [P: $i] :
% 2.14/2.39            ( ( lCenterOfCircleFn_THFTYPE_IiiI @ C )
% 2.14/2.39            = P ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1382,axiom,
% 2.14/2.39      ! [NUMBER: $i,ROW: $i] :
% 2.14/2.39        ( ( ( lLeastCommonMultipleFn_THFTYPE_IiiI @ ROW )
% 2.14/2.39          = NUMBER )
% 2.14/2.39       => ! [ELEMENT: $i] :
% 2.14/2.39            ( ( inList_THFTYPE_IiioI @ ELEMENT @ ( lListFn_THFTYPE_IiiI @ ROW ) )
% 2.14/2.39           => ( ( lRemainderFn_THFTYPE_IiiiI @ NUMBER @ ELEMENT )
% 2.14/2.39              = n0_THFTYPE_i ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation EmotionalState EnglishLanguage "The &%Class of &%Attributes that denote emotional states of &%Organisms.")
% 2.14/2.39  %KIF documentation:(documentation UnionFn EnglishLanguage "A &%BinaryFunction that maps two &%SetOrClasses to the union of these &%SetOrClasses. An object is an &%element of the union of two &%SetOrClasses just in case it is an &%instance of either &%SetOrClass.")
% 2.14/2.39  thf(ax1383,axiom,
% 2.14/2.39      identityElement_THFTYPE_IIiiiIioI @ lSubtractionFn_THFTYPE_IiiiI @ n0_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1384,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lTerminatingEmployment_THFTYPE_i @ lLeavingAnOrganization_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1385,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lInjuring_THFTYPE_i @ lDamaging_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation equal EnglishLanguage "(equal ?ENTITY1 ?ENTITY2) is true just in case ?ENTITY1 is identical with ?ENTITY2.")
% 2.14/2.39  thf(ax1386,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lGeologicalProcess_THFTYPE_i @ lMotion_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation MaxFn EnglishLanguage "(&%MaxFn ?NUMBER1 ?NUMBER2) is the largest of ?NUMBER1 and ?NUMBER2. In cases where ?NUMBER1 is equal to ?NUMBER2, &%MaxFn returns one of its arguments.")
% 2.14/2.39  thf(ax1387,axiom,
% 2.14/2.39      ! [NUMBER2: $i,FORMULA1: $o,NUMBER1: $i,FORMULA2: $o] :
% 2.14/2.39        ( ( ( decreasesLikelihood_THFTYPE_IoooI @ FORMULA1 @ FORMULA2 )
% 2.14/2.39          & ( ( lProbabilityFn_THFTYPE_IoiI @ FORMULA2 )
% 2.14/2.39            = NUMBER1 )
% 2.14/2.39          & ( conditionalProbability_THFTYPE_IooioI @ FORMULA1 @ FORMULA2 @ NUMBER2 ) )
% 2.14/2.39       => ( lt_THFTYPE_IiioI @ NUMBER2 @ NUMBER1 ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Vehicle EnglishLanguage "&%Vehicle is the subclass of &%TransportationDevices that transport passengers or goods from one place to another by moving from one place to the other with them, e.g., cars, trucks, ferries, and airplanes. Contrast with devices such as pipelines, escalators, or supermarket checkout belts, which carry items from one place to another by means of a moving part, without the device removing from the origin to the destination.")
% 2.14/2.39  thf(ax1388,axiom,
% 2.14/2.39      ! [POISON: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ POISON @ lPoisoning_THFTYPE_i )
% 2.14/2.39       => ? [THING: $i] :
% 2.14/2.39            ( ( patient_THFTYPE_IiioI @ POISON @ THING )
% 2.14/2.39            & ( ( instance_THFTYPE_IiioI @ THING @ lOrganism_THFTYPE_i )
% 2.14/2.39              | ( instance_THFTYPE_IiioI @ THING @ lAnatomicalStructure_THFTYPE_i ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1389,axiom,
% 2.14/2.39      disjoint_THFTYPE_IiioI @ lOrganOrTissueProcess_THFTYPE_i @ lOrganismProcess_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1390,axiom,
% 2.14/2.39      ! [LIST2: $i,LIST1: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ LIST1 @ lList_THFTYPE_i )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ LIST2 @ lList_THFTYPE_i )
% 2.14/2.39          & ! [NUMBER: $i] :
% 2.14/2.39              ( ( lListOrderFn_THFTYPE_IiiiI @ LIST1 @ NUMBER )
% 2.14/2.39              = ( lListOrderFn_THFTYPE_IiiiI @ LIST2 @ NUMBER ) ) )
% 2.14/2.39       => ( LIST1 = LIST2 ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1391,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lBetting_THFTYPE_i @ lFinancialTransaction_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1392,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lStating_THFTYPE_i @ lLinguisticCommunication_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1393,axiom,
% 2.14/2.39      disjoint_THFTYPE_IiioI @ lGasMixture_THFTYPE_i @ lLiquidMixture_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1394,axiom,
% 2.14/2.39      range_THFTYPE_IiioI @ lMereologicalProductFn_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation meetsSpatially EnglishLanguage "(&%meetsSpatially ?OBJ1 ?OBJ2) means that ?OBJ1 and ?OBJ2 are &%connected but that neither ?OBJ1 nor ?OBJ2 &%overlapsSpatially the other.")
% 2.14/2.39  thf(ax1395,axiom,
% 2.14/2.39      ! [SERIES: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ SERIES @ lSeries_THFTYPE_i )
% 2.14/2.39       => ? [BOOK1: $i,BOOK2: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ BOOK1 @ lBook_THFTYPE_i )
% 2.14/2.39            & ( instance_THFTYPE_IiioI @ BOOK2 @ lBook_THFTYPE_i )
% 2.14/2.39            & ( subsumesContentInstance_THFTYPE_IiioI @ SERIES @ BOOK1 )
% 2.14/2.39            & ( subsumesContentInstance_THFTYPE_IiioI @ SERIES @ BOOK2 )
% 2.14/2.39            & ( (~) @ ( BOOK1 = BOOK2 ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Phrase EnglishLanguage "A set of &%Words in a &%Language which form a unit, i.e. express a meaning in the &%Language.")
% 2.14/2.39  thf(ax1396,axiom,
% 2.14/2.39      ! [PHRASE: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ PHRASE @ lPhrase_THFTYPE_i )
% 2.14/2.39       => ? [PART1: $i,PART2: $i] :
% 2.14/2.39            ( ( part_THFTYPE_IiioI @ PART1 @ PHRASE )
% 2.14/2.39            & ( part_THFTYPE_IiioI @ PART2 @ PHRASE )
% 2.14/2.39            & ( instance_THFTYPE_IiioI @ PART1 @ lWord_THFTYPE_i )
% 2.14/2.39            & ( instance_THFTYPE_IiioI @ PART2 @ lWord_THFTYPE_i )
% 2.14/2.39            & ( (~) @ ( PART1 = PART2 ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1397,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lComputerLanguage_THFTYPE_i @ lArtificialLanguage_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1398,axiom,
% 2.14/2.39      disjoint_THFTYPE_IiioI @ lStreamWaterArea_THFTYPE_i @ lStaticWaterArea_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1399,axiom,
% 2.14/2.39      disjoint_THFTYPE_IiioI @ lArticle_THFTYPE_i @ lBook_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1400,axiom,
% 2.14/2.39      ! [AGENT: $i,SWIM: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ SWIM @ lSwimming_THFTYPE_i )
% 2.14/2.39          & ( agent_THFTYPE_IiioI @ SWIM @ AGENT ) )
% 2.14/2.39       => ? [AREA: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ AREA @ lWaterArea_THFTYPE_i )
% 2.14/2.39            & ( located_THFTYPE_IiioI @ AGENT @ AREA ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1401,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lSymbolicString_THFTYPE_i @ lContentBearingObject_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation DeonticAttribute EnglishLanguage "A &%Class containing all of the &%Attributes relating to the notions of permission, obligation, and prohibition.")
% 2.14/2.39  %KIF documentation:(documentation MusicalInstrument EnglishLanguage "A &%Device which is manipulated by a &%Human and whose purpose is to produce &%Music.")
% 2.14/2.39  thf(ax1402,axiom,
% 2.14/2.39      range_THFTYPE_IiioI @ lImaginaryPartFn_THFTYPE_i @ lImaginaryNumber_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation MotionDownward EnglishLanguage "&%Motion where an &%Object is moving toward the ground.")
% 2.14/2.39  %KIF documentation:(documentation Hunting EnglishLanguage "Hunting is the class of &%Processes in which an animal or animals are pursued and sometimes captured and/ or killed.")
% 2.14/2.39  thf(ax1403,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lReligiousOrganization_THFTYPE_i @ lOrganization_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Predicate EnglishLanguage "A &%Predicate is a sentence-forming &%Relation. Each tuple in the &%Relation is a finite, ordered sequence of objects. The fact that a particular tuple is an element of a &%Predicate is denoted by '(*predicate* arg_1 arg_2 .. arg_n)', where the arg_i are the objects so related. In the case of &%BinaryPredicates, the fact can be read as `arg_1 is *predicate* arg_2' or `a *predicate* of arg_1 is arg_2'.")
% 2.14/2.39  thf(ax1404,axiom,
% 2.14/2.39      ! [PART: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ PART @ lBodyPart_THFTYPE_i )
% 2.14/2.39       => ? [PROC: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ PROC @ lPhysiologicProcess_THFTYPE_i )
% 2.14/2.39            & ( result_THFTYPE_IiioI @ PROC @ PART ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1405,axiom,
% 2.14/2.39      ! [ROW: $i,ELEMENT: $i] :
% 2.14/2.39        ( ( exhaustiveDecomposition_THFTYPE_IioI @ ROW )
% 2.14/2.39       => ( ( inList_THFTYPE_IiioI @ ELEMENT @ ( lListFn_THFTYPE_IiiI @ ROW ) )
% 2.14/2.39         => ( instance_THFTYPE_IiioI @ ELEMENT @ lClass_THFTYPE_i ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation AquaticMammal EnglishLanguage "The &%Class of &%Mammals that dwell chiefly in the water. Includes whales, dolphins, manatees, seals, and walruses.")
% 2.14/2.39  %KIF documentation:(documentation Circle EnglishLanguage "The class of &%Ovals such that all &%GeometricPoints that make up the &%Circle are equidistant from a single &%GeometricPoint, known as the center of the &%Circle.")
% 2.14/2.39  %KIF documentation:(documentation Friday EnglishLanguage "The &%Class of all calendar Fridays.")
% 2.14/2.39  thf(ax1406,axiom,
% 2.14/2.39      ! [SUB: $i,PART: $i,SYSTEM: $i] :
% 2.14/2.39        ( ( ( subSystem_THFTYPE_IiioI @ SUB @ SYSTEM )
% 2.14/2.39          & ( systemPart_THFTYPE_IiioI @ PART @ SUB ) )
% 2.14/2.39       => ( systemPart_THFTYPE_IiioI @ PART @ SYSTEM ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1407,axiom,
% 2.14/2.39      partition_THFTYPE_IiiioI @ lHumanLanguage_THFTYPE_i @ lNaturalLanguage_THFTYPE_i @ lConstructedLanguage_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation UnilateralGiving EnglishLanguage "Any instance of &%Giving that is not part of a &%Transaction. In other words, any instance of &%Giving where nothing is received in return. Some examples of &%UnilateralGiving are: honorary awards, gifts, and financial grants.")
% 2.14/2.39  %KIF documentation:(documentation CurrencyMeasure EnglishLanguage "Instances of this &%subclass of &%ConstantQuantity are measures of &%monetaryValue stated in terms of some &%UnitOfCurrency such as &%UnitedStatesDollar, &%UnitedStatesCent, Lire, Yen, etc.")
% 2.14/2.39  thf(ax1408,axiom,
% 2.14/2.39      ! [MONTH1: $i,MONTH2: $i,YEAR: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ MONTH1 @ ( lMonthFn_THFTYPE_IiiiI @ lJanuary_THFTYPE_i @ YEAR ) )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ MONTH2 @ ( lMonthFn_THFTYPE_IiiiI @ lFebruary_THFTYPE_i @ YEAR ) ) )
% 2.14/2.39       => ( meetsTemporally_THFTYPE_IiioI @ MONTH1 @ MONTH2 ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1409,axiom,
% 2.14/2.39      partition_THFTYPE_IiiioI @ lAnatomicalStructure_THFTYPE_i @ lBodyPart_THFTYPE_i @ lAbnormalAnatomicalStructure_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1410,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lRepairing_THFTYPE_i @ lIntentionalProcess_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1411,axiom,
% 2.14/2.39      contraryAttribute_THFTYPE_IiioI @ lDead_THFTYPE_i @ lLiving_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation PlantAnatomicalStructure EnglishLanguage "&%AnatomicalStructures that are possessed exclusively by &%Plants.")
% 2.14/2.39  thf(ax1412,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lCarnivore_THFTYPE_i @ lMammal_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation ColdBloodedVertebrate EnglishLanguage "&%Vertebrates whose body temperature is not internally regulated.")
% 2.14/2.39  thf(ax1413,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lInternalChange_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1414,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lBirth_THFTYPE_i @ lOrganismProcess_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1415,axiom,
% 2.14/2.39      ! [POINT: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ POINT @ lTimePoint_THFTYPE_i )
% 2.14/2.39          & ( (~) @ ( POINT = lNegativeInfinity_THFTYPE_i ) ) )
% 2.14/2.39       => ? [OTHERPOINT: $i] : ( temporallyBetween_THFTYPE_IiiioI @ lNegativeInfinity_THFTYPE_i @ OTHERPOINT @ POINT ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation contains EnglishLanguage "The relation of spatial containment for two separable objects. When the two objects are not separable (e.g. an automobile and one of its seats), the relation of &%part should be used. (&%contains ?OBJ1 ?OBJ2) means that the &%SelfConnectedObject ?OBJ1 has a space (i.e. a &%Hole) which is at least partially filled by ?OBJ2.")
% 2.14/2.39  thf(ax1416,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lSupposing_THFTYPE_i @ lLinguisticCommunication_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation UnitFn EnglishLanguage "&%UnitFn returns just the &%UnitOfMeasure of a &%PhysicalQuantity with an associated &%UnitOfMeasure and &%RealNumber magnitude. For example, the unit of the &%ConstantQuantity (&%MeasureFn 2 &%Kilometer) is the &%UnitOfMeasure &%Kilometer.")
% 2.14/2.39  %KIF documentation:(documentation TemporaryResidence EnglishLanguage "A &%Residence which is strictly temporary, i.e. where no one makes his/ her &%home.")
% 2.14/2.39  %KIF documentation:(documentation Possibility EnglishLanguage "Attribute that applies to &%Propositions that are possible, i.e. true in at least one possible world.")
% 2.14/2.39  thf(ax1417,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lListening_THFTYPE_i @ lIntentionalProcess_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1418,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lWind_THFTYPE_i @ lGasMotion_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Attaching EnglishLanguage "A &%Process where one &%Object becomes attached to another &%Object. Note that this differs from &%Putting in that two things which are attached may already be in the same location. Note that &%Combining is different from &%Attaching in that the former applies to &%Substances, while the latter applies to &%CorpuscularObjects. Note too that &%Attaching is different from &%Putting in that one or both of the two things which are attached may or may not be moved from the location where they were combined.")
% 2.14/2.39  %KIF documentation:(documentation SecondDuration EnglishLanguage "SI &%UnitOfDuration. Symbol: s. It is one of the base units in SI, and it is currently defined as follows: the &%SecondDuration is the duration of 9192631770 periods of the radiation corresponding to the transition between the two hyperfine levels of the ground state of the cesium 133 atom.")
% 2.14/2.39  thf(ax1419,axiom,
% 2.14/2.39      exhaustiveAttribute_THFTYPE_IiiioI @ lDevelopmentalAttribute_THFTYPE_i @ lFullyFormed_THFTYPE_i @ lNonFullyFormed_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1420,axiom,
% 2.14/2.39      ! [STATE: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ STATE @ lCounty_THFTYPE_i )
% 2.14/2.39       => ? [LAND: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ LAND @ lStateOrProvince_THFTYPE_i )
% 2.14/2.39            & ( properPart_THFTYPE_IiioI @ STATE @ LAND ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1421,axiom,
% 2.14/2.39      ! [OBJ: $i,MEAS: $i,AGENT: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ MEAS @ lMeasuring_THFTYPE_i )
% 2.14/2.39          & ( agent_THFTYPE_IiioI @ MEAS @ AGENT )
% 2.14/2.39          & ( patient_THFTYPE_IiioI @ MEAS @ OBJ ) )
% 2.14/2.39       => ? [QUANT: $i,UNIT: $i] : ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ MEAS ) ) @ ( knows_THFTYPE_IiooI @ AGENT @ ( measure_THFTYPE_IiioI @ OBJ @ ( lMeasureFn_THFTYPE_IiiiI @ QUANT @ UNIT ) ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1422,axiom,
% 2.14/2.39      ! [REL2: $i > $o,ROW: $i,REL1: $i > $o] :
% 2.14/2.39        ( ( ( subrelation_THFTYPE_IIioIIioIoI @ REL1 @ REL2 )
% 2.14/2.39          & ( REL1 @ ROW ) )
% 2.14/2.39       => ( REL2 @ ROW ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1423,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lDriving_THFTYPE_i @ lGuiding_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1424,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lMercantileOrganization_THFTYPE_i @ lCorporation_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1425,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lLegalDecision_THFTYPE_i @ lDeclaring_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation LegalDecision EnglishLanguage "A decision issued by a court with respect to a &%LegalAction. Note that a &%LegalDecision is the act of &%Declaring a decision of a court, it is not the act of judge or jury &%Deciding the merits of a particular &%LegalAction.")
% 2.14/2.39  thf(ax1426,axiom,
% 2.14/2.39      ( ( lCardinalityFn_THFTYPE_IiiI @ lContinent_THFTYPE_i )
% 2.14/2.39      = n7_THFTYPE_i ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1427,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lNonCompositeUnitOfMeasure_THFTYPE_i @ lUnitOfMeasure_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1428,axiom,
% 2.14/2.39      partition_THFTYPE_IiiioI @ lGeographicArea_THFTYPE_i @ lWaterArea_THFTYPE_i @ lLandArea_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1429,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lTernaryRelation_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation ChangeOfPossession EnglishLanguage "The &%Class of &%Processes where ownership of something is transferred from one &%Agent to another.")
% 2.14/2.39  thf(ax1430,axiom,
% 2.14/2.39      ! [OBJ: $i,FREEZE: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ FREEZE @ lFreezing_THFTYPE_i )
% 2.14/2.39          & ( patient_THFTYPE_IiioI @ FREEZE @ OBJ ) )
% 2.14/2.39       => ? [PART: $i] :
% 2.14/2.39            ( ( part_THFTYPE_IiioI @ PART @ OBJ )
% 2.14/2.39            & ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ FREEZE ) ) @ ( attribute_THFTYPE_IiioI @ PART @ lLiquid_THFTYPE_i ) )
% 2.14/2.39            & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ FREEZE ) ) @ ( attribute_THFTYPE_IiioI @ PART @ lSolid_THFTYPE_i ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation UnitOfMeasure EnglishLanguage "A standard of measurement for some dimension. For example, the &%Meter is a &%UnitOfMeasure for the dimension of length, as is the &%Inch. There is no intrinsic property of a &%UnitOfMeasure that makes it primitive or fundamental, rather, a system of units (e.g. &%SystemeInternationalUnit) defines a set of orthogonal dimensions and assigns units for each.")
% 2.14/2.39  %KIF documentation:(documentation subProcess EnglishLanguage "(&%subProcess ?SUBPROC ?PROC) means that ?SUBPROC is a subprocess of ?PROC. A subprocess is here understood as a temporally distinguished part (proper or not) of a &%Process.")
% 2.14/2.39  %KIF documentation:(documentation Discovering EnglishLanguage "Finding something that was sought. Note that this class is restricted to cases of discovering something &%Physical. For cases involving the acquisition of knowledge, the class &%Learning should be used.")
% 2.14/2.39  thf(ax1431,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lSwimming_THFTYPE_i @ lBodyMotion_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1432,axiom,
% 2.14/2.39      ! [MID: $i,END2: $i,END1: $i] :
% 2.14/2.39        ( ( between_THFTYPE_IiiioI @ END1 @ MID @ END2 )
% 2.14/2.39       => ( between_THFTYPE_IiiioI @ END2 @ MID @ END1 ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation increasesLikelihood EnglishLanguage "One of the basic &%ProbabilityRelations. (&%increasesLikelihood ?FORMULA1 ?FORMULA2) means that ?FORMULA2 is more likely to be true if ?FORMULA1 is true.")
% 2.14/2.39  thf(ax1433,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lDiagnosticProcess_THFTYPE_i @ lInvestigating_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation FactualText EnglishLanguage "The class of &%Texts that purport to reveal facts about the world. Such texts are often known as information or as non-fiction. Note that something can be an instance of &%FactualText, even if it is wholly inaccurate. Whether something is a &%FactualText is determined by the beliefs of the agent creating the text.")
% 2.14/2.39  thf(ax1434,axiom,
% 2.14/2.39      contraryAttribute_THFTYPE_IiioI @ lLikely_THFTYPE_i @ lUnlikely_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation subAttribute EnglishLanguage "Means that the second argument can be ascribed to everything which has the first argument ascribed to it.")
% 2.14/2.39  %KIF documentation:(documentation brother EnglishLanguage "The general relationship of being a brother. (&%brother ?MAN ?PERSON) means that ?MAN is the brother of ?PERSON.")
% 2.14/2.39  %KIF documentation:(documentation relatedInternalConcept EnglishLanguage "Means that the two arguments are related concepts within the SUMO, i.e. there is a significant similarity of meaning between them. To indicate a meaning relation between a SUMO concept and a concept from another source, use the Predicate &%relatedExternalConcept.")
% 2.14/2.39  %KIF documentation:(documentation TwoDimensionalFigure EnglishLanguage "The class of &%GeometricFigures that have position and an extension along two dimensions, viz. plane figures like circles and polygons.")
% 2.14/2.39  %KIF documentation:(documentation TernaryFunction EnglishLanguage "The &%Class of &%Functions that require exactly three arguments.")
% 2.14/2.39  %KIF documentation:(documentation earlier EnglishLanguage "(&%earlier ?INTERVAL1 ?INTERVAL2) means that the &%TimeInterval ?INTERVAL1 ends before the &%TimeInterval ?INTERVAL2 begins.")
% 2.14/2.39  thf(ax1435,axiom,
% 2.14/2.39      ! [PURSUE: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ PURSUE @ lPursuing_THFTYPE_i )
% 2.14/2.39       => ? [OBJ: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ OBJ @ lObject_THFTYPE_i )
% 2.14/2.39            & ( patient_THFTYPE_IiioI @ PURSUE @ OBJ ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Tissue EnglishLanguage "An aggregation of similarly specialized &%Cells and the associated intercellular substance. &%Tissues are relatively non-localized in comparison to &%BodyParts, &%Organs or &%Organ components. The main features of &%Tissues are self-connectivity (see &%SelfConnectedObject) and being a homogeneous mass (all parts in the same granularity are instances of &%Tissue as well).")
% 2.14/2.39  thf(ax1436,axiom,
% 2.14/2.39      disjointDecomposition_THFTYPE_IiiiioI @ lTissue_THFTYPE_i @ lBone_THFTYPE_i @ lMuscle_THFTYPE_i @ lFatTissue_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1437,axiom,
% 2.14/2.39      disjoint_THFTYPE_IiioI @ lMotionUpward_THFTYPE_i @ lMotionDownward_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation ContinuousFunction EnglishLanguage "&%Functions which are continuous. This concept is taken as primitive until representations for limits are devised.")
% 2.14/2.39  %KIF documentation:(documentation PairwiseDisjointClass EnglishLanguage "A &%SetOrClass is a &%PairwiseDisjointClass just in case every instance of the &%SetOrClass is either &%equal to or &%disjoint from every other instance of the &%SetOrClass.")
% 2.14/2.39  thf(ax1438,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lNonNullSet_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1439,axiom,
% 2.14/2.39      ! [CLASS1: $i,CLASS2: $i] :
% 2.14/2.39        ( ( immediateSubclass_THFTYPE_IiioI @ CLASS1 @ CLASS2 )
% 2.14/2.39       => ( (~)
% 2.14/2.39          @ ? [CLASS3: $i] :
% 2.14/2.39              ( ( subclass_THFTYPE_IiioI @ CLASS3 @ CLASS2 )
% 2.14/2.39              & ( subclass_THFTYPE_IiioI @ CLASS1 @ CLASS3 )
% 2.14/2.39              & ( (~) @ ( CLASS2 = CLASS3 ) )
% 2.14/2.39              & ( (~) @ ( CLASS1 = CLASS3 ) ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1440,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lTimePosition_THFTYPE_i @ lTimeMeasure_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1441,axiom,
% 2.14/2.39      ! [OBJ1: $i,OBJ2: $i,TOUCH: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ TOUCH @ lTouching_THFTYPE_i )
% 2.14/2.39          & ( agent_THFTYPE_IiioI @ TOUCH @ OBJ1 )
% 2.14/2.39          & ( patient_THFTYPE_IiioI @ TOUCH @ OBJ2 ) )
% 2.14/2.39       => ( ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ TOUCH ) ) @ ( (~) @ ( connected_THFTYPE_IiioI @ OBJ1 @ OBJ2 ) ) )
% 2.14/2.39          & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ TOUCH ) ) @ ( connected_THFTYPE_IiioI @ OBJ1 @ OBJ2 ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1442,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lProposition_THFTYPE_i @ lAbstract_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1443,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lGasMixture_THFTYPE_i @ lMixture_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation BeginFn EnglishLanguage "A &%UnaryFunction that maps a &%TimeInterval to the &%TimePoint at which the interval begins.")
% 2.14/2.39  thf(ax1444,axiom,
% 2.14/2.39      ! [INT2: $i,INT1: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ INT1 @ lInteger_THFTYPE_i )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ INT2 @ lInteger_THFTYPE_i ) )
% 2.14/2.39       => ( (~)
% 2.14/2.39          @ ( ( lt_THFTYPE_IiioI @ INT2 @ INT1 )
% 2.14/2.39            & ( lt_THFTYPE_IiioI @ ( lPredecessorFn_THFTYPE_IiiI @ INT1 ) @ INT2 ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation EnglishLanguage EnglishLanguage "A Germanic language that incorporates many roots from the Romance languages. It is the official language of the &%UnitedStates, the &%UnitedKingdom, and many other countries.")
% 2.14/2.39  thf(ax1445,axiom,
% 2.14/2.39      ! [NUMBER: $i,QUANT: $i,UNIT: $i] :
% 2.14/2.39        ( ( ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ UNIT )
% 2.14/2.39            = QUANT )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ UNIT @ lUnitOfMass_THFTYPE_i ) )
% 2.14/2.39       => ( instance_THFTYPE_IiioI @ QUANT @ lMassMeasure_THFTYPE_i ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation UnitOfVolume EnglishLanguage "Every instance of this &%Class is a &%UnitOfMeasure that can be used with &%MeasureFn to form instances of &%VolumeMeasure.")
% 2.14/2.39  thf(ax1446,axiom,
% 2.14/2.39      ! [SUBSTANCE1: $i,SUBSTANCE2: $i] :
% 2.14/2.39        ( ( piece_THFTYPE_IiioI @ SUBSTANCE1 @ SUBSTANCE2 )
% 2.14/2.39       => ! [CLASS: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ SUBSTANCE1 @ CLASS )
% 2.14/2.39           => ( instance_THFTYPE_IiioI @ SUBSTANCE2 @ CLASS ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1447,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lNegativeRealNumber_THFTYPE_i @ lRealNumber_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation GreatestCommonDivisorFn EnglishLanguage "(&%GreatestCommonDivisorFn ?NUMBER1 ?NUMBER2 ... ?NUMBER) returns the greatest common divisor of ?NUMBER1 through ?NUMBER.")
% 2.14/2.39  %KIF documentation:(documentation Sitting EnglishLanguage "The &%BodyPosition of being recumbent, i.e. knees bent and back side supported.")
% 2.14/2.39  thf(ax1448,axiom,
% 2.14/2.39      ! [PERSON: $i,FAMILY: $i] :
% 2.14/2.39        ( ( ( lImmediateFamilyFn_THFTYPE_IiiI @ PERSON )
% 2.14/2.39          = FAMILY )
% 2.14/2.39       => ? [MEMBER: $i] :
% 2.14/2.39            ( ( member_THFTYPE_IiioI @ MEMBER @ FAMILY )
% 2.14/2.39            & ( ( parent_THFTYPE_IiioI @ MEMBER @ PERSON )
% 2.14/2.39              | ( parent_THFTYPE_IiioI @ PERSON @ MEMBER ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1449,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lWarmBloodedVertebrate_THFTYPE_i @ lVertebrate_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1450,axiom,
% 2.14/2.39      ! [P: $i,FAMILY: $i] :
% 2.14/2.39        ( ( ( lImmediateFamilyFn_THFTYPE_IiiI @ P )
% 2.14/2.39          = FAMILY )
% 2.14/2.39       => ! [MEMBER: $i] :
% 2.14/2.39            ( ( member_THFTYPE_IiioI @ MEMBER @ FAMILY )
% 2.14/2.39           => ? [OTHER: $i] :
% 2.14/2.39                ( ( parent_THFTYPE_IiioI @ MEMBER @ OTHER )
% 2.14/2.39                | ( parent_THFTYPE_IiioI @ OTHER @ MEMBER ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1451,axiom,
% 2.14/2.39      ! [EXPRESSION1: $i,EXPRESSION2: $i,TRANSLATE: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ TRANSLATE @ lTranslating_THFTYPE_i )
% 2.14/2.39          & ( patient_THFTYPE_IiioI @ TRANSLATE @ EXPRESSION1 )
% 2.14/2.39          & ( result_THFTYPE_IiioI @ TRANSLATE @ EXPRESSION2 ) )
% 2.14/2.39       => ? [LANGUAGE1: $i,LANGUAGE2: $i,ENTITY: $i] :
% 2.14/2.39            ( ( representsInLanguage_THFTYPE_IiiioI @ EXPRESSION1 @ ENTITY @ LANGUAGE1 )
% 2.14/2.39            & ( representsInLanguage_THFTYPE_IiiioI @ EXPRESSION2 @ ENTITY @ LANGUAGE2 )
% 2.14/2.39            & ( (~) @ ( LANGUAGE1 = LANGUAGE2 ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1452,axiom,
% 2.14/2.39      ! [COMP2: $i,COMP1: $i] :
% 2.14/2.39        ( ( connectedEngineeringComponents_THFTYPE_IiioI @ COMP1 @ COMP2 )
% 2.14/2.39       => ( (~)
% 2.14/2.39          @ ( ( instance_THFTYPE_IiioI @ COMP1 @ lEngineeringConnection_THFTYPE_i )
% 2.14/2.39            | ( instance_THFTYPE_IiioI @ COMP2 @ lEngineeringConnection_THFTYPE_i ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1453,axiom,
% 2.14/2.39      ! [LIST: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ LIST @ lUniqueList_THFTYPE_i )
% 2.14/2.39       => ! [NUMBER1: $i,NUMBER2: $i] :
% 2.14/2.39            ( ( ( lListOrderFn_THFTYPE_IiiiI @ LIST @ NUMBER1 )
% 2.14/2.39              = ( lListOrderFn_THFTYPE_IiiiI @ LIST @ NUMBER2 ) )
% 2.14/2.39           => ( NUMBER1 = NUMBER2 ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation InitialNodeFn EnglishLanguage "A &%UnaryFunction that maps a &%GraphArc to the initial node of the &%GraphArc. Note that this is a partial function. In particular, the function is undefined for &%GraphArcs that are not part of a &%DirectedGraph.")
% 2.14/2.39  %KIF documentation:(documentation Male EnglishLanguage "An &%Attribute indicating that an &%Organism is male in nature.")
% 2.14/2.39  %KIF documentation:(documentation occupiesPosition EnglishLanguage "(&%occupiesPosition ?PERSON ?POSITION ?ORG) means that ?PERSON holds the &%Position ?POSITION at &%Organization ?ORG. For example, (&%occupiesPosition &%TomSmith &%ResearchDirector &%AcmeLaboratory) means that &%TomSmith is a research director at Acme Labs.")
% 2.14/2.39  thf(ax1454,axiom,
% 2.14/2.39      contraryAttribute_THFTYPE_IiioI @ lPolychromatic_THFTYPE_i @ lMonochromatic_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1455,axiom,
% 2.14/2.39      ! [WET: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ WET @ lWetting_THFTYPE_i )
% 2.14/2.39       => ? [OBJ: $i] :
% 2.14/2.39            ( ( patient_THFTYPE_IiioI @ WET @ OBJ )
% 2.14/2.39            & ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ WET ) ) @ ( (~) @ ( attribute_THFTYPE_IiioI @ OBJ @ lDamp_THFTYPE_i ) ) )
% 2.14/2.39            & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ WET ) ) @ ( attribute_THFTYPE_IiioI @ OBJ @ lDamp_THFTYPE_i ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1456,axiom,
% 2.14/2.39      ! [RELEASE: $i,GRAB: $i,AGENT: $i,THING: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ RELEASE @ lUngrasping_THFTYPE_i )
% 2.14/2.39          & ( agent_THFTYPE_IiioI @ GRAB @ AGENT )
% 2.14/2.39          & ( patient_THFTYPE_IiioI @ GRAB @ THING ) )
% 2.14/2.39       => ( ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ RELEASE ) ) @ ( grasps_THFTYPE_IiioI @ AGENT @ THING ) )
% 2.14/2.39          & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ RELEASE ) ) @ ( (~) @ ( grasps_THFTYPE_IiioI @ AGENT @ THING ) ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1457,axiom,
% 2.14/2.39      range_THFTYPE_IiioI @ lDenominatorFn_THFTYPE_i @ lInteger_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1458,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lWriting_THFTYPE_i @ lContentDevelopment_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1459,axiom,
% 2.14/2.39      partition_THFTYPE_IiiioI @ lDeductiveArgument_THFTYPE_i @ lValidDeductiveArgument_THFTYPE_i @ lInvalidDeductiveArgument_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1460,axiom,
% 2.14/2.39      ! [CLASS: $i,ROW: $i] :
% 2.14/2.39        ( ( exhaustiveDecomposition_THFTYPE_IiioI @ CLASS @ ROW )
% 2.14/2.39       => ! [OBJ: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ OBJ @ CLASS )
% 2.14/2.39           => ? [ITEM: $i] :
% 2.14/2.39                ( ( inList_THFTYPE_IiioI @ ITEM @ ( lListFn_THFTYPE_IiiI @ ROW ) )
% 2.14/2.39                & ( instance_THFTYPE_IiioI @ OBJ @ ITEM ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation UnitOfArea EnglishLanguage "Every instance of this &%Class is a &%UnitOfMeasure that can be used with &%MeasureFn to form instances of &%AreaMeasure.")
% 2.14/2.39  thf(ax1461,axiom,
% 2.14/2.39      ! [INTERVAL: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ INTERVAL @ lTimeInterval_THFTYPE_i )
% 2.14/2.39       => ( meetsTemporally_THFTYPE_IiioI @ INTERVAL @ ( lFutureFn_THFTYPE_IiiI @ INTERVAL ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1462,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lCollection_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1463,axiom,
% 2.14/2.39      ! [ORG: $i,PROCESS: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ PROCESS @ lJudicialProcess_THFTYPE_i )
% 2.14/2.39          & ( agent_THFTYPE_IiioI @ PROCESS @ ORG )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ ORG @ lOrganization_THFTYPE_i ) )
% 2.14/2.39       => ( instance_THFTYPE_IiioI @ ORG @ lJudicialOrganization_THFTYPE_i ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Giving EnglishLanguage "The &%subclass of &%ChangeOfPossession where the &%agent gives the &%destination something.")
% 2.14/2.39  %KIF documentation:(documentation Henry EnglishLanguage "SI inductance measure. Symbol: H. One &%Henry is equivalent to one &%Volt divided by one &%Ampere per &%SecondDuration. If a current changing at the rate of one &%Ampere per &%SecondDuration induces an electromotive force of one &%Volt, the circuit has an inductance of one &%Henry. &%Henry = Wb/ A = m^2*kg*s^(-2)*A^(-2).")
% 2.14/2.39  thf(ax1464,axiom,
% 2.14/2.39      ! [GROUP: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ GROUP @ lFamilyGroup_THFTYPE_i )
% 2.14/2.39       => ! [MEMB1: $i,MEMB2: $i] :
% 2.14/2.39            ( ( ( member_THFTYPE_IiioI @ MEMB1 @ GROUP )
% 2.14/2.39              & ( member_THFTYPE_IiioI @ MEMB2 @ GROUP ) )
% 2.14/2.39           => ( familyRelation_THFTYPE_IiioI @ MEMB1 @ MEMB2 ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Human EnglishLanguage "Modern man, the only remaining species of the Homo genus.")
% 2.14/2.39  %KIF documentation:(documentation Radiating EnglishLanguage "Processes in which some form of electromagnetic radiation, e.g. radio waves, light waves, electrical energy, etc., is given off or absorbed by something else.")
% 2.14/2.39  %KIF documentation:(documentation Blood EnglishLanguage "A fluid present in &%Animals that transports &%Nutrients to and waste products away from various &%BodyParts.")
% 2.14/2.39  thf(ax1465,axiom,
% 2.14/2.39      ! [PLANT: $i,SUBSTANCE: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ SUBSTANCE @ lPlantSubstance_THFTYPE_i )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ PLANT @ lOrganism_THFTYPE_i )
% 2.14/2.39          & ( part_THFTYPE_IiioI @ SUBSTANCE @ PLANT ) )
% 2.14/2.39       => ( instance_THFTYPE_IiioI @ PLANT @ lPlant_THFTYPE_i ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1466,axiom,
% 2.14/2.39      rangeSubclass_THFTYPE_IiioI @ lMinimalCutSetFn_THFTYPE_i @ lGraphPath_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1467,axiom,
% 2.14/2.39      ! [COMBINE: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ COMBINE @ lCombining_THFTYPE_i )
% 2.14/2.39       => ? [OBJ: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ OBJ @ lSelfConnectedObject_THFTYPE_i )
% 2.14/2.39            & ( patient_THFTYPE_IiioI @ COMBINE @ OBJ ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1468,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lAssociativeFunction_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1469,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lAdvertising_THFTYPE_i @ lDisseminating_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation NounPhrase EnglishLanguage "A &%Phrase that has the same function as a &%Noun.")
% 2.14/2.39  thf(ax1470,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lObjectAttitude_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Ordering EnglishLanguage "A &%Directing in which the receiver is commanded to realize the content of a &%ContentBearingObject. Orders are injunctions, the disobedience of which involves sanctions, or which express an obligation upon the part of the orderee.")
% 2.14/2.39  thf(ax1471,axiom,
% 2.14/2.39      contraryAttribute_THFTYPE_IiioI @ lNonFullyFormed_THFTYPE_i @ lFullyFormed_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation BiologicalAttribute EnglishLanguage "&%Attributes that apply specifically to instances of &%Organism.")
% 2.14/2.39  thf(ax1472,axiom,
% 2.14/2.39      range_THFTYPE_IiioI @ lRelativeTimeFn_THFTYPE_i @ lTimePosition_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1473,axiom,
% 2.14/2.39      range_THFTYPE_IiioI @ lEndNodeFn_THFTYPE_i @ lGraphNode_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1474,axiom,
% 2.14/2.39      ! [X: $i,Y: $i,Z: $i] :
% 2.14/2.39        ( ( ( subclass_THFTYPE_IiioI @ X @ Y )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ Z @ X ) )
% 2.14/2.39       => ( instance_THFTYPE_IiioI @ Z @ Y ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Collection EnglishLanguage "Collections have &%members like &%Classes, but, unlike &%Classes, they have a position in space-time and &%members can be added and subtracted without thereby changing the identity of the &%Collection. Some examples are toolkits, football teams, and flocks of sheep.")
% 2.14/2.39  thf(ax1475,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lQuintaryPredicate_THFTYPE_i @ lQuintaryRelation_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1476,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lSecond_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1477,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lConfining_THFTYPE_i @ lKeeping_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1478,axiom,
% 2.14/2.39      ! [WEEK2: $i,WEEK1: $i,DAY1: $i,DAY2: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ DAY1 @ lSunday_THFTYPE_i )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ DAY2 @ lMonday_THFTYPE_i )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ WEEK1 @ lWeek_THFTYPE_i )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ WEEK2 @ lWeek_THFTYPE_i )
% 2.14/2.39          & ( temporalPart_THFTYPE_IiioI @ DAY1 @ WEEK1 )
% 2.14/2.39          & ( temporalPart_THFTYPE_IiioI @ DAY2 @ WEEK2 )
% 2.14/2.39          & ( meetsTemporally_THFTYPE_IiioI @ WEEK1 @ WEEK2 ) )
% 2.14/2.39       => ( meetsTemporally_THFTYPE_IiioI @ DAY1 @ DAY2 ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1479,axiom,
% 2.14/2.39      ! [OBJ: $i,PROC: $i] :
% 2.14/2.39        ( ( result_THFTYPE_IiioI @ PROC @ OBJ )
% 2.14/2.39       => ! [TIME: $i] :
% 2.14/2.39            ( ( before_THFTYPE_IiioI @ TIME @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ PROC ) ) )
% 2.14/2.39           => ( (~) @ ( time_THFTYPE_IiioI @ OBJ @ TIME ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1480,axiom,
% 2.14/2.39      ! [HOLE: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ HOLE @ lHole_THFTYPE_i )
% 2.14/2.39      <=> ? [OBJ: $i] : ( hole_THFTYPE_IiioI @ HOLE @ OBJ ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Publication EnglishLanguage "The &%Manufacture of &%Texts. Note that there is no implication that the &%Texts are distributed. Such distribution, when it occurs, is an instance of &%Dissemination.")
% 2.14/2.39  thf(ax1481,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lSeed_THFTYPE_i @ lPlantAnatomicalStructure_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1482,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lFormula_THFTYPE_i @ lSentence_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1483,axiom,
% 2.14/2.39      ! [MINUTE1: $i,MINUTE2: $i,NUMBER2: $i,HOUR: $i,NUMBER1: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ MINUTE1 @ ( lMinuteFn_THFTYPE_IiiiI @ NUMBER1 @ HOUR ) )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ MINUTE2 @ ( lMinuteFn_THFTYPE_IiiiI @ NUMBER2 @ HOUR ) )
% 2.14/2.39          & ( ( minus_THFTYPE_IiiiI @ NUMBER2 @ NUMBER1 )
% 2.14/2.39            = n1_THFTYPE_i ) )
% 2.14/2.39       => ( meetsTemporally_THFTYPE_IiioI @ MINUTE1 @ MINUTE2 ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1484,axiom,
% 2.14/2.39      ! [REL2: $i > $i > $o,REL1: $i > $i > $o] :
% 2.14/2.39        ( ( inverse_THFTYPE_IIiioIIiioIoI @ REL1 @ REL2 )
% 2.14/2.39       => ! [INST1: $i,INST2: $i] :
% 2.14/2.39            ( ( REL1 @ INST1 @ INST2 )
% 2.14/2.39          <=> ( REL2 @ INST2 @ INST1 ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1485,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lHeating_THFTYPE_i @ lIncreasing_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1486,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lFruitOrVegetable_THFTYPE_i @ lPlantAnatomicalStructure_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1487,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lInteger_THFTYPE_i @ lRationalNumber_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation transactionAmount EnglishLanguage "(&%transactionAmount ?TRANSACTION ?AMOUNT) means that ?AMOUNT is an instance of &%CurrencyMeasure being exhanged in the &%FinancialTransaction ?TRANSACTION.")
% 2.14/2.39  thf(ax1488,axiom,
% 2.14/2.39      subAttribute_THFTYPE_IiioI @ lServiceContract_THFTYPE_i @ lContract_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation April EnglishLanguage "The &%Class of all &%Months which are April.")
% 2.14/2.39  thf(ax1489,axiom,
% 2.14/2.39      ! [GRAPH: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ GRAPH @ lTree_THFTYPE_i )
% 2.14/2.39       => ( (~)
% 2.14/2.39          @ ? [LOOP: $i] :
% 2.14/2.39              ( ( instance_THFTYPE_IiioI @ LOOP @ lGraphLoop_THFTYPE_i )
% 2.14/2.39              & ( graphPart_THFTYPE_IiioI @ LOOP @ GRAPH ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Covering EnglishLanguage "The &%Class of &%Putting processes where the &%agent covers the &%patient, either completely or only partially, with something else.")
% 2.14/2.39  thf(ax1490,axiom,
% 2.14/2.39      ! [COMMUNICATE: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ COMMUNICATE @ lLinguisticCommunication_THFTYPE_i )
% 2.14/2.39       => ? [OBJ: $i] :
% 2.14/2.39            ( ( represents_THFTYPE_IiioI @ COMMUNICATE @ OBJ )
% 2.14/2.39            & ( instance_THFTYPE_IiioI @ OBJ @ lLinguisticExpression_THFTYPE_i )
% 2.14/2.39            & ( patient_THFTYPE_IiioI @ COMMUNICATE @ OBJ ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1491,axiom,
% 2.14/2.39      ! [NUMBER: $i] :
% 2.14/2.39        ( ( lPredecessorFn_THFTYPE_IiiI @ NUMBER )
% 2.14/2.39        = ( minus_THFTYPE_IiiiI @ NUMBER @ n1_THFTYPE_i ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1492,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lDeath_THFTYPE_i @ lOrganismProcess_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1493,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lLegalDecision_THFTYPE_i @ lJudicialProcess_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1494,axiom,
% 2.14/2.39      ! [CHILD: $i,PARENT: $i] :
% 2.14/2.39        ( ( ( parent_THFTYPE_IiioI @ CHILD @ PARENT )
% 2.14/2.39          & ( attribute_THFTYPE_IiioI @ PARENT @ lFemale_THFTYPE_i ) )
% 2.14/2.39       => ( mother_THFTYPE_IiioI @ CHILD @ PARENT ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1495,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lQuestioning_THFTYPE_i @ lDirecting_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1496,axiom,
% 2.14/2.39      ! [P: $i,H: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ H @ lHunting_THFTYPE_i )
% 2.14/2.39          & ( patient_THFTYPE_IiioI @ H @ P ) )
% 2.14/2.39       => ( hasPurpose_THFTYPE_IiooI @ H
% 2.14/2.39          @ ? [PROC: $i] :
% 2.14/2.39              ( ( patient_THFTYPE_IiioI @ PROC @ P )
% 2.14/2.39              & ( ( instance_THFTYPE_IiioI @ PROC @ lConfining_THFTYPE_i )
% 2.14/2.39                | ( instance_THFTYPE_IiioI @ PROC @ lKilling_THFTYPE_i ) ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1497,axiom,
% 2.14/2.39      ! [H: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ H @ lHunting_THFTYPE_i )
% 2.14/2.39       => ? [T: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ T @ lAnimal_THFTYPE_i )
% 2.14/2.39            & ( patient_THFTYPE_IiioI @ H @ T ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1498,axiom,
% 2.14/2.39      ! [NUMBER: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ NUMBER @ lPositiveRealNumber_THFTYPE_i )
% 2.14/2.39      <=> ( ( gt_THFTYPE_IiioI @ NUMBER @ n0_THFTYPE_i )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ NUMBER @ lRealNumber_THFTYPE_i ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation geopoliticalSubdivision EnglishLanguage "(&%geopoliticalSubdivision ?AREA1 ?AREA2) means that ?AREA1 is any geopolitical part of ?AREA2, that is, ?AREA1 is an integral &%geographicSubregion of ?AREA2 (not a &%DependencyOrSpecialSovereigntyArea), having its own associated &%GovernmentOrganization which is subordinated to or constrained by the government of ?AREA2. Cf. &%dependentGeopoliticalArea.")
% 2.14/2.39  thf(ax1499,axiom,
% 2.14/2.39      ! [GET: $i,AGENT: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ GET @ lGetting_THFTYPE_i )
% 2.14/2.39          & ( agent_THFTYPE_IiioI @ GET @ AGENT ) )
% 2.14/2.39       => ( destination_THFTYPE_IiioI @ GET @ AGENT ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1500,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lPhysiologicProcess_THFTYPE_i @ lBiologicalProcess_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation TemperatureMeasure EnglishLanguage "Measures of temperature. In scientific circles, the temperature of something is understood as the average velocity of the atoms or molecules that make up the thing.")
% 2.14/2.39  thf(ax1501,axiom,
% 2.14/2.39      partition_THFTYPE_IiiioI @ lUnitOfMeasure_THFTYPE_i @ lCompositeUnitOfMeasure_THFTYPE_i @ lNonCompositeUnitOfMeasure_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1502,axiom,
% 2.14/2.39      ! [COUNT: $i,AGENT: $i,ENTITY: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ COUNT @ lCounting_THFTYPE_i )
% 2.14/2.39          & ( agent_THFTYPE_IiioI @ COUNT @ AGENT )
% 2.14/2.39          & ( patient_THFTYPE_IiioI @ COUNT @ ENTITY ) )
% 2.14/2.39       => ? [NUMBER: $i] :
% 2.14/2.39            ( knows_THFTYPE_IiooI @ AGENT
% 2.14/2.39            @ ( ( lCardinalityFn_THFTYPE_IiiI @ ENTITY )
% 2.14/2.39              = NUMBER ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Word EnglishLanguage "A term of a &%Language that represents a concept.")
% 2.14/2.39  thf(ax1503,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lProcess_THFTYPE_i @ lPhysical_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1504,axiom,
% 2.14/2.39      ! [HEAT: $i,OBJ: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ HEAT @ lHeating_THFTYPE_i )
% 2.14/2.39          & ( patient_THFTYPE_IiioI @ HEAT @ OBJ ) )
% 2.14/2.39       => ? [UNIT: $i,QUANT1: $i,QUANT2: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ UNIT @ lTemperatureMeasure_THFTYPE_i )
% 2.14/2.39            & ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ HEAT ) )
% 2.14/2.39              @ ( ( lMeasureFn_THFTYPE_IiiiI @ OBJ @ UNIT )
% 2.14/2.39                = QUANT1 ) )
% 2.14/2.39            & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ HEAT ) )
% 2.14/2.39              @ ( ( lMeasureFn_THFTYPE_IiiiI @ OBJ @ UNIT )
% 2.14/2.39                = QUANT2 ) )
% 2.14/2.39            & ( gt_THFTYPE_IiioI @ QUANT2 @ QUANT1 ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation AnatomicalStructure EnglishLanguage "A normal or pathological part of the anatomy or structural organization of an &%Organism. This class covers &%BodyParts, as well as structures that are given off by &%Organisms, e.g. &%ReproductiveBodies.")
% 2.14/2.39  thf(ax1505,axiom,
% 2.14/2.39      ! [PERSON: $i,CONFINE: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ CONFINE @ lConfining_THFTYPE_i )
% 2.14/2.39          & ( patient_THFTYPE_IiioI @ CONFINE @ PERSON )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ PERSON @ lHuman_THFTYPE_i ) )
% 2.14/2.39       => ( (~) @ ( desires_THFTYPE_IiooI @ PERSON @ ( patient_THFTYPE_IiioI @ CONFINE @ PERSON ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation parallel EnglishLanguage "(&%parallel ?LINE1 ?LINE2) means that the &%OneDimensionalFigures ?LINE1 and ?LINE2 are parallel to one another, i.e. they are equidistant from one another at every point.")
% 2.14/2.39  thf(ax1506,axiom,
% 2.14/2.39      ! [OBJ1: $i,OBJ2: $i,OBJ3: $i] :
% 2.14/2.39        ( ( OBJ3
% 2.14/2.39          = ( lMereologicalProductFn_THFTYPE_IiiiI @ OBJ1 @ OBJ2 ) )
% 2.14/2.39       => ! [PART: $i] :
% 2.14/2.39            ( ( part_THFTYPE_IiioI @ PART @ OBJ3 )
% 2.14/2.39          <=> ( ( part_THFTYPE_IiioI @ PART @ OBJ1 )
% 2.14/2.39              & ( part_THFTYPE_IiioI @ PART @ OBJ2 ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation PerFn EnglishLanguage "&%PerFn maps two instances of &%PhysicalQuantity to the &%FunctionQuantity composed of these two instances. For example, (&%PerFn (&%MeasureFn 2 (&%MicroFn &%Gram)) (&%MeasureFn 1 (&%KiloFn &%Gram))) denotes the &%FunctionQuantity of 2 micrograms per kiogram. This function is useful, because it allows the knowledge engineer to dynamically generate instances of &%FunctionQuantity.")
% 2.14/2.39  thf(ax1507,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lClothing_THFTYPE_i @ lWearableItem_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation meltingPoint EnglishLanguage "The temperature at which a &%PureSubstance changes state from a &%Solid to a &%Liquid. Note that &%Arsenic can sublimate directly from &%Solid to &%Gas which means that its melting and boiling points are equal.")
% 2.14/2.39  %KIF documentation:(documentation Bone EnglishLanguage "Rigid &%Tissue composed largely of calcium that makes up the skeleton of &%Vertebrates. Note that this &%Class also includes teeth.")
% 2.14/2.39  thf(ax1508,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lCity_THFTYPE_i @ lLandArea_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1509,axiom,
% 2.14/2.39      partition_THFTYPE_IiiioI @ lAnimal_THFTYPE_i @ lVertebrate_THFTYPE_i @ lInvertebrate_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1510,axiom,
% 2.14/2.39      ! [CLASS: $i,RELATION: $i > $i > $o] :
% 2.14/2.39        ( ( irreflexiveOn_THFTYPE_IIiioIioI @ RELATION @ CLASS )
% 2.14/2.39       => ! [INST: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ INST @ CLASS )
% 2.14/2.39           => ( (~) @ ( RELATION @ INST @ INST ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1511,axiom,
% 2.14/2.39      ! [FUNCTION: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ FUNCTION @ lQuaternaryFunction_THFTYPE_i )
% 2.14/2.39       => ( valence_THFTYPE_IiioI @ FUNCTION @ n4_THFTYPE_i ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1512,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lOpenTwoDimensionalFigure_THFTYPE_i @ lTwoDimensionalFigure_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1513,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lChemicalSynthesis_THFTYPE_i @ lCombining_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1514,axiom,
% 2.14/2.39      ! [PROC2: $i,PROC1: $i] :
% 2.14/2.39        ( ( prevents_THFTYPE_IiioI @ PROC1 @ PROC2 )
% 2.14/2.39       => ! [TIME: $i,PLACE: $i] :
% 2.14/2.39            ( ( holdsDuring_THFTYPE_IiooI @ TIME
% 2.14/2.39              @ ? [INST1: $i] :
% 2.14/2.39                  ( ( instance_THFTYPE_IiioI @ INST1 @ PROC1 )
% 2.14/2.39                  & ( located_THFTYPE_IiioI @ INST1 @ PLACE ) ) )
% 2.14/2.39           => ( (~)
% 2.14/2.39              @ ( holdsDuring_THFTYPE_IiooI @ TIME
% 2.14/2.39                @ ? [INST2: $i] :
% 2.14/2.39                    ( ( instance_THFTYPE_IiioI @ INST2 @ PROC2 )
% 2.14/2.39                    & ( located_THFTYPE_IiioI @ INST2 @ PLACE ) ) ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1515,axiom,
% 2.14/2.39      ! [NUMBER: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ NUMBER @ lNegativeRealNumber_THFTYPE_i )
% 2.14/2.39       => ( ( lSignumFn_THFTYPE_IiiI @ NUMBER )
% 2.14/2.39          = minus1_THFTYPE_i ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation CoordinatedUniversalTimeZone EnglishLanguage "A &%TimeZone which functions as the standard time zone. It is also known as Zulu time (in the military), Greenwich Mean Time, and the Western European time zone. Note that whenever a &%TimeZone is not specified, the &%TimePosition is understood to be with respect to the &%CoordinatedUniversalTimeZone.")
% 2.14/2.39  %KIF documentation:(documentation partlyLocated EnglishLanguage "(&%partlyLocated ?THING ?OBJ) means that the instance of &%Physical ?THING is at least partially located at ?OBJ. For example, Istanbul is partly located in &%Asia and partly located in &%Europe. Note that &%partlyLocated is the most basic localization relation: &%located is an immediate &%subrelation of &%partlyLocated and &%exactlyLocated is an immediate &%subrelation of &%located.")
% 2.14/2.39  %KIF documentation:(documentation MercantileOrganization EnglishLanguage "Any &%Corporation which sells goods or services to customers for a profit.")
% 2.14/2.39  thf(ax1516,axiom,
% 2.14/2.39      ! [ATOM: $i,NUMBER: $i,SUBSTANCE: $i,TYPE: $i] :
% 2.14/2.39        ( ( atomicNumber_THFTYPE_IiioI @ TYPE @ NUMBER )
% 2.14/2.39       => ( ( ( instance_THFTYPE_IiioI @ SUBSTANCE @ TYPE )
% 2.14/2.39            & ( part_THFTYPE_IiioI @ ATOM @ SUBSTANCE )
% 2.14/2.39            & ( instance_THFTYPE_IiioI @ ATOM @ lAtom_THFTYPE_i ) )
% 2.14/2.39         => ( NUMBER
% 2.14/2.39            = ( lCardinalityFn_THFTYPE_IIioIiI
% 2.14/2.39              @ ^ [PROTON: $i] :
% 2.14/2.39                  ( ( part_THFTYPE_IiioI @ PROTON @ ATOM )
% 2.14/2.39                  & ( instance_THFTYPE_IiioI @ PROTON @ lProton_THFTYPE_i ) ) ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1517,axiom,
% 2.14/2.39      ! [PROC2: $i,PROC1: $i] :
% 2.14/2.39        ( ( precondition_THFTYPE_IiioI @ PROC1 @ PROC2 )
% 2.14/2.39       => ( ? [INST2: $i] : ( instance_THFTYPE_IiioI @ INST2 @ PROC2 )
% 2.14/2.39         => ? [INST1: $i] : ( instance_THFTYPE_IiioI @ INST1 @ PROC1 ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1518,axiom,
% 2.14/2.39      disjointDecomposition_THFTYPE_IiiiiiioI @ lRelation_THFTYPE_i @ lBinaryRelation_THFTYPE_i @ lTernaryRelation_THFTYPE_i @ lQuaternaryRelation_THFTYPE_i @ lQuintaryRelation_THFTYPE_i @ lVariableArityRelation_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation SeriesVolumeFn EnglishLanguage "A &%BinaryFunction that maps a type of &%Series (e.g. the Encyclopedia_Britannica or the Popular_Mechanics periodical) and a number to the volumes of the text type designated by the number.")
% 2.14/2.39  %KIF documentation:(documentation citizen EnglishLanguage "(&%citizen ?PERSON ?NATION) means that the &%Human ?PERSON is a citizen of &%Nation ?NATION.")
% 2.14/2.39  thf(ax1519,axiom,
% 2.14/2.39      ! [OBJ: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ OBJ @ lCorpuscularObject_THFTYPE_i )
% 2.14/2.39       => ? [SUBSTANCE1: $i,SUBSTANCE2: $i] :
% 2.14/2.39            ( ( subclass_THFTYPE_IiioI @ SUBSTANCE1 @ lSubstance_THFTYPE_i )
% 2.14/2.39            & ( subclass_THFTYPE_IiioI @ SUBSTANCE2 @ lSubstance_THFTYPE_i )
% 2.14/2.39            & ( material_THFTYPE_IiioI @ SUBSTANCE1 @ OBJ )
% 2.14/2.39            & ( material_THFTYPE_IiioI @ SUBSTANCE2 @ OBJ )
% 2.14/2.39            & ( (~) @ ( SUBSTANCE1 = SUBSTANCE2 ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation ColorAttribute EnglishLanguage "The &%Class of &%Attributes relating to the color of &%Objects.")
% 2.14/2.39  %KIF documentation:(documentation DualObjectProcess EnglishLanguage "Any &%Process that requires two, nonidentical &%patients.")
% 2.14/2.39  %KIF documentation:(documentation VelocityFn EnglishLanguage "Specifies the velocity of an object, i.e. the speed and the direction of the speed. For example (&%VelocityFn (&%MeasureFn 55 &%Mile) (&%MeasureFn 2 &%HourDuration) ?REFERENCE &%North) denotes the velocity of 55 miles per hour North of the given reference point ?REFERENCE.")
% 2.14/2.39  %KIF documentation:(documentation GroupOfPeople EnglishLanguage "Any &%Group whose &%members are exclusively &%Humans.")
% 2.14/2.39  %KIF documentation:(documentation SocialInteraction EnglishLanguage "The &%subclass of &%IntentionalProcess that involves interactions between &%CognitiveAgents.")
% 2.14/2.39  thf(ax1520,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lBinaryFunction_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Cooking EnglishLanguage "The &%Making of an &%instance of &%Food. Note that this can cover any preparation of &%Food, e.g. making a salad, cutting up fruit, etc. It does not necessarily involve the application of heat.")
% 2.14/2.39  thf(ax1521,axiom,
% 2.14/2.39      ! [OBJ1: $i,OBJ2: $i,HEIGHT: $i] :
% 2.14/2.39        ( ( altitude_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ HEIGHT )
% 2.14/2.39       => ( orientation_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ lAbove_THFTYPE_i ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Radian EnglishLanguage "SI plane angle measure. Symbol: rad. It is the angle of a circle subtended by an arc equal in length to the circle's radius. Another definition is: the plane angle between two radii of a circle which cut off on the circumference an arc equal in length to the radius. &%Radian = m/ m = 1.")
% 2.14/2.39  thf(ax1522,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lThreeDimensionalFigure_THFTYPE_i @ lGeometricFigure_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1523,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lMuscle_THFTYPE_i @ lAnimalSubstance_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Birth EnglishLanguage "The &%Process of being born.")
% 2.14/2.39  thf(ax1524,axiom,
% 2.14/2.39      range_THFTYPE_IiioI @ lRealNumberFn_THFTYPE_i @ lRealNumber_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1525,axiom,
% 2.14/2.39      range_THFTYPE_IiioI @ lPropertyFn_THFTYPE_i @ lSet_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation OddInteger EnglishLanguage "An &%Integer that is not evenly divisible by 2.")
% 2.14/2.39  thf(ax1526,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lManaging_THFTYPE_i @ lGuiding_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation DirectionalAttribute EnglishLanguage "The subclass of &%PositionalAttributes that concern compass directions.")
% 2.14/2.39  thf(ax1527,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lGraphLoop_THFTYPE_i @ lGraphArc_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1528,axiom,
% 2.14/2.39      ! [X: $i] :
% 2.14/2.39        ( ( attribute_THFTYPE_IiioI @ X @ lFlammable_THFTYPE_i )
% 2.14/2.39       => ( capability_THFTYPE_IiIiioIioI @ lCombustion_THFTYPE_i @ patient_THFTYPE_IiioI @ X ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1529,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lTuesday_THFTYPE_i @ lDay_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1530,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lIntentionalRelation_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1531,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lDeclaring_THFTYPE_i @ lLinguisticCommunication_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1532,axiom,
% 2.14/2.39      ! [BEV: $i,DRINK: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ DRINK @ lDrinking_THFTYPE_i )
% 2.14/2.39          & ( patient_THFTYPE_IiioI @ DRINK @ BEV ) )
% 2.14/2.39       => ( instance_THFTYPE_IiioI @ BEV @ lBeverage_THFTYPE_i ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation MinuteFn EnglishLanguage "A &%BinaryFunction that assigns a &%PositiveRealNumber and a subclass of &%Hours to the &%Minutes within each &%Hour corresponding to that &%NonnegativeInteger. For example, (&%MinuteFn 30 (&%HourFn 17 &%Day)) is the &%Class of all 5:30's in the afternoon. For another example, (&%MinuteFn 15 &%Hour) would return the class of all instances of quarter past the hour. For still another example, (&%MinuteFn 15 (&%HourFn 14 (&%DayFn 18 (&%MonthFn &%August (&%YearFn 1912))))) denotes 15 minutes after 2 PM on the 18th day of August 1912.")
% 2.14/2.39  thf(ax1533,axiom,
% 2.14/2.39      ! [GROUP: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ GROUP @ lAgeGroup_THFTYPE_i )
% 2.14/2.39       => ! [MEMB1: $i,MEMB2: $i,AGE1: $i,AGE2: $i] :
% 2.14/2.39            ( ( ( member_THFTYPE_IiioI @ MEMB1 @ GROUP )
% 2.14/2.39              & ( member_THFTYPE_IiioI @ MEMB2 @ GROUP )
% 2.14/2.39              & ( age_THFTYPE_IiioI @ MEMB1 @ AGE1 )
% 2.14/2.39              & ( age_THFTYPE_IiioI @ MEMB2 @ AGE2 ) )
% 2.14/2.39           => ( AGE1 = AGE2 ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1534,axiom,
% 2.14/2.39      ! [DEMO: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ DEMO @ lDemonstrating_THFTYPE_i )
% 2.14/2.39       => ? [PERSON: $i] : ( attends_THFTYPE_IiioI @ DEMO @ PERSON ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1535,axiom,
% 2.14/2.39      ! [NUMBER: $i,PATH: $i,NUMBER2: $i,NODE1: $i,NUMBER1: $i,NODE2: $i] :
% 2.14/2.39        ( ( ( ( lMaximalWeightedPathFn_THFTYPE_IiiiI @ NODE1 @ NODE2 )
% 2.14/2.39            = PATH )
% 2.14/2.39          & ( ( lPathWeightFn_THFTYPE_IiiI @ PATH )
% 2.14/2.39            = NUMBER ) )
% 2.14/2.39       => ! [PATH2: $i] :
% 2.14/2.39            ( ( ( instance_THFTYPE_IiioI @ PATH2 @ ( lGraphPathFn_THFTYPE_IiiiI @ NODE1 @ NODE2 ) )
% 2.14/2.39              & ( ( lPathWeightFn_THFTYPE_IiiI @ PATH2 )
% 2.14/2.39                = NUMBER2 ) )
% 2.14/2.39           => ( ltet_THFTYPE_IiioI @ NUMBER2 @ NUMBER1 ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1536,axiom,
% 2.14/2.39      ! [BATTLE: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ BATTLE @ lBattle_THFTYPE_i )
% 2.14/2.39       => ? [WAR: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ WAR @ lWar_THFTYPE_i )
% 2.14/2.39            & ( subProcess_THFTYPE_IiioI @ BATTLE @ WAR ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Building EnglishLanguage "The Class of &%StationaryArtifacts which are intended to house &%Humans and their activities.")
% 2.14/2.39  thf(ax1537,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lOrganizationalProcess_THFTYPE_i @ lIntentionalProcess_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1538,axiom,
% 2.14/2.39      ! [REL: $i > $i > $o,INTERVAL: $i,INST2: $i,INST1: $i] :
% 2.14/2.39        ( ( ( holdsDuring_THFTYPE_IiooI @ INTERVAL @ ( REL @ INST1 @ INST2 ) )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ INST1 @ lPhysical_THFTYPE_i )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ INST2 @ lPhysical_THFTYPE_i ) )
% 2.14/2.39       => ( ( time_THFTYPE_IiioI @ INST1 @ INTERVAL )
% 2.14/2.39          & ( time_THFTYPE_IiioI @ INST2 @ INTERVAL ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Warranty EnglishLanguage "A &%Contract that states the cirumstances under which defects in the product will be corrected for no charge. A &%Warranty is usually limited to a length of time that is specified in the &%Warranty itself. A &%Warranty also includes information about what is not covered and actions that invalidate the &%Warranty.")
% 2.14/2.39  thf(ax1539,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lMilitaryOrganization_THFTYPE_i @ lMilitaryForce_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Selling EnglishLanguage "A &%FinancialTransaction in which an instance of &%Physical is exchanged for an instance of &%CurrencyMeasure.")
% 2.14/2.39  %KIF documentation:(documentation Fluid EnglishLanguage "&%Fluid is the &%PhysicalState attribute of an &%Object that does not have a fixed shape and thus tends to flow or to conform to the shape of a container.")
% 2.14/2.39  thf(ax1540,axiom,
% 2.14/2.39      ! [HOUR: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ HOUR @ lHour_THFTYPE_i )
% 2.14/2.39       => ( ( lCardinalityFn_THFTYPE_IiiI @ ( lTemporalCompositionFn_THFTYPE_IiiiI @ HOUR @ lMinute_THFTYPE_i ) )
% 2.14/2.39          = n60_THFTYPE_i ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1541,axiom,
% 2.14/2.39      ! [AGENT: $i,TEXT: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ TEXT @ lFactualText_THFTYPE_i )
% 2.14/2.39          & ( authors_THFTYPE_IiioI @ AGENT @ TEXT ) )
% 2.14/2.39       => ? [CONTENT: $o] :
% 2.14/2.39            ( ( subsumesContentInstance_THFTYPE_IiooI @ TEXT @ CONTENT )
% 2.14/2.39            & ( instance_THFTYPE_IoioI @ CONTENT @ lFormula_THFTYPE_i )
% 2.14/2.39            & ( (~) @ ( believes_THFTYPE_IiooI @ AGENT @ CONTENT ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation FinancialInstrument EnglishLanguage "A document having monetary value or recording a monetary transaction")
% 2.14/2.39  thf(ax1542,axiom,
% 2.14/2.39      ! [ABS: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ ABS @ lAbstract_THFTYPE_i )
% 2.14/2.39      <=> ( (~)
% 2.14/2.39          @ ? [POINT: $i] :
% 2.14/2.39              ( ( located_THFTYPE_IiioI @ ABS @ POINT )
% 2.14/2.39              | ( time_THFTYPE_IiioI @ ABS @ POINT ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation SolidAngleMeasure EnglishLanguage "The value of an angle in a solid.")
% 2.14/2.39  thf(ax1543,axiom,
% 2.14/2.39      range_THFTYPE_IiioI @ lExponentiationFn_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1544,axiom,
% 2.14/2.39      ! [OBJ: $i,PERSON: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ OBJ @ ( lPropertyFn_THFTYPE_IiiI @ PERSON ) )
% 2.14/2.39      <=> ( possesses_THFTYPE_IiioI @ PERSON @ OBJ ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation NaturalLanguage EnglishLanguage "The &%subclass of &%HumanLanguages which are not designed and which evolve from generation to generation. This &%Class includes all of the national languages, e.g. English, Spanish, Japanese, etc. Note that this class includes dialects of natural languages.")
% 2.14/2.39  %KIF documentation:(documentation geometricDistance EnglishLanguage "(&%geometricDistance ?POINT1 ?POINT2 ?LENGTH) means that ?LENGTH is the distance between the two &%GeometricPoints ?POINT1 and ?POINT2.")
% 2.14/2.39  %KIF documentation:(documentation AnimalSubstance EnglishLanguage "&%BodySubstances that are produced exclusively by &%Animals.")
% 2.14/2.39  thf(ax1545,axiom,
% 2.14/2.39      rangeSubclass_THFTYPE_IiioI @ lIntervalFn_THFTYPE_i @ lConstantQuantity_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation UnitOfFrequency EnglishLanguage "Every instance of this &%Class is a &%UnitOfMeasure that can be used with &%MeasureFn to form instances of &%FrequencyMeasure.")
% 2.14/2.39  thf(ax1546,axiom,
% 2.14/2.39      ! [TEXT: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ TEXT @ lText_THFTYPE_i )
% 2.14/2.39       => ? [WRITE: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ WRITE @ lWriting_THFTYPE_i )
% 2.14/2.39            & ( result_THFTYPE_IiioI @ WRITE @ TEXT ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1547,axiom,
% 2.14/2.39      initialPart_THFTYPE_IiioI @ lVocalCords_THFTYPE_i @ lHuman_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1548,axiom,
% 2.14/2.39      ! [ORGAN: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ ORGAN @ lOrgan_THFTYPE_i )
% 2.14/2.39       => ? [PURP: $o] : ( hasPurpose_THFTYPE_IiooI @ ORGAN @ PURP ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1549,axiom,
% 2.14/2.39      ! [FORMULA1: $o,FORMULA2: $o] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IoioI @ FORMULA1 @ lFormula_THFTYPE_i )
% 2.14/2.39          & ( instance_THFTYPE_IoioI @ FORMULA2 @ lFormula_THFTYPE_i ) )
% 2.14/2.39       => ( ( increasesLikelihood_THFTYPE_IoooI @ FORMULA1 @ FORMULA2 )
% 2.14/2.39          | ( decreasesLikelihood_THFTYPE_IoooI @ FORMULA1 @ FORMULA2 )
% 2.14/2.39          | ( independentProbability_THFTYPE_IoooI @ FORMULA1 @ FORMULA2 ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1550,axiom,
% 2.14/2.39      ! [NUMBER: $i] :
% 2.14/2.39        ( ( NUMBER
% 2.14/2.39          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.39       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lBritishThermalUnit_THFTYPE_i )
% 2.14/2.39          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n1055dot05585262_THFTYPE_i ) @ lJoule_THFTYPE_i ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1551,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lOddInteger_THFTYPE_i @ lInteger_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation BodySubstance EnglishLanguage "Extracellular material and mixtures of cells and extracellular material that are produced, excreted or accreted by an &%Organism. Included here are &%Substances such as saliva, dental enamel, sweat, hormones, and gastric acid.")
% 2.14/2.39  %KIF documentation:(documentation MeasuringDevice EnglishLanguage "Any &%Device whose purpose is to measure a &%PhysicalQuantity.")
% 2.14/2.39  %KIF documentation:(documentation EducationalProcess EnglishLanguage "Any &%Process which is intended to result in &%Learning.")
% 2.14/2.39  %KIF documentation:(documentation Sport EnglishLanguage "A &%Game which requires some degree of physical exercion from the participants of the game.")
% 2.14/2.39  thf(ax1552,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lPoliticalOrganization_THFTYPE_i @ lOrganization_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Destruction EnglishLanguage "The &%subclass of &%Damagings in which the &%patient (or an essential element of the &%patient) is destroyed. Note that the difference between this concept and its superclass is solely one of extent.")
% 2.14/2.39  thf(ax1553,axiom,
% 2.14/2.39      ! [PREMISES: $o,ARGUMENT: $o,CONCLUSION: $o] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IoioI @ ARGUMENT @ lValidDeductiveArgument_THFTYPE_i )
% 2.14/2.39          & ( PREMISES
% 2.14/2.39            = ( lPremisesFn_THFTYPE_IooI @ ARGUMENT ) )
% 2.14/2.39          & ( conclusion_THFTYPE_IoooI @ CONCLUSION @ ARGUMENT ) )
% 2.14/2.39       => ? [FORMULA1: $i,FORMULA2: $i] :
% 2.14/2.39            ( ( containsInformation_THFTYPE_IiooI @ FORMULA1 @ PREMISES )
% 2.14/2.39            & ( containsInformation_THFTYPE_IiooI @ FORMULA2 @ CONCLUSION )
% 2.14/2.39            & ( entails_THFTYPE_IoooI @ PREMISES @ CONCLUSION ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1554,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lReflexiveRelation_THFTYPE_i @ lBinaryRelation_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1555,axiom,
% 2.14/2.39      ! [MONTH1: $i,MONTH2: $i,YEAR: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ MONTH1 @ ( lMonthFn_THFTYPE_IiiiI @ lJuly_THFTYPE_i @ YEAR ) )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ MONTH2 @ ( lMonthFn_THFTYPE_IiiiI @ lAugust_THFTYPE_i @ YEAR ) ) )
% 2.14/2.39       => ( meetsTemporally_THFTYPE_IiioI @ MONTH1 @ MONTH2 ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1556,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lArtifact_THFTYPE_i @ lCorpuscularObject_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Fungus EnglishLanguage "A eukaryotic &%Organism characterized by the absence of chlorophyll and the presence of rigid cell walls. Included here are both slime molds and true fungi such as yeasts, molds, mildews, and mushrooms.")
% 2.14/2.39  thf(ax1557,axiom,
% 2.14/2.39      ! [FORMULA: $o,AGENT: $i] :
% 2.14/2.39        ( ( believes_THFTYPE_IiooI @ AGENT @ FORMULA )
% 2.14/2.39       => ? [TIME: $i] : ( holdsDuring_THFTYPE_IiooI @ TIME @ ( considers_THFTYPE_IiooI @ AGENT @ FORMULA ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1558,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lReleasing_THFTYPE_i @ lTransfer_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1559,axiom,
% 2.14/2.39      ! [HOLE: $i,OBJ1: $i] :
% 2.14/2.39        ( ( OBJ1
% 2.14/2.39          = ( lHoleSkinFn_THFTYPE_IiiI @ HOLE ) )
% 2.14/2.39       => ! [OBJ2: $i] :
% 2.14/2.39            ( ( overlapsSpatially_THFTYPE_IiioI @ OBJ2 @ OBJ1 )
% 2.14/2.39          <=> ? [OBJ3: $i] :
% 2.14/2.39                ( ( superficialPart_THFTYPE_IiioI @ OBJ3 @ ( lHoleHostFn_THFTYPE_IiiI @ HOLE ) )
% 2.14/2.39                & ( meetsSpatially_THFTYPE_IiioI @ HOLE @ OBJ3 )
% 2.14/2.39                & ( overlapsSpatially_THFTYPE_IiioI @ OBJ2 @ OBJ3 ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation EditionFn EnglishLanguage "A &%BinaryFunction that maps a type of text (e.g. Agatha Christie's Murder_on_the_Orient_Express) and a number to the edition of the text type corresponding to the number.")
% 2.14/2.39  thf(ax1560,axiom,
% 2.14/2.39      ! [MIXTURE: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ MIXTURE @ lMixture_THFTYPE_i )
% 2.14/2.39       => ? [PURE1: $i,PURE2: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ PURE1 @ lPureSubstance_THFTYPE_i )
% 2.14/2.39            & ( instance_THFTYPE_IiioI @ PURE2 @ lPureSubstance_THFTYPE_i )
% 2.14/2.39            & ( (~) @ ( PURE1 = PURE2 ) )
% 2.14/2.39            & ( part_THFTYPE_IiioI @ PURE1 @ MIXTURE )
% 2.14/2.39            & ( part_THFTYPE_IiioI @ PURE2 @ MIXTURE ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1561,axiom,
% 2.14/2.39      partition_THFTYPE_IiiiiiioI @ lWord_THFTYPE_i @ lNoun_THFTYPE_i @ lVerb_THFTYPE_i @ lAdjective_THFTYPE_i @ lAdverb_THFTYPE_i @ lParticleWord_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Eating EnglishLanguage "The &%Process by which solid &%Food is incorporated into an &%Animal.")
% 2.14/2.39  thf(ax1562,axiom,
% 2.14/2.39      ! [HOLE1: $i] :
% 2.14/2.39        ( ( attribute_THFTYPE_IiioI @ HOLE1 @ lFillable_THFTYPE_i )
% 2.14/2.39      <=> ? [HOLE2: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ HOLE2 @ lHole_THFTYPE_i )
% 2.14/2.39            & ( part_THFTYPE_IiioI @ HOLE1 @ HOLE2 ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation subrelation EnglishLanguage "(&%subrelation ?REL1 ?REL2) means that every tuple of ?REL1 is also a tuple of ?REL2. In other words, if the &%Relation ?REL1 holds for some arguments arg_1, arg_2, ... arg_n, then the &%Relation ?REL2 holds for the same arguments. A consequence of this is that a &%Relation and its subrelations must have the same &%valence.")
% 2.14/2.39  %KIF documentation:(documentation Unilluminated EnglishLanguage "The &%Attribute of &%Regions that are unilluminated, i.e in which no shapes are visually discernable.")
% 2.14/2.39  %KIF documentation:(documentation considers EnglishLanguage "(&%considers ?AGENT ?FORMULA) means that ?AGENT considers or wonders about the truth of the proposition expressed by ?FORMULA.")
% 2.14/2.39  %KIF documentation:(documentation HourDuration EnglishLanguage "Time unit. 1 hour = 60 minutes.")
% 2.14/2.39  thf(ax1563,axiom,
% 2.14/2.39      ! [INTERVAL: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ INTERVAL @ lTimeInterval_THFTYPE_i )
% 2.14/2.39       => ? [POINT: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ POINT @ lTimePoint_THFTYPE_i )
% 2.14/2.39            & ( temporalPart_THFTYPE_IiioI @ POINT @ INTERVAL ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1564,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lFalling_THFTYPE_i @ lTranslocation_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1565,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lUnaryFunction_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1566,axiom,
% 2.14/2.39      ! [POISON: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ POISON @ lPoisoning_THFTYPE_i )
% 2.14/2.39       => ? [SUBSTANCE: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ SUBSTANCE @ lBiologicallyActiveSubstance_THFTYPE_i )
% 2.14/2.39            & ( instrument_THFTYPE_IiioI @ POISON @ SUBSTANCE ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1567,axiom,
% 2.14/2.39      range_THFTYPE_IiioI @ lRemainderFn_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Government EnglishLanguage "The ruling body of a &%GeopoliticalArea.")
% 2.14/2.39  %KIF documentation:(documentation InheritableRelation EnglishLanguage "The class of &%Relations whose properties can be inherited downward in the class hierarchy via the &%subrelation &%Predicate.")
% 2.14/2.39  thf(ax1568,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lWater_THFTYPE_i @ lCompoundSubstance_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1569,axiom,
% 2.14/2.39      ! [OBJ: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ OBJ @ lObject_THFTYPE_i )
% 2.14/2.39       => ? [TIME1: $i,TIME2: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ TIME1 @ lTimePoint_THFTYPE_i )
% 2.14/2.39            & ( instance_THFTYPE_IiioI @ TIME2 @ lTimePoint_THFTYPE_i )
% 2.14/2.39            & ( before_THFTYPE_IiioI @ TIME1 @ TIME2 )
% 2.14/2.39            & ! [TIME: $i] :
% 2.14/2.39                ( ( ( beforeOrEqual_THFTYPE_IiioI @ TIME1 @ TIME )
% 2.14/2.39                  & ( beforeOrEqual_THFTYPE_IiioI @ TIME @ TIME2 ) )
% 2.14/2.39               => ( time_THFTYPE_IiioI @ OBJ @ TIME ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1570,axiom,
% 2.14/2.39      ! [REL: $i > $i > $o] :
% 2.14/2.39        ( ( instance_THFTYPE_IIiioIioI @ REL @ lTrichotomizingRelation_THFTYPE_i )
% 2.14/2.39      <=> ! [INST1: $i,INST2: $i] :
% 2.14/2.39            ( ( ( REL @ INST1 @ INST2 )
% 2.14/2.39              & ( (~) @ ( INST1 = INST2 ) )
% 2.14/2.39              & ( (~) @ ( REL @ INST2 @ INST1 ) ) )
% 2.14/2.39            | ( ( (~) @ ( REL @ INST1 @ INST2 ) )
% 2.14/2.39              & ( INST1 = INST2 )
% 2.14/2.39              & ( (~) @ ( REL @ INST2 @ INST1 ) ) )
% 2.14/2.39            | ( ( (~) @ ( REL @ INST1 @ INST2 ) )
% 2.14/2.39              & ( (~) @ ( INST1 = INST2 ) )
% 2.14/2.39              & ( REL @ INST2 @ INST1 ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1571,axiom,
% 2.14/2.39      ! [CLOUD: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ CLOUD @ lWaterCloud_THFTYPE_i )
% 2.14/2.39       => ? [WATER: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ WATER @ lWater_THFTYPE_i )
% 2.14/2.39            & ( part_THFTYPE_IiioI @ WATER @ CLOUD ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1572,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lFreshWaterArea_THFTYPE_i @ lWaterArea_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Combining EnglishLanguage "A &%Process where two or more &%SelfConnectedObjects are incorporated into a single &%SelfConnectedObject. Note that &%Combining is different from &%Attaching in that the former results in one of the objects being &%part of the other, while &%Attaching only results in the two objects being &%connected with one another. Note too that &%Combining is different from &%Putting in that one or both of the two things which are combined may or may not be moved from the location where they were combined.")
% 2.14/2.39  thf(ax1573,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation NonFloweringPlant EnglishLanguage "A &%Plant that reproduces with spores and does not produce flowers.")
% 2.14/2.39  thf(ax1574,axiom,
% 2.14/2.39      ! [PROCESS: $i,LOC: $i] :
% 2.14/2.39        ( ( origin_THFTYPE_IiioI @ PROCESS @ LOC )
% 2.14/2.39       => ( partlyLocated_THFTYPE_IiioI @ PROCESS @ LOC ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1575,axiom,
% 2.14/2.39      ! [OBJ: $i,HOLE2: $i,HOLE1: $i] :
% 2.14/2.39        ( ( ( hole_THFTYPE_IiioI @ HOLE1 @ OBJ )
% 2.14/2.39          & ( hole_THFTYPE_IiioI @ HOLE2 @ OBJ ) )
% 2.14/2.39       => ! [HOLE3: $i] :
% 2.14/2.39            ( ( part_THFTYPE_IiioI @ HOLE3 @ ( lMereologicalSumFn_THFTYPE_IiiiI @ HOLE1 @ HOLE2 ) )
% 2.14/2.39           => ( hole_THFTYPE_IiioI @ HOLE3 @ OBJ ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1576,axiom,
% 2.14/2.39      ! [MONTH: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ MONTH @ lOctober_THFTYPE_i )
% 2.14/2.39       => ( duration_THFTYPE_IiioI @ MONTH @ ( lMeasureFn_THFTYPE_IiiiI @ n31_THFTYPE_i @ lDayDuration_THFTYPE_i ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1577,axiom,
% 2.14/2.39      ! [SUBSTANCE1: $i,SUBSTANCE2: $i,PROC: $i] :
% 2.14/2.39        ( ( ( resource_THFTYPE_IiioI @ PROC @ SUBSTANCE1 )
% 2.14/2.39          & ( result_THFTYPE_IiioI @ PROC @ SUBSTANCE2 )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ SUBSTANCE1 @ lElementalSubstance_THFTYPE_i )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ SUBSTANCE2 @ lCompoundSubstance_THFTYPE_i ) )
% 2.14/2.39       => ( instance_THFTYPE_IiioI @ PROC @ lChemicalSynthesis_THFTYPE_i ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1578,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lChemicalDecomposition_THFTYPE_i @ lSeparating_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1579,axiom,
% 2.14/2.39      range_THFTYPE_IiioI @ lCeilingFn_THFTYPE_i @ lInteger_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1580,axiom,
% 2.14/2.39      ! [WIND: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ WIND @ lWind_THFTYPE_i )
% 2.14/2.39       => ? [AIR: $i] :
% 2.14/2.39            ( ( patient_THFTYPE_IiioI @ WIND @ AIR )
% 2.14/2.39            & ( instance_THFTYPE_IiioI @ AIR @ lAir_THFTYPE_i ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1581,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lInsect_THFTYPE_i @ lArthropod_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1582,axiom,
% 2.14/2.39      disjoint_THFTYPE_IiioI @ lSexualReproduction_THFTYPE_i @ lAsexualReproduction_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1583,axiom,
% 2.14/2.39      ! [RESIDENCE: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ RESIDENCE @ lSingleFamilyResidence_THFTYPE_i )
% 2.14/2.39       => ( hasPurpose_THFTYPE_IiooI @ RESIDENCE
% 2.14/2.39          @ ! [AGENT1: $i,AGENT2: $i] :
% 2.14/2.39              ( ( ( home_THFTYPE_IiioI @ AGENT1 @ RESIDENCE )
% 2.14/2.39                & ( home_THFTYPE_IiioI @ AGENT2 @ RESIDENCE ) )
% 2.14/2.39             => ? [UNIT: $i] :
% 2.14/2.39                  ( ( instance_THFTYPE_IiioI @ UNIT @ lSocialUnit_THFTYPE_i )
% 2.14/2.39                  & ( member_THFTYPE_IiioI @ AGENT1 @ UNIT )
% 2.14/2.39                  & ( member_THFTYPE_IiioI @ AGENT2 @ UNIT ) ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1584,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lAtom_THFTYPE_i @ lElementalSubstance_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation inhabits EnglishLanguage "A very basic notion of living within something else. (&%inhabits ?ORGANISM ?OBJECT) means that ?OBJECT is the residence (either permanent or temporary), nest, etc. of ?ORGANISM.")
% 2.14/2.39  thf(ax1585,axiom,
% 2.14/2.39      range_THFTYPE_IiioI @ lMereologicalSumFn_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1586,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lFiniteSet_THFTYPE_i @ lSet_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1587,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lHole_THFTYPE_i @ lRegion_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1588,axiom,
% 2.14/2.39      ! [P: $i,S1: $i,S2: $i] :
% 2.14/2.39        ( ( ( subProcess_THFTYPE_IiioI @ S1 @ P )
% 2.14/2.39          & ( subProcess_THFTYPE_IiioI @ S2 @ P ) )
% 2.14/2.39       => ( relatedEvent_THFTYPE_IiioI @ S1 @ S2 ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Nation EnglishLanguage "The broadest &%GeopoliticalArea, i.e. &%Nations are &%GeopoliticalAreas that are not part of any other overarching and comprehensive governance structure (excepting commonwealths and other sorts of loose international organizations).")
% 2.14/2.39  thf(ax1589,axiom,
% 2.14/2.39      ! [T1: $i,P2: $i,P1: $i] :
% 2.14/2.39        ( ( ( holdsDuring_THFTYPE_IiooI @ T1 @ ( spouse_THFTYPE_IiioI @ P1 @ P2 ) )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ T1 @ lTimeInterval_THFTYPE_i ) )
% 2.14/2.39       => ? [WED: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ WED @ lWedding_THFTYPE_i )
% 2.14/2.39            & ( patient_THFTYPE_IiioI @ WED @ P1 )
% 2.14/2.39            & ( patient_THFTYPE_IiioI @ WED @ P2 )
% 2.14/2.39            & ( earlier_THFTYPE_IiioI @ ( lWhenFn_THFTYPE_IiiI @ WED ) @ T1 ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1590,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lCharacter_THFTYPE_i @ lSymbolicString_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Artifact EnglishLanguage "A &%CorpuscularObject that is the product of a &%Making.")
% 2.14/2.39  thf(ax1591,axiom,
% 2.14/2.39      range_THFTYPE_IiioI @ lImmediateFamilyFn_THFTYPE_i @ lFamilyGroup_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1592,axiom,
% 2.14/2.39      ! [EVENT: $i,AGENT: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ EVENT @ lElection_THFTYPE_i )
% 2.14/2.39          & ( agent_THFTYPE_IiioI @ EVENT @ AGENT )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ AGENT @ lGeopoliticalArea_THFTYPE_i ) )
% 2.14/2.39       => ( instance_THFTYPE_IiioI @ EVENT @ lPoliticalProcess_THFTYPE_i ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1593,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lGeographicArea_THFTYPE_i @ lRegion_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation CosineFn EnglishLanguage "(&%CosineFn ?DEGREE) returns the cosine of the &%PlaneAngleMeasure ?DEGREE. The cosine of ?DEGREE is the ratio of the side next to ?DEGREE to the hypotenuse in a right-angled triangle.")
% 2.14/2.39  thf(ax1594,axiom,
% 2.14/2.39      ! [PATH: $i,NODE1: $i,NODE2: $i] :
% 2.14/2.39        ( ( ( lMaximalWeightedPathFn_THFTYPE_IiiiI @ NODE1 @ NODE2 )
% 2.14/2.39          = PATH )
% 2.14/2.39       => ( instance_THFTYPE_IiioI @ PATH @ ( lGraphPathFn_THFTYPE_IiiiI @ NODE1 @ NODE2 ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Manufacturer EnglishLanguage "Any &%Corporation which manufactures &%Products.")
% 2.14/2.39  thf(ax1595,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lPsychologicalDysfunction_THFTYPE_i @ lDiseaseOrSyndrome_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1596,axiom,
% 2.14/2.39      ! [T: $i,E: $i] :
% 2.14/2.39        ( ( involvedInEvent_THFTYPE_IiioI @ E @ T )
% 2.14/2.39       => ? [R: $i > $i > $o] :
% 2.14/2.39            ( ( instance_THFTYPE_IIiioIioI @ R @ lCaseRole_THFTYPE_i )
% 2.14/2.39            & ( subrelation_THFTYPE_IIiioIIiioIoI @ R @ involvedInEvent_THFTYPE_IiioI )
% 2.14/2.39            & ( R @ E @ T ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation domain EnglishLanguage "Provides a computationally and heuristically convenient mechanism for declaring the argument types of a given relation. The formula (&%domain ?REL ?INT ?CLASS) means that the ?INT'th element of each tuple in the relation ?REL must be an instance of ?CLASS. Specifying argument types is very helpful in maintaining ontologies. Representation systems can use these specifications to classify terms and check integrity constraints. If the restriction on the argument type of a &%Relation is not captured by a &%SetOrClass already defined in the ontology, one can specify a &%SetOrClass compositionally with the functions &%UnionFn, &%IntersectionFn, etc.")
% 2.14/2.39  thf(ax1597,axiom,
% 2.14/2.39      ! [OBJ: $i,HEAR: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ HEAR @ lHearing_THFTYPE_i )
% 2.14/2.39          & ( patient_THFTYPE_IiioI @ HEAR @ OBJ ) )
% 2.14/2.39       => ? [ATTR: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ ATTR @ lSoundAttribute_THFTYPE_i )
% 2.14/2.39            & ( attribute_THFTYPE_IiioI @ OBJ @ ATTR ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1598,axiom,
% 2.14/2.39      ! [OBJ1: $i,OBJ2: $i] :
% 2.14/2.39        ( ( overlapsPartially_THFTYPE_IiioI @ OBJ1 @ OBJ2 )
% 2.14/2.39      <=> ( ( (~) @ ( part_THFTYPE_IiioI @ OBJ1 @ OBJ2 ) )
% 2.14/2.39          & ( (~) @ ( part_THFTYPE_IiioI @ OBJ2 @ OBJ1 ) )
% 2.14/2.39          & ? [OBJ3: $i] :
% 2.14/2.39              ( ( part_THFTYPE_IiioI @ OBJ3 @ OBJ1 )
% 2.14/2.39              & ( part_THFTYPE_IiioI @ OBJ3 @ OBJ2 ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1599,axiom,
% 2.14/2.39      ! [FROM: $i,TRANSPORT: $i,MOVE: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ TRANSPORT @ lVehicle_THFTYPE_i )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ MOVE @ lTranslocation_THFTYPE_i )
% 2.14/2.39          & ( instrument_THFTYPE_IiioI @ MOVE @ TRANSPORT )
% 2.14/2.39          & ( origin_THFTYPE_IiioI @ MOVE @ FROM ) )
% 2.14/2.39       => ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ MOVE ) ) @ ( located_THFTYPE_IiioI @ TRANSPORT @ FROM ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation prefers EnglishLanguage "(&%prefers ?AGENT ?FORMULA1 ?FORMULA2) means that &%CognitiveAgent ?AGENT prefers the state of affairs expressed by ?FORMULA1 over the state of affairs expressed by ?FORMULA2 all things being equal.")
% 2.14/2.39  %KIF documentation:(documentation TernaryPredicate EnglishLanguage "The &%Class of &%Predicates that require exactly three arguments.")
% 2.14/2.39  thf(ax1600,axiom,
% 2.14/2.39      ! [POINT2: $i,POINT1: $i] :
% 2.14/2.39        ( ( beforeOrEqual_THFTYPE_IiioI @ POINT1 @ POINT2 )
% 2.14/2.39       => ( ( before_THFTYPE_IiioI @ POINT1 @ POINT2 )
% 2.14/2.39          | ( POINT1 = POINT2 ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1601,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lPeriodical_THFTYPE_i @ lSeries_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation connects EnglishLanguage "The relationship between three things, when one of the three things connects the other two. More formally, (&%connects ?OBJ1 ?OBJ2 ?OBJ3) means that (&%connected ?OBJ1 ?OBJ2) and (&%connected ?OBJ1 ?OBJ3) and not (&%connected ?OBJ2 ?OBJ3).")
% 2.14/2.39  thf(ax1602,axiom,
% 2.14/2.39      range_THFTYPE_IiioI @ lListFn_THFTYPE_i @ lList_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1603,axiom,
% 2.14/2.39      ! [DAY: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ DAY @ lDay_THFTYPE_i )
% 2.14/2.39       => ( ( lCardinalityFn_THFTYPE_IiiI @ ( lTemporalCompositionFn_THFTYPE_IiiiI @ DAY @ lHour_THFTYPE_i ) )
% 2.14/2.39          = n24_THFTYPE_i ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation TextureAttribute EnglishLanguage "Any &%Attribute that characterizes the texture of an &%Object.")
% 2.14/2.39  thf(ax1604,axiom,
% 2.14/2.39      ! [NUMBER: $i,QUANT: $i,UNIT: $i] :
% 2.14/2.39        ( ( ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ UNIT )
% 2.14/2.39            = QUANT )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ UNIT @ lUnitOfArea_THFTYPE_i ) )
% 2.14/2.39       => ( instance_THFTYPE_IiioI @ QUANT @ lAreaMeasure_THFTYPE_i ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1605,axiom,
% 2.14/2.39      ! [OBJ: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ OBJ @ lSelfConnectedObject_THFTYPE_i )
% 2.14/2.39      <=> ! [PART1: $i,PART2: $i] :
% 2.14/2.39            ( ( OBJ
% 2.14/2.39              = ( lMereologicalSumFn_THFTYPE_IiiiI @ PART1 @ PART2 ) )
% 2.14/2.39           => ( connected_THFTYPE_IiioI @ PART1 @ PART2 ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation immediateInstance EnglishLanguage "An object is an &%immediateInstance of a &%SetOrClass if it is an instance of the &%SetOrClass and it is not an instance of a proper subclass of &%SetOrClass.")
% 2.14/2.39  thf(ax1606,axiom,
% 2.14/2.39      ! [WED: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ WED @ lWedding_THFTYPE_i )
% 2.14/2.39       => ? [PERSON1: $i,PERSON2: $i] : ( holdsDuring_THFTYPE_IiooI @ ( lImmediateFutureFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ WED ) ) @ ( spouse_THFTYPE_IiioI @ PERSON1 @ PERSON2 ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1607,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lQuintaryRelation_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation FamilyGroup EnglishLanguage "A &%GroupOfPeople whose &%members bear &%familyRelations to one another.")
% 2.14/2.39  %KIF documentation:(documentation causesProposition EnglishLanguage "(&%causesProposition ?FORMULA1 ?FORMULA2) means that the state of affairs described by ?FORMULA1 causes, or mechanistically brings about, the state of affairs described by ?FORMULA2. Note that unlike &%entails, the time during which ?FORMULA2 holds cannot precede the time during which ?FORMULA1 holds, although ?FORMULA1 and ?FORMULA2 can hold simultaneously. Note, also, that &%causesProposition is a predicate, not a truth function. The following rule (contraposition) does not hold: (=> (causesProp ?FORMULA1 ?FORMULA2) (causesProp (not ?FORMULA2) (not ?FORMULA1))).")
% 2.14/2.39  thf(ax1608,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lQuintaryPredicate_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Organization EnglishLanguage "An &%Organization is a corporate or similar institution. The &%members of an &%Organization typically have a common purpose or function. Note that this class also covers divisions, departments, etc. of organizations. For example, both the Shell Corporation and the accounting department at Shell would both be instances of &%Organization. Note too that the existence of an &%Organization is dependent on the existence of at least one &%member (since &%Organization is a subclass of &%Collection). Accordingly, in cases of purely legal organizations, a fictitious &%member should be assumed.")
% 2.14/2.39  thf(ax1609,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lTernaryFunction_THFTYPE_i @ lFunction_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation SignumFn EnglishLanguage "(SignumFn ?NUMBER) denotes the sign of ?NUMBER. This is one of the following values: -1, 1, or 0.")
% 2.14/2.39  %KIF documentation:(documentation Maintaining EnglishLanguage "The &%Class of &%Processes where the &%agent cares for or maintains the &%Object.")
% 2.14/2.39  thf(ax1610,axiom,
% 2.14/2.39      range_THFTYPE_IiioI @ lProbabilityFn_THFTYPE_i @ lRealNumber_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1611,axiom,
% 2.14/2.39      ! [OBJECT: $i,SIDE: $i,PART: $i] :
% 2.14/2.39        ( ( ( side_THFTYPE_IiioI @ SIDE @ OBJECT )
% 2.14/2.39          & ( part_THFTYPE_IiioI @ PART @ OBJECT )
% 2.14/2.39          & ( (~) @ ( connected_THFTYPE_IiioI @ PART @ SIDE ) ) )
% 2.14/2.39       => ? [DIRECT: $i] : ( orientation_THFTYPE_IiiioI @ SIDE @ PART @ DIRECT ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1612,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lColorAttribute_THFTYPE_i @ lInternalAttribute_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1613,axiom,
% 2.14/2.39      ! [BOIL: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ BOIL @ lBoiling_THFTYPE_i )
% 2.14/2.39       => ? [HEAT: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ HEAT @ lHeating_THFTYPE_i )
% 2.14/2.39            & ( subProcess_THFTYPE_IiioI @ HEAT @ BOIL ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1614,axiom,
% 2.14/2.39      partition_THFTYPE_IiiioI @ lPsychologicalAttribute_THFTYPE_i @ lStateOfMind_THFTYPE_i @ lTraitAttribute_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1615,axiom,
% 2.14/2.39      ! [CLASS: $i,ATTR: $i] :
% 2.14/2.39        ( ( ( lAbstractionFn_THFTYPE_IiiI @ CLASS )
% 2.14/2.39          = ATTR )
% 2.14/2.39      <=> ! [INST: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ INST @ CLASS )
% 2.14/2.39          <=> ( property_THFTYPE_IiioI @ INST @ ATTR ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1616,axiom,
% 2.14/2.39      ! [WEEK: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ WEEK @ lWeek_THFTYPE_i )
% 2.14/2.39       => ( duration_THFTYPE_IiioI @ WEEK @ ( lMeasureFn_THFTYPE_IiiiI @ n1_THFTYPE_i @ lWeekDuration_THFTYPE_i ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1617,axiom,
% 2.14/2.39      ! [ORG: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ ORG @ lOrganism_THFTYPE_i )
% 2.14/2.39       => ? [ATTR: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ ATTR @ lAnimacyAttribute_THFTYPE_i )
% 2.14/2.39            & ( attribute_THFTYPE_IiioI @ ORG @ ATTR ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Continent EnglishLanguage "As defined in the CIA World Fact Book, &%Continent covers seven land masses: &%Africa, &%NorthAmerica, &%SouthAmerica, &%Antarctica, &%Europe, &%Asia, and &%Oceania. Note that &%Australia, counted as a continent in some other systems, is included in &%Oceania in the Fact Book. As a consequence, there is no &%Nation which is also a &%Continent.")
% 2.14/2.39  thf(ax1618,axiom,
% 2.14/2.39      ! [OBJ: $i,MOTION: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ MOTION @ lLiquidMotion_THFTYPE_i )
% 2.14/2.39          & ( patient_THFTYPE_IiioI @ MOTION @ OBJ ) )
% 2.14/2.39       => ( attribute_THFTYPE_IiioI @ OBJ @ lLiquid_THFTYPE_i ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1619,axiom,
% 2.14/2.39      ! [MEMBER: $i,GROUP: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ GROUP @ lGroupOfPeople_THFTYPE_i )
% 2.14/2.39          & ( member_THFTYPE_IiioI @ MEMBER @ GROUP ) )
% 2.14/2.39       => ( instance_THFTYPE_IiioI @ MEMBER @ lHuman_THFTYPE_i ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1620,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lArachnid_THFTYPE_i @ lArthropod_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation PhysicalState EnglishLanguage "The physical state of an &%Object. There are three reified instances of this &%Class: &%Solid, &%Liquid, and &%Gas. Physical changes are not characterized by the transformation of one substance into another, but rather by the change of the form (physical states) of a given substance. For example, melting an iron nail yields a substance still called iron.")
% 2.14/2.39  thf(ax1621,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lFeline_THFTYPE_i @ lCarnivore_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1622,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lBlood_THFTYPE_i @ lBodySubstance_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1623,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lOrdering_THFTYPE_i @ lDirecting_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1624,axiom,
% 2.14/2.39      ! [DEVELOP: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ DEVELOP @ lContentDevelopment_THFTYPE_i )
% 2.14/2.39       => ? [OBJ: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ OBJ @ lContentBearingObject_THFTYPE_i )
% 2.14/2.39            & ( result_THFTYPE_IiioI @ DEVELOP @ OBJ ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Female EnglishLanguage "An &%Attribute indicating that an &%Organism is female in nature.")
% 2.14/2.39  thf(ax1625,axiom,
% 2.14/2.39      ! [REL2: $i,CLASS1: $i,CLASS2: $i,REL1: $i] :
% 2.14/2.39        ( ( ( range_THFTYPE_IiioI @ REL1 @ CLASS1 )
% 2.14/2.39          & ( range_THFTYPE_IiioI @ REL2 @ CLASS2 )
% 2.14/2.39          & ( disjoint_THFTYPE_IiioI @ CLASS1 @ CLASS2 ) )
% 2.14/2.39       => ( disjointRelation_THFTYPE_IiioI @ REL1 @ REL2 ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Counting EnglishLanguage "Enumerating something. The &%Class of &%Calculating &%Processes where the aim is to determine the &%Number corresponding to the &%patient.")
% 2.14/2.39  thf(ax1626,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lVerbPhrase_THFTYPE_i @ lPhrase_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1627,axiom,
% 2.14/2.39      ! [OBJ: $i,PUT: $i,PLACE: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ PUT @ lPutting_THFTYPE_i )
% 2.14/2.39          & ( destination_THFTYPE_IiioI @ PUT @ PLACE )
% 2.14/2.39          & ( patient_THFTYPE_IiioI @ PUT @ OBJ ) )
% 2.14/2.39       => ( ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ PUT ) ) @ ( (~) @ ( located_THFTYPE_IiioI @ OBJ @ PLACE ) ) )
% 2.14/2.39          & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ PUT ) ) @ ( located_THFTYPE_IiioI @ OBJ @ PLACE ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1628,axiom,
% 2.14/2.39      ! [ORGANISM: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ ORGANISM @ lOrganism_THFTYPE_i )
% 2.14/2.39       => ? [PARENT: $i] : ( parent_THFTYPE_IiioI @ ORGANISM @ PARENT ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1629,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lText_THFTYPE_i @ lLinguisticExpression_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1630,axiom,
% 2.14/2.39      ! [INT2: $i,INT1: $i] :
% 2.14/2.39        ( ( ( lPredecessorFn_THFTYPE_IiiI @ INT1 )
% 2.14/2.39          = ( lPredecessorFn_THFTYPE_IiiI @ INT2 ) )
% 2.14/2.39       => ( INT1 = INT2 ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1631,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lPollen_THFTYPE_i @ lReproductiveBody_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1632,axiom,
% 2.14/2.39      ! [ORG: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ ORG @ lGovernmentOrganization_THFTYPE_i )
% 2.14/2.39      <=> ? [GOV: $i] :
% 2.14/2.39            ( ( instance_THFTYPE_IiioI @ GOV @ lGovernment_THFTYPE_i )
% 2.14/2.39            & ( subOrganization_THFTYPE_IiioI @ ORG @ GOV ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Character EnglishLanguage "An element of an alphabet, a set of numerals, etc. Note that a &%Character may or may not be part of a &%Language. &%Character is a subclass of &%SymbolicString, because every instance of &%Character is an alphanumeric sequence consisting of a single element.")
% 2.14/2.39  %KIF documentation:(documentation ParticleWord EnglishLanguage "An umbrella &%Class for any &%Word that does not fit into the other subclasses of &%Word. A &%ParticleWord is generally a small term that serves a grammatical or logical function, e.g. 'and', 'of', 'since', etc. At some point, this class might be broken up into the subclasses 'Connective', 'Preposition', etc. Note that the class &%ParticleWord includes both personal and possessive pronouns, e.g. 'she', 'hers', 'it', 'its', etc.")
% 2.14/2.39  thf(ax1633,axiom,
% 2.14/2.39      ! [INTERVAL: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ INTERVAL @ lTimeInterval_THFTYPE_i )
% 2.14/2.39       => ( ( lFutureFn_THFTYPE_IiiI @ INTERVAL )
% 2.14/2.39          = ( lTimeIntervalFn_THFTYPE_IiiiI @ ( lEndFn_THFTYPE_IiiI @ INTERVAL ) @ lPositiveInfinity_THFTYPE_i ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation RadiatingLight EnglishLanguage "The &%subclass of &%Radiating in which light is given off or absorbed. Some examples include blinking, flashing, and glittering.")
% 2.14/2.39  %KIF documentation:(documentation Motion EnglishLanguage "Any &%Process of movement.")
% 2.14/2.39  thf(ax1634,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lLooking_THFTYPE_i @ lSeeing_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Bit EnglishLanguage "One &%Bit of information. A one or a zero.")
% 2.14/2.39  thf(ax1635,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lWaterCloud_THFTYPE_i @ lCloud_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1636,axiom,
% 2.14/2.39      ! [STRING: $i] :
% 2.14/2.39        ( ( instance_THFTYPE_IiioI @ STRING @ lSymbolicString_THFTYPE_i )
% 2.14/2.39       => ? [PART: $i] :
% 2.14/2.39            ( ( part_THFTYPE_IiioI @ PART @ STRING )
% 2.14/2.39            & ( instance_THFTYPE_IiioI @ PART @ lCharacter_THFTYPE_i ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1637,axiom,
% 2.14/2.39      disjoint_THFTYPE_IiioI @ lGeologicalProcess_THFTYPE_i @ lIntentionalProcess_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1638,axiom,
% 2.14/2.39      ! [OBJ: $i,AGENT: $i] :
% 2.14/2.39        ( ( uses_THFTYPE_IiioI @ OBJ @ AGENT )
% 2.14/2.39       => ? [PROC: $i] :
% 2.14/2.39            ( ( agent_THFTYPE_IiioI @ PROC @ AGENT )
% 2.14/2.39            & ( instrument_THFTYPE_IiioI @ PROC @ OBJ ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation StateOrProvince EnglishLanguage "Administrative subdivisions of a &%Nation that are broader than any other political subdivisions that may exist. This &%Class includes the states of the United States, as well as the provinces of Canada and European countries.")
% 2.14/2.39  %KIF documentation:(documentation Releasing EnglishLanguage "Any instance of &%Transfer which results in a situation where it is not the case that the &%agent &%grasps something which he/ she &%grasps previously.")
% 2.14/2.39  thf(ax1639,axiom,
% 2.14/2.39      contraryAttribute_THFTYPE_IoooI @ $false @ $true ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation piece EnglishLanguage "A specialized common sense notion of part for arbitrary parts of &%Substances. Quasi-synonyms are: chunk, hunk, bit, etc. Compare &%component, another subrelation of &%part.")
% 2.14/2.39  thf(ax1640,axiom,
% 2.14/2.39      range_THFTYPE_IiioI @ lFrontFn_THFTYPE_i @ lSelfConnectedObject_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1641,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lTernaryFunction_THFTYPE_i @ lQuaternaryRelation_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation September EnglishLanguage "The &%Class of all &%Months which are September.")
% 2.14/2.39  thf(ax1642,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lGuiding_THFTYPE_i @ lIntentionalProcess_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1643,axiom,
% 2.14/2.39      range_THFTYPE_IiioI @ lMilliFn_THFTYPE_i @ lUnitOfMeasure_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Weber EnglishLanguage "SI magnetic flux measure. Symbol: Wb. It is the magnetic flux which, linking a circuit of one turn, produces in it an electromotive force of 1 &%Volt as it is reduced to zero at a uniform rate in 1 &%SecondDuration. &%Weber = V*s = m^2*kg*s^(-2)*A^(-1).")
% 2.14/2.39  thf(ax1644,axiom,
% 2.14/2.39      ! [NUMBER: $i,REL: $i > $o] :
% 2.14/2.39        ( ( valence_THFTYPE_IIioIioI @ REL @ NUMBER )
% 2.14/2.39       => ! [ROW: $i] :
% 2.14/2.39            ( ( REL @ ROW )
% 2.14/2.39           => ( ( lListLengthFn_THFTYPE_IiiI @ ( lListFn_THFTYPE_IiiI @ ROW ) )
% 2.14/2.39              = NUMBER ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation MutuallyDisjointClass EnglishLanguage "A &%SetOrClass is a &%MutuallyDisjointClass just in case there exists nothing which is an instance of all of the instances of the original &%SetOrClass.")
% 2.14/2.39  %KIF documentation:(documentation Offering EnglishLanguage "The subclass of &%Committing in which a &%CognitiveAgent offers something &%Physical to another agent. Offerings may be unconditional (in which case they are a promise to effect a &%UnilateralGiving) or conditional (in which case they are a promise to effect a &%Transaction of some sort).")
% 2.14/2.39  thf(ax1645,axiom,
% 2.14/2.39      ! [MONTH1: $i,MONTH2: $i,YEAR: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ MONTH1 @ ( lMonthFn_THFTYPE_IiiiI @ lMarch_THFTYPE_i @ YEAR ) )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ MONTH2 @ ( lMonthFn_THFTYPE_IiiiI @ lApril_THFTYPE_i @ YEAR ) ) )
% 2.14/2.39       => ( meetsTemporally_THFTYPE_IiioI @ MONTH1 @ MONTH2 ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation TimeDependentQuantity EnglishLanguage "A &%UnaryConstantFunctionQuantity of continuous time. All instances of this &%Class are returned by &%Functions that map a time quantity into another &%ConstantQuantity such as temperature. For example, 'the temperature at the top of the Empire State Building' is a &%TimeDependentQuantity, since its value depends on the time.")
% 2.14/2.39  thf(ax1646,axiom,
% 2.14/2.39      ! [CLASS: $i,FUNCTION: $i] :
% 2.14/2.39        ( ( ( closedOn_THFTYPE_IiioI @ FUNCTION @ CLASS )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ FUNCTION @ lBinaryFunction_THFTYPE_i ) )
% 2.14/2.39       => ! [INST1: $i,INST2: $i] :
% 2.14/2.39            ( ( ( instance_THFTYPE_IiioI @ INST1 @ CLASS )
% 2.14/2.39              & ( instance_THFTYPE_IiioI @ INST2 @ CLASS ) )
% 2.14/2.39           => ( instance_THFTYPE_IiioI @ ( lAssignmentFn_THFTYPE_IiiiiI @ FUNCTION @ INST1 @ INST2 ) @ CLASS ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation FunctionQuantity EnglishLanguage "A &%FunctionQuantity is a &%PhysicalQuantity that is returned by a &%Function that maps from one or more instances of &%ConstantQuantity to another instance of &%ConstantQuantity. For example, the velocity of a particle would be represented by a &%FunctionQuantity relating values of time (which are instances of &%ConstantQuantity) to values of distance (also instances of &%ConstantQuantity). Note that all elements of the range of the &%Function corresponding to a &%FunctionQuantity have the same physical dimension as the &%FunctionQuantity itself.")
% 2.14/2.39  %KIF documentation:(documentation Red EnglishLanguage "The &%Attribute of redness.")
% 2.14/2.39  thf(ax1647,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lAquaticMammal_THFTYPE_i @ lMammal_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1648,axiom,
% 2.14/2.39      ! [OBJ: $i,HOLE: $i] :
% 2.14/2.39        ( ? [TIME: $i] : ( holdsDuring_THFTYPE_IiooI @ TIME @ ( fills_THFTYPE_IiioI @ OBJ @ HOLE ) )
% 2.14/2.39       => ( attribute_THFTYPE_IiioI @ HOLE @ lFillable_THFTYPE_i ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1649,axiom,
% 2.14/2.39      ! [CHANGE: $i,OBJ: $i,AGENT2: $i,AGENT1: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ CHANGE @ lChangeOfPossession_THFTYPE_i )
% 2.14/2.39          & ( origin_THFTYPE_IiioI @ CHANGE @ AGENT1 )
% 2.14/2.39          & ( destination_THFTYPE_IiioI @ CHANGE @ AGENT2 )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ AGENT1 @ lAgent_THFTYPE_i )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ AGENT2 @ lAgent_THFTYPE_i )
% 2.14/2.39          & ( patient_THFTYPE_IiioI @ CHANGE @ OBJ ) )
% 2.14/2.39       => ( ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ CHANGE ) ) @ ( possesses_THFTYPE_IiioI @ AGENT1 @ OBJ ) )
% 2.14/2.39          & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ CHANGE ) ) @ ( possesses_THFTYPE_IiioI @ AGENT2 @ OBJ ) ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1650,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lGrowth_THFTYPE_i @ lAutonomicProcess_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation wife EnglishLanguage "(&%wife ?WOMAN ?MAN) means that ?WOMAN is the wife of ?MAN.")
% 2.14/2.39  thf(ax1651,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lUnilateralGetting_THFTYPE_i @ lGetting_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Graph EnglishLanguage "The &%Class of graphs, where a graph is understood to be a set of &%GraphNodes connected by &%GraphArcs. Note that this &%Class includes only connected graphs, i.e. graphs in which there is a &%GraphPath between any two &%GraphNodes. Note too that every &%Graph is required to contain at least two &%GraphArcs and three &%GraphNodes.")
% 2.14/2.39  %KIF documentation:(documentation contraryAttribute EnglishLanguage "A &%contraryAttribute is a set of &%Attributes such that something can not simultaneously have more than one of these &%Attributes. For example, (&%contraryAttribute &%Pliable &%Rigid) means that nothing can be both &%Pliable and &%Rigid.")
% 2.14/2.39  thf(ax1652,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lThursday_THFTYPE_i @ lDay_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  thf(ax1653,axiom,
% 2.14/2.39      ! [LANG: $i,AGENT: $i,PROC: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ LANG @ lComputerLanguage_THFTYPE_i )
% 2.14/2.39          & ( agent_THFTYPE_IiioI @ PROC @ AGENT )
% 2.14/2.39          & ( instrument_THFTYPE_IiioI @ PROC @ LANG ) )
% 2.14/2.39       => ( instance_THFTYPE_IiioI @ AGENT @ lMachine_THFTYPE_i ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation RationalNumber EnglishLanguage "Any &%RealNumber that is the product of dividing two &%Integers.")
% 2.14/2.39  thf(ax1654,axiom,
% 2.14/2.39      subclass_THFTYPE_IiioI @ lSocialUnit_THFTYPE_i @ lGroupOfPeople_THFTYPE_i ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Canine EnglishLanguage "The &%Class of &%Carnivores with completely separable toes, nonretractable claws, and long muzzles.")
% 2.14/2.39  thf(ax1655,axiom,
% 2.14/2.39      ! [AA: $i,AN: $i,PA: $i,PN: $i,G: $i,N: $i,M: $i] :
% 2.14/2.39        ( ( ( graphMeasure_THFTYPE_IiioI @ G @ M )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ AN @ lGraphNode_THFTYPE_i )
% 2.14/2.39          & ( instance_THFTYPE_IiioI @ AA @ lGraphArc_THFTYPE_i )
% 2.14/2.39          & ( abstractCounterpart_THFTYPE_IiioI @ AN @ PN )
% 2.14/2.39          & ( abstractCounterpart_THFTYPE_IiioI @ AA @ PA )
% 2.14/2.39          & ( arcWeight_THFTYPE_IiioI @ AA @ ( lMeasureFn_THFTYPE_IiiiI @ N @ M ) ) )
% 2.14/2.39       => ( measure_THFTYPE_IiioI @ PA @ ( lMeasureFn_THFTYPE_IiiiI @ N @ M ) ) ) ).
% 2.14/2.39  
% 2.14/2.39  %KIF documentation:(documentation Likely EnglishLanguage "The &%ProbabilityAttribute of being probable, i.e. more likely than not to be &%True.")
% 2.14/2.39  thf(ax1656,axiom,
% 2.14/2.39      ! [OBJ1: $i,OBJ2: $i] :
% 2.14/2.39        ( ( ( instance_THFTYPE_IiioI @ OBJ1 @ lObject_THFTYPE_i )
% 2.14/2.40          & ( partlyLocated_THFTYPE_IiioI @ OBJ1 @ OBJ2 ) )
% 2.14/2.40       => ? [SUB: $i] :
% 2.14/2.40            ( ( part_THFTYPE_IiioI @ SUB @ OBJ1 )
% 2.14/2.40            & ( located_THFTYPE_IiioI @ SUB @ OBJ2 ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1657,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lEgg_THFTYPE_i @ lAnimalAnatomicalStructure_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1658,axiom,
% 2.14/2.40      ! [PHYS2: $i,PHYS1: $i] :
% 2.14/2.40        ( ( cooccur_THFTYPE_IiioI @ PHYS1 @ PHYS2 )
% 2.14/2.40      <=> ( ( lWhenFn_THFTYPE_IiiI @ PHYS1 )
% 2.14/2.40          = ( lWhenFn_THFTYPE_IiiI @ PHYS2 ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1659,axiom,
% 2.14/2.40      ! [OBJ1: $i,OBJ2: $i,HEIGHT: $i] :
% 2.14/2.40        ( ( altitude_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ HEIGHT )
% 2.14/2.40       => ? [TOP: $i] :
% 2.14/2.40            ( ( top_THFTYPE_IiioI @ TOP @ OBJ1 )
% 2.14/2.40            & ( distance_THFTYPE_IiiioI @ TOP @ OBJ2 @ HEIGHT ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation MultiGraph EnglishLanguage "The &%Class of multigraphs. A multigraph is a &%Graph containing at least one pair of &%GraphNodes that are connected by more than one &%GraphArc.")
% 2.14/2.40  thf(ax1660,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lFieldOfStudy_THFTYPE_i @ lProposition_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1661,axiom,
% 2.14/2.40      ! [OBJ: $i,HOLE: $i] :
% 2.14/2.40        ( ( hole_THFTYPE_IiioI @ HOLE @ OBJ )
% 2.14/2.40       => ( (~) @ ( instance_THFTYPE_IiioI @ OBJ @ lHole_THFTYPE_i ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1662,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lStateChange_THFTYPE_i @ lInternalChange_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation GeographicArea EnglishLanguage "A geographic location, generally having definite boundaries. Note that this differs from its immediate superclass &%Region in that a &%GeographicArea is a three-dimensional &%Region of the earth. Accordingly, all astronomical objects other than earth and all one-dimensional and two-dimensional &%Regions are not classed under &%GeographicArea.")
% 2.14/2.40  thf(ax1663,axiom,
% 2.14/2.40      ! [OBJ: $i,PART: $i,COLOR: $i] :
% 2.14/2.40        ( ( ( attribute_THFTYPE_IiioI @ OBJ @ lMonochromatic_THFTYPE_i )
% 2.14/2.40          & ( superficialPart_THFTYPE_IiioI @ PART @ OBJ )
% 2.14/2.40          & ( attribute_THFTYPE_IiioI @ PART @ COLOR )
% 2.14/2.40          & ( instance_THFTYPE_IiioI @ COLOR @ lPrimaryColor_THFTYPE_i ) )
% 2.14/2.40       => ! [ELEMENT: $i] :
% 2.14/2.40            ( ( superficialPart_THFTYPE_IiioI @ ELEMENT @ OBJ )
% 2.14/2.40           => ( attribute_THFTYPE_IiioI @ ELEMENT @ COLOR ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1664,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lTouching_THFTYPE_i @ lTransfer_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1665,axiom,
% 2.14/2.40      ! [PATIENT: $i,AGENT: $i,TRANSFER: $i] :
% 2.14/2.40        ( ( ( instance_THFTYPE_IiioI @ TRANSFER @ lTransfer_THFTYPE_i )
% 2.14/2.40          & ( agent_THFTYPE_IiioI @ TRANSFER @ AGENT )
% 2.14/2.40          & ( patient_THFTYPE_IiioI @ TRANSFER @ PATIENT ) )
% 2.14/2.40       => ( (~) @ ( AGENT = PATIENT ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation NanoFn EnglishLanguage "A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to .000000001 units of the original &%UnitOfMeasure. For example, (&%MicroFn &%SecondDuration) is .000000001 &%SecondDurations.")
% 2.14/2.40  thf(ax1666,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lRelationalAttribute_THFTYPE_i @ lAttribute_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1667,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lElectron_THFTYPE_i @ lSubatomicParticle_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1668,axiom,
% 2.14/2.40      ! [OBJ1: $i,OBJ2: $i,OBJ3: $i] :
% 2.14/2.40        ( ( OBJ3
% 2.14/2.40          = ( lMereologicalDifferenceFn_THFTYPE_IiiiI @ OBJ1 @ OBJ2 ) )
% 2.14/2.40       => ! [PART: $i] :
% 2.14/2.40            ( ( properPart_THFTYPE_IiioI @ PART @ OBJ3 )
% 2.14/2.40          <=> ( ( properPart_THFTYPE_IiioI @ PART @ OBJ1 )
% 2.14/2.40              & ( (~) @ ( properPart_THFTYPE_IiioI @ PART @ OBJ2 ) ) ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1669,axiom,
% 2.14/2.40      partition_THFTYPE_IiiioI @ lQuantityChange_THFTYPE_i @ lIncreasing_THFTYPE_i @ lDecreasing_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1670,axiom,
% 2.14/2.40      ! [ALT: $i,OBJ: $i] :
% 2.14/2.40        ( ( ( instance_THFTYPE_IiioI @ ALT @ lSurfaceChange_THFTYPE_i )
% 2.14/2.40          & ( patient_THFTYPE_IiioI @ ALT @ OBJ ) )
% 2.14/2.40       => ? [PART: $i,PROPERTY: $i] :
% 2.14/2.40            ( ( superficialPart_THFTYPE_IiioI @ PART @ OBJ )
% 2.14/2.40            & ( ( ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ ALT ) ) @ ( attribute_THFTYPE_IiioI @ PART @ PROPERTY ) )
% 2.14/2.40                & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ ALT ) ) @ ( (~) @ ( attribute_THFTYPE_IiioI @ PART @ PROPERTY ) ) ) )
% 2.14/2.40              | ( ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ ALT ) ) @ ( (~) @ ( attribute_THFTYPE_IiioI @ PART @ PROPERTY ) ) )
% 2.14/2.40                & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ ALT ) ) @ ( attribute_THFTYPE_IiioI @ PART @ PROPERTY ) ) ) ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation Awake EnglishLanguage "&%Attribute that applies to &%Organisms that are neither &%Unconscious nor &%Asleep.")
% 2.14/2.40  thf(ax1671,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lReptile_THFTYPE_i @ lColdBloodedVertebrate_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation SexualReproduction EnglishLanguage "Sexual &%Processes of biological reproduction.")
% 2.14/2.40  thf(ax1672,axiom,
% 2.14/2.40      ! [ARC: $i,NODE1: $i,NODE2: $i] :
% 2.14/2.40        ( ( links_THFTYPE_IiiioI @ NODE1 @ NODE2 @ ARC )
% 2.14/2.40       => ( links_THFTYPE_IiiioI @ NODE2 @ NODE1 @ ARC ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1673,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lFriday_THFTYPE_i @ lDay_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1674,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lRadiatingElectromagnetic_THFTYPE_i @ lRadiating_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation GraphLoop EnglishLanguage "A &%GraphArc in which a &%GraphNode is linked to itself.")
% 2.14/2.40  %KIF documentation:(documentation Vocalizing EnglishLanguage "Any instance of &%RadiatingSound where the &%instrument is the &%Human vocal cords. This covers grunts, screams, roars, as well as &%Speaking.")
% 2.14/2.40  %KIF documentation:(documentation PowerSetFn EnglishLanguage "(&%PowerSetFn ?CLASS) maps the &%SetOrClass ?CLASS to the &%SetOrClass of all &%subclasses of ?CLASS.")
% 2.14/2.40  thf(ax1675,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lLinguisticExpression_THFTYPE_i @ lContentBearingPhysical_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1676,axiom,
% 2.14/2.40      ! [NANOUNIT: $i,UNIT: $i] :
% 2.14/2.40        ( ( ( instance_THFTYPE_IiioI @ UNIT @ lUnitOfMeasure_THFTYPE_i )
% 2.14/2.40          & ( NANOUNIT
% 2.14/2.40            = ( lNanoFn_THFTYPE_IiiI @ UNIT ) ) )
% 2.14/2.40       => ( ( lMeasureFn_THFTYPE_IiiiI @ n1_THFTYPE_i @ NANOUNIT )
% 2.14/2.40          = ( lMeasureFn_THFTYPE_IiiiI @ n0dot000000001_THFTYPE_i @ UNIT ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1677,axiom,
% 2.14/2.40      ! [NUMBER: $i] :
% 2.14/2.40        ( ( instance_THFTYPE_IiioI @ NUMBER @ lComplexNumber_THFTYPE_i )
% 2.14/2.40       => ? [PART1: $i,PART2: $i] :
% 2.14/2.40            ( ( PART1
% 2.14/2.40              = ( lRealNumberFn_THFTYPE_IiiI @ NUMBER ) )
% 2.14/2.40            & ( PART2
% 2.14/2.40              = ( lImaginaryPartFn_THFTYPE_IiiI @ NUMBER ) ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1678,axiom,
% 2.14/2.40      ! [AGENT: $i,DEFENSE: $i] :
% 2.14/2.40        ( ( ( instance_THFTYPE_IiioI @ DEFENSE @ lDefensiveManeuver_THFTYPE_i )
% 2.14/2.40          & ( agent_THFTYPE_IiioI @ DEFENSE @ AGENT ) )
% 2.14/2.40       => ( hasPurposeForAgent_THFTYPE_IioioI @ DEFENSE
% 2.14/2.40          @ ( (~)
% 2.14/2.40            @ ? [DAMAGE: $i] :
% 2.14/2.40                ( ( instance_THFTYPE_IiioI @ DAMAGE @ lDamaging_THFTYPE_i )
% 2.14/2.40                & ( patient_THFTYPE_IiioI @ DAMAGE @ AGENT ) ) )
% 2.14/2.40          @ AGENT ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1679,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lQuaternaryPredicate_THFTYPE_i @ lPredicate_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1680,axiom,
% 2.14/2.40      ! [LANG: $i,AGENT: $i,PROC: $i] :
% 2.14/2.40        ( ( ( instance_THFTYPE_IiioI @ LANG @ lHumanLanguage_THFTYPE_i )
% 2.14/2.40          & ( agent_THFTYPE_IiioI @ PROC @ AGENT )
% 2.14/2.40          & ( instrument_THFTYPE_IiioI @ PROC @ LANG ) )
% 2.14/2.40       => ( instance_THFTYPE_IiioI @ AGENT @ lHuman_THFTYPE_i ) ) ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation ContentDevelopment EnglishLanguage "A &%subclass of &%IntentionalProcess in which content is modified, its form is altered or it is created anew.")
% 2.14/2.40  thf(ax1681,axiom,
% 2.14/2.40      ! [NUMBER: $i] :
% 2.14/2.40        ( ( NUMBER
% 2.14/2.40          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.40       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lMegaByte_THFTYPE_i )
% 2.14/2.40          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n1024_THFTYPE_i ) @ lKiloByte_THFTYPE_i ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1682,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lStaticWaterArea_THFTYPE_i @ lWaterArea_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1683,axiom,
% 2.14/2.40      range_THFTYPE_IiioI @ lComplementFn_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation NakedPromise EnglishLanguage "A &%Promise where nothing is promised in return, i.e. a nudum pactum.")
% 2.14/2.40  %KIF documentation:(documentation Verb EnglishLanguage "One of the parts of speech. The &%Class of &%Words that conventionally denote &%Processes.")
% 2.14/2.40  %KIF documentation:(documentation TrichotomizingRelation EnglishLanguage "A &%BinaryRelation ?REL is a &%TrichotomizingRelation just in case all ordered pairs consisting of distinct individuals are elements of ?REL.")
% 2.14/2.40  thf(ax1684,axiom,
% 2.14/2.40      ! [BEV: $i] :
% 2.14/2.40        ( ( instance_THFTYPE_IiioI @ BEV @ lBeverage_THFTYPE_i )
% 2.14/2.40       => ( attribute_THFTYPE_IiioI @ BEV @ lLiquid_THFTYPE_i ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1685,axiom,
% 2.14/2.40      ! [MONTH: $i] :
% 2.14/2.40        ( ( instance_THFTYPE_IiioI @ MONTH @ lSeptember_THFTYPE_i )
% 2.14/2.40       => ( duration_THFTYPE_IiioI @ MONTH @ ( lMeasureFn_THFTYPE_IiiiI @ n30_THFTYPE_i @ lDayDuration_THFTYPE_i ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation UnitOfInformation EnglishLanguage "Every instance of this &%Class is a &%UnitOfMeasure that can be used with &%MeasureFn to form instances of &%InformationMeasure.")
% 2.14/2.40  thf(ax1686,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lProbabilityAttribute_THFTYPE_i @ lObjectiveNorm_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation Funding EnglishLanguage "Any instance of &%Giving where the &%patient is an instance of &%Currency. Note that this class covers both financing, e.g. where a firm funds a software company with venture capital with the agreement that a certain percentage of the profits on the investment will be returned to the firm, and instances of &%UnilateralGiving, e.g. providing a tuition waiver and/ or a stipend to a student as part of scholarship or fellowship.")
% 2.14/2.40  thf(ax1687,axiom,
% 2.14/2.40      ! [X: $i] :
% 2.14/2.40        ( ( instance_THFTYPE_IiioI @ X @ lPositiveInteger_THFTYPE_i )
% 2.14/2.40       => ( gt_THFTYPE_IiioI @ X @ n0_THFTYPE_i ) ) ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation AssociativeFunction EnglishLanguage "A &%BinaryFunction is associative if bracketing has no effect on the value returned by the &%Function. More precisely, a &%Function ?FUNCTION is associative just in case (?FUNCTION ?INST1 (?FUNCTION ?INST2 ?INST3)) is equal to (?FUNCTION (?FUNCTION ?INST1 ?INST2) ?INST3), for all ?INST1, ?INST2, and ?INST3.")
% 2.14/2.40  thf(ax1688,axiom,
% 2.14/2.40      ! [POINT3: $i,POINT2: $i,POINT1: $i] :
% 2.14/2.40        ( ( temporallyBetween_THFTYPE_IiiioI @ POINT1 @ POINT2 @ POINT3 )
% 2.14/2.40      <=> ( ( before_THFTYPE_IiioI @ POINT1 @ POINT2 )
% 2.14/2.40          & ( before_THFTYPE_IiioI @ POINT2 @ POINT3 ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1689,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lHormone_THFTYPE_i @ lBiologicallyActiveSubstance_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1690,axiom,
% 2.14/2.40      ! [AGENT2: $i,AGENT1: $i] :
% 2.14/2.40        ( ( legalRelation_THFTYPE_IiioI @ AGENT1 @ AGENT2 )
% 2.14/2.40       => ? [DECLARE: $i,OBLIGATION: $o] :
% 2.14/2.40            ( ( instance_THFTYPE_IiioI @ DECLARE @ lDeclaring_THFTYPE_i )
% 2.14/2.40            & ( confersObligation_THFTYPE_IoiioI @ OBLIGATION @ DECLARE @ AGENT1 )
% 2.14/2.40            & ( confersObligation_THFTYPE_IoiioI @ OBLIGATION @ DECLARE @ AGENT2 ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation VisualAttribute EnglishLanguage "The &%Class of visually discernible properties.")
% 2.14/2.40  thf(ax1691,axiom,
% 2.14/2.40      ! [GRAPH: $i,ARC: $i] :
% 2.14/2.40        ( ( ( instance_THFTYPE_IiioI @ GRAPH @ lDirectedGraph_THFTYPE_i )
% 2.14/2.40          & ( instance_THFTYPE_IiioI @ ARC @ lGraphArc_THFTYPE_i )
% 2.14/2.40          & ( graphPart_THFTYPE_IiioI @ ARC @ GRAPH ) )
% 2.14/2.40       => ? [NODE1: $i,NODE2: $i] :
% 2.14/2.40            ( ( ( lInitialNodeFn_THFTYPE_IiiI @ ARC )
% 2.14/2.40              = NODE1 )
% 2.14/2.40            & ( ( lTerminalNodeFn_THFTYPE_IiiI @ ARC )
% 2.14/2.40              = NODE2 ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1692,axiom,
% 2.14/2.40      inverse_THFTYPE_IIiioIIiioIoI @ greaterThanOrEqualTo_THFTYPE_IiioI @ lessThanOrEqualTo_THFTYPE_IiioI ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1693,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lLooking_THFTYPE_i @ lIntentionalProcess_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1694,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lMachine_THFTYPE_i @ lDevice_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation Group EnglishLanguage "A &%Collection of &%Agents, e.g. a flock of sheep, a herd of goats, or the local Boy Scout troop.")
% 2.14/2.40  %KIF documentation:(documentation grasps EnglishLanguage "The state of grasping an &%Object. (&%grasps ?ANIMAL ?OBJ) means that the &%Animal ?ANIMAL is intentionally holding on to the &%Object ?OBJ.")
% 2.14/2.40  %KIF documentation:(documentation Gray EnglishLanguage "SI absorbed dose measure. Symbol: Gy. It measures the dose of radiation absorbed in living tissue. It is equal approximately to the absorbed dose delivered when the energy per unit mass imparted to matter by ionizing radiation is 1 &%Joule per kilogram. &%Gray = J/ kg = m^2*s^(-2).")
% 2.14/2.40  thf(ax1695,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lDay_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1696,axiom,
% 2.14/2.40      disjointDecomposition_THFTYPE_IiiiioI @ lNutrient_THFTYPE_i @ lProtein_THFTYPE_i @ lCarbohydrate_THFTYPE_i @ lVitamin_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1697,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lEgg_THFTYPE_i @ lReproductiveBody_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation Icon EnglishLanguage "This is the subclass of &%ContentBearingPhysical which are not part of a &%Language and which have some sort of similarity with the &%Objects that they represent. This &%Class would include symbolic roadway signs, representational art works, photographs, etc.")
% 2.14/2.40  %KIF documentation:(documentation measure EnglishLanguage "A very general &%Predicate for asserting that a particular &%Object is measured by a particular &%PhysicalQuantity. In general, the second argument of this &%Predicate will be a term produced with the &%Function &%MeasureFn.")
% 2.14/2.40  thf(ax1698,axiom,
% 2.14/2.40      ! [OBJ: $i,KEEP: $i] :
% 2.14/2.40        ( ( ( instance_THFTYPE_IiioI @ KEEP @ lKeeping_THFTYPE_i )
% 2.14/2.40          & ( patient_THFTYPE_IiioI @ KEEP @ OBJ ) )
% 2.14/2.40       => ? [PLACE: $i] :
% 2.14/2.40          ! [TIME: $i] :
% 2.14/2.40            ( ( temporalPart_THFTYPE_IiioI @ TIME @ ( lWhenFn_THFTYPE_IiiI @ KEEP ) )
% 2.14/2.40           => ( holdsDuring_THFTYPE_IiooI @ TIME @ ( located_THFTYPE_IiioI @ OBJ @ PLACE ) ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1699,axiom,
% 2.14/2.40      ! [TRANS: $i] :
% 2.14/2.40        ( ( instance_THFTYPE_IiioI @ TRANS @ lTransportation_THFTYPE_i )
% 2.14/2.40       => ? [DEVICE: $i] :
% 2.14/2.40            ( ( instance_THFTYPE_IiioI @ DEVICE @ lTransportationDevice_THFTYPE_i )
% 2.14/2.40            & ( instrument_THFTYPE_IiioI @ TRANS @ DEVICE ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation Adjective EnglishLanguage "One of the parts of speech. The &%Class of &%Words that conventionally denote &%Attributes of &%Objects.")
% 2.14/2.40  thf(ax1700,axiom,
% 2.14/2.40      ! [OBJ1: $i,OBJ2: $i,OBJ3: $i] :
% 2.14/2.40        ( ( OBJ3
% 2.14/2.40          = ( lMereologicalSumFn_THFTYPE_IiiiI @ OBJ1 @ OBJ2 ) )
% 2.14/2.40       => ! [PART: $i] :
% 2.14/2.40            ( ( part_THFTYPE_IiioI @ PART @ OBJ3 )
% 2.14/2.40          <=> ( ( part_THFTYPE_IiioI @ PART @ OBJ1 )
% 2.14/2.40              | ( part_THFTYPE_IiioI @ PART @ OBJ2 ) ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1701,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lDesigning_THFTYPE_i @ lIntentionalPsychologicalProcess_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1702,axiom,
% 2.14/2.40      disjoint_THFTYPE_IiioI @ lUncovering_THFTYPE_i @ lCovering_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1703,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lSystemeInternationalUnit_THFTYPE_i @ lUnitOfMeasure_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1704,axiom,
% 2.14/2.40      ! [ROW2: $i,LIST2: $i,LIST1: $i,ROW1: $i] :
% 2.14/2.40        ( ( LIST1 = LIST2 )
% 2.14/2.40       => ( ( ( LIST1
% 2.14/2.40              = ( lListFn_THFTYPE_IiiI @ ROW1 ) )
% 2.14/2.40            & ( LIST2
% 2.14/2.40              = ( lListFn_THFTYPE_IiiI @ ROW2 ) ) )
% 2.14/2.40         => ! [NUMBER: $i] :
% 2.14/2.40              ( ( lListOrderFn_THFTYPE_IiiiI @ ( lListFn_THFTYPE_IiiI @ ROW1 ) @ NUMBER )
% 2.14/2.40              = ( lListOrderFn_THFTYPE_IiiiI @ ( lListFn_THFTYPE_IiiI @ ROW2 ) @ NUMBER ) ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1705,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lVocalizing_THFTYPE_i @ lBodyMotion_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1706,axiom,
% 2.14/2.40      ! [STRUCTURE: $i] :
% 2.14/2.40        ( ( instance_THFTYPE_IiioI @ STRUCTURE @ lAbnormalAnatomicalStructure_THFTYPE_i )
% 2.14/2.40       => ? [PROC: $i] :
% 2.14/2.40            ( ( instance_THFTYPE_IiioI @ PROC @ lPathologicProcess_THFTYPE_i )
% 2.14/2.40            & ( result_THFTYPE_IiioI @ PROC @ STRUCTURE ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1707,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lFamilyGroup_THFTYPE_i @ lGroupOfPeople_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1708,axiom,
% 2.14/2.40      rangeSubclass_THFTYPE_IiioI @ lYearFn_THFTYPE_i @ lYear_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1709,axiom,
% 2.14/2.40      ! [UNIT: $i,TERAUNIT: $i] :
% 2.14/2.40        ( ( ( instance_THFTYPE_IiioI @ UNIT @ lUnitOfMeasure_THFTYPE_i )
% 2.14/2.40          & ( TERAUNIT
% 2.14/2.40            = ( lTeraFn_THFTYPE_IiiI @ UNIT ) ) )
% 2.14/2.40       => ( ( lMeasureFn_THFTYPE_IiiiI @ n1_THFTYPE_i @ TERAUNIT )
% 2.14/2.40          = ( lMeasureFn_THFTYPE_IiiiI @ n1000000000000_THFTYPE_i @ UNIT ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1710,axiom,
% 2.14/2.40      range_THFTYPE_IiioI @ lVelocityFn_THFTYPE_i @ lFunctionQuantity_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation DayFn EnglishLanguage "A &%BinaryFunction that assigns a &%PositiveRealNumber and a subclass of &%Months to the &%Days within each &%Month corresponding to that &%PositiveRealNumber. For example, (&%DayFn 16 &%August) is the &%Class of all sixteenth days of August. For another example, (&%DayFn 9 &%Month) would return the class of all ninth days of any month. For still another example, (&%DayFn 18 (&%MonthFn &%August (&%YearFn 1912))) denotes the 18th day of August 1912.")
% 2.14/2.40  thf(ax1711,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lPsychologicalProcess_THFTYPE_i @ lBiologicalProcess_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation subsumesContentInstance EnglishLanguage "A &%BinaryPredicate relating two instances of &%ContentBearingObject. (&%subsumesContentInstance ?OBJ1 ?OBJ2) means that the content expressed by ?OBJ2 is part of the content expressed by ?OBJ1. An example is the relationship between a handwritten poem and one of its stanzas. Note that this is a relation between instances, rather than &%Classes. If one wants to assert a content relationship between &%Classes, e.g. between the version of an intellectual work and a part of that work, the relation &%subsumesContentClass should be used.")
% 2.14/2.40  %KIF documentation:(documentation Graduation EnglishLanguage "The &%OrganizationalProcess of graduating from an &%EducationalOrganization.")
% 2.14/2.40  thf(ax1712,axiom,
% 2.14/2.40      ! [INT: $i] :
% 2.14/2.40        ( ( instance_THFTYPE_IiioI @ INT @ lInteger_THFTYPE_i )
% 2.14/2.40       => ( gt_THFTYPE_IiioI @ INT @ ( lPredecessorFn_THFTYPE_IiiI @ INT ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation NegativeInfinity EnglishLanguage "The &%TimePoint that is before all other &%TimePoints.")
% 2.14/2.40  %KIF documentation:(documentation QuintaryRelation EnglishLanguage "&%QuintaryRelations relate five items. The two &%subclasses of &%QuintaryRelation are &%QuintaryPredicate and &%QuaternaryFunction.")
% 2.14/2.40  thf(ax1713,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lLeapYear_THFTYPE_i @ lYear_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1714,axiom,
% 2.14/2.40      ! [FOOD: $i] :
% 2.14/2.40        ( ( instance_THFTYPE_IiioI @ FOOD @ lFood_THFTYPE_i )
% 2.14/2.40       => ? [NUTRIENT: $i] :
% 2.14/2.40            ( ( instance_THFTYPE_IiioI @ NUTRIENT @ lNutrient_THFTYPE_i )
% 2.14/2.40            & ( part_THFTYPE_IiioI @ NUTRIENT @ FOOD ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1715,axiom,
% 2.14/2.40      ! [NUMBER: $i] :
% 2.14/2.40        ( ( NUMBER
% 2.14/2.40          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.40       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lMile_THFTYPE_i )
% 2.14/2.40          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n1609dot344_THFTYPE_i ) @ lMeter_THFTYPE_i ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1716,axiom,
% 2.14/2.40      ! [OBJ: $i,PERSON: $i] :
% 2.14/2.40        ( ( possesses_THFTYPE_IiioI @ PERSON @ OBJ )
% 2.14/2.40       => ( modalAttribute_THFTYPE_IoioI @ ( uses_THFTYPE_IiioI @ OBJ @ PERSON ) @ lPermission_THFTYPE_i ) ) ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation DensityFn EnglishLanguage "&%DensityFn maps an instance of &%MassMeasure and an instance of &%VolumeMeasure to the density represented by this proportion of mass and volume. For example, (&%DensityFn (&%MeasureFn 3 &%Gram) (&%MeasureFn 1 &%Liter)) represents the density of 3 grams per liter.")
% 2.14/2.40  thf(ax1717,axiom,
% 2.14/2.40      ! [REGION: $i] :
% 2.14/2.40        ( ? [EMIT: $i] :
% 2.14/2.40            ( ( instance_THFTYPE_IiioI @ EMIT @ lRadiatingLight_THFTYPE_i )
% 2.14/2.40            & ( patient_THFTYPE_IiioI @ EMIT @ REGION )
% 2.14/2.40            & ( instance_THFTYPE_IiioI @ REGION @ lRegion_THFTYPE_i ) )
% 2.14/2.40      <=> ( attribute_THFTYPE_IiioI @ REGION @ lIlluminated_THFTYPE_i ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1718,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lReasoning_THFTYPE_i @ lIntentionalPsychologicalProcess_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1719,axiom,
% 2.14/2.40      ! [TEMP: $i,BOIL: $i,PRES: $i,X: $i,Y: $i] :
% 2.14/2.40        ( ( ( instance_THFTYPE_IiioI @ X @ Y )
% 2.14/2.40          & ( subclass_THFTYPE_IiioI @ Y @ lPureSubstance_THFTYPE_i )
% 2.14/2.40          & ( barometricPressure_THFTYPE_IiioI @ X @ ( lMeasureFn_THFTYPE_IiiiI @ PRES @ lInchMercury_THFTYPE_i ) )
% 2.14/2.40          & ( gt_THFTYPE_IiioI @ n29dot92_THFTYPE_i @ PRES )
% 2.14/2.40          & ( boilingPoint_THFTYPE_IiioI @ Y @ ( lMeasureFn_THFTYPE_IiiiI @ BOIL @ lKelvinDegree_THFTYPE_i ) )
% 2.14/2.40          & ( measure_THFTYPE_IiioI @ X @ ( lMeasureFn_THFTYPE_IiiiI @ TEMP @ lKelvinDegree_THFTYPE_i ) )
% 2.14/2.40          & ( gt_THFTYPE_IiioI @ TEMP @ BOIL ) )
% 2.14/2.40       => ( attribute_THFTYPE_IiioI @ X @ lGas_THFTYPE_i ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1720,axiom,
% 2.14/2.40      ! [MINUTE: $i,NUMBER: $i,HOUR: $i] :
% 2.14/2.40        ( ( instance_THFTYPE_IiioI @ MINUTE @ ( lMinuteFn_THFTYPE_IiiiI @ NUMBER @ HOUR ) )
% 2.14/2.40       => ( lt_THFTYPE_IiioI @ NUMBER @ n60_THFTYPE_i ) ) ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation Ambulating EnglishLanguage "Any &%BodyMotion which is accomplished by means of the legs of an &%Animal for the purpose of moving from one point to another.")
% 2.14/2.40  thf(ax1721,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lDeciding_THFTYPE_i @ lSelecting_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1722,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lUnitOfVolume_THFTYPE_i @ lCompositeUnitOfMeasure_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation PositiveInfinity EnglishLanguage "The &%TimePoint that is after all other &%TimePoints.")
% 2.14/2.40  %KIF documentation:(documentation hole EnglishLanguage "(&%hole ?HOLE ?OBJ) means that ?HOLE is a &%Hole in ?OBJ. A &%Hole is a fillable body located at the &%surface an &%Object.")
% 2.14/2.40  %KIF documentation:(documentation PerceptualAttribute EnglishLanguage "Any &%Attribute whose presence is detected by an act of &%Perception.")
% 2.14/2.40  thf(ax1723,axiom,
% 2.14/2.40      ! [CLASS: $i] :
% 2.14/2.40        ( ( instance_THFTYPE_IiioI @ CLASS @ lClass_THFTYPE_i )
% 2.14/2.40      <=> ( subclass_THFTYPE_IiioI @ CLASS @ lEntity_THFTYPE_i ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1724,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lUnitOfTemperature_THFTYPE_i @ lNonCompositeUnitOfMeasure_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1725,axiom,
% 2.14/2.40      ! [INT: $i] :
% 2.14/2.40        ( ( instance_THFTYPE_IiioI @ INT @ lInteger_THFTYPE_i )
% 2.14/2.40       => ( INT
% 2.14/2.40          = ( lSuccessorFn_THFTYPE_IiiI @ ( lPredecessorFn_THFTYPE_IiiI @ INT ) ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1726,axiom,
% 2.14/2.40      ! [REGION: $i,TIME: $i,THING: $i] :
% 2.14/2.40        ( ( ( lWhereFn_THFTYPE_IiiiI @ THING @ TIME )
% 2.14/2.40          = REGION )
% 2.14/2.40      <=> ( holdsDuring_THFTYPE_IiooI @ TIME @ ( exactlyLocated_THFTYPE_IiioI @ THING @ REGION ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1727,axiom,
% 2.14/2.40      ! [CLASS: $i,ID: $i,FUNCTION: $i] :
% 2.14/2.40        ( ( identityElement_THFTYPE_IiioI @ FUNCTION @ ID )
% 2.14/2.40       => ! [INST: $i] :
% 2.14/2.40            ( ( ( domain_THFTYPE_IiiioI @ FUNCTION @ n1_THFTYPE_i @ CLASS )
% 2.14/2.40              & ( instance_THFTYPE_IiioI @ INST @ CLASS ) )
% 2.14/2.40           => ( ( lAssignmentFn_THFTYPE_IiiiiI @ FUNCTION @ ID @ INST )
% 2.14/2.40              = INST ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1728,axiom,
% 2.14/2.40      range_THFTYPE_IiioI @ lDivisionFn_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1729,axiom,
% 2.14/2.40      subAttribute_THFTYPE_IiioI @ lPurchaseContract_THFTYPE_i @ lContract_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1730,axiom,
% 2.14/2.40      ! [NUMBER: $i,MONTH: $i] :
% 2.14/2.40        ( ( ( instance_THFTYPE_IiioI @ MONTH @ lMonth_THFTYPE_i )
% 2.14/2.40          & ( duration_THFTYPE_IiioI @ MONTH @ ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lDayDuration_THFTYPE_i ) ) )
% 2.14/2.40       => ( ( lCardinalityFn_THFTYPE_IiiI @ ( lTemporalCompositionFn_THFTYPE_IiiiI @ MONTH @ lDay_THFTYPE_i ) )
% 2.14/2.40          = NUMBER ) ) ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation SingleAgentProcess EnglishLanguage "&%SingleAgentProcess is the &%Class of all &%Processes that require exactly one &%agent in order to occur.")
% 2.14/2.40  thf(ax1731,axiom,
% 2.14/2.40      ! [DEVICE: $i] :
% 2.14/2.40        ( ( instance_THFTYPE_IiioI @ DEVICE @ lDevice_THFTYPE_i )
% 2.14/2.40       => ? [PROC: $i] :
% 2.14/2.40            ( hasPurpose_THFTYPE_IiooI @ DEVICE
% 2.14/2.40            @ ? [INST: $i] :
% 2.14/2.40                ( ( instance_THFTYPE_IiioI @ INST @ PROC )
% 2.14/2.40                & ( instrument_THFTYPE_IiioI @ INST @ DEVICE ) ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation SentientAgent EnglishLanguage "An &%Agent that has rights but may or may not have responsibilities and the ability to reason. If the latter are present, then the &%Agent is also an instance of &%CognitiveAgent. Domesticated animals are an example of &%SentientAgents that are not also &%CognitiveAgents.")
% 2.14/2.40  thf(ax1732,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lRadiatingNuclear_THFTYPE_i @ lRadiating_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation LegalAction EnglishLanguage "Any &%Process where a &%CognitiveAgent seeks to obtain something through a court of law.")
% 2.14/2.40  thf(ax1733,axiom,
% 2.14/2.40      ! [GRAPH: $i] :
% 2.14/2.40        ( ( instance_THFTYPE_IiioI @ GRAPH @ lGraphCircuit_THFTYPE_i )
% 2.14/2.40      <=> ? [NODE: $i] :
% 2.14/2.40            ( ( ( lBeginNodeFn_THFTYPE_IiiI @ GRAPH )
% 2.14/2.40              = NODE )
% 2.14/2.40            & ( ( lEndNodeFn_THFTYPE_IiiI @ GRAPH )
% 2.14/2.40              = NODE ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation RepresentationalArtWork EnglishLanguage "Any &%ArtWork that represents something &%Physical.")
% 2.14/2.40  %KIF documentation:(documentation Morpheme EnglishLanguage "Part of a &%Word which cannot be subdivided and which expresses a meaning.")
% 2.14/2.40  thf(ax1734,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lNovember_THFTYPE_i @ lMonth_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation superficialPart EnglishLanguage "(&%superficialPart ?OBJ1 ?OBJ2) means that ?OBJ1 is a part of ?OBJ2 that has no interior parts of its own (or, intuitively, that only overlaps those parts of ?OBJ2 that are externally connected with the mereological complement of ?OBJ2). This too is a transitive relation closed under &%MereologicalSumFn and &%MereologicalProductFn.")
% 2.14/2.40  %KIF documentation:(documentation Relation EnglishLanguage "The &%Class of relations. There are three kinds of &%Relation: &%Predicate, &%Function, and &%List. &%Predicates and &%Functions both denote sets of ordered n-tuples. The difference between these two &%Classes is that &%Predicates cover formula-forming operators, while &%Functions cover term-forming operators. A &%List, on the other hand, is a particular ordered n-tuple.")
% 2.14/2.40  thf(ax1735,axiom,
% 2.14/2.40      inverse_THFTYPE_IIiioIIiioIoI @ smaller_THFTYPE_IiioI @ larger_THFTYPE_IiioI ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1736,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lQuantity_THFTYPE_i @ lAbstract_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1737,axiom,
% 2.14/2.40      ! [INTERVAL1: $i,INTERVAL2: $i] :
% 2.14/2.40        ( ( finishes_THFTYPE_IiioI @ INTERVAL1 @ INTERVAL2 )
% 2.14/2.40      <=> ( ( before_THFTYPE_IiioI @ ( lBeginFn_THFTYPE_IiiI @ INTERVAL2 ) @ ( lBeginFn_THFTYPE_IiiI @ INTERVAL1 ) )
% 2.14/2.40          & ( ( lEndFn_THFTYPE_IiiI @ INTERVAL2 )
% 2.14/2.40            = ( lEndFn_THFTYPE_IiiI @ INTERVAL1 ) ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation Primate EnglishLanguage "The &%Class of &%Mammals which are &%Primates.")
% 2.14/2.40  thf(ax1738,axiom,
% 2.14/2.40      ! [HOLE: $i,OBJ1: $i,OBJ2: $i] :
% 2.14/2.40        ( ( ( hole_THFTYPE_IiioI @ HOLE @ OBJ1 )
% 2.14/2.40          & ( part_THFTYPE_IiioI @ OBJ1 @ OBJ2 ) )
% 2.14/2.40       => ( ( overlapsSpatially_THFTYPE_IiioI @ HOLE @ OBJ2 )
% 2.14/2.40          | ( hole_THFTYPE_IiioI @ HOLE @ OBJ2 ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation HoofedMammal EnglishLanguage "The &%Class of quadruped &%Mammals with hooves. Includes horses, cows, sheep, pigs, antelope, etc.")
% 2.14/2.40  %KIF documentation:(documentation disjointDecomposition EnglishLanguage "A &%disjointDecomposition of a &%Class C is a set of subclasses of C that are mutually &%disjoint.")
% 2.14/2.40  %KIF documentation:(documentation SquareRootFn EnglishLanguage "(SquareRootFn ?NUMBER) is the principal square root of ?NUMBER.")
% 2.14/2.40  %KIF documentation:(documentation Planning EnglishLanguage "Specifying a set of actions in order to meet a set of goals or objectives.")
% 2.14/2.40  thf(ax1739,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lMuscle_THFTYPE_i @ lTissue_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation NaturalProcess EnglishLanguage "A &%Process that take place in nature spontanously.")
% 2.14/2.40  thf(ax1740,axiom,
% 2.14/2.40      ! [NUMBER: $i,CLASS1: $i,REL: $i,CLASS2: $i] :
% 2.14/2.40        ( ( ( domain_THFTYPE_IiiioI @ REL @ NUMBER @ CLASS1 )
% 2.14/2.40          & ( domain_THFTYPE_IiiioI @ REL @ NUMBER @ CLASS2 ) )
% 2.14/2.40       => ( ( subclass_THFTYPE_IiioI @ CLASS1 @ CLASS2 )
% 2.14/2.40          | ( subclass_THFTYPE_IiioI @ CLASS2 @ CLASS1 ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1741,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lAngleMeasure_THFTYPE_i @ lConstantQuantity_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1742,axiom,
% 2.14/2.40      ! [MORPH: $i] :
% 2.14/2.40        ( ( instance_THFTYPE_IiioI @ MORPH @ lMorpheme_THFTYPE_i )
% 2.14/2.40       => ( (~)
% 2.14/2.40          @ ? [OTHERMORPH: $i] :
% 2.14/2.40              ( ( instance_THFTYPE_IiioI @ OTHERMORPH @ lMorpheme_THFTYPE_i )
% 2.14/2.40              & ( part_THFTYPE_IiioI @ OTHERMORPH @ MORPH )
% 2.14/2.40              & ( (~) @ ( OTHERMORPH = MORPH ) ) ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation EuroCent EnglishLanguage "A currency measure. 1 &%EuroCent is equal to .01 &%EuroDollars.")
% 2.14/2.40  thf(ax1743,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lOctober_THFTYPE_i @ lMonth_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation ComputerProgramming EnglishLanguage "The process of developing a &%ComputerProgram")
% 2.14/2.40  thf(ax1744,axiom,
% 2.14/2.40      ! [ORG: $i] :
% 2.14/2.40        ( ( instance_THFTYPE_IiioI @ ORG @ lOrganism_THFTYPE_i )
% 2.14/2.40       => ? [ATTR: $i] :
% 2.14/2.40            ( ( instance_THFTYPE_IiioI @ ATTR @ lDevelopmentalAttribute_THFTYPE_i )
% 2.14/2.40            & ( attribute_THFTYPE_IiioI @ ORG @ ATTR ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1745,axiom,
% 2.14/2.40      ! [N2: $i,N1: $i] :
% 2.14/2.40        ( ( multiplicativeFactor_THFTYPE_IiioI @ N1 @ N2 )
% 2.14/2.40       => ? [I: $i] :
% 2.14/2.40            ( ( instance_THFTYPE_IiioI @ I @ lInteger_THFTYPE_i )
% 2.14/2.40            & ( N2
% 2.14/2.40              = ( times_THFTYPE_IiiiI @ N1 @ I ) ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1746,axiom,
% 2.14/2.40      ! [OBJECT: $i,REF: $i,TIME: $i,DIRECTION: $i,DISTANCE: $i] :
% 2.14/2.40        ( ( measure_THFTYPE_IiioI @ OBJECT @ ( lVelocityFn_THFTYPE_IiiiiiI @ DISTANCE @ TIME @ REF @ DIRECTION ) )
% 2.14/2.40       => ( measure_THFTYPE_IiioI @ OBJECT @ ( lSpeedFn_THFTYPE_IiiiI @ DISTANCE @ TIME ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1747,axiom,
% 2.14/2.40      range_THFTYPE_IiioI @ lBeginNodeFn_THFTYPE_i @ lGraphNode_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation confersRight EnglishLanguage "Expresses the relationship between a &%Formula, an &%Entity, and a &%CognitiveAgent when the &%Entity authorizes the &%CognitiveAgent to bring it about that the &%Formula is true.")
% 2.14/2.40  thf(ax1748,axiom,
% 2.14/2.40      rangeSubclass_THFTYPE_IiioI @ lTemporalCompositionFn_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1749,axiom,
% 2.14/2.40      ! [BONE: $i] :
% 2.14/2.40        ( ( instance_THFTYPE_IiioI @ BONE @ lBone_THFTYPE_i )
% 2.14/2.40       => ? [VERT: $i] :
% 2.14/2.40            ( ( instance_THFTYPE_IiioI @ VERT @ lVertebrate_THFTYPE_i )
% 2.14/2.40            & ( part_THFTYPE_IiioI @ BONE @ VERT ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation TwoDimensionalAngle EnglishLanguage "Any two &%OneDimensionalFigures (i.e. straight lines) meeting at a single &%GeometricPoint.")
% 2.14/2.40  thf(ax1750,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lTransitway_THFTYPE_i @ lSelfConnectedObject_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1751,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lSurfaceChange_THFTYPE_i @ lInternalChange_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1752,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lPureSubstance_THFTYPE_i @ lSubstance_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1753,axiom,
% 2.14/2.40      ! [CLOUD: $i] :
% 2.14/2.40        ( ( instance_THFTYPE_IiioI @ CLOUD @ lCloud_THFTYPE_i )
% 2.14/2.40       => ( capability_THFTYPE_IiIiioIioI @ lSeeing_THFTYPE_i @ patient_THFTYPE_IiioI @ CLOUD ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1754,axiom,
% 2.14/2.40      ! [REL: $i] :
% 2.14/2.40        ( ( instance_THFTYPE_IiioI @ REL @ lBinaryPredicate_THFTYPE_i )
% 2.14/2.40       => ( valence_THFTYPE_IiioI @ REL @ n2_THFTYPE_i ) ) ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation PsychologicalDysfunction EnglishLanguage "A clinically significant dysfunction whose major manifestation is behavioral or psychological. These dysfunctions may have identified or presumed biological etiologies or manifestations.")
% 2.14/2.40  thf(ax1755,axiom,
% 2.14/2.40      ! [ANIMAL: $i] :
% 2.14/2.40        ( ( instance_THFTYPE_IiioI @ ANIMAL @ lAnimal_THFTYPE_i )
% 2.14/2.40       => ( ? [MOTION: $i] :
% 2.14/2.40              ( ( instance_THFTYPE_IiioI @ MOTION @ lBodyMotion_THFTYPE_i )
% 2.14/2.40              & ( agent_THFTYPE_IiioI @ MOTION @ ANIMAL ) )
% 2.14/2.40          | ? [ATTR: $i] :
% 2.14/2.40              ( ( instance_THFTYPE_IiioI @ ATTR @ lBodyPosition_THFTYPE_i )
% 2.14/2.40              & ( attribute_THFTYPE_IiioI @ ANIMAL @ ATTR ) ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1756,axiom,
% 2.14/2.40      ! [ORG1: $i,ORG2: $i,PARENT: $i] :
% 2.14/2.40        ( ( ( sibling_THFTYPE_IiioI @ ORG1 @ ORG2 )
% 2.14/2.40          & ( parent_THFTYPE_IiioI @ ORG1 @ PARENT ) )
% 2.14/2.40       => ( parent_THFTYPE_IiioI @ ORG2 @ PARENT ) ) ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation Disseminating EnglishLanguage "Any &%Communication that involves a single &%agent and many &%destinations. This covers the release of a published book, broadcasting, a theatrical performance, giving orders to assembled troops, delivering a public lecture, etc.")
% 2.14/2.40  thf(ax1757,axiom,
% 2.14/2.40      ! [NUMBER: $i] :
% 2.14/2.40        ( ( NUMBER
% 2.14/2.40          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.14/2.40       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lRankineDegree_THFTYPE_i )
% 2.14/2.40          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n1dot8_THFTYPE_i ) @ lKelvinDegree_THFTYPE_i ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1758,axiom,
% 2.14/2.40      ! [OBJ: $i,PERCEPTION: $i] :
% 2.14/2.40        ( ( ( instance_THFTYPE_IiioI @ PERCEPTION @ lPerception_THFTYPE_i )
% 2.14/2.40          & ( patient_THFTYPE_IiioI @ PERCEPTION @ OBJ ) )
% 2.14/2.40       => ? [PROP: $i] :
% 2.14/2.40            ( ( instance_THFTYPE_IiioI @ PROP @ lPerceptualAttribute_THFTYPE_i )
% 2.14/2.40            & ( holdsDuring_THFTYPE_IiooI @ ( lWhenFn_THFTYPE_IiiI @ PERCEPTION ) @ ( attribute_THFTYPE_IiioI @ OBJ @ PROP ) ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1759,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lRadiatingLight_THFTYPE_i @ lRadiatingElectromagnetic_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1760,axiom,
% 2.14/2.40      ! [DETACH: $i] :
% 2.14/2.40        ( ( instance_THFTYPE_IiioI @ DETACH @ lDetaching_THFTYPE_i )
% 2.14/2.40       => ? [OBJ: $i] :
% 2.14/2.40            ( ( instance_THFTYPE_IiioI @ OBJ @ lCorpuscularObject_THFTYPE_i )
% 2.14/2.40            & ( patient_THFTYPE_IiioI @ DETACH @ OBJ ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation angleOfFigure EnglishLanguage "(&%angleOfFigure ?ANGLE ?FIGURE) means that the &%TwoDimensionalAngle ?ANGLE is part of the &%GeometricFigure ?FIGURE.")
% 2.14/2.40  thf(ax1761,axiom,
% 2.14/2.40      ! [ORGANISM: $i,REP: $i] :
% 2.14/2.40        ( ( ( instance_THFTYPE_IiioI @ REP @ lAsexualReproduction_THFTYPE_i )
% 2.14/2.40          & ( result_THFTYPE_IiioI @ REP @ ORGANISM ) )
% 2.14/2.40       => ( (~)
% 2.14/2.40          @ ? [PARENT1: $i,PARENT2: $i] :
% 2.14/2.40              ( ( parent_THFTYPE_IiioI @ ORGANISM @ PARENT1 )
% 2.14/2.40              & ( parent_THFTYPE_IiioI @ ORGANISM @ PARENT2 )
% 2.14/2.40              & ( (~) @ ( PARENT1 = PARENT2 ) ) ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1762,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lBinaryRelation_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1763,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lTransaction_THFTYPE_i @ lDualObjectProcess_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1764,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lBacterium_THFTYPE_i @ lMicroorganism_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation ClosedTwoDimensionalFigure EnglishLanguage "Any &%TwoDimensionalFigure which has a well defined interior and exterior.")
% 2.14/2.40  thf(ax1765,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lOrganization_THFTYPE_i @ lGroup_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1766,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lNonFloweringPlant_THFTYPE_i @ lPlant_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1767,axiom,
% 2.14/2.40      ! [CLASS: $i,ROW: $i] :
% 2.14/2.40        ( ( exhaustiveAttribute_THFTYPE_IiioI @ CLASS @ ROW )
% 2.14/2.40       => ! [ATTR1: $i] :
% 2.14/2.40            ( ( instance_THFTYPE_IiioI @ ATTR1 @ CLASS )
% 2.14/2.40           => ? [ATTR2: $i] :
% 2.14/2.40                ( ( inList_THFTYPE_IiioI @ ATTR2 @ ( lListFn_THFTYPE_IiiI @ ROW ) )
% 2.14/2.40                & ( ATTR1 = ATTR2 ) ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1768,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lCell_THFTYPE_i @ lBodyPart_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1769,axiom,
% 2.14/2.40      ! [SET2: $i,SET1: $i] :
% 2.14/2.40        ( ! [ELEMENT: $i] :
% 2.14/2.40            ( ( element_THFTYPE_IiioI @ ELEMENT @ SET1 )
% 2.14/2.40          <=> ( element_THFTYPE_IiioI @ ELEMENT @ SET2 ) )
% 2.14/2.40       => ( SET1 = SET2 ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1770,axiom,
% 2.14/2.40      ! [PUB: $i,TEXT: $i] :
% 2.14/2.40        ( ( ( instance_THFTYPE_IiioI @ PUB @ lPublication_THFTYPE_i )
% 2.14/2.40          & ( patient_THFTYPE_IiioI @ PUB @ TEXT ) )
% 2.14/2.40       => ( subclass_THFTYPE_IiioI @ TEXT @ lText_THFTYPE_i ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1771,axiom,
% 2.14/2.40      ! [SEED: $i] :
% 2.14/2.40        ( ( instance_THFTYPE_IiioI @ SEED @ lSeed_THFTYPE_i )
% 2.14/2.40       => ? [PLANT: $i,TIME: $i] :
% 2.14/2.40            ( ( instance_THFTYPE_IiioI @ PLANT @ lFloweringPlant_THFTYPE_i )
% 2.14/2.40            & ( holdsDuring_THFTYPE_IiooI @ TIME @ ( part_THFTYPE_IiioI @ SEED @ PLANT ) ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1772,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lSaltWaterArea_THFTYPE_i @ lWaterArea_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1773,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lMan_THFTYPE_i @ lHuman_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1774,axiom,
% 2.14/2.40      partition_THFTYPE_IiiioI @ lGraphElement_THFTYPE_i @ lGraphNode_THFTYPE_i @ lGraphArc_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation subPlan EnglishLanguage "(&%subPlan ?PLAN1 ?PLAN2) means that ?PLAN1 is a &%Plan which is a proper part of ?PLAN2. This relation is generally used to relate a supporting &%Plan to the overall &%Plan in a particular context.")
% 2.14/2.40  thf(ax1775,axiom,
% 2.14/2.40      ! [ORG: $i] :
% 2.14/2.40        ( ( instance_THFTYPE_IiioI @ ORG @ lOrganization_THFTYPE_i )
% 2.14/2.40       => ? [PURP: $o] :
% 2.14/2.40          ! [MEMBER: $i] :
% 2.14/2.40            ( ( member_THFTYPE_IiioI @ MEMBER @ ORG )
% 2.14/2.40           => ( hasPurpose_THFTYPE_IiooI @ MEMBER @ PURP ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1776,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lSentientAgent_THFTYPE_i @ lAgent_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1777,axiom,
% 2.14/2.40      ! [NUMBER: $i,PRED1: $i,CLASS1: $i,PRED2: $i] :
% 2.14/2.40        ( ( ( subrelation_THFTYPE_IiioI @ PRED1 @ PRED2 )
% 2.14/2.40          & ( domain_THFTYPE_IiiioI @ PRED2 @ NUMBER @ CLASS1 ) )
% 2.14/2.40       => ( domain_THFTYPE_IiiioI @ PRED1 @ NUMBER @ CLASS1 ) ) ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation AgeGroup EnglishLanguage "A &%GroupOfPeople whose &%members all have the same &%age.")
% 2.14/2.40  thf(ax1778,axiom,
% 2.14/2.40      ! [CHILD: $i,PARENT: $i] :
% 2.14/2.40        ( ( parent_THFTYPE_IiioI @ CHILD @ PARENT )
% 2.14/2.40       => ( before_THFTYPE_IiioI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ PARENT ) ) @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ CHILD ) ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1779,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lMusic_THFTYPE_i @ lRadiatingSound_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation SaturationAttribute EnglishLanguage "A &%Class of &%Attributes that specify, in a qualitative manner, the extent of the presence of one kind of &%Object in another kind of &%Object.")
% 2.14/2.40  %KIF documentation:(documentation GraphNode EnglishLanguage "&%Graphs are comprised of &%GraphNodes and &%GraphArcs. Every &%GraphNode is linked by a &%GraphArc.")
% 2.14/2.40  thf(ax1780,axiom,
% 2.14/2.40      ! [NUMBER: $i,VOLUME: $i,SERIES: $i] :
% 2.14/2.40        ( ( ( lSeriesVolumeFn_THFTYPE_IiiiI @ SERIES @ NUMBER )
% 2.14/2.40          = VOLUME )
% 2.14/2.40       => ( subsumesContentClass_THFTYPE_IiioI @ SERIES @ VOLUME ) ) ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation AnimalLanguage EnglishLanguage "The &%subclass of &%Languages used by &%Animals other than &%Humans.")
% 2.14/2.40  %KIF documentation:(documentation Flammable EnglishLanguage "The &%Attribute of being flammable at normal temperatures (i.e. not while a &%Plasma).")
% 2.14/2.40  %KIF documentation:(documentation Learning EnglishLanguage "The &%Class of &%Processes which relate to the acquisition of information.")
% 2.14/2.40  thf(ax1781,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lText_THFTYPE_i @ lArtifact_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1782,axiom,
% 2.14/2.40      ! [RESIDENCE: $i] :
% 2.14/2.40        ( ( instance_THFTYPE_IiioI @ RESIDENCE @ lTemporaryResidence_THFTYPE_i )
% 2.14/2.40       => ( (~)
% 2.14/2.40          @ ? [PERSON: $i] : ( home_THFTYPE_IiioI @ PERSON @ RESIDENCE ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1783,axiom,
% 2.14/2.40      subclass_THFTYPE_IiioI @ lFungus_THFTYPE_i @ lOrganism_THFTYPE_i ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation FruitOrVegetable EnglishLanguage "Any fruit or vegetable, i.e. a ripened &%ReproductiveBody of a &%Plant. Note that &%FruitOrVegetable is not a subclass of &%Food, because some fruits, e.g. poisonous berries, are not edible.")
% 2.14/2.40  thf(ax1784,axiom,
% 2.14/2.40      ! [WAR: $i] :
% 2.14/2.40        ( ( instance_THFTYPE_IiioI @ WAR @ lWar_THFTYPE_i )
% 2.14/2.40       => ? [BATTLE: $i] :
% 2.14/2.40            ( ( instance_THFTYPE_IiioI @ BATTLE @ lBattle_THFTYPE_i )
% 2.14/2.40            & ( subProcess_THFTYPE_IiioI @ BATTLE @ WAR ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  thf(ax1785,axiom,
% 2.14/2.40      ! [CLASS1: $i,CLASS2: $i] :
% 2.14/2.40        ( ( CLASS1 = CLASS2 )
% 2.14/2.40       => ! [THING: $i] :
% 2.14/2.40            ( ( instance_THFTYPE_IiioI @ THING @ CLASS1 )
% 2.14/2.40          <=> ( instance_THFTYPE_IiioI @ THING @ CLASS2 ) ) ) ).
% 2.14/2.40  
% 2.14/2.40  %KIF documentation:(documentation Perception EnglishLanguage "Sensing some aspect of the material world. Note that the &%agent of this sensing is assumed to be an &%Animal.")
% 2.14/2.40  thf(ax1786,axiom,
% 2.14/2.40      ! [NUMBER: $i] :
% 2.14/2.40        ( ( instance_THFTYPE_IiioI @ NUMBER @ lQuantity_THFTYPE_i )
% 2.14/2.40       => ( ( lReciprocalFn_THFTYPE_IiiI @ NUMBER )
% 2.18/2.40          = ( lExponentiationFn_THFTYPE_IiiiI @ NUMBER @ minus1_THFTYPE_i ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1787,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lSet_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation Encoding EnglishLanguage "Converting a document or message into a formal language or into a code that can be understood only by a relatively small body of &%Agents. Generally speaking, this hinders wide dissemination of the content in the original document or message.")
% 2.18/2.40  thf(ax1788,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lMixture_THFTYPE_i @ lSubstance_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1789,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lMaking_THFTYPE_i @ lIntentionalProcess_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1790,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lPhysicalSystem_THFTYPE_i @ lPhysical_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1791,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lProton_THFTYPE_i @ lSubatomicParticle_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1792,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lMatriculation_THFTYPE_i @ lJoiningAnOrganization_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation finishes EnglishLanguage "(&%finishes ?INTERVAL1 ?INTERVAL2) means that ?INTERVAL1 and ?INTERVAL2 are both &%TimeIntervals that have the same ending &%TimePoint and that ?INTERVAL2 begins before ?INTERVAL1.")
% 2.18/2.40  thf(ax1793,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lOrganism_THFTYPE_i @ lAgent_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation father EnglishLanguage "The general relationship of fatherhood. (&%father ?CHILD ?FATHER) means that ?FATHER is the biological father of ?CHILD.")
% 2.18/2.40  thf(ax1794,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lVocalCords_THFTYPE_i @ lOrgan_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1795,axiom,
% 2.18/2.40      ! [FATHER: $i,CHILD: $i] :
% 2.18/2.40        ( ( father_THFTYPE_IiioI @ CHILD @ FATHER )
% 2.18/2.40       => ( attribute_THFTYPE_IiioI @ FATHER @ lMale_THFTYPE_i ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1796,axiom,
% 2.18/2.40      ! [MONTH1: $i,MONTH2: $i,YEAR: $i] :
% 2.18/2.40        ( ( ( instance_THFTYPE_IiioI @ MONTH1 @ ( lMonthFn_THFTYPE_IiiiI @ lMay_THFTYPE_i @ YEAR ) )
% 2.18/2.40          & ( instance_THFTYPE_IiioI @ MONTH2 @ ( lMonthFn_THFTYPE_IiiiI @ lJune_THFTYPE_i @ YEAR ) ) )
% 2.18/2.40       => ( meetsTemporally_THFTYPE_IiioI @ MONTH1 @ MONTH2 ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1797,axiom,
% 2.18/2.40      ! [ORG: $i] :
% 2.18/2.40        ( ( instance_THFTYPE_IiioI @ ORG @ lManufacturer_THFTYPE_i )
% 2.18/2.40       => ( hasPurpose_THFTYPE_IooI
% 2.18/2.40          @ ? [MANUFACTURE: $i] :
% 2.18/2.40              ( ( instance_THFTYPE_IiioI @ MANUFACTURE @ lManufacture_THFTYPE_i )
% 2.18/2.40              & ( instance_THFTYPE_IiioI @ MANUFACTURE @ lCommercialService_THFTYPE_i )
% 2.18/2.40              & ( agent_THFTYPE_IiioI @ MANUFACTURE @ ORG ) ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1798,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lUnitOfInformation_THFTYPE_i @ lNonCompositeUnitOfMeasure_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1799,axiom,
% 2.18/2.40      ! [N: $i] :
% 2.18/2.40        ( ( instance_THFTYPE_IiioI @ N @ lRealNumber_THFTYPE_i )
% 2.18/2.40       => ( ( lMeasureFn_THFTYPE_IiiiI @ N @ lHorsepower_THFTYPE_i )
% 2.18/2.40          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ N @ n746_THFTYPE_i ) @ lWatt_THFTYPE_i ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1800,axiom,
% 2.18/2.40      ! [REL2: $i,CLASS1: $i,REL1: $i] :
% 2.18/2.40        ( ( ( subrelation_THFTYPE_IiioI @ REL1 @ REL2 )
% 2.18/2.40          & ( range_THFTYPE_IiioI @ REL2 @ CLASS1 ) )
% 2.18/2.40       => ( range_THFTYPE_IiioI @ REL1 @ CLASS1 ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1801,axiom,
% 2.18/2.40      ! [NUMBER: $i,ROW: $i] :
% 2.18/2.40        ( ( ( lLeastCommonMultipleFn_THFTYPE_IiiI @ ROW )
% 2.18/2.40          = NUMBER )
% 2.18/2.40       => ( (~)
% 2.18/2.40          @ ? [LESS: $i] :
% 2.18/2.40              ( ( lt_THFTYPE_IiioI @ LESS @ NUMBER )
% 2.18/2.40              & ! [ELEMENT: $i] :
% 2.18/2.40                  ( ( inList_THFTYPE_IiioI @ ELEMENT @ ( lListFn_THFTYPE_IiiI @ ROW ) )
% 2.18/2.40                 => ( ( lRemainderFn_THFTYPE_IiiiI @ LESS @ ELEMENT )
% 2.18/2.40                    = n0_THFTYPE_i ) ) ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1802,axiom,
% 2.18/2.40      ! [WEEK: $i,DAY1: $i,DAY2: $i] :
% 2.18/2.40        ( ( ( instance_THFTYPE_IiioI @ DAY1 @ lWednesday_THFTYPE_i )
% 2.18/2.40          & ( instance_THFTYPE_IiioI @ DAY2 @ lThursday_THFTYPE_i )
% 2.18/2.40          & ( instance_THFTYPE_IiioI @ WEEK @ lWeek_THFTYPE_i )
% 2.18/2.40          & ( temporalPart_THFTYPE_IiioI @ DAY1 @ WEEK )
% 2.18/2.40          & ( temporalPart_THFTYPE_IiioI @ DAY2 @ WEEK ) )
% 2.18/2.40       => ( meetsTemporally_THFTYPE_IiioI @ DAY1 @ DAY2 ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1803,axiom,
% 2.18/2.40      contraryAttribute_THFTYPE_IiioI @ lNakedPromise_THFTYPE_i @ lContract_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1804,axiom,
% 2.18/2.40      ! [AGENT: $i,FORMULA1: $o,FORMULA2: $o] :
% 2.18/2.40        ( ( prefers_THFTYPE_IioooI @ AGENT @ FORMULA1 @ FORMULA2 )
% 2.18/2.40       => ( (~)
% 2.18/2.40          @ ( ( truth_THFTYPE_IoooI @ FORMULA1 @ $true )
% 2.18/2.40            & ( truth_THFTYPE_IoooI @ FORMULA2 @ $true ) ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation BinaryFunction EnglishLanguage "The &%Class of &%Functions that require two arguments.")
% 2.18/2.40  thf(ax1805,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lTimeInterval_THFTYPE_i @ lTimePosition_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation Wind EnglishLanguage "Any &%Motion of &%Air.")
% 2.18/2.40  thf(ax1806,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lGrabbing_THFTYPE_i @ lAttaching_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation Contract EnglishLanguage "&%Attribute that applies to &%Propositions where something is promised in return, i.e. a reciprocal promise.")
% 2.18/2.40  thf(ax1807,axiom,
% 2.18/2.40      ! [COLL: $i,OBJ1: $i,OBJ2: $i] :
% 2.18/2.40        ( ( ( member_THFTYPE_IiioI @ OBJ1 @ COLL )
% 2.18/2.40          & ( member_THFTYPE_IiioI @ OBJ2 @ COLL )
% 2.18/2.40          & ( (~) @ ( OBJ1 = OBJ2 ) ) )
% 2.18/2.40       => ( (~) @ ( overlapsSpatially_THFTYPE_IiioI @ OBJ1 @ OBJ2 ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1808,axiom,
% 2.18/2.40      ! [NODE: $i] :
% 2.18/2.40        ( ( instance_THFTYPE_IiioI @ NODE @ lGraphNode_THFTYPE_i )
% 2.18/2.40       => ? [OTHER: $i,ARC: $i] : ( links_THFTYPE_IiiioI @ NODE @ OTHER @ ARC ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1809,axiom,
% 2.18/2.40      ! [CLASS: $i] :
% 2.18/2.40        ( ( instance_THFTYPE_IiioI @ CLASS @ lMutuallyDisjointClass_THFTYPE_i )
% 2.18/2.40       => ! [INST1: $i,INST2: $i] :
% 2.18/2.40            ( ( ( instance_THFTYPE_IiioI @ INST1 @ CLASS )
% 2.18/2.40              & ( instance_THFTYPE_IiioI @ INST2 @ INST1 ) )
% 2.18/2.40           => ? [INST3: $i] :
% 2.18/2.40                ( ( instance_THFTYPE_IiioI @ INST3 @ CLASS )
% 2.18/2.40                & ( (~) @ ( instance_THFTYPE_IiioI @ INST2 @ INST3 ) ) ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1810,axiom,
% 2.18/2.40      ! [MONTH1: $i,MONTH2: $i,YEAR: $i] :
% 2.18/2.40        ( ( ( instance_THFTYPE_IiioI @ MONTH1 @ ( lMonthFn_THFTYPE_IiiiI @ lFebruary_THFTYPE_i @ YEAR ) )
% 2.18/2.40          & ( instance_THFTYPE_IiioI @ MONTH2 @ ( lMonthFn_THFTYPE_IiiiI @ lMarch_THFTYPE_i @ YEAR ) ) )
% 2.18/2.40       => ( meetsTemporally_THFTYPE_IiioI @ MONTH1 @ MONTH2 ) ) ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation ListOrderFn EnglishLanguage "(&%ListOrderFn ?LIST ?NUMBER) denotes the item that is in the ?NUMBER position in the &%List ?LIST. For example, (&%ListOrderFn (&%ListFn &%Monday &%Tuesday &%Wednesday) 2) would return the value &%Tuesday.")
% 2.18/2.40  thf(ax1811,axiom,
% 2.18/2.40      ! [NUMBER: $i,PATH: $i,NUMBER2: $i,NODE1: $i,NUMBER1: $i,NODE2: $i] :
% 2.18/2.40        ( ( ( ( lMinimalWeightedPathFn_THFTYPE_IiiiI @ NODE1 @ NODE2 )
% 2.18/2.40            = PATH )
% 2.18/2.40          & ( ( lPathWeightFn_THFTYPE_IiiI @ PATH )
% 2.18/2.40            = NUMBER ) )
% 2.18/2.40       => ! [PATH2: $i] :
% 2.18/2.40            ( ( ( instance_THFTYPE_IiioI @ PATH2 @ ( lGraphPathFn_THFTYPE_IiiiI @ NODE1 @ NODE2 ) )
% 2.18/2.40              & ( ( lPathWeightFn_THFTYPE_IiiI @ PATH2 )
% 2.18/2.40                = NUMBER2 ) )
% 2.18/2.40           => ( gtet_THFTYPE_IiioI @ NUMBER2 @ NUMBER1 ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1812,axiom,
% 2.18/2.40      ! [SUBPROC: $i,PROC: $i] :
% 2.18/2.40        ( ( subProcess_THFTYPE_IiioI @ SUBPROC @ PROC )
% 2.18/2.40       => ! [REGION: $i] :
% 2.18/2.40            ( ( located_THFTYPE_IiioI @ PROC @ REGION )
% 2.18/2.40           => ( located_THFTYPE_IiioI @ SUBPROC @ REGION ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation PoundForce EnglishLanguage "English pound of force. The conversion factor depends on the local value of the acceleration of free fall. A mean value is used in the conversion axiom associated with this constant.")
% 2.18/2.40  thf(ax1813,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lBodySubstance_THFTYPE_i @ lSubstance_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation refers EnglishLanguage "(&%refers ?OBJ1 ?OBJ2) means that ?OBJ1 mentions or includes a reference to ?OBJ2. Note that &%refers is more general in meaning than &%represents, because presumably something can represent something else only if it refers to this other thing. For example, an article whose topic is a recent change in the price of oil may refer to many other things, e.g. the general state of the economy, the weather in California, the prospect of global warming, the options for alternative energy sources, the stock prices of various oil companies, etc.")
% 2.18/2.40  %KIF documentation:(documentation copy EnglishLanguage "relates an &%Object to an exact copy of the &%Object, where an exact copy is indistinguishable from the original with regard to every property except (possibly) spatial and/ or temporal location.")
% 2.18/2.40  %KIF documentation:(documentation AreaMeasure EnglishLanguage "Measures of the amount of space in two dimensions.")
% 2.18/2.40  thf(ax1814,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lCelsiusDegree_THFTYPE_i @ lTemperatureMeasure_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1815,axiom,
% 2.18/2.40      ! [SUBPROC: $i,PROC: $i] :
% 2.18/2.40        ( ( ( instance_THFTYPE_IiioI @ PROC @ lProcess_THFTYPE_i )
% 2.18/2.40          & ( subProcess_THFTYPE_IiioI @ SUBPROC @ PROC ) )
% 2.18/2.40       => ? [TIME: $i] : ( time_THFTYPE_IiioI @ SUBPROC @ TIME ) ) ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation WearableItem EnglishLanguage "&%WearableItem is the subclass of &%Artifacts that are made to be worn on the body.")
% 2.18/2.40  thf(ax1816,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lDevelopmentalAttribute_THFTYPE_i @ lBiologicalAttribute_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1817,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lIsland_THFTYPE_i @ lLandArea_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation hasPurpose EnglishLanguage "This &%Predicate expresses the concept of a conventional goal, i.e. a goal with a neutralized agent's intention. Accordingly, (&%hasPurpose ?THING ?FORMULA) means that the instance of &%Physical ?THING has, as its purpose, the &%Proposition expressed by ?FORMULA. Note that there is an important difference in meaning between the &%Predicates &%hasPurpose and &%result. Although the second argument of the latter can satisfy the second argument of the former, a conventional goal is an expected and desired outcome, while a result may be neither expected nor desired. For example, a machine process may have outcomes but no goals, aimless wandering may have an outcome but no goal, a learning process may have goals with no outcomes, and so on.")
% 2.18/2.40  thf(ax1818,axiom,
% 2.18/2.40      ! [CLASS: $i,FUNCTION: $i] :
% 2.18/2.40        ( ( instance_THFTYPE_IiioI @ FUNCTION @ lCommutativeFunction_THFTYPE_i )
% 2.18/2.40       => ! [INST1: $i,INST2: $i] :
% 2.18/2.40            ( ( ( domain_THFTYPE_IiiioI @ FUNCTION @ n1_THFTYPE_i @ CLASS )
% 2.18/2.40              & ( instance_THFTYPE_IiioI @ INST1 @ CLASS )
% 2.18/2.40              & ( instance_THFTYPE_IiioI @ INST2 @ CLASS ) )
% 2.18/2.40           => ( ( lAssignmentFn_THFTYPE_IiiiiI @ FUNCTION @ INST1 @ INST2 )
% 2.18/2.40              = ( lAssignmentFn_THFTYPE_IiiiiI @ FUNCTION @ INST2 @ INST1 ) ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1819,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lRequesting_THFTYPE_i @ lDirecting_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1820,axiom,
% 2.18/2.40      partition_THFTYPE_IiiioI @ lOrganicObject_THFTYPE_i @ lOrganism_THFTYPE_i @ lAnatomicalStructure_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1821,axiom,
% 2.18/2.40      ! [OBJ: $i,PROCESS: $i] :
% 2.18/2.40        ( ( ( instance_THFTYPE_IiioI @ PROCESS @ lStateChange_THFTYPE_i )
% 2.18/2.40          & ( patient_THFTYPE_IiioI @ PROCESS @ OBJ ) )
% 2.18/2.40       => ? [PART: $i,STATE1: $i,STATE2: $i] :
% 2.18/2.40            ( ( part_THFTYPE_IiioI @ PART @ OBJ )
% 2.18/2.40            & ( instance_THFTYPE_IiioI @ STATE1 @ lPhysicalState_THFTYPE_i )
% 2.18/2.40            & ( instance_THFTYPE_IiioI @ STATE2 @ lPhysicalState_THFTYPE_i )
% 2.18/2.40            & ( (~) @ ( STATE1 = STATE2 ) )
% 2.18/2.40            & ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ PROCESS ) ) @ ( attribute_THFTYPE_IiioI @ PART @ STATE1 ) )
% 2.18/2.40            & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ PROCESS ) ) @ ( attribute_THFTYPE_IiioI @ PART @ STATE2 ) ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1822,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lUnitOfAngularMeasure_THFTYPE_i @ lNonCompositeUnitOfMeasure_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1823,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lTemporaryResidence_THFTYPE_i @ lResidence_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1824,axiom,
% 2.18/2.40      ! [OBJ1: $i,OBJ2: $i] :
% 2.18/2.40        ( ( orientation_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ lNear_THFTYPE_i )
% 2.18/2.40       => ( (~) @ ( connected_THFTYPE_IiioI @ OBJ1 @ OBJ2 ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation pathLength EnglishLanguage "A &%BinaryPredicate that specifies the length (in number of &%GraphNodes) of a &%GraphPath. (&%pathLength ?PATH ?NUMBER) means that there are ?NUMBER nodes in the &%GraphPath ?PATH.")
% 2.18/2.40  %KIF documentation:(documentation CenterOfCircleFn EnglishLanguage "(CenterOfCircleFn ?CIRCLE) denotes the &%GeometricPoint that is the center of the &%Circle ?CIRCLE.")
% 2.18/2.40  %KIF documentation:(documentation PositiveRealNumber EnglishLanguage "A &%RealNumber that is greater than zero.")
% 2.18/2.40  thf(ax1825,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lBodyJunction_THFTYPE_i @ lBodyPart_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation OrganismProcess EnglishLanguage "A physiologic function of the &%Organism as a whole, of multiple organ systems or of multiple &%Organs or &%Tissues.")
% 2.18/2.40  thf(ax1826,axiom,
% 2.18/2.40      ! [NUMBER: $i,PRED1: $i,PRED2: $i] :
% 2.18/2.40        ( ( ( subrelation_THFTYPE_IiioI @ PRED1 @ PRED2 )
% 2.18/2.40          & ( valence_THFTYPE_IiioI @ PRED1 @ NUMBER ) )
% 2.18/2.40       => ( valence_THFTYPE_IiioI @ PRED2 @ NUMBER ) ) ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation EndFn EnglishLanguage "A &%UnaryFunction that maps a &%TimeInterval to the &%TimePoint at which the interval ends.")
% 2.18/2.40  thf(ax1827,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lSuspension_THFTYPE_i @ lLiquidMixture_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1828,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lUnitOfDuration_THFTYPE_i @ lNonCompositeUnitOfMeasure_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1829,axiom,
% 2.18/2.40      ! [BODY: $i,ORG: $i] :
% 2.18/2.40        ( ( ( instance_THFTYPE_IiioI @ BODY @ lReproductiveBody_THFTYPE_i )
% 2.18/2.40          & ( part_THFTYPE_IiioI @ BODY @ ORG )
% 2.18/2.40          & ( instance_THFTYPE_IiioI @ ORG @ lOrganism_THFTYPE_i ) )
% 2.18/2.40       => ( attribute_THFTYPE_IiioI @ ORG @ lFemale_THFTYPE_i ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1830,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lJune_THFTYPE_i @ lMonth_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1831,axiom,
% 2.18/2.40      ! [OBJ1: $i,OBJ2: $i] :
% 2.18/2.40        ( ( orientation_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ lBelow_THFTYPE_i )
% 2.18/2.40      <=> ( ( orientation_THFTYPE_IiiioI @ OBJ2 @ OBJ1 @ lOn_THFTYPE_i )
% 2.18/2.40          | ( orientation_THFTYPE_IiiioI @ OBJ2 @ OBJ1 @ lAbove_THFTYPE_i ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation AlethicAttribute EnglishLanguage "A &%Class containing all of the &%Attributes relating to the notions of possibility and necessity.")
% 2.18/2.40  %KIF documentation:(documentation Byte EnglishLanguage "One &%Byte of information. A &%Byte is eight &%Bits.")
% 2.18/2.40  %KIF documentation:(documentation lessThanOrEqualTo EnglishLanguage "(&%lessThanOrEqualTo ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is less than or equal to the &%Quantity ?NUMBER2.")
% 2.18/2.40  %KIF documentation:(documentation RelativeTimeFn EnglishLanguage "A means of converting &%TimePositions between different &%TimeZones. (&%RelativeTimeFn ?TIME ?ZONE) denotes the &%TimePosition in &%CoordinatedUniversalTime that is contemporaneous with the &%TimePosition ?TIME in &%TimeZone ?ZONE. For example, (&%RelativeTimeFn (&%MeasureFn 14 &%HourDuration) &%EasternTimeZone) would return the value (&%MeasureFn 19 &%HourDuration).")
% 2.18/2.40  thf(ax1832,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lReading_THFTYPE_i @ lContentDevelopment_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1833,axiom,
% 2.18/2.40      ! [E2: $i,ATT: $i,E1: $i] :
% 2.18/2.40        ( ( greaterThanByQuality_THFTYPE_IiiioI @ E1 @ E2 @ ATT )
% 2.18/2.40       => ( (~) @ ( E2 = E1 ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1834,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lSentence_THFTYPE_i @ lLinguisticExpression_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation frequency EnglishLanguage "(&%frequency ?PROC ?TIME) means that the &%Process type of ?PROC recurs after every interval of ?TIME.")
% 2.18/2.40  thf(ax1835,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lInvalidDeductiveArgument_THFTYPE_i @ lDeductiveArgument_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1836,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lNormativeAttribute_THFTYPE_i @ lRelationalAttribute_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1837,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lPseudoGraph_THFTYPE_i @ lGraph_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1838,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lAbstract_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1839,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lGland_THFTYPE_i @ lOrgan_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1840,axiom,
% 2.18/2.40      ! [CLASS: $i,PRED1: $i,PRED2: $i] :
% 2.18/2.40        ( ( ( subrelation_THFTYPE_IiioI @ PRED1 @ PRED2 )
% 2.18/2.40          & ( instance_THFTYPE_IiioI @ PRED2 @ CLASS )
% 2.18/2.40          & ( subclass_THFTYPE_IiioI @ CLASS @ lInheritableRelation_THFTYPE_i ) )
% 2.18/2.40       => ( instance_THFTYPE_IiioI @ PRED1 @ CLASS ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1841,axiom,
% 2.18/2.40      ! [NUMBER: $i] :
% 2.18/2.40        ( ( NUMBER
% 2.18/2.40          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.18/2.40       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lFootLength_THFTYPE_i )
% 2.18/2.40          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n0dot3048_THFTYPE_i ) @ lMeter_THFTYPE_i ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1842,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lFrequencyMeasure_THFTYPE_i @ lTimeDependentQuantity_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1843,axiom,
% 2.18/2.40      ! [OBJ1: $i,OBJ2: $i,OBJ3: $i] :
% 2.18/2.40        ( ( connects_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ OBJ3 )
% 2.18/2.40      <=> ( between_THFTYPE_IiiioI @ OBJ2 @ OBJ1 @ OBJ3 ) ) ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation attends EnglishLanguage "(&%attends ?DEMO ?PERSON) means that ?PERSON attends, i.e. is a member of the audience, of the performance event ?DEMO.")
% 2.18/2.40  thf(ax1844,axiom,
% 2.18/2.40      ! [NUMBER: $i,QUANT: $i,UNIT: $i] :
% 2.18/2.40        ( ( ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ UNIT )
% 2.18/2.40            = QUANT )
% 2.18/2.40          & ( instance_THFTYPE_IiioI @ UNIT @ lUnitOfTemperature_THFTYPE_i ) )
% 2.18/2.40       => ( instance_THFTYPE_IiioI @ QUANT @ lTemperatureMeasure_THFTYPE_i ) ) ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation Certificate EnglishLanguage "A &%Text that confers a right or obligation on the holder of the &%Certificate. Note that the right or obligation need not be a legal one, as in the case of an academic diploma that grants certain privileges in the professional world.")
% 2.18/2.40  thf(ax1845,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lUnaryConstantFunctionQuantity_THFTYPE_i @ lFunctionQuantity_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1846,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lCarbohydrate_THFTYPE_i @ lNutrient_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation PurchaseContract EnglishLanguage "A &%Contract between two &%Agents in which one &%Agent agrees to render the other some good or service in exchange for currency.")
% 2.18/2.40  thf(ax1847,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lComplexNumber_THFTYPE_i @ lNumber_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1848,axiom,
% 2.18/2.40      ! [NUMBER2: $i,NUMBER1: $i] :
% 2.18/2.40        ( ( ltet_THFTYPE_IiioI @ NUMBER1 @ NUMBER2 )
% 2.18/2.40      <=> ( ( NUMBER1 = NUMBER2 )
% 2.18/2.40          | ( lt_THFTYPE_IiioI @ NUMBER1 @ NUMBER2 ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1849,axiom,
% 2.18/2.40      ! [ARTIFACT: $i] :
% 2.18/2.40        ( ( instance_THFTYPE_IiioI @ ARTIFACT @ lArtifact_THFTYPE_i )
% 2.18/2.40      <=> ? [MAKING: $i] :
% 2.18/2.40            ( ( instance_THFTYPE_IiioI @ MAKING @ lMaking_THFTYPE_i )
% 2.18/2.40            & ( result_THFTYPE_IiioI @ MAKING @ ARTIFACT ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1850,axiom,
% 2.18/2.40      ! [CLASS1: $i,CLASS2: $i] :
% 2.18/2.40        ( ( subsumesContentClass_THFTYPE_IiioI @ CLASS1 @ CLASS2 )
% 2.18/2.40       => ! [OBJ2: $i,INFO: $o] :
% 2.18/2.40            ( ( ( instance_THFTYPE_IiioI @ OBJ2 @ CLASS2 )
% 2.18/2.40              & ( containsInformation_THFTYPE_IiooI @ OBJ2 @ INFO ) )
% 2.18/2.40           => ? [OBJ1: $i] :
% 2.18/2.40                ( ( instance_THFTYPE_IiioI @ OBJ1 @ CLASS1 )
% 2.18/2.40                & ( containsInformation_THFTYPE_IiooI @ OBJ1 @ INFO ) ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1851,axiom,
% 2.18/2.40      ! [TIME2: $i,TIME1: $i] :
% 2.18/2.40        ( ( ( lRelativeTimeFn_THFTYPE_IiiiI @ TIME1 @ lMountainTimeZone_THFTYPE_i )
% 2.18/2.40          = TIME2 )
% 2.18/2.40       => ( TIME2
% 2.18/2.40          = ( plus_THFTYPE_IiiiI @ TIME1 @ n7_THFTYPE_i ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1852,axiom,
% 2.18/2.40      ! [REQUEST: $i,FORMULA: $o,AGENT: $i] :
% 2.18/2.40        ( ( ( instance_THFTYPE_IiioI @ REQUEST @ lRequesting_THFTYPE_i )
% 2.18/2.40          & ( agent_THFTYPE_IiioI @ REQUEST @ AGENT )
% 2.18/2.40          & ( patient_THFTYPE_IiooI @ REQUEST @ FORMULA )
% 2.18/2.40          & ( instance_THFTYPE_IoioI @ FORMULA @ lFormula_THFTYPE_i ) )
% 2.18/2.40       => ( desires_THFTYPE_IiooI @ AGENT @ FORMULA ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1853,axiom,
% 2.18/2.40      ! [ATTR: $i,THING: $i] :
% 2.18/2.40        ( ( ( property_THFTYPE_IiioI @ THING @ ATTR )
% 2.18/2.40          & ( instance_THFTYPE_IiioI @ ATTR @ lContestAttribute_THFTYPE_i ) )
% 2.18/2.40       => ? [CONTEST: $i] :
% 2.18/2.40            ( ( instance_THFTYPE_IiioI @ CONTEST @ lContest_THFTYPE_i )
% 2.18/2.40            & ( ( agent_THFTYPE_IiioI @ CONTEST @ THING )
% 2.18/2.40              | ( patient_THFTYPE_IiioI @ CONTEST @ THING )
% 2.18/2.40              | ( subProcess_THFTYPE_IiioI @ THING @ CONTEST ) ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1854,axiom,
% 2.18/2.40      ! [NUMBER: $i,NUMBER2: $i,NUMBER1: $i] :
% 2.18/2.40        ( ( ( lRemainderFn_THFTYPE_IiiiI @ NUMBER1 @ NUMBER2 )
% 2.18/2.40          = NUMBER )
% 2.18/2.40      <=> ( ( plus_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ ( lFloorFn_THFTYPE_IiiI @ ( div_THFTYPE_IiiiI @ NUMBER1 @ NUMBER2 ) ) @ NUMBER2 ) @ NUMBER )
% 2.18/2.40          = NUMBER1 ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1855,axiom,
% 2.18/2.40      partition_THFTYPE_IiiioI @ lHumanLanguage_THFTYPE_i @ lSpokenHumanLanguage_THFTYPE_i @ lManualHumanLanguage_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1856,axiom,
% 2.18/2.40      ! [WEEK: $i] :
% 2.18/2.40        ( ( instance_THFTYPE_IiioI @ WEEK @ lWeek_THFTYPE_i )
% 2.18/2.40       => ( ( lCardinalityFn_THFTYPE_IiiI @ ( lTemporalCompositionFn_THFTYPE_IiiiI @ WEEK @ lDay_THFTYPE_i ) )
% 2.18/2.40          = n7_THFTYPE_i ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1857,axiom,
% 2.18/2.40      ! [OBJ: $i] :
% 2.18/2.40        ( ( instance_THFTYPE_IiioI @ OBJ @ lContentBearingPhysical_THFTYPE_i )
% 2.18/2.40       => ? [THING: $i] : ( represents_THFTYPE_IiioI @ OBJ @ THING ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1858,axiom,
% 2.18/2.40      ! [OBJ: $i,VIRUS: $i] :
% 2.18/2.40        ( ( ( instance_THFTYPE_IiioI @ VIRUS @ lVirus_THFTYPE_i )
% 2.18/2.40          & ( inhabits_THFTYPE_IiioI @ VIRUS @ OBJ ) )
% 2.18/2.40       => ( instance_THFTYPE_IiioI @ OBJ @ lOrganism_THFTYPE_i ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1859,axiom,
% 2.18/2.40      ! [ORG: $i,PROC: $i] :
% 2.18/2.40        ( ( ( instance_THFTYPE_IiioI @ PROC @ lBiologicalProcess_THFTYPE_i )
% 2.18/2.40          & ( experiencer_THFTYPE_IiioI @ PROC @ ORG ) )
% 2.18/2.40       => ( instance_THFTYPE_IiioI @ ORG @ lOrganism_THFTYPE_i ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1860,axiom,
% 2.18/2.40      ! [POINT: $i] :
% 2.18/2.40        ( ( ( instance_THFTYPE_IiioI @ POINT @ lTimePoint_THFTYPE_i )
% 2.18/2.40          & ( (~) @ ( POINT = lPositiveInfinity_THFTYPE_i ) ) )
% 2.18/2.40       => ( before_THFTYPE_IiioI @ POINT @ lPositiveInfinity_THFTYPE_i ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1861,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lContentBearingObject_THFTYPE_i @ lCorpuscularObject_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation Gas EnglishLanguage "An &%Object has the &%Attribute of &%Gas if it has neither a fixed volume nor a fixed shape.")
% 2.18/2.40  %KIF documentation:(documentation Watt EnglishLanguage "SI power measure. Symbol: W. A &%UnitOfMeasure that measures power, i.e. energy produced or expended divided by &%TimeDuration. It is the power which gives rise to the production of energy (or work) at the rate of one &%Joule per &%SecondDuration. &%Watt = J/ s = m^2*kg*s^(-3).")
% 2.18/2.40  %KIF documentation:(documentation Air EnglishLanguage "&%Air is the gaseous stuff that makes up the atmosphere surrounding Earth.")
% 2.18/2.40  %KIF documentation:(documentation Sunday EnglishLanguage "The &%Class of all calendar Sundays.")
% 2.18/2.40  thf(ax1862,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lGesture_THFTYPE_i @ lCommunication_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1863,axiom,
% 2.18/2.40      ! [AGENT: $i] :
% 2.18/2.40        ( ( instance_THFTYPE_IiioI @ AGENT @ lAgent_THFTYPE_i )
% 2.18/2.40      <=> ? [PROC: $i] : ( agent_THFTYPE_IiioI @ PROC @ AGENT ) ) ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation ProbabilityFn EnglishLanguage "One of the basic &%ProbabilityRelations, &%ProbabilityFn is used to state the a priori probability of a state of affairs. (&%ProbabilityFn ?FORMULA) denotes the a priori probability of ?FORMULA.")
% 2.18/2.40  %KIF documentation:(documentation Wet EnglishLanguage "An &%Attribute which indicates that the associated &%Object is fully saturated with a &%Liquid, i.e. every part of the &%Object has a subpart which is a &%Liquid.")
% 2.18/2.40  %KIF documentation:(documentation Cloud EnglishLanguage "Any &%GasMixture that is visible, e.g. &%Smoke produced by a fire or clouds of water vapor in the sky.")
% 2.18/2.40  thf(ax1864,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lPlantSubstance_THFTYPE_i @ lBodySubstance_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation TeraFn EnglishLanguage "A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to 1,000,000,000,000 units of the original &%UnitOfMeasure. For example, (&%TeraFn &%Hertz) is 1,000,000,000,000 &%Hertz.")
% 2.18/2.40  %KIF documentation:(documentation On EnglishLanguage "This is used to assert that an object is on top of another object, and it is derived from the up/ down schema and involves contact.")
% 2.18/2.40  thf(ax1865,axiom,
% 2.18/2.40      ! [INT2: $i,INT1: $i] :
% 2.18/2.40        ( ( ( lSuccessorFn_THFTYPE_IiiI @ INT1 )
% 2.18/2.40          = ( lSuccessorFn_THFTYPE_IiiI @ INT2 ) )
% 2.18/2.40       => ( INT1 = INT2 ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1866,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lHominid_THFTYPE_i @ lPrimate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1867,axiom,
% 2.18/2.40      ! [Y: $i,YEAR: $i,MONTH: $i] :
% 2.18/2.40        ( ( ( instance_THFTYPE_IiioI @ MONTH @ ( lMonthFn_THFTYPE_IiiiI @ lFebruary_THFTYPE_i @ YEAR ) )
% 2.18/2.40          & ( instance_THFTYPE_IiioI @ Y @ YEAR )
% 2.18/2.40          & ( (~) @ ( instance_THFTYPE_IiioI @ Y @ lLeapYear_THFTYPE_i ) ) )
% 2.18/2.40       => ( duration_THFTYPE_IiioI @ MONTH @ ( lMeasureFn_THFTYPE_IiiiI @ n28_THFTYPE_i @ lDayDuration_THFTYPE_i ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1868,axiom,
% 2.18/2.40      ! [COOPERATE: $i] :
% 2.18/2.40        ( ( instance_THFTYPE_IiioI @ COOPERATE @ lCooperation_THFTYPE_i )
% 2.18/2.40       => ? [PURP: $o] :
% 2.18/2.40          ! [AGENT: $i] :
% 2.18/2.40            ( ( agent_THFTYPE_IiioI @ COOPERATE @ AGENT )
% 2.18/2.40           => ( hasPurposeForAgent_THFTYPE_IioioI @ COOPERATE @ PURP @ AGENT ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1869,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lOrganism_THFTYPE_i @ lOrganicObject_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1870,axiom,
% 2.18/2.40      ! [DECISION: $i] :
% 2.18/2.40        ( ( instance_THFTYPE_IiioI @ DECISION @ lLegalDecision_THFTYPE_i )
% 2.18/2.40       => ? [DECIDE: $i] :
% 2.18/2.40            ( ( instance_THFTYPE_IiioI @ DECIDE @ lDeciding_THFTYPE_i )
% 2.18/2.40            & ( earlier_THFTYPE_IiioI @ ( lWhenFn_THFTYPE_IiiI @ DECIDE ) @ ( lWhenFn_THFTYPE_IiiI @ DECISION ) ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1871,axiom,
% 2.18/2.40      ! [WEEK: $i,DAY1: $i,DAY2: $i] :
% 2.18/2.40        ( ( ( instance_THFTYPE_IiioI @ DAY1 @ lFriday_THFTYPE_i )
% 2.18/2.40          & ( instance_THFTYPE_IiioI @ DAY2 @ lSaturday_THFTYPE_i )
% 2.18/2.40          & ( instance_THFTYPE_IiioI @ WEEK @ lWeek_THFTYPE_i )
% 2.18/2.40          & ( temporalPart_THFTYPE_IiioI @ DAY1 @ WEEK )
% 2.18/2.40          & ( temporalPart_THFTYPE_IiioI @ DAY2 @ WEEK ) )
% 2.18/2.40       => ( meetsTemporally_THFTYPE_IiioI @ DAY1 @ DAY2 ) ) ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation ReciprocalFn EnglishLanguage "(ReciprocalFn ?NUMBER) is the reciprocal element of ?NUMBER with respect to the multiplication operator (&%MultiplicationFn), i.e. 1/ ?NUMBER. Not all numbers have a reciprocal element. For example the number 0 does not. If a number ?NUMBER has a reciprocal ?RECIP, then the product of ?NUMBER and ?RECIP will be 1, e.g. 3*1/ 3 = 1. The reciprocal of an element is &%equal to applying the &%ExponentiationFn function to the element to the power -1.")
% 2.18/2.40  thf(ax1872,axiom,
% 2.18/2.40      range_THFTYPE_IiioI @ lLeastCommonMultipleFn_THFTYPE_i @ lInteger_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1873,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lQuaternaryRelation_THFTYPE_i @ lRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1874,axiom,
% 2.18/2.40      ! [FORMULA: $o,AGENT: $i] :
% 2.18/2.40        ( ( knows_THFTYPE_IiooI @ AGENT @ FORMULA )
% 2.18/2.40       => ( truth_THFTYPE_IoooI @ FORMULA @ $true ) ) ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation QuaternaryPredicate EnglishLanguage "The &%Class of &%Predicates that require four arguments.")
% 2.18/2.40  %KIF documentation:(documentation NonNullSet EnglishLanguage "Any &%SetOrClass that contains at least one instance.")
% 2.18/2.40  thf(ax1875,axiom,
% 2.18/2.40      disjoint_THFTYPE_IiioI @ lBird_THFTYPE_i @ lMammal_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation Audible EnglishLanguage "A sound level capable of being heard by a &%Human.")
% 2.18/2.40  %KIF documentation:(documentation TemporalCompositionFn EnglishLanguage "The basic &%Function for expressing the composition of larger &%TimeIntervals out of smaller &%TimeIntervals. For example, if &%ThisSeptember is an &%instance of &%September, (&%TemporalCompositionFn &%ThisSeptember &%Day) denotes the &%Class of consecutive days that make up &%ThisSeptember. Note that one can obtain the number of instances of this &%Class by using the function &%CardinalityFn.")
% 2.18/2.40  %KIF documentation:(documentation SoundAttribute EnglishLanguage "The volume of sound relative to a listener.")
% 2.18/2.40  %KIF documentation:(documentation successorAttributeClosure EnglishLanguage "The transitive closure of &%successorAttribute. (&%successorAttributeClosure ?ATTR1 ?ATTR2) means that there is a chain of &%successorAttribute assertions connecting ?ATTR1 and ?ATTR2.")
% 2.18/2.40  thf(ax1876,axiom,
% 2.18/2.40      ! [ACT: $i,AGENT: $i] :
% 2.18/2.40        ( ( ( instance_THFTYPE_IiioI @ ACT @ lOrganizationalProcess_THFTYPE_i )
% 2.18/2.40          & ( agent_THFTYPE_IiioI @ ACT @ AGENT ) )
% 2.18/2.40       => ( ( instance_THFTYPE_IiioI @ AGENT @ lOrganization_THFTYPE_i )
% 2.18/2.40          | ? [ORG: $i] :
% 2.18/2.40              ( ( instance_THFTYPE_IiioI @ ORG @ lOrganization_THFTYPE_i )
% 2.18/2.40              & ( member_THFTYPE_IiioI @ AGENT @ ORG ) ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1877,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lLandTransitway_THFTYPE_i @ lLandArea_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1878,axiom,
% 2.18/2.40      ! [OBJ: $i,KILL: $i] :
% 2.18/2.40        ( ( ( instance_THFTYPE_IiioI @ KILL @ lKilling_THFTYPE_i )
% 2.18/2.40          & ( patient_THFTYPE_IiioI @ KILL @ OBJ ) )
% 2.18/2.40       => ? [DEATH: $i] :
% 2.18/2.40            ( ( instance_THFTYPE_IiioI @ DEATH @ lDeath_THFTYPE_i )
% 2.18/2.40            & ( experiencer_THFTYPE_IiioI @ DEATH @ OBJ )
% 2.18/2.40            & ( causes_THFTYPE_IiioI @ KILL @ DEATH ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1879,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lTransitiveRelation_THFTYPE_i @ lBinaryRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1880,axiom,
% 2.18/2.40      ! [OBJ: $i,AGENT: $i,SEE: $i] :
% 2.18/2.40        ( ( ( instance_THFTYPE_IiioI @ SEE @ lSeeing_THFTYPE_i )
% 2.18/2.40          & ( agent_THFTYPE_IiioI @ SEE @ AGENT )
% 2.18/2.40          & ( patient_THFTYPE_IiioI @ SEE @ OBJ ) )
% 2.18/2.40       => ? [PROP: $i] :
% 2.18/2.40            ( ( instance_THFTYPE_IiioI @ PROP @ lColorAttribute_THFTYPE_i )
% 2.18/2.40            & ( knows_THFTYPE_IiooI @ AGENT @ ( attribute_THFTYPE_IiioI @ OBJ @ PROP ) ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1881,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lDancing_THFTYPE_i @ lBodyMotion_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1882,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lParamilitaryOrganization_THFTYPE_i @ lMilitaryForce_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1883,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lMassMeasure_THFTYPE_i @ lConstantQuantity_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation CutSetFn EnglishLanguage "A &%UnaryFunction that assigns a &%Graph the &%Class of &%GraphPaths that partition the graph into two separate graphs if cut. There may be more than one cutset for a given graph.")
% 2.18/2.40  thf(ax1884,axiom,
% 2.18/2.40      ! [PERSON: $i,ORG: $i,FIRE: $i] :
% 2.18/2.40        ( ( ( instance_THFTYPE_IiioI @ FIRE @ lTerminatingEmployment_THFTYPE_i )
% 2.18/2.40          & ( instance_THFTYPE_IiioI @ ORG @ lOrganization_THFTYPE_i )
% 2.18/2.40          & ( agent_THFTYPE_IiioI @ FIRE @ ORG )
% 2.18/2.40          & ( patient_THFTYPE_IiioI @ FIRE @ PERSON ) )
% 2.18/2.40       => ( ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ FIRE ) ) @ ( employs_THFTYPE_IiioI @ ORG @ PERSON ) )
% 2.18/2.40          & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ FIRE ) ) @ ( (~) @ ( employs_THFTYPE_IiioI @ ORG @ PERSON ) ) ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation age EnglishLanguage "Simply relates an &%Object to a &%ConstantQuantity specifying the age of the &%Object.")
% 2.18/2.40  %KIF documentation:(documentation Hertz EnglishLanguage "SI frequency measure. Symbol: Hz. It is the number of cycles per second. &%Hertz = s^(-1). Note that &%Hertz does not have a conversion function.")
% 2.18/2.40  %KIF documentation:(documentation Yellow EnglishLanguage "The &%Attribute of being yellow in color.")
% 2.18/2.40  %KIF documentation:(documentation Game EnglishLanguage "A &%Contest whose purpose is the enjoyment/ stimulation of the participants or spectators of the &%Game.")
% 2.18/2.40  thf(ax1885,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lFactualText_THFTYPE_i @ lText_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1886,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lGesture_THFTYPE_i @ lBodyMotion_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1887,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lBinaryNumber_THFTYPE_i @ lRealNumber_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation Shooting EnglishLanguage "The &%subclass of &%Impelling where the &%patient is a projectile that is fired through the air by means of some sort of &%Device.")
% 2.18/2.40  %KIF documentation:(documentation FootLength EnglishLanguage "English length unit of feet.")
% 2.18/2.40  %KIF documentation:(documentation UnitOfDuration EnglishLanguage "Every instance of this &%Class is a &%UnitOfMeasure that can be used with &%MeasureFn to form instances of &%TimeDuration. Note that &%TimeDuration is a &%subclass of &%TimeMeasure.")
% 2.18/2.40  thf(ax1888,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lImaginaryNumber_THFTYPE_i @ lNumber_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1889,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lNutrient_THFTYPE_i @ lBiologicallyActiveSubstance_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1890,axiom,
% 2.18/2.40      ! [AGENT: $i] :
% 2.18/2.40        ( ( ( instance_THFTYPE_IiioI @ AGENT @ lSentientAgent_THFTYPE_i )
% 2.18/2.40          & ( attribute_THFTYPE_IiioI @ AGENT @ lLiving_THFTYPE_i ) )
% 2.18/2.40      <=> ? [ATTR: $i] :
% 2.18/2.40            ( ( instance_THFTYPE_IiioI @ ATTR @ lConsciousnessAttribute_THFTYPE_i )
% 2.18/2.40            & ( attribute_THFTYPE_IiioI @ AGENT @ ATTR ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation stays EnglishLanguage "The relation between a &%Human and a &%TemporaryResidence of the &%Human.")
% 2.18/2.40  %KIF documentation:(documentation fills EnglishLanguage "Holes can be filled. (&%fills ?OBJ ?HOLE) means that the &%Object ?OBJ fills the &%Hole ?HOLE. Note that &%fills here means perfectly filled. Perfect fillers and fillable entities have no parts in common (rather, they may occupy the same spatial region).")
% 2.18/2.40  %KIF documentation:(documentation LandTransitway EnglishLanguage "&%LandTransitway is the subclass of &%Transitway that represents areas intended for motion over the ground.")
% 2.18/2.40  thf(ax1891,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lCommercialService_THFTYPE_i @ lServiceProcess_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation SymbolicString EnglishLanguage "The &%Class of alphanumeric sequences.")
% 2.18/2.40  %KIF documentation:(documentation Wedding EnglishLanguage "Any &%Declaring that leads to one person being the &%spouse of another.")
% 2.18/2.40  thf(ax1892,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lQuantityChange_THFTYPE_i @ lInternalChange_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation Steradian EnglishLanguage "SI solid angle measure. Symbol: sr. It is the solid angle of a sphere subtended by a portion of the surface whose area is equal to the square of the sphere's radius. Another definition is: the solid angle which, having its vertex in the center of the sphere, cuts off an area of the surface of the sphere equal to that of a square with sides of length equal to the radius of the sphere. &%Steradian = m^2/ m^2 = 1.")
% 2.18/2.40  %KIF documentation:(documentation ChemicalProcess EnglishLanguage "A &%ChemicalProcess occurs whenever chemical compounds (&%CompoundSubstances) are formed or decomposed. For example, reactants disappear as chemical change occurs, and products appear as chemical change occurs. In a chemical change a chemical reaction takes place. Catalysts in a &%ChemicalProcess may speed up the reaction, but aren't themselves produced or consumed. Examples: rusting of iron and the decomposition of water, induced by an electric current, to gaseous hydrogen and gaseous oxygen.")
% 2.18/2.40  thf(ax1893,axiom,
% 2.18/2.40      ! [OBJ: $i,GIVE: $i,AGENT2: $i,AGENT1: $i] :
% 2.18/2.40        ( ( ( instance_THFTYPE_IiioI @ GIVE @ lGiving_THFTYPE_i )
% 2.18/2.40          & ( agent_THFTYPE_IiioI @ GIVE @ AGENT1 )
% 2.18/2.40          & ( destination_THFTYPE_IiioI @ GIVE @ AGENT2 )
% 2.18/2.40          & ( instance_THFTYPE_IiioI @ AGENT2 @ lAgent_THFTYPE_i )
% 2.18/2.40          & ( patient_THFTYPE_IiioI @ GIVE @ OBJ ) )
% 2.18/2.40       => ? [GET: $i] :
% 2.18/2.40            ( ( instance_THFTYPE_IiioI @ GET @ lGetting_THFTYPE_i )
% 2.18/2.40            & ( agent_THFTYPE_IiioI @ GET @ AGENT2 )
% 2.18/2.40            & ( origin_THFTYPE_IiioI @ GET @ AGENT1 )
% 2.18/2.40            & ( patient_THFTYPE_IiioI @ GET @ OBJ ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1894,axiom,
% 2.18/2.40      ! [MOVE: $i] :
% 2.18/2.40        ( ( instance_THFTYPE_IiioI @ MOVE @ lManeuver_THFTYPE_i )
% 2.18/2.40       => ? [CONTEST: $i] :
% 2.18/2.40            ( ( instance_THFTYPE_IiioI @ CONTEST @ lContest_THFTYPE_i )
% 2.18/2.40            & ( subProcess_THFTYPE_IiioI @ MOVE @ CONTEST ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1895,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lVolumeMeasure_THFTYPE_i @ lFunctionQuantity_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation ShapeAttribute EnglishLanguage "Any &%Attribute that relates to the shape of an &%Object.")
% 2.18/2.40  thf(ax1896,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lDisseminating_THFTYPE_i @ lCommunication_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation Black EnglishLanguage "The &%Attribute of being black in color.")
% 2.18/2.40  %KIF documentation:(documentation length EnglishLanguage "&%BinaryPredicate that is used to state the measure of an &%Object along its longest span.")
% 2.18/2.40  %KIF documentation:(documentation legalRelation EnglishLanguage "(&%legalRelation ?AGENT1 ?AGENT2) means that ?AGENT1 and ?AGENT2 are relatives by virtue of a legal relationship. Some examples include marriage, adoption, etc.")
% 2.18/2.40  thf(ax1897,axiom,
% 2.18/2.40      ! [AGENT: $i,BIRTH: $i] :
% 2.18/2.40        ( ( ( instance_THFTYPE_IiioI @ BIRTH @ lBirth_THFTYPE_i )
% 2.18/2.40          & ( experiencer_THFTYPE_IiioI @ BIRTH @ AGENT ) )
% 2.18/2.40       => ? [DEATH: $i] :
% 2.18/2.40            ( ( instance_THFTYPE_IiioI @ DEATH @ lDeath_THFTYPE_i )
% 2.18/2.40            & ( experiencer_THFTYPE_IiioI @ DEATH @ AGENT ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1898,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lSmoke_THFTYPE_i @ lCloud_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1899,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lRoadway_THFTYPE_i @ lLandTransitway_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1900,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lLengthMeasure_THFTYPE_i @ lConstantQuantity_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1901,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lTernaryPredicate_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation NullList EnglishLanguage "The &%List that has no items. The uniqueness of &%NullList follows from the extensionality of &%Lists, i.e. the fact that two &%Lists with the same items in the same order are identical.")
% 2.18/2.40  thf(ax1902,axiom,
% 2.18/2.40      ! [CP: $i] :
% 2.18/2.40        ( ( instance_THFTYPE_IiioI @ CP @ lComputerProgramming_THFTYPE_i )
% 2.18/2.40       => ? [C: $i] :
% 2.18/2.40            ( ( instance_THFTYPE_IiioI @ C @ lComputerProgram_THFTYPE_i )
% 2.18/2.40            & ( result_THFTYPE_IiioI @ CP @ C ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation SubtractionFn EnglishLanguage "If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%SubtractionFn ?NUMBER1 ?NUMBER2) is the arithmetical difference between ?NUMBER1 and ?NUMBER2, i.e. ?NUMBER1 minus ?NUMBER2. An exception occurs when ?NUMBER1 is equal to 0, in which case (&%SubtractionFn ?NUMBER1 ?NUMBER2) is the negation of ?NUMBER2.")
% 2.18/2.40  thf(ax1903,axiom,
% 2.18/2.40      ! [NUMBER: $i] :
% 2.18/2.40        ( ( instance_THFTYPE_IiioI @ NUMBER @ lOddInteger_THFTYPE_i )
% 2.18/2.40       => ( ( lRemainderFn_THFTYPE_IiiiI @ NUMBER @ n2_THFTYPE_i )
% 2.18/2.40          = n1_THFTYPE_i ) ) ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation OlfactoryAttribute EnglishLanguage "The &%Class of properties that are detectable by smell.")
% 2.18/2.40  thf(ax1904,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lQuintaryPredicate_THFTYPE_i @ lPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation Abstract EnglishLanguage "Properties or qualities as distinguished from any particular embodiment of the properties/ qualities in a physical medium. Instances of Abstract can be said to exist in the same sense as mathematical objects such as sets and relations, but they cannot exist at a particular place and time without some physical encoding or embodiment.")
% 2.18/2.40  thf(ax1905,axiom,
% 2.18/2.40      ! [NUMBER: $i,QUANT: $i,UNIT: $i] :
% 2.18/2.40        ( ( ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ UNIT )
% 2.18/2.40            = QUANT )
% 2.18/2.40          & ( instance_THFTYPE_IiioI @ UNIT @ lUnitOfLength_THFTYPE_i ) )
% 2.18/2.40       => ( instance_THFTYPE_IiioI @ QUANT @ lLengthMeasure_THFTYPE_i ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1906,axiom,
% 2.18/2.40      ! [VALUE: $i,ITEM: $i] :
% 2.18/2.40        ( ( ( property_THFTYPE_IiioI @ ITEM @ VALUE )
% 2.18/2.40          & ( instance_THFTYPE_IiioI @ VALUE @ lTruthValue_THFTYPE_i ) )
% 2.18/2.40       => ( ( instance_THFTYPE_IiioI @ ITEM @ lSentence_THFTYPE_i )
% 2.18/2.40          | ( instance_THFTYPE_IiioI @ ITEM @ lProposition_THFTYPE_i ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation OpenTwoDimensionalFigure EnglishLanguage "The class of &%TwoDimensionalFigures that are not &%ClosedTwoDimensionalFigures.")
% 2.18/2.40  %KIF documentation:(documentation Carbohydrate EnglishLanguage "An element of living cells and a source of energy for &%Animals. This class includes both simple &%Carbohydrates, i.e. sugars, and complex &%Carbohydrates, i.e. starches.")
% 2.18/2.40  %KIF documentation:(documentation LandArea EnglishLanguage "An area which is predominantly solid ground, e.g. a &%Nation, a mountain, a desert, etc. Note that a &%LandArea may contain some relatively small &%WaterAreas. For example, Australia is a &%LandArea even though it contains various rivers and lakes.")
% 2.18/2.40  thf(ax1907,axiom,
% 2.18/2.40      ! [NUMBER: $i,CLASS: $i,REL: $i > $o,ROW: $i] :
% 2.18/2.40        ( ( ( domain_THFTYPE_IIioIiioI @ REL @ NUMBER @ CLASS )
% 2.18/2.40          & ( REL @ ROW ) )
% 2.18/2.40       => ( instance_THFTYPE_IiioI @ ( lListOrderFn_THFTYPE_IiiiI @ ( lListFn_THFTYPE_IiiI @ ROW ) @ NUMBER ) @ CLASS ) ) ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation Plan EnglishLanguage "A specification of a sequence of &%Processes which is intended to satisfy a specified purpose at some future time.")
% 2.18/2.40  thf(ax1908,axiom,
% 2.18/2.40      contraryAttribute_THFTYPE_IiioI @ lUnconscious_THFTYPE_i @ lAwake_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1909,axiom,
% 2.18/2.40      ! [NUMBER: $i] :
% 2.18/2.40        ( ( NUMBER
% 2.18/2.40          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.18/2.40       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lMillimeter_THFTYPE_i )
% 2.18/2.40          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n0dot001_THFTYPE_i ) @ lMeter_THFTYPE_i ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1910,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lNegativeInteger_THFTYPE_i @ lInteger_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1911,axiom,
% 2.18/2.40      range_THFTYPE_IiioI @ lGreatestCommonDivisorFn_THFTYPE_i @ lInteger_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1912,axiom,
% 2.18/2.40      range_THFTYPE_IiioI @ lPicoFn_THFTYPE_i @ lUnitOfMeasure_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1913,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lProduct_THFTYPE_i @ lArtifact_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1914,axiom,
% 2.18/2.40      range_THFTYPE_IiioI @ lRelativeComplementFn_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1915,axiom,
% 2.18/2.40      ! [STUFF: $i] :
% 2.18/2.40        ( ( instance_THFTYPE_IiioI @ STUFF @ lTissue_THFTYPE_i )
% 2.18/2.40       => ? [ORGANISM: $i] :
% 2.18/2.40            ( ( instance_THFTYPE_IiioI @ ORGANISM @ lOrganism_THFTYPE_i )
% 2.18/2.40            & ( part_THFTYPE_IiioI @ STUFF @ ORGANISM ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1916,axiom,
% 2.18/2.40      ! [CLASS1: $i,REL: $i,CLASS2: $i] :
% 2.18/2.40        ( ( ( range_THFTYPE_IiioI @ REL @ CLASS1 )
% 2.18/2.40          & ( range_THFTYPE_IiioI @ REL @ CLASS2 ) )
% 2.18/2.40       => ( ( subclass_THFTYPE_IiioI @ CLASS1 @ CLASS2 )
% 2.18/2.40          | ( subclass_THFTYPE_IiioI @ CLASS2 @ CLASS1 ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1917,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lArtificialLanguage_THFTYPE_i @ lLanguage_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1918,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lResidentialBuilding_THFTYPE_i @ lBuilding_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1919,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lMineral_THFTYPE_i @ lSubstance_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation greaterThanByQuality "(greaterThanByQuality ?ENTITY1 ?ENTITY2 ?ATT) means that ?ENTITY1 has more of the given quality ?ATT than ?ENTITY2)")
% 2.18/2.40  thf(ax1920,axiom,
% 2.18/2.40      ! [OBJ: $i] :
% 2.18/2.40        ( ( instance_THFTYPE_IiioI @ OBJ @ lSolution_THFTYPE_i )
% 2.18/2.40       => ( attribute_THFTYPE_IiioI @ OBJ @ lLiquid_THFTYPE_i ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1921,axiom,
% 2.18/2.40      ! [TIME: $i,ATTR: $i,ORGANISM: $i] :
% 2.18/2.40        ( ( instance_THFTYPE_IiioI @ ATTR @ lPsychologicalAttribute_THFTYPE_i )
% 2.18/2.40       => ( ( holdsDuring_THFTYPE_IiooI @ TIME @ ( attribute_THFTYPE_IiioI @ ORGANISM @ ATTR ) )
% 2.18/2.40         => ( holdsDuring_THFTYPE_IiooI @ TIME @ ( attribute_THFTYPE_IiioI @ ORGANISM @ lLiving_THFTYPE_i ) ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1922,axiom,
% 2.18/2.40      ! [PROPOSITION: $o,AGENT: $i,JUDGE: $i] :
% 2.18/2.40        ( ( ( instance_THFTYPE_IiioI @ JUDGE @ lJudging_THFTYPE_i )
% 2.18/2.40          & ( agent_THFTYPE_IiioI @ JUDGE @ AGENT )
% 2.18/2.40          & ( patient_THFTYPE_IiooI @ JUDGE @ PROPOSITION ) )
% 2.18/2.40       => ( ( holdsDuring_THFTYPE_IiooI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ JUDGE ) ) @ ( (~) @ ( believes_THFTYPE_IiooI @ AGENT @ PROPOSITION ) ) )
% 2.18/2.40          & ( holdsDuring_THFTYPE_IiooI @ ( lEndFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ JUDGE ) ) @ ( believes_THFTYPE_IiooI @ AGENT @ PROPOSITION ) ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation PoundMass EnglishLanguage "English mass unit of pounds.")
% 2.18/2.40  %KIF documentation:(documentation GraphPathFn EnglishLanguage "A &%BinaryFunction that maps two &%GraphNodes to the &%Class of &%GraphPaths between those two nodes. Note that the two &%GraphNodes must belong to the same &%Graph.")
% 2.18/2.40  thf(ax1923,axiom,
% 2.18/2.40      ! [AGENT: $i] :
% 2.18/2.40        ( ( ( attribute_THFTYPE_IiioI @ AGENT @ lAsleep_THFTYPE_i )
% 2.18/2.40          | ( attribute_THFTYPE_IiioI @ AGENT @ lAwake_THFTYPE_i ) )
% 2.18/2.40       => ( attribute_THFTYPE_IiioI @ AGENT @ lLiving_THFTYPE_i ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1924,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lWoman_THFTYPE_i @ lHuman_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1925,axiom,
% 2.18/2.40      ! [TIME: $i,FORMULA: $o,ENTITY: $i,NORM: $i] :
% 2.18/2.40        ( ( holdsDuring_THFTYPE_IiooI @ TIME @ ( confersNorm_THFTYPE_IioioI @ ENTITY @ FORMULA @ NORM ) )
% 2.18/2.40       => ( ( holdsDuring_THFTYPE_IiooI @ ( lImmediatePastFn_THFTYPE_IiiI @ TIME ) @ ( (~) @ ( modalAttribute_THFTYPE_IoioI @ FORMULA @ NORM ) ) )
% 2.18/2.40          & ( holdsDuring_THFTYPE_IiooI @ ( lImmediateFutureFn_THFTYPE_IiiI @ TIME ) @ ( modalAttribute_THFTYPE_IoioI @ FORMULA @ NORM ) ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1926,axiom,
% 2.18/2.40      ! [WEEK: $i,DAY1: $i,DAY2: $i] :
% 2.18/2.40        ( ( ( instance_THFTYPE_IiioI @ DAY1 @ lMonday_THFTYPE_i )
% 2.18/2.40          & ( instance_THFTYPE_IiioI @ DAY2 @ lTuesday_THFTYPE_i )
% 2.18/2.40          & ( instance_THFTYPE_IiioI @ WEEK @ lWeek_THFTYPE_i )
% 2.18/2.40          & ( temporalPart_THFTYPE_IiioI @ DAY1 @ WEEK )
% 2.18/2.40          & ( temporalPart_THFTYPE_IiioI @ DAY2 @ WEEK ) )
% 2.18/2.40       => ( meetsTemporally_THFTYPE_IiioI @ DAY1 @ DAY2 ) ) ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation ImaginaryPartFn EnglishLanguage "(&%ImaginaryPartFn ?NUMBER) returns the part of ?NUMBER that has the square root of -1 as its factor.")
% 2.18/2.40  thf(ax1927,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lRadiating_THFTYPE_i @ lMotion_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1928,axiom,
% 2.18/2.40      ! [OBJ: $i,TIME: $i,AGENT2: $i,AGENT1: $i] :
% 2.18/2.40        ( ( ( instance_THFTYPE_IiioI @ TIME @ lTimePosition_THFTYPE_i )
% 2.18/2.40          & ( holdsDuring_THFTYPE_IiooI @ TIME @ ( possesses_THFTYPE_IiioI @ AGENT1 @ OBJ ) )
% 2.18/2.40          & ( holdsDuring_THFTYPE_IiooI @ TIME @ ( possesses_THFTYPE_IiioI @ AGENT2 @ OBJ ) ) )
% 2.18/2.40       => ( AGENT1 = AGENT2 ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1929,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lSunday_THFTYPE_i @ lDay_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1930,axiom,
% 2.18/2.40      ! [PROC2: $i,PROC1: $i] :
% 2.18/2.40        ( ( inhibits_THFTYPE_IiioI @ PROC1 @ PROC2 )
% 2.18/2.40       => ! [TIME: $i,PLACE: $i] :
% 2.18/2.40            ( decreasesLikelihood_THFTYPE_IoooI
% 2.18/2.40            @ ( holdsDuring_THFTYPE_IiooI @ TIME
% 2.18/2.40              @ ? [INST1: $i] :
% 2.18/2.40                  ( ( instance_THFTYPE_IiioI @ INST1 @ PROC1 )
% 2.18/2.40                  & ( located_THFTYPE_IiioI @ INST1 @ PLACE ) ) )
% 2.18/2.40            @ ( holdsDuring_THFTYPE_IiooI @ TIME
% 2.18/2.40              @ ? [INST2: $i] :
% 2.18/2.40                  ( ( instance_THFTYPE_IiioI @ INST2 @ PROC2 )
% 2.18/2.40                  & ( located_THFTYPE_IiioI @ INST2 @ PLACE ) ) ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation Fern EnglishLanguage "A &%NonFloweringPlant that contains vascular tissue. This class includes true ferns, as well as horsetails, club mosses, and whisk ferns.")
% 2.18/2.40  thf(ax1931,axiom,
% 2.18/2.40      ! [OBJ: $i,HOLE2: $i,HOLE1: $i] :
% 2.18/2.40        ( ( ( fills_THFTYPE_IiioI @ OBJ @ HOLE1 )
% 2.18/2.40          & ( properPart_THFTYPE_IiioI @ HOLE2 @ HOLE1 ) )
% 2.18/2.40       => ( completelyFills_THFTYPE_IiioI @ OBJ @ HOLE2 ) ) ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation equivalentContentInstance EnglishLanguage "A &%BinaryPredicate relating two instances of &%ContentBearingObject. (&%equivalentContentInstance ?OBJ1 ?OBJ2) means that the content expressed by ?OBJ1 is identical to the content expressed by ?OBJ2. An example would be the relationship between a handwritten draft of a letter to one's lawyer and a typed copy of the same letter. Note that (&%equivalentContentInstance ?OBJ1 ?OBJ2) implies (&%subsumesContentInstance ?OBJ1 ?OBJ2) and (&%subsumesContentInstance ?OBJ2 ?OBJ2).")
% 2.18/2.40  thf(ax1932,axiom,
% 2.18/2.40      ! [EVENT: $i,AGENT: $i,AREA: $i] :
% 2.18/2.40        ( ( ( instance_THFTYPE_IiioI @ EVENT @ lElection_THFTYPE_i )
% 2.18/2.40          & ( agent_THFTYPE_IiioI @ EVENT @ AGENT )
% 2.18/2.40          & ( instance_THFTYPE_IiioI @ AREA @ lGeopoliticalArea_THFTYPE_i )
% 2.18/2.40          & ( instance_THFTYPE_IiioI @ AGENT @ ( lGovernmentFn_THFTYPE_IiiI @ AREA ) ) )
% 2.18/2.40       => ( instance_THFTYPE_IiioI @ EVENT @ lPoliticalProcess_THFTYPE_i ) ) ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation OrganOrTissueProcess EnglishLanguage "A &%PhysiologicProcess of a particular &%Organ or &%Tissue.")
% 2.18/2.40  %KIF documentation:(documentation Injecting EnglishLanguage "&%Inserting a &%BiologicallyActiveSubstance into an &%Animal or a &%Human with a syringe.")
% 2.18/2.40  %KIF documentation:(documentation subProposition EnglishLanguage "(&%subProposition ?PROP1 ?PROP2) means that ?PROP1 is a &%Proposition which is a proper part of the &%Proposition ?PROP2. In other words, &%subProposition is the analogue of &%properPart for chunks of abstract content.")
% 2.18/2.40  thf(ax1933,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lInternalAttribute_THFTYPE_i @ lAttribute_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1934,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lSocialInteraction_THFTYPE_i @ lIntentionalProcess_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1935,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lInvestigating_THFTYPE_i @ lIntentionalPsychologicalProcess_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1936,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lMay_THFTYPE_i @ lMonth_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation Year EnglishLanguage "The &%Class of all calendar &%Years.")
% 2.18/2.40  %KIF documentation:(documentation Book EnglishLanguage "A &%Text that has pages and is bound.")
% 2.18/2.40  thf(ax1937,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lPredicate_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation PositiveInteger EnglishLanguage "An &%Integer that is greater than zero.")
% 2.18/2.40  %KIF documentation:(documentation MilitaryProcess EnglishLanguage "Any &%Process that is carried out by a military organization. Note that this class covers &%Processes, e.g. military operations, that are the result of careful planning, as well as those which are unscripted.")
% 2.18/2.40  thf(ax1938,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lAgeGroup_THFTYPE_i @ lGroupOfPeople_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation Advertising EnglishLanguage "A &%Disseminating whose purpose is to promote the sale of an &%Object represented in a &%Text or &%Icon (the advertisement).")
% 2.18/2.40  thf(ax1939,axiom,
% 2.18/2.40      ! [FORMULA: $o,AGENT: $i,STATE: $i] :
% 2.18/2.40        ( ( ( instance_THFTYPE_IiioI @ STATE @ lStating_THFTYPE_i )
% 2.18/2.40          & ( agent_THFTYPE_IiioI @ STATE @ AGENT )
% 2.18/2.40          & ( patient_THFTYPE_IiooI @ STATE @ FORMULA )
% 2.18/2.40          & ( instance_THFTYPE_IoioI @ FORMULA @ lFormula_THFTYPE_i ) )
% 2.18/2.40       => ( holdsDuring_THFTYPE_IiooI @ ( lWhenFn_THFTYPE_IiiI @ STATE ) @ ( believes_THFTYPE_IiooI @ AGENT @ FORMULA ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1940,axiom,
% 2.18/2.40      ! [DEVICE: $i] :
% 2.18/2.40        ( ( instance_THFTYPE_IiioI @ DEVICE @ lTransportationDevice_THFTYPE_i )
% 2.18/2.40       => ( capability_THFTYPE_IiIiioIioI @ lTransportation_THFTYPE_i @ instrument_THFTYPE_IiioI @ DEVICE ) ) ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation PropositionalAttitude EnglishLanguage "The &%Class of &%IntentionalRelations where the &%Agent has awareness of a &%Proposition.")
% 2.18/2.40  thf(ax1941,axiom,
% 2.18/2.40      ! [VOTE: $i] :
% 2.18/2.40        ( ( instance_THFTYPE_IiioI @ VOTE @ lVoting_THFTYPE_i )
% 2.18/2.40       => ? [ELECT: $i] :
% 2.18/2.40            ( ( instance_THFTYPE_IiioI @ ELECT @ lElection_THFTYPE_i )
% 2.18/2.40            & ( subProcess_THFTYPE_IiioI @ VOTE @ ELECT ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1942,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lFreezing_THFTYPE_i @ lStateChange_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation DirectedGraph EnglishLanguage "The &%Class of directed graphs. A directed graph is a &%Graph in which all &%GraphArcs have direction, i.e. every &%GraphArc has an initial node (see &%InitialNodeFn) and a terminal node (see &%TerminalNodeFn).")
% 2.18/2.40  %KIF documentation:(documentation True EnglishLanguage "The &%TruthValue of being true.")
% 2.18/2.40  %KIF documentation:(documentation publishes EnglishLanguage "(&%publishes ?ORG ?TEXT) means that ?ORG publishes ?TEXT. For example, Bantam Books publishes Agatha Christie's Murder_on_the_Orient_Express.")
% 2.18/2.40  thf(ax1943,axiom,
% 2.18/2.40      ! [NUMBER: $i] :
% 2.18/2.40        ( ( NUMBER
% 2.18/2.40          = ( times_THFTYPE_IiiiI @ n1_THFTYPE_i @ NUMBER ) )
% 2.18/2.40       => ( ( lMeasureFn_THFTYPE_IiiiI @ NUMBER @ lKilometer_THFTYPE_i )
% 2.18/2.40          = ( lMeasureFn_THFTYPE_IiiiI @ ( times_THFTYPE_IiiiI @ NUMBER @ n1000_THFTYPE_i ) @ lMeter_THFTYPE_i ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1944,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lValidDeductiveArgument_THFTYPE_i @ lDeductiveArgument_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1945,axiom,
% 2.18/2.40      ! [PROCESS: $i] :
% 2.18/2.40        ( ( instance_THFTYPE_IiioI @ PROCESS @ lPrecipitation_THFTYPE_i )
% 2.18/2.40       => ? [STUFF: $i] :
% 2.18/2.40            ( ( instance_THFTYPE_IiioI @ STUFF @ lWater_THFTYPE_i )
% 2.18/2.40            & ( patient_THFTYPE_IiioI @ PROCESS @ STUFF ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation prevents EnglishLanguage "A very general &%Predicate. (&%prevents ?PROC1 ?PROC2) means that ?PROC1 prevents the occurrence of ?PROC2. In other words, if ?PROC1 is occurring in a particular time and place, ?PROC2 cannot occur at the same time and place. For example, innoculating prevents contracting disease. Note that this is a relation between types of &%Processes, not between instances.")
% 2.18/2.40  thf(ax1946,axiom,
% 2.18/2.40      subclass_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i @ lPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1947,axiom,
% 2.18/2.40      ! [OBJ: $i,PROCESS: $i] :
% 2.18/2.40        ( ( located_THFTYPE_IiioI @ PROCESS @ OBJ )
% 2.18/2.40       => ! [SUB: $i] :
% 2.18/2.40            ( ( subProcess_THFTYPE_IiioI @ SUB @ PROCESS )
% 2.18/2.40           => ( located_THFTYPE_IiioI @ SUB @ OBJ ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation distance EnglishLanguage "(&%distance ?OBJ1 ?OBJ2 ?QUANT) means that the shortest distance between the two objects ?OBJ1 and ?OBJ2 is ?QUANT. Note that the difference between the predicates &%length and &%distance is that the &%length is used to state the &%LengthMeasure of one of the dimensions of a single object, while &%distance is used to state the &%LengthMeasure that separates two distinct objects.")
% 2.18/2.40  %KIF documentation:(documentation Dead EnglishLanguage "This &%Attribute applies to &%Organisms that are not alive.")
% 2.18/2.40  %KIF documentation:(documentation JudicialOrganization EnglishLanguage "&%JudicialOrganization is the class of &%Organizations whose primary purpose is to render judgments according to the statutes or regulations of a government or other organization. Judicial bodies are not necessarily government organizations, for example, those associated with sporting associations.")
% 2.18/2.40  thf(ax1948,axiom,
% 2.18/2.40      ! [OBJ1: $i,OBJ2: $i] :
% 2.18/2.40        ( ( interiorPart_THFTYPE_IiioI @ OBJ1 @ OBJ2 )
% 2.18/2.40       => ! [PART: $i] :
% 2.18/2.40            ( ( superficialPart_THFTYPE_IiioI @ PART @ OBJ2 )
% 2.18/2.40           => ( (~) @ ( overlapsSpatially_THFTYPE_IiioI @ OBJ1 @ PART ) ) ) ) ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1949,axiom,
% 2.18/2.40      contraryAttribute_THFTYPE_IiioI @ lDry_THFTYPE_i @ lDamp_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation NumeratorFn EnglishLanguage "(&%NumeratorFn ?NUMBER) returns the numerator of the canonical reduced form ?NUMBER.")
% 2.18/2.40  %KIF documentation:(documentation sister EnglishLanguage "The general relationship of being a sister. (&%sister ?WOMAN ?PERSON) means that ?WOMAN is the sister of ?PERSON.")
% 2.18/2.40  thf(ax1950,axiom,
% 2.18/2.40      ! [ITEM: $i,LIST: $i] :
% 2.18/2.40        ( ( inList_THFTYPE_IiioI @ ITEM @ LIST )
% 2.18/2.40       => ? [NUMBER: $i] :
% 2.18/2.40            ( ( lListOrderFn_THFTYPE_IiiiI @ LIST @ NUMBER )
% 2.18/2.40            = ITEM ) ) ).
% 2.18/2.40  
% 2.18/2.40  %KIF documentation:(documentation LeastCommonMultipleFn EnglishLanguage "(&%LeastCommonMultipleFn ?NUMBER1 ?NUMBER2 ... ?NUMBER) returns the least common multiple of ?NUMBER1 through ?NUMBER.")
% 2.18/2.40  thf(ax1951,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiiIioI @ lMereologicalProductFn_THFTYPE_IiiiI @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1952,axiom,
% 2.18/2.40      instance_THFTYPE_IIiooIioI @ containsInformation_THFTYPE_IiooI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1953,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ cooccur_THFTYPE_IiioI @ n1_THFTYPE_i @ lPhysical_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1954,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiiIioI @ lDivisionFn_THFTYPE_IiiiI @ lRelationExtendedToQuantities_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1955,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ partiallyFills_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1956,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lMinFn_THFTYPE_i @ lAssociativeFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1957,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lCutSetFn_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1958,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ uses_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1959,axiom,
% 2.18/2.40      instance_THFTYPE_IIoooIioI @ causesProposition_THFTYPE_IoooI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1960,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiiIioI @ lMereologicalProductFn_THFTYPE_IiiiI @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1961,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ geometricPart_THFTYPE_i @ n2_THFTYPE_i @ lGeometricFigure_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1962,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ earlier_THFTYPE_IiioI @ n2_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1963,axiom,
% 2.18/2.40      relatedInternalConcept_THFTYPE_IiIiioIoI @ relatedExternalConcept_THFTYPE_i @ relatedInternalConcept_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1964,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ version_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1965,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lSuccessorFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1966,axiom,
% 2.18/2.40      domain_THFTYPE_IIiooIiioI @ desires_THFTYPE_IiooI @ n2_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1967,axiom,
% 2.18/2.40      domain_THFTYPE_IIiiiIiioI @ lEditionFn_THFTYPE_IiiiI @ n2_THFTYPE_i @ lPositiveInteger_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1968,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ starts_THFTYPE_IiioI @ n2_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1969,axiom,
% 2.18/2.40      domain_THFTYPE_IIiooIiioI @ hasPurpose_THFTYPE_IiooI @ n1_THFTYPE_i @ lPhysical_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1970,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ multiplicativeFactor_THFTYPE_IiioI @ lTransitiveRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1971,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ exploits_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1972,axiom,
% 2.18/2.40      relatedInternalConcept_THFTYPE_IiioI @ lUnilateralGetting_THFTYPE_i @ lUnilateralGiving_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1973,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lFahrenheitDegree_THFTYPE_i @ lUnitOfTemperature_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1974,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ temporalPart_THFTYPE_IiioI @ lPartialOrderingRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1975,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lGray_THFTYPE_i @ lSystemeInternationalUnit_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1976,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ part_THFTYPE_IiioI @ lPartialOrderingRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1977,axiom,
% 2.18/2.40      relatedInternalConcept_THFTYPE_IiIiiiIoI @ lSecond_THFTYPE_i @ lSecondFn_THFTYPE_IiiiI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1978,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ version_THFTYPE_IiioI @ lTransitiveRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1979,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ geographicSubregion_THFTYPE_i @ lTransitiveRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1980,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ causes_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1981,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiiiiioIioI @ exhaustiveAttribute_THFTYPE_IiiiiiioI @ lPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1982,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ subOrganization_THFTYPE_IiioI @ lPartialOrderingRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1983,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ lPowerSetFn_THFTYPE_i @ n1_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1984,axiom,
% 2.18/2.40      subrelation_THFTYPE_IiIiioIoI @ geographicSubregion_THFTYPE_i @ located_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1985,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ precondition_THFTYPE_IiioI @ lTransitiveRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1986,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ spouse_THFTYPE_IiioI @ lSymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1987,axiom,
% 2.18/2.40      subrelation_THFTYPE_IIiioIIiioIoI @ causes_THFTYPE_IiioI @ relatedEvent_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1988,axiom,
% 2.18/2.40      domain_THFTYPE_IIooIiioI @ lPremisesFn_THFTYPE_IooI @ n1_THFTYPE_i @ lArgument_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1989,axiom,
% 2.18/2.40      instance_THFTYPE_IIoioIioI @ holdsObligation_THFTYPE_IoioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1990,axiom,
% 2.18/2.40      domain_THFTYPE_IIoooIiioI @ consistent_THFTYPE_IoooI @ n2_THFTYPE_i @ lProposition_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1991,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiioIioI @ between_THFTYPE_IiiioI @ lTernaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1992,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lKiloFn_THFTYPE_i @ lUnitOfMeasureMultiplier_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1993,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lCentimeter_THFTYPE_i @ lUnitOfLength_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1994,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ refers_THFTYPE_IiioI @ n1_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1995,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ wife_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1996,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ exploits_THFTYPE_IiioI @ n1_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1997,axiom,
% 2.18/2.40      subrelation_THFTYPE_IIiioIIiioIoI @ sibling_THFTYPE_IiioI @ familyRelation_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1998,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ subsumesContentInstance_THFTYPE_IiioI @ n1_THFTYPE_i @ lContentBearingObject_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax1999,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ lRemainderFn_THFTYPE_i @ n1_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2000,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ earlier_THFTYPE_IiioI @ lTemporalRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2001,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ part_THFTYPE_IiioI @ n2_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2002,axiom,
% 2.18/2.40      subrelation_THFTYPE_IIiioIIiioIoI @ finishes_THFTYPE_IiioI @ temporalPart_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2003,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiiIioI @ lAdditionFn_THFTYPE_IiiiI @ lCommutativeFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2004,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ multiplicativeFactor_THFTYPE_IiioI @ n2_THFTYPE_i @ lInteger_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2005,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ grasps_THFTYPE_IiioI @ n2_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2006,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lMmMercury_THFTYPE_i @ lUnitOfAtmosphericPressure_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2007,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ lDensityFn_THFTYPE_i @ n2_THFTYPE_i @ lVolumeMeasure_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2008,axiom,
% 2.18/2.40      subrelation_THFTYPE_IIoioIIiioIoI @ modalAttribute_THFTYPE_IoioI @ property_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2009,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ closedOn_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2010,axiom,
% 2.18/2.40      domain_THFTYPE_IIiiioIiioI @ domain_THFTYPE_IiiioI @ n3_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2011,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ geopoliticalSubdivision_THFTYPE_IiioI @ n1_THFTYPE_i @ lGeopoliticalArea_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2012,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lSeriesVolumeFn_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2013,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ lMaximalWeightedPathFn_THFTYPE_i @ n2_THFTYPE_i @ lGraphNode_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2014,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiIioI @ lSignumFn_THFTYPE_IiiI @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2015,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ exploits_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2016,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ lSpeedFn_THFTYPE_i @ n2_THFTYPE_i @ lTimeDuration_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2017,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ subSystem_THFTYPE_IiioI @ n2_THFTYPE_i @ lPhysicalSystem_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2018,axiom,
% 2.18/2.40      domain_THFTYPE_IIiiioIiioI @ temporallyBetween_THFTYPE_IiiioI @ n3_THFTYPE_i @ lTimePoint_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2019,axiom,
% 2.18/2.40      domainSubclass_THFTYPE_IIiiiIiioI @ lSecondFn_THFTYPE_IiiiI @ n2_THFTYPE_i @ lMinute_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2020,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ meetsTemporally_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2021,axiom,
% 2.18/2.40      instance_THFTYPE_IIoiIioI @ lProbabilityFn_THFTYPE_IoiI @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2022,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ expressedInLanguage_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2023,axiom,
% 2.18/2.40      relatedInternalConcept_THFTYPE_IiIiioIoI @ lChangeOfPossession_THFTYPE_i @ possesses_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2024,axiom,
% 2.18/2.40      domain_THFTYPE_IIiiIiioI @ lExtensionFn_THFTYPE_IiiI @ n1_THFTYPE_i @ lAttribute_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2025,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ engineeringSubcomponent_THFTYPE_IiioI @ n2_THFTYPE_i @ lEngineeringComponent_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2026,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ subclass_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2027,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ relatedInternalConcept_THFTYPE_IiioI @ lEquivalenceRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2028,axiom,
% 2.18/2.40      domain_THFTYPE_IIiiIiioI @ lPredecessorFn_THFTYPE_IiiI @ n1_THFTYPE_i @ lInteger_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2029,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ earlier_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2030,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ causes_THFTYPE_IiioI @ n2_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2031,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ precondition_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2032,axiom,
% 2.18/2.40      domain_THFTYPE_IIiiIiioI @ lSignumFn_THFTYPE_IiiI @ n1_THFTYPE_i @ lRealNumber_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2033,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ identityElement_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2034,axiom,
% 2.18/2.40      domain_THFTYPE_IIiiIiioI @ lMagnitudeFn_THFTYPE_IiiI @ n1_THFTYPE_i @ lPhysicalQuantity_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2035,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ superficialPart_THFTYPE_IiioI @ lTransitiveRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2036,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lRadian_THFTYPE_i @ lUnitOfAngularMeasure_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2037,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ successorAttributeClosure_THFTYPE_IiioI @ n2_THFTYPE_i @ lAttribute_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2038,axiom,
% 2.18/2.40      relatedInternalConcept_THFTYPE_IiIiiiIoI @ lIntervalFn_THFTYPE_i @ lRecurrentTimeIntervalFn_THFTYPE_IiiiI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2039,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lSubtractionFn_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2040,axiom,
% 2.18/2.40      domain_THFTYPE_IIoooIiioI @ causesProposition_THFTYPE_IoooI @ n1_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2041,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ familyRelation_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2042,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ agent_THFTYPE_IiioI @ n2_THFTYPE_i @ lAgent_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2043,axiom,
% 2.18/2.40      domain_THFTYPE_IIiiiIiioI @ lListOrderFn_THFTYPE_IiiiI @ n1_THFTYPE_i @ lList_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2044,axiom,
% 2.18/2.40      subrelation_THFTYPE_IIiioIIiioIoI @ properPart_THFTYPE_IiioI @ part_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2045,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ fills_THFTYPE_IiioI @ n1_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2046,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ mother_THFTYPE_IiioI @ lSingleValuedRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2047,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ lRelativeTimeFn_THFTYPE_i @ n2_THFTYPE_i @ lTimeZone_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2048,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ height_THFTYPE_IiioI @ n2_THFTYPE_i @ lLengthMeasure_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2049,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiIioI @ lTerminalNodeFn_THFTYPE_IiiI @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2050,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lWhenFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2051,axiom,
% 2.18/2.40      domainSubclass_THFTYPE_IIiiiIiioI @ lRecurrentTimeIntervalFn_THFTYPE_IiiiI @ n1_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2052,axiom,
% 2.18/2.40      relatedInternalConcept_THFTYPE_IIiioIIiooIoI @ wants_THFTYPE_IiioI @ desires_THFTYPE_IiooI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2053,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lDayFn_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2054,axiom,
% 2.18/2.40      domain_THFTYPE_IIiiiIiioI @ lAdditionFn_THFTYPE_IiiiI @ n2_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2055,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lLumen_THFTYPE_i @ lSystemeInternationalUnit_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2056,axiom,
% 2.18/2.40      domain_THFTYPE_IIIiioIioIiioI @ equivalenceRelationOn_THFTYPE_IIiioIioI @ n2_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2057,axiom,
% 2.18/2.40      relatedInternalConcept_THFTYPE_IIiioIIiiiioIoI @ exhaustiveDecomposition_THFTYPE_IiioI @ partition_THFTYPE_IiiiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2058,axiom,
% 2.18/2.40      subrelation_THFTYPE_IIiiioIIiiioIoI @ altitude_THFTYPE_IiiioI @ distance_THFTYPE_IiiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2059,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ traverses_THFTYPE_IiioI @ n1_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2060,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ meltingPoint_THFTYPE_IiioI @ n2_THFTYPE_i @ lTemperatureMeasure_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2061,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ successorAttribute_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2062,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ transactionAmount_THFTYPE_IiioI @ n2_THFTYPE_i @ lCurrencyMeasure_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2063,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ top_THFTYPE_IiioI @ n1_THFTYPE_i @ lSelfConnectedObject_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2064,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ identityElement_THFTYPE_IiioI @ n2_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2065,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ lPastFn_THFTYPE_i @ n1_THFTYPE_i @ lTimePosition_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2066,axiom,
% 2.18/2.40      relatedInternalConcept_THFTYPE_IIiioIIiioIoI @ member_THFTYPE_IiioI @ element_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2067,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lFrontFn_THFTYPE_i @ lSpatialRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2068,axiom,
% 2.18/2.40      domain_THFTYPE_IIoooIiioI @ premise_THFTYPE_IoooI @ n1_THFTYPE_i @ lArgument_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2069,axiom,
% 2.18/2.40      subrelation_THFTYPE_IIiioIIiioIoI @ width_THFTYPE_IiioI @ linearExtent_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2070,axiom,
% 2.18/2.40      domain_THFTYPE_IIiooIiioI @ desires_THFTYPE_IiooI @ n1_THFTYPE_i @ lCognitiveAgent_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2071,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ possesses_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2072,axiom,
% 2.18/2.40      domain_THFTYPE_IIiooIiioI @ realization_THFTYPE_IiooI @ n2_THFTYPE_i @ lProposition_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2073,axiom,
% 2.18/2.40      instance_THFTYPE_IIoooIioI @ decreasesLikelihood_THFTYPE_IoooI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2074,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lWhite_THFTYPE_i @ lPrimaryColor_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2075,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lDayFn_THFTYPE_i @ lTemporalRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2076,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lSubtractionFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2077,axiom,
% 2.18/2.40      subrelation_THFTYPE_IIiioIIiioIoI @ penetrates_THFTYPE_IiioI @ meetsSpatially_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2078,axiom,
% 2.18/2.40      domainSubclass_THFTYPE_IIiioIiioI @ publishes_THFTYPE_IiioI @ n2_THFTYPE_i @ lText_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2079,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lRankineDegree_THFTYPE_i @ lUnitOfTemperature_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2080,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ lMaximalWeightedPathFn_THFTYPE_i @ n1_THFTYPE_i @ lGraphNode_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2081,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ greaterThanOrEqualTo_THFTYPE_IiioI @ lRelationExtendedToQuantities_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2082,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ citizen_THFTYPE_i @ n2_THFTYPE_i @ lNation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2083,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ lVelocityFn_THFTYPE_i @ n4_THFTYPE_i @ lDirectionalAttribute_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2084,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ component_THFTYPE_IiioI @ n1_THFTYPE_i @ lCorpuscularObject_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2085,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiiioIioI @ partition_THFTYPE_IiiiioI @ lVariableArityRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2086,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ familyRelation_THFTYPE_IiioI @ lEquivalenceRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2087,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lFlammable_THFTYPE_i @ lPhysicalAttribute_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2088,axiom,
% 2.18/2.40      instance_THFTYPE_IIiooIioI @ desires_THFTYPE_IiooI @ lPropositionalAttitude_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2089,axiom,
% 2.18/2.40      domain_THFTYPE_IIiiIiioI @ lTeraFn_THFTYPE_IiiI @ n1_THFTYPE_i @ lUnitOfMeasure_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2090,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiIioI @ lPredecessorFn_THFTYPE_IiiI @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2091,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiiIioI @ lMultiplicationFn_THFTYPE_IiiiI @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2092,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ authors_THFTYPE_IiioI @ n1_THFTYPE_i @ lAgent_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2093,axiom,
% 2.18/2.40      domainSubclass_THFTYPE_IIiioIiioI @ equivalentContentClass_THFTYPE_IiioI @ n1_THFTYPE_i @ lContentBearingObject_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2094,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ possesses_THFTYPE_IiioI @ n2_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2095,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiioIioI @ orientation_THFTYPE_IiiioI @ lTernaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2096,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ lessThanOrEqualTo_THFTYPE_IiioI @ n1_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2097,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ interiorPart_THFTYPE_IiioI @ lTransitiveRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2098,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiioIioI @ occupiesPosition_THFTYPE_IiiioI @ lTernaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2099,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ traverses_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2100,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lIntervalFn_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2101,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ barometricPressure_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2102,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ leader_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2103,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ disjoint_THFTYPE_IiioI @ lSymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2104,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lNumeratorFn_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2105,axiom,
% 2.18/2.40      domain_THFTYPE_IIiiioIiioI @ links_THFTYPE_IiiioI @ n2_THFTYPE_i @ lGraphNode_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2106,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lComplementFn_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2107,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ instrument_THFTYPE_IiioI @ n2_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2108,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ range_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2109,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ greaterThanOrEqualTo_THFTYPE_IiioI @ lPartialOrderingRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2110,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ arcWeight_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2111,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ completelyFills_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2112,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lSievert_THFTYPE_i @ lSystemeInternationalUnit_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2113,axiom,
% 2.18/2.40      instance_THFTYPE_IIoooIioI @ increasesLikelihood_THFTYPE_IoooI @ lProbabilityRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2114,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiIioI @ lFutureFn_THFTYPE_IiiI @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2115,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lElectronVolt_THFTYPE_i @ lCompositeUnitOfMeasure_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2116,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ smaller_THFTYPE_IiioI @ n1_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2117,axiom,
% 2.18/2.40      instance_THFTYPE_IIIiioIIiioIoIioI @ inverse_THFTYPE_IIiioIIiioIoI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2118,axiom,
% 2.18/2.40      instance_THFTYPE_IIIiioIioIioI @ totalOrderingOn_THFTYPE_IIiioIioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2119,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ bottom_THFTYPE_IiioI @ n2_THFTYPE_i @ lSelfConnectedObject_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2120,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ ancestor_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2121,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lAdjacent_THFTYPE_i @ lSymmetricPositionalAttribute_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2122,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ starts_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2123,axiom,
% 2.18/2.40      domain_THFTYPE_IIiooIiioI @ holdsDuring_THFTYPE_IiooI @ n2_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2124,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiIioI @ lImmediateFutureFn_THFTYPE_IiiI @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2125,axiom,
% 2.18/2.40      domain_THFTYPE_IIioioIiioI @ hasPurposeForAgent_THFTYPE_IioioI @ n1_THFTYPE_i @ lPhysical_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2126,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ barometricPressure_THFTYPE_IiioI @ n2_THFTYPE_i @ lUnitOfAtmosphericPressure_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2127,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lBeginFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2128,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ equivalentContentInstance_THFTYPE_IiioI @ lEquivalenceRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2129,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ lKappaFn_THFTYPE_i @ n2_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2130,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ starts_THFTYPE_IiioI @ lTransitiveRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2131,axiom,
% 2.18/2.40      domainSubclass_THFTYPE_IiiioI @ lMonthFn_THFTYPE_i @ n1_THFTYPE_i @ lMonth_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2132,axiom,
% 2.18/2.40      disjointRelation_THFTYPE_IiioI @ subsumedExternalConcept_THFTYPE_i @ subsumingExternalConcept_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2133,axiom,
% 2.18/2.40      relatedInternalConcept_THFTYPE_IiioI @ lMereologicalSumFn_THFTYPE_i @ lMereologicalDifferenceFn_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2134,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ component_THFTYPE_IiioI @ n2_THFTYPE_i @ lCorpuscularObject_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2135,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ properlyFills_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2136,axiom,
% 2.18/2.40      domain_THFTYPE_IIoooIiioI @ subProposition_THFTYPE_IoooI @ n2_THFTYPE_i @ lProposition_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2137,axiom,
% 2.18/2.40      instance_THFTYPE_IIioioIioI @ deprivesNorm_THFTYPE_IioioI @ lTernaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2138,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiIioI @ lHoleSkinFn_THFTYPE_IiiI @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2139,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lPerFn_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2140,axiom,
% 2.18/2.40      domain_THFTYPE_IIiooIiioI @ hasPurpose_THFTYPE_IiooI @ n2_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2141,axiom,
% 2.18/2.40      domain_THFTYPE_IIiiioIiioI @ connectsEngineeringComponents_THFTYPE_IiiioI @ n2_THFTYPE_i @ lEngineeringComponent_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2142,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ duration_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2143,axiom,
% 2.18/2.40      subrelation_THFTYPE_IIiioIIiioIoI @ surface_THFTYPE_IiioI @ superficialPart_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2144,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ inhibits_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2145,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ graphMeasure_THFTYPE_IiioI @ n2_THFTYPE_i @ lUnitOfMeasure_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2146,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ inhibits_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2147,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lAssignmentFn_THFTYPE_i @ lVariableArityRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2148,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ finishes_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2149,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lWest_THFTYPE_i @ lDirectionalAttribute_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2150,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ radius_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2151,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiIioI @ lTeraFn_THFTYPE_IiiI @ lUnitOfMeasureMultiplier_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2152,axiom,
% 2.18/2.40      subrelation_THFTYPE_IIiioIIiioIoI @ wife_THFTYPE_IiioI @ spouse_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2153,axiom,
% 2.18/2.40      relatedInternalConcept_THFTYPE_IiioI @ lMinute_THFTYPE_i @ lMinuteDuration_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2154,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lDayDuration_THFTYPE_i @ lUnitOfDuration_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2155,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lRigid_THFTYPE_i @ lInternalAttribute_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2156,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lPossibility_THFTYPE_i @ lAlethicAttribute_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2157,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ pathLength_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2158,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ lRationalNumberFn_THFTYPE_i @ n1_THFTYPE_i @ lNumber_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2159,axiom,
% 2.18/2.40      subrelation_THFTYPE_IIiioIIiioIoI @ parent_THFTYPE_IiioI @ familyRelation_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2160,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ monetaryValue_THFTYPE_IiioI @ n1_THFTYPE_i @ lPhysical_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2161,axiom,
% 2.18/2.40      instance_THFTYPE_IIoooIioI @ conclusion_THFTYPE_IoooI @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2162,axiom,
% 2.18/2.40      domainSubclass_THFTYPE_IIiiiIiioI @ lMinuteFn_THFTYPE_IiiiI @ n2_THFTYPE_i @ lHour_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2163,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lMereologicalDifferenceFn_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2164,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lUnionFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2165,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lLeastCommonMultipleFn_THFTYPE_i @ lVariableArityRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2166,axiom,
% 2.18/2.40      subrelation_THFTYPE_IIiioIioI @ spouse_THFTYPE_IiioI @ mutualAcquaintance_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2167,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ origin_THFTYPE_IiioI @ n2_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2168,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ duration_THFTYPE_IiioI @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2169,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ fills_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2170,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lKelvinDegree_THFTYPE_i @ lSystemeInternationalUnit_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2171,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ diameter_THFTYPE_IiioI @ lSingleValuedRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2172,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lFullyFormed_THFTYPE_i @ lDevelopmentalAttribute_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2173,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ abstractCounterpart_THFTYPE_IiioI @ n1_THFTYPE_i @ lAbstract_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2174,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ pointOfFigure_THFTYPE_IiioI @ n1_THFTYPE_i @ lGeometricPoint_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2175,axiom,
% 2.18/2.40      subrelation_THFTYPE_IIiioIIiioIoI @ starts_THFTYPE_IiioI @ temporalPart_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2176,axiom,
% 2.18/2.40      domainSubclass_THFTYPE_IIiioIiioI @ boilingPoint_THFTYPE_IiioI @ n1_THFTYPE_i @ lPureSubstance_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2177,axiom,
% 2.18/2.40      domainSubclass_THFTYPE_IiiioI @ lMonthFn_THFTYPE_i @ n2_THFTYPE_i @ lYear_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2178,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lMaxFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2179,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ geographicSubregion_THFTYPE_i @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2180,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lBelow_THFTYPE_i @ lPositionalAttribute_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2181,axiom,
% 2.18/2.40      disjointRelation_THFTYPE_IiioI @ synonymousExternalConcept_THFTYPE_i @ subsumingExternalConcept_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2182,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ temporalPart_THFTYPE_IiioI @ n1_THFTYPE_i @ lTimePosition_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2183,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ lIntervalFn_THFTYPE_i @ n1_THFTYPE_i @ lConstantQuantity_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2184,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ employs_THFTYPE_IiioI @ n2_THFTYPE_i @ lCognitiveAgent_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2185,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ precondition_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2186,axiom,
% 2.18/2.40      domain_THFTYPE_IIooioIiioI @ conditionalProbability_THFTYPE_IooioI @ n2_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2187,axiom,
% 2.18/2.40      domain_THFTYPE_IIiiiIiioI @ lMereologicalProductFn_THFTYPE_IiiiI @ n1_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2188,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ piece_THFTYPE_IiioI @ n2_THFTYPE_i @ lSubstance_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2189,axiom,
% 2.18/2.40      domain_THFTYPE_IIiiIiioI @ lImmediatePastFn_THFTYPE_IiiI @ n1_THFTYPE_i @ lTimePosition_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2190,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lFrontFn_THFTYPE_i @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2191,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ grasps_THFTYPE_IiioI @ n1_THFTYPE_i @ lAnimal_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2192,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lAbstractionFn_THFTYPE_i @ lPartialValuedRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2193,axiom,
% 2.18/2.40      instance_THFTYPE_IIiooIioI @ believes_THFTYPE_IiooI @ lPropositionalAttitude_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2194,axiom,
% 2.18/2.40      domainSubclass_THFTYPE_IiiioI @ lSeriesVolumeFn_THFTYPE_i @ n1_THFTYPE_i @ lSeries_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2195,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ wears_THFTYPE_IiioI @ n1_THFTYPE_i @ lAnimal_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2196,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ distributes_THFTYPE_IiioI @ n2_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2197,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ lKiloFn_THFTYPE_i @ n1_THFTYPE_i @ lUnitOfMeasure_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2198,axiom,
% 2.18/2.40      instance_THFTYPE_IIiooIioI @ containsInformation_THFTYPE_IiooI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2199,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ range_THFTYPE_IiioI @ n1_THFTYPE_i @ lFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2200,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lPi_THFTYPE_i @ lPositiveRealNumber_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2201,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lCoulomb_THFTYPE_i @ lCompositeUnitOfMeasure_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2202,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ hole_THFTYPE_IiioI @ n2_THFTYPE_i @ lSelfConnectedObject_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2203,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ property_THFTYPE_IiioI @ n2_THFTYPE_i @ lAttribute_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2204,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ subAttribute_THFTYPE_IiioI @ n1_THFTYPE_i @ lAttribute_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2205,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ lUnionFn_THFTYPE_i @ n1_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2206,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lBackFn_THFTYPE_i @ lPartialValuedRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2207,axiom,
% 2.18/2.40      relatedInternalConcept_THFTYPE_IiioI @ lIncreasing_THFTYPE_i @ lPutting_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2208,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiiIioI @ lTimeIntervalFn_THFTYPE_IiiiI @ lTemporalRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2209,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ inList_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2210,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ initialList_THFTYPE_IiioI @ lPartialOrderingRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2211,axiom,
% 2.18/2.40      domainSubclass_THFTYPE_IIiioIiioI @ subsumesContentClass_THFTYPE_IiioI @ n2_THFTYPE_i @ lContentBearingObject_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2212,axiom,
% 2.18/2.40      subrelation_THFTYPE_IIiooIIiioIoI @ knows_THFTYPE_IiooI @ inScopeOfInterest_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2213,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ identicalListItems_THFTYPE_IiioI @ n2_THFTYPE_i @ lList_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2214,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lBlack_THFTYPE_i @ lPrimaryColor_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2215,axiom,
% 2.18/2.40      instance_THFTYPE_IIoioIioI @ holdsObligation_THFTYPE_IoioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2216,axiom,
% 2.18/2.40      domain_THFTYPE_IIiiioIiioI @ representsForAgent_THFTYPE_IiiioI @ n3_THFTYPE_i @ lAgent_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2217,axiom,
% 2.18/2.40      subrelation_THFTYPE_IIiioIIiioIoI @ top_THFTYPE_IiioI @ superficialPart_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2218,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ relative_THFTYPE_IiioI @ lSymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2219,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ subclass_THFTYPE_IiioI @ lPartialOrderingRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2220,axiom,
% 2.18/2.40      relatedInternalConcept_THFTYPE_IIiiIioI @ lMinimalCutSetFn_THFTYPE_IiiI @ lCutSetFn_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2221,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ lIntervalFn_THFTYPE_i @ n2_THFTYPE_i @ lConstantQuantity_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2222,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ transactionAmount_THFTYPE_IiioI @ lSingleValuedRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2223,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ geometricPart_THFTYPE_i @ lPartialOrderingRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2224,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ experiencer_THFTYPE_IiioI @ n2_THFTYPE_i @ lAgent_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2225,axiom,
% 2.18/2.40      domain_THFTYPE_IIiooIiioI @ containsInformation_THFTYPE_IiooI @ n1_THFTYPE_i @ lContentBearingPhysical_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2226,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ angleOfFigure_THFTYPE_i @ n1_THFTYPE_i @ lTwoDimensionalAngle_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2227,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ sister_THFTYPE_i @ n2_THFTYPE_i @ lHuman_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2228,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiiIioI @ lAdditionFn_THFTYPE_IiiiI @ lAssociativeFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2229,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ partlyLocated_THFTYPE_IiioI @ n1_THFTYPE_i @ lPhysical_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2230,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ relatedExternalConcept_THFTYPE_i @ n1_THFTYPE_i @ lSymbolicString_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2231,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiIioI @ lHoleHostFn_THFTYPE_IiiI @ lSpatialRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2232,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ length_THFTYPE_IiioI @ lSingleValuedRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2233,axiom,
% 2.18/2.40      instance_THFTYPE_IIioioIioI @ hasPurposeForAgent_THFTYPE_IioioI @ lTernaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2234,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ inList_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2235,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ overlapsTemporally_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2236,axiom,
% 2.18/2.40      domain_THFTYPE_IIiiiIiioI @ lMinuteFn_THFTYPE_IiiiI @ n1_THFTYPE_i @ lNonnegativeInteger_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2237,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lUnitFn_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2238,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lFootLength_THFTYPE_i @ lUnitOfLength_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2239,axiom,
% 2.18/2.40      disjointRelation_THFTYPE_IIiioIIiioIoI @ resource_THFTYPE_IiioI @ result_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2240,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ mutualAcquaintance_THFTYPE_i @ lSymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2241,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ sibling_THFTYPE_IiioI @ n1_THFTYPE_i @ lOrganism_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2242,axiom,
% 2.18/2.40      subrelation_THFTYPE_IIiiioIIiiioIoI @ connectsEngineeringComponents_THFTYPE_IiiioI @ connects_THFTYPE_IiiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2243,axiom,
% 2.18/2.40      instance_THFTYPE_IIoooIioI @ subProposition_THFTYPE_IoooI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2244,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lSiemens_THFTYPE_i @ lSystemeInternationalUnit_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2245,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ before_THFTYPE_IiioI @ n1_THFTYPE_i @ lTimePoint_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2246,axiom,
% 2.18/2.40      domain_THFTYPE_IIIioIioIiioI @ valence_THFTYPE_IIioIioI @ n2_THFTYPE_i @ lPositiveInteger_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2247,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ involvedInEvent_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2248,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lKelvinDegree_THFTYPE_i @ lUnitOfTemperature_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2249,axiom,
% 2.18/2.40      instance_THFTYPE_IIoiIioI @ lProbabilityFn_THFTYPE_IoiI @ lProbabilityRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2250,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ lTemporalCompositionFn_THFTYPE_i @ n1_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2251,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ subclass_THFTYPE_IiioI @ n1_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2252,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lInch_THFTYPE_i @ lUnitOfLength_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2253,axiom,
% 2.18/2.40      disjointRelation_THFTYPE_IIiioIIiioIoI @ crosses_THFTYPE_IiioI @ connected_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2254,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lRelativeTimeFn_THFTYPE_i @ lTemporalRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2255,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lGram_THFTYPE_i @ lSystemeInternationalUnit_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2256,axiom,
% 2.18/2.40      instance_THFTYPE_IIiooIioI @ hasPurpose_THFTYPE_IiooI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2257,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ refers_THFTYPE_IiioI @ n2_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2258,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ inScopeOfInterest_THFTYPE_IiioI @ lIntentionalRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2259,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ meetsTemporally_THFTYPE_IiioI @ n2_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2260,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ radius_THFTYPE_IiioI @ lSingleValuedRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2261,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lMinFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2262,axiom,
% 2.18/2.40      subrelation_THFTYPE_IIiioIIiioIoI @ grasps_THFTYPE_IiioI @ meetsSpatially_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2263,axiom,
% 2.18/2.40      domain_THFTYPE_IIIiioIioIiioI @ totalOrderingOn_THFTYPE_IIiioIioI @ n1_THFTYPE_i @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2264,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ hasSkill_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2265,axiom,
% 2.18/2.40      domain_THFTYPE_IIoooIiioI @ entails_THFTYPE_IoooI @ n2_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2266,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ traverses_THFTYPE_IiioI @ n2_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2267,axiom,
% 2.18/2.40      domain_THFTYPE_IIioooIiioI @ prefers_THFTYPE_IioooI @ n2_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2268,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ cooccur_THFTYPE_IiioI @ n2_THFTYPE_i @ lPhysical_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2269,axiom,
% 2.18/2.40      instance_THFTYPE_IIoioIioI @ modalAttribute_THFTYPE_IoioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2270,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lAbove_THFTYPE_i @ lPositionalAttribute_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2271,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiIioI @ lHoleSkinFn_THFTYPE_IiiI @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2272,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ radius_THFTYPE_IiioI @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2273,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiiIioI @ lEditionFn_THFTYPE_IiiiI @ lPartialValuedRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2274,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lPastFn_THFTYPE_i @ lTemporalRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2275,axiom,
% 2.18/2.40      domain_THFTYPE_IIiiioIiioI @ distance_THFTYPE_IiiioI @ n1_THFTYPE_i @ lPhysical_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2276,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ earlier_THFTYPE_IiioI @ n1_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2277,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ graphMeasure_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2278,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ relatedEvent_THFTYPE_IiioI @ lSymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2279,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ graphPart_THFTYPE_IiioI @ n1_THFTYPE_i @ lGraphElement_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2280,axiom,
% 2.18/2.40      subrelation_THFTYPE_IIiioIIiioIoI @ familyRelation_THFTYPE_IiioI @ relative_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2281,axiom,
% 2.18/2.40      subrelation_THFTYPE_IIiioIIiioIoI @ mother_THFTYPE_IiioI @ parent_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2282,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lWealthFn_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2283,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ lListLengthFn_THFTYPE_i @ n1_THFTYPE_i @ lList_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2284,axiom,
% 2.18/2.40      instance_THFTYPE_IIoooIioI @ independentProbability_THFTYPE_IoooI @ lSymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2285,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lPolychromatic_THFTYPE_i @ lColorAttribute_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2286,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lCup_THFTYPE_i @ lUnitOfVolume_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2287,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiIioI @ lReciprocalFn_THFTYPE_IiiI @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2288,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ spouse_THFTYPE_IiioI @ n1_THFTYPE_i @ lHuman_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2289,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lGreatestCommonDivisorFn_THFTYPE_i @ lFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2290,axiom,
% 2.18/2.40      relatedInternalConcept_THFTYPE_IiIiooIoI @ lContentBearingObject_THFTYPE_i @ containsInformation_THFTYPE_IiooI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2291,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ smaller_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2292,axiom,
% 2.18/2.40      subrelation_THFTYPE_IIiioIIiooIoI @ result_THFTYPE_IiioI @ patient_THFTYPE_IiooI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2293,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lSteradian_THFTYPE_i @ lSystemeInternationalUnit_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2294,axiom,
% 2.18/2.40      subrelation_THFTYPE_IIiioIIiioIoI @ penetrates_THFTYPE_IiioI @ traverses_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2295,axiom,
% 2.18/2.40      instance_THFTYPE_IIiooIioI @ considers_THFTYPE_IiooI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2296,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ greaterThan_THFTYPE_IiioI @ lRelationExtendedToQuantities_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2297,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ lPropertyFn_THFTYPE_i @ n1_THFTYPE_i @ lAgent_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2298,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lSitting_THFTYPE_i @ lBodyPosition_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2299,axiom,
% 2.18/2.40      subrelation_THFTYPE_IIiioIioI @ geopoliticalSubdivision_THFTYPE_IiioI @ geographicSubregion_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2300,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiIioI @ lImmediateFutureFn_THFTYPE_IiiI @ lTemporalRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2301,axiom,
% 2.18/2.40      subrelation_THFTYPE_IIiioIIiioIoI @ experiencer_THFTYPE_IiioI @ involvedInEvent_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2302,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lLeft_THFTYPE_i @ lAntiSymmetricPositionalAttribute_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2303,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiioIioI @ greaterThanByQuality_THFTYPE_IiiioI @ lTernaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2304,axiom,
% 2.18/2.40      disjointRelation_THFTYPE_IIiioIIiioIoI @ meetsSpatially_THFTYPE_IiioI @ overlapsSpatially_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2305,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lEast_THFTYPE_i @ lDirectionalAttribute_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2306,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiioIioI @ links_THFTYPE_IiiioI @ lTernaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2307,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiiIioI @ lMultiplicationFn_THFTYPE_IiiiI @ lRelationExtendedToQuantities_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2308,axiom,
% 2.18/2.40      domain_THFTYPE_IIIiiIioIiioI @ relatedInternalConcept_THFTYPE_IIiiIioI @ n2_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2309,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ husband_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2310,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiioIioI @ geometricDistance_THFTYPE_IiiioI @ lSingleValuedRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2311,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ linearExtent_THFTYPE_IiioI @ n2_THFTYPE_i @ lLengthMeasure_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2312,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ lBackFn_THFTYPE_i @ n1_THFTYPE_i @ lSelfConnectedObject_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2313,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lWeekDuration_THFTYPE_i @ lUnitOfDuration_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2314,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lGeneralizedIntersectionFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2315,axiom,
% 2.18/2.40      domain_THFTYPE_IIooioIiioI @ conditionalProbability_THFTYPE_IooioI @ n3_THFTYPE_i @ lRealNumber_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2316,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ lLogFn_THFTYPE_i @ n2_THFTYPE_i @ lPositiveInteger_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2317,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lRadian_THFTYPE_i @ lSystemeInternationalUnit_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2318,axiom,
% 2.18/2.40      instance_THFTYPE_IIioioIioI @ confersNorm_THFTYPE_IioioI @ lTernaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2319,axiom,
% 2.18/2.40      domain_THFTYPE_IIioioIiioI @ confersNorm_THFTYPE_IioioI @ n3_THFTYPE_i @ lObjectiveNorm_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2320,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ lRemainderFn_THFTYPE_i @ n2_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2321,axiom,
% 2.18/2.40      domain_THFTYPE_IIIiioIioIiioI @ partialOrderingOn_THFTYPE_IIiioIioI @ n2_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2322,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ during_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2323,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lBackFn_THFTYPE_i @ lSpatialRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2324,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ documentation_THFTYPE_i @ n2_THFTYPE_i @ lHumanLanguage_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2325,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiiIioI @ lMultiplicationFn_THFTYPE_IiiiI @ lAssociativeFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2326,axiom,
% 2.18/2.40      instance_THFTYPE_IIooioIioI @ conditionalProbability_THFTYPE_IooioI @ lProbabilityRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2327,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiIioI @ lImmediatePastFn_THFTYPE_IiiI @ lTemporalRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2328,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ earlier_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2329,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lFemale_THFTYPE_i @ lSexAttribute_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2330,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ greaterThan_THFTYPE_IiioI @ lTransitiveRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2331,axiom,
% 2.18/2.40      domain_THFTYPE_IIiiioIiioI @ connects_THFTYPE_IiiioI @ n2_THFTYPE_i @ lSelfConnectedObject_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2332,axiom,
% 2.18/2.40      domain_THFTYPE_IIIiioIioIiioI @ reflexiveOn_THFTYPE_IIiioIioI @ n1_THFTYPE_i @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2333,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lMegaFn_THFTYPE_i @ lUnitOfMeasureMultiplier_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2334,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ inScopeOfInterest_THFTYPE_IiioI @ n1_THFTYPE_i @ lCognitiveAgent_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2335,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ sibling_THFTYPE_IiioI @ n2_THFTYPE_i @ lOrganism_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2336,axiom,
% 2.18/2.40      subrelation_THFTYPE_IIiioIIiioIoI @ developmentalForm_THFTYPE_IiioI @ attribute_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2337,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ lessThanOrEqualTo_THFTYPE_IiioI @ n2_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2338,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lBritishThermalUnit_THFTYPE_i @ lCompositeUnitOfMeasure_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2339,axiom,
% 2.18/2.40      domain_THFTYPE_IIiiIiioI @ lAbsoluteValueFn_THFTYPE_IiiI @ n1_THFTYPE_i @ lRealNumber_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2340,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ destination_THFTYPE_IiioI @ n1_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2341,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lUnionFn_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2342,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ involvedInEvent_THFTYPE_IiioI @ n2_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2343,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ contains_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2344,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lGeneralizedUnionFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2345,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ date_THFTYPE_IiioI @ lSingleValuedRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2346,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiioIioI @ representsInLanguage_THFTYPE_IiiioI @ lTernaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2347,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lHertz_THFTYPE_i @ lUnitOfFrequency_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2348,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lLogFn_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2349,axiom,
% 2.18/2.40      domain_THFTYPE_IIiiioIiioI @ greaterThanByQuality_THFTYPE_IiiioI @ n1_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2350,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ property_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2351,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lHorizontal_THFTYPE_i @ lPositionalAttribute_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2352,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiiioIioI @ partition_THFTYPE_IiiiioI @ lPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2353,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lKiloByte_THFTYPE_i @ lUnitOfInformation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2354,axiom,
% 2.18/2.40      relatedInternalConcept_THFTYPE_IIiioIIIoiIioIoI @ member_THFTYPE_IiioI @ instance_THFTYPE_IIoiIioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2355,axiom,
% 2.18/2.40      domain_THFTYPE_IIIioIIiioIioIiioI @ capability_THFTYPE_IIioIIiioIioI @ n2_THFTYPE_i @ lCaseRole_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2356,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ geopoliticalSubdivision_THFTYPE_IiioI @ n2_THFTYPE_i @ lGeopoliticalArea_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2357,axiom,
% 2.18/2.40      domainSubclass_THFTYPE_IIiioIiioI @ precondition_THFTYPE_IiioI @ n2_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2358,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ pathLength_THFTYPE_IiioI @ n2_THFTYPE_i @ lPositiveInteger_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2359,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lAssignmentFn_THFTYPE_i @ lFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2360,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lAtomGram_THFTYPE_i @ lUnitOfMass_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2361,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ wants_THFTYPE_IiioI @ n2_THFTYPE_i @ lPhysical_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2362,axiom,
% 2.18/2.40      subrelation_THFTYPE_IIiioIIiioIoI @ linearExtent_THFTYPE_IiioI @ measure_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2363,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiIioI @ lReciprocalFn_THFTYPE_IiiI @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2364,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiIioI @ lAbsoluteValueFn_THFTYPE_IiiI @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2365,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ successorAttribute_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2366,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ inhabits_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2367,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lMountainTimeZone_THFTYPE_i @ lTimeZone_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2368,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ abstractCounterpart_THFTYPE_IiioI @ n2_THFTYPE_i @ lPhysical_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2369,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ subProcess_THFTYPE_IiioI @ n1_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2370,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiioIioI @ temporallyBetweenOrEqual_THFTYPE_IiiioI @ lTernaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2371,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ connectedEngineeringComponents_THFTYPE_IiioI @ lSymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2372,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ angularMeasure_THFTYPE_i @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2373,axiom,
% 2.18/2.40      domain_THFTYPE_IIioioIiioI @ deprivesNorm_THFTYPE_IioioI @ n1_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2374,axiom,
% 2.18/2.40      subrelation_THFTYPE_IiioI @ synonymousExternalConcept_THFTYPE_i @ relatedExternalConcept_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2375,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ lessThanOrEqualTo_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2376,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lHertz_THFTYPE_i @ lSystemeInternationalUnit_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2377,axiom,
% 2.18/2.40      subrelation_THFTYPE_IIiioIIiioIoI @ husband_THFTYPE_IiioI @ spouse_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2378,axiom,
% 2.18/2.40      subrelation_THFTYPE_IIiioIIiioIoI @ parent_THFTYPE_IiioI @ ancestor_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2379,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ larger_THFTYPE_IiioI @ lTransitiveRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2380,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lBackFn_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2381,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lPacificTimeZone_THFTYPE_i @ lTimeZone_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2382,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ husband_THFTYPE_IiioI @ n2_THFTYPE_i @ lWoman_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2383,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ lessThan_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2384,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ greaterThan_THFTYPE_IiioI @ n2_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2385,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ range_THFTYPE_IiioI @ n2_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2386,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ equivalentContentClass_THFTYPE_IiioI @ lEquivalenceRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2387,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiIioI @ lYearFn_THFTYPE_IiiI @ lTemporalRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2388,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ lGigaFn_THFTYPE_i @ n1_THFTYPE_i @ lUnitOfMeasure_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2389,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ connected_THFTYPE_IiioI @ lSpatialRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2390,axiom,
% 2.18/2.40      domain_THFTYPE_IIiiiIiioI @ lPeriodicalIssueFn_THFTYPE_IiiiI @ n2_THFTYPE_i @ lPositiveInteger_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2391,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ parent_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2392,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ documentation_THFTYPE_i @ n3_THFTYPE_i @ lSymbolicString_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2393,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ mother_THFTYPE_IiioI @ n2_THFTYPE_i @ lOrganism_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2394,axiom,
% 2.18/2.40      domain_THFTYPE_IIiiioIiioI @ pointOfIntersection_THFTYPE_IiiioI @ n2_THFTYPE_i @ lOneDimensionalFigure_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2395,axiom,
% 2.18/2.40      instance_THFTYPE_IIiioIioI @ width_THFTYPE_IiioI @ lSingleValuedRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2396,axiom,
% 2.18/2.40      subrelation_THFTYPE_IIiioIIiioIoI @ barometricPressure_THFTYPE_IiioI @ measure_THFTYPE_IiioI ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2397,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ citizen_THFTYPE_i @ n1_THFTYPE_i @ lHuman_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2398,axiom,
% 2.18/2.40      domainSubclass_THFTYPE_IIiioIiioI @ authors_THFTYPE_IiioI @ n2_THFTYPE_i @ lText_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2399,axiom,
% 2.18/2.40      domain_THFTYPE_IIiiiIiioI @ lExponentiationFn_THFTYPE_IiiiI @ n1_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2400,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiiIioI @ lSecondFn_THFTYPE_IiiiI @ lTemporalRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2401,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lRemainderFn_THFTYPE_i @ lRelationExtendedToQuantities_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2402,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ externalImage_THFTYPE_i @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2403,axiom,
% 2.18/2.40      instance_THFTYPE_IIiiIioI @ lExtensionFn_THFTYPE_IiiI @ lPartialValuedRelation_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2404,axiom,
% 2.18/2.40      domain_THFTYPE_IiiioI @ lRelativeTimeFn_THFTYPE_i @ n1_THFTYPE_i @ lTimePosition_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2405,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ material_THFTYPE_IiioI @ n2_THFTYPE_i @ lCorpuscularObject_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2406,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ involvedInEvent_THFTYPE_IiioI @ n1_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2407,axiom,
% 2.18/2.40      relatedInternalConcept_THFTYPE_IiioI @ lDecreasing_THFTYPE_i @ lRemoving_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2408,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ causes_THFTYPE_IiioI @ n1_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2409,axiom,
% 2.18/2.40      domain_THFTYPE_IIiioIiioI @ date_THFTYPE_IiioI @ n1_THFTYPE_i @ lPhysical_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2410,axiom,
% 2.18/2.40      instance_THFTYPE_IiioI @ lBecquerel_THFTYPE_i @ lSystemeInternationalUnit_THFTYPE_i ).
% 2.18/2.40  
% 2.18/2.40  thf(ax2411,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiioIioI @ pointOfIntersection_THFTYPE_IiiioI @ lTernaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2412,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ greaterThan_THFTYPE_IiioI @ n1_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2413,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ partiallyFills_THFTYPE_IiioI @ n1_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2414,axiom,
% 2.18/2.41      subrelation_THFTYPE_IiioI @ lSpeedFn_THFTYPE_i @ lPerFn_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2415,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ relatedEvent_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2416,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ inhabits_THFTYPE_IiioI @ n1_THFTYPE_i @ lOrganism_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2417,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ attribute_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2418,axiom,
% 2.18/2.41      instance_THFTYPE_IIiooIioI @ holdsDuring_THFTYPE_IiooI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2419,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ immediateInstance_THFTYPE_IiioI @ lIntransitiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2420,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ needs_THFTYPE_IiioI @ inScopeOfInterest_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2421,axiom,
% 2.18/2.41      instance_THFTYPE_IIoooIioI @ consistent_THFTYPE_IoooI @ lSymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2422,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ cooccur_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2423,axiom,
% 2.18/2.41      domain_THFTYPE_IIoioIiioI @ holdsRight_THFTYPE_IoioI @ n2_THFTYPE_i @ lCognitiveAgent_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2424,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ geographicSubregion_THFTYPE_i @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2425,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lLeastCommonMultipleFn_THFTYPE_i @ lPartialValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2426,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ subsumesContentInstance_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2427,axiom,
% 2.18/2.41      domain_THFTYPE_IIioioIiioI @ confersNorm_THFTYPE_IioioI @ n2_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2428,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ pathLength_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2429,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiIiioI @ lHoleSkinFn_THFTYPE_IiiI @ n1_THFTYPE_i @ lHole_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2430,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IiioI @ lHour_THFTYPE_i @ lHourFn_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2431,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ temporalPart_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2432,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IIiioIIiioIoI @ prevents_THFTYPE_IiioI @ inhibits_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2433,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ frequency_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2434,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lMilliFn_THFTYPE_i @ n1_THFTYPE_i @ lUnitOfMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2435,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lMonthFn_THFTYPE_i @ lTemporalRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2436,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lMaxFn_THFTYPE_i @ n1_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2437,axiom,
% 2.18/2.41      domain_THFTYPE_IIoooIiioI @ consistent_THFTYPE_IoooI @ n1_THFTYPE_i @ lProposition_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2438,axiom,
% 2.18/2.41      instance_THFTYPE_IIooioIioI @ conditionalProbability_THFTYPE_IooioI @ lTernaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2439,axiom,
% 2.18/2.41      instance_THFTYPE_IIIioIioIioI @ valence_THFTYPE_IIioIioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2440,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiiIiioI @ lMultiplicationFn_THFTYPE_IiiiI @ n2_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2441,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ relative_THFTYPE_IiioI @ n1_THFTYPE_i @ lOrganism_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2442,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IiioI @ lHour_THFTYPE_i @ lHourDuration_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2443,axiom,
% 2.18/2.41      domain_THFTYPE_IIiooIiioI @ considers_THFTYPE_IiooI @ n2_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2444,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lEndFn_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2445,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ arcWeight_THFTYPE_IiioI @ n2_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2446,axiom,
% 2.18/2.41      instance_THFTYPE_IIiooIioI @ believes_THFTYPE_IiooI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2447,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lRoundFn_THFTYPE_IiiI @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2448,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lFarad_THFTYPE_i @ lSystemeInternationalUnit_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2449,axiom,
% 2.18/2.41      instance_THFTYPE_IIioooIioI @ prefers_THFTYPE_IioooI @ lIntentionalRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2450,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lCalorie_THFTYPE_i @ lCompositeUnitOfMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2451,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiIiioI @ lImmediateFutureFn_THFTYPE_IiiI @ n1_THFTYPE_i @ lTimePosition_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2452,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ occupiesPosition_THFTYPE_IiiioI @ n2_THFTYPE_i @ lPosition_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2453,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lUnitedStatesGallon_THFTYPE_i @ lUnitOfVolume_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2454,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ subPlan_THFTYPE_i @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2455,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ subSystem_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2456,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lRationalNumberFn_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2457,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ time_THFTYPE_IiioI @ n1_THFTYPE_i @ lPhysical_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2458,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ direction_THFTYPE_IiioI @ n2_THFTYPE_i @ lDirectionalAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2459,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ monetaryValue_THFTYPE_IiioI @ measure_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2460,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IIiiiIioI @ lMereologicalProductFn_THFTYPE_IiiiI @ lMereologicalDifferenceFn_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2461,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ surface_THFTYPE_IiioI @ n1_THFTYPE_i @ lSelfConnectedObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2462,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ mother_THFTYPE_IiioI @ n1_THFTYPE_i @ lOrganism_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2463,axiom,
% 2.18/2.41      domainSubclass_THFTYPE_IIiioIiioI @ rangeSubclass_THFTYPE_IiioI @ n2_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2464,axiom,
% 2.18/2.41      instance_THFTYPE_IIIiioIIiioIoIioI @ inverse_THFTYPE_IIiioIIiioIoI @ lIntransitiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2465,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ identicalListItems_THFTYPE_IiioI @ n1_THFTYPE_i @ lList_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2466,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lMereologicalDifferenceFn_THFTYPE_i @ lSpatialRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2467,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiiioIIiiioIoI @ temporallyBetween_THFTYPE_IiiioI @ temporallyBetweenOrEqual_THFTYPE_IiiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2468,axiom,
% 2.18/2.41      domain_THFTYPE_IIoioIiioI @ holdsObligation_THFTYPE_IoioI @ n2_THFTYPE_i @ lCognitiveAgent_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2469,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lVelocityFn_THFTYPE_i @ n1_THFTYPE_i @ lLengthMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2470,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lCosineFn_THFTYPE_i @ n1_THFTYPE_i @ lPlaneAngleMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2471,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ earlier_THFTYPE_IiioI @ lTransitiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2472,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ contains_THFTYPE_IiioI @ n2_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2473,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ bottom_THFTYPE_IiioI @ n1_THFTYPE_i @ lSelfConnectedObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2474,axiom,
% 2.18/2.41      instance_THFTYPE_IIiooIioI @ hasPurpose_THFTYPE_IiooI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2475,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ overlapsSpatially_THFTYPE_IiioI @ lSymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2476,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lMonthFn_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2477,axiom,
% 2.18/2.41      subrelation_THFTYPE_IiIiioIoI @ weight_THFTYPE_i @ measure_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2478,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ superficialPart_THFTYPE_IiioI @ part_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2479,axiom,
% 2.18/2.41      instance_THFTYPE_IIiooIioI @ realization_THFTYPE_IiooI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2480,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lIntersectionFn_THFTYPE_i @ n1_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2481,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lRealNumberFn_THFTYPE_i @ n1_THFTYPE_i @ lNumber_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2482,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ parent_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2483,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ time_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2484,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ meetsTemporally_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2485,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ manner_THFTYPE_IiioI @ property_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2486,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lImmediatePastFn_THFTYPE_IiiI @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2487,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ equal_THFTYPE_i @ lEquivalenceRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2488,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ expressedInLanguage_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2489,axiom,
% 2.18/2.41      domain_THFTYPE_IIioioIiioI @ deprivesNorm_THFTYPE_IioioI @ n2_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2490,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lEasternTimeZone_THFTYPE_i @ lTimeZone_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2491,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lRelativeComplementFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2492,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lFluid_THFTYPE_i @ lPhysicalState_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2493,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lCandela_THFTYPE_i @ lCompositeUnitOfMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2494,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ distance_THFTYPE_IiiioI @ n2_THFTYPE_i @ lPhysical_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2495,axiom,
% 2.18/2.41      instance_THFTYPE_IIoooIioI @ contraryAttribute_THFTYPE_IoooI @ lVariableArityRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2496,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ needs_THFTYPE_IiioI @ lObjectAttitude_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2497,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ subset_THFTYPE_IiioI @ subclass_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2498,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ ancestor_THFTYPE_IiioI @ n2_THFTYPE_i @ lOrganism_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2499,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lPerFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2500,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ employs_THFTYPE_IiioI @ n1_THFTYPE_i @ lOrganization_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2501,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ inhabits_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2502,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ fills_THFTYPE_IiioI @ n2_THFTYPE_i @ lHole_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2503,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ wears_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2504,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lDead_THFTYPE_i @ lAnimacyAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2505,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lUnitedKingdomGallon_THFTYPE_i @ lUnitOfVolume_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2506,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lGreatestCommonDivisorFn_THFTYPE_i @ lVariableArityRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2507,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lBeginNodeFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2508,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ parallel_THFTYPE_IiioI @ n2_THFTYPE_i @ lOneDimensionalFigure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2509,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ expressedInLanguage_THFTYPE_IiioI @ n1_THFTYPE_i @ lLinguisticExpression_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2510,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ wife_THFTYPE_IiioI @ n1_THFTYPE_i @ lWoman_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2511,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ connected_THFTYPE_IiioI @ lSymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2512,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lMinimalWeightedPathFn_THFTYPE_i @ n1_THFTYPE_i @ lGraphNode_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2513,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ side_THFTYPE_IiioI @ n2_THFTYPE_i @ lSelfConnectedObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2514,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ father_THFTYPE_IiioI @ lSingleValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2515,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lStanding_THFTYPE_i @ lBodyPosition_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2516,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lOn_THFTYPE_i @ lAntiSymmetricPositionalAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2517,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IiIiiiIoI @ lMinute_THFTYPE_i @ lMinuteFn_THFTYPE_IiiiI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2518,axiom,
% 2.18/2.41      instance_THFTYPE_IIoooIioI @ decreasesLikelihood_THFTYPE_IoooI @ lProbabilityRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2519,axiom,
% 2.18/2.41      disjointRelation_THFTYPE_IIiioIIiioIoI @ subAttribute_THFTYPE_IiioI @ successorAttribute_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2520,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiiIioI @ lMinuteFn_THFTYPE_IiiiI @ lTemporalRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2521,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lWhereFn_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2522,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ names_THFTYPE_IiioI @ n1_THFTYPE_i @ lSymbolicString_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2523,axiom,
% 2.18/2.41      domain_THFTYPE_IIoioIiioI @ holdsObligation_THFTYPE_IoioI @ n1_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2524,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lHoleHostFn_THFTYPE_IiiI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2525,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lineMeasure_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2526,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ multiplicativeFactor_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2527,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ beforeOrEqual_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2528,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ geometricDistance_THFTYPE_IiiioI @ n3_THFTYPE_i @ lLengthMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2529,axiom,
% 2.18/2.41      domain_THFTYPE_IIoooIiioI @ decreasesLikelihood_THFTYPE_IoooI @ n2_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2530,axiom,
% 2.18/2.41      instance_THFTYPE_IIIiioIIiioIoIioI @ inverse_THFTYPE_IIiioIIiioIoI @ lSymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2531,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lImmediatePastFn_THFTYPE_IiiI @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2532,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ connected_THFTYPE_IiioI @ lReflexiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2533,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lRoundFn_THFTYPE_IiiI @ lRelationExtendedToQuantities_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2534,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lVolt_THFTYPE_i @ lSystemeInternationalUnit_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2535,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ disjoint_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2536,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ subProcess_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2537,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ publishes_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2538,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lRight_THFTYPE_i @ lPositionalAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2539,axiom,
% 2.18/2.41      instance_THFTYPE_IoioI @ $false @ lTruthValue_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2540,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ starts_THFTYPE_IiioI @ lTemporalRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2541,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ greaterThan_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2542,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ parallel_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2543,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ systemPart_THFTYPE_IiioI @ n2_THFTYPE_i @ lPhysicalSystem_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2544,axiom,
% 2.18/2.41      domain_THFTYPE_IIIioIIiioIioIiioI @ capability_THFTYPE_IIioIIiioIioI @ n3_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2545,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ developmentalForm_THFTYPE_IiioI @ n1_THFTYPE_i @ lOrganicObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2546,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IiioI @ lCommunication_THFTYPE_i @ lContentDevelopment_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2547,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lCeilingFn_THFTYPE_IiiI @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2548,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ result_THFTYPE_IiioI @ n1_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2549,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ properlyFills_THFTYPE_IiioI @ n2_THFTYPE_i @ lHole_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2550,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IIiiiiiioIIiioIoI @ disjointDecomposition_THFTYPE_IiiiiiioI @ exhaustiveDecomposition_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2551,axiom,
% 2.18/2.41      domain_THFTYPE_IIiooIiioI @ believes_THFTYPE_IiooI @ n1_THFTYPE_i @ lCognitiveAgent_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2552,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ distributes_THFTYPE_IiioI @ lBinaryRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2553,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ larger_THFTYPE_IiioI @ n2_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2554,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ subGraph_THFTYPE_IiioI @ lReflexiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2555,axiom,
% 2.18/2.41      instance_THFTYPE_IIoioIioI @ holdsRight_THFTYPE_IoioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2556,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ attends_THFTYPE_IiioI @ n2_THFTYPE_i @ lHuman_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2557,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiioIioI @ connects_THFTYPE_IiiioI @ lSpatialRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2558,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiooIIiioIoI @ patient_THFTYPE_IiooI @ involvedInEvent_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2559,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ monetaryValue_THFTYPE_IiioI @ lSingleValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2560,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lKilogram_THFTYPE_i @ lUnitOfMass_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2561,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ editor_THFTYPE_i @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2562,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiiIioI @ lAdditionFn_THFTYPE_IiiiI @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2563,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lVolt_THFTYPE_i @ lCompositeUnitOfMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2564,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ daughter_THFTYPE_IiioI @ parent_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2565,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ atomicNumber_THFTYPE_IiioI @ n2_THFTYPE_i @ lPositiveInteger_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2566,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiioIioI @ orientation_THFTYPE_IiiioI @ lSpatialRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2567,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ finishes_THFTYPE_IiioI @ n1_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2568,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ spouse_THFTYPE_IiioI @ n2_THFTYPE_i @ lHuman_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2569,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lIntegerSquareRootFn_THFTYPE_i @ n1_THFTYPE_i @ lRealNumber_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2570,axiom,
% 2.18/2.41      domain_THFTYPE_IIoooIiioI @ subProposition_THFTYPE_IoooI @ n1_THFTYPE_i @ lProposition_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2571,axiom,
% 2.18/2.41      domain_THFTYPE_IIioioIiioI @ hasPurposeForAgent_THFTYPE_IioioI @ n2_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2572,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IiIiiiIoI @ lMereologicalSumFn_THFTYPE_i @ lMereologicalProductFn_THFTYPE_IiiiI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2573,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ finishes_THFTYPE_IiioI @ n2_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2574,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lListConcatenateFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2575,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ subGraph_THFTYPE_IiioI @ lTransitiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2576,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ hasSkill_THFTYPE_IiioI @ n2_THFTYPE_i @ lAgent_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2577,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IIiioIIiioIoI @ time_THFTYPE_IiioI @ located_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2578,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ inScopeOfInterest_THFTYPE_IiioI @ n2_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2579,axiom,
% 2.18/2.41      instance_THFTYPE_IIIiioIioIioI @ trichotomizingOn_THFTYPE_IIiioIioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2580,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lGigaFn_THFTYPE_i @ lUnitOfMeasureMultiplier_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2581,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ range_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2582,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lLiquid_THFTYPE_i @ lPhysicalState_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2583,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ leader_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2584,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lFloorFn_THFTYPE_IiiI @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2585,axiom,
% 2.18/2.41      domain_THFTYPE_IIoooIiioI @ increasesLikelihood_THFTYPE_IoooI @ n2_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2586,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lPredecessorFn_THFTYPE_IiiI @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2587,axiom,
% 2.18/2.41      domainSubclass_THFTYPE_IIiioIiioI @ atomicNumber_THFTYPE_IiioI @ n1_THFTYPE_i @ lElementalSubstance_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2588,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ inhabits_THFTYPE_IiioI @ n2_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2589,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ subOrganization_THFTYPE_IiioI @ n1_THFTYPE_i @ lOrganization_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2590,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IIiioIIiioIoI @ subsumesContentInstance_THFTYPE_IiioI @ subsumesContentClass_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2591,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ destination_THFTYPE_IiioI @ lCaseRole_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2592,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lIlluminated_THFTYPE_i @ lVisualAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2593,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ equivalentContentClass_THFTYPE_IiioI @ subsumesContentClass_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2594,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lAmpere_THFTYPE_i @ lCompositeUnitOfMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2595,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ familyRelation_THFTYPE_IiioI @ n2_THFTYPE_i @ lOrganism_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2596,axiom,
% 2.18/2.41      domainSubclass_THFTYPE_IiiioI @ lGeneralizedIntersectionFn_THFTYPE_i @ n1_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2597,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ representsInLanguage_THFTYPE_IiiioI @ n3_THFTYPE_i @ lLanguage_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2598,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lJoule_THFTYPE_i @ lCompositeUnitOfMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2599,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ subList_THFTYPE_IiioI @ lPartialOrderingRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2600,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ weight_THFTYPE_i @ n2_THFTYPE_i @ lMassMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2601,axiom,
% 2.18/2.41      instance_THFTYPE_IIoooIioI @ increasesLikelihood_THFTYPE_IoooI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2602,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ greaterThanOrEqualTo_THFTYPE_IiioI @ n2_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2603,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IIiioIIiioIoI @ before_THFTYPE_IiioI @ earlier_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2604,axiom,
% 2.18/2.41      domain_THFTYPE_IIiooIiioI @ believes_THFTYPE_IiooI @ n2_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2605,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ subList_THFTYPE_IiioI @ n1_THFTYPE_i @ lList_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2606,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ member_THFTYPE_IiioI @ n1_THFTYPE_i @ lSelfConnectedObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2607,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ orientation_THFTYPE_IiiioI @ n3_THFTYPE_i @ lPositionalAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2608,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ meetsSpatially_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2609,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ located_THFTYPE_IiioI @ lAntisymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2610,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ connects_THFTYPE_IiiioI @ n1_THFTYPE_i @ lSelfConnectedObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2611,axiom,
% 2.18/2.41      domain_THFTYPE_IIIioIioIiioI @ valence_THFTYPE_IIioIioI @ n1_THFTYPE_i @ lRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2612,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lKilogram_THFTYPE_i @ lSystemeInternationalUnit_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2613,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lGraphPathFn_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2614,axiom,
% 2.18/2.41      domain_THFTYPE_IIIiioIioIiioI @ trichotomizingOn_THFTYPE_IIiioIioI @ n2_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2615,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ relatedExternalConcept_THFTYPE_i @ lTernaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2616,axiom,
% 2.18/2.41      disjointRelation_THFTYPE_IIiioIIiioIoI @ manner_THFTYPE_IiioI @ attribute_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2617,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiiIiioI @ lTimeIntervalFn_THFTYPE_IiiiI @ n2_THFTYPE_i @ lTimePoint_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2618,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IIoiioIIoiioIoI @ confersObligation_THFTYPE_IoiioI @ confersRight_THFTYPE_IoiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2619,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ average_THFTYPE_IiioI @ n2_THFTYPE_i @ lRealNumber_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2620,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lVelocityFn_THFTYPE_i @ n2_THFTYPE_i @ lTimeDuration_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2621,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ properlyFills_THFTYPE_IiioI @ partiallyFills_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2622,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lFrontFn_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2623,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lVelocityFn_THFTYPE_i @ lQuaternaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2624,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ member_THFTYPE_IiioI @ part_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2625,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ properPart_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2626,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lHoleSkinFn_THFTYPE_IiiI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2627,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lHoleHostFn_THFTYPE_IiiI @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2628,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ temporalPart_THFTYPE_IiioI @ lTemporalRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2629,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ abstractCounterpart_THFTYPE_IiioI @ represents_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2630,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lComplementFn_THFTYPE_i @ n1_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2631,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ before_THFTYPE_IiioI @ beforeOrEqual_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2632,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lMinimalCutSetFn_THFTYPE_IiiI @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2633,axiom,
% 2.18/2.41      domainSubclass_THFTYPE_IiiioI @ editor_THFTYPE_i @ n2_THFTYPE_i @ lText_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2634,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ resource_THFTYPE_IiioI @ n2_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2635,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ inScopeOfInterest_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2636,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lRelativeComplementFn_THFTYPE_i @ n1_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2637,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lMereologicalDifferenceFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2638,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiiIioI @ lMultiplicationFn_THFTYPE_IiiiI @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2639,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ links_THFTYPE_IiiioI @ n1_THFTYPE_i @ lGraphNode_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2640,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiiIioI @ lRecurrentTimeIntervalFn_THFTYPE_IiiiI @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2641,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lDenominatorFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2642,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ measure_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2643,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ during_THFTYPE_IiioI @ n1_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2644,axiom,
% 2.18/2.41      domain_THFTYPE_IIiooIiioI @ realization_THFTYPE_IiooI @ n1_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2645,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lPerFn_THFTYPE_i @ n2_THFTYPE_i @ lPhysicalQuantity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2646,axiom,
% 2.18/2.41      domain_THFTYPE_IIoooIiioI @ decreasesLikelihood_THFTYPE_IoooI @ n1_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2647,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lAudible_THFTYPE_i @ lSoundAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2648,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ developmentalForm_THFTYPE_IiioI @ n2_THFTYPE_i @ lDevelopmentalAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2649,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lLogFn_THFTYPE_i @ n1_THFTYPE_i @ lRealNumber_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2650,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ parallel_THFTYPE_IiioI @ n1_THFTYPE_i @ lOneDimensionalFigure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2651,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lTangentFn_THFTYPE_IiiI @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2652,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiiIioI @ lMeasureFn_THFTYPE_IiiiI @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2653,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ instrument_THFTYPE_IiioI @ n1_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2654,axiom,
% 2.18/2.41      domainSubclass_THFTYPE_IIiioIiioI @ precondition_THFTYPE_IiioI @ n1_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2655,axiom,
% 2.18/2.41      domainSubclass_THFTYPE_IIiioIiioI @ inhibits_THFTYPE_IiioI @ n2_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2656,axiom,
% 2.18/2.41      instance_THFTYPE_IIIiioIioIioI @ partialOrderingOn_THFTYPE_IIiioIioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2657,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ representsInLanguage_THFTYPE_IiiioI @ n1_THFTYPE_i @ lLinguisticExpression_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2658,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ member_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2659,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ crosses_THFTYPE_IiioI @ traverses_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2660,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ temporalPart_THFTYPE_IiioI @ n2_THFTYPE_i @ lTimePosition_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2661,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lByte_THFTYPE_i @ lUnitOfInformation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2662,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lUnconscious_THFTYPE_i @ lConsciousnessAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2663,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ lessThan_THFTYPE_IiioI @ n2_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2664,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ causesSubclass_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2665,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lDensityFn_THFTYPE_i @ n1_THFTYPE_i @ lMassMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2666,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ fills_THFTYPE_IiioI @ properlyFills_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2667,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ orientation_THFTYPE_IiiioI @ n1_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2668,axiom,
% 2.18/2.41      domainSubclass_THFTYPE_IIiioIiioI @ frequency_THFTYPE_IiioI @ n1_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2669,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ causesSubclass_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2670,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IiioI @ lYear_THFTYPE_i @ lYearDuration_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2671,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ wants_THFTYPE_IiioI @ n1_THFTYPE_i @ lCognitiveAgent_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2672,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ material_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2673,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lMilliFn_THFTYPE_i @ lUnitOfMeasureMultiplier_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2674,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lListLengthFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2675,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lCoordinatedUniversalTimeZone_THFTYPE_i @ lTimeZone_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2676,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lUnlikely_THFTYPE_i @ lProbabilityAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2677,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ overlapsPartially_THFTYPE_IiioI @ lSymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2678,axiom,
% 2.18/2.41      instance_THFTYPE_IIIiioIioIioI @ reflexiveOn_THFTYPE_IIiioIioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2679,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ brother_THFTYPE_i @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2680,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ overlapsSpatially_THFTYPE_IiioI @ connected_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2681,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lCutSetFn_THFTYPE_i @ n1_THFTYPE_i @ lGraph_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2682,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ part_THFTYPE_IiioI @ lSpatialRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2683,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ agent_THFTYPE_IiioI @ n1_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2684,axiom,
% 2.18/2.41      subrelation_THFTYPE_IiIiioIoI @ uniqueIdentifier_THFTYPE_i @ names_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2685,axiom,
% 2.18/2.41      subrelation_THFTYPE_IiioI @ subsumingExternalConcept_THFTYPE_i @ relatedExternalConcept_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2686,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IIiooIIiioIoI @ desires_THFTYPE_IiooI @ wants_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2687,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lObligation_THFTYPE_i @ lDeonticAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2688,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ larger_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2689,axiom,
% 2.18/2.41      domain_THFTYPE_IIoooIiioI @ entails_THFTYPE_IoooI @ n1_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2690,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IiioI @ lRepairing_THFTYPE_i @ lMaintaining_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2691,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lBeginNodeFn_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2692,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lMicroFn_THFTYPE_i @ lUnitOfMeasureMultiplier_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2693,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lSmooth_THFTYPE_i @ lTextureAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2694,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiioIioI @ between_THFTYPE_IiiioI @ lSpatialRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2695,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lCosineFn_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2696,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ mutualAcquaintance_THFTYPE_i @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2697,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lLux_THFTYPE_i @ lSystemeInternationalUnit_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2698,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiIiioI @ lFloorFn_THFTYPE_IiiI @ n1_THFTYPE_i @ lRealNumber_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2699,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ externalImage_THFTYPE_i @ n1_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2700,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiiIioI @ lDivisionFn_THFTYPE_IiiiI @ lPartialValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2701,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lineMeasure_THFTYPE_i @ n1_THFTYPE_i @ lOneDimensionalFigure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2702,axiom,
% 2.18/2.41      domain_THFTYPE_IIIiioIioIiioI @ equivalenceRelationOn_THFTYPE_IIiioIioI @ n1_THFTYPE_i @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2703,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ superficialPart_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2704,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ subsumesContentInstance_THFTYPE_IiioI @ lPartialOrderingRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2705,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lAmpere_THFTYPE_i @ lSystemeInternationalUnit_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2706,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lMereologicalSumFn_THFTYPE_i @ n1_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2707,axiom,
% 2.18/2.41      domain_THFTYPE_IIoooIiioI @ independentProbability_THFTYPE_IoooI @ n2_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2708,axiom,
% 2.18/2.41      domain_THFTYPE_IIIiioIioIiioI @ partialOrderingOn_THFTYPE_IIiioIioI @ n1_THFTYPE_i @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2709,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ member_THFTYPE_IiioI @ lIntransitiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2710,axiom,
% 2.18/2.41      instance_THFTYPE_IIiooIioI @ considers_THFTYPE_IiooI @ lPropositionalAttitude_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2711,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ angleOfFigure_THFTYPE_i @ n2_THFTYPE_i @ lGeometricFigure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2712,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ son_THFTYPE_IiioI @ n1_THFTYPE_i @ lOrganism_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2713,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lSubtractionFn_THFTYPE_i @ lRelationExtendedToQuantities_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2714,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ during_THFTYPE_IiioI @ overlapsTemporally_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2715,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ uses_THFTYPE_IiioI @ n1_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2716,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ agent_THFTYPE_IiioI @ involvedInEvent_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2717,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ wife_THFTYPE_IiioI @ n2_THFTYPE_i @ lMan_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2718,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ immediateSubclass_THFTYPE_IiioI @ subclass_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2719,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ overlapsTemporally_THFTYPE_IiioI @ lSymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2720,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ closedOn_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2721,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lSiemens_THFTYPE_i @ lCompositeUnitOfMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2722,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiiIiioI @ lAdditionFn_THFTYPE_IiiiI @ n1_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2723,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IiioI @ lSecond_THFTYPE_i @ lSecondDuration_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2724,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lMinFn_THFTYPE_i @ lRelationExtendedToQuantities_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2725,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ piece_THFTYPE_IiioI @ n1_THFTYPE_i @ lSubstance_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2726,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IIiooIIiioIoI @ realization_THFTYPE_IiooI @ equivalentContentInstance_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2727,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ uses_THFTYPE_IiioI @ n2_THFTYPE_i @ lAgent_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2728,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lMinuteDuration_THFTYPE_i @ lUnitOfDuration_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2729,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lMereologicalSumFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2730,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ partiallyFills_THFTYPE_IiioI @ lSpatialRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2731,axiom,
% 2.18/2.41      subrelation_THFTYPE_IiioI @ subsumedExternalConcept_THFTYPE_i @ relatedExternalConcept_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2732,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiiIiioI @ lListOrderFn_THFTYPE_IiiiI @ n2_THFTYPE_i @ lPositiveInteger_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2733,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lBeginFn_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2734,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ hole_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2735,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ citizen_THFTYPE_i @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2736,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lBit_THFTYPE_i @ lUnitOfInformation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2737,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lCosineFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2738,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiioIioI @ altitude_THFTYPE_IiiioI @ lSingleValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2739,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ component_THFTYPE_IiioI @ part_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2740,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lSeriesVolumeFn_THFTYPE_i @ lPartialValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2741,axiom,
% 2.18/2.41      instance_THFTYPE_IIoooIioI @ decreasesLikelihood_THFTYPE_IoooI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2742,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ diameter_THFTYPE_IiioI @ n2_THFTYPE_i @ lLengthMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2743,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ exhaustiveDecomposition_THFTYPE_IiioI @ n1_THFTYPE_i @ lClass_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2744,axiom,
% 2.18/2.41      disjointRelation_THFTYPE_IiIiioIoI @ stays_THFTYPE_i @ home_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2745,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiIiioI @ lCeilingFn_THFTYPE_IiiI @ n1_THFTYPE_i @ lRealNumber_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2746,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IIiooIIiooIoI @ realization_THFTYPE_IiooI @ containsInformation_THFTYPE_IiooI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2747,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ wife_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2748,axiom,
% 2.18/2.41      domain_THFTYPE_IIiooIiioI @ holdsDuring_THFTYPE_IiooI @ n1_THFTYPE_i @ lTimePosition_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2749,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ graphPart_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2750,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ home_THFTYPE_IiioI @ inhabits_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2751,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lWhereFn_THFTYPE_i @ lSpatialRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2752,axiom,
% 2.18/2.41      domain_THFTYPE_IIIoioIIiioIoIiioI @ subrelation_THFTYPE_IIoioIIiioIoI @ n1_THFTYPE_i @ lRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2753,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ employs_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2754,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lListFn_THFTYPE_i @ lFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2755,axiom,
% 2.18/2.41      domain_THFTYPE_IIIiioIioIiioI @ trichotomizingOn_THFTYPE_IIiioIioI @ n1_THFTYPE_i @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2756,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lVelocityFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2757,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lHoleHostFn_THFTYPE_IiiI @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2758,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ immediateInstance_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2759,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ located_THFTYPE_IiioI @ partlyLocated_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2760,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lEuroDollar_THFTYPE_i @ lUnitOfCurrency_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2761,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ engineeringSubcomponent_THFTYPE_IiioI @ n1_THFTYPE_i @ lEngineeringComponent_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2762,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiIiioI @ lInitialNodeFn_THFTYPE_IiiI @ n1_THFTYPE_i @ lGraphArc_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2763,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ hole_THFTYPE_IiioI @ n1_THFTYPE_i @ lHole_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2764,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lListConcatenateFn_THFTYPE_i @ n1_THFTYPE_i @ lList_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2765,axiom,
% 2.18/2.41      domain_THFTYPE_IIoooIiioI @ independentProbability_THFTYPE_IoooI @ n1_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2766,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ greaterThanOrEqualTo_THFTYPE_IiioI @ n1_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2767,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ meetsTemporally_THFTYPE_IiioI @ lTemporalRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2768,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ measure_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2769,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lMegaFn_THFTYPE_i @ n1_THFTYPE_i @ lUnitOfMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2770,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lIntersectionFn_THFTYPE_i @ n2_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2771,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ subset_THFTYPE_IiioI @ n1_THFTYPE_i @ lSet_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2772,axiom,
% 2.18/2.41      domain_THFTYPE_IIIiioIIiioIoIiioI @ disjointRelation_THFTYPE_IIiioIIiioIoI @ n2_THFTYPE_i @ lRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2773,axiom,
% 2.18/2.41      instance_THFTYPE_IIoooIioI @ conclusion_THFTYPE_IoooI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2774,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ between_THFTYPE_IiiioI @ n2_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2775,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lImmediateFutureFn_THFTYPE_IiiI @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2776,axiom,
% 2.18/2.41      instance_THFTYPE_IIioooIioI @ prefers_THFTYPE_IioooI @ lTernaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2777,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiiIioI @ lPeriodicalIssueFn_THFTYPE_IiiiI @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2778,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IiioI @ lMonth_THFTYPE_i @ lMonthFn_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2779,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ surface_THFTYPE_IiioI @ n2_THFTYPE_i @ lSelfConnectedObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2780,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lCandela_THFTYPE_i @ lSystemeInternationalUnit_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2781,axiom,
% 2.18/2.41      instance_THFTYPE_IIIiioIioIioI @ totalOrderingOn_THFTYPE_IIiioIioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2782,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ subset_THFTYPE_IiioI @ n2_THFTYPE_i @ lSet_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2783,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lAssignmentFn_THFTYPE_i @ n1_THFTYPE_i @ lFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2784,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lSecondDuration_THFTYPE_i @ lSystemeInternationalUnit_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2785,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lNewton_THFTYPE_i @ lSystemeInternationalUnit_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2786,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lUnitedStatesCent_THFTYPE_i @ lUnitOfCurrency_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2787,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lSolid_THFTYPE_i @ lPhysicalState_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2788,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lGeneralizedIntersectionFn_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2789,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIioI @ pointOfFigure_THFTYPE_IiioI @ geometricPart_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2790,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ closedOn_THFTYPE_IiioI @ n2_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2791,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ occupiesPosition_THFTYPE_IiiioI @ n3_THFTYPE_i @ lOrganization_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2792,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiiIiioI @ lMeasureFn_THFTYPE_IiiiI @ n2_THFTYPE_i @ lUnitOfMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2793,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ penetrates_THFTYPE_IiioI @ lIntransitiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2794,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiiIioI @ lPeriodicalIssueFn_THFTYPE_IiiiI @ lPartialValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2795,axiom,
% 2.18/2.41      instance_THFTYPE_IIIiiIioIioI @ relatedInternalConcept_THFTYPE_IIiiIioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2796,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ cooccur_THFTYPE_IiioI @ lEquivalenceRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2797,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lLeastCommonMultipleFn_THFTYPE_i @ lFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2798,axiom,
% 2.18/2.41      instance_THFTYPE_IIoiioIioI @ confersObligation_THFTYPE_IoiioI @ lTernaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2799,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiiIioI @ lListOrderFn_THFTYPE_IiiiI @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2800,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ arcWeight_THFTYPE_IiioI @ n1_THFTYPE_i @ lGraphArc_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2801,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ properlyFills_THFTYPE_IiioI @ n1_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2802,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ geometricPart_THFTYPE_i @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2803,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ height_THFTYPE_IiioI @ n1_THFTYPE_i @ lSelfConnectedObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2804,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ relatedEvent_THFTYPE_IiioI @ n1_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2805,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiiIiioI @ lMultiplicationFn_THFTYPE_IiiiI @ n1_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2806,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ time_THFTYPE_IiioI @ lTemporalRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2807,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiioIioI @ distance_THFTYPE_IiiioI @ lSpatialRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2808,axiom,
% 2.18/2.41      subrelation_THFTYPE_IiIoooIoI @ subPlan_THFTYPE_i @ subProposition_THFTYPE_IoooI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2809,axiom,
% 2.18/2.41      domain_THFTYPE_IIiooIiioI @ patient_THFTYPE_IiooI @ n2_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2810,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ hole_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2811,axiom,
% 2.18/2.41      subrelation_THFTYPE_IiioI @ angleOfFigure_THFTYPE_i @ geometricPart_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2812,axiom,
% 2.18/2.41      domain_THFTYPE_IIIiioIIiioIoIiioI @ inverse_THFTYPE_IIiioIIiioIoI @ n1_THFTYPE_i @ lBinaryRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2813,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ representsForAgent_THFTYPE_IiiioI @ n2_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2814,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ documentation_THFTYPE_i @ lTernaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2815,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lMagnitudeFn_THFTYPE_IiiI @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2816,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiiiiioIioI @ disjointDecomposition_THFTYPE_IiiiiiioI @ lVariableArityRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2817,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lFutureFn_THFTYPE_IiiI @ lTemporalRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2818,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ faces_THFTYPE_IiioI @ n1_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2819,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ faces_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2820,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lSecondDuration_THFTYPE_i @ lUnitOfDuration_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2821,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ copy_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2822,axiom,
% 2.18/2.41      disjointRelation_THFTYPE_IIoooIIoooIoI @ increasesLikelihood_THFTYPE_IoooI @ decreasesLikelihood_THFTYPE_IoooI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2823,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ larger_THFTYPE_IiioI @ n1_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2824,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lAmu_THFTYPE_i @ lUnitOfMass_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2825,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ smaller_THFTYPE_IiioI @ n2_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2826,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ equivalentContentInstance_THFTYPE_IiioI @ n1_THFTYPE_i @ lContentBearingObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2827,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lBeginFn_THFTYPE_i @ n1_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2828,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiiIioI @ lDivisionFn_THFTYPE_IiiiI @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2829,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lLeft_THFTYPE_i @ lPositionalAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2830,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ destination_THFTYPE_IiioI @ n2_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2831,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lUnitedStatesDollar_THFTYPE_i @ lUnitOfCurrency_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2832,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ angularMeasure_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2833,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ weight_THFTYPE_i @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2834,axiom,
% 2.18/2.41      domain_THFTYPE_IIoiioIiioI @ confersObligation_THFTYPE_IoiioI @ n1_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2835,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lEnglishLanguage_THFTYPE_i @ lSpokenHumanLanguage_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2836,axiom,
% 2.18/2.41      domain_THFTYPE_IIoiIiioI @ lProbabilityFn_THFTYPE_IoiI @ n1_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2837,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lAngstrom_THFTYPE_i @ lUnitOfLength_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2838,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lBackFn_THFTYPE_i @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2839,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ interiorPart_THFTYPE_IiioI @ part_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2840,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lBecquerel_THFTYPE_i @ lCompositeUnitOfMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2841,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiioIioI @ depth_THFTYPE_IiiioI @ lSingleValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2842,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lKilometer_THFTYPE_i @ lUnitOfLength_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2843,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lSineFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2844,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lSeriesVolumeFn_THFTYPE_i @ n2_THFTYPE_i @ lPositiveInteger_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2845,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lNonFullyFormed_THFTYPE_i @ lDevelopmentalAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2846,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lPastFn_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2847,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ representsInLanguage_THFTYPE_IiiioI @ n2_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2848,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lListLengthFn_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2849,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ legalRelation_THFTYPE_IiioI @ lSymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2850,axiom,
% 2.18/2.41      instance_THFTYPE_IIIioIIiioIioIioI @ capability_THFTYPE_IIioIIiioIioI @ lTernaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2851,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ possesses_THFTYPE_IiioI @ n1_THFTYPE_i @ lAgent_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2852,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ hole_THFTYPE_IiioI @ lSpatialRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2853,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lAbsoluteValueFn_THFTYPE_IiiI @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2854,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiiIiioI @ lTimeIntervalFn_THFTYPE_IiiiI @ n1_THFTYPE_i @ lTimePoint_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2855,axiom,
% 2.18/2.41      instance_THFTYPE_IIoooIioI @ increasesLikelihood_THFTYPE_IoooI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2856,axiom,
% 2.18/2.41      domain_THFTYPE_IIoooIiioI @ conclusion_THFTYPE_IoooI @ n1_THFTYPE_i @ lArgument_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2857,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lNewton_THFTYPE_i @ lCompositeUnitOfMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2858,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ identicalListItems_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2859,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lTemporalCompositionFn_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2860,axiom,
% 2.18/2.41      instance_THFTYPE_IIoooIioI @ subProposition_THFTYPE_IoooI @ lTransitiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2861,axiom,
% 2.18/2.41      instance_THFTYPE_IIoooIioI @ contraryAttribute_THFTYPE_IoooI @ lPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2862,axiom,
% 2.18/2.41      domain_THFTYPE_IIiooIiioI @ containsInformation_THFTYPE_IiooI @ n2_THFTYPE_i @ lProposition_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2863,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ origin_THFTYPE_IiioI @ n1_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2864,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ spouse_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2865,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lHoleSkinFn_THFTYPE_IiiI @ lSpatialRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2866,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lHourFn_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2867,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiIiioI @ lNanoFn_THFTYPE_IiiI @ n1_THFTYPE_i @ lUnitOfMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2868,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lGovernmentFn_THFTYPE_i @ n1_THFTYPE_i @ lGeopoliticalArea_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2869,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ subCollection_THFTYPE_IiioI @ n1_THFTYPE_i @ lCollection_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2870,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lIntegerSquareRootFn_THFTYPE_i @ lPartialValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2871,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiiIioI @ lTimeIntervalFn_THFTYPE_IiiiI @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2872,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ before_THFTYPE_IiioI @ n2_THFTYPE_i @ lTimePoint_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2873,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ duration_THFTYPE_IiioI @ n1_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2874,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ surface_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2875,axiom,
% 2.18/2.41      domainSubclass_THFTYPE_IIiioIiioI @ subsumesContentClass_THFTYPE_IiioI @ n1_THFTYPE_i @ lContentBearingObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2876,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiIiioI @ lHoleHostFn_THFTYPE_IiiI @ n1_THFTYPE_i @ lHole_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2877,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ diameter_THFTYPE_IiioI @ n1_THFTYPE_i @ lCircle_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2878,axiom,
% 2.18/2.41      instance_THFTYPE_IIoiIioI @ lProbabilityFn_THFTYPE_IoiI @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2879,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiioIioI @ temporallyBetween_THFTYPE_IiiioI @ lTernaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2880,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ connects_THFTYPE_IiiioI @ n3_THFTYPE_i @ lSelfConnectedObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2881,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiooIoI @ instrument_THFTYPE_IiioI @ patient_THFTYPE_IiooI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2882,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lProstrate_THFTYPE_i @ lBodyPosition_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2883,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lRemainderFn_THFTYPE_i @ lPartialValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2884,axiom,
% 2.18/2.41      disjointRelation_THFTYPE_IIiioIIiioIoI @ contains_THFTYPE_IiioI @ part_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2885,axiom,
% 2.18/2.41      domainSubclass_THFTYPE_IIiioIiioI @ meltingPoint_THFTYPE_IiioI @ n1_THFTYPE_i @ lPureSubstance_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2886,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lWeber_THFTYPE_i @ lSystemeInternationalUnit_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2887,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ rangeSubclass_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2888,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ member_THFTYPE_IiioI @ n2_THFTYPE_i @ lCollection_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2889,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ daughter_THFTYPE_IiioI @ n1_THFTYPE_i @ lOrganism_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2890,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiiIioI @ lMinuteFn_THFTYPE_IiiiI @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2891,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lSquareRootFn_THFTYPE_IiiI @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2892,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ wants_THFTYPE_IiioI @ lObjectAttitude_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2893,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lPowerSetFn_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2894,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ sibling_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2895,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ subsumesContentClass_THFTYPE_IiioI @ lPartialOrderingRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2896,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lSouth_THFTYPE_i @ lDirectionalAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2897,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lMaximalWeightedPathFn_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2898,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ subProcess_THFTYPE_IiioI @ n2_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2899,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ equal_THFTYPE_i @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2900,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ distance_THFTYPE_IiiioI @ n3_THFTYPE_i @ lLengthMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2901,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiIiioI @ lPicoFn_THFTYPE_IiiI @ n1_THFTYPE_i @ lUnitOfMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2902,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ average_THFTYPE_IiioI @ n1_THFTYPE_i @ lList_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2903,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ daughter_THFTYPE_IiioI @ n2_THFTYPE_i @ lOrganism_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2904,axiom,
% 2.18/2.41      domain_THFTYPE_IIioioIiioI @ deprivesNorm_THFTYPE_IioioI @ n3_THFTYPE_i @ lObjectiveNorm_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2905,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ duration_THFTYPE_IiioI @ n2_THFTYPE_i @ lTimeDuration_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2906,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lVertical_THFTYPE_i @ lPositionalAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2907,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lSignumFn_THFTYPE_IiiI @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2908,axiom,
% 2.18/2.41      subrelation_THFTYPE_IiIiioIoI @ brother_THFTYPE_i @ sibling_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2909,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lRemainderFn_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2910,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lBackFn_THFTYPE_i @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2911,axiom,
% 2.18/2.41      domainSubclass_THFTYPE_IIiiiIiioI @ lPeriodicalIssueFn_THFTYPE_IiiiI @ n1_THFTYPE_i @ lPeriodical_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2912,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiiIioI @ lEditionFn_THFTYPE_IiiiI @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2913,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ beforeOrEqual_THFTYPE_IiioI @ lPartialOrderingRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2914,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lRelativeTimeFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2915,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lSubtractionFn_THFTYPE_i @ lAssociativeFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2916,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ during_THFTYPE_IiioI @ lTransitiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2917,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lListConcatenateFn_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2918,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ successorAttribute_THFTYPE_IiioI @ n1_THFTYPE_i @ lAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2919,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ subGraph_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2920,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lSievert_THFTYPE_i @ lCompositeUnitOfMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2921,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IIiioIIiioIoI @ causes_THFTYPE_IiioI @ causesSubclass_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2922,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ barometricPressure_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2923,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lNear_THFTYPE_i @ lSymmetricPositionalAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2924,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ resource_THFTYPE_IiioI @ n1_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2925,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ connectedEngineeringComponents_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2926,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IiioI @ lTransportation_THFTYPE_i @ lTransportationDevice_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2927,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lWhereFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2928,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lGovernmentFn_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2929,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ property_THFTYPE_IiioI @ n1_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2930,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ instance_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2931,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ legalRelation_THFTYPE_IiioI @ n1_THFTYPE_i @ lHuman_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2932,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lAbove_THFTYPE_i @ lAntiSymmetricPositionalAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2933,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ mutualAcquaintance_THFTYPE_i @ n2_THFTYPE_i @ lHuman_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2934,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lExtensionFn_THFTYPE_IiiI @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2935,axiom,
% 2.18/2.41      domainSubclass_THFTYPE_IIiioIiioI @ version_THFTYPE_IiioI @ n1_THFTYPE_i @ lArtifact_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2936,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ meetsSpatially_THFTYPE_IiioI @ connected_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2937,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ systemPart_THFTYPE_IiioI @ n1_THFTYPE_i @ lPhysical_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2938,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ documentation_THFTYPE_i @ n1_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2939,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ developmentalForm_THFTYPE_IiioI @ lTransitiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2940,axiom,
% 2.18/2.41      instance_THFTYPE_IIoooIioI @ entails_THFTYPE_IoooI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2941,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ equal_THFTYPE_i @ n1_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2942,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lPositiveInfinity_THFTYPE_i @ lTimePoint_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2943,axiom,
% 2.18/2.41      instance_THFTYPE_IIoooIioI @ independentProbability_THFTYPE_IoooI @ lProbabilityRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2944,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ geographicSubregion_THFTYPE_i @ n2_THFTYPE_i @ lGeographicArea_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2945,axiom,
% 2.18/2.41      domain_THFTYPE_IIIioIiIiioI @ lCardinalityFn_THFTYPE_IIioIiI @ n1_THFTYPE_i @ ( lUnionFn_THFTYPE_IiiiI @ lSetOrClass_THFTYPE_i @ lCollection_THFTYPE_i ) ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2946,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ angularMeasure_THFTYPE_i @ n1_THFTYPE_i @ lTwoDimensionalAngle_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2947,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lGeneralizedUnionFn_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2948,axiom,
% 2.18/2.41      domainSubclass_THFTYPE_IIiioIiioI @ version_THFTYPE_IiioI @ n2_THFTYPE_i @ lArtifact_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2949,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiiIioI @ lMeasureFn_THFTYPE_IiiiI @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2950,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IIiioIIiioIoI @ successorAttributeClosure_THFTYPE_IiioI @ successorAttribute_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2951,axiom,
% 2.18/2.41      domain_THFTYPE_IIooioIiioI @ conditionalProbability_THFTYPE_IooioI @ n1_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2952,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ completelyFills_THFTYPE_IiioI @ partiallyFills_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2953,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lRight_THFTYPE_i @ lAntiSymmetricPositionalAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2954,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ successorAttributeClosure_THFTYPE_IiioI @ lTransitiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2955,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ subAttribute_THFTYPE_IiioI @ n2_THFTYPE_i @ lAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2956,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiioIioI @ connects_THFTYPE_IiiioI @ lTernaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2957,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiIiioI @ lFutureFn_THFTYPE_IiiI @ n1_THFTYPE_i @ lTimePosition_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2958,axiom,
% 2.18/2.41      domainSubclass_THFTYPE_IIiioIiioI @ prevents_THFTYPE_IiioI @ n2_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2959,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ prevents_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2960,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ properPart_THFTYPE_IiioI @ lTransitiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2961,axiom,
% 2.18/2.41      domainSubclass_THFTYPE_IIiioIiioI @ causesSubclass_THFTYPE_IiioI @ n2_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2962,axiom,
% 2.18/2.41      domain_THFTYPE_IIIiiIioIiioI @ relatedInternalConcept_THFTYPE_IIiiIioI @ n1_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2963,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiioIioI @ distance_THFTYPE_IiiioI @ lTernaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2964,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ date_THFTYPE_IiioI @ time_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2965,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ needs_THFTYPE_IiioI @ n1_THFTYPE_i @ lCognitiveAgent_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2966,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ successorAttributeClosure_THFTYPE_IiioI @ n1_THFTYPE_i @ lAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2967,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ contains_THFTYPE_IiioI @ partlyLocated_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2968,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ rangeSubclass_THFTYPE_IiioI @ n1_THFTYPE_i @ lFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2969,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ successorAttributeClosure_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2970,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IiioI @ lDay_THFTYPE_i @ lDayDuration_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2971,axiom,
% 2.18/2.41      domain_THFTYPE_IIioooIiioI @ prefers_THFTYPE_IioooI @ n1_THFTYPE_i @ lCognitiveAgent_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2972,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ identityElement_THFTYPE_IiioI @ n1_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2973,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ represents_THFTYPE_IiioI @ refers_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2974,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lWealthFn_THFTYPE_i @ n1_THFTYPE_i @ lAgent_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2975,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ lessThanOrEqualTo_THFTYPE_IiioI @ lPartialOrderingRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2976,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ brother_THFTYPE_i @ n2_THFTYPE_i @ lHuman_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2977,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ monetaryValue_THFTYPE_IiioI @ n2_THFTYPE_i @ lCurrencyMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2978,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lSineFn_THFTYPE_i @ n1_THFTYPE_i @ lPlaneAngleMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2979,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lIntersectionFn_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2980,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lEndFn_THFTYPE_i @ n1_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2981,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lMile_THFTYPE_i @ lUnitOfLength_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2982,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ immediateSubclass_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2983,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lJoule_THFTYPE_i @ lSystemeInternationalUnit_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2984,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIoooIIiioIoI @ truth_THFTYPE_IoooI @ property_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2985,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lImmediateFamilyFn_THFTYPE_IiiI @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2986,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ length_THFTYPE_IiioI @ linearExtent_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2987,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiiIioI @ lAdditionFn_THFTYPE_IiiiI @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2988,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lListFn_THFTYPE_i @ lVariableArityRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2989,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ atomicNumber_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2990,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ element_THFTYPE_IiioI @ n1_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2991,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ measure_THFTYPE_IiioI @ n1_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2992,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiIiioI @ lReciprocalFn_THFTYPE_IiiI @ n1_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2993,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lFrontFn_THFTYPE_i @ n1_THFTYPE_i @ lSelfConnectedObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2994,axiom,
% 2.18/2.41      disjointRelation_THFTYPE_IIoooIIoooIoI @ increasesLikelihood_THFTYPE_IoooI @ independentProbability_THFTYPE_IoooI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2995,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lGraphPathFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2996,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiIiioI @ lSquareRootFn_THFTYPE_IiiI @ n1_THFTYPE_i @ lRealNumber_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2997,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lEndNodeFn_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2998,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ connectedEngineeringComponents_THFTYPE_IiioI @ connected_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax2999,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ pointOfFigure_THFTYPE_IiioI @ n2_THFTYPE_i @ lGeometricFigure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3000,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ authors_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3001,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lMereologicalDifferenceFn_THFTYPE_i @ n2_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3002,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lRoundFn_THFTYPE_IiiI @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3003,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ names_THFTYPE_IiioI @ refers_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3004,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lLiter_THFTYPE_i @ lUnitOfVolume_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3005,axiom,
% 2.18/2.41      subrelation_THFTYPE_IiioI @ mutualAcquaintance_THFTYPE_i @ acquaintance_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3006,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ smaller_THFTYPE_IiioI @ lSpatialRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3007,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ exhaustiveDecomposition_THFTYPE_IiioI @ lPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3008,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lPlasma_THFTYPE_i @ lPhysicalState_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3009,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiIiioI @ lPathWeightFn_THFTYPE_IiiI @ n1_THFTYPE_i @ lGraphPath_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3010,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ attribute_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3011,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ systemPart_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3012,axiom,
% 2.18/2.41      instance_THFTYPE_IIiooIioI @ patient_THFTYPE_IiooI @ lCaseRole_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3013,axiom,
% 2.18/2.41      domain_THFTYPE_IIiooIiioI @ patient_THFTYPE_IiooI @ n1_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3014,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiIiioI @ lRoundFn_THFTYPE_IiiI @ n1_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3015,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lPliable_THFTYPE_i @ lInternalAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3016,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ legalRelation_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3017,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ home_THFTYPE_IiioI @ n1_THFTYPE_i @ lHuman_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3018,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ duration_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3019,axiom,
% 2.18/2.41      domain_THFTYPE_IIoioIiioI @ holdsRight_THFTYPE_IoioI @ n1_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3020,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lLikely_THFTYPE_i @ lProbabilityAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3021,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IiioI @ lReading_THFTYPE_i @ lInterpreting_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3022,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ geometricDistance_THFTYPE_IiiioI @ n2_THFTYPE_i @ lGeometricPoint_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3023,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiiIioI @ lExponentiationFn_THFTYPE_IiiiI @ lRelationExtendedToQuantities_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3024,axiom,
% 2.18/2.41      domainSubclass_THFTYPE_IIiiiIiioI @ lEditionFn_THFTYPE_IiiiI @ n1_THFTYPE_i @ lContentBearingObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3025,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ temporallyBetween_THFTYPE_IiiioI @ n1_THFTYPE_i @ lTimePoint_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3026,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IIIiioIIiioIoIIiioIoI @ disjointRelation_THFTYPE_IIiioIIiioIoI @ disjoint_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3027,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiiIioI @ lExponentiationFn_THFTYPE_IiiiI @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3028,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ distributes_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3029,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ geometricPart_THFTYPE_i @ n1_THFTYPE_i @ lGeometricFigure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3030,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lMereologicalSumFn_THFTYPE_i @ lSpatialRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3031,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IIiiiiiioIIiioIoI @ disjointDecomposition_THFTYPE_IiiiiiioI @ disjoint_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3032,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lOunce_THFTYPE_i @ lUnitOfVolume_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3033,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ spouse_THFTYPE_IiioI @ relative_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3034,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lMinFn_THFTYPE_i @ n2_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3035,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ contains_THFTYPE_IiioI @ lSpatialRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3036,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ path_THFTYPE_IiioI @ involvedInEvent_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3037,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ transactionAmount_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3038,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IiioI @ lAttaching_THFTYPE_i @ lPutting_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3039,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lRelativeTimeFn_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3040,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ representsForAgent_THFTYPE_IiiioI @ n1_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3041,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ arcWeight_THFTYPE_IiioI @ lSingleValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3042,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ subsumesContentClass_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3043,axiom,
% 2.18/2.41      domain_THFTYPE_IIoiioIiioI @ confersRight_THFTYPE_IoiioI @ n2_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3044,axiom,
% 2.18/2.41      instance_THFTYPE_IIoiioIioI @ confersRight_THFTYPE_IoiioI @ lTernaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3045,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiiioIIiiioIoI @ depth_THFTYPE_IiiioI @ distance_THFTYPE_IiiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3046,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lMinimalWeightedPathFn_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3047,axiom,
% 2.18/2.41      instance_THFTYPE_IIoooIioI @ causesProposition_THFTYPE_IoooI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3048,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ authors_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3049,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ parent_THFTYPE_IiioI @ lIntransitiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3050,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ attribute_THFTYPE_IiioI @ property_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3051,axiom,
% 2.18/2.41      domainSubclass_THFTYPE_IiiioI @ lDayFn_THFTYPE_i @ n2_THFTYPE_i @ lMonth_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3052,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ parent_THFTYPE_IiioI @ n1_THFTYPE_i @ lOrganism_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3053,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ causes_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3054,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ subCollection_THFTYPE_IiioI @ lPartialOrderingRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3055,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiiIioI @ lDivisionFn_THFTYPE_IiiiI @ lAssociativeFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3056,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiiiiioIioI @ disjointDecomposition_THFTYPE_IiiiiiioI @ lPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3057,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lMonthDuration_THFTYPE_i @ lUnitOfDuration_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3058,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ partiallyFills_THFTYPE_IiioI @ located_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3059,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lPropertyFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3060,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lCeilingFn_THFTYPE_IiiI @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3061,axiom,
% 2.18/2.41      instance_THFTYPE_IIIiioIioIioI @ irreflexiveOn_THFTYPE_IIiioIioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3062,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiIiioI @ lCenterOfCircleFn_THFTYPE_IiiI @ n1_THFTYPE_i @ lCircle_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3063,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiooIIiioIoI @ believes_THFTYPE_IiooI @ inScopeOfInterest_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3064,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ larger_THFTYPE_IiioI @ lSpatialRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3065,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ expressedInLanguage_THFTYPE_IiioI @ n2_THFTYPE_i @ lLanguage_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3066,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ connectsEngineeringComponents_THFTYPE_IiiioI @ n3_THFTYPE_i @ lEngineeringComponent_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3067,axiom,
% 2.18/2.41      disjointRelation_THFTYPE_IiioI @ synonymousExternalConcept_THFTYPE_i @ subsumedExternalConcept_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3068,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ relative_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3069,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lPermission_THFTYPE_i @ lDeonticAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3070,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lWatt_THFTYPE_i @ lSystemeInternationalUnit_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3071,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ sister_THFTYPE_i @ lTransitiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3072,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lAbstractionFn_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3073,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ exactlyLocated_THFTYPE_IiioI @ located_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3074,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ origin_THFTYPE_IiioI @ lCaseRole_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3075,axiom,
% 2.18/2.41      instance_THFTYPE_IIIiioIioIioI @ trichotomizingOn_THFTYPE_IIiioIioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3076,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiioIioI @ distance_THFTYPE_IiiioI @ lSingleValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3077,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiooIIiioIoI @ containsInformation_THFTYPE_IiooI @ represents_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3078,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lYearFn_THFTYPE_IiiI @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3079,axiom,
% 2.18/2.41      subrelation_THFTYPE_IiIiioIoI @ stays_THFTYPE_i @ inhabits_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3080,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lCenterOfCircleFn_THFTYPE_IiiI @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3081,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ connectedEngineeringComponents_THFTYPE_IiioI @ n2_THFTYPE_i @ lEngineeringComponent_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3082,axiom,
% 2.18/2.41      domain_THFTYPE_IIoooIiioI @ truth_THFTYPE_IoooI @ n2_THFTYPE_i @ lTruthValue_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3083,axiom,
% 2.18/2.41      domain_THFTYPE_IIIoiIioIiioI @ instance_THFTYPE_IIoiIioI @ n2_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3084,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiiIioI @ lMereologicalProductFn_THFTYPE_IiiiI @ lSpatialRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3085,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lTangentFn_THFTYPE_IiiI @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3086,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lLumen_THFTYPE_i @ lCompositeUnitOfMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3087,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ disjoint_THFTYPE_IiioI @ n1_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3088,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lSineFn_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3089,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lRealNumberFn_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3090,axiom,
% 2.18/2.41      instance_THFTYPE_IIoooIioI @ premise_THFTYPE_IoooI @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3091,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IIiioIIiioIoI @ equivalentContentInstance_THFTYPE_IiioI @ equivalentContentClass_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3092,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lPoundMass_THFTYPE_i @ lUnitOfMass_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3093,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ sibling_THFTYPE_IiioI @ lSymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3094,axiom,
% 2.18/2.41      instance_THFTYPE_IIIoioIIiioIoIioI @ subrelation_THFTYPE_IIoioIIiioIoI @ lPartialOrderingRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3095,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lBlue_THFTYPE_i @ lPrimaryColor_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3096,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ relatedEvent_THFTYPE_IiioI @ n2_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3097,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ frequency_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3098,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ equivalentContentInstance_THFTYPE_IiioI @ n2_THFTYPE_i @ lContentBearingObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3099,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lGraphPathFn_THFTYPE_i @ n2_THFTYPE_i @ lGraphNode_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3100,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lUnitFn_THFTYPE_i @ n1_THFTYPE_i @ lPhysicalQuantity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3101,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ manner_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3102,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ citizen_THFTYPE_i @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3103,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiooIIiioIoI @ desires_THFTYPE_IiooI @ inScopeOfInterest_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3104,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ wants_THFTYPE_IiioI @ inScopeOfInterest_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3105,axiom,
% 2.18/2.41      domain_THFTYPE_IIioioIiioI @ confersNorm_THFTYPE_IioioI @ n1_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3106,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ meetsTemporally_THFTYPE_IiioI @ n1_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3107,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ identicalListItems_THFTYPE_IiioI @ lEquivalenceRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3108,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ sister_THFTYPE_i @ n1_THFTYPE_i @ lWoman_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3109,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ ancestor_THFTYPE_IiioI @ lTransitiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3110,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ transactionAmount_THFTYPE_IiioI @ n1_THFTYPE_i @ lFinancialTransaction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3111,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ leader_THFTYPE_IiioI @ n1_THFTYPE_i @ lAgent_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3112,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ publishes_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3113,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiiIioI @ lListOrderFn_THFTYPE_IiiiI @ lPartialValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3114,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ subProcess_THFTYPE_IiioI @ lPartialOrderingRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3115,axiom,
% 2.18/2.41      instance_THFTYPE_IIiooIioI @ knows_THFTYPE_IiooI @ lPropositionalAttitude_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3116,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ smaller_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3117,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ element_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3118,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ temporallyBetweenOrEqual_THFTYPE_IiiioI @ n3_THFTYPE_i @ lTimePoint_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3119,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lHenry_THFTYPE_i @ lCompositeUnitOfMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3120,axiom,
% 2.18/2.41      domain_THFTYPE_IIIiioIioIiioI @ reflexiveOn_THFTYPE_IIiioIioI @ n2_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3121,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lInchMercury_THFTYPE_i @ lUnitOfAtmosphericPressure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3122,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ leader_THFTYPE_IiioI @ n2_THFTYPE_i @ lHuman_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3123,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ occupiesPosition_THFTYPE_IiiioI @ n1_THFTYPE_i @ lHuman_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3124,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lNanoFn_THFTYPE_IiiI @ lUnitOfMeasureMultiplier_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3125,axiom,
% 2.18/2.41      domain_THFTYPE_IIoooIiioI @ causesProposition_THFTYPE_IoooI @ n2_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3126,axiom,
% 2.18/2.41      domain_THFTYPE_IIiooIiioI @ knows_THFTYPE_IiooI @ n2_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3127,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ brother_THFTYPE_i @ n1_THFTYPE_i @ lMan_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3128,axiom,
% 2.18/2.41      domainSubclass_THFTYPE_IIiioIiioI @ inhibits_THFTYPE_IiioI @ n1_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3129,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lIntegerSquareRootFn_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3130,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lFrontFn_THFTYPE_i @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3131,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ home_THFTYPE_IiioI @ n2_THFTYPE_i @ lPermanentResidence_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3132,axiom,
% 2.18/2.41      instance_THFTYPE_IIiooIioI @ knows_THFTYPE_IiooI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3133,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ result_THFTYPE_IiioI @ n2_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3134,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ path_THFTYPE_IiioI @ n1_THFTYPE_i @ lMotion_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3135,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ part_THFTYPE_IiioI @ n1_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3136,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ pathLength_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3137,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lRelativeComplementFn_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3138,axiom,
% 2.18/2.41      instance_THFTYPE_IIIiioIIiioIoIioI @ inverse_THFTYPE_IIiioIIiioIoI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3139,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ direction_THFTYPE_IiioI @ involvedInEvent_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3140,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lYellow_THFTYPE_i @ lPrimaryColor_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3141,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IiioI @ lCreation_THFTYPE_i @ lDestruction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3142,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lVelocityFn_THFTYPE_i @ n3_THFTYPE_i @ lRegion_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3143,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lMole_THFTYPE_i @ lUnitOfMass_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3144,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiiIiioI @ lMeasureFn_THFTYPE_IiiiI @ n1_THFTYPE_i @ lRealNumber_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3145,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lWhereFn_THFTYPE_i @ n2_THFTYPE_i @ lTimePoint_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3146,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ husband_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3147,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ acquaintance_THFTYPE_i @ n1_THFTYPE_i @ lHuman_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3148,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ rangeSubclass_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3149,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ overlapsTemporally_THFTYPE_IiioI @ lTemporalRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3150,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ path_THFTYPE_IiioI @ lCaseRole_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3151,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lGray_THFTYPE_i @ lCompositeUnitOfMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3152,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ before_THFTYPE_IiioI @ lTemporalRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3153,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ average_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3154,axiom,
% 2.18/2.41      disjointRelation_THFTYPE_IIoooIIoooIoI @ decreasesLikelihood_THFTYPE_IoooI @ independentProbability_THFTYPE_IoooI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3155,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ identityElement_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3156,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ husband_THFTYPE_IiioI @ n1_THFTYPE_i @ lMan_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3157,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ equivalentContentInstance_THFTYPE_IiioI @ subsumesContentInstance_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3158,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ father_THFTYPE_IiioI @ parent_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3159,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lDensityFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3160,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ overlapsSpatially_THFTYPE_IiioI @ lReflexiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3161,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ inList_THFTYPE_IiioI @ n1_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3162,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ sister_THFTYPE_i @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3163,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lNullList_THFTYPE_i @ lList_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3164,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lImaginaryPartFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3165,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lFarad_THFTYPE_i @ lCompositeUnitOfMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3166,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ average_THFTYPE_IiioI @ lPartialValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3167,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ prevents_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3168,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lNumeratorFn_THFTYPE_i @ n1_THFTYPE_i @ lRealNumber_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3169,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ connectedEngineeringComponents_THFTYPE_IiioI @ n1_THFTYPE_i @ lEngineeringComponent_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3170,axiom,
% 2.18/2.41      instance_THFTYPE_IIiooIioI @ desires_THFTYPE_IiooI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3171,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ transactionAmount_THFTYPE_IiioI @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3172,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ inList_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3173,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lEndFn_THFTYPE_i @ lTemporalRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3174,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lineMeasure_THFTYPE_i @ n2_THFTYPE_i @ lLengthMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3175,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ subCollection_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3176,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ equal_THFTYPE_i @ lRelationExtendedToQuantities_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3177,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lLux_THFTYPE_i @ lCompositeUnitOfMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3178,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ attends_THFTYPE_IiioI @ experiencer_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3179,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ publishes_THFTYPE_IiioI @ n1_THFTYPE_i @ lOrganization_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3180,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ orientation_THFTYPE_IiiioI @ n2_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3181,axiom,
% 2.18/2.41      disjointRelation_THFTYPE_IIiioIIiioIoI @ result_THFTYPE_IiioI @ instrument_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3182,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lTesla_THFTYPE_i @ lSystemeInternationalUnit_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3183,axiom,
% 2.18/2.41      domain_THFTYPE_IIioioIiioI @ hasPurposeForAgent_THFTYPE_IioioI @ n3_THFTYPE_i @ lCognitiveAgent_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3184,axiom,
% 2.18/2.41      domainSubclass_THFTYPE_IIiioIiioI @ prevents_THFTYPE_IiioI @ n1_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3185,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lCentralTimeZone_THFTYPE_i @ lTimeZone_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3186,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IiioI @ lUnitedStatesGallon_THFTYPE_i @ lUnitedKingdomGallon_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3187,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lWhenFn_THFTYPE_i @ n1_THFTYPE_i @ lPhysical_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3188,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ initialList_THFTYPE_IiioI @ subList_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3189,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ crosses_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3190,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ refers_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3191,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lWatt_THFTYPE_i @ lCompositeUnitOfMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3192,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ graphPart_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3193,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ located_THFTYPE_IiioI @ lTransitiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3194,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lDry_THFTYPE_i @ lSaturationAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3195,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ editor_THFTYPE_i @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3196,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ subList_THFTYPE_IiioI @ n2_THFTYPE_i @ lList_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3197,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ meltingPoint_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3198,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lRed_THFTYPE_i @ lPrimaryColor_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3199,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IiioI @ lDay_THFTYPE_i @ lDayFn_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3200,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ initialList_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3201,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiIiioI @ lTangentFn_THFTYPE_IiiI @ n1_THFTYPE_i @ lPlaneAngleMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3202,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ manner_THFTYPE_IiioI @ n1_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3203,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ copy_THFTYPE_IiioI @ lEquivalenceRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3204,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiiIioI @ lMultiplicationFn_THFTYPE_IiiiI @ lCommutativeFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3205,axiom,
% 2.18/2.41      instance_THFTYPE_IIoooIioI @ conclusion_THFTYPE_IoooI @ lSingleValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3206,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ subSystem_THFTYPE_IiioI @ n1_THFTYPE_i @ lPhysicalSystem_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3207,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lReciprocalFn_THFTYPE_IiiI @ lRelationExtendedToQuantities_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3208,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ lessThan_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3209,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiiIiioI @ lDivisionFn_THFTYPE_IiiiI @ n1_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3210,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ immediateSubclass_THFTYPE_IiioI @ lIntransitiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3211,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lMaxFn_THFTYPE_i @ n2_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3212,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ pointOfIntersection_THFTYPE_IiiioI @ n3_THFTYPE_i @ lGeometricPoint_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3213,axiom,
% 2.18/2.41      domain_THFTYPE_IIoooIiioI @ increasesLikelihood_THFTYPE_IoooI @ n1_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3214,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lBelow_THFTYPE_i @ lAntiSymmetricPositionalAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3215,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ subPlan_THFTYPE_i @ lTransitiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3216,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IIoioIIoioIoI @ holdsObligation_THFTYPE_IoioI @ holdsRight_THFTYPE_IoioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3217,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ version_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3218,axiom,
% 2.18/2.41      domainSubclass_THFTYPE_IIiiiiiioIiioI @ exhaustiveAttribute_THFTYPE_IiiiiiioI @ n1_THFTYPE_i @ lAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3219,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lPropertyFn_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3220,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiiIioI @ lAdditionFn_THFTYPE_IiiiI @ lRelationExtendedToQuantities_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3221,axiom,
% 2.18/2.41      ! [X: $i] : ( instance_THFTYPE_IiioI @ X @ lRelation_THFTYPE_i ) ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3222,axiom,
% 2.18/2.41      ! [X: $i] : ( instance_THFTYPE_IiioI @ X @ lRelation_THFTYPE_i ) ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3223,axiom,
% 2.18/2.41      domainSubclass_THFTYPE_IIiioIiioI @ causesSubclass_THFTYPE_IiioI @ n1_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3224,axiom,
% 2.18/2.41      domainSubclass_THFTYPE_IIIioIIiioIioIiioI @ capability_THFTYPE_IIioIIiioIioI @ n1_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3225,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lMaxFn_THFTYPE_i @ lCommutativeFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3226,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ multiplicativeFactor_THFTYPE_IiioI @ n1_THFTYPE_i @ lInteger_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3227,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lOhm_THFTYPE_i @ lCompositeUnitOfMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3228,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lMole_THFTYPE_i @ lSystemeInternationalUnit_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3229,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiiIioI @ lSecondFn_THFTYPE_IiiiI @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3230,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ meetsTemporally_THFTYPE_IiioI @ lIntransitiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3231,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lInitialNodeFn_THFTYPE_IiiI @ lPartialValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3232,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ during_THFTYPE_IiioI @ temporalPart_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3233,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ spouse_THFTYPE_IiioI @ legalRelation_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3234,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ involvedInEvent_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3235,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ attends_THFTYPE_IiioI @ n1_THFTYPE_i @ lDemonstrating_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3236,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lMinFn_THFTYPE_i @ n1_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3237,axiom,
% 2.18/2.41      domainSubclass_THFTYPE_IIiiiIiioI @ lRecurrentTimeIntervalFn_THFTYPE_IiiiI @ n2_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3238,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ graphMeasure_THFTYPE_IiioI @ n1_THFTYPE_i @ lGraph_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3239,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ date_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3240,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIIoiIioIoI @ element_THFTYPE_IiioI @ instance_THFTYPE_IIoiIioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3241,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lSuccessorFn_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3242,axiom,
% 2.18/2.41      domain_THFTYPE_IIIoiIioIiioI @ instance_THFTYPE_IIoiIioI @ n1_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3243,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lPascal_THFTYPE_i @ lSystemeInternationalUnit_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3244,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ larger_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3245,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiioIioI @ geometricDistance_THFTYPE_IiiioI @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3246,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ pathLength_THFTYPE_IiioI @ n1_THFTYPE_i @ lGraphPath_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3247,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lPowerSetFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3248,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ partlyLocated_THFTYPE_IiioI @ lSpatialRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3249,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ subCollection_THFTYPE_IiioI @ n2_THFTYPE_i @ lCollection_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3250,axiom,
% 2.18/2.41      disjointRelation_THFTYPE_IIioioIIioioIoI @ deprivesNorm_THFTYPE_IioioI @ confersNorm_THFTYPE_IioioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3251,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lMereologicalSumFn_THFTYPE_i @ n2_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3252,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ crosses_THFTYPE_IiioI @ lTransitiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3253,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ subAttribute_THFTYPE_IiioI @ lPartialOrderingRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3254,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lEnglishLanguage_THFTYPE_i @ lNaturalLanguage_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3255,axiom,
% 2.18/2.41      instance_THFTYPE_IIIioIiIioI @ lCardinalityFn_THFTYPE_IIioIiI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3256,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ uses_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3257,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ familyRelation_THFTYPE_IiioI @ n1_THFTYPE_i @ lOrganism_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3258,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lGram_THFTYPE_i @ lUnitOfMass_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3259,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiioIioI @ temporallyBetweenOrEqual_THFTYPE_IiiioI @ lTemporalRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3260,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ acquaintance_THFTYPE_i @ n2_THFTYPE_i @ lHuman_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3261,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiiIiioI @ lSecondFn_THFTYPE_IiiiI @ n1_THFTYPE_i @ lPositiveRealNumber_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3262,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ needs_THFTYPE_IiioI @ n2_THFTYPE_i @ lPhysical_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3263,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ links_THFTYPE_IiiioI @ n3_THFTYPE_i @ lGraphArc_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3264,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IiIiiIoI @ lEndNodeFn_THFTYPE_i @ lTerminalNodeFn_THFTYPE_IiiI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3265,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ subclass_THFTYPE_IiioI @ n2_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3266,axiom,
% 2.18/2.41      instance_THFTYPE_IIIiioIioIioI @ reflexiveOn_THFTYPE_IIiioIioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3267,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ legalRelation_THFTYPE_IiioI @ n2_THFTYPE_i @ lHuman_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3268,axiom,
% 2.18/2.41      domainSubclass_THFTYPE_IiiioI @ lTemporalCompositionFn_THFTYPE_i @ n2_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3269,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ smaller_THFTYPE_IiioI @ lTransitiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3270,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lGreatestCommonDivisorFn_THFTYPE_i @ lPartialValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3271,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lPicoFn_THFTYPE_IiiI @ lUnitOfMeasureMultiplier_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3272,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lHorsepower_THFTYPE_i @ lCompositeUnitOfMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3273,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ contains_THFTYPE_IiioI @ n1_THFTYPE_i @ lSelfConnectedObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3274,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ finishes_THFTYPE_IiioI @ lTemporalRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3275,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ date_THFTYPE_IiioI @ n2_THFTYPE_i @ lDay_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3276,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lInitialNodeFn_THFTYPE_IiiI @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3277,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lNumeratorFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3278,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ subOrganization_THFTYPE_IiioI @ n2_THFTYPE_i @ lOrganization_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3279,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lNumberE_THFTYPE_i @ lPositiveRealNumber_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3280,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiioIioI @ representsForAgent_THFTYPE_IiiioI @ lTernaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3281,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiioIioI @ geometricDistance_THFTYPE_IiiioI @ lTernaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3282,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ brother_THFTYPE_i @ lTransitiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3283,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiIiioI @ lImmediateFamilyFn_THFTYPE_IiiI @ n1_THFTYPE_i @ lHuman_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3284,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ father_THFTYPE_IiioI @ n2_THFTYPE_i @ lOrganism_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3285,axiom,
% 2.18/2.41      domain_THFTYPE_IIiooIiioI @ knows_THFTYPE_IiooI @ n1_THFTYPE_i @ lCognitiveAgent_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3286,axiom,
% 2.18/2.41      instance_THFTYPE_IIoooIioI @ premise_THFTYPE_IoooI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3287,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ connected_THFTYPE_IiioI @ n1_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3288,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ connectsEngineeringComponents_THFTYPE_IiiioI @ n1_THFTYPE_i @ lEngineeringConnection_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3289,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ time_THFTYPE_IiioI @ n2_THFTYPE_i @ lTimePosition_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3290,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ subPlan_THFTYPE_i @ n1_THFTYPE_i @ lPlan_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3291,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ subsumesContentInstance_THFTYPE_IiioI @ n2_THFTYPE_i @ lContentBearingObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3292,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lHourDuration_THFTYPE_i @ lUnitOfDuration_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3293,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ ancestor_THFTYPE_IiioI @ n1_THFTYPE_i @ lOrganism_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3294,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lHenry_THFTYPE_i @ lSystemeInternationalUnit_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3295,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lAbstractionFn_THFTYPE_i @ n1_THFTYPE_i @ lClass_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3296,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ agent_THFTYPE_IiioI @ lCaseRole_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3297,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ manner_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3298,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lMicroFn_THFTYPE_i @ n1_THFTYPE_i @ lUnitOfMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3299,axiom,
% 2.18/2.41      instance_THFTYPE_IIoooIioI @ subProposition_THFTYPE_IoooI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3300,axiom,
% 2.18/2.41      instance_THFTYPE_IIoooIioI @ independentProbability_THFTYPE_IoooI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3301,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ atomicNumber_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3302,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ beforeOrEqual_THFTYPE_IiioI @ lTemporalRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3303,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lLiving_THFTYPE_i @ lAnimacyAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3304,axiom,
% 2.18/2.41      instance_THFTYPE_IIIioIioIioI @ valence_THFTYPE_IIioIioI @ lSingleValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3305,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ mutualAcquaintance_THFTYPE_i @ n1_THFTYPE_i @ lHuman_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3306,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lWet_THFTYPE_i @ lSaturationAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3307,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ measure_THFTYPE_IiioI @ n2_THFTYPE_i @ lPhysicalQuantity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3308,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ disjoint_THFTYPE_IiioI @ n2_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3309,axiom,
% 2.18/2.41      domain_THFTYPE_IIIIioIIiioIioIiioIiioI @ domainSubclass_THFTYPE_IIIioIIiioIioIiioI @ n2_THFTYPE_i @ lPositiveInteger_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3310,axiom,
% 2.18/2.41      domain_THFTYPE_IIIiioIIiioIoIiioI @ disjointRelation_THFTYPE_IIiioIIiioIoI @ n1_THFTYPE_i @ lRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3311,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ beforeOrEqual_THFTYPE_IiioI @ n1_THFTYPE_i @ lTimePoint_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3312,axiom,
% 2.18/2.41      domain_THFTYPE_IIIoioIIiioIoIiioI @ subrelation_THFTYPE_IIoioIIiioIoI @ n2_THFTYPE_i @ lRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3313,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ direction_THFTYPE_IiioI @ lCaseRole_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3314,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lFloorFn_THFTYPE_IiiI @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3315,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ developmentalForm_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3316,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ diameter_THFTYPE_IiioI @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3317,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lMonochromatic_THFTYPE_i @ lColorAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3318,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ distributes_THFTYPE_IiioI @ n1_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3319,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ frequency_THFTYPE_IiioI @ n2_THFTYPE_i @ lTimeDuration_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3320,axiom,
% 2.18/2.41      domain_THFTYPE_IIIiioIioIiioI @ irreflexiveOn_THFTYPE_IIiioIioI @ n2_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3321,axiom,
% 2.18/2.41      domainSubclass_THFTYPE_IiiioI @ lGeneralizedUnionFn_THFTYPE_i @ n1_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3322,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ experiencer_THFTYPE_IiioI @ n1_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3323,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ between_THFTYPE_IiiioI @ n3_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3324,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ domain_THFTYPE_IiiioI @ n1_THFTYPE_i @ lRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3325,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ greaterThan_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3326,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ stays_THFTYPE_i @ n2_THFTYPE_i @ lTemporaryResidence_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3327,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiiIiioI @ lMereologicalProductFn_THFTYPE_IiiiI @ n2_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3328,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lCenterOfCircleFn_THFTYPE_IiiI @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3329,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ connected_THFTYPE_IiioI @ n2_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3330,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lWhereFn_THFTYPE_i @ n1_THFTYPE_i @ lPhysical_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3331,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lHourFn_THFTYPE_i @ lTemporalRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3332,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lMillimeter_THFTYPE_i @ lUnitOfLength_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3333,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lineMeasure_THFTYPE_i @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3334,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lPoundForce_THFTYPE_i @ lCompositeUnitOfMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3335,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lTemporalCompositionFn_THFTYPE_i @ lTemporalRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3336,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lSteradian_THFTYPE_i @ lUnitOfAngularMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3337,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ overlapsPartially_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3338,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ ancestor_THFTYPE_IiioI @ familyRelation_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3339,axiom,
% 2.18/2.41      domain_THFTYPE_IIoooIiioI @ conclusion_THFTYPE_IoooI @ n2_THFTYPE_i @ lProposition_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3340,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ hasSkill_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3341,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lComplementFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3342,axiom,
% 2.18/2.41      instance_THFTYPE_IIIiioIioIioI @ partialOrderingOn_THFTYPE_IIiioIioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3343,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lAngularDegree_THFTYPE_i @ lUnitOfAngularMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3344,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lPerFn_THFTYPE_i @ n1_THFTYPE_i @ lPhysicalQuantity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3345,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ subOrganization_THFTYPE_IiioI @ subCollection_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3346,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ bottom_THFTYPE_IiioI @ superficialPart_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3347,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lDamp_THFTYPE_i @ lSaturationAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3348,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lTesla_THFTYPE_i @ lCompositeUnitOfMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3349,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ subList_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3350,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ age_THFTYPE_IiioI @ measure_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3351,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IiIiiIoI @ lYear_THFTYPE_i @ lYearFn_THFTYPE_IiiI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3352,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lPascal_THFTYPE_i @ lCompositeUnitOfMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3353,axiom,
% 2.18/2.41      subrelation_THFTYPE_IiIiioIoI @ sister_THFTYPE_i @ sibling_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3354,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ meetsSpatially_THFTYPE_IiioI @ lSymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3355,axiom,
% 2.18/2.41      subrelation_THFTYPE_IiIiioIoI @ geographicSubregion_THFTYPE_i @ properPart_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3356,axiom,
% 2.18/2.41      domain_THFTYPE_IIoioIiioI @ modalAttribute_THFTYPE_IoioI @ n2_THFTYPE_i @ lNormativeAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3357,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiooIIiioIoI @ realization_THFTYPE_IiooI @ represents_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3358,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lYearDuration_THFTYPE_i @ lUnitOfDuration_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3359,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IiioI @ lWhereFn_THFTYPE_i @ lWhenFn_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3360,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ subGraph_THFTYPE_IiioI @ n2_THFTYPE_i @ lGraph_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3361,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ finishes_THFTYPE_IiioI @ lTransitiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3362,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lIntersectionFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3363,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ domain_THFTYPE_IiiioI @ n2_THFTYPE_i @ lPositiveInteger_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3364,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lAsleep_THFTYPE_i @ lConsciousnessAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3365,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ boilingPoint_THFTYPE_IiioI @ n2_THFTYPE_i @ lTemperatureMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3366,axiom,
% 2.18/2.41      domain_THFTYPE_IIIIioIIiioIioIiioIiioI @ domainSubclass_THFTYPE_IIIioIIiioIioIiioI @ n1_THFTYPE_i @ lRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3367,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ geographicSubregion_THFTYPE_i @ n1_THFTYPE_i @ lGeographicArea_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3368,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lEndNodeFn_THFTYPE_i @ n1_THFTYPE_i @ lGraphPath_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3369,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ subAttribute_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3370,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lDayFn_THFTYPE_i @ n1_THFTYPE_i @ lPositiveInteger_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3371,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lEndFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3372,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lSpeedFn_THFTYPE_i @ n1_THFTYPE_i @ lLengthMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3373,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lMaxFn_THFTYPE_i @ lRelationExtendedToQuantities_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3374,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ age_THFTYPE_IiioI @ n2_THFTYPE_i @ lTimeDuration_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3375,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ graphPart_THFTYPE_IiioI @ n2_THFTYPE_i @ lGraph_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3376,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ stays_THFTYPE_i @ n1_THFTYPE_i @ lHuman_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3377,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lImaginaryPartFn_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3378,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ starts_THFTYPE_IiioI @ n1_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3379,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ penetrates_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3380,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ geometricDistance_THFTYPE_IiiioI @ n1_THFTYPE_i @ lGeometricPoint_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3381,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lWhenFn_THFTYPE_i @ lTemporalRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3382,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lQuart_THFTYPE_i @ lUnitOfVolume_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3383,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ connected_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3384,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ greaterThanOrEqualTo_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3385,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lBeginNodeFn_THFTYPE_i @ n1_THFTYPE_i @ lGraphPath_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3386,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ element_THFTYPE_IiioI @ n2_THFTYPE_i @ lSet_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3387,axiom,
% 2.18/2.41      disjointRelation_THFTYPE_IIiioIIiioIoI @ resource_THFTYPE_IiioI @ instrument_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3388,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ radius_THFTYPE_IiioI @ n2_THFTYPE_i @ lLengthMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3389,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiIiioI @ lTerminalNodeFn_THFTYPE_IiiI @ n1_THFTYPE_i @ lGraphArc_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3390,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ partlyLocated_THFTYPE_IiioI @ n2_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3391,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ lessThanOrEqualTo_THFTYPE_IiioI @ lRelationExtendedToQuantities_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3392,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ cooccur_THFTYPE_IiioI @ lTemporalRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3393,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ side_THFTYPE_IiioI @ n1_THFTYPE_i @ lSelfConnectedObject_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3394,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ exploits_THFTYPE_IiioI @ n2_THFTYPE_i @ lAgent_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3395,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiioIIiioIoI @ piece_THFTYPE_IiioI @ part_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3396,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ editor_THFTYPE_i @ n1_THFTYPE_i @ lAgent_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3397,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiiiiioIiioI @ disjointDecomposition_THFTYPE_IiiiiiioI @ n1_THFTYPE_i @ lClass_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3398,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lMegaByte_THFTYPE_i @ lUnitOfInformation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3399,axiom,
% 2.18/2.41      domain_THFTYPE_IIIiioIioIiioI @ totalOrderingOn_THFTYPE_IIiioIioI @ n2_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3400,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiiIioI @ lExponentiationFn_THFTYPE_IiiiI @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3401,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiiiiioIioI @ exhaustiveAttribute_THFTYPE_IiiiiiioI @ lVariableArityRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3402,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lGas_THFTYPE_i @ lPhysicalState_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3403,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lEuroCent_THFTYPE_i @ lUnitOfCurrency_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3404,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IIiioIioI @ fills_THFTYPE_IiioI @ lFillable_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3405,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lWhenFn_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3406,axiom,
% 2.18/2.41      instance_THFTYPE_IIoioIioI @ modalAttribute_THFTYPE_IoioI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3407,axiom,
% 2.18/2.41      subrelation_THFTYPE_IIiooIIiioIoI @ considers_THFTYPE_IiooI @ inScopeOfInterest_THFTYPE_IiioI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3408,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ exhaustiveDecomposition_THFTYPE_IiioI @ lVariableArityRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3409,axiom,
% 2.18/2.41      instance_THFTYPE_IIIioIiIioI @ lCardinalityFn_THFTYPE_IIioIiI @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3410,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiIioI @ lTerminalNodeFn_THFTYPE_IiiI @ lPartialValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3411,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ closedOn_THFTYPE_IiioI @ n1_THFTYPE_i @ lFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3412,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lFrontFn_THFTYPE_i @ lPartialValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3413,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IiioI @ lBuying_THFTYPE_i @ lSelling_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3414,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ angularMeasure_THFTYPE_i @ n2_THFTYPE_i @ lPlaneAngleMeasure_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3415,axiom,
% 2.18/2.41      domain_THFTYPE_IiiioI @ lDenominatorFn_THFTYPE_i @ n1_THFTYPE_i @ lRealNumber_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3416,axiom,
% 2.18/2.41      domain_THFTYPE_IIoiioIiioI @ confersRight_THFTYPE_IoiioI @ n1_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3417,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ overlapsTemporally_THFTYPE_IiioI @ n2_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3418,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiioIiioI @ greaterThanByQuality_THFTYPE_IiiioI @ n3_THFTYPE_i @ lAttribute_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3419,axiom,
% 2.18/2.41      instance_THFTYPE_IIooIioI @ lPremisesFn_THFTYPE_IooI @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3420,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lUnemployed_THFTYPE_i @ lSocialRole_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3421,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lNegativeInfinity_THFTYPE_i @ lTimePoint_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3422,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lCoulomb_THFTYPE_i @ lSystemeInternationalUnit_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3423,axiom,
% 2.18/2.41      domain_THFTYPE_IIIiioIIiioIoIiioI @ inverse_THFTYPE_IIiioIIiioIoI @ n2_THFTYPE_i @ lBinaryRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3424,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ date_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3425,axiom,
% 2.18/2.41      relatedInternalConcept_THFTYPE_IiIiiIoI @ lBeginNodeFn_THFTYPE_i @ lInitialNodeFn_THFTYPE_IiiI ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3426,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiiIiioI @ lDivisionFn_THFTYPE_IiiiI @ n2_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3427,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lSpeedFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3428,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ lBeginFn_THFTYPE_i @ lTemporalRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3429,axiom,
% 2.18/2.41      instance_THFTYPE_IIIiioIioIioI @ equivalenceRelationOn_THFTYPE_IIiioIioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3430,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ lessThan_THFTYPE_IiioI @ n1_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3431,axiom,
% 2.18/2.41      instance_THFTYPE_IoioI @ $true @ lTruthValue_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3432,axiom,
% 2.18/2.41      instance_THFTYPE_IiioI @ uniqueIdentifier_THFTYPE_i @ lSingleValuedRelation_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3433,axiom,
% 2.18/2.41      domain_THFTYPE_IIiiIiioI @ lYearFn_THFTYPE_IiiI @ n1_THFTYPE_i @ lInteger_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3434,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ wears_THFTYPE_IiioI @ n2_THFTYPE_i @ lClothing_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3435,axiom,
% 2.18/2.41      instance_THFTYPE_IIIioioIiioIioI @ domain_THFTYPE_IIioioIiioI @ lTernaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3436,axiom,
% 2.18/2.41      instance_THFTYPE_IIiioIioI @ developmentalForm_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3437,axiom,
% 2.18/2.41      domain_THFTYPE_IIiioIiioI @ overlapsTemporally_THFTYPE_IiioI @ n1_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.18/2.41  
% 2.18/2.41  thf(ax3438,axiom,
% 2.18/2.41      instance_THFTYPE_IIiiioIioI @ temporallyBetween_THFTYPE_IiiioI @ lTemporalRelation_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3439,axiom,
% 2.18/2.42      instance_THFTYPE_IiioI @ lSlug_THFTYPE_i @ lUnitOfMass_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3440,axiom,
% 2.18/2.42      domain_THFTYPE_IIiioIiioI @ faces_THFTYPE_IiioI @ n2_THFTYPE_i @ lDirectionalAttribute_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3441,axiom,
% 2.18/2.42      instance_THFTYPE_IIoioIioI @ holdsRight_THFTYPE_IoioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3442,axiom,
% 2.18/2.42      domain_THFTYPE_IiiioI @ relatedExternalConcept_THFTYPE_i @ n3_THFTYPE_i @ lLanguage_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3443,axiom,
% 2.18/2.42      relatedInternalConcept_THFTYPE_IIiioIIiooIoI @ time_THFTYPE_IiioI @ holdsDuring_THFTYPE_IiooI ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3444,axiom,
% 2.18/2.42      instance_THFTYPE_IIiioIioI @ leader_THFTYPE_IiioI @ lSingleValuedRelation_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3445,axiom,
% 2.18/2.42      instance_THFTYPE_IiioI @ acquaintance_THFTYPE_i @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3446,axiom,
% 2.18/2.42      instance_THFTYPE_IIIiioIIiioIoIioI @ disjointRelation_THFTYPE_IIiioIIiioIoI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3447,axiom,
% 2.18/2.42      domain_THFTYPE_IIiiiIiioI @ lUnionFn_THFTYPE_IiiiI @ n2_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3448,axiom,
% 2.18/2.42      instance_THFTYPE_IiioI @ lPastFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3449,axiom,
% 2.18/2.42      domain_THFTYPE_IIiioIiioI @ parent_THFTYPE_IiioI @ n2_THFTYPE_i @ lOrganism_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3450,axiom,
% 2.18/2.42      domain_THFTYPE_IiiioI @ lGraphPathFn_THFTYPE_i @ n1_THFTYPE_i @ lGraphNode_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3451,axiom,
% 2.18/2.42      instance_THFTYPE_IIiioIioI @ successorAttributeClosure_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3452,axiom,
% 2.18/2.42      subrelation_THFTYPE_IIiioIIiioIoI @ origin_THFTYPE_IiioI @ involvedInEvent_THFTYPE_IiioI ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3453,axiom,
% 2.18/2.42      instance_THFTYPE_IiioI @ lRough_THFTYPE_i @ lTextureAttribute_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3454,axiom,
% 2.18/2.42      instance_THFTYPE_IiioI @ lMale_THFTYPE_i @ lSexAttribute_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3455,axiom,
% 2.18/2.42      instance_THFTYPE_IIIiioIioIioI @ equivalenceRelationOn_THFTYPE_IIiioIioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3456,axiom,
% 2.18/2.42      domain_THFTYPE_IIiiioIiioI @ temporallyBetweenOrEqual_THFTYPE_IiiioI @ n2_THFTYPE_i @ lTimePoint_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3457,axiom,
% 2.18/2.42      instance_THFTYPE_IiioI @ lMinFn_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3458,axiom,
% 2.18/2.42      instance_THFTYPE_IIiioIioI @ element_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3459,axiom,
% 2.18/2.42      subrelation_THFTYPE_IIiioIIiioIoI @ fills_THFTYPE_IiioI @ completelyFills_THFTYPE_IiioI ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3460,axiom,
% 2.18/2.42      instance_THFTYPE_IIIiioIioIioI @ irreflexiveOn_THFTYPE_IIiioIioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3461,axiom,
% 2.18/2.42      instance_THFTYPE_IIiioIioI @ sibling_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3462,axiom,
% 2.18/2.42      instance_THFTYPE_IiioI @ lAwake_THFTYPE_i @ lConsciousnessAttribute_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3463,axiom,
% 2.18/2.42      instance_THFTYPE_IIiioIioI @ geopoliticalSubdivision_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3464,axiom,
% 2.18/2.42      instance_THFTYPE_IIiioIioI @ needs_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3465,axiom,
% 2.18/2.42      domain_THFTYPE_IiiioI @ lMinimalWeightedPathFn_THFTYPE_i @ n2_THFTYPE_i @ lGraphNode_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3466,axiom,
% 2.18/2.42      subrelation_THFTYPE_IIiioIIiioIoI @ side_THFTYPE_IiioI @ superficialPart_THFTYPE_IiioI ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3467,axiom,
% 2.18/2.42      domain_THFTYPE_IIiiioIiioI @ greaterThanByQuality_THFTYPE_IiiioI @ n2_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3468,axiom,
% 2.18/2.42      instance_THFTYPE_IiioI @ lPint_THFTYPE_i @ lUnitOfVolume_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3469,axiom,
% 2.18/2.42      instance_THFTYPE_IIiooIioI @ holdsDuring_THFTYPE_IiooI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3470,axiom,
% 2.18/2.42      instance_THFTYPE_IiioI @ lOhm_THFTYPE_i @ lSystemeInternationalUnit_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3471,axiom,
% 2.18/2.42      domain_THFTYPE_IIoioIiioI @ modalAttribute_THFTYPE_IoioI @ n1_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3472,axiom,
% 2.18/2.42      instance_THFTYPE_IIiioIioI @ possesses_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3473,axiom,
% 2.18/2.42      instance_THFTYPE_IiioI @ lProhibition_THFTYPE_i @ lDeonticAttribute_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3474,axiom,
% 2.18/2.42      instance_THFTYPE_IIiioIioI @ diameter_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3475,axiom,
% 2.18/2.42      instance_THFTYPE_IIoioIioI @ modalAttribute_THFTYPE_IoioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3476,axiom,
% 2.18/2.42      domain_THFTYPE_IIiioIiioI @ partiallyFills_THFTYPE_IiioI @ n2_THFTYPE_i @ lHole_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3477,axiom,
% 2.18/2.42      domain_THFTYPE_IiiioI @ lListConcatenateFn_THFTYPE_i @ n2_THFTYPE_i @ lList_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3478,axiom,
% 2.18/2.42      domain_THFTYPE_IIiioIiioI @ relative_THFTYPE_IiioI @ n2_THFTYPE_i @ lOrganism_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3479,axiom,
% 2.18/2.42      domain_THFTYPE_IiiioI @ weight_THFTYPE_i @ n1_THFTYPE_i @ lSelfConnectedObject_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3480,axiom,
% 2.18/2.42      domain_THFTYPE_IIIIioIIiioIioIiioIiioI @ domainSubclass_THFTYPE_IIIioIIiioIioIiioI @ n3_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3481,axiom,
% 2.18/2.42      domain_THFTYPE_IIiioIiioI @ radius_THFTYPE_IiioI @ n1_THFTYPE_i @ lCircle_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3482,axiom,
% 2.18/2.42      domain_THFTYPE_IIiiioIiioI @ temporallyBetweenOrEqual_THFTYPE_IiiioI @ n1_THFTYPE_i @ lTimePoint_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3483,axiom,
% 2.18/2.42      domain_THFTYPE_IIiiIiioI @ lMinimalCutSetFn_THFTYPE_IiiI @ n1_THFTYPE_i @ lGraph_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3484,axiom,
% 2.18/2.42      instance_THFTYPE_IIoiIioI @ lProbabilityFn_THFTYPE_IoiI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3485,axiom,
% 2.18/2.42      instance_THFTYPE_IIiioIioI @ average_THFTYPE_IiioI @ lSingleValuedRelation_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3486,axiom,
% 2.18/2.42      instance_THFTYPE_IIiioIioI @ overlapsTemporally_THFTYPE_IiioI @ lReflexiveRelation_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3487,axiom,
% 2.18/2.42      instance_THFTYPE_IIiiiIioI @ lRecurrentTimeIntervalFn_THFTYPE_IiiiI @ lTemporalRelation_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3488,axiom,
% 2.18/2.42      instance_THFTYPE_IiioI @ lDenominatorFn_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3489,axiom,
% 2.18/2.42      domain_THFTYPE_IiiioI @ subPlan_THFTYPE_i @ n2_THFTYPE_i @ lPlan_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3490,axiom,
% 2.18/2.42      domain_THFTYPE_IiiioI @ lKappaFn_THFTYPE_i @ n1_THFTYPE_i @ lSymbolicString_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3491,axiom,
% 2.18/2.42      instance_THFTYPE_IiioI @ lWeber_THFTYPE_i @ lCompositeUnitOfMeasure_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3492,axiom,
% 2.18/2.42      domain_THFTYPE_IIiioIiioI @ son_THFTYPE_IiioI @ n2_THFTYPE_i @ lOrganism_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3493,axiom,
% 2.18/2.42      instance_THFTYPE_IIiioIioI @ partlyLocated_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3494,axiom,
% 2.18/2.42      subrelation_THFTYPE_IIiioIIiioIoI @ height_THFTYPE_IiioI @ linearExtent_THFTYPE_IiioI ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3495,axiom,
% 2.18/2.42      instance_THFTYPE_IIiioIioI @ time_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3496,axiom,
% 2.18/2.42      domain_THFTYPE_IiiioI @ equal_THFTYPE_i @ n2_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3497,axiom,
% 2.18/2.42      instance_THFTYPE_IiioI @ lMeter_THFTYPE_i @ lUnitOfLength_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3498,axiom,
% 2.18/2.42      domain_THFTYPE_IIoooIiioI @ truth_THFTYPE_IoooI @ n1_THFTYPE_i @ lSentence_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3499,axiom,
% 2.18/2.42      instance_THFTYPE_IIiioIioI @ experiencer_THFTYPE_IiioI @ lCaseRole_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3500,axiom,
% 2.18/2.42      instance_THFTYPE_IiioI @ lMaxFn_THFTYPE_i @ lAssociativeFunction_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3501,axiom,
% 2.18/2.42      instance_THFTYPE_IIiioIioI @ abstractCounterpart_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3502,axiom,
% 2.18/2.42      domain_THFTYPE_IIiiioIiioI @ between_THFTYPE_IiiioI @ n1_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3503,axiom,
% 2.18/2.42      domain_THFTYPE_IiiioI @ lMereologicalDifferenceFn_THFTYPE_i @ n1_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3504,axiom,
% 2.18/2.42      domain_THFTYPE_IIoiioIiioI @ confersObligation_THFTYPE_IoiioI @ n2_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3505,axiom,
% 2.18/2.42      domain_THFTYPE_IIiiiIiioI @ lExponentiationFn_THFTYPE_IiiiI @ n2_THFTYPE_i @ lInteger_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3506,axiom,
% 2.18/2.42      subrelation_THFTYPE_IIiioIIiioIoI @ engineeringSubcomponent_THFTYPE_IiioI @ properPart_THFTYPE_IiioI ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3507,axiom,
% 2.18/2.42      domain_THFTYPE_IIiiioIiioI @ pointOfIntersection_THFTYPE_IiiioI @ n1_THFTYPE_i @ lOneDimensionalFigure_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3508,axiom,
% 2.18/2.42      instance_THFTYPE_IIiioIioI @ before_THFTYPE_IiioI @ lTransitiveRelation_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3509,axiom,
% 2.18/2.42      domain_THFTYPE_IIoooIiioI @ premise_THFTYPE_IoooI @ n2_THFTYPE_i @ lProposition_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3510,axiom,
% 2.18/2.42      instance_THFTYPE_IiioI @ lEndNodeFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3511,axiom,
% 2.18/2.42      instance_THFTYPE_IiioI @ lUnilluminated_THFTYPE_i @ lVisualAttribute_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3512,axiom,
% 2.18/2.42      domain_THFTYPE_IIiiioIiioI @ temporallyBetween_THFTYPE_IiiioI @ n2_THFTYPE_i @ lTimePoint_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3513,axiom,
% 2.18/2.42      domain_THFTYPE_IiiioI @ lSuccessorFn_THFTYPE_i @ n1_THFTYPE_i @ lInteger_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3514,axiom,
% 2.18/2.42      subrelation_THFTYPE_IIiioIIiioIoI @ son_THFTYPE_IiioI @ parent_THFTYPE_IiioI ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3515,axiom,
% 2.18/2.42      domain_THFTYPE_IIiioIiioI @ beforeOrEqual_THFTYPE_IiioI @ n2_THFTYPE_i @ lTimePoint_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3516,axiom,
% 2.18/2.42      instance_THFTYPE_IIiioIioI @ graphPart_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3517,axiom,
% 2.18/2.42      instance_THFTYPE_IiioI @ lNecessity_THFTYPE_i @ lAlethicAttribute_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3518,axiom,
% 2.18/2.42      instance_THFTYPE_IiioI @ lKappaFn_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3519,axiom,
% 2.18/2.42      instance_THFTYPE_IiioI @ lMeter_THFTYPE_i @ lSystemeInternationalUnit_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3520,axiom,
% 2.18/2.42      domain_THFTYPE_IIiioIiioI @ barometricPressure_THFTYPE_IiioI @ n1_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3521,axiom,
% 2.18/2.42      domain_THFTYPE_IIiooIiioI @ considers_THFTYPE_IiooI @ n1_THFTYPE_i @ lCognitiveAgent_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3522,axiom,
% 2.18/2.42      instance_THFTYPE_IiioI @ lMereologicalSumFn_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3523,axiom,
% 2.18/2.42      instance_THFTYPE_IIIoioIIiioIoIioI @ subrelation_THFTYPE_IIoioIIiioIoI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3524,axiom,
% 2.18/2.42      instance_THFTYPE_IiioI @ lMinFn_THFTYPE_i @ lCommutativeFunction_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3525,axiom,
% 2.18/2.42      subrelation_THFTYPE_IIiioIIiioIoI @ overlapsPartially_THFTYPE_IiioI @ overlapsSpatially_THFTYPE_IiioI ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3526,axiom,
% 2.18/2.42      instance_THFTYPE_IIIioIioIioI @ valence_THFTYPE_IIioIioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3527,axiom,
% 2.18/2.42      domain_THFTYPE_IIiiiioIiioI @ partition_THFTYPE_IiiiioI @ n1_THFTYPE_i @ lClass_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3528,axiom,
% 2.18/2.42      subrelation_THFTYPE_IIiioIIiioIoI @ destination_THFTYPE_IiioI @ involvedInEvent_THFTYPE_IiioI ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3529,axiom,
% 2.18/2.42      domainSubclass_THFTYPE_IIiioIiioI @ hasSkill_THFTYPE_IiioI @ n1_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3530,axiom,
% 2.18/2.42      instance_THFTYPE_IiioI @ lNorth_THFTYPE_i @ lDirectionalAttribute_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3531,axiom,
% 2.18/2.42      domain_THFTYPE_IIIiioIioIiioI @ irreflexiveOn_THFTYPE_IIiioIioI @ n1_THFTYPE_i @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3532,axiom,
% 2.18/2.42      domain_THFTYPE_IIioooIiioI @ prefers_THFTYPE_IioooI @ n3_THFTYPE_i @ lFormula_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3533,axiom,
% 2.18/2.42      domain_THFTYPE_IiiioI @ lImaginaryPartFn_THFTYPE_i @ n1_THFTYPE_i @ lComplexNumber_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3534,axiom,
% 2.18/2.42      domain_THFTYPE_IIiioIiioI @ during_THFTYPE_IiioI @ n2_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3535,axiom,
% 2.18/2.42      instance_THFTYPE_IIiioIioI @ age_THFTYPE_IiioI @ lSingleValuedRelation_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3536,axiom,
% 2.18/2.42      instance_THFTYPE_IIiioIioI @ geopoliticalSubdivision_THFTYPE_IiioI @ lTransitiveRelation_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3537,axiom,
% 2.18/2.42      instance_THFTYPE_IIiiIioI @ lFutureFn_THFTYPE_IiiI @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3538,axiom,
% 2.18/2.42      domainSubclass_THFTYPE_IiiioI @ lHourFn_THFTYPE_i @ n2_THFTYPE_i @ lDay_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3539,axiom,
% 2.18/2.42      domain_THFTYPE_IIiioIiioI @ top_THFTYPE_IiioI @ n2_THFTYPE_i @ lSelfConnectedObject_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3540,axiom,
% 2.18/2.42      subrelation_THFTYPE_IIiioIIiooIoI @ resource_THFTYPE_IiioI @ patient_THFTYPE_IiooI ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3541,axiom,
% 2.18/2.42      instance_THFTYPE_IIIioIiIioI @ lCardinalityFn_THFTYPE_IIioIiI @ lTotalValuedRelation_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3542,axiom,
% 2.18/2.42      domain_THFTYPE_IIiioIiioI @ copy_THFTYPE_IiioI @ n2_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3543,axiom,
% 2.18/2.42      instance_THFTYPE_IIoooIioI @ consistent_THFTYPE_IoooI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3544,axiom,
% 2.18/2.42      domain_THFTYPE_IiiioI @ relatedExternalConcept_THFTYPE_i @ n2_THFTYPE_i @ lEntity_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3545,axiom,
% 2.18/2.42      domain_THFTYPE_IIiioIiioI @ inList_THFTYPE_IiioI @ n2_THFTYPE_i @ lList_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3546,axiom,
% 2.18/2.42      domainSubclass_THFTYPE_IIiioIiioI @ equivalentContentClass_THFTYPE_IiioI @ n2_THFTYPE_i @ lContentBearingObject_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3547,axiom,
% 2.18/2.42      domain_THFTYPE_IiiioI @ lRelativeComplementFn_THFTYPE_i @ n2_THFTYPE_i @ lSetOrClass_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3548,axiom,
% 2.18/2.42      instance_THFTYPE_IIiioIioI @ boilingPoint_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3549,axiom,
% 2.18/2.42      instance_THFTYPE_IiioI @ lMaxFn_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3550,axiom,
% 2.18/2.42      instance_THFTYPE_IIiioIioI @ wants_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3551,axiom,
% 2.18/2.42      domain_THFTYPE_IiiioI @ lSubtractionFn_THFTYPE_i @ n2_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3552,axiom,
% 2.18/2.42      domain_THFTYPE_IIiioIiioI @ copy_THFTYPE_IiioI @ n1_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3553,axiom,
% 2.18/2.42      instance_THFTYPE_IIiioIioI @ traverses_THFTYPE_IiioI @ lSpatialRelation_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3554,axiom,
% 2.18/2.42      domain_THFTYPE_IIiioIiioI @ successorAttribute_THFTYPE_IiioI @ n2_THFTYPE_i @ lAttribute_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3555,axiom,
% 2.18/2.42      domain_THFTYPE_IiiioI @ lSubtractionFn_THFTYPE_i @ n1_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3556,axiom,
% 2.18/2.42      domain_THFTYPE_IIiioIiioI @ father_THFTYPE_IiioI @ n1_THFTYPE_i @ lOrganism_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3557,axiom,
% 2.18/2.42      domain_THFTYPE_IIoiioIiioI @ confersRight_THFTYPE_IoiioI @ n3_THFTYPE_i @ lCognitiveAgent_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3558,axiom,
% 2.18/2.42      instance_THFTYPE_IIiiIioI @ lPathWeightFn_THFTYPE_IiiI @ lUnaryFunction_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3559,axiom,
% 2.18/2.42      instance_THFTYPE_IIIIioIIiioIioIiioIioI @ domainSubclass_THFTYPE_IIIioIIiioIioIiioI @ lTernaryPredicate_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3560,axiom,
% 2.18/2.42      domain_THFTYPE_IiiioI @ lHourFn_THFTYPE_i @ n1_THFTYPE_i @ lNonnegativeInteger_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3561,axiom,
% 2.18/2.42      instance_THFTYPE_IiioI @ lFillable_THFTYPE_i @ lShapeAttribute_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3562,axiom,
% 2.18/2.42      subrelation_THFTYPE_IIiioIIiioIoI @ diameter_THFTYPE_IiioI @ width_THFTYPE_IiioI ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3563,axiom,
% 2.18/2.42      instance_THFTYPE_IIiioIioI @ before_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3564,axiom,
% 2.18/2.42      domain_THFTYPE_IIiioIiioI @ direction_THFTYPE_IiioI @ n1_THFTYPE_i @ lProcess_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3565,axiom,
% 2.18/2.42      domain_THFTYPE_IIiioIiioI @ path_THFTYPE_IiioI @ n2_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3566,axiom,
% 2.18/2.42      instance_THFTYPE_IIiioIioI @ lessThan_THFTYPE_IiioI @ lTransitiveRelation_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3567,axiom,
% 2.18/2.42      instance_THFTYPE_IiioI @ lCelsiusDegree_THFTYPE_i @ lSystemeInternationalUnit_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3568,axiom,
% 2.18/2.42      domainSubclass_THFTYPE_IIiioIiioI @ material_THFTYPE_IiioI @ n1_THFTYPE_i @ lSubstance_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3569,axiom,
% 2.18/2.42      instance_THFTYPE_IIIiioIIiioIoIioI @ disjointRelation_THFTYPE_IIiioIIiioIoI @ lBinaryPredicate_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3570,axiom,
% 2.18/2.42      domain_THFTYPE_IiiioI @ externalImage_THFTYPE_i @ n2_THFTYPE_i @ lSymbolicString_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3571,axiom,
% 2.18/2.42      instance_THFTYPE_IIiioIioI @ lessThan_THFTYPE_IiioI @ lRelationExtendedToQuantities_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3572,axiom,
% 2.18/2.42      domain_THFTYPE_IIoiioIiioI @ confersObligation_THFTYPE_IoiioI @ n3_THFTYPE_i @ lCognitiveAgent_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3573,axiom,
% 2.18/2.42      domain_THFTYPE_IIiioIiioI @ attribute_THFTYPE_IiioI @ n1_THFTYPE_i @ lObject_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3574,axiom,
% 2.18/2.42      domain_THFTYPE_IIiioIiioI @ subGraph_THFTYPE_IiioI @ n1_THFTYPE_i @ lGraph_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3575,axiom,
% 2.18/2.42      subrelation_THFTYPE_IiioI @ lDensityFn_THFTYPE_i @ lPerFn_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3576,axiom,
% 2.18/2.42      instance_THFTYPE_IIiioIioI @ interiorPart_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 2.18/2.42  
% 2.18/2.42  thf(ax3577,axiom,
% 2.18/2.42      subrelation_THFTYPE_IIiioIIIooIioIoI @ immediateInstance_THFTYPE_IiioI @ instance_THFTYPE_IIooIioI ).
% 2.18/2.42  
% 2.18/2.42  %------------------------------------------------------------------------------
% 2.18/2.42  %------------------------------------------------------------------------------
% 2.18/2.42  %----The extracted Signature
% 2.18/2.42  thf(lBill_THFTYPE_i,type,
% 2.18/2.42      lBill_THFTYPE_i: $i ).
% 2.18/2.42  
% 2.18/2.42  thf(lMary_THFTYPE_i,type,
% 2.18/2.42      lMary_THFTYPE_i: $i ).
% 2.18/2.42  
% 2.18/2.42  thf(lSue_THFTYPE_i,type,
% 2.18/2.42      lSue_THFTYPE_i: $i ).
% 2.18/2.42  
% 2.18/2.42  thf(likes_THFTYPE_IiioI,type,
% 2.18/2.42      likes_THFTYPE_IiioI: $i > $i > $o ).
% 2.18/2.42  
% 2.18/2.42  thf(n2009_THFTYPE_i,type,
% 2.18/2.42      n2009_THFTYPE_i: $i ).
% 2.18/2.42  
% 2.18/2.42  %----The translated axioms
% 2.18/2.42  thf(ax,axiom,
% 2.18/2.42      ( holdsDuring_THFTYPE_IiooI @ ( lYearFn_THFTYPE_IiiI @ n2009_THFTYPE_i )
% 2.18/2.69      @ ( ( likes_THFTYPE_IiioI @ lMary_THFTYPE_i @ lBill_THFTYPE_i )
% 2.18/2.69        & ( likes_THFTYPE_IiioI @ lSue_THFTYPE_i @ lBill_THFTYPE_i ) ) ) ).
% 2.18/2.69  
% 2.18/2.69  %----The translated conjectures
% 2.18/2.69  thf(con,conjecture,
% 2.18/2.69      ( holdsDuring_THFTYPE_IiooI @ ( lYearFn_THFTYPE_IiiI @ n2009_THFTYPE_i )
% 2.18/2.69      @ ( ( likes_THFTYPE_IiioI @ lSue_THFTYPE_i @ lBill_THFTYPE_i )
% 2.18/2.69        & ( likes_THFTYPE_IiioI @ lMary_THFTYPE_i @ lBill_THFTYPE_i ) ) ) ).
% 2.18/2.69  
% 2.18/2.69  %------------------------------------------------------------------------------
% 2.18/2.69  ------- convert to smt2 : /export/starexec/sandbox/tmp/tmp.6cJFQS99rR/cvc5---1.0.5_19358.p...
% 2.18/2.69  (declare-sort $$unsorted 0)
% 2.18/2.69  (declare-sort tptp.num 0)
% 2.18/2.69  (declare-fun tptp.abstractCounterpart_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.acquaintance_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.age_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.agent_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.altitude_THFTYPE_IiiioI ($$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.ancestor_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.angleOfFigure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.angularMeasure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.arcWeight_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.atomicNumber_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.attends_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.attribute_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.authors_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.average_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.barometricPressure_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.beforeOrEqual_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.before_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.believes_THFTYPE_IiooI ($$unsorted Bool) Bool)
% 2.18/2.69  (declare-fun tptp.between_THFTYPE_IiiioI ($$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.boilingPoint_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.bottom_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.brother_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.capability_THFTYPE_IIioIIiioIioI ((-> $$unsorted Bool) (-> $$unsorted $$unsorted Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.capability_THFTYPE_IiIiioIioI ($$unsorted (-> $$unsorted $$unsorted Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.causesProposition_THFTYPE_IoooI (Bool Bool) Bool)
% 2.18/2.69  (declare-fun tptp.causesSubclass_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.causes_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.citizen_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.closedOn_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.color_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.completelyFills_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.component_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.conclusion_THFTYPE_IoooI (Bool Bool) Bool)
% 2.18/2.69  (declare-fun tptp.conditionalProbability_THFTYPE_IooioI (Bool Bool $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.confersNorm_THFTYPE_IioioI ($$unsorted Bool $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.confersObligation_THFTYPE_IoiioI (Bool $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.confersRight_THFTYPE_IoiioI (Bool $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.connectedEngineeringComponents_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.connected_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.connectsEngineeringComponents_THFTYPE_IiiioI ($$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.connects_THFTYPE_IiiioI ($$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.considers_THFTYPE_IiooI ($$unsorted Bool) Bool)
% 2.18/2.69  (declare-fun tptp.consistent_THFTYPE_IoooI (Bool Bool) Bool)
% 2.18/2.69  (declare-fun tptp.containsInformation_THFTYPE_IiooI ($$unsorted Bool) Bool)
% 2.18/2.69  (declare-fun tptp.contains_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.contraryAttribute_THFTYPE_IiiiioI ($$unsorted $$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.contraryAttribute_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.contraryAttribute_THFTYPE_IioI ($$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.contraryAttribute_THFTYPE_IoooI (Bool Bool) Bool)
% 2.18/2.69  (declare-fun tptp.cooccur_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.copy_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.crosses_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.date_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.daughter_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.decreasesLikelihood_THFTYPE_IoooI (Bool Bool) Bool)
% 2.18/2.69  (declare-fun tptp.deprivesNorm_THFTYPE_IioioI ($$unsorted Bool $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.depth_THFTYPE_IiiioI ($$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.desires_THFTYPE_IiooI ($$unsorted Bool) Bool)
% 2.18/2.69  (declare-fun tptp.destination_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.developmentalForm_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.diameter_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.direction_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.disjointDecomposition_THFTYPE_IiiiiiioI ($$unsorted $$unsorted $$unsorted $$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.disjointDecomposition_THFTYPE_IiiiiioI ($$unsorted $$unsorted $$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.disjointDecomposition_THFTYPE_IiiiioI ($$unsorted $$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.disjointDecomposition_THFTYPE_IiiioI ($$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.disjointDecomposition_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.disjointDecomposition_THFTYPE_IioI ($$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.disjointRelation_THFTYPE_IIiioIIiioIoI ((-> $$unsorted $$unsorted Bool) (-> $$unsorted $$unsorted Bool)) Bool)
% 2.18/2.69  (declare-fun tptp.disjointRelation_THFTYPE_IIioIIioIoI ((-> $$unsorted Bool) (-> $$unsorted Bool)) Bool)
% 2.18/2.69  (declare-fun tptp.disjointRelation_THFTYPE_IIioioIIioioIoI ((-> $$unsorted Bool $$unsorted Bool) (-> $$unsorted Bool $$unsorted Bool)) Bool)
% 2.18/2.69  (declare-fun tptp.disjointRelation_THFTYPE_IIoooIIoooIoI ((-> Bool Bool Bool) (-> Bool Bool Bool)) Bool)
% 2.18/2.69  (declare-fun tptp.disjointRelation_THFTYPE_IiIiioIoI ($$unsorted (-> $$unsorted $$unsorted Bool)) Bool)
% 2.18/2.69  (declare-fun tptp.disjointRelation_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.disjoint_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.distance_THFTYPE_IiiioI ($$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.distributes_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.div_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.documentation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.domainSubclass_THFTYPE_IIIioIIiioIioIiioI ((-> (-> $$unsorted Bool) (-> $$unsorted $$unsorted Bool) $$unsorted Bool) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domainSubclass_THFTYPE_IIiiiIiioI ((-> $$unsorted $$unsorted $$unsorted) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domainSubclass_THFTYPE_IIiiiiiioIiioI ((-> $$unsorted $$unsorted $$unsorted $$unsorted $$unsorted $$unsorted Bool) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domainSubclass_THFTYPE_IIiioIiioI ((-> $$unsorted $$unsorted Bool) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domainSubclass_THFTYPE_IIioIiioI ((-> $$unsorted Bool) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domainSubclass_THFTYPE_IiiioI ($$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domain_THFTYPE_IIIIioIIiioIioIiioIiioI ((-> (-> (-> $$unsorted Bool) (-> $$unsorted $$unsorted Bool) $$unsorted Bool) $$unsorted $$unsorted Bool) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domain_THFTYPE_IIIiiIioIiioI ((-> (-> $$unsorted $$unsorted) $$unsorted Bool) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domain_THFTYPE_IIIiioIIiioIoIiioI ((-> (-> $$unsorted $$unsorted Bool) (-> $$unsorted $$unsorted Bool) Bool) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domain_THFTYPE_IIIiioIioIiioI ((-> (-> $$unsorted $$unsorted Bool) $$unsorted Bool) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domain_THFTYPE_IIIioIIiioIioIiioI ((-> (-> $$unsorted Bool) (-> $$unsorted $$unsorted Bool) $$unsorted Bool) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domain_THFTYPE_IIIioIiIiioI ((-> (-> $$unsorted Bool) $$unsorted) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domain_THFTYPE_IIIioIioIiioI ((-> (-> $$unsorted Bool) $$unsorted Bool) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domain_THFTYPE_IIIoiIioIiioI ((-> (-> Bool $$unsorted) $$unsorted Bool) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domain_THFTYPE_IIIoioIIiioIoIiioI ((-> (-> Bool $$unsorted Bool) (-> $$unsorted $$unsorted Bool) Bool) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domain_THFTYPE_IIiiIiioI ((-> $$unsorted $$unsorted) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domain_THFTYPE_IIiiiIiioI ((-> $$unsorted $$unsorted $$unsorted) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domain_THFTYPE_IIiiiiiioIiioI ((-> $$unsorted $$unsorted $$unsorted $$unsorted $$unsorted $$unsorted Bool) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domain_THFTYPE_IIiiiioIiioI ((-> $$unsorted $$unsorted $$unsorted $$unsorted Bool) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domain_THFTYPE_IIiiioIiioI ((-> $$unsorted $$unsorted $$unsorted Bool) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domain_THFTYPE_IIiioIiioI ((-> $$unsorted $$unsorted Bool) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domain_THFTYPE_IIioIiioI ((-> $$unsorted Bool) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domain_THFTYPE_IIioioIiioI ((-> $$unsorted Bool $$unsorted Bool) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domain_THFTYPE_IIiooIiioI ((-> $$unsorted Bool Bool) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domain_THFTYPE_IIioooIiioI ((-> $$unsorted Bool Bool Bool) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domain_THFTYPE_IIoiIiioI ((-> Bool $$unsorted) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domain_THFTYPE_IIoiioIiioI ((-> Bool $$unsorted $$unsorted Bool) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domain_THFTYPE_IIoioIiioI ((-> Bool $$unsorted Bool) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domain_THFTYPE_IIooIiioI ((-> Bool Bool) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domain_THFTYPE_IIooioIiioI ((-> Bool Bool $$unsorted Bool) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domain_THFTYPE_IIoooIiioI ((-> Bool Bool Bool) $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.domain_THFTYPE_IiiioI ($$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.duration_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.during_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.earlier_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.editor_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.element_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.employs_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.engineeringSubcomponent_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.entails_THFTYPE_IoooI (Bool Bool) Bool)
% 2.18/2.69  (declare-fun tptp.equal_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.equivalenceRelationOn_THFTYPE_IIiioIioI ((-> $$unsorted $$unsorted Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.equivalentContentClass_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.equivalentContentInstance_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.exactlyLocated_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.exhaustiveAttribute_THFTYPE_IiiiiiioI ($$unsorted $$unsorted $$unsorted $$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.exhaustiveAttribute_THFTYPE_IiiioI ($$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.exhaustiveAttribute_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.exhaustiveDecomposition_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.exhaustiveDecomposition_THFTYPE_IioI ($$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.experiencer_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.exploits_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.expressedInLanguage_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.externalImage_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.faces_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.familyRelation_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.father_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.fills_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.finishes_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.frequency_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.geographicSubregion_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.geometricDistance_THFTYPE_IiiioI ($$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.geometricPart_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.geopoliticalSubdivision_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.graphMeasure_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.graphPart_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.grasps_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.greaterThanByQuality_THFTYPE_IiiioI ($$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.greaterThanOrEqualTo_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.greaterThan_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.gt_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.gtet_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.hasPurposeForAgent_THFTYPE_IioioI ($$unsorted Bool $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.hasPurpose_THFTYPE_IiooI ($$unsorted Bool) Bool)
% 2.18/2.69  (declare-fun tptp.hasPurpose_THFTYPE_IooI (Bool) Bool)
% 2.18/2.69  (declare-fun tptp.hasSkill_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.height_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.holdsDuring_THFTYPE_IiooI ($$unsorted Bool) Bool)
% 2.18/2.69  (declare-fun tptp.holdsObligation_THFTYPE_IoioI (Bool $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.holdsRight_THFTYPE_IoioI (Bool $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.hole_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.home_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.husband_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.identicalListItems_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.identityElement_THFTYPE_IIiiiIioI ((-> $$unsorted $$unsorted $$unsorted) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.identityElement_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.immediateInstance_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.immediateSubclass_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.inList_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.inScopeOfInterest_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.increasesLikelihood_THFTYPE_IoooI (Bool Bool) Bool)
% 2.18/2.69  (declare-fun tptp.independentProbability_THFTYPE_IoooI (Bool Bool) Bool)
% 2.18/2.69  (declare-fun tptp.inhabits_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.inhibits_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.initialList_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.initialPart_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.instance_THFTYPE_IIIIioIIiioIioIiioIioI ((-> (-> (-> $$unsorted Bool) (-> $$unsorted $$unsorted Bool) $$unsorted Bool) $$unsorted $$unsorted Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.instance_THFTYPE_IIIiiIioIioI ((-> (-> $$unsorted $$unsorted) $$unsorted Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.instance_THFTYPE_IIIiioIIiioIoIioI ((-> (-> $$unsorted $$unsorted Bool) (-> $$unsorted $$unsorted Bool) Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.instance_THFTYPE_IIIiioIioIioI ((-> (-> $$unsorted $$unsorted Bool) $$unsorted Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.instance_THFTYPE_IIIioIIiioIioIioI ((-> (-> $$unsorted Bool) (-> $$unsorted $$unsorted Bool) $$unsorted Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.instance_THFTYPE_IIIioIiIioI ((-> (-> $$unsorted Bool) $$unsorted) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.instance_THFTYPE_IIIioIioIioI ((-> (-> $$unsorted Bool) $$unsorted Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.instance_THFTYPE_IIIioioIiioIioI ((-> (-> $$unsorted Bool $$unsorted Bool) $$unsorted $$unsorted Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.instance_THFTYPE_IIIoioIIiioIoIioI ((-> (-> Bool $$unsorted Bool) (-> $$unsorted $$unsorted Bool) Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.instance_THFTYPE_IIiiIioI ((-> $$unsorted $$unsorted) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.instance_THFTYPE_IIiiiIioI ((-> $$unsorted $$unsorted $$unsorted) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.instance_THFTYPE_IIiiiiiioIioI ((-> $$unsorted $$unsorted $$unsorted $$unsorted $$unsorted $$unsorted Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.instance_THFTYPE_IIiiiioIioI ((-> $$unsorted $$unsorted $$unsorted $$unsorted Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.instance_THFTYPE_IIiiioIioI ((-> $$unsorted $$unsorted $$unsorted Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.instance_THFTYPE_IIiioIioI ((-> $$unsorted $$unsorted Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.instance_THFTYPE_IIioIioI ((-> $$unsorted Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.instance_THFTYPE_IIioioIioI ((-> $$unsorted Bool $$unsorted Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.instance_THFTYPE_IIiooIioI ((-> $$unsorted Bool Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.instance_THFTYPE_IIioooIioI ((-> $$unsorted Bool Bool Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.instance_THFTYPE_IIoiIioI ((-> Bool $$unsorted) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.instance_THFTYPE_IIoiioIioI ((-> Bool $$unsorted $$unsorted Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.instance_THFTYPE_IIoioIioI ((-> Bool $$unsorted Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.instance_THFTYPE_IIooIioI ((-> Bool Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.instance_THFTYPE_IIooioIioI ((-> Bool Bool $$unsorted Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.instance_THFTYPE_IIoooIioI ((-> Bool Bool Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.instance_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.instance_THFTYPE_IoioI (Bool $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.instrument_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.interiorPart_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.inverse_THFTYPE_IIiioIIiioIoI ((-> $$unsorted $$unsorted Bool) (-> $$unsorted $$unsorted Bool)) Bool)
% 2.18/2.69  (declare-fun tptp.involvedInEvent_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.irreflexiveOn_THFTYPE_IIiioIioI ((-> $$unsorted $$unsorted Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.knows_THFTYPE_IiooI ($$unsorted Bool) Bool)
% 2.18/2.69  (declare-fun tptp.lAbnormalAnatomicalStructure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAbove_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAbsoluteValueFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAbsoluteValueFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAbstract_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAbstractionFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAbstractionFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAdditionFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAdditionFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAdjacent_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAdjective_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAdverb_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAdvertising_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAgeGroup_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAgent_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAir_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAlethicAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAlga_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAmbulating_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAmpere_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAmphibian_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAmu_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAnatomicalStructure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAngleMeasure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAngstrom_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAngularDegree_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAnimacyAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAnimalAnatomicalStructure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAnimalLanguage_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAnimalSubstance_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAnimal_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAntiSymmetricPositionalAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAntisymmetricRelation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lApe_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lApril_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAquaticMammal_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lArachnid_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAreaMeasure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lArgument_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lArtWork_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lArthropod_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lArticle_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lArtifact_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lArtificialLanguage_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAsexualReproduction_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAsleep_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAssignmentFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAssignmentFn_THFTYPE_IiiiiI ($$unsorted $$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAssignmentFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAssociativeFunction_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAstronomicalBody_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAsymmetricRelation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAtomGram_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAtom_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAtomicNucleus_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAttachingDevice_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAttaching_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAttack_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAudible_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAugust_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAutonomicProcess_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lAwake_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBackFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBackFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBacterium_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBattle_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBecquerel_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBeginFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBeginFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBeginNodeFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBeginNodeFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBeliefGroup_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBelow_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBetting_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBeverage_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBinaryFunction_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBinaryNumber_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBinaryPredicate_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBinaryRelation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBiologicalAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBiologicalProcess_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBiologicallyActiveSubstance_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBird_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBirth_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBit_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBlack_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBlood_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBlue_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBodyCavity_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBodyCovering_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBodyJunction_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBodyMotion_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBodyPart_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBodyPosition_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBodySubstance_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBodyVessel_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBoiling_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBone_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBook_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBorrowing_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBreathing_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBritishThermalUnit_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBuilding_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lBuying_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lByte_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCalculating_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCalorie_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCandela_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCanine_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCarbohydrate_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCardinalityFn_THFTYPE_IIioIiI ((-> $$unsorted Bool)) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCardinalityFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCardinalityFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCarnivore_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCarrying_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCaseRole_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCeilingFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCeilingFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCell_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCelsiusDegree_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCenterOfCircleFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCenterOfCircleFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCentimeter_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCentralTimeZone_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCertificate_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lChangeOfPossession_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCharacter_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lChemicalDecomposition_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lChemicalProcess_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lChemicalSynthesis_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCircle_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCity_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lClass_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lClassifying_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lClosedTwoDimensionalFigure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lClothing_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCloud_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCognitiveAgent_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lColdBloodedVertebrate_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCollection_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lColorAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lColoring_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCombining_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCombustion_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCommercialAgent_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCommercialService_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCommitting_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCommunication_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCommutativeFunction_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lComparing_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lComplementFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lComplexNumber_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCompositeUnitOfMeasure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCompoundSubstance_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lComputerLanguage_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lComputerProgram_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lComputerProgramming_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCondensing_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lConfining_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lConsciousnessAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lConstantQuantity_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lConstructedLanguage_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lConstructing_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lContentBearingObject_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lContentBearingPhysical_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lContentBearingProcess_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lContentDevelopment_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lContestAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lContest_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lContinent_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lContinuousFunction_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lContract_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCooking_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCooling_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCooperation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCoordinatedUniversalTimeZone_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCorporation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCorpuscularObject_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCosineFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCosineFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCoulomb_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCounting_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCounty_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCovering_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCreation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCrustacean_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCup_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCurrencyMeasure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCurrency_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCutSetFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCutSetFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lCutting_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDamaging_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDamp_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDancing_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDayDuration_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDayFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDayFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDay_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDead_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDeath_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDecember_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDeciding_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDeclaring_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDecoding_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDecreasing_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDeductiveArgument_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDefensiveManeuver_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDemonstrating_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDenominatorFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDensityFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDeonticAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDesigning_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDestruction_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDetaching_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDevelopmentalAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDevice_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDiagnosticProcess_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDigesting_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDirectedGraph_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDirecting_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDirectionChange_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDirectionalAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDisagreeing_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDiscovering_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDiseaseOrSyndrome_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDisseminating_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDivisionFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDivisionFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDrinking_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDriving_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDry_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDrying_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lDualObjectProcess_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lEast_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lEasternTimeZone_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lEating_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lEditionFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lEditionFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lEducationalOrganization_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lEducationalProcess_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lEgg_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lElection_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lElectronVolt_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lElectron_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lElementalSubstance_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lEmbryonic_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lEmotionalState_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lEncoding_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lEndFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lEndFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lEndNodeFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lEndNodeFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lEngineeringComponent_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lEngineeringConnection_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lEnglishLanguage_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lEntity_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lEnzyme_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lEquivalenceRelation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lEthnicGroup_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lEuroCent_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lEuroDollar_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lEvaporating_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lEvenInteger_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lExperimenting_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lExplanation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lExponentiationFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lExponentiationFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lExpressing_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lExtensionFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lExtensionFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFabric_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFactualText_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFahrenheitDegree_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFalling_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFamilyGroup_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFarad_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFatTissue_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFebruary_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFeline_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFemale_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFern_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFictionalText_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFieldOfStudy_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFillable_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFinancialInstrument_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFinancialTransaction_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFiniteSet_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFish_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFlammable_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFloorFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFloorFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFlowRegion_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFloweringPlant_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFluid_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFood_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFootLength_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFormula_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFreezing_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFrequencyMeasure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFreshWaterArea_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFriday_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFrontFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFrontFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFruitOrVegetable_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFullyFormed_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFunctionQuantity_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFunction_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFunding_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFungus_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFutureFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lFutureFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGame_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGasMixture_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGasMotion_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGas_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGeneralizedIntersectionFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGeneralizedUnionFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGeographicArea_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGeologicalProcess_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGeometricFigure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGeometricPoint_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGeopoliticalArea_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGesture_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGetting_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGigaFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGigaFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGivingBack_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGiving_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGland_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGovernmentFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGovernmentFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGovernmentOrganization_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGovernment_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGrabbing_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGraduation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGram_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGraphArc_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGraphCircuit_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGraphElement_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGraphLoop_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGraphNode_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGraphPathFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGraphPathFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGraphPath_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGraph_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGray_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGreatestCommonDivisorFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGreatestCommonDivisorFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGroupOfPeople_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGroup_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGrowth_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lGuiding_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lHearing_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lHeating_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lHenry_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lHertz_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lHiring_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lHoleHostFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lHoleHostFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lHoleSkinFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lHoleSkinFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lHole_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lHominid_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lHoofedMammal_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lHorizontal_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lHormone_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lHorsepower_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lHourDuration_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lHourFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lHourFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lHour_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lHouse_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lHumanLanguage_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lHuman_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lHunting_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lIcon_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lIlluminated_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lImaginaryNumber_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lImaginaryPartFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lImaginaryPartFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lImmediateFamilyFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lImmediateFamilyFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lImmediateFutureFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lImmediateFutureFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lImmediatePastFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lImmediatePastFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lImpacting_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lImpelling_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lInchMercury_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lInch_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lIncreasing_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lInductiveArgument_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lInformationMeasure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lIngesting_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lInheritableRelation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lInitialNodeFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lInitialNodeFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lInjecting_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lInjuring_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lInsect_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lInserting_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lIntegerSquareRootFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lInteger_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lIntentionalProcess_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lIntentionalPsychologicalProcess_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lIntentionalRelation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lInternalAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lInternalChange_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lInterpreting_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lIntersectionFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lIntervalFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lIntervalFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lIntransitiveRelation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lInvalidDeductiveArgument_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lInvertebrate_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lInvestigating_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lIrrationalNumber_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lIrreflexiveRelation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lIsland_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lJanuary_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lJoiningAnOrganization_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lJoule_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lJudging_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lJudicialOrganization_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lJudicialProcess_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lJuly_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lJune_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lKappaFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lKeeping_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lKelvinDegree_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lKilling_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lKiloByte_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lKiloFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lKiloFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lKilogram_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lKilometer_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lLandArea_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lLandTransitway_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lLanguage_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lLarval_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lLaw_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lLeapYear_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lLearning_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lLeastCommonMultipleFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lLeastCommonMultipleFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lLeavingAnOrganization_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lLeft_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lLegalAction_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lLegalDecision_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lLending_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lLengthMeasure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lLikely_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lLinguisticCommunication_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lLinguisticExpression_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lLiquidMixture_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lLiquidMotion_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lLiquid_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lListConcatenateFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lListConcatenateFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lListFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lListFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lListFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lListLengthFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lListLengthFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lListOrderFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lListOrderFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lList_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lListening_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lLiter_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lLiving_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lLogFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lLogicalOperator_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lLooking_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lLumen_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lLux_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMachine_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMagnitudeFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMagnitudeFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMaintaining_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMaking_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMale_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMammal_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMan_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lManaging_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lManeuver_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lManualHumanLanguage_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lManufacture_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lManufacturer_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMarch_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMarsupial_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMassMeasure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMatriculation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMaxFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMaxFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMaximalWeightedPathFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMaximalWeightedPathFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMay_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMeasureFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMeasureFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMeasuringDevice_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMeasuring_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMeat_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMeeting_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMegaByte_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMegaFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMegaFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMelting_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMercantileOrganization_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMereologicalDifferenceFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMereologicalDifferenceFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMereologicalProductFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMereologicalProductFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMereologicalSumFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMereologicalSumFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMetal_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMeter_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMicroFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMicroFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMicroorganism_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMile_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMilitaryForce_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMilitaryOrganization_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMilitaryProcess_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMilliFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMilliFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMillimeter_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMinFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMinFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMineral_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMinimalCutSetFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMinimalCutSetFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMinimalWeightedPathFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMinimalWeightedPathFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMinuteDuration_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMinuteFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMinuteFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMinute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMixture_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMmMercury_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMole_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMolecule_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMollusk_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMonday_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMonkey_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMonochromatic_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMonthDuration_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMonthFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMonthFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMonth_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMorpheme_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMoss_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMotionDownward_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMotionPicture_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMotionUpward_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMotion_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMountainTimeZone_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMultiGraph_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMultiplicationFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMultiplicationFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMuscle_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMusic_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMusicalInstrument_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMutuallyDisjointClass_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lMyriapod_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNakedPromise_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNaming_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNanoFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNanoFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNaturalLanguage_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNaturalProcess_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNaturalSubstance_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNear_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNecessity_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNegativeInfinity_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNegativeInteger_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNegativeRealNumber_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNeutron_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNewton_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNonCompositeUnitOfMeasure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNonFloweringPlant_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNonFullyFormed_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNonNullSet_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNonnegativeInteger_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNonnegativeRealNumber_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNormativeAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNorth_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNounPhrase_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNoun_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNovember_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNullList_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNullSet_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNumberE_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNumber_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNumeratorFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lNutrient_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lObjectAttitude_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lObject_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lObjectiveNorm_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lObligation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lOctober_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lOddInteger_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lOffering_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lOhm_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lOlfactoryAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lOn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lOneDimensionalFigure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lOneToOneFunction_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lOpenTwoDimensionalFigure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lOrdering_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lOrganOrTissueProcess_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lOrgan_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lOrganicObject_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lOrganismProcess_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lOrganism_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lOrganization_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lOrganizationalProcess_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lOunce_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lOval_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPacificTimeZone_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPairwiseDisjointClass_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lParamilitaryOrganization_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPartialOrderingRelation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPartialValuedRelation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lParticleWord_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPascal_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPastFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPastFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPatent_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPathWeightFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPathWeightFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPathologicProcess_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPerFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPerception_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPerceptualAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPeriodicalIssueFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPeriodicalIssueFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPeriodical_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPermanentResidence_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPermission_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPhrase_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPhysicalAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPhysicalQuantity_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPhysicalState_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPhysicalSystem_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPhysical_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPhysiologicProcess_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPi_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPicoFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPicoFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPint_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPlan_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPlaneAngleMeasure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPlanning_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPlantAnatomicalStructure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPlantSubstance_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPlant_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPlasma_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPliable_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPoisoning_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPoking_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPoliceOrganization_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPoliticalOrganization_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPoliticalProcess_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPollen_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPolychromatic_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPosition_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPositionalAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPositiveInfinity_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPositiveInteger_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPositiveRealNumber_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPossibility_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPoundForce_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPoundMass_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPowerSetFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPrecipitation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPredecessorFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPredecessorFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPredicate_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPredicting_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPremisesFn_THFTYPE_IooI (Bool) Bool)
% 2.18/2.69  (declare-fun tptp.lPremisesFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPrepositionalPhrase_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPretending_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPrimaryColor_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPrimate_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPrimeNumber_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lProbabilityAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lProbabilityFn_THFTYPE_IoiI (Bool) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lProbabilityFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lProbabilityRelation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lProcedure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lProcess_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lProduct_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lProhibition_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPromise_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPropertyFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPropertyFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lProposition_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPropositionalAttitude_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lProstrate_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lProtein_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lProton_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPseudoGraph_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPsychologicalAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPsychologicalDysfunction_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPsychologicalProcess_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPublication_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPurchaseContract_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPureSubstance_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPursuing_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lPutting_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lQuantityChange_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lQuantity_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lQuart_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lQuaternaryFunction_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lQuaternaryPredicate_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lQuaternaryRelation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lQuestioning_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lQuintaryPredicate_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lQuintaryRelation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRadian_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRadiatingElectromagnetic_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRadiatingInfrared_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRadiatingLight_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRadiatingNuclear_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRadiatingSound_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRadiatingXRay_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRadiating_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRankineDegree_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRationalNumberFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRationalNumber_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lReading_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRealNumberFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRealNumberFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRealNumber_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lReasoning_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lReciprocalFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lReciprocalFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRecreationOrExercise_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRecurrentTimeIntervalFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRecurrentTimeIntervalFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRed_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lReflexiveRelation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRegion_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRegulatoryProcess_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRelationExtendedToQuantities_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRelation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRelationalAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRelativeComplementFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRelativeTimeFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRelativeTimeFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lReleasing_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lReligiousOrganization_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lReligiousProcess_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRemainderFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRemainderFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRemembering_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRemoving_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRepairing_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lReplication_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRepresentationalArtWork_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lReproductiveBody_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lReptile_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRequesting_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lResidence_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lResidentialBuilding_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRight_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRigid_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRoadway_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRodent_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRoom_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRough_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRoundFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRoundFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lRunning_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSaltWaterArea_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSaturationAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSaturday_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSecondDuration_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSecondFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSecondFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSecond_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSeed_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSeeing_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSelecting_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSelfConnectedObject_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSelling_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSentence_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSentientAgent_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSeparating_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSeptember_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSequenceFunction_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSeriesVolumeFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSeriesVolumeFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSeries_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lServiceContract_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lServiceProcess_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSetOrClass_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSet_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSexAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSexualReproduction_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lShapeAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lShapeChange_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lShooting_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lShoreArea_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSiemens_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSievert_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSignumFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSignumFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSineFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSineFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSinging_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSingleAgentProcess_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSingleFamilyResidence_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSingleValuedRelation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSitting_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSlug_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSmelling_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSmoke_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSmooth_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSocialInteraction_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSocialRole_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSocialUnit_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSolidAngleMeasure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSolid_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSolution_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSoundAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSouth_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSpatialRelation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSpeaking_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSpeedFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSpeedFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSpokenHumanLanguage_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSpore_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSport_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSquareRootFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSquareRootFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lStanding_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lStateChange_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lStateOfMind_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lStateOrProvince_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lStaticWaterArea_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lStating_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lStationaryArtifact_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSteradian_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lStreamWaterArea_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSubatomicParticle_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSubjectiveAssessmentAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSubstance_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSubstituting_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSubtractionFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSubtractionFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSuccessorFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSuccessorFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSummary_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSunday_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSupposing_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSurfaceChange_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSurgery_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSuspension_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSwimming_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSymbolicString_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSymmetricPositionalAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSymmetricRelation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSyntheticSubstance_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lSystemeInternationalUnit_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTactilePerception_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTangentFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTangentFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTasteAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTasting_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTemperatureMeasure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTemporalCompositionFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTemporalCompositionFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTemporalRelation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTemporaryResidence_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTeraFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTeraFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTerminalNodeFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTerminalNodeFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTerminatingEmployment_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTernaryFunction_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTernaryPredicate_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTernaryRelation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTesla_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lText_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTextureAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTherapeuticProcess_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lThreeDimensionalFigure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lThursday_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTimeDependentQuantity_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTimeDuration_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTimeIntervalFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTimeIntervalFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTimeInterval_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTimeMeasure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTimePoint_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTimePosition_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTimeZone_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTissue_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTotalOrderingRelation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTotalValuedRelation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTouching_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTraitAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTransaction_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTransfer_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTransitiveRelation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTransitway_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTranslating_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTranslocation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTransportationDevice_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTransportation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTree_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTrichotomizingRelation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTruthValue_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTuesday_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTwoDimensionalAngle_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lTwoDimensionalFigure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUnaryConstantFunctionQuantity_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUnaryFunction_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUnconscious_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUncovering_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUnemployed_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUngrasping_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUnilateralGetting_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUnilateralGiving_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUnilluminated_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUnionFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUnionFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUniqueList_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUnitFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUnitFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUnitOfAngularMeasure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUnitOfArea_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUnitOfAtmosphericPressure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUnitOfCurrency_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUnitOfDuration_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUnitOfFrequency_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUnitOfInformation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUnitOfLength_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUnitOfMass_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUnitOfMeasureMultiplier_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUnitOfMeasure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUnitOfTemperature_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUnitOfVolume_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUnitedKingdomGallon_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUnitedStatesCent_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUnitedStatesDollar_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUnitedStatesGallon_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lUnlikely_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lValidDeductiveArgument_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lVariableArityRelation_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lVehicle_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lVelocityFn_THFTYPE_IiiiiiI ($$unsorted $$unsorted $$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lVelocityFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lVerbPhrase_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lVerb_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lVertebrate_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lVertical_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lViolentContest_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lVirus_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lVisualAttribute_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lVitamin_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lVocalCords_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lVocalizing_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lVolt_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lVolumeMeasure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lVoting_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWalking_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWar_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWarmBloodedVertebrate_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWarranty_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWaterArea_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWaterCloud_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWaterMotion_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWater_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWatt_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWealthFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWealthFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWeapon_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWearableItem_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWeatherProcess_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWeber_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWedding_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWednesday_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWeekDuration_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWeek_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWest_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWet_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWetting_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWhenFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWhenFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWhereFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWhereFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWhite_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWind_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWoman_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWord_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWorm_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lWriting_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lYearDuration_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lYearFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.lYearFn_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lYear_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.lYellow_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.larger_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.leader_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.legalRelation_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.length_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.lessThanOrEqualTo_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.lessThan_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.lineMeasure_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.linearExtent_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.links_THFTYPE_IiiioI ($$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.located_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.lt_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.ltet_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.manner_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.material_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.measure_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.meetsSpatially_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.meetsTemporally_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.meltingPoint_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.member_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.minus1_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.minus_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.modalAttribute_THFTYPE_IoioI (Bool $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.monetaryValue_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.mother_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.multiplicativeFactor_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.mutualAcquaintance_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n0_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n0dot000000000001_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n0dot000000001_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n0dot000001_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n0dot001_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n0dot01_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n0dot0254_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n0dot3048_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n0dot5_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n1000000000000_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n1000000000_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n1000000_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n1000_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n100_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n1024_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n1055dot05585262_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n12_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n14593dot90_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n1609dot344_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n180_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n1_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n1dot0Eminus10_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n1dot60217733Eminus19_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n1dot6605402Eminus24_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n1dot8_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n24_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n273dot15_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n28_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n29_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n29dot92_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n2_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n30_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n31_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n32_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n360_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n365_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n3_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n3dot785411784_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n400_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n453dot59237_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n4_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n4dot1868_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n4dot448222_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n4dot54609_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n5_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n60_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n6_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n746_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n7_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.n8_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.names_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.needs_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.occupiesPosition_THFTYPE_IiiioI ($$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.orientation_THFTYPE_IiiioI ($$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.origin_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.overlapsPartially_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.overlapsSpatially_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.overlapsTemporally_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.parallel_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.parent_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.part_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.partialOrderingOn_THFTYPE_IIiioIioI ((-> $$unsorted $$unsorted Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.partiallyFills_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.partition_THFTYPE_IiiiiiiioI ($$unsorted $$unsorted $$unsorted $$unsorted $$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.partition_THFTYPE_IiiiiiioI ($$unsorted $$unsorted $$unsorted $$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.partition_THFTYPE_IiiiiioI ($$unsorted $$unsorted $$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.partition_THFTYPE_IiiiioI ($$unsorted $$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.partition_THFTYPE_IiiioI ($$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.partition_THFTYPE_IioI ($$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.partlyLocated_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.pathLength_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.path_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.patient_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.patient_THFTYPE_IiooI ($$unsorted Bool) Bool)
% 2.18/2.69  (declare-fun tptp.penetrates_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.piece_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.plus_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.pointOfFigure_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.pointOfIntersection_THFTYPE_IiiioI ($$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.possesses_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.precondition_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.prefers_THFTYPE_IioooI ($$unsorted Bool Bool) Bool)
% 2.18/2.69  (declare-fun tptp.premise_THFTYPE_IoooI (Bool Bool) Bool)
% 2.18/2.69  (declare-fun tptp.prevents_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.properPart_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.properlyFills_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.property_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.publishes_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.radius_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.rangeSubclass_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.range_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.realization_THFTYPE_IiooI ($$unsorted Bool) Bool)
% 2.18/2.69  (declare-fun tptp.refers_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.reflexiveOn_THFTYPE_IIiioIioI ((-> $$unsorted $$unsorted Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.relatedEvent_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.relatedExternalConcept_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.relatedInternalConcept_THFTYPE_IIIiioIIiioIoIIiioIoI ((-> (-> $$unsorted $$unsorted Bool) (-> $$unsorted $$unsorted Bool) Bool) (-> $$unsorted $$unsorted Bool)) Bool)
% 2.18/2.69  (declare-fun tptp.relatedInternalConcept_THFTYPE_IIiiIioI ((-> $$unsorted $$unsorted) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.relatedInternalConcept_THFTYPE_IIiiiIioI ((-> $$unsorted $$unsorted $$unsorted) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.relatedInternalConcept_THFTYPE_IIiiiiiioIIiioIoI ((-> $$unsorted $$unsorted $$unsorted $$unsorted $$unsorted $$unsorted Bool) (-> $$unsorted $$unsorted Bool)) Bool)
% 2.18/2.69  (declare-fun tptp.relatedInternalConcept_THFTYPE_IIiioIIIoiIioIoI ((-> $$unsorted $$unsorted Bool) (-> (-> Bool $$unsorted) $$unsorted Bool)) Bool)
% 2.18/2.69  (declare-fun tptp.relatedInternalConcept_THFTYPE_IIiioIIiiiioIoI ((-> $$unsorted $$unsorted Bool) (-> $$unsorted $$unsorted $$unsorted $$unsorted Bool)) Bool)
% 2.18/2.69  (declare-fun tptp.relatedInternalConcept_THFTYPE_IIiioIIiioIoI ((-> $$unsorted $$unsorted Bool) (-> $$unsorted $$unsorted Bool)) Bool)
% 2.18/2.69  (declare-fun tptp.relatedInternalConcept_THFTYPE_IIiioIIiooIoI ((-> $$unsorted $$unsorted Bool) (-> $$unsorted Bool Bool)) Bool)
% 2.18/2.69  (declare-fun tptp.relatedInternalConcept_THFTYPE_IIiioIioI ((-> $$unsorted $$unsorted Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.relatedInternalConcept_THFTYPE_IIiooIIiioIoI ((-> $$unsorted Bool Bool) (-> $$unsorted $$unsorted Bool)) Bool)
% 2.18/2.69  (declare-fun tptp.relatedInternalConcept_THFTYPE_IIiooIIiooIoI ((-> $$unsorted Bool Bool) (-> $$unsorted Bool Bool)) Bool)
% 2.18/2.69  (declare-fun tptp.relatedInternalConcept_THFTYPE_IIoiioIIoiioIoI ((-> Bool $$unsorted $$unsorted Bool) (-> Bool $$unsorted $$unsorted Bool)) Bool)
% 2.18/2.69  (declare-fun tptp.relatedInternalConcept_THFTYPE_IIoioIIoioIoI ((-> Bool $$unsorted Bool) (-> Bool $$unsorted Bool)) Bool)
% 2.18/2.69  (declare-fun tptp.relatedInternalConcept_THFTYPE_IiIiiIoI ($$unsorted (-> $$unsorted $$unsorted)) Bool)
% 2.18/2.69  (declare-fun tptp.relatedInternalConcept_THFTYPE_IiIiiiIoI ($$unsorted (-> $$unsorted $$unsorted $$unsorted)) Bool)
% 2.18/2.69  (declare-fun tptp.relatedInternalConcept_THFTYPE_IiIiioIoI ($$unsorted (-> $$unsorted $$unsorted Bool)) Bool)
% 2.18/2.69  (declare-fun tptp.relatedInternalConcept_THFTYPE_IiIiooIoI ($$unsorted (-> $$unsorted Bool Bool)) Bool)
% 2.18/2.69  (declare-fun tptp.relatedInternalConcept_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.relative_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.representsForAgent_THFTYPE_IiiioI ($$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.representsInLanguage_THFTYPE_IiiioI ($$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.represents_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.resource_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.result_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.sibling_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.side_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.sister_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.smaller_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.son_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.spouse_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.starts_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.stays_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.subAttribute_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.subCollection_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.subGraph_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.subList_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.subOrganization_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.subPlan_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.subProcess_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.subProposition_THFTYPE_IoooI (Bool Bool) Bool)
% 2.18/2.69  (declare-fun tptp.subSystem_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.subclass_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.subrelation_THFTYPE_IIiiioIIiiioIoI ((-> $$unsorted $$unsorted $$unsorted Bool) (-> $$unsorted $$unsorted $$unsorted Bool)) Bool)
% 2.18/2.69  (declare-fun tptp.subrelation_THFTYPE_IIiioIIIoiIioIoI ((-> $$unsorted $$unsorted Bool) (-> (-> Bool $$unsorted) $$unsorted Bool)) Bool)
% 2.18/2.69  (declare-fun tptp.subrelation_THFTYPE_IIiioIIIooIioIoI ((-> $$unsorted $$unsorted Bool) (-> (-> Bool Bool) $$unsorted Bool)) Bool)
% 2.18/2.69  (declare-fun tptp.subrelation_THFTYPE_IIiioIIiioIoI ((-> $$unsorted $$unsorted Bool) (-> $$unsorted $$unsorted Bool)) Bool)
% 2.18/2.69  (declare-fun tptp.subrelation_THFTYPE_IIiioIIiooIoI ((-> $$unsorted $$unsorted Bool) (-> $$unsorted Bool Bool)) Bool)
% 2.18/2.69  (declare-fun tptp.subrelation_THFTYPE_IIiioIioI ((-> $$unsorted $$unsorted Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.subrelation_THFTYPE_IIioIIioIoI ((-> $$unsorted Bool) (-> $$unsorted Bool)) Bool)
% 2.18/2.69  (declare-fun tptp.subrelation_THFTYPE_IIiooIIiioIoI ((-> $$unsorted Bool Bool) (-> $$unsorted $$unsorted Bool)) Bool)
% 2.18/2.69  (declare-fun tptp.subrelation_THFTYPE_IIoioIIiioIoI ((-> Bool $$unsorted Bool) (-> $$unsorted $$unsorted Bool)) Bool)
% 2.18/2.69  (declare-fun tptp.subrelation_THFTYPE_IIoooIIiioIoI ((-> Bool Bool Bool) (-> $$unsorted $$unsorted Bool)) Bool)
% 2.18/2.69  (declare-fun tptp.subrelation_THFTYPE_IiIiioIoI ($$unsorted (-> $$unsorted $$unsorted Bool)) Bool)
% 2.18/2.69  (declare-fun tptp.subrelation_THFTYPE_IiIoooIoI ($$unsorted (-> Bool Bool Bool)) Bool)
% 2.18/2.69  (declare-fun tptp.subrelation_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.subset_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.subsumedExternalConcept_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.subsumesContentClass_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.subsumesContentInstance_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.subsumesContentInstance_THFTYPE_IiooI ($$unsorted Bool) Bool)
% 2.18/2.69  (declare-fun tptp.subsumingExternalConcept_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.successorAttributeClosure_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.successorAttribute_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.superficialPart_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.surface_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.synonymousExternalConcept_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.systemPart_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.temporalPart_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.temporallyBetweenOrEqual_THFTYPE_IiiioI ($$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.temporallyBetween_THFTYPE_IiiioI ($$unsorted $$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.time_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.times_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 2.18/2.69  (declare-fun tptp.top_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.totalOrderingOn_THFTYPE_IIiioIioI ((-> $$unsorted $$unsorted Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.transactionAmount_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.traverses_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.trichotomizingOn_THFTYPE_IIiioIioI ((-> $$unsorted $$unsorted Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.truth_THFTYPE_IoooI (Bool Bool) Bool)
% 2.18/2.69  (declare-fun tptp.typicalPart_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.typicallyContainsPart_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.uniqueIdentifier_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.uses_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.valence_THFTYPE_IIiioIioI ((-> $$unsorted $$unsorted Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.valence_THFTYPE_IIioIioI ((-> $$unsorted Bool) $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.valence_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.version_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.wants_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.wears_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.weight_THFTYPE_i () $$unsorted)
% 2.18/2.69  (declare-fun tptp.width_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (declare-fun tptp.wife_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 2.18/2.69  (assert (@ (@ tptp.identityElement_THFTYPE_IIiiiIioI tptp.lAdditionFn_THFTYPE_IiiiI) tptp.n0_THFTYPE_i))
% 2.18/2.69  (assert (forall ((PROC $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lOrganOrTissueProcess_THFTYPE_i) (exists ((THING $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI THING))) (and (@ (@ tptp.located_THFTYPE_IiioI PROC) THING) (or (@ _let_1 tptp.lOrgan_THFTYPE_i) (@ _let_1 tptp.lTissue_THFTYPE_i))))))))
% 2.18/2.69  (assert (forall ((NUMBER1 $$unsorted) (LIST $$unsorted)) (=> (and (= (@ tptp.lListLengthFn_THFTYPE_IiiI LIST) NUMBER1) (@ (@ tptp.instance_THFTYPE_IiioI LIST) tptp.lList_THFTYPE_i) (not (= LIST tptp.lNullList_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI NUMBER1) tptp.lPositiveInteger_THFTYPE_i)) (forall ((NUMBER2 $$unsorted)) (= (exists ((ITEM $$unsorted)) (and (= (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST) NUMBER2) ITEM) (@ (@ tptp.inList_THFTYPE_IiioI ITEM) LIST))) (@ (@ tptp.ltet_THFTYPE_IiioI NUMBER2) NUMBER1))))))
% 2.18/2.69  (assert (forall ((ROLE (-> $$unsorted $$unsorted Bool)) (ARG1 $$unsorted) (ARG2 $$unsorted) (PROC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IIiioIioI ROLE) tptp.lCaseRole_THFTYPE_i) (@ (@ ROLE ARG1) ARG2) (@ (@ tptp.instance_THFTYPE_IiioI ARG1) PROC) (@ (@ tptp.subclass_THFTYPE_IiioI PROC) tptp.lProcess_THFTYPE_i)) (@ (@ (@ tptp.capability_THFTYPE_IiIiioIioI PROC) ROLE) ARG2))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnitOfMeasure_THFTYPE_i) tptp.lPhysicalQuantity_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCooling_THFTYPE_i) tptp.lDecreasing_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lPremisesFn_THFTYPE_i) tptp.lProposition_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAnimalAnatomicalStructure_THFTYPE_i) tptp.lAnatomicalStructure_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lQuaternaryFunction_THFTYPE_i) tptp.lQuintaryRelation_THFTYPE_i))
% 2.18/2.69  (assert (forall ((GRAPH $$unsorted) (PATH $$unsorted) (NODE1 $$unsorted) (NODE2 $$unsorted)) (=> (and (@ (@ tptp.graphPart_THFTYPE_IiioI PATH) GRAPH) (not (@ (@ tptp.instance_THFTYPE_IiioI GRAPH) tptp.lDirectedGraph_THFTYPE_i))) (= (= (@ (@ tptp.lGraphPathFn_THFTYPE_IiiiI NODE1) NODE2) PATH) (= (@ (@ tptp.lGraphPathFn_THFTYPE_IiiiI NODE2) NODE1) PATH)))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBinaryPredicate_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lJudicialOrganization_THFTYPE_i) tptp.lOrganization_THFTYPE_i))
% 2.18/2.69  (assert (forall ((SOUND $$unsorted) (EMIT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI EMIT) tptp.lRadiatingSound_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI EMIT) SOUND)) (exists ((ATTR $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lSoundAttribute_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI SOUND) ATTR))))))
% 2.18/2.69  (assert (forall ((MINUTE $$unsorted) (SECOND2 $$unsorted) (SECOND1 $$unsorted) (NUMBER2 $$unsorted) (NUMBER1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI SECOND1) (@ (@ tptp.lSecondFn_THFTYPE_IiiiI NUMBER1) MINUTE)) (@ (@ tptp.instance_THFTYPE_IiioI SECOND2) (@ (@ tptp.lSecondFn_THFTYPE_IiiiI NUMBER2) MINUTE)) (= (@ (@ tptp.minus_THFTYPE_IiiiI NUMBER2) NUMBER1) tptp.n1_THFTYPE_i)) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI SECOND1) SECOND2))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAttaching_THFTYPE_i) tptp.lDualObjectProcess_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTherapeuticProcess_THFTYPE_i) tptp.lRepairing_THFTYPE_i))
% 2.18/2.69  (assert (forall ((ARC $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ARC) tptp.lGraphArc_THFTYPE_i) (exists ((NODE1 $$unsorted) (NODE2 $$unsorted)) (@ (@ (@ tptp.links_THFTYPE_IiiioI NODE1) NODE2) ARC)))))
% 2.18/2.69  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lSubstance_THFTYPE_i) tptp.lSyntheticSubstance_THFTYPE_i) tptp.lNaturalSubstance_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAsymmetricRelation_THFTYPE_i) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.69  (assert (forall ((SENT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SENT) tptp.lSentence_THFTYPE_i) (exists ((PROP Bool)) (and (@ (@ tptp.instance_THFTYPE_IoioI PROP) tptp.lProposition_THFTYPE_i) (@ (@ tptp.containsInformation_THFTYPE_IiooI SENT) PROP))))))
% 2.18/2.69  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lPoundMass_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n453dot59237_THFTYPE_i)) tptp.lGram_THFTYPE_i)))))
% 2.18/2.69  (assert (forall ((GIVE $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI GIVE) tptp.lGiving_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI GIVE) AGENT)) (@ (@ tptp.origin_THFTYPE_IiioI GIVE) AGENT))))
% 2.18/2.69  (assert (forall ((E2 $$unsorted) (ATT $$unsorted) (E1 $$unsorted)) (=> (@ (@ (@ tptp.greaterThanByQuality_THFTYPE_IiiioI E1) E2) ATT) (not (@ (@ (@ tptp.greaterThanByQuality_THFTYPE_IiiioI E2) E1) ATT)))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lReproductiveBody_THFTYPE_i) tptp.lBodyPart_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFinancialTransaction_THFTYPE_i) tptp.lTransaction_THFTYPE_i))
% 2.18/2.69  (assert (forall ((FORMULA Bool)) (let ((_let_1 (@ tptp.modalAttribute_THFTYPE_IoioI FORMULA))) (=> (@ _let_1 tptp.lNecessity_THFTYPE_i) (@ _let_1 tptp.lPossibility_THFTYPE_i)))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGraphCircuit_THFTYPE_i) tptp.lGraphPath_THFTYPE_i))
% 2.18/2.69  (assert (forall ((OBJ $$unsorted) (PURSUE $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PURSUE) tptp.lPursuing_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PURSUE) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI PURSUE) OBJ)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI PURSUE) (@ (@ tptp.wants_THFTYPE_IiioI AGENT) OBJ)))))
% 2.18/2.69  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lWarmBloodedVertebrate_THFTYPE_i) tptp.lColdBloodedVertebrate_THFTYPE_i))
% 2.18/2.69  (assert (forall ((NUMBER $$unsorted) (QUANT $$unsorted) (UNIT $$unsorted)) (=> (and (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) UNIT) QUANT) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfDuration_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI QUANT) tptp.lTimeDuration_THFTYPE_i))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSubstituting_THFTYPE_i) tptp.lDualObjectProcess_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAugust_THFTYPE_i) tptp.lMonth_THFTYPE_i))
% 2.18/2.69  (assert (forall ((VIRUS $$unsorted) (PROC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI VIRUS) tptp.lVirus_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lReplication_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PROC) VIRUS)) (exists ((CELL $$unsorted)) (and (@ (@ tptp.located_THFTYPE_IiioI PROC) CELL) (@ (@ tptp.instance_THFTYPE_IiioI CELL) tptp.lCell_THFTYPE_i))))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSexAttribute_THFTYPE_i) tptp.lBiologicalAttribute_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDrinking_THFTYPE_i) tptp.lIngesting_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lReligiousOrganization_THFTYPE_i) tptp.lBeliefGroup_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lServiceProcess_THFTYPE_i) tptp.lSocialInteraction_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBiologicalProcess_THFTYPE_i) tptp.lInternalChange_THFTYPE_i))
% 2.18/2.69  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ tptp.connected_THFTYPE_IiioI OBJ1) OBJ2) (or (@ (@ tptp.meetsSpatially_THFTYPE_IiioI OBJ1) OBJ2) (@ (@ tptp.overlapsSpatially_THFTYPE_IiioI OBJ1) OBJ2)))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lContentBearingObject_THFTYPE_i) tptp.lContentBearingPhysical_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lChemicalProcess_THFTYPE_i) tptp.lInternalChange_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lSquareRootFn_THFTYPE_i) tptp.lNumber_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCanine_THFTYPE_i) tptp.lCarnivore_THFTYPE_i))
% 2.18/2.69  (assert (forall ((COOL $$unsorted) (OBJ $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI COOL) tptp.lCooling_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI COOL) OBJ)) (exists ((UNIT $$unsorted) (QUANT1 $$unsorted) (QUANT2 $$unsorted)) (let ((_let_1 (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI OBJ) UNIT))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI COOL))) (and (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lTemperatureMeasure_THFTYPE_i) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (= _let_1 QUANT1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (= _let_1 QUANT2)) (@ (@ tptp.lt_THFTYPE_IiioI QUANT2) QUANT1))))))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lJudging_THFTYPE_i) tptp.lSelecting_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lHearing_THFTYPE_i) tptp.lPerception_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTernaryPredicate_THFTYPE_i) tptp.lPredicate_THFTYPE_i))
% 2.18/2.69  (assert (forall ((OBJ $$unsorted) (ATTACK $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ATTACK) tptp.lAttack_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI ATTACK) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI ATTACK) OBJ)) (@ (@ (@ tptp.hasPurposeForAgent_THFTYPE_IioioI ATTACK) (exists ((DAMAGE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI DAMAGE) tptp.lDamaging_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI DAMAGE) OBJ)))) AGENT))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBreathing_THFTYPE_i) tptp.lOrganismProcess_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDrying_THFTYPE_i) tptp.lRemoving_THFTYPE_i))
% 2.18/2.69  (assert (forall ((MELT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MELT) tptp.lMelting_THFTYPE_i) (exists ((HEAT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI HEAT) tptp.lHeating_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI HEAT) MELT))))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCircle_THFTYPE_i) tptp.lOval_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPositiveInteger_THFTYPE_i) tptp.lPositiveRealNumber_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCommercialService_THFTYPE_i) tptp.lFinancialTransaction_THFTYPE_i))
% 2.18/2.69  (assert (forall ((BANK $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI BANK) tptp.lShoreArea_THFTYPE_i) (exists ((WATER $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI WATER) tptp.lWaterArea_THFTYPE_i) (@ (@ tptp.meetsSpatially_THFTYPE_IiioI BANK) WATER))))))
% 2.18/2.69  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (let ((_let_1 (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2))) (= (@ _let_1 tptp.lAdjacent_THFTYPE_i) (or (@ _let_1 tptp.lNear_THFTYPE_i) (@ (@ tptp.connected_THFTYPE_IiioI OBJ1) OBJ2))))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTransportationDevice_THFTYPE_i) tptp.lDevice_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSingleValuedRelation_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTransportation_THFTYPE_i) tptp.lTranslocation_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSubatomicParticle_THFTYPE_i) tptp.lElementalSubstance_THFTYPE_i))
% 2.18/2.69  (assert (forall ((BACTERIUM $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI BACTERIUM) tptp.lBacterium_THFTYPE_i) (exists ((CELL1 $$unsorted)) (and (@ (@ tptp.component_THFTYPE_IiioI CELL1) BACTERIUM) (@ (@ tptp.instance_THFTYPE_IiioI CELL1) tptp.lCell_THFTYPE_i) (forall ((CELL2 $$unsorted)) (=> (and (@ (@ tptp.component_THFTYPE_IiioI CELL2) BACTERIUM) (@ (@ tptp.instance_THFTYPE_IiioI CELL2) tptp.lCell_THFTYPE_i)) (= CELL1 CELL2))))))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMicroorganism_THFTYPE_i) tptp.lOrganism_THFTYPE_i))
% 2.18/2.69  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (= (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) tptp.lEast_THFTYPE_i) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ2) OBJ1) tptp.lWest_THFTYPE_i))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTotalOrderingRelation_THFTYPE_i) tptp.lTrichotomizingRelation_THFTYPE_i))
% 2.18/2.69  (assert (forall ((CLASS $$unsorted) (ROW $$unsorted)) (=> (@ (@ tptp.disjointDecomposition_THFTYPE_IiioI CLASS) ROW) (forall ((ITEM $$unsorted)) (=> (@ (@ tptp.inList_THFTYPE_IiioI ITEM) (@ tptp.lListFn_THFTYPE_IiiI ROW)) (@ (@ tptp.subclass_THFTYPE_IiioI ITEM) CLASS))))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRelation_THFTYPE_i) tptp.lAbstract_THFTYPE_i))
% 2.18/2.69  (assert (forall ((OBJ $$unsorted) (MOTION $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MOTION) tptp.lGasMotion_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI MOTION) OBJ)) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) tptp.lGas_THFTYPE_i))))
% 2.18/2.69  (assert (forall ((YEAR $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI YEAR) tptp.lYear_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI YEAR) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1_THFTYPE_i) tptp.lYearDuration_THFTYPE_i)))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDecember_THFTYPE_i) tptp.lMonth_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPredicate_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lTimeIntervalFn_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.69  (assert (forall ((HOLE $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (and (@ (@ tptp.properlyFills_THFTYPE_IiioI OBJ1) HOLE) (@ (@ tptp.connected_THFTYPE_IiioI OBJ2) OBJ1)) (@ (@ tptp.connected_THFTYPE_IiioI HOLE) OBJ2))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTemperatureMeasure_THFTYPE_i) tptp.lConstantQuantity_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDiseaseOrSyndrome_THFTYPE_i) tptp.lBiologicalAttribute_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDeductiveArgument_THFTYPE_i) tptp.lArgument_THFTYPE_i))
% 2.18/2.69  (assert (forall ((CLASS $$unsorted) (INTERVAL_TYPE $$unsorted) (INTERVAL $$unsorted)) (=> (= (@ (@ tptp.lTemporalCompositionFn_THFTYPE_IiiiI INTERVAL) INTERVAL_TYPE) CLASS) (forall ((TIME1 $$unsorted) (TIME2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TIME1) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI TIME2) CLASS) (not (= TIME1 TIME2))) (or (@ (@ tptp.meetsTemporally_THFTYPE_IiioI TIME1) TIME2) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI TIME2) TIME1) (@ (@ tptp.earlier_THFTYPE_IiioI TIME1) TIME2) (@ (@ tptp.earlier_THFTYPE_IiioI TIME2) TIME1)))))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNegativeInteger_THFTYPE_i) tptp.lNegativeRealNumber_THFTYPE_i))
% 2.18/2.69  (assert (forall ((YEAR $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI YEAR) tptp.lYear_THFTYPE_i) (= (@ tptp.lCardinalityFn_THFTYPE_IiiI (@ (@ tptp.lTemporalCompositionFn_THFTYPE_IiiiI YEAR) tptp.lMonth_THFTYPE_i)) tptp.n12_THFTYPE_i))))
% 2.18/2.69  (assert (forall ((TIME2 $$unsorted) (TIME1 $$unsorted)) (=> (= (@ (@ tptp.lRelativeTimeFn_THFTYPE_IiiiI TIME1) tptp.lPacificTimeZone_THFTYPE_i) TIME2) (= TIME2 (@ (@ tptp.plus_THFTYPE_IiiiI TIME1) tptp.n8_THFTYPE_i)))))
% 2.18/2.69  (assert (forall ((FORMULA Bool) (AGENT2 $$unsorted) (AGENT1 $$unsorted)) (=> (@ (@ (@ tptp.confersRight_THFTYPE_IoiioI FORMULA) AGENT1) AGENT2) (@ (@ tptp.holdsRight_THFTYPE_IoioI FORMULA) AGENT2))))
% 2.18/2.69  (assert (forall ((PERSON $$unsorted) (ATTRIBUTE $$unsorted)) (=> (and (@ (@ tptp.attribute_THFTYPE_IiioI PERSON) ATTRIBUTE) (@ (@ tptp.instance_THFTYPE_IiioI ATTRIBUTE) tptp.lSocialRole_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI PERSON) tptp.lHuman_THFTYPE_i))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPredicting_THFTYPE_i) tptp.lIntentionalPsychologicalProcess_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWedding_THFTYPE_i) tptp.lDeclaring_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInvertebrate_THFTYPE_i) tptp.lAnimal_THFTYPE_i))
% 2.18/2.69  (assert (forall ((START $$unsorted) (FINISH $$unsorted) (DROP $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DROP) tptp.lFalling_THFTYPE_i) (@ (@ tptp.origin_THFTYPE_IiioI DROP) START) (@ (@ tptp.destination_THFTYPE_IiioI DROP) FINISH)) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI FINISH) START) tptp.lBelow_THFTYPE_i))))
% 2.18/2.69  (assert (forall ((ORG $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lOrganization_THFTYPE_i) (@ (@ tptp.member_THFTYPE_IiioI AGENT) ORG)) (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lAgent_THFTYPE_i))))
% 2.18/2.69  (assert (forall ((OBJ $$unsorted) (HOLE1 $$unsorted)) (=> (@ (@ tptp.properlyFills_THFTYPE_IiioI OBJ) HOLE1) (exists ((HOLE2 $$unsorted)) (and (@ (@ tptp.part_THFTYPE_IiioI HOLE2) HOLE1) (@ (@ tptp.fills_THFTYPE_IiioI OBJ) HOLE2))))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBook_THFTYPE_i) tptp.lText_THFTYPE_i))
% 2.18/2.69  (assert (forall ((FORMULA Bool)) (let ((_let_1 (@ tptp.modalAttribute_THFTYPE_IoioI FORMULA))) (= (@ _let_1 tptp.lProhibition_THFTYPE_i) (not (@ _let_1 tptp.lPermission_THFTYPE_i))))))
% 2.18/2.69  (assert (forall ((EAT $$unsorted) (CARNIVORE $$unsorted) (PREY $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI CARNIVORE) tptp.lCarnivore_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI EAT) tptp.lEating_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI EAT) CARNIVORE) (@ (@ tptp.patient_THFTYPE_IiioI EAT) PREY)) (@ (@ tptp.instance_THFTYPE_IiioI PREY) tptp.lAnimal_THFTYPE_i))))
% 2.18/2.69  (assert (forall ((OBJ $$unsorted) (BACTERIUM $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI BACTERIUM) tptp.lBacterium_THFTYPE_i) (@ (@ tptp.inhabits_THFTYPE_IiioI BACTERIUM) OBJ)) (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lOrganism_THFTYPE_i))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCurrencyMeasure_THFTYPE_i) tptp.lConstantQuantity_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFatTissue_THFTYPE_i) tptp.lTissue_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lArthropod_THFTYPE_i) tptp.lInvertebrate_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lEvenInteger_THFTYPE_i) tptp.lInteger_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lJanuary_THFTYPE_i) tptp.lMonth_THFTYPE_i))
% 2.18/2.69  (assert (forall ((BOIL $$unsorted) (MELT $$unsorted) (TYPE $$unsorted)) (=> (and (@ (@ tptp.meltingPoint_THFTYPE_IiioI TYPE) MELT) (@ (@ tptp.boilingPoint_THFTYPE_IiioI TYPE) BOIL)) (@ (@ tptp.gtet_THFTYPE_IiioI BOIL) MELT))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCorporation_THFTYPE_i) tptp.lOrganization_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lBeginFn_THFTYPE_i) tptp.lTimePoint_THFTYPE_i))
% 2.18/2.69  (assert (forall ((OBJ $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lSelfConnectedObject_THFTYPE_i) (@ (@ tptp.side_THFTYPE_IiioI (@ tptp.lBackFn_THFTYPE_IiiI OBJ)) OBJ))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAir_THFTYPE_i) tptp.lGasMixture_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMyriapod_THFTYPE_i) tptp.lArthropod_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ (@ (@ (@ (@ tptp.exhaustiveAttribute_THFTYPE_IiiiiiioI tptp.lPhysicalState_THFTYPE_i) tptp.lSolid_THFTYPE_i) tptp.lFluid_THFTYPE_i) tptp.lLiquid_THFTYPE_i) tptp.lGas_THFTYPE_i) tptp.lPlasma_THFTYPE_i))
% 2.18/2.69  (assert (forall ((HOLE $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (and (@ (@ tptp.fills_THFTYPE_IiioI OBJ1) HOLE) (@ (@ tptp.properPart_THFTYPE_IiioI OBJ2) OBJ1)) (@ (@ tptp.properlyFills_THFTYPE_IiioI OBJ2) HOLE))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFictionalText_THFTYPE_i) tptp.lText_THFTYPE_i))
% 2.18/2.69  (assert (forall ((ACT $$unsorted) (FOOD $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ACT) tptp.lIngesting_THFTYPE_i) (@ (@ tptp.resource_THFTYPE_IiioI ACT) FOOD)) (@ (@ tptp.instance_THFTYPE_IiioI FOOD) tptp.lFood_THFTYPE_i))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lHouse_THFTYPE_i) tptp.lResidentialBuilding_THFTYPE_i))
% 2.18/2.69  (assert (forall ((NUMBER $$unsorted) (ROW $$unsorted)) (=> (= (@ tptp.lGreatestCommonDivisorFn_THFTYPE_IiiI ROW) NUMBER) (forall ((ELEMENT $$unsorted)) (=> (@ (@ tptp.inList_THFTYPE_IiioI ELEMENT) (@ tptp.lListFn_THFTYPE_IiiI ROW)) (= (@ (@ tptp.lRemainderFn_THFTYPE_IiiiI ELEMENT) NUMBER) tptp.n0_THFTYPE_i))))))
% 2.18/2.69  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lIntegerSquareRootFn_THFTYPE_i) tptp.lNonnegativeInteger_THFTYPE_i))
% 2.18/2.69  (assert (forall ((QUANT $$unsorted) (N $$unsorted)) (=> (= QUANT (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI N) tptp.lAngularDegree_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI QUANT) tptp.lPlaneAngleMeasure_THFTYPE_i))))
% 2.18/2.69  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lMaxFn_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.69  (assert (forall ((AGENT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lCognitiveAgent_THFTYPE_i) (@ (@ (@ tptp.capability_THFTYPE_IiIiioIioI tptp.lReasoning_THFTYPE_i) tptp.agent_THFTYPE_IiioI) AGENT))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lIntransitiveRelation_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.trichotomizingOn_THFTYPE_IIiioIioI tptp.greaterThanOrEqualTo_THFTYPE_IiioI) tptp.lRealNumber_THFTYPE_i))
% 2.18/2.69  (assert (forall ((AGENT $$unsorted) (REL (-> $$unsorted $$unsorted Bool)) (THING $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lObjectAttitude_THFTYPE_i) (@ (@ REL AGENT) THING)) (@ (@ tptp.instance_THFTYPE_IiioI THING) tptp.lPhysical_THFTYPE_i))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCorpuscularObject_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSequenceFunction_THFTYPE_i) tptp.lOneToOneFunction_THFTYPE_i))
% 2.18/2.69  (assert (forall ((OBJ $$unsorted) (DISCOVER $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DISCOVER) tptp.lDiscovering_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI DISCOVER) OBJ)) (exists ((PURSUE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PURSUE) tptp.lPursuing_THFTYPE_i) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI PURSUE)) (@ tptp.lWhenFn_THFTYPE_IiiI DISCOVER)))))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPsychologicalDysfunction_THFTYPE_i) tptp.lPsychologicalAttribute_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSeed_THFTYPE_i) tptp.lReproductiveBody_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCombining_THFTYPE_i) tptp.lDualObjectProcess_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAnimacyAttribute_THFTYPE_i) tptp.lBiologicalAttribute_THFTYPE_i))
% 2.18/2.69  (assert (forall ((QUANT2 $$unsorted) (OBJ $$unsorted) (QUANT1 $$unsorted) (PROC $$unsorted)) (let ((_let_1 (@ tptp.measure_THFTYPE_IiioI OBJ))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI PROC))) (=> (and (@ (@ tptp.resource_THFTYPE_IiioI PROC) OBJ) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (@ _let_1 QUANT1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (@ _let_1 QUANT2))) (@ (@ tptp.gt_THFTYPE_IiioI QUANT1) QUANT2))))))
% 2.18/2.69  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lHoleHostFn_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPhysicalState_THFTYPE_i) tptp.lInternalAttribute_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lKappaFn_THFTYPE_i) tptp.lClass_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPrecipitation_THFTYPE_i) tptp.lWeatherProcess_THFTYPE_i))
% 2.18/2.69  (assert (forall ((REL (-> $$unsorted $$unsorted Bool))) (= (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lIntransitiveRelation_THFTYPE_i) (forall ((INST1 $$unsorted) (INST2 $$unsorted) (INST3 $$unsorted)) (let ((_let_1 (@ REL INST1))) (=> (and (@ _let_1 INST2) (@ (@ REL INST2) INST3)) (not (@ _let_1 INST3))))))))
% 2.18/2.69  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lCalorie_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n4dot1868_THFTYPE_i)) tptp.lJoule_THFTYPE_i)))))
% 2.18/2.69  (assert (forall ((CONTEST $$unsorted) (MANEUVER $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI MANEUVER))) (=> (and (@ _let_1 tptp.lManeuver_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI CONTEST) tptp.lViolentContest_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI MANEUVER) CONTEST)) (or (@ _let_1 tptp.lAttack_THFTYPE_i) (@ _let_1 tptp.lDefensiveManeuver_THFTYPE_i))))))
% 2.18/2.69  (assert (forall ((O $$unsorted) (S $$unsorted) (TOP $$unsorted)) (=> (and (@ (@ tptp.top_THFTYPE_IiioI TOP) O) (@ (@ tptp.side_THFTYPE_IiioI S) O)) (not (= TOP S)))))
% 2.18/2.69  (assert (forall ((WAY $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI WAY) tptp.lTransitway_THFTYPE_i) (@ tptp.hasPurpose_THFTYPE_IooI (exists ((TRANSPORT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI TRANSPORT) tptp.lTransportation_THFTYPE_i) (@ (@ tptp.path_THFTYPE_IiioI TRANSPORT) WAY)))))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInheritableRelation_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 2.18/2.69  (assert (forall ((OBJ $$unsorted) (PLAN Bool)) (=> (and (@ (@ tptp.instance_THFTYPE_IoioI PLAN) tptp.lPlan_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lContentBearingObject_THFTYPE_i) (@ (@ tptp.containsInformation_THFTYPE_IiooI OBJ) PLAN)) (exists ((PLANNING $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PLANNING) tptp.lPlanning_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI PLANNING) OBJ))))))
% 2.18/2.69  (assert (@ (@ (@ (@ tptp.partition_THFTYPE_IiiiioI tptp.lOrganism_THFTYPE_i) tptp.lAnimal_THFTYPE_i) tptp.lPlant_THFTYPE_i) tptp.lMicroorganism_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDigesting_THFTYPE_i) tptp.lAutonomicProcess_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCertificate_THFTYPE_i) tptp.lText_THFTYPE_i))
% 2.18/2.69  (assert (forall ((NUMBER $$unsorted) (QUANT $$unsorted) (UNIT $$unsorted)) (=> (and (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) UNIT) QUANT) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfVolume_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI QUANT) tptp.lVolumeMeasure_THFTYPE_i))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTextureAttribute_THFTYPE_i) tptp.lPerceptualAttribute_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lParticleWord_THFTYPE_i) tptp.lWord_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMoss_THFTYPE_i) tptp.lNonFloweringPlant_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPlan_THFTYPE_i) tptp.lProcedure_THFTYPE_i))
% 2.18/2.69  (assert (forall ((MONTH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MONTH) tptp.lJuly_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI MONTH) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n31_THFTYPE_i) tptp.lDayDuration_THFTYPE_i)))))
% 2.18/2.69  (assert (@ (@ tptp.subAttribute_THFTYPE_IiioI tptp.lEmbryonic_THFTYPE_i) tptp.lNonFullyFormed_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBinaryRelation_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 2.18/2.69  (assert (forall ((MILLIUNIT $$unsorted) (UNIT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfMeasure_THFTYPE_i) (= MILLIUNIT (@ tptp.lMilliFn_THFTYPE_IiiI UNIT))) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1_THFTYPE_i) MILLIUNIT) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n0dot001_THFTYPE_i) UNIT)))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lVerb_THFTYPE_i) tptp.lWord_THFTYPE_i))
% 2.18/2.69  (assert (forall ((ACT $$unsorted) (ANIMAL $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ACT) tptp.lSurgery_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI ACT) ANIMAL)) (exists ((SUBACT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI SUBACT) tptp.lCutting_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI ANIMAL) tptp.lAnimal_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI SUBACT) ANIMAL) (@ (@ tptp.subProcess_THFTYPE_IiioI SUBACT) ACT))))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLearning_THFTYPE_i) tptp.lIntentionalPsychologicalProcess_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSport_THFTYPE_i) tptp.lGame_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lPowerSetFn_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.69  (assert (forall ((OBJ $$unsorted) (FUNGUS $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI FUNGUS) tptp.lFungus_THFTYPE_i) (@ (@ tptp.inhabits_THFTYPE_IiioI FUNGUS) OBJ)) (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lOrganism_THFTYPE_i))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDefensiveManeuver_THFTYPE_i) tptp.lManeuver_THFTYPE_i))
% 2.18/2.69  (assert (forall ((GRAB $$unsorted) (AGENT $$unsorted) (THING $$unsorted)) (let ((_let_1 (@ (@ tptp.grasps_THFTYPE_IiioI AGENT) THING))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI GRAB))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI GRAB) tptp.lGrabbing_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI GRAB) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI GRAB) THING)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (not _let_1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) _let_1)))))))
% 2.18/2.69  (assert (@ (@ tptp.subAttribute_THFTYPE_IiioI tptp.lPlasma_THFTYPE_i) tptp.lFluid_THFTYPE_i))
% 2.18/2.69  (assert (forall ((ALT $$unsorted) (OBJ $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ALT) tptp.lShapeChange_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI ALT) OBJ)) (exists ((PROPERTY $$unsorted)) (let ((_let_1 (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) PROPERTY))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI ALT))) (let ((_let_3 (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)))) (let ((_let_4 (not _let_1))) (let ((_let_5 (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)))) (and (@ (@ tptp.instance_THFTYPE_IiioI PROPERTY) tptp.lShapeAttribute_THFTYPE_i) (or (and (@ _let_5 _let_1) (@ _let_3 _let_4)) (and (@ _let_5 _let_4) (@ _let_3 _let_1)))))))))))))
% 2.18/2.69  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lKilogram_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n1000_THFTYPE_i)) tptp.lGram_THFTYPE_i)))))
% 2.18/2.69  (assert (forall ((DAY $$unsorted) (NUMBER $$unsorted) (HOUR $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI HOUR) (@ (@ tptp.lHourFn_THFTYPE_IiiiI NUMBER) DAY)) (@ (@ tptp.lt_THFTYPE_IiioI NUMBER) tptp.n24_THFTYPE_i))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lApe_THFTYPE_i) tptp.lPrimate_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGivingBack_THFTYPE_i) tptp.lGiving_THFTYPE_i))
% 2.18/2.69  (assert (forall ((TIME $$unsorted) (PHYS $$unsorted)) (let ((_let_1 (@ tptp.lWhenFn_THFTYPE_IiiI PHYS))) (= (and (@ (@ tptp.time_THFTYPE_IiioI PHYS) TIME) (@ (@ tptp.instance_THFTYPE_IiioI TIME) tptp.lTimePoint_THFTYPE_i)) (@ (@ (@ tptp.temporallyBetweenOrEqual_THFTYPE_IiiioI (@ tptp.lBeginFn_THFTYPE_IiiI _let_1)) TIME) (@ tptp.lEndFn_THFTYPE_IiiI _let_1))))))
% 2.18/2.69  (assert (forall ((AGENT $$unsorted) (ENTITY $$unsorted) (REP $$unsorted)) (=> (@ (@ (@ tptp.representsForAgent_THFTYPE_IiiioI REP) ENTITY) AGENT) (@ (@ tptp.represents_THFTYPE_IiioI REP) ENTITY))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lImpacting_THFTYPE_i) tptp.lTouching_THFTYPE_i))
% 2.18/2.69  (assert (forall ((REL2 $$unsorted) (NUMBER $$unsorted) (CLASS1 $$unsorted) (CLASS2 $$unsorted) (REL1 $$unsorted)) (=> (and (@ (@ (@ tptp.domainSubclass_THFTYPE_IiiioI REL1) NUMBER) CLASS1) (@ (@ (@ tptp.domainSubclass_THFTYPE_IiiioI REL2) NUMBER) CLASS2) (@ (@ tptp.disjoint_THFTYPE_IiioI CLASS1) CLASS2)) (@ (@ tptp.disjointRelation_THFTYPE_IiioI REL1) REL2))))
% 2.18/2.69  (assert (forall ((PROCESS $$unsorted) (ORGANISM $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ORGANISM) tptp.lOrganism_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PROCESS) ORGANISM)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI PROCESS)) (@ (@ tptp.attribute_THFTYPE_IiioI ORGANISM) tptp.lLiving_THFTYPE_i)))))
% 2.18/2.69  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lHoleSkinFn_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGrabbing_THFTYPE_i) tptp.lTouching_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lClass_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lShapeChange_THFTYPE_i) tptp.lInternalChange_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lInteger_THFTYPE_i) tptp.lNegativeInteger_THFTYPE_i) tptp.lNonnegativeInteger_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnitOfMeasureMultiplier_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lStationaryArtifact_THFTYPE_i) tptp.lArtifact_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSolidAngleMeasure_THFTYPE_i) tptp.lAngleMeasure_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFish_THFTYPE_i) tptp.lColdBloodedVertebrate_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lChemicalSynthesis_THFTYPE_i) tptp.lChemicalProcess_THFTYPE_i))
% 2.18/2.69  (assert (forall ((CLASS1 $$unsorted) (CLASS2 $$unsorted)) (= (and (@ (@ tptp.subsumesContentClass_THFTYPE_IiioI CLASS1) CLASS2) (@ (@ tptp.subsumesContentClass_THFTYPE_IiioI CLASS2) CLASS1)) (@ (@ tptp.equivalentContentClass_THFTYPE_IiioI CLASS1) CLASS2))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTimeMeasure_THFTYPE_i) tptp.lConstantQuantity_THFTYPE_i))
% 2.18/2.69  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lByte_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n8_THFTYPE_i)) tptp.lBit_THFTYPE_i)))))
% 2.18/2.69  (assert (forall ((SECOND $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SECOND) tptp.lSecond_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI SECOND) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1_THFTYPE_i) tptp.lSecondDuration_THFTYPE_i)))))
% 2.18/2.69  (assert (forall ((OBJ $$unsorted) (REGION $$unsorted)) (=> (@ (@ tptp.exactlyLocated_THFTYPE_IiioI OBJ) REGION) (not (exists ((OTHEROBJ $$unsorted)) (and (@ (@ tptp.exactlyLocated_THFTYPE_IiioI OTHEROBJ) REGION) (not (= OTHEROBJ OBJ))))))))
% 2.18/2.69  (assert (forall ((COVER $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI COVER) tptp.lBodyCovering_THFTYPE_i) (exists ((BODY $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI BODY))) (and (@ (@ tptp.superficialPart_THFTYPE_IiioI COVER) BODY) (or (@ _let_1 tptp.lOrganism_THFTYPE_i) (@ _let_1 tptp.lBodyPart_THFTYPE_i))))))))
% 2.18/2.69  (assert (forall ((TIME $$unsorted) (SITUATION Bool)) (let ((_let_1 (@ tptp.holdsDuring_THFTYPE_IiooI TIME))) (=> (@ _let_1 (not SITUATION)) (not (@ _let_1 SITUATION))))))
% 2.18/2.69  (assert (forall ((INTERVAL1 $$unsorted) (INTERVAL2 $$unsorted)) (= (@ (@ tptp.overlapsTemporally_THFTYPE_IiioI INTERVAL1) INTERVAL2) (exists ((INTERVAL3 $$unsorted)) (let ((_let_1 (@ tptp.temporalPart_THFTYPE_IiioI INTERVAL3))) (and (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL3) tptp.lTimeInterval_THFTYPE_i) (@ _let_1 INTERVAL1) (@ _let_1 INTERVAL2)))))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNeutron_THFTYPE_i) tptp.lSubatomicParticle_THFTYPE_i))
% 2.18/2.69  (assert (forall ((HUMAN $$unsorted) (PROC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lIntentionalProcess_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PROC) HUMAN) (@ (@ tptp.instance_THFTYPE_IiioI HUMAN) tptp.lAnimal_THFTYPE_i)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI PROC)) (@ (@ tptp.attribute_THFTYPE_IiioI HUMAN) tptp.lAwake_THFTYPE_i)))))
% 2.18/2.69  (assert (forall ((CIRCLE $$unsorted) (RADIUS $$unsorted)) (=> (@ (@ tptp.radius_THFTYPE_IiioI CIRCLE) RADIUS) (exists ((POINT $$unsorted)) (forall ((PART $$unsorted)) (=> (@ (@ tptp.pointOfFigure_THFTYPE_IiioI PART) CIRCLE) (@ (@ (@ tptp.geometricDistance_THFTYPE_IiiioI PART) POINT) RADIUS)))))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPlanning_THFTYPE_i) tptp.lIntentionalPsychologicalProcess_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDecoding_THFTYPE_i) tptp.lWriting_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lCosineFn_THFTYPE_i) tptp.lRealNumber_THFTYPE_i))
% 2.18/2.69  (assert (forall ((KILOUNIT $$unsorted) (UNIT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfMeasure_THFTYPE_i) (= KILOUNIT (@ tptp.lKiloFn_THFTYPE_IiiI UNIT))) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1_THFTYPE_i) KILOUNIT) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1000_THFTYPE_i) UNIT)))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lVisualAttribute_THFTYPE_i) tptp.lPerceptualAttribute_THFTYPE_i))
% 2.18/2.69  (assert (forall ((DRIVE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DRIVE) tptp.lDriving_THFTYPE_i) (exists ((VEHICLE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI VEHICLE) tptp.lVehicle_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI DRIVE) VEHICLE))))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTimeDependentQuantity_THFTYPE_i) tptp.lUnaryConstantFunctionQuantity_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lHumanLanguage_THFTYPE_i) tptp.lLanguage_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lUnionFn_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.69  (assert (forall ((ATTACK $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ATTACK) tptp.lAttack_THFTYPE_i) (exists ((CONTEST $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI CONTEST) tptp.lViolentContest_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI ATTACK) CONTEST))))))
% 2.18/2.69  (assert (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lMinuteFn_THFTYPE_i) tptp.lMinute_THFTYPE_i))
% 2.18/2.69  (assert (forall ((OBJ $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lSelfConnectedObject_THFTYPE_i) (@ (@ tptp.side_THFTYPE_IiioI (@ tptp.lFrontFn_THFTYPE_IiiI OBJ)) OBJ))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSelling_THFTYPE_i) tptp.lFinancialTransaction_THFTYPE_i))
% 2.18/2.69  (assert (forall ((REL2 $$unsorted) (CLASS1 $$unsorted) (REL1 $$unsorted)) (=> (and (@ (@ tptp.subrelation_THFTYPE_IiioI REL1) REL2) (@ (@ tptp.rangeSubclass_THFTYPE_IiioI REL2) CLASS1)) (@ (@ tptp.rangeSubclass_THFTYPE_IiioI REL1) CLASS1))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAlethicAttribute_THFTYPE_i) tptp.lObjectiveNorm_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSeeing_THFTYPE_i) tptp.lPerception_THFTYPE_i))
% 2.18/2.69  (assert (forall ((FROM $$unsorted) (QUANTITY $$unsorted) (CLASS $$unsorted) (TO $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI QUANTITY))) (=> (and (@ _let_1 (@ (@ tptp.lIntervalFn_THFTYPE_IiiiI FROM) TO)) (@ (@ tptp.instance_THFTYPE_IiioI FROM) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI TO) CLASS)) (@ _let_1 CLASS)))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUniqueList_THFTYPE_i) tptp.lList_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lParamilitaryOrganization_THFTYPE_i) tptp.lGovernmentOrganization_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBinaryFunction_THFTYPE_i) tptp.lTernaryRelation_THFTYPE_i))
% 2.18/2.69  (assert (forall ((UNIT $$unsorted) (MICROUNIT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfMeasure_THFTYPE_i) (= MICROUNIT (@ tptp.lMicroFn_THFTYPE_IiiI UNIT))) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1_THFTYPE_i) MICROUNIT) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n0dot000001_THFTYPE_i) UNIT)))))
% 2.18/2.69  (assert (forall ((PROCESS $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI PROCESS) tptp.lDestruction_THFTYPE_i) (exists ((PATIENT $$unsorted)) (let ((_let_1 (@ tptp.lWhenFn_THFTYPE_IiiI PROCESS))) (let ((_let_2 (@ tptp.time_THFTYPE_IiioI PATIENT))) (and (@ (@ tptp.patient_THFTYPE_IiioI PROCESS) PATIENT) (@ _let_2 (@ tptp.lBeginFn_THFTYPE_IiiI _let_1)) (not (@ _let_2 (@ tptp.lEndFn_THFTYPE_IiiI _let_1))))))))))
% 2.18/2.69  (assert (forall ((NUMBER $$unsorted) (QUANT $$unsorted) (UNIT $$unsorted)) (=> (and (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) UNIT) QUANT) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfAngularMeasure_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI QUANT) tptp.lAngleMeasure_THFTYPE_i))))
% 2.18/2.69  (assert (forall ((OBJ $$unsorted) (HOLE1 $$unsorted)) (=> (@ (@ tptp.partiallyFills_THFTYPE_IiioI OBJ) HOLE1) (exists ((HOLE2 $$unsorted)) (and (@ (@ tptp.part_THFTYPE_IiioI HOLE2) HOLE1) (@ (@ tptp.completelyFills_THFTYPE_IiioI OBJ) HOLE2))))))
% 2.18/2.69  (assert (forall ((FORMULA Bool)) (let ((_let_1 (@ tptp.modalAttribute_THFTYPE_IoioI FORMULA))) (=> (@ _let_1 tptp.lPermission_THFTYPE_i) (@ _let_1 tptp.lPossibility_THFTYPE_i)))))
% 2.18/2.69  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lGeneralizedIntersectionFn_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.69  (assert (forall ((ATTACH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ATTACH) tptp.lAttaching_THFTYPE_i) (exists ((OBJ $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lCorpuscularObject_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI ATTACH) OBJ))))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAmbulating_THFTYPE_i) tptp.lTranslocation_THFTYPE_i))
% 2.18/2.69  (assert (forall ((CLASS $$unsorted) (CHILD $$unsorted) (PARENT $$unsorted)) (=> (and (@ (@ tptp.parent_THFTYPE_IiioI CHILD) PARENT) (@ (@ tptp.subclass_THFTYPE_IiioI CLASS) tptp.lOrganism_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI PARENT) CLASS)) (@ (@ tptp.instance_THFTYPE_IiioI CHILD) CLASS))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPatent_THFTYPE_i) tptp.lCertificate_THFTYPE_i))
% 2.18/2.69  (assert (forall ((DECISION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DECISION) tptp.lLegalDecision_THFTYPE_i) (exists ((ACTION $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ACTION) tptp.lLegalAction_THFTYPE_i) (@ (@ tptp.refers_THFTYPE_IiioI DECISION) ACTION))))))
% 2.18/2.69  (assert (forall ((ROW $$unsorted) (ATTRCLASS $$unsorted)) (=> (@ (@ tptp.exhaustiveAttribute_THFTYPE_IiioI ATTRCLASS) ROW) (not (exists ((EL $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI EL) ATTRCLASS) (not (exists ((ATTR $$unsorted) (NUMBER $$unsorted)) (and (= EL ATTR) (= ATTR (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI (@ tptp.lListFn_THFTYPE_IiiI ROW)) NUMBER)))))))))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPursuing_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i))
% 2.18/2.69  (assert (forall ((LANG $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI LANG) tptp.lConstructedLanguage_THFTYPE_i) (exists ((PLAN $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PLAN) tptp.lPlanning_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI PLAN) LANG))))))
% 2.18/2.69  (assert (forall ((PERSON $$unsorted) (ORGANIZATION $$unsorted) (POSITION $$unsorted)) (=> (@ (@ (@ tptp.occupiesPosition_THFTYPE_IiiioI PERSON) POSITION) ORGANIZATION) (@ (@ tptp.member_THFTYPE_IiioI PERSON) ORGANIZATION))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPretending_THFTYPE_i) tptp.lSocialInteraction_THFTYPE_i))
% 2.18/2.69  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ tptp.subsumesContentInstance_THFTYPE_IiioI OBJ1) OBJ2) (forall ((INFO Bool)) (=> (@ (@ tptp.containsInformation_THFTYPE_IiooI OBJ2) INFO) (@ (@ tptp.containsInformation_THFTYPE_IiooI OBJ1) INFO))))))
% 2.18/2.69  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (= (and (@ (@ tptp.subsumesContentInstance_THFTYPE_IiioI OBJ1) OBJ2) (@ (@ tptp.subsumesContentInstance_THFTYPE_IiioI OBJ2) OBJ1)) (@ (@ tptp.equivalentContentInstance_THFTYPE_IiioI OBJ1) OBJ2))))
% 2.18/2.69  (assert (forall ((COMPOUND $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI COMPOUND) tptp.lCompoundSubstance_THFTYPE_i) (exists ((ELEMENT1 $$unsorted) (ELEMENT2 $$unsorted) (PROCESS $$unsorted)) (let ((_let_1 (@ tptp.resource_THFTYPE_IiioI PROCESS))) (and (@ (@ tptp.instance_THFTYPE_IiioI ELEMENT1) tptp.lElementalSubstance_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI ELEMENT2) tptp.lElementalSubstance_THFTYPE_i) (not (= ELEMENT1 ELEMENT2)) (@ (@ tptp.instance_THFTYPE_IiioI PROCESS) tptp.lChemicalSynthesis_THFTYPE_i) (@ _let_1 ELEMENT1) (@ _let_1 ELEMENT2) (@ (@ tptp.result_THFTYPE_IiioI PROCESS) COMPOUND)))))))
% 2.18/2.69  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lWeatherProcess_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i))
% 2.18/2.69  (assert (forall ((C $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI C) tptp.lCircle_THFTYPE_i) (exists ((R $$unsorted)) (@ (@ tptp.radius_THFTYPE_IiioI C) R)))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAreaMeasure_THFTYPE_i) tptp.lFunctionQuantity_THFTYPE_i))
% 2.18/2.69  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lCup_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.div_THFTYPE_IiiiI NUMBER) tptp.n2_THFTYPE_i)) tptp.lPint_THFTYPE_i)))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLinguisticCommunication_THFTYPE_i) tptp.lCommunication_THFTYPE_i))
% 2.18/2.69  (assert (forall ((PROCESS $$unsorted) (THING $$unsorted) (NAME $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PROCESS) tptp.lNaming_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI PROCESS) THING) (@ (@ tptp.destination_THFTYPE_IiioI PROCESS) NAME)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lFutureFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI PROCESS))) (@ (@ tptp.names_THFTYPE_IiioI NAME) THING)))))
% 2.18/2.69  (assert (forall ((NUMBER $$unsorted) (NUMBER2 $$unsorted) (NUMBER1 $$unsorted)) (let ((_let_1 (= NUMBER NUMBER2))) (let ((_let_2 (= NUMBER NUMBER1))) (=> (= (@ (@ tptp.lMinFn_THFTYPE_IiiiI NUMBER1) NUMBER2) NUMBER) (or (and _let_2 (@ (@ tptp.lt_THFTYPE_IiioI NUMBER1) NUMBER2)) (and _let_1 (@ (@ tptp.lt_THFTYPE_IiioI NUMBER2) NUMBER1)) (and _let_2 _let_1)))))))
% 2.18/2.69  (assert (forall ((MEMB $$unsorted) (GROUP $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI GROUP) tptp.lGroup_THFTYPE_i) (@ (@ tptp.member_THFTYPE_IiioI MEMB) GROUP)) (@ (@ tptp.instance_THFTYPE_IiioI MEMB) tptp.lAgent_THFTYPE_i))))
% 2.18/2.69  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lMagnitudeFn_THFTYPE_i) tptp.lRealNumber_THFTYPE_i))
% 2.18/2.69  (assert (forall ((POINT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI POINT) tptp.lTimePoint_THFTYPE_i) (not (= POINT tptp.lNegativeInfinity_THFTYPE_i))) (@ (@ tptp.before_THFTYPE_IiioI tptp.lNegativeInfinity_THFTYPE_i) POINT))))
% 2.18/2.69  (assert (forall ((OBJ $$unsorted) (COLORING $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI COLORING) tptp.lColoring_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI COLORING) OBJ)) (exists ((PROPERTY $$unsorted) (PART $$unsorted)) (let ((_let_1 (@ (@ tptp.attribute_THFTYPE_IiioI PART) PROPERTY))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI COLORING))) (let ((_let_3 (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)))) (let ((_let_4 (not _let_1))) (let ((_let_5 (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)))) (and (@ (@ tptp.part_THFTYPE_IiioI PART) OBJ) (@ (@ tptp.instance_THFTYPE_IiioI PROPERTY) tptp.lColorAttribute_THFTYPE_i) (or (and (@ _let_5 _let_1) (@ _let_3 _let_4)) (and (@ _let_5 _let_4) (@ _let_3 _let_1)))))))))))))
% 2.18/2.69  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lUnitFn_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i))
% 2.18/2.69  (assert (forall ((AMOUNT $$unsorted) (TRANS $$unsorted)) (=> (@ (@ tptp.transactionAmount_THFTYPE_IiioI TRANS) AMOUNT) (exists ((OBJ $$unsorted)) (and (@ (@ tptp.patient_THFTYPE_IiioI TRANS) OBJ) (@ (@ tptp.monetaryValue_THFTYPE_IiioI OBJ) AMOUNT))))))
% 2.18/2.69  (assert (forall ((PARENT2 $$unsorted) (ORGANISM1 $$unsorted) (ORGANISM2 $$unsorted) (PARENT1 $$unsorted)) (let ((_let_1 (@ tptp.parent_THFTYPE_IiioI ORGANISM2))) (let ((_let_2 (@ tptp.parent_THFTYPE_IiioI ORGANISM1))) (=> (and (@ _let_2 PARENT1) (@ _let_1 PARENT1) (@ _let_2 PARENT2) (@ _let_1 PARENT2) (not (= ORGANISM1 ORGANISM2)) (not (= PARENT1 PARENT2))) (@ (@ tptp.sibling_THFTYPE_IiioI ORGANISM1) ORGANISM2))))))
% 2.18/2.69  (assert (forall ((OBJ $$unsorted) (PLACE $$unsorted) (REMOVE $$unsorted)) (let ((_let_1 (@ (@ tptp.located_THFTYPE_IiioI OBJ) PLACE))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI REMOVE))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI REMOVE) tptp.lRemoving_THFTYPE_i) (@ (@ tptp.origin_THFTYPE_IiioI REMOVE) PLACE) (@ (@ tptp.patient_THFTYPE_IiioI REMOVE) OBJ)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) _let_1) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (not _let_1))))))))
% 2.18/2.69  (assert (forall ((WEAPON $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI WEAPON) tptp.lWeapon_THFTYPE_i) (@ (@ (@ tptp.capability_THFTYPE_IiIiioIioI tptp.lDamaging_THFTYPE_i) tptp.instrument_THFTYPE_IiioI) WEAPON))))
% 2.18/2.69  (assert (forall ((REL2 $$unsorted) (NUMBER $$unsorted) (CLASS1 $$unsorted) (CLASS2 $$unsorted) (REL1 $$unsorted)) (=> (and (@ (@ (@ tptp.domain_THFTYPE_IiiioI REL1) NUMBER) CLASS1) (@ (@ (@ tptp.domain_THFTYPE_IiiioI REL2) NUMBER) CLASS2) (@ (@ tptp.disjoint_THFTYPE_IiioI CLASS1) CLASS2)) (@ (@ tptp.disjointRelation_THFTYPE_IiioI REL1) REL2))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOval_THFTYPE_i) tptp.lClosedTwoDimensionalFigure_THFTYPE_i))
% 2.18/2.69  (assert (forall ((PHRASE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PHRASE) tptp.lVerbPhrase_THFTYPE_i) (exists ((VERB $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI VERB) tptp.lVerb_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI VERB) PHRASE))))))
% 2.18/2.69  (assert (forall ((NUMBER $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI NUMBER) tptp.lPositiveRealNumber_THFTYPE_i) (= (@ tptp.lSignumFn_THFTYPE_IiiI NUMBER) tptp.n1_THFTYPE_i))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMaking_THFTYPE_i) tptp.lCreation_THFTYPE_i))
% 2.18/2.69  (assert (forall ((REL2 $$unsorted) (CLASS1 $$unsorted) (CLASS2 $$unsorted) (REL1 $$unsorted)) (=> (and (@ (@ tptp.rangeSubclass_THFTYPE_IiioI REL1) CLASS1) (@ (@ tptp.rangeSubclass_THFTYPE_IiioI REL2) CLASS2) (@ (@ tptp.disjoint_THFTYPE_IiioI CLASS1) CLASS2)) (@ (@ tptp.disjointRelation_THFTYPE_IiioI REL1) REL2))))
% 2.18/2.69  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lTeraFn_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFebruary_THFTYPE_i) tptp.lMonth_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lQuaternaryPredicate_THFTYPE_i) tptp.lQuaternaryRelation_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lCardinalityFn_THFTYPE_i) tptp.lNumber_THFTYPE_i))
% 2.18/2.69  (assert (forall ((DISSEMINATE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DISSEMINATE) tptp.lDisseminating_THFTYPE_i) (exists ((AGENT1 $$unsorted) (AGENT2 $$unsorted)) (let ((_let_1 (@ tptp.destination_THFTYPE_IiioI DISSEMINATE))) (and (@ _let_1 AGENT1) (@ (@ tptp.instance_THFTYPE_IiioI AGENT1) tptp.lCognitiveAgent_THFTYPE_i) (@ _let_1 AGENT2) (@ (@ tptp.instance_THFTYPE_IiioI AGENT2) tptp.lCognitiveAgent_THFTYPE_i) (not (= AGENT1 AGENT2))))))))
% 2.18/2.69  (assert (forall ((TEMP2 $$unsorted) (TEMP1 $$unsorted) (TIME $$unsorted) (SUBSTANCE $$unsorted) (TYPE $$unsorted) (MEASURE $$unsorted)) (let ((_let_1 (@ tptp.holdsDuring_THFTYPE_IiooI TIME))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE) TYPE) (@ (@ tptp.meltingPoint_THFTYPE_IiioI TYPE) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI TEMP1) MEASURE)) (@ _let_1 (@ (@ tptp.measure_THFTYPE_IiioI SUBSTANCE) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI TEMP2) MEASURE))) (@ (@ tptp.instance_THFTYPE_IiioI MEASURE) tptp.lUnitOfTemperature_THFTYPE_i) (@ (@ tptp.lt_THFTYPE_IiioI TEMP2) TEMP1)) (or (@ _let_1 (@ (@ tptp.attribute_THFTYPE_IiioI SUBSTANCE) tptp.lSolid_THFTYPE_i)) (exists ((FREEZE $$unsorted)) (and (@ (@ tptp.overlapsTemporally_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI FREEZE)) TIME) (@ (@ tptp.instance_THFTYPE_IiioI FREEZE) tptp.lFreezing_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI FREEZE) SUBSTANCE))))))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lProbabilityRelation_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAntiSymmetricPositionalAttribute_THFTYPE_i) tptp.lPositionalAttribute_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCreation_THFTYPE_i) tptp.lInternalChange_THFTYPE_i))
% 2.18/2.69  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (= (@ (@ tptp.overlapsSpatially_THFTYPE_IiioI OBJ1) OBJ2) (exists ((OBJ3 $$unsorted)) (let ((_let_1 (@ tptp.part_THFTYPE_IiioI OBJ3))) (and (@ _let_1 OBJ1) (@ _let_1 OBJ2)))))))
% 2.18/2.69  (assert (forall ((DEVICE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DEVICE) tptp.lAttachingDevice_THFTYPE_i) (exists ((ATTACH $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTACH) tptp.lAttaching_THFTYPE_i) (@ (@ tptp.instrument_THFTYPE_IiioI ATTACH) DEVICE))))))
% 2.18/2.69  (assert (forall ((PHRASE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PHRASE) tptp.lNounPhrase_THFTYPE_i) (exists ((NOUN $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI NOUN) tptp.lNoun_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI NOUN) PHRASE))))))
% 2.18/2.69  (assert (forall ((PREMISES Bool) (ARGUMENT Bool) (PROPOSITION Bool)) (=> (and (@ (@ tptp.instance_THFTYPE_IoioI ARGUMENT) tptp.lArgument_THFTYPE_i) (= PREMISES (@ tptp.lPremisesFn_THFTYPE_IooI ARGUMENT))) (= (@ (@ tptp.subProposition_THFTYPE_IoooI PROPOSITION) PREMISES) (@ (@ tptp.premise_THFTYPE_IoooI ARGUMENT) PROPOSITION)))))
% 2.18/2.69  (assert (forall ((PERSON $$unsorted) (ORG $$unsorted) (HIRE $$unsorted)) (let ((_let_1 (@ (@ tptp.employs_THFTYPE_IiioI ORG) PERSON))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI HIRE))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI HIRE) tptp.lHiring_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lOrganization_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI HIRE) ORG) (@ (@ tptp.patient_THFTYPE_IiioI HIRE) PERSON)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (not _let_1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) _let_1)))))))
% 2.18/2.69  (assert (forall ((GRAPH $$unsorted) (NODE1 $$unsorted) (NODE2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI GRAPH) tptp.lGraph_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI NODE1) tptp.lGraphNode_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI NODE2) tptp.lGraphNode_THFTYPE_i) (@ (@ tptp.graphPart_THFTYPE_IiioI NODE1) GRAPH) (@ (@ tptp.graphPart_THFTYPE_IiioI NODE2) GRAPH) (not (= NODE1 NODE2))) (exists ((ARC $$unsorted) (PATH $$unsorted)) (let ((_let_1 (@ tptp.lEndNodeFn_THFTYPE_IiiI PATH))) (let ((_let_2 (@ tptp.lBeginNodeFn_THFTYPE_IiiI PATH))) (or (@ (@ (@ tptp.links_THFTYPE_IiiioI NODE1) NODE2) ARC) (and (@ (@ tptp.subGraph_THFTYPE_IiioI PATH) GRAPH) (@ (@ tptp.instance_THFTYPE_IiioI PATH) tptp.lGraphPath_THFTYPE_i) (or (and (= _let_2 NODE1) (= _let_1 NODE2)) (and (= _let_2 NODE2) (= _let_1 NODE1)))))))))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lVariableArityRelation_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAnatomicalStructure_THFTYPE_i) tptp.lOrganicObject_THFTYPE_i))
% 2.18/2.69  (assert (forall ((RELEASE $$unsorted) (GRAB $$unsorted) (AGENT $$unsorted) (THING $$unsorted)) (let ((_let_1 (@ (@ tptp.grasps_THFTYPE_IiioI AGENT) THING))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI RELEASE))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI RELEASE) tptp.lReleasing_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI GRAB) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI GRAB) THING)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) _let_1) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (not _let_1))))))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lObjectiveNorm_THFTYPE_i) tptp.lNormativeAttribute_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDiscovering_THFTYPE_i) tptp.lIntentionalPsychologicalProcess_THFTYPE_i))
% 2.18/2.69  (assert (forall ((SUB $$unsorted) (AREA $$unsorted)) (=> (@ (@ tptp.geopoliticalSubdivision_THFTYPE_IiioI SUB) AREA) (not (@ (@ tptp.instance_THFTYPE_IiioI SUB) tptp.lNation_THFTYPE_i)))))
% 2.18/2.69  (assert (forall ((CLASS $$unsorted) (ATTR2 $$unsorted) (ATTR1 $$unsorted)) (=> (and (@ (@ tptp.subAttribute_THFTYPE_IiioI ATTR1) ATTR2) (@ (@ tptp.instance_THFTYPE_IiioI ATTR2) CLASS)) (@ (@ tptp.instance_THFTYPE_IiioI ATTR1) CLASS))))
% 2.18/2.69  (assert (forall ((ARTIFACT1 $$unsorted) (ARTIFACT2 $$unsorted)) (=> (@ (@ tptp.version_THFTYPE_IiioI ARTIFACT1) ARTIFACT2) (@ (@ tptp.subclass_THFTYPE_IiioI ARTIFACT1) ARTIFACT2))))
% 2.18/2.69  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted) (OBJ3 $$unsorted)) (let ((_let_1 (@ tptp.connected_THFTYPE_IiioI OBJ1))) (= (@ (@ (@ tptp.connects_THFTYPE_IiiioI OBJ1) OBJ2) OBJ3) (and (@ _let_1 OBJ2) (@ _let_1 OBJ3) (not (@ (@ tptp.connected_THFTYPE_IiioI OBJ2) OBJ3)))))))
% 2.18/2.69  (assert (forall ((OBJ $$unsorted) (INST $$unsorted) (AGENT $$unsorted) (POKE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI POKE) tptp.lPoking_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI POKE) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI POKE) OBJ) (@ (@ tptp.instrument_THFTYPE_IiioI POKE) INST)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI POKE)) (@ (@ (@ tptp.connects_THFTYPE_IiiioI INST) AGENT) OBJ)))))
% 2.18/2.69  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lCentimeter_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n0dot01_THFTYPE_i)) tptp.lMeter_THFTYPE_i)))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnitOfMeasureMultiplier_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.typicallyContainsPart_THFTYPE_IiioI tptp.lVocalCords_THFTYPE_i) tptp.lHuman_THFTYPE_i))
% 2.18/2.69  (assert (forall ((CLASS $$unsorted) (RELATION (-> $$unsorted $$unsorted Bool))) (=> (@ (@ tptp.reflexiveOn_THFTYPE_IIiioIioI RELATION) CLASS) (forall ((INST $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INST) CLASS) (@ (@ RELATION INST) INST))))))
% 2.18/2.69  (assert (forall ((NUMBER $$unsorted) (QUANT $$unsorted) (UNIT $$unsorted)) (=> (and (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) UNIT) QUANT) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfCurrency_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI QUANT) tptp.lCurrencyMeasure_THFTYPE_i))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPollen_THFTYPE_i) tptp.lPlantAnatomicalStructure_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNation_THFTYPE_i) tptp.lLandArea_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGiving_THFTYPE_i) tptp.lChangeOfPossession_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lText_THFTYPE_i) tptp.lContentBearingObject_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lEquivalenceRelation_THFTYPE_i) tptp.lSymmetricRelation_THFTYPE_i))
% 2.18/2.69  (assert (forall ((THING2 $$unsorted) (THING1 $$unsorted)) (=> (= THING1 THING2) (forall ((ATTR $$unsorted)) (= (@ (@ tptp.property_THFTYPE_IiioI THING1) ATTR) (@ (@ tptp.property_THFTYPE_IiioI THING2) ATTR))))))
% 2.18/2.69  (assert (forall ((INT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INT) tptp.lInteger_THFTYPE_i) (= INT (@ tptp.lPredecessorFn_THFTYPE_IiiI (@ tptp.lSuccessorFn_THFTYPE_IiiI INT))))))
% 2.18/2.69  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lRoundFn_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.69  (assert (forall ((NUMBER2 $$unsorted) (NUMBER1 $$unsorted)) (=> (= (@ tptp.lSquareRootFn_THFTYPE_IiiI NUMBER1) NUMBER2) (= (@ (@ tptp.times_THFTYPE_IiiiI NUMBER2) NUMBER2) NUMBER1))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMarch_THFTYPE_i) tptp.lMonth_THFTYPE_i))
% 2.18/2.69  (assert (forall ((PROCESS $$unsorted) (LOC $$unsorted)) (=> (@ (@ tptp.destination_THFTYPE_IiioI PROCESS) LOC) (@ (@ tptp.partlyLocated_THFTYPE_IiioI PROCESS) LOC))))
% 2.18/2.69  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lKiloByte_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n1024_THFTYPE_i)) tptp.lByte_THFTYPE_i)))))
% 2.18/2.69  (assert (forall ((GRAPH $$unsorted) (NUMBER2 $$unsorted) (NUMBER1 $$unsorted)) (not (exists ((PATH1 $$unsorted) (PATH2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PATH1) (@ tptp.lCutSetFn_THFTYPE_IiiI GRAPH)) (@ (@ tptp.instance_THFTYPE_IiioI PATH2) (@ tptp.lMinimalCutSetFn_THFTYPE_IiiI GRAPH)) (@ (@ tptp.pathLength_THFTYPE_IiioI PATH1) NUMBER1) (@ (@ tptp.pathLength_THFTYPE_IiioI PATH2) NUMBER2) (@ (@ tptp.lt_THFTYPE_IiioI NUMBER1) NUMBER2))))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGeometricFigure_THFTYPE_i) tptp.lShapeAttribute_THFTYPE_i))
% 2.18/2.69  (assert (forall ((HOLE $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (and (@ (@ tptp.fills_THFTYPE_IiioI OBJ1) HOLE) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ2) tptp.lFillable_THFTYPE_i)) (not (@ (@ tptp.overlapsSpatially_THFTYPE_IiioI OBJ1) OBJ2)))))
% 2.18/2.69  (assert (forall ((NUMBER $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI NUMBER) tptp.lImaginaryNumber_THFTYPE_i) (exists ((REAL $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI REAL) tptp.lRealNumber_THFTYPE_i) (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI REAL) (@ tptp.lSquareRootFn_THFTYPE_IiiI tptp.minus1_THFTYPE_i))))))))
% 2.18/2.69  (assert (forall ((REP $$unsorted) (CHILD $$unsorted) (PARENT $$unsorted)) (=> (and (@ (@ tptp.parent_THFTYPE_IiioI CHILD) PARENT) (@ (@ tptp.instance_THFTYPE_IiioI REP) tptp.lSexualReproduction_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI REP) PARENT) (@ (@ tptp.result_THFTYPE_IiioI REP) CHILD)) (or (@ (@ tptp.mother_THFTYPE_IiioI CHILD) PARENT) (@ (@ tptp.father_THFTYPE_IiioI CHILD) PARENT)))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lComputerProgram_THFTYPE_i) tptp.lProcedure_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCombustion_THFTYPE_i) tptp.lChemicalDecomposition_THFTYPE_i))
% 2.18/2.69  (assert (forall ((OBJ $$unsorted) (SOUND $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI SOUND) tptp.lRadiatingSound_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI SOUND) OBJ) (@ (@ tptp.attribute_THFTYPE_IiioI SOUND) tptp.lAudible_THFTYPE_i)) (exists ((HUMAN $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI HUMAN) tptp.lHuman_THFTYPE_i) (@ (@ (@ tptp.capability_THFTYPE_IIioIIiioIioI (lambda ((HEAR $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI HEAR) tptp.lHearing_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI HEAR) HUMAN) (@ (@ tptp.destination_THFTYPE_IiioI HEAR) HUMAN) (@ (@ tptp.origin_THFTYPE_IiioI HEAR) OBJ)))) tptp.agent_THFTYPE_IiioI) HUMAN))))))
% 2.18/2.69  (assert (forall ((SUBSTANCE1 $$unsorted) (SUBSTANCE2 $$unsorted) (PROC $$unsorted)) (=> (and (@ (@ tptp.resource_THFTYPE_IiioI PROC) SUBSTANCE1) (@ (@ tptp.result_THFTYPE_IiioI PROC) SUBSTANCE2) (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE1) tptp.lCompoundSubstance_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE2) tptp.lElementalSubstance_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lChemicalDecomposition_THFTYPE_i))))
% 2.18/2.69  (assert (forall ((ARC $$unsorted) (NODE1 $$unsorted) (NODE2 $$unsorted)) (let ((_let_1 (@ tptp.connects_THFTYPE_IiiioI ARC))) (=> (@ (@ _let_1 NODE1) NODE2) (@ (@ _let_1 NODE2) NODE1)))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lList_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lHuman_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPoliceOrganization_THFTYPE_i) tptp.lGovernmentOrganization_THFTYPE_i))
% 2.18/2.69  (assert (forall ((PRIME $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PRIME) tptp.lPrimeNumber_THFTYPE_i) (forall ((NUMBER $$unsorted)) (=> (= (@ (@ tptp.lRemainderFn_THFTYPE_IiiiI PRIME) NUMBER) tptp.n0_THFTYPE_i) (or (= NUMBER tptp.n1_THFTYPE_i) (= NUMBER PRIME)))))))
% 2.18/2.69  (assert (forall ((HOLE2 $$unsorted) (HOLE1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI HOLE1) tptp.lHole_THFTYPE_i) (@ (@ tptp.properPart_THFTYPE_IiioI HOLE2) HOLE1)) (exists ((OBJ $$unsorted)) (and (@ (@ tptp.meetsSpatially_THFTYPE_IiioI HOLE1) OBJ) (not (@ (@ tptp.meetsSpatially_THFTYPE_IiioI HOLE2) OBJ)))))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLeavingAnOrganization_THFTYPE_i) tptp.lOrganizationalProcess_THFTYPE_i))
% 2.18/2.69  (assert (forall ((MONTH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MONTH) tptp.lDecember_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI MONTH) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n31_THFTYPE_i) tptp.lDayDuration_THFTYPE_i)))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lShooting_THFTYPE_i) tptp.lImpelling_THFTYPE_i))
% 2.18/2.69  (assert (forall ((SUBSTANCE $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE) tptp.lSyntheticSubstance_THFTYPE_i) (exists ((PROCESS $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PROCESS) tptp.lIntentionalProcess_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI PROCESS) SUBSTANCE) (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE) tptp.lSubstance_THFTYPE_i))))))
% 2.18/2.69  (assert (forall ((OBJ $$unsorted) (PROCESS $$unsorted)) (=> (@ (@ tptp.origin_THFTYPE_IiioI PROCESS) OBJ) (@ (@ tptp.located_THFTYPE_IiioI (@ (@ tptp.lWhereFn_THFTYPE_IiiiI PROCESS) (@ tptp.lBeginFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI PROCESS)))) (@ (@ tptp.lWhereFn_THFTYPE_IiiiI OBJ) (@ tptp.lBeginFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI OBJ)))))))
% 2.18/2.69  (assert (forall ((INT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INT) tptp.lInteger_THFTYPE_i) (@ (@ tptp.lt_THFTYPE_IiioI INT) (@ tptp.lSuccessorFn_THFTYPE_IiiI INT)))))
% 2.18/2.69  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lGigaFn_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i))
% 2.18/2.69  (assert (forall ((AMBULATE $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI AMBULATE) tptp.lAmbulating_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI AMBULATE) AGENT)) (@ (@ tptp.attribute_THFTYPE_IiioI AGENT) tptp.lStanding_THFTYPE_i))))
% 2.18/2.69  (assert (@ (@ tptp.identityElement_THFTYPE_IIiiiIioI tptp.lMultiplicationFn_THFTYPE_IiiiI) tptp.n1_THFTYPE_i))
% 2.18/2.69  (assert (forall ((SUPERCLASS $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SUPERCLASS) tptp.lPairwiseDisjointClass_THFTYPE_i) (forall ((CLASS1 $$unsorted) (CLASS2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI CLASS1) SUPERCLASS) (@ (@ tptp.instance_THFTYPE_IiioI CLASS2) SUPERCLASS)) (or (= CLASS1 CLASS2) (@ (@ tptp.disjoint_THFTYPE_IiioI CLASS1) CLASS2)))))))
% 2.18/2.69  (assert (forall ((FORMULA Bool) (AGENT2 $$unsorted) (AGENT1 $$unsorted)) (=> (@ (@ (@ tptp.confersObligation_THFTYPE_IoiioI FORMULA) AGENT1) AGENT2) (@ (@ tptp.holdsObligation_THFTYPE_IoioI FORMULA) AGENT2))))
% 2.18/2.69  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMotionPicture_THFTYPE_i) tptp.lText_THFTYPE_i))
% 2.18/2.69  (assert (forall ((OBJ $$unsorted) (T1 $$unsorted) (ORGANISM $$unsorted)) (=> (@ (@ tptp.holdsDuring_THFTYPE_IiooI T1) (@ (@ tptp.inhabits_THFTYPE_IiioI ORGANISM) OBJ)) (exists ((TIME $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI TIME) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.temporalPart_THFTYPE_IiioI TIME) T1) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.located_THFTYPE_IiioI ORGANISM) OBJ)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPoisoning_THFTYPE_i) tptp.lInjuring_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPlantAnatomicalStructure_THFTYPE_i) tptp.lAnatomicalStructure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCrustacean_THFTYPE_i) tptp.lArthropod_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lStateOfMind_THFTYPE_i) tptp.lPsychologicalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMolecule_THFTYPE_i) tptp.lCompoundSubstance_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lListOrderFn_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.70  (assert (forall ((REL (-> $$unsorted $$unsorted Bool))) (= (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lIrreflexiveRelation_THFTYPE_i) (forall ((INST $$unsorted)) (not (@ (@ REL INST) INST))))))
% 2.18/2.70  (assert (forall ((INVESTIGATE $$unsorted) (PROP Bool) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI INVESTIGATE) tptp.lInvestigating_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI INVESTIGATE) AGENT) (@ (@ tptp.patient_THFTYPE_IiooI INVESTIGATE) PROP)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI INVESTIGATE)) (not (@ (@ tptp.knows_THFTYPE_IiooI AGENT) PROP))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTotalValuedRelation_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((FORMULA Bool)) (= (@ (@ tptp.modalAttribute_THFTYPE_IoioI FORMULA) tptp.lObligation_THFTYPE_i) (not (@ (@ tptp.modalAttribute_THFTYPE_IoioI (not FORMULA)) tptp.lPermission_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((ACT $$unsorted) (FOOD $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ACT) tptp.lEating_THFTYPE_i) (@ (@ tptp.resource_THFTYPE_IiioI ACT) FOOD)) (@ (@ tptp.attribute_THFTYPE_IiioI FOOD) tptp.lSolid_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) tptp.lOn_THFTYPE_i) (@ (@ tptp.located_THFTYPE_IiioI OBJ1) OBJ2))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPrecipitation_THFTYPE_i) tptp.lFalling_THFTYPE_i))
% 2.18/2.70  (assert (forall ((INTERVAL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.finishes_THFTYPE_IiioI (@ tptp.lImmediatePastFn_THFTYPE_IiiI INTERVAL)) (@ tptp.lPastFn_THFTYPE_IiiI INTERVAL)))))
% 2.18/2.70  (assert (forall ((CLASS $$unsorted) (FUNCTION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI FUNCTION) tptp.lAssociativeFunction_THFTYPE_i) (forall ((INST1 $$unsorted) (INST2 $$unsorted) (INST3 $$unsorted)) (let ((_let_1 (@ tptp.lAssignmentFn_THFTYPE_IiiiiI FUNCTION))) (let ((_let_2 (@ _let_1 INST1))) (=> (and (@ (@ (@ tptp.domain_THFTYPE_IiiioI FUNCTION) tptp.n1_THFTYPE_i) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI INST1) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI INST2) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI INST3) CLASS)) (= (@ _let_2 (@ (@ _let_1 INST2) INST3)) (@ (@ _let_1 (@ _let_2 INST2)) INST3)))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lViolentContest_THFTYPE_i) tptp.lContest_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lMinimalWeightedPathFn_THFTYPE_i) tptp.lGraphPath_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (IMPACT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI IMPACT) tptp.lImpacting_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI IMPACT) OBJ)) (exists ((IMPEL $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI IMPEL) tptp.lImpelling_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI IMPEL) OBJ) (@ (@ tptp.earlier_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI IMPEL)) (@ tptp.lWhenFn_THFTYPE_IiiI IMPACT)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPutting_THFTYPE_i) tptp.lTransfer_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lArgument_THFTYPE_i) tptp.lProposition_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PROC $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lDirectionChange_THFTYPE_i) (exists ((ATTR $$unsorted)) (let ((_let_1 (@ (@ tptp.manner_THFTYPE_IiioI PROC) ATTR))) (let ((_let_2 (not _let_1))) (let ((_let_3 (@ tptp.lWhenFn_THFTYPE_IiiI PROC))) (let ((_let_4 (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_3)))) (let ((_let_5 (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_3)))) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lDirectionalAttribute_THFTYPE_i) (or (and (@ _let_4 _let_1) (@ _let_5 _let_2)) (and (@ _let_5 _let_1) (@ _let_4 _let_2)))))))))))))
% 2.18/2.70  (assert (forall ((MEMBER $$unsorted) (UNIT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lSocialUnit_THFTYPE_i) (exists ((HOME $$unsorted)) (=> (@ (@ tptp.member_THFTYPE_IiioI MEMBER) UNIT) (@ (@ tptp.home_THFTYPE_IiioI MEMBER) HOME))))))
% 2.18/2.70  (assert (forall ((MONTH1 $$unsorted) (MONTH2 $$unsorted) (YEAR $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MONTH1) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lNovember_THFTYPE_i) YEAR)) (@ (@ tptp.instance_THFTYPE_IiioI MONTH2) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lDecember_THFTYPE_i) YEAR))) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI MONTH1) MONTH2))))
% 2.18/2.70  (assert (forall ((CIRCLE $$unsorted) (LENGTH $$unsorted)) (=> (@ (@ tptp.diameter_THFTYPE_IiioI CIRCLE) LENGTH) (exists ((HALF $$unsorted)) (and (@ (@ tptp.radius_THFTYPE_IiioI CIRCLE) HALF) (= (@ (@ tptp.times_THFTYPE_IiiiI HALF) tptp.n2_THFTYPE_i) LENGTH))))))
% 2.18/2.70  (assert (forall ((MONTH1 $$unsorted) (MONTH2 $$unsorted) (YEAR $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MONTH1) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lJune_THFTYPE_i) YEAR)) (@ (@ tptp.instance_THFTYPE_IiioI MONTH2) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lJuly_THFTYPE_i) YEAR))) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI MONTH1) MONTH2))))
% 2.18/2.70  (assert (forall ((MIX $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MIX) tptp.lGasMixture_THFTYPE_i) (exists ((PART $$unsorted)) (and (@ (@ tptp.part_THFTYPE_IiioI PART) MIX) (@ (@ tptp.attribute_THFTYPE_IiioI PART) tptp.lGas_THFTYPE_i))))))
% 2.18/2.70  (assert (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lMonthFn_THFTYPE_i) tptp.lMonth_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lRealNumber_THFTYPE_i) tptp.lNegativeRealNumber_THFTYPE_i) tptp.lNonnegativeRealNumber_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lEuroCent_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n0dot01_THFTYPE_i)) tptp.lEuroDollar_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRoom_THFTYPE_i) tptp.lStationaryArtifact_THFTYPE_i))
% 2.18/2.70  (assert (forall ((LIST $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI LIST) tptp.lList_THFTYPE_i) (exists ((NUMBER1 $$unsorted) (ITEM1 $$unsorted)) (and (not (= (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST) NUMBER1) ITEM1)) (forall ((NUMBER2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI NUMBER2) tptp.lPositiveInteger_THFTYPE_i) (@ (@ tptp.lt_THFTYPE_IiioI NUMBER2) NUMBER1)) (exists ((ITEM2 $$unsorted)) (= (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST) NUMBER2) ITEM2)))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSinging_THFTYPE_i) tptp.lSpeaking_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSexualReproduction_THFTYPE_i) tptp.lReplication_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSpatialRelation_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((REMEMBER $$unsorted) (FORMULA Bool)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI REMEMBER) tptp.lRemembering_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiooI REMEMBER) FORMULA)) (exists ((TIME $$unsorted)) (let ((_let_1 (@ tptp.lWhenFn_THFTYPE_IiiI REMEMBER))) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) FORMULA) (or (@ (@ tptp.before_THFTYPE_IiioI TIME) _let_1) (@ (@ tptp.earlier_THFTYPE_IiioI TIME) _let_1))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lArticle_THFTYPE_i) tptp.lText_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOneDimensionalFigure_THFTYPE_i) tptp.lGeometricFigure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lListLengthFn_THFTYPE_i) tptp.lNonnegativeInteger_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lMicroFn_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PERSON $$unsorted) (AREA $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI AREA) tptp.lGeopoliticalArea_THFTYPE_i) (@ (@ tptp.leader_THFTYPE_IiioI (@ tptp.lGovernmentFn_THFTYPE_IiiI AREA)) PERSON)) (@ (@ tptp.leader_THFTYPE_IiioI AREA) PERSON))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTasteAttribute_THFTYPE_i) tptp.lPerceptualAttribute_THFTYPE_i))
% 2.18/2.70  (assert (forall ((REL (-> $$unsorted $$unsorted Bool))) (= (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lSymmetricRelation_THFTYPE_i) (forall ((INST1 $$unsorted) (INST2 $$unsorted)) (=> (@ (@ REL INST1) INST2) (@ (@ REL INST2) INST1))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRadiatingXRay_THFTYPE_i) tptp.lRadiatingElectromagnetic_THFTYPE_i))
% 2.18/2.70  (assert (forall ((DEVICE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DEVICE) tptp.lDevice_THFTYPE_i) (exists ((PROC $$unsorted)) (@ (@ (@ tptp.capability_THFTYPE_IiIiioIioI PROC) tptp.instrument_THFTYPE_IiioI) DEVICE)))))
% 2.18/2.70  (assert (forall ((ROW $$unsorted) (ELEMENT $$unsorted)) (=> (@ tptp.contraryAttribute_THFTYPE_IioI ROW) (=> (@ (@ tptp.inList_THFTYPE_IiioI ELEMENT) (@ tptp.lListFn_THFTYPE_IiiI ROW)) (@ (@ tptp.instance_THFTYPE_IiioI ELEMENT) tptp.lAttribute_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((DAY $$unsorted) (NUMBER $$unsorted) (MONTH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DAY) (@ (@ tptp.lDayFn_THFTYPE_IiiiI NUMBER) MONTH)) (@ (@ tptp.ltet_THFTYPE_IiioI NUMBER) tptp.n31_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((AGENT $$unsorted) (RETURN $$unsorted) (DEST $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI RETURN) tptp.lGivingBack_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI RETURN) AGENT) (@ (@ tptp.destination_THFTYPE_IiioI RETURN) DEST)) (exists ((GIVE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI GIVE) tptp.lGiving_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI GIVE) DEST) (@ (@ tptp.destination_THFTYPE_IiioI GIVE) AGENT) (@ (@ tptp.earlier_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI GIVE)) (@ tptp.lWhenFn_THFTYPE_IiiI RETURN)))))))
% 2.18/2.70  (assert (forall ((OBJECT $$unsorted) (PART $$unsorted) (BOTTOM $$unsorted)) (=> (and (@ (@ tptp.bottom_THFTYPE_IiioI BOTTOM) OBJECT) (@ (@ tptp.part_THFTYPE_IiioI PART) OBJECT) (not (@ (@ tptp.connected_THFTYPE_IiioI PART) BOTTOM))) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI PART) BOTTOM) tptp.lAbove_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((TIMECLASS1 $$unsorted) (TIMECLASS2 $$unsorted) (INTERVAL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL) (@ (@ tptp.lRecurrentTimeIntervalFn_THFTYPE_IiiiI TIMECLASS1) TIMECLASS2)) (exists ((TIME1 $$unsorted) (TIME2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI TIME1) TIMECLASS1) (@ (@ tptp.instance_THFTYPE_IiioI TIME2) TIMECLASS2) (@ (@ tptp.starts_THFTYPE_IiioI TIME1) INTERVAL) (@ (@ tptp.finishes_THFTYPE_IiioI TIME2) INTERVAL))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lJudicialProcess_THFTYPE_i) tptp.lPoliticalProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lManualHumanLanguage_THFTYPE_i) tptp.lHumanLanguage_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lSolidAngleMeasure_THFTYPE_i) tptp.lPlaneAngleMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ (@ tptp.contraryAttribute_THFTYPE_IiiiioI tptp.lSolid_THFTYPE_i) tptp.lLiquid_THFTYPE_i) tptp.lGas_THFTYPE_i) tptp.lPlasma_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPrecipitation_THFTYPE_i) tptp.lWaterMotion_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSoundAttribute_THFTYPE_i) tptp.lRelationalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCutting_THFTYPE_i) tptp.lPoking_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CLASS1 $$unsorted) (REL $$unsorted) (CLASS2 $$unsorted)) (let ((_let_1 (@ tptp.rangeSubclass_THFTYPE_IiioI REL))) (=> (and (@ _let_1 CLASS1) (@ _let_1 CLASS2)) (or (@ (@ tptp.subclass_THFTYPE_IiioI CLASS1) CLASS2) (@ (@ tptp.subclass_THFTYPE_IiioI CLASS2) CLASS1))))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (INT $$unsorted)) (=> (= (@ tptp.lCeilingFn_THFTYPE_IiiI NUMBER) INT) (not (exists ((OTHERINT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI OTHERINT) tptp.lInteger_THFTYPE_i) (@ (@ tptp.gtet_THFTYPE_IiioI OTHERINT) NUMBER) (@ (@ tptp.lt_THFTYPE_IiioI OTHERINT) INT)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMilitaryOrganization_THFTYPE_i) tptp.lGovernmentOrganization_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMotionUpward_THFTYPE_i) tptp.lMotion_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMelting_THFTYPE_i) tptp.lStateChange_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBodyCovering_THFTYPE_i) tptp.lBodyPart_THFTYPE_i))
% 2.18/2.70  (assert (forall ((FUND $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI FUND) tptp.lFunding_THFTYPE_i) (exists ((MONEY $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI MONEY) tptp.lCurrency_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI FUND) MONEY))))))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lEntity_THFTYPE_i) tptp.lPhysical_THFTYPE_i) tptp.lAbstract_THFTYPE_i))
% 2.18/2.70  (assert (forall ((GRAPH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI GRAPH) tptp.lGraph_THFTYPE_i) (exists ((NODE1 $$unsorted) (NODE2 $$unsorted) (NODE3 $$unsorted) (ARC1 $$unsorted) (ARC2 $$unsorted)) (and (@ (@ tptp.graphPart_THFTYPE_IiioI NODE1) GRAPH) (@ (@ tptp.graphPart_THFTYPE_IiioI NODE2) GRAPH) (@ (@ tptp.graphPart_THFTYPE_IiioI NODE3) GRAPH) (@ (@ tptp.graphPart_THFTYPE_IiioI ARC1) GRAPH) (@ (@ tptp.graphPart_THFTYPE_IiioI ARC2) GRAPH) (@ (@ (@ tptp.links_THFTYPE_IiiioI NODE1) NODE2) ARC1) (@ (@ (@ tptp.links_THFTYPE_IiiioI NODE2) NODE3) ARC2) (not (= NODE1 NODE2)) (not (= NODE2 NODE3)) (not (= NODE1 NODE3)) (not (= ARC1 ARC2)))))))
% 2.18/2.70  (assert (forall ((MONTH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MONTH) tptp.lNovember_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI MONTH) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n30_THFTYPE_i) tptp.lDayDuration_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((REASON $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI REASON) tptp.lReasoning_THFTYPE_i) (exists ((ARGUMENT Bool)) (and (@ (@ tptp.instance_THFTYPE_IoioI ARGUMENT) tptp.lArgument_THFTYPE_i) (@ (@ tptp.realization_THFTYPE_IiooI REASON) ARGUMENT))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTimeZone_THFTYPE_i) tptp.lRelationalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTasting_THFTYPE_i) tptp.lPerception_THFTYPE_i))
% 2.18/2.70  (assert (forall ((REL (-> $$unsorted $$unsorted Bool)) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IIiioIioI REL))) (=> (and (@ _let_1 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_1 tptp.lSpatialRelation_THFTYPE_i) (@ (@ REL OBJ1) OBJ2)) (@ (@ tptp.overlapsTemporally_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI OBJ1)) (@ tptp.lWhenFn_THFTYPE_IiiI OBJ2))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSolution_THFTYPE_i) tptp.lLiquidMixture_THFTYPE_i))
% 2.18/2.70  (assert (forall ((RUN $$unsorted) (TIME $$unsorted) (AGENT $$unsorted) (LENGTH1 $$unsorted) (LENGTH2 $$unsorted) (WALK $$unsorted)) (let ((_let_1 (@ tptp.measure_THFTYPE_IiioI AGENT))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI WALK) tptp.lWalking_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI RUN) tptp.lRunning_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI WALK) AGENT) (@ (@ tptp.agent_THFTYPE_IiioI RUN) AGENT) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI WALK)) (@ _let_1 (@ (@ tptp.lSpeedFn_THFTYPE_IiiiI LENGTH1) TIME))) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI RUN)) (@ _let_1 (@ (@ tptp.lSpeedFn_THFTYPE_IiiiI LENGTH2) TIME)))) (@ (@ tptp.gt_THFTYPE_IiioI LENGTH2) LENGTH1)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMeat_THFTYPE_i) tptp.lFood_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSetOrClass_THFTYPE_i) tptp.lAbstract_THFTYPE_i))
% 2.18/2.70  (assert (forall ((REP $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI REP) tptp.lReplication_THFTYPE_i) (exists ((BODY $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI BODY) tptp.lReproductiveBody_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI REP) BODY))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInjuring_THFTYPE_i) tptp.lPathologicProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFloweringPlant_THFTYPE_i) tptp.lPlant_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PATH $$unsorted) (NODE1 $$unsorted) (NODE2 $$unsorted)) (=> (= (@ (@ tptp.lMinimalWeightedPathFn_THFTYPE_IiiiI NODE1) NODE2) PATH) (@ (@ tptp.instance_THFTYPE_IiioI PATH) (@ (@ tptp.lGraphPathFn_THFTYPE_IiiiI NODE1) NODE2)))))
% 2.18/2.70  (assert (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lSmooth_THFTYPE_i) tptp.lRough_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMammal_THFTYPE_i) tptp.lWarmBloodedVertebrate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lGovernmentFn_THFTYPE_i) tptp.lGovernment_THFTYPE_i))
% 2.18/2.70  (assert (forall ((GET $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI GET) tptp.lUnilateralGetting_THFTYPE_i) (not (exists ((TRANS $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI TRANS) tptp.lTransaction_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI GET) TRANS)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lIntentionalProcess_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lNumeratorFn_THFTYPE_i) tptp.lInteger_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAmphibian_THFTYPE_i) tptp.lColdBloodedVertebrate_THFTYPE_i))
% 2.18/2.70  (assert (forall ((STRUCTURE $$unsorted) (ANIMAL $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI ANIMAL))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI STRUCTURE) tptp.lAnimalAnatomicalStructure_THFTYPE_i) (@ _let_1 tptp.lOrganism_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI STRUCTURE) ANIMAL)) (@ _let_1 tptp.lAnimal_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lManufacturer_THFTYPE_i) tptp.lCorporation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((POINT $$unsorted) (INTERVAL $$unsorted)) (=> (= (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL) POINT) (forall ((OTHERPOINT $$unsorted)) (=> (and (@ (@ tptp.temporalPart_THFTYPE_IiioI OTHERPOINT) INTERVAL) (not (= OTHERPOINT POINT))) (@ (@ tptp.before_THFTYPE_IiioI POINT) OTHERPOINT))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSingleFamilyResidence_THFTYPE_i) tptp.lPermanentResidence_THFTYPE_i))
% 2.18/2.70  (assert (forall ((DETACH $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (let ((_let_1 (@ (@ tptp.connected_THFTYPE_IiioI OBJ1) OBJ2))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI DETACH))) (let ((_let_3 (@ tptp.patient_THFTYPE_IiioI DETACH))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DETACH) tptp.lDetaching_THFTYPE_i) (@ _let_3 OBJ1) (@ _let_3 OBJ2)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) _let_1) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (not _let_1)))))))))
% 2.18/2.70  (assert (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lEditionFn_THFTYPE_i) tptp.lContentBearingObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWalking_THFTYPE_i) tptp.lAmbulating_THFTYPE_i))
% 2.18/2.70  (assert (forall ((WET $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI WET) tptp.lWetting_THFTYPE_i) (exists ((OBJ $$unsorted)) (and (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) tptp.lLiquid_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI WET) OBJ))))))
% 2.18/2.70  (assert (forall ((FISH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI FISH) tptp.lFish_THFTYPE_i) (exists ((WATER $$unsorted)) (and (@ (@ tptp.inhabits_THFTYPE_IiioI FISH) WATER) (@ (@ tptp.instance_THFTYPE_IiioI WATER) tptp.lWater_THFTYPE_i))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCurrency_THFTYPE_i) tptp.lFinancialInstrument_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSeries_THFTYPE_i) tptp.lText_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lHuman_THFTYPE_i) tptp.lHominid_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (LIST1 $$unsorted) (NUMBER1 $$unsorted) (LIST $$unsorted)) (=> (and (= (@ tptp.lListLengthFn_THFTYPE_IiiI LIST1) NUMBER) (@ (@ tptp.instance_THFTYPE_IiioI LIST) tptp.lList_THFTYPE_i) (not (= LIST tptp.lNullList_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI NUMBER1) tptp.lPositiveInteger_THFTYPE_i)) (exists ((LIST2 $$unsorted) (ITEM $$unsorted)) (let ((_let_1 (@ tptp.lSuccessorFn_THFTYPE_IiiI NUMBER))) (and (@ (@ tptp.initialList_THFTYPE_IiioI LIST1) LIST2) (= _let_1 (@ tptp.lListLengthFn_THFTYPE_IiiI LIST2)) (= (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST2) _let_1) ITEM)))))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lDayDuration_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n24_THFTYPE_i)) tptp.lHourDuration_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFunction_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((AGENT $$unsorted) (TEXT $$unsorted)) (=> (@ (@ tptp.authors_THFTYPE_IiioI AGENT) TEXT) (exists ((PROCESS $$unsorted) (INSTANCE $$unsorted)) (and (@ (@ tptp.agent_THFTYPE_IiioI PROCESS) AGENT) (@ (@ tptp.instance_THFTYPE_IiioI INSTANCE) TEXT) (@ (@ tptp.result_THFTYPE_IiioI PROCESS) TEXT))))))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lWhenFn_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRationalNumber_THFTYPE_i) tptp.lRealNumber_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPositiveRealNumber_THFTYPE_i) tptp.lNonnegativeRealNumber_THFTYPE_i))
% 2.18/2.70  (assert (forall ((INTERVAL1 $$unsorted) (INTERVAL2 $$unsorted)) (= (@ (@ tptp.meetsTemporally_THFTYPE_IiioI INTERVAL1) INTERVAL2) (= (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL1) (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL2)))))
% 2.18/2.70  (assert (forall ((MONTH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MONTH) tptp.lMay_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI MONTH) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n31_THFTYPE_i) tptp.lDayDuration_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((REL (-> $$unsorted $$unsorted Bool))) (= (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lTotalOrderingRelation_THFTYPE_i) (forall ((INST1 $$unsorted) (INST2 $$unsorted)) (let ((_let_1 (@ (@ REL INST2) INST1))) (let ((_let_2 (@ (@ REL INST1) INST2))) (and (or _let_2 _let_1) (or (not _let_2) (not _let_1)))))))))
% 2.18/2.70  (assert (forall ((BOILVAL $$unsorted) (OBJ $$unsorted) (MEAS $$unsorted) (VAL $$unsorted) (EVAP $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI EVAP) tptp.lEvaporating_THFTYPE_i) (@ (@ tptp.boilingPoint_THFTYPE_IiioI OBJ) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI BOILVAL) MEAS)) (@ (@ tptp.measure_THFTYPE_IiioI OBJ) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI VAL) MEAS)) (@ (@ tptp.instance_THFTYPE_IiioI MEAS) tptp.lUnitOfTemperature_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI EVAP) OBJ)) (exists ((PART $$unsorted)) (let ((_let_1 (@ tptp.attribute_THFTYPE_IiioI PART))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI EVAP))) (and (@ (@ tptp.part_THFTYPE_IiioI PART) OBJ) (@ (@ tptp.gt_THFTYPE_IiioI BOILVAL) VAL) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (@ _let_1 tptp.lLiquid_THFTYPE_i)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (@ _let_1 tptp.lGas_THFTYPE_i)))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAnimalSubstance_THFTYPE_i) tptp.lBodySubstance_THFTYPE_i))
% 2.18/2.70  (assert (forall ((COMP2 $$unsorted) (COMP1 $$unsorted)) (= (@ (@ tptp.connectedEngineeringComponents_THFTYPE_IiioI COMP1) COMP2) (exists ((CONNECTION $$unsorted)) (@ (@ (@ tptp.connectsEngineeringComponents_THFTYPE_IiiioI CONNECTION) COMP1) COMP2)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSpore_THFTYPE_i) tptp.lReproductiveBody_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (QUANT $$unsorted) (UNIT $$unsorted)) (=> (and (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfMeasure_THFTYPE_i) (= QUANT (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) UNIT))) (= (@ tptp.lMagnitudeFn_THFTYPE_IiiI QUANT) NUMBER))))
% 2.18/2.70  (assert (@ (@ (@ (@ (@ (@ tptp.disjointDecomposition_THFTYPE_IiiiiiioI tptp.lAbstract_THFTYPE_i) tptp.lQuantity_THFTYPE_i) tptp.lAttribute_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) tptp.lRelation_THFTYPE_i) tptp.lProposition_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CLASS $$unsorted) (INTERVAL_TYPE $$unsorted) (INTERVAL $$unsorted)) (=> (= (@ (@ tptp.lTemporalCompositionFn_THFTYPE_IiiiI INTERVAL) INTERVAL_TYPE) CLASS) (exists ((TIME $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI TIME) CLASS) (@ (@ tptp.starts_THFTYPE_IiioI TIME) INTERVAL))))))
% 2.18/2.70  (assert (forall ((MINUTE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MINUTE) tptp.lMinute_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI MINUTE) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1_THFTYPE_i) tptp.lMinuteDuration_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lContentBearingProcess_THFTYPE_i) tptp.lContentBearingPhysical_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lWealthFn_THFTYPE_i) tptp.lCurrencyMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGeopoliticalArea_THFTYPE_i) tptp.lGeographicArea_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lAbstractionFn_THFTYPE_i) tptp.lAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lComparing_THFTYPE_i) tptp.lIntentionalPsychologicalProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.inverse_THFTYPE_IIiioIIiioIoI tptp.husband_THFTYPE_IiioI) tptp.wife_THFTYPE_IiioI))
% 2.18/2.70  (assert (forall ((PROC2 $$unsorted) (PROC1 $$unsorted)) (=> (@ (@ tptp.causesSubclass_THFTYPE_IiioI PROC1) PROC2) (forall ((INST2 $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INST2) PROC2) (exists ((INST1 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI INST1) PROC1) (@ (@ tptp.causes_THFTYPE_IiioI INST1) INST2))))))))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lPredecessorFn_THFTYPE_i) tptp.lInteger_THFTYPE_i))
% 2.18/2.70  (assert (forall ((REL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI REL) tptp.lQuaternaryPredicate_THFTYPE_i) (@ (@ tptp.valence_THFTYPE_IiioI REL) tptp.n4_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lLogFn_THFTYPE_i) tptp.lRealNumber_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lOrganicObject_THFTYPE_i) tptp.lArtifact_THFTYPE_i))
% 2.18/2.70  (assert (forall ((INSTRUMENT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INSTRUMENT) tptp.lMusicalInstrument_THFTYPE_i) (@ (@ (@ tptp.capability_THFTYPE_IiIiioIioI tptp.lMusic_THFTYPE_i) tptp.instrument_THFTYPE_IiioI) INSTRUMENT))))
% 2.18/2.70  (assert (forall ((PERSON $$unsorted) (JOIN $$unsorted) (ORG $$unsorted)) (let ((_let_1 (@ (@ tptp.member_THFTYPE_IiioI PERSON) ORG))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI JOIN))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI JOIN) tptp.lJoiningAnOrganization_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lOrganization_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI JOIN) PERSON) (@ (@ tptp.patient_THFTYPE_IiioI JOIN) ORG)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (not _let_1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) _let_1)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFalling_THFTYPE_i) tptp.lMotionDownward_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI NUMBER))) (= (@ _let_1 tptp.lNonnegativeRealNumber_THFTYPE_i) (and (@ (@ tptp.gtet_THFTYPE_IiioI NUMBER) tptp.n0_THFTYPE_i) (@ _let_1 tptp.lRealNumber_THFTYPE_i))))))
% 2.18/2.70  (assert (forall ((PERCEPT $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PERCEPT) tptp.lPerception_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PERCEPT) AGENT)) (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lAnimal_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPositiveInteger_THFTYPE_i) tptp.lNonnegativeInteger_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PROCESS $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI PROCESS) tptp.lCreation_THFTYPE_i) (exists ((PATIENT $$unsorted)) (let ((_let_1 (@ tptp.lWhenFn_THFTYPE_IiiI PROCESS))) (let ((_let_2 (@ tptp.time_THFTYPE_IiioI PATIENT))) (and (@ (@ tptp.patient_THFTYPE_IiioI PROCESS) PATIENT) (@ _let_2 (@ tptp.lEndFn_THFTYPE_IiiI _let_1)) (not (@ _let_2 (@ tptp.lBeginFn_THFTYPE_IiiI _let_1))))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNaming_THFTYPE_i) tptp.lDeclaring_THFTYPE_i))
% 2.18/2.70  (assert (forall ((MONTH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MONTH) tptp.lJune_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI MONTH) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n30_THFTYPE_i) tptp.lDayDuration_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lAmbulating_THFTYPE_i) tptp.lWalking_THFTYPE_i) tptp.lRunning_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNoun_THFTYPE_i) tptp.lWord_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lPhysical_THFTYPE_i) tptp.lObject_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((AGENT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lSentientAgent_THFTYPE_i) (@ (@ (@ tptp.capability_THFTYPE_IiIiioIioI tptp.lPerception_THFTYPE_i) tptp.experiencer_THFTYPE_IiioI) AGENT))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWeatherProcess_THFTYPE_i) tptp.lMotion_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lAutonomicProcess_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (QUANT $$unsorted) (UNIT $$unsorted)) (=> (and (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) UNIT) QUANT) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfInformation_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI QUANT) tptp.lInformationMeasure_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((COMMUNICATE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI COMMUNICATE) tptp.lCommunication_THFTYPE_i) (exists ((PHYS $$unsorted) (ENTITY $$unsorted) (AGENT1 $$unsorted) (AGENT2 $$unsorted)) (and (@ (@ tptp.refers_THFTYPE_IiioI PHYS) ENTITY) (@ (@ tptp.patient_THFTYPE_IiioI COMMUNICATE) PHYS) (@ (@ tptp.instance_THFTYPE_IiioI AGENT1) tptp.lCognitiveAgent_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI COMMUNICATE) AGENT1) (@ (@ tptp.instance_THFTYPE_IiioI AGENT2) tptp.lCognitiveAgent_THFTYPE_i) (@ (@ tptp.destination_THFTYPE_IiioI COMMUNICATE) AGENT2))))))
% 2.18/2.70  (assert (forall ((CLASS $$unsorted) (INTERVAL_TYPE $$unsorted) (INTERVAL $$unsorted)) (=> (= (@ (@ tptp.lTemporalCompositionFn_THFTYPE_IiiiI INTERVAL) INTERVAL_TYPE) CLASS) (exists ((TIME $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI TIME) CLASS) (@ (@ tptp.finishes_THFTYPE_IiioI TIME) INTERVAL))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnitOfFrequency_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PERSON $$unsorted) (EDUCATION $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI EDUCATION) tptp.lEducationalProcess_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI EDUCATION) PERSON)) (@ (@ tptp.hasPurpose_THFTYPE_IiooI EDUCATION) (exists ((LEARN $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI LEARN) tptp.lLearning_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI LEARN) PERSON)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGetting_THFTYPE_i) tptp.lChangeOfPossession_THFTYPE_i))
% 2.18/2.70  (assert (forall ((MEASURE2 $$unsorted) (MEASURE1 $$unsorted) (CLOUD $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI CLOUD) tptp.lWaterCloud_THFTYPE_i) (forall ((PART $$unsorted)) (=> (and (@ (@ tptp.part_THFTYPE_IiioI PART) CLOUD) (not (@ (@ tptp.instance_THFTYPE_IiioI PART) tptp.lWater_THFTYPE_i))) (exists ((WATER $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI WATER) tptp.lWater_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI WATER) CLOUD) (@ (@ tptp.measure_THFTYPE_IiioI WATER) MEASURE1) (@ (@ tptp.measure_THFTYPE_IiioI PART) MEASURE2) (@ (@ tptp.gt_THFTYPE_IiioI MEASURE1) MEASURE2))))))))
% 2.18/2.70  (assert (forall ((ROW $$unsorted) (ELEMENT $$unsorted)) (=> (@ tptp.disjointDecomposition_THFTYPE_IioI ROW) (=> (@ (@ tptp.inList_THFTYPE_IiioI ELEMENT) (@ tptp.lListFn_THFTYPE_IiiI ROW)) (@ (@ tptp.instance_THFTYPE_IiioI ELEMENT) tptp.lClass_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((FUN $$unsorted) (CLASS $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI FUN) tptp.lOneToOneFunction_THFTYPE_i) (forall ((ARG1 $$unsorted) (ARG2 $$unsorted)) (let ((_let_1 (@ tptp.lAssignmentFn_THFTYPE_IiiiI FUN))) (=> (and (@ (@ (@ tptp.domain_THFTYPE_IiiioI FUN) tptp.n1_THFTYPE_i) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI ARG1) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI ARG2) CLASS) (not (= ARG1 ARG2))) (not (= (@ _let_1 ARG1) (@ _let_1 ARG2)))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPoliticalProcess_THFTYPE_i) tptp.lOrganizationalProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lObjectAttitude_THFTYPE_i) tptp.lPropositionalAttitude_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSpore_THFTYPE_i) tptp.lPlantAnatomicalStructure_THFTYPE_i))
% 2.18/2.70  (assert (forall ((AGENT $$unsorted) (PROC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lDiagnosticProcess_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PROC) AGENT)) (exists ((CAUSE $$unsorted)) (@ (@ (@ tptp.hasPurposeForAgent_THFTYPE_IioioI PROC) (@ (@ tptp.knows_THFTYPE_IiooI AGENT) (@ (@ tptp.causes_THFTYPE_IiioI CAUSE) PROC))) AGENT)))))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (MELT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MELT) tptp.lMelting_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI MELT) OBJ)) (exists ((PART $$unsorted)) (let ((_let_1 (@ tptp.attribute_THFTYPE_IiioI PART))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI MELT))) (and (@ (@ tptp.part_THFTYPE_IiioI PART) OBJ) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (@ _let_1 tptp.lSolid_THFTYPE_i)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (@ _let_1 tptp.lLiquid_THFTYPE_i)))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lReligiousProcess_THFTYPE_i) tptp.lOrganizationalProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (TIME $$unsorted) (DURATION $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TIME) tptp.lTimePoint_THFTYPE_i) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.age_THFTYPE_IiioI OBJ) DURATION))) (@ (@ tptp.duration_THFTYPE_IiioI (@ (@ tptp.lTimeIntervalFn_THFTYPE_IiiiI (@ tptp.lBeginFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI OBJ))) TIME)) DURATION))))
% 2.18/2.70  (assert (forall ((CHILD $$unsorted) (PARENT $$unsorted)) (=> (and (@ (@ tptp.parent_THFTYPE_IiioI CHILD) PARENT) (@ (@ tptp.attribute_THFTYPE_IiioI PARENT) tptp.lMale_THFTYPE_i)) (@ (@ tptp.father_THFTYPE_IiioI CHILD) PARENT))))
% 2.18/2.70  (assert (forall ((PROP $$unsorted) (FORMULA1 Bool) (FORMULA2 Bool)) (=> (and (@ (@ tptp.modalAttribute_THFTYPE_IoioI FORMULA1) PROP) (@ (@ tptp.entails_THFTYPE_IoooI FORMULA1) FORMULA2)) (@ (@ tptp.modalAttribute_THFTYPE_IoioI FORMULA2) PROP))))
% 2.18/2.70  (assert (forall ((OBJECT $$unsorted) (AGENT $$unsorted)) (= (exists ((PROCESS $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PROCESS) tptp.lIntentionalProcess_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PROCESS) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI PROCESS) OBJECT))) (@ (@ tptp.inScopeOfInterest_THFTYPE_IiioI AGENT) OBJECT))))
% 2.18/2.70  (assert (forall ((INSERT $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (let ((_let_1 (@ (@ tptp.contains_THFTYPE_IiioI OBJ2) OBJ1))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI INSERT))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI INSERT) tptp.lInserting_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI INSERT) OBJ1) (@ (@ tptp.destination_THFTYPE_IiioI INSERT) OBJ2)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (not _let_1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) _let_1)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMutuallyDisjointClass_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.70  (assert (forall ((MACHINE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MACHINE) tptp.lMachine_THFTYPE_i) (forall ((PROC $$unsorted)) (=> (@ (@ tptp.instrument_THFTYPE_IiioI PROC) MACHINE) (exists ((RESOURCE $$unsorted) (RESULT $$unsorted)) (and (@ (@ tptp.resource_THFTYPE_IiioI PROC) RESOURCE) (@ (@ tptp.result_THFTYPE_IiioI PROC) RESULT))))))))
% 2.18/2.70  (assert (forall ((TEXT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI TEXT) tptp.lSummary_THFTYPE_i) (exists ((TEXT2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI TEXT2) tptp.lText_THFTYPE_i) (@ (@ tptp.subsumesContentInstance_THFTYPE_IiioI TEXT2) TEXT))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCity_THFTYPE_i) tptp.lGeopoliticalArea_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSpokenHumanLanguage_THFTYPE_i) tptp.lHumanLanguage_THFTYPE_i))
% 2.18/2.70  (assert (forall ((MIX $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MIX) tptp.lLiquidMixture_THFTYPE_i) (exists ((PART $$unsorted)) (and (@ (@ tptp.part_THFTYPE_IiioI PART) MIX) (@ (@ tptp.attribute_THFTYPE_IiioI PART) tptp.lLiquid_THFTYPE_i))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lEmotionalState_THFTYPE_i) tptp.lStateOfMind_THFTYPE_i))
% 2.18/2.70  (assert (forall ((MONTH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MONTH) tptp.lMarch_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI MONTH) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n31_THFTYPE_i) tptp.lDayDuration_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ (@ (@ tptp.partition_THFTYPE_IiiiioI tptp.lNumber_THFTYPE_i) tptp.lRealNumber_THFTYPE_i) tptp.lImaginaryNumber_THFTYPE_i) tptp.lComplexNumber_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSeparating_THFTYPE_i) tptp.lDualObjectProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMonkey_THFTYPE_i) tptp.lPrimate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMilitaryProcess_THFTYPE_i) tptp.lPoliticalProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((P $$unsorted) (O2 $$unsorted) (O1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI P) tptp.lAntiSymmetricPositionalAttribute_THFTYPE_i) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI O1) O2) P)) (not (@ (@ (@ tptp.orientation_THFTYPE_IiiioI O2) O1) P)))))
% 2.18/2.70  (assert (forall ((FUNCTION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI FUNCTION) tptp.lBinaryFunction_THFTYPE_i) (@ (@ tptp.valence_THFTYPE_IiioI FUNCTION) tptp.n2_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((LANGUAGE $$unsorted) (ENTITY $$unsorted) (REP $$unsorted)) (=> (@ (@ (@ tptp.representsInLanguage_THFTYPE_IiiioI REP) ENTITY) LANGUAGE) (exists ((AGENT $$unsorted)) (@ (@ (@ tptp.representsForAgent_THFTYPE_IiiioI REP) ENTITY) AGENT)))))
% 2.18/2.70  (assert (forall ((P2 $$unsorted) (P1 $$unsorted)) (=> (@ (@ tptp.causes_THFTYPE_IiioI P1) P2) (@ (@ tptp.earlier_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI P1)) (@ tptp.lWhenFn_THFTYPE_IiiI P2)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lConsciousnessAttribute_THFTYPE_i) tptp.lStateOfMind_THFTYPE_i))
% 2.18/2.70  (assert (forall ((INTERVAL1 $$unsorted) (INTERVAL2 $$unsorted)) (= (@ (@ tptp.starts_THFTYPE_IiioI INTERVAL1) INTERVAL2) (and (= (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL1) (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL2)) (@ (@ tptp.before_THFTYPE_IiioI (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL1)) (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL2))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNaturalLanguage_THFTYPE_i) tptp.lHumanLanguage_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDeonticAttribute_THFTYPE_i) tptp.lObjectiveNorm_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (DECREASE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DECREASE) tptp.lDecreasing_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI DECREASE) OBJ)) (exists ((UNIT $$unsorted) (QUANT1 $$unsorted) (QUANT2 $$unsorted)) (let ((_let_1 (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI OBJ) UNIT))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI DECREASE))) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (= _let_1 QUANT1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (= _let_1 QUANT2)) (@ (@ tptp.lt_THFTYPE_IiioI QUANT2) QUANT1))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBattle_THFTYPE_i) tptp.lViolentContest_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER2 $$unsorted) (FORMULA1 Bool) (NUMBER1 $$unsorted) (FORMULA2 Bool)) (=> (and (@ (@ tptp.independentProbability_THFTYPE_IoooI FORMULA1) FORMULA2) (= (@ tptp.lProbabilityFn_THFTYPE_IoiI FORMULA2) NUMBER1) (@ (@ (@ tptp.conditionalProbability_THFTYPE_IooioI FORMULA1) FORMULA2) NUMBER2)) (= NUMBER2 NUMBER1))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAttribute_THFTYPE_i) tptp.lAbstract_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCounting_THFTYPE_i) tptp.lCalculating_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTernaryPredicate_THFTYPE_i) tptp.lTernaryRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((REL (-> $$unsorted $$unsorted Bool)) (NUMBER2 $$unsorted) (NUMBER1 $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IIiioIioI REL))) (=> (and (@ _let_1 tptp.lRelationExtendedToQuantities_THFTYPE_i) (@ _let_1 tptp.lBinaryRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI NUMBER1) tptp.lRealNumber_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI NUMBER2) tptp.lRealNumber_THFTYPE_i) (@ (@ REL NUMBER1) NUMBER2)) (forall ((UNIT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfMeasure_THFTYPE_i) (@ (@ REL (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER1) UNIT)) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER2) UNIT))))))))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted)) (let ((_let_1 (@ tptp.attribute_THFTYPE_IiioI OBJ))) (=> (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lObject_THFTYPE_i) (or (@ _let_1 tptp.lMonochromatic_THFTYPE_i) (@ _let_1 tptp.lPolychromatic_THFTYPE_i))))))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lPathWeightFn_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGraph_THFTYPE_i) tptp.lAbstract_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PHRASE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PHRASE) tptp.lPrepositionalPhrase_THFTYPE_i) (exists ((PREP $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PREP) tptp.lParticleWord_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI PREP) PHRASE))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnitOfCurrency_THFTYPE_i) tptp.lNonCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lElectronVolt_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n1dot60217733Eminus19_THFTYPE_i)) tptp.lJoule_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCognitiveAgent_THFTYPE_i) tptp.lSentientAgent_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lPerFn_THFTYPE_i) tptp.lFunctionQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDamaging_THFTYPE_i) tptp.lInternalChange_THFTYPE_i))
% 2.18/2.70  (assert (forall ((STUFF $$unsorted) (PROC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lChemicalProcess_THFTYPE_i) (or (@ (@ tptp.resource_THFTYPE_IiioI PROC) STUFF) (@ (@ tptp.result_THFTYPE_IiioI PROC) STUFF))) (@ (@ tptp.instance_THFTYPE_IiioI STUFF) tptp.lPureSubstance_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((PROP2 Bool) (PROP1 Bool)) (=> (@ (@ tptp.subProposition_THFTYPE_IoooI PROP1) PROP2) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (and (@ (@ tptp.containsInformation_THFTYPE_IiooI OBJ1) PROP1) (@ (@ tptp.containsInformation_THFTYPE_IiooI OBJ2) PROP2)) (@ (@ tptp.subsumesContentInstance_THFTYPE_IiioI OBJ2) OBJ1))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTotalOrderingRelation_THFTYPE_i) tptp.lPartialOrderingRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (= (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) tptp.lNorth_THFTYPE_i) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ2) OBJ1) tptp.lSouth_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((HOLE2 $$unsorted) (HOLE1 $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (and (@ (@ tptp.hole_THFTYPE_IiioI HOLE1) OBJ1) (@ (@ tptp.hole_THFTYPE_IiioI HOLE2) OBJ2) (@ (@ tptp.overlapsSpatially_THFTYPE_IiioI HOLE1) HOLE2)) (@ (@ tptp.overlapsSpatially_THFTYPE_IiioI OBJ1) OBJ2))))
% 2.18/2.70  (assert (forall ((FUNCTION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI FUNCTION) tptp.lUnaryFunction_THFTYPE_i) (@ (@ tptp.valence_THFTYPE_IiioI FUNCTION) tptp.n1_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (= (@ (@ tptp.larger_THFTYPE_IiioI OBJ1) OBJ2) (forall ((QUANT1 $$unsorted) (QUANT2 $$unsorted) (UNIT $$unsorted)) (=> (and (@ (@ tptp.measure_THFTYPE_IiioI OBJ1) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI QUANT1) UNIT)) (@ (@ tptp.measure_THFTYPE_IiioI OBJ2) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI QUANT2) UNIT)) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfLength_THFTYPE_i)) (@ (@ tptp.gt_THFTYPE_IiioI QUANT1) QUANT2))))))
% 2.18/2.70  (assert (@ (@ (@ (@ tptp.contraryAttribute_THFTYPE_IiiiioI tptp.lNorth_THFTYPE_i) tptp.lSouth_THFTYPE_i) tptp.lEast_THFTYPE_i) tptp.lWest_THFTYPE_i))
% 2.18/2.70  (assert (forall ((DECLARE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DECLARE) tptp.lDeclaring_THFTYPE_i) (exists ((PROP Bool) (NORM $$unsorted)) (or (@ (@ (@ tptp.confersNorm_THFTYPE_IioioI DECLARE) PROP) NORM) (@ (@ (@ tptp.deprivesNorm_THFTYPE_IioioI DECLARE) PROP) NORM))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOrganicObject_THFTYPE_i) tptp.lCorpuscularObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMorpheme_THFTYPE_i) tptp.lLinguisticExpression_THFTYPE_i))
% 2.18/2.70  (assert (forall ((G $$unsorted) (M $$unsorted)) (=> (@ (@ tptp.graphMeasure_THFTYPE_IiioI G) M) (forall ((AC $$unsorted)) (and (@ (@ tptp.graphPart_THFTYPE_IiioI AC) G) (exists ((PC $$unsorted)) (@ (@ tptp.abstractCounterpart_THFTYPE_IiioI AC) PC)))))))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ tptp.located_THFTYPE_IiioI OBJ1) OBJ2) (forall ((SUB $$unsorted)) (=> (@ (@ tptp.part_THFTYPE_IiioI SUB) OBJ1) (@ (@ tptp.located_THFTYPE_IiioI SUB) OBJ2))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSaturationAttribute_THFTYPE_i) tptp.lInternalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ATTR2 $$unsorted) (OBJ1 $$unsorted) (ROW $$unsorted) (OBJ2 $$unsorted) (ATTR1 $$unsorted)) (let ((_let_1 (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2))) (let ((_let_2 (@ tptp.lListFn_THFTYPE_IiiI ROW))) (=> (and (@ _let_1 ATTR1) (@ tptp.contraryAttribute_THFTYPE_IioI ROW) (@ (@ tptp.inList_THFTYPE_IiioI ATTR1) _let_2) (@ (@ tptp.inList_THFTYPE_IiioI ATTR2) _let_2) (not (= ATTR1 ATTR2))) (not (@ _let_1 ATTR2)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lJoiningAnOrganization_THFTYPE_i) tptp.lOrganizationalProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((FROM $$unsorted) (QUANTITY $$unsorted) (TO $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI QUANTITY) (@ (@ tptp.lIntervalFn_THFTYPE_IiiiI FROM) TO)) (and (@ (@ tptp.gtet_THFTYPE_IiioI QUANTITY) FROM) (@ (@ tptp.ltet_THFTYPE_IiioI QUANTITY) TO)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTernaryRelation_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((VALUE $$unsorted) (CLASS $$unsorted) (FUNCTION $$unsorted) (ROW $$unsorted)) (=> (and (@ (@ tptp.range_THFTYPE_IiioI FUNCTION) CLASS) (= (@ (@ tptp.lAssignmentFn_THFTYPE_IiiiI FUNCTION) ROW) VALUE)) (@ (@ tptp.instance_THFTYPE_IiioI VALUE) CLASS))))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lPhysicalQuantity_THFTYPE_i) tptp.lConstantQuantity_THFTYPE_i) tptp.lFunctionQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lRelation_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i) tptp.lPartialValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lContest_THFTYPE_i) tptp.lSocialInteraction_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ tptp.surface_THFTYPE_IiioI OBJ1) OBJ2) (forall ((OBJ3 $$unsorted)) (=> (@ (@ tptp.superficialPart_THFTYPE_IiioI OBJ3) OBJ2) (@ (@ tptp.part_THFTYPE_IiioI OBJ3) OBJ1))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lClassifying_THFTYPE_i) tptp.lIntentionalPsychologicalProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lReplication_THFTYPE_i) tptp.lOrganismProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((THING $$unsorted) (POS $$unsorted)) (= (@ (@ tptp.temporalPart_THFTYPE_IiioI POS) (@ tptp.lWhenFn_THFTYPE_IiiI THING)) (@ (@ tptp.time_THFTYPE_IiioI THING) POS))))
% 2.18/2.70  (assert (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lRigid_THFTYPE_i) tptp.lPliable_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI NUMBER) tptp.lQuantity_THFTYPE_i) (= tptp.n1_THFTYPE_i (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) (@ tptp.lReciprocalFn_THFTYPE_IiiI NUMBER))))))
% 2.18/2.70  (assert (forall ((CONFINE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI CONFINE) tptp.lConfining_THFTYPE_i) (exists ((AGENT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lAnimal_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI CONFINE) AGENT))))))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lReciprocalFn_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGraphNode_THFTYPE_i) tptp.lGraphElement_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCovering_THFTYPE_i) tptp.lPutting_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSmelling_THFTYPE_i) tptp.lPerception_THFTYPE_i))
% 2.18/2.70  (assert (forall ((LAND1 $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI LAND1) tptp.lLandArea_THFTYPE_i) (exists ((LAND2 $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI LAND2))) (and (@ (@ tptp.part_THFTYPE_IiioI LAND1) LAND2) (or (@ _let_1 tptp.lContinent_THFTYPE_i) (@ _let_1 tptp.lIsland_THFTYPE_i))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInjecting_THFTYPE_i) tptp.lInserting_THFTYPE_i))
% 2.18/2.70  (assert (forall ((EXPRESS $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI EXPRESS) tptp.lExpressing_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI EXPRESS) AGENT)) (exists ((STATE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI STATE) tptp.lStateOfMind_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI AGENT) STATE) (@ (@ tptp.represents_THFTYPE_IiioI EXPRESS) STATE))))))
% 2.18/2.70  (assert (forall ((PERSON $$unsorted)) (= (and (@ (@ tptp.instance_THFTYPE_IiioI PERSON) tptp.lHuman_THFTYPE_i) (forall ((ORG $$unsorted)) (not (@ (@ tptp.employs_THFTYPE_IiioI ORG) PERSON)))) (@ (@ tptp.attribute_THFTYPE_IiioI PERSON) tptp.lUnemployed_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lResidence_THFTYPE_i) tptp.lPermanentResidence_THFTYPE_i) tptp.lTemporaryResidence_THFTYPE_i))
% 2.18/2.70  (assert (forall ((SITUATION Bool) (TIME2 $$unsorted) (TIME1 $$unsorted)) (=> (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME1) SITUATION) (@ (@ tptp.temporalPart_THFTYPE_IiioI TIME2) TIME1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME2) SITUATION))))
% 2.18/2.70  (assert (forall ((BUY $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI BUY) tptp.lBuying_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI BUY) AGENT)) (@ (@ tptp.destination_THFTYPE_IiioI BUY) AGENT))))
% 2.18/2.70  (assert (forall ((MOTION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MOTION) tptp.lWaterMotion_THFTYPE_i) (exists ((WATER $$unsorted)) (and (@ (@ tptp.patient_THFTYPE_IiioI MOTION) WATER) (@ (@ tptp.instance_THFTYPE_IiioI WATER) tptp.lWater_THFTYPE_i))))))
% 2.18/2.70  (assert (forall ((CARRY $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI CARRY) tptp.lCarrying_THFTYPE_i) (exists ((ANIMAL $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ANIMAL) tptp.lAnimal_THFTYPE_i) (@ (@ tptp.instrument_THFTYPE_IiioI CARRY) ANIMAL))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDemonstrating_THFTYPE_i) tptp.lDisseminating_THFTYPE_i))
% 2.18/2.70  (assert (forall ((T2 $$unsorted) (T1 $$unsorted) (SIT1 Bool) (SIT2 Bool)) (=> (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI T2) SIT2) (@ (@ tptp.holdsDuring_THFTYPE_IiooI T1) SIT1) (@ (@ tptp.instance_THFTYPE_IiioI T1) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI T2) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.causesProposition_THFTYPE_IoooI SIT1) SIT2)) (@ (@ tptp.beforeOrEqual_THFTYPE_IiioI (@ tptp.lBeginFn_THFTYPE_IiiI T1)) (@ tptp.lBeginFn_THFTYPE_IiiI T2)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOrgan_THFTYPE_i) tptp.lBodyPart_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (PERIODICAL $$unsorted) (ISSUE $$unsorted)) (=> (= (@ (@ tptp.lPeriodicalIssueFn_THFTYPE_IiiiI PERIODICAL) NUMBER) ISSUE) (@ (@ tptp.subsumesContentClass_THFTYPE_IiioI PERIODICAL) ISSUE))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lManeuver_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((RESIDENCE $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI RESIDENCE))) (=> (@ _let_1 tptp.lResidence_THFTYPE_i) (or (@ _let_1 tptp.lHouse_THFTYPE_i) (exists ((BUILDING $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI BUILDING) tptp.lResidentialBuilding_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI RESIDENCE) BUILDING))))))))
% 2.18/2.70  (assert (forall ((FORMULA Bool)) (let ((_let_1 (@ tptp.modalAttribute_THFTYPE_IoioI FORMULA))) (=> (@ _let_1 tptp.lObligation_THFTYPE_i) (@ _let_1 tptp.lPermission_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((ALGA $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ALGA) tptp.lAlga_THFTYPE_i) (exists ((WATER $$unsorted)) (and (@ (@ tptp.inhabits_THFTYPE_IiioI ALGA) WATER) (@ (@ tptp.instance_THFTYPE_IiioI WATER) tptp.lWater_THFTYPE_i))))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lAmu_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n1dot6605402Eminus24_THFTYPE_i)) tptp.lGram_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lYearDuration_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n365_THFTYPE_i)) tptp.lDayDuration_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPlaneAngleMeasure_THFTYPE_i) tptp.lAngleMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lResidentialBuilding_THFTYPE_i) tptp.lResidence_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lConstructedLanguage_THFTYPE_i) tptp.lArtificialLanguage_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFruitOrVegetable_THFTYPE_i) tptp.lReproductiveBody_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ tptp.superficialPart_THFTYPE_IiioI OBJ1) OBJ2) (and (not (@ (@ tptp.interiorPart_THFTYPE_IiioI OBJ1) OBJ2)) (not (exists ((OBJ3 $$unsorted)) (@ (@ tptp.interiorPart_THFTYPE_IiioI OBJ3) OBJ1)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRelationExtendedToQuantities_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subAttribute_THFTYPE_IiioI tptp.lContract_THFTYPE_i) tptp.lPromise_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNation_THFTYPE_i) tptp.lGeopoliticalArea_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lSuccessorFn_THFTYPE_i) tptp.lInteger_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PROCESS $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PROCESS) tptp.lPsychologicalProcess_THFTYPE_i) (exists ((ANIMAL $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ANIMAL) tptp.lAnimal_THFTYPE_i) (@ (@ tptp.experiencer_THFTYPE_IiioI PROCESS) ANIMAL))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCooking_THFTYPE_i) tptp.lMaking_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUncovering_THFTYPE_i) tptp.lRemoving_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ROW $$unsorted) (ITEM $$unsorted)) (let ((_let_1 (@ (@ tptp.lListFn_THFTYPE_IiiiI ROW) ITEM))) (= (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI _let_1) (@ tptp.lListLengthFn_THFTYPE_IiiI _let_1)) ITEM))))
% 2.18/2.70  (assert (forall ((NODE $$unsorted) (GRAPH $$unsorted) (ARC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI GRAPH) tptp.lGraphPath_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI ARC) tptp.lGraphArc_THFTYPE_i) (@ (@ tptp.graphPart_THFTYPE_IiioI ARC) GRAPH)) (=> (= (@ tptp.lTerminalNodeFn_THFTYPE_IiiI ARC) NODE) (not (exists ((OTHER $$unsorted)) (and (= (@ tptp.lTerminalNodeFn_THFTYPE_IiiI OTHER) NODE) (not (= OTHER ARC)))))))))
% 2.18/2.70  (assert (@ (@ tptp.subAttribute_THFTYPE_IiioI tptp.lPromise_THFTYPE_i) tptp.lObligation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI NUMBER) tptp.lRationalNumber_THFTYPE_i) (exists ((INT1 $$unsorted) (INT2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI INT1) tptp.lInteger_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI INT2) tptp.lInteger_THFTYPE_i) (= NUMBER (@ (@ tptp.div_THFTYPE_IiiiI INT1) INT2)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAmbulating_THFTYPE_i) tptp.lBodyMotion_THFTYPE_i))
% 2.18/2.70  (assert (forall ((FUNCTION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI FUNCTION) tptp.lTernaryFunction_THFTYPE_i) (@ (@ tptp.valence_THFTYPE_IiioI FUNCTION) tptp.n3_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((LIST3 $$unsorted) (LIST2 $$unsorted) (LIST1 $$unsorted)) (= (= LIST3 (@ (@ tptp.lListConcatenateFn_THFTYPE_IiiiI LIST1) LIST2)) (forall ((NUMBER1 $$unsorted) (NUMBER2 $$unsorted)) (let ((_let_1 (@ tptp.lListLengthFn_THFTYPE_IiiI LIST1))) (let ((_let_2 (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST3))) (=> (and (@ (@ tptp.ltet_THFTYPE_IiioI NUMBER1) _let_1) (@ (@ tptp.ltet_THFTYPE_IiioI NUMBER2) (@ tptp.lListLengthFn_THFTYPE_IiiI LIST2)) (@ (@ tptp.instance_THFTYPE_IiioI NUMBER1) tptp.lPositiveInteger_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI NUMBER2) tptp.lPositiveInteger_THFTYPE_i)) (and (= (@ _let_2 NUMBER1) (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST1) NUMBER1)) (= (@ _let_2 (@ (@ tptp.plus_THFTYPE_IiiiI _let_1) NUMBER2)) (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST2) NUMBER2))))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lContentBearingPhysical_THFTYPE_i) tptp.lPhysical_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lTimePosition_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) tptp.lTimePoint_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lEmbryonic_THFTYPE_i) tptp.lLarval_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted)) (=> (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) tptp.lPolychromatic_THFTYPE_i) (exists ((PART1 $$unsorted) (PART2 $$unsorted) (COLOR1 $$unsorted) (COLOR2 $$unsorted)) (and (@ (@ tptp.superficialPart_THFTYPE_IiioI PART1) OBJ) (@ (@ tptp.superficialPart_THFTYPE_IiioI PART2) OBJ) (@ (@ tptp.attribute_THFTYPE_IiioI PART1) COLOR1) (@ (@ tptp.attribute_THFTYPE_IiioI PART2) COLOR2) (@ (@ tptp.instance_THFTYPE_IiioI COLOR1) tptp.lColorAttribute_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI COLOR2) tptp.lColorAttribute_THFTYPE_i) (not (= COLOR1 COLOR2)))))))
% 2.18/2.70  (assert (forall ((PART $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PART) tptp.lBodyPart_THFTYPE_i) (exists ((ORGANISM $$unsorted) (TIME $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ORGANISM) tptp.lOrganism_THFTYPE_i) (@ (@ tptp.temporalPart_THFTYPE_IiioI TIME) (@ tptp.lWhenFn_THFTYPE_IiiI ORGANISM)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.component_THFTYPE_IiioI PART) ORGANISM)))))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lAngularDegree_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) (@ (@ tptp.div_THFTYPE_IiiiI tptp.lPi_THFTYPE_i) tptp.n180_THFTYPE_i))) tptp.lRadian_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((SUBSTANCE $$unsorted) (ANIMAL $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI ANIMAL))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE) tptp.lAnimalSubstance_THFTYPE_i) (@ _let_1 tptp.lOrganism_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI SUBSTANCE) ANIMAL)) (@ _let_1 tptp.lAnimal_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((DOC $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DOC) tptp.lCertificate_THFTYPE_i) (exists ((PROP Bool) (NORM $$unsorted)) (or (@ (@ (@ tptp.confersNorm_THFTYPE_IioioI DOC) PROP) NORM) (@ (@ (@ tptp.deprivesNorm_THFTYPE_IioioI DOC) PROP) NORM))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSocialRole_THFTYPE_i) tptp.lRelationalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (forall ((LIST2 $$unsorted) (LIST1 $$unsorted)) (=> (@ (@ tptp.subList_THFTYPE_IiioI LIST1) LIST2) (exists ((NUMBER3 $$unsorted)) (forall ((ITEM $$unsorted)) (=> (@ (@ tptp.inList_THFTYPE_IiioI ITEM) LIST1) (exists ((NUMBER1 $$unsorted) (NUMBER2 $$unsorted)) (and (= (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST1) NUMBER1) ITEM) (= (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST2) NUMBER2) ITEM) (= NUMBER2 (@ (@ tptp.plus_THFTYPE_IiiiI NUMBER1) NUMBER3))))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lExplanation_THFTYPE_i) tptp.lDeductiveArgument_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subAttribute_THFTYPE_IiioI tptp.lWarranty_THFTYPE_i) tptp.lServiceContract_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subAttribute_THFTYPE_IiioI tptp.lLaw_THFTYPE_i) tptp.lObligation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lUnitedStatesGallon_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n3dot785411784_THFTYPE_i)) tptp.lLiter_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((PRETEND $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PRETEND) tptp.lPretending_THFTYPE_i) (exists ((PERSON $$unsorted) (PROP Bool)) (and (@ (@ tptp.hasPurpose_THFTYPE_IiooI PRETEND) (@ (@ tptp.believes_THFTYPE_IiooI PERSON) PROP)) (@ (@ tptp.truth_THFTYPE_IoooI PROP) true))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lConstantQuantity_THFTYPE_i) tptp.lPhysicalQuantity_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) tptp.lOn_THFTYPE_i) (not (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ2) OBJ1) tptp.lOn_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((OBJECT $$unsorted) (PART $$unsorted) (TOP $$unsorted)) (=> (and (@ (@ tptp.top_THFTYPE_IiioI TOP) OBJECT) (@ (@ tptp.part_THFTYPE_IiioI PART) OBJECT) (not (@ (@ tptp.connected_THFTYPE_IiioI PART) TOP))) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI PART) TOP) tptp.lBelow_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMaintaining_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lVitamin_THFTYPE_i) tptp.lNutrient_THFTYPE_i))
% 2.18/2.70  (assert (forall ((COMBUSTION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI COMBUSTION) tptp.lCombustion_THFTYPE_i) (exists ((HEAT $$unsorted) (LIGHT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI HEAT) tptp.lHeating_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI LIGHT) tptp.lRadiatingLight_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI HEAT) COMBUSTION) (@ (@ tptp.subProcess_THFTYPE_IiioI LIGHT) COMBUSTION))))))
% 2.18/2.70  (assert (forall ((TIME2 $$unsorted) (TIME1 $$unsorted)) (=> (= (@ (@ tptp.lRelativeTimeFn_THFTYPE_IiiiI TIME1) tptp.lEasternTimeZone_THFTYPE_i) TIME2) (= TIME2 (@ (@ tptp.plus_THFTYPE_IiiiI TIME1) tptp.n5_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((LINE2 $$unsorted) (LINE1 $$unsorted)) (=> (@ (@ tptp.parallel_THFTYPE_IiioI LINE1) LINE2) (not (exists ((POINT $$unsorted)) (@ (@ (@ tptp.pointOfIntersection_THFTYPE_IiiioI LINE1) LINE2) POINT))))))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (AGENT $$unsorted)) (=> (@ (@ tptp.wants_THFTYPE_IiioI AGENT) OBJ) (@ (@ tptp.desires_THFTYPE_IiooI AGENT) (@ (@ tptp.possesses_THFTYPE_IiioI AGENT) OBJ)))))
% 2.18/2.70  (assert (forall ((REL $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI REL))) (= (@ _let_1 tptp.lAsymmetricRelation_THFTYPE_i) (and (@ _let_1 tptp.lAntisymmetricRelation_THFTYPE_i) (@ _let_1 tptp.lIrreflexiveRelation_THFTYPE_i))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lEngineeringConnection_THFTYPE_i) tptp.lEngineeringComponent_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnilateralGiving_THFTYPE_i) tptp.lGiving_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lCorpuscularObject_THFTYPE_i) tptp.lSubstance_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lRealNumber_THFTYPE_i) tptp.lRationalNumber_THFTYPE_i) tptp.lIrrationalNumber_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNullSet_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.70  (assert (forall ((AMOUNT $$unsorted) (PERSON $$unsorted)) (= (= (@ tptp.lWealthFn_THFTYPE_IiiI PERSON) AMOUNT) (@ (@ tptp.monetaryValue_THFTYPE_IiioI (@ tptp.lPropertyFn_THFTYPE_IiiI PERSON)) AMOUNT))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCarrying_THFTYPE_i) tptp.lTransfer_THFTYPE_i))
% 2.18/2.70  (assert (forall ((LEARN $$unsorted) (PROP Bool) (AGENT $$unsorted)) (let ((_let_1 (@ (@ tptp.knows_THFTYPE_IiooI AGENT) PROP))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI LEARN))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI LEARN) tptp.lLearning_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI LEARN) AGENT) (@ (@ tptp.patient_THFTYPE_IiooI LEARN) PROP)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (not _let_1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) _let_1)))))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (ROW $$unsorted)) (=> (= (@ tptp.lGreatestCommonDivisorFn_THFTYPE_IiiI ROW) NUMBER) (not (exists ((GREATER $$unsorted)) (and (@ (@ tptp.gt_THFTYPE_IiioI GREATER) NUMBER) (forall ((ELEMENT $$unsorted)) (=> (@ (@ tptp.inList_THFTYPE_IiioI ELEMENT) (@ tptp.lListFn_THFTYPE_IiiI ROW)) (= (@ (@ tptp.lRemainderFn_THFTYPE_IiiiI ELEMENT) GREATER) tptp.n0_THFTYPE_i)))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGraphElement_THFTYPE_i) tptp.lAbstract_THFTYPE_i))
% 2.18/2.70  (assert (forall ((LANG $$unsorted) (AGENT $$unsorted) (PROC $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI AGENT))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI LANG) tptp.lAnimalLanguage_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PROC) AGENT) (@ (@ tptp.instrument_THFTYPE_IiioI PROC) LANG)) (and (@ _let_1 tptp.lAnimal_THFTYPE_i) (not (@ _let_1 tptp.lHuman_THFTYPE_i)))))))
% 2.18/2.70  (assert (forall ((RESIDENCE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI RESIDENCE) tptp.lPermanentResidence_THFTYPE_i) (exists ((PERSON $$unsorted)) (@ (@ tptp.home_THFTYPE_IiioI PERSON) RESIDENCE)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMollusk_THFTYPE_i) tptp.lInvertebrate_THFTYPE_i))
% 2.18/2.70  (assert (forall ((MONTH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MONTH) tptp.lJanuary_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI MONTH) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n31_THFTYPE_i) tptp.lDayDuration_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((DEPTH $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ (@ tptp.depth_THFTYPE_IiiioI OBJ1) OBJ2) DEPTH) (exists ((BOTTOM $$unsorted)) (and (@ (@ tptp.bottom_THFTYPE_IiioI BOTTOM) OBJ1) (@ (@ (@ tptp.distance_THFTYPE_IiiioI BOTTOM) OBJ2) DEPTH))))))
% 2.18/2.70  (assert (forall ((MOTION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MOTION) tptp.lBodyMotion_THFTYPE_i) (exists ((OBJ $$unsorted) (AGENT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lBodyPart_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI MOTION) OBJ) (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lOrganism_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI MOTION) AGENT))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGame_THFTYPE_i) tptp.lRecreationOrExercise_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lAttaching_THFTYPE_i) tptp.lDetaching_THFTYPE_i))
% 2.18/2.70  (assert (forall ((BIO $$unsorted) (PROC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lTherapeuticProcess_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI PROC) BIO)) (or (@ (@ tptp.instance_THFTYPE_IiioI BIO) tptp.lOrganism_THFTYPE_i) (exists ((ORG $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lOrganism_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI BIO) ORG)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lKilling_THFTYPE_i) tptp.lDestruction_THFTYPE_i))
% 2.18/2.70  (assert (forall ((COLL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI COLL) tptp.lCollection_THFTYPE_i) (exists ((OBJ $$unsorted)) (@ (@ tptp.member_THFTYPE_IiioI OBJ) COLL)))))
% 2.18/2.70  (assert (@ (@ (@ (@ (@ tptp.disjointDecomposition_THFTYPE_IiiiiioI tptp.lArthropod_THFTYPE_i) tptp.lArachnid_THFTYPE_i) tptp.lMyriapod_THFTYPE_i) tptp.lInsect_THFTYPE_i) tptp.lCrustacean_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lFutureFn_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PROC $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lBiologicalProcess_THFTYPE_i) (exists ((OBJ $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lOrganism_THFTYPE_i) (@ (@ tptp.located_THFTYPE_IiioI PROC) OBJ))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDirectionalAttribute_THFTYPE_i) tptp.lPositionalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBodyVessel_THFTYPE_i) tptp.lBodyCavity_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PATHCLASS $$unsorted) (GRAPH $$unsorted)) (=> (= (@ tptp.lMinimalCutSetFn_THFTYPE_IiiI GRAPH) PATHCLASS) (exists ((NUMBER $$unsorted)) (forall ((PATH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PATH) PATHCLASS) (@ (@ tptp.pathLength_THFTYPE_IiioI PATH) NUMBER)))))))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lPureSubstance_THFTYPE_i) tptp.lCompoundSubstance_THFTYPE_i) tptp.lElementalSubstance_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lUnitedStatesCent_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n0dot01_THFTYPE_i)) tptp.lUnitedStatesDollar_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((PATH $$unsorted) (ORG $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PATH) tptp.lPathologicProcess_THFTYPE_i) (@ (@ tptp.experiencer_THFTYPE_IiioI PATH) ORG)) (exists ((PART $$unsorted) (DISEASE $$unsorted)) (and (@ (@ tptp.part_THFTYPE_IiioI PART) ORG) (@ (@ tptp.instance_THFTYPE_IiioI DISEASE) tptp.lDiseaseOrSyndrome_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI PART) DISEASE))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAlga_THFTYPE_i) tptp.lNonFloweringPlant_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBodyMotion_THFTYPE_i) tptp.lMotion_THFTYPE_i))
% 2.18/2.70  (assert (forall ((LEARN $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI LEARN) tptp.lLearning_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI LEARN) AGENT)) (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lCognitiveAgent_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((DAY $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DAY) tptp.lDay_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI DAY) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1_THFTYPE_i) tptp.lDayDuration_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((POINT2 $$unsorted) (POINT1 $$unsorted) (LENGTH $$unsorted)) (=> (@ (@ (@ tptp.geometricDistance_THFTYPE_IiiioI POINT1) POINT2) LENGTH) (@ (@ (@ tptp.geometricDistance_THFTYPE_IiiioI POINT2) POINT1) LENGTH))))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lMinFn_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ORGANISM1 $$unsorted) (ORGANISM2 $$unsorted)) (=> (@ (@ tptp.familyRelation_THFTYPE_IiioI ORGANISM1) ORGANISM2) (exists ((ORGANISM3 $$unsorted)) (let ((_let_1 (@ tptp.ancestor_THFTYPE_IiioI ORGANISM3))) (and (@ _let_1 ORGANISM1) (@ _let_1 ORGANISM2)))))))
% 2.18/2.70  (assert (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lHourFn_THFTYPE_i) tptp.lHour_THFTYPE_i))
% 2.18/2.70  (assert (forall ((FORMULA Bool)) (let ((_let_1 (@ tptp.truth_THFTYPE_IoooI FORMULA))) (=> (@ (@ tptp.modalAttribute_THFTYPE_IoioI FORMULA) tptp.lUnlikely_THFTYPE_i) (@ (@ tptp.gt_THFTYPE_IiioI (@ tptp.lProbabilityFn_THFTYPE_IoiI (@ _let_1 false))) (@ tptp.lProbabilityFn_THFTYPE_IoiI (@ _let_1 true)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lShapeAttribute_THFTYPE_i) tptp.lInternalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (forall ((AGENT_1 $$unsorted) (AGENT_2 $$unsorted) (PROC $$unsorted)) (let ((_let_1 (@ tptp.agent_THFTYPE_IiioI PROC))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lSingleAgentProcess_THFTYPE_i) (@ _let_1 AGENT_1) (@ _let_1 AGENT_2)) (= AGENT_1 AGENT_2)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUngrasping_THFTYPE_i) tptp.lDetaching_THFTYPE_i))
% 2.18/2.70  (assert (forall ((TEMP $$unsorted) (PRES $$unsorted) (MELT $$unsorted) (X $$unsorted) (Y $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI X) Y) (@ (@ tptp.subclass_THFTYPE_IiioI Y) tptp.lPureSubstance_THFTYPE_i) (@ (@ tptp.meltingPoint_THFTYPE_IiioI Y) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI MELT) tptp.lKelvinDegree_THFTYPE_i)) (@ (@ tptp.barometricPressure_THFTYPE_IiioI X) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI PRES) tptp.lInchMercury_THFTYPE_i)) (@ (@ tptp.gt_THFTYPE_IiioI PRES) tptp.n29dot92_THFTYPE_i) (@ (@ tptp.measure_THFTYPE_IiioI X) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI TEMP) tptp.lKelvinDegree_THFTYPE_i)) (@ (@ tptp.lt_THFTYPE_IiioI TEMP) MELT)) (@ (@ tptp.attribute_THFTYPE_IiioI X) tptp.lSolid_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((CLASS $$unsorted) (RELATION (-> $$unsorted $$unsorted Bool))) (let ((_let_1 (@ tptp.instance_THFTYPE_IIiioIioI RELATION))) (=> (@ (@ tptp.partialOrderingOn_THFTYPE_IIiioIioI RELATION) CLASS) (and (@ (@ tptp.reflexiveOn_THFTYPE_IIiioIioI RELATION) CLASS) (@ _let_1 tptp.lTransitiveRelation_THFTYPE_i) (@ _let_1 tptp.lAntisymmetricRelation_THFTYPE_i))))))
% 2.18/2.70  (assert (forall ((FUNCTION1 $$unsorted) (FUNCTION2 $$unsorted) (CLASS1 $$unsorted) (CLASS2 $$unsorted)) (=> (@ (@ tptp.distributes_THFTYPE_IiioI FUNCTION1) FUNCTION2) (forall ((INST1 $$unsorted) (INST2 $$unsorted) (INST3 $$unsorted)) (let ((_let_1 (@ (@ tptp.lAssignmentFn_THFTYPE_IiiiiI FUNCTION1) INST1))) (let ((_let_2 (@ tptp.lAssignmentFn_THFTYPE_IiiiiI FUNCTION2))) (let ((_let_3 (@ tptp.instance_THFTYPE_IiioI INST3))) (let ((_let_4 (@ tptp.instance_THFTYPE_IiioI INST2))) (let ((_let_5 (@ tptp.instance_THFTYPE_IiioI INST1))) (=> (and (@ (@ (@ tptp.domain_THFTYPE_IiiioI FUNCTION1) tptp.n1_THFTYPE_i) CLASS1) (@ _let_5 CLASS1) (@ _let_4 CLASS1) (@ _let_3 CLASS1) (@ (@ (@ tptp.domain_THFTYPE_IiiioI FUNCTION2) tptp.n1_THFTYPE_i) CLASS2) (@ _let_5 CLASS2) (@ _let_4 CLASS2) (@ _let_3 CLASS2)) (= (@ _let_1 (@ (@ _let_2 INST2) INST3)) (@ (@ _let_2 (@ _let_1 INST2)) (@ _let_1 INST3)))))))))))))
% 2.18/2.70  (assert (forall ((DEVICE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DEVICE) tptp.lMeasuringDevice_THFTYPE_i) (@ (@ tptp.hasPurpose_THFTYPE_IiooI DEVICE) (exists ((MEASURE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI MEASURE) tptp.lMeasuring_THFTYPE_i) (@ (@ tptp.instrument_THFTYPE_IiioI MEASURE) DEVICE)))))))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (MOTION $$unsorted) (PLACE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MOTION) tptp.lMotion_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI MOTION) OBJ) (@ (@ tptp.destination_THFTYPE_IiioI MOTION) PLACE)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI MOTION))) (@ (@ tptp.located_THFTYPE_IiioI OBJ) PLACE)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCaseRole_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PERSON $$unsorted) (ORG $$unsorted)) (=> (@ (@ tptp.employs_THFTYPE_IiioI ORG) PERSON) (exists ((POSITION $$unsorted)) (@ (@ (@ tptp.occupiesPosition_THFTYPE_IiiioI PERSON) POSITION) ORG)))))
% 2.18/2.70  (assert (forall ((SITUATION1 Bool) (SITUATION2 Bool) (TIME $$unsorted)) (let ((_let_1 (@ tptp.holdsDuring_THFTYPE_IiooI TIME))) (=> (and (@ _let_1 SITUATION1) (@ (@ tptp.entails_THFTYPE_IoooI SITUATION1) SITUATION2)) (@ _let_1 SITUATION2)))))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lAbsoluteValueFn_THFTYPE_i) tptp.lNonnegativeRealNumber_THFTYPE_i))
% 2.18/2.70  (assert (forall ((P $$unsorted) (O2 $$unsorted) (O1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI P) tptp.lSymmetricPositionalAttribute_THFTYPE_i) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI O1) O2) P)) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI O2) O1) P))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAdverb_THFTYPE_i) tptp.lWord_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLandArea_THFTYPE_i) tptp.lGeographicArea_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lSaltWaterArea_THFTYPE_i) tptp.lFreshWaterArea_THFTYPE_i))
% 2.18/2.70  (assert (forall ((HOLE1 $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI HOLE1) tptp.lHole_THFTYPE_i) (exists ((HOLE2 $$unsorted)) (@ (@ tptp.properPart_THFTYPE_IiioI HOLE2) HOLE1)))))
% 2.18/2.70  (assert (forall ((TIME $$unsorted) (FORMULA Bool) (ENTITY $$unsorted) (NORM $$unsorted)) (let ((_let_1 (@ (@ tptp.modalAttribute_THFTYPE_IoioI FORMULA) NORM))) (=> (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ (@ tptp.deprivesNorm_THFTYPE_IioioI ENTITY) FORMULA) NORM)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lImmediatePastFn_THFTYPE_IiiI TIME)) _let_1) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lImmediateFutureFn_THFTYPE_IiiI TIME)) (not _let_1)))))))
% 2.18/2.70  (assert (forall ((PATIENT $$unsorted) (KILL $$unsorted)) (let ((_let_1 (@ tptp.attribute_THFTYPE_IiioI PATIENT))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI KILL))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI KILL) tptp.lKilling_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI KILL) PATIENT)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (@ _let_1 tptp.lLiving_THFTYPE_i)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lFutureFn_THFTYPE_IiiI _let_2)) (@ _let_1 tptp.lDead_THFTYPE_i))))))))
% 2.18/2.70  (assert (forall ((POINT2 $$unsorted) (POINT1 $$unsorted) (INTERVAL $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI POINT1) tptp.lTimePoint_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI POINT2) tptp.lTimePoint_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL) tptp.lTimeInterval_THFTYPE_i) (= (@ (@ tptp.lTimeIntervalFn_THFTYPE_IiiiI POINT1) POINT2) INTERVAL)) (forall ((POINT $$unsorted)) (= (@ (@ (@ tptp.temporallyBetweenOrEqual_THFTYPE_IiiioI POINT1) POINT) POINT2) (@ (@ tptp.temporalPart_THFTYPE_IiioI POINT) INTERVAL))))))
% 2.18/2.70  (assert (forall ((HOLE $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (let ((_let_1 (@ tptp.hole_THFTYPE_IiioI HOLE))) (=> (and (@ _let_1 OBJ1) (@ _let_1 OBJ2)) (exists ((OBJ3 $$unsorted)) (and (@ (@ tptp.properPart_THFTYPE_IiioI OBJ3) (@ (@ tptp.lMereologicalProductFn_THFTYPE_IiiiI OBJ1) OBJ2)) (@ (@ tptp.hole_THFTYPE_IiioI HOLE) OBJ3)))))))
% 2.18/2.70  (assert (forall ((SENTENCE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SENTENCE) tptp.lSentence_THFTYPE_i) (exists ((PHRASE1 $$unsorted) (PHRASE2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PHRASE1) tptp.lNounPhrase_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI PHRASE2) tptp.lVerbPhrase_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI PHRASE1) SENTENCE) (@ (@ tptp.part_THFTYPE_IiioI PHRASE2) SENTENCE))))))
% 2.18/2.70  (assert (forall ((GROUP $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI GROUP) tptp.lBeliefGroup_THFTYPE_i) (exists ((BELIEF Bool)) (forall ((MEMB $$unsorted)) (=> (@ (@ tptp.member_THFTYPE_IiioI MEMB) GROUP) (@ (@ tptp.believes_THFTYPE_IiooI MEMB) BELIEF)))))))
% 2.18/2.70  (assert (forall ((TO $$unsorted) (TRANSPORT $$unsorted) (MOVE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TRANSPORT) tptp.lVehicle_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI MOVE) tptp.lTranslocation_THFTYPE_i) (@ (@ tptp.instrument_THFTYPE_IiioI MOVE) TRANSPORT) (@ (@ tptp.destination_THFTYPE_IiioI MOVE) TO)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI MOVE))) (@ (@ tptp.located_THFTYPE_IiioI TRANSPORT) TO)))))
% 2.18/2.70  (assert (forall ((VALUE $$unsorted) (CLASS $$unsorted) (FUNCTION $$unsorted) (ROW $$unsorted)) (=> (and (@ (@ tptp.rangeSubclass_THFTYPE_IiioI FUNCTION) CLASS) (= (@ (@ tptp.lAssignmentFn_THFTYPE_IiiiI FUNCTION) ROW) VALUE)) (@ (@ tptp.subclass_THFTYPE_IiioI VALUE) CLASS))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSyntheticSubstance_THFTYPE_i) tptp.lSubstance_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted)) (=> (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) tptp.lWet_THFTYPE_i) (forall ((PART $$unsorted)) (=> (@ (@ tptp.part_THFTYPE_IiioI PART) OBJ) (exists ((SUBPART $$unsorted)) (and (@ (@ tptp.part_THFTYPE_IiioI SUBPART) PART) (@ (@ tptp.attribute_THFTYPE_IiioI SUBPART) tptp.lLiquid_THFTYPE_i))))))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lOunce_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.div_THFTYPE_IiiiI NUMBER) tptp.n8_THFTYPE_i)) tptp.lCup_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOlfactoryAttribute_THFTYPE_i) tptp.lPerceptualAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSubstance_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i))
% 2.18/2.70  (assert (forall ((INTERVAL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL) tptp.lTimeInterval_THFTYPE_i) (= (@ tptp.lPastFn_THFTYPE_IiiI INTERVAL) (@ (@ tptp.lTimeIntervalFn_THFTYPE_IiiiI tptp.lNegativeInfinity_THFTYPE_i) (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lEducationalOrganization_THFTYPE_i) tptp.lOrganization_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lNanoFn_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (ANGLE $$unsorted)) (=> (@ (@ tptp.measure_THFTYPE_IiioI ANGLE) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lAngularDegree_THFTYPE_i)) (and (@ (@ tptp.gtet_THFTYPE_IiioI NUMBER) tptp.n0_THFTYPE_i) (@ (@ tptp.ltet_THFTYPE_IiioI NUMBER) tptp.n360_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.trichotomizingOn_THFTYPE_IIiioIioI tptp.lessThanOrEqualTo_THFTYPE_IiioI) tptp.lRealNumber_THFTYPE_i))
% 2.18/2.70  (assert (forall ((MONTH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MONTH) tptp.lApril_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI MONTH) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n30_THFTYPE_i) tptp.lDayDuration_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPrepositionalPhrase_THFTYPE_i) tptp.lPhrase_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDirectionChange_THFTYPE_i) tptp.lMotion_THFTYPE_i))
% 2.18/2.70  (assert (forall ((INTERVAL1 $$unsorted) (INTERVAL2 $$unsorted)) (=> (@ (@ tptp.during_THFTYPE_IiioI INTERVAL1) INTERVAL2) (and (@ (@ tptp.before_THFTYPE_IiioI (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL1)) (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL2)) (@ (@ tptp.before_THFTYPE_IiioI (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL2)) (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL1))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRunning_THFTYPE_i) tptp.lAmbulating_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRecreationOrExercise_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPartialOrderingRelation_THFTYPE_i) tptp.lAntisymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CLASS1 $$unsorted) (CLASS2 $$unsorted)) (= (@ (@ tptp.disjoint_THFTYPE_IiioI CLASS1) CLASS2) (forall ((INST $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI INST))) (not (and (@ _let_1 CLASS1) (@ _let_1 CLASS2))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lVehicle_THFTYPE_i) tptp.lTransportationDevice_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOrganization_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (PURSUE $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PURSUE) tptp.lPursuing_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PURSUE) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI PURSUE) OBJ)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI PURSUE) (not (@ (@ tptp.possesses_THFTYPE_IiioI AGENT) OBJ))))))
% 2.18/2.70  (assert (forall ((TIME $$unsorted) (ORG $$unsorted)) (=> (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.attribute_THFTYPE_IiioI ORG) tptp.lLarval_THFTYPE_i)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lPastFn_THFTYPE_IiiI TIME)) (exists ((BIRTH $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI BIRTH) tptp.lBirth_THFTYPE_i) (@ (@ tptp.experiencer_THFTYPE_IiioI BIRTH) ORG)))))))
% 2.18/2.70  (assert (forall ((ORGANISM $$unsorted) (DIGEST $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DIGEST) tptp.lDigesting_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI DIGEST) ORGANISM)) (exists ((INGEST $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI INGEST) tptp.lIngesting_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI INGEST) ORGANISM) (@ (@ tptp.overlapsTemporally_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI INGEST)) (@ tptp.lWhenFn_THFTYPE_IiiI DIGEST)))))))
% 2.18/2.70  (assert (@ (@ (@ tptp.disjointDecomposition_THFTYPE_IiiioI tptp.lFood_THFTYPE_i) tptp.lMeat_THFTYPE_i) tptp.lBeverage_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (NUMBER2 $$unsorted) (ROW $$unsorted) (NUMBER1 $$unsorted)) (=> (@ tptp.contraryAttribute_THFTYPE_IioI ROW) (forall ((ATTR1 $$unsorted) (ATTR2 $$unsorted)) (let ((_let_1 (@ tptp.property_THFTYPE_IiioI OBJ))) (let ((_let_2 (@ tptp.lListOrderFn_THFTYPE_IiiiI (@ tptp.lListFn_THFTYPE_IiiI ROW)))) (=> (and (= ATTR1 (@ _let_2 NUMBER1)) (= ATTR2 (@ _let_2 NUMBER2)) (not (= NUMBER1 NUMBER2))) (=> (@ _let_1 ATTR1) (not (@ _let_1 ATTR2))))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFern_THFTYPE_i) tptp.lNonFloweringPlant_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWearableItem_THFTYPE_i) tptp.lArtifact_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PROC $$unsorted) (TIME1 $$unsorted)) (=> (@ (@ tptp.frequency_THFTYPE_IiioI PROC) TIME1) (forall ((TIME2 $$unsorted)) (=> (@ (@ tptp.duration_THFTYPE_IiioI TIME2) TIME1) (exists ((POSITION $$unsorted)) (and (@ (@ tptp.temporalPart_THFTYPE_IiioI POSITION) TIME2) (@ (@ tptp.holdsDuring_THFTYPE_IiooI POSITION) (exists ((INST $$unsorted)) (@ (@ tptp.instance_THFTYPE_IiioI INST) PROC))))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lContinuousFunction_THFTYPE_i) tptp.lFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAsymmetricRelation_THFTYPE_i) tptp.lAntisymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((COLL1 $$unsorted) (COLL2 $$unsorted)) (= (@ (@ tptp.subCollection_THFTYPE_IiioI COLL1) COLL2) (forall ((MEMBER $$unsorted)) (let ((_let_1 (@ tptp.member_THFTYPE_IiioI MEMBER))) (=> (@ _let_1 COLL1) (@ _let_1 COLL2)))))))
% 2.18/2.70  (assert (forall ((X $$unsorted) (Y $$unsorted)) (=> (@ (@ tptp.leader_THFTYPE_IiioI X) Y) (@ (@ tptp.attribute_THFTYPE_IiioI Y) tptp.lLiving_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((INT2 $$unsorted) (INT1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI INT1) tptp.lInteger_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI INT2) tptp.lInteger_THFTYPE_i)) (not (and (@ (@ tptp.lt_THFTYPE_IiioI INT1) INT2) (@ (@ tptp.lt_THFTYPE_IiioI INT2) (@ tptp.lSuccessorFn_THFTYPE_IiiI INT1)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lEnzyme_THFTYPE_i) tptp.lProtein_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCommercialAgent_THFTYPE_i) tptp.lAgent_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ (@ (@ (@ tptp.disjointDecomposition_THFTYPE_IiiiiiioI tptp.lMammal_THFTYPE_i) tptp.lAquaticMammal_THFTYPE_i) tptp.lHoofedMammal_THFTYPE_i) tptp.lMarsupial_THFTYPE_i) tptp.lRodent_THFTYPE_i) tptp.lPrimate_THFTYPE_i))
% 2.18/2.70  (assert (forall ((FORMULA Bool)) (let ((_let_1 (@ tptp.truth_THFTYPE_IoooI FORMULA))) (=> (@ (@ tptp.modalAttribute_THFTYPE_IoioI FORMULA) tptp.lLikely_THFTYPE_i) (@ (@ tptp.gt_THFTYPE_IiioI (@ tptp.lProbabilityFn_THFTYPE_IoiI (@ _let_1 true))) (@ tptp.lProbabilityFn_THFTYPE_IoiI (@ _let_1 false)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSubstituting_THFTYPE_i) tptp.lTransfer_THFTYPE_i))
% 2.18/2.70  (assert (forall ((POINT $$unsorted) (FIGURE1 $$unsorted) (FIGURE2 $$unsorted)) (let ((_let_1 (@ tptp.pointOfFigure_THFTYPE_IiioI POINT))) (=> (@ (@ (@ tptp.pointOfIntersection_THFTYPE_IiiioI FIGURE1) FIGURE2) POINT) (and (@ _let_1 FIGURE1) (@ _let_1 FIGURE2))))))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (TASTE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TASTE) tptp.lTasting_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI TASTE) OBJ)) (exists ((ATTR $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lTasteAttribute_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) ATTR))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDetaching_THFTYPE_i) tptp.lDualObjectProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ANIMAL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ANIMAL) tptp.lAnimal_THFTYPE_i) (exists ((ATTR $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lSexAttribute_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI ANIMAL) ATTR))))))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lImmediateFutureFn_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lAnatomicalStructure_THFTYPE_i) tptp.lAnimalAnatomicalStructure_THFTYPE_i) tptp.lPlantAnatomicalStructure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lPastFn_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ORG $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lMilitaryForce_THFTYPE_i) (@ (@ (@ tptp.capability_THFTYPE_IiIiioIioI tptp.lViolentContest_THFTYPE_i) tptp.agent_THFTYPE_IiioI) ORG))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lStateOrProvince_THFTYPE_i) tptp.lGeopoliticalArea_THFTYPE_i))
% 2.18/2.70  (assert (forall ((MACHINE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MACHINE) tptp.lMachine_THFTYPE_i) (exists ((COMP1 $$unsorted) (COMP2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI COMP1) tptp.lEngineeringComponent_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI COMP2) tptp.lEngineeringComponent_THFTYPE_i) (not (= COMP1 COMP2)) (@ (@ tptp.part_THFTYPE_IiioI COMP1) MACHINE) (@ (@ tptp.part_THFTYPE_IiioI COMP2) MACHINE))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGraphArc_THFTYPE_i) tptp.lGraphElement_THFTYPE_i))
% 2.18/2.70  (assert (forall ((TEMP2 $$unsorted) (TEMP1 $$unsorted) (TIME $$unsorted) (SUBSTANCE $$unsorted) (TYPE $$unsorted) (MEASURE $$unsorted)) (let ((_let_1 (@ tptp.holdsDuring_THFTYPE_IiooI TIME))) (=> (and (@ (@ tptp.boilingPoint_THFTYPE_IiioI TYPE) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI TEMP1) MEASURE)) (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE) TYPE) (@ _let_1 (@ (@ tptp.measure_THFTYPE_IiioI SUBSTANCE) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI TEMP2) MEASURE))) (@ (@ tptp.instance_THFTYPE_IiioI MEASURE) tptp.lUnitOfTemperature_THFTYPE_i) (@ (@ tptp.gtet_THFTYPE_IiioI TEMP2) TEMP1)) (or (@ _let_1 (@ (@ tptp.attribute_THFTYPE_IiioI SUBSTANCE) tptp.lGas_THFTYPE_i)) (exists ((BOIL $$unsorted)) (and (@ (@ tptp.overlapsTemporally_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI BOIL)) TIME) (@ (@ tptp.instance_THFTYPE_IiioI BOIL) tptp.lBoiling_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI BOIL) SUBSTANCE))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCommitting_THFTYPE_i) tptp.lLinguisticCommunication_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI NUMBER) tptp.lEvenInteger_THFTYPE_i) (= (@ (@ tptp.lRemainderFn_THFTYPE_IiiiI NUMBER) tptp.n2_THFTYPE_i) tptp.n0_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLiquidMixture_THFTYPE_i) tptp.lMixture_THFTYPE_i))
% 2.18/2.70  (assert (forall ((COMP $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI COMP) tptp.lEngineeringComponent_THFTYPE_i) (exists ((DEVICE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI DEVICE) tptp.lDevice_THFTYPE_i) (@ (@ tptp.component_THFTYPE_IiioI COMP) DEVICE))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCommunication_THFTYPE_i) tptp.lContentBearingProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (@ (@ tptp.ltet_THFTYPE_IiioI (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lMonthDuration_THFTYPE_i)) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n31_THFTYPE_i)) tptp.lDayDuration_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((NODE $$unsorted) (GRAPH $$unsorted) (ARC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI GRAPH) tptp.lGraphPath_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI ARC) tptp.lGraphArc_THFTYPE_i) (@ (@ tptp.graphPart_THFTYPE_IiioI ARC) GRAPH)) (=> (= (@ tptp.lInitialNodeFn_THFTYPE_IiiI ARC) NODE) (not (exists ((OTHER $$unsorted)) (and (= (@ tptp.lInitialNodeFn_THFTYPE_IiiI OTHER) NODE) (not (= OTHER ARC)))))))))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (AGENT $$unsorted)) (=> (@ (@ tptp.exploits_THFTYPE_IiioI OBJ) AGENT) (exists ((PROCESS $$unsorted)) (and (@ (@ tptp.agent_THFTYPE_IiioI PROCESS) AGENT) (@ (@ tptp.resource_THFTYPE_IiioI PROCESS) OBJ))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lProbabilityRelation_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTransitway_THFTYPE_i) tptp.lRegion_THFTYPE_i))
% 2.18/2.70  (assert (forall ((INTERVAL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.starts_THFTYPE_IiioI (@ tptp.lImmediateFutureFn_THFTYPE_IiiI INTERVAL)) (@ tptp.lFutureFn_THFTYPE_IiiI INTERVAL)))))
% 2.18/2.70  (assert (forall ((ANAT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ANAT) tptp.lAnatomicalStructure_THFTYPE_i) (exists ((ORGANISM $$unsorted) (TIME $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ORGANISM) tptp.lOrganism_THFTYPE_i) (@ (@ tptp.temporalPart_THFTYPE_IiioI TIME) (@ tptp.lWhenFn_THFTYPE_IiiI ORGANISM)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.part_THFTYPE_IiioI ANAT) ORGANISM)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWorm_THFTYPE_i) tptp.lInvertebrate_THFTYPE_i))
% 2.18/2.70  (assert (forall ((X $$unsorted) (Y $$unsorted)) (=> (@ (@ tptp.subclass_THFTYPE_IiioI X) Y) (and (@ (@ tptp.instance_THFTYPE_IiioI X) tptp.lSetOrClass_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI Y) tptp.lSetOrClass_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((POINT3 $$unsorted) (POINT2 $$unsorted) (POINT1 $$unsorted)) (= (@ (@ (@ tptp.temporallyBetweenOrEqual_THFTYPE_IiiioI POINT1) POINT2) POINT3) (and (@ (@ tptp.beforeOrEqual_THFTYPE_IiioI POINT1) POINT2) (@ (@ tptp.beforeOrEqual_THFTYPE_IiioI POINT2) POINT3)))))
% 2.18/2.70  (assert (forall ((POINT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI POINT) tptp.lTimePoint_THFTYPE_i) (not (= POINT tptp.lPositiveInfinity_THFTYPE_i))) (exists ((OTHERPOINT $$unsorted)) (@ (@ (@ tptp.temporallyBetween_THFTYPE_IiiioI POINT) OTHERPOINT) tptp.lPositiveInfinity_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lManufacture_THFTYPE_i) tptp.lMaking_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLanguage_THFTYPE_i) tptp.lLinguisticExpression_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) tptp.lNear_THFTYPE_i) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ2) OBJ1) tptp.lNear_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRemoving_THFTYPE_i) tptp.lTransfer_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CLASS $$unsorted) (RELATION (-> $$unsorted $$unsorted Bool))) (= (@ (@ tptp.totalOrderingOn_THFTYPE_IIiioIioI RELATION) CLASS) (and (@ (@ tptp.partialOrderingOn_THFTYPE_IIiioIioI RELATION) CLASS) (@ (@ tptp.trichotomizingOn_THFTYPE_IIiioIioI RELATION) CLASS)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCondensing_THFTYPE_i) tptp.lStateChange_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPartialValuedRelation_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ARTIFACT $$unsorted)) (= (exists ((BUILD $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI BUILD) tptp.lConstructing_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI BUILD) ARTIFACT))) (@ (@ tptp.instance_THFTYPE_IiioI ARTIFACT) tptp.lStationaryArtifact_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lNounPhrase_THFTYPE_i) tptp.lVerbPhrase_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PROC $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lSingleAgentProcess_THFTYPE_i) (exists ((AGENT $$unsorted)) (@ (@ tptp.agent_THFTYPE_IiioI PROC) AGENT)))))
% 2.18/2.70  (assert (forall ((AGENT $$unsorted) (WAR $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI AGENT))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI WAR) tptp.lWar_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI WAR) AGENT)) (or (@ _let_1 tptp.lGeopoliticalArea_THFTYPE_i) (and (@ _let_1 tptp.lOrganization_THFTYPE_i) (forall ((MEMBER $$unsorted)) (=> (@ (@ tptp.member_THFTYPE_IiioI MEMBER) AGENT) (@ (@ tptp.instance_THFTYPE_IiioI MEMBER) tptp.lGeopoliticalArea_THFTYPE_i)))))))))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (AGENT $$unsorted) (REL (-> $$unsorted $$unsorted Bool)) (ROW $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lIntentionalRelation_THFTYPE_i) (@ (@ REL AGENT) ROW) (@ (@ tptp.inList_THFTYPE_IiioI OBJ) (@ tptp.lListFn_THFTYPE_IiiI ROW))) (@ (@ tptp.inScopeOfInterest_THFTYPE_IiioI AGENT) OBJ))))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (= (@ (@ tptp.contains_THFTYPE_IiioI OBJ1) OBJ2) (exists ((HOLE $$unsorted)) (and (@ (@ tptp.hole_THFTYPE_IiioI HOLE) OBJ1) (@ (@ tptp.properlyFills_THFTYPE_IiioI OBJ2) HOLE))))))
% 2.18/2.70  (assert (@ (@ (@ (@ tptp.disjointDecomposition_THFTYPE_IiiiioI tptp.lNonFloweringPlant_THFTYPE_i) tptp.lAlga_THFTYPE_i) tptp.lFern_THFTYPE_i) tptp.lMoss_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMilitaryForce_THFTYPE_i) tptp.lPoliticalOrganization_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ORG $$unsorted)) (=> (@ (@ tptp.attribute_THFTYPE_IiioI ORG) tptp.lEmbryonic_THFTYPE_i) (exists ((BODY $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI BODY) tptp.lReproductiveBody_THFTYPE_i) (@ (@ tptp.located_THFTYPE_IiioI ORG) BODY))))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lWeekDuration_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n7_THFTYPE_i)) tptp.lDayDuration_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lCelsiusDegree_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.div_THFTYPE_IiiiI (@ (@ tptp.minus_THFTYPE_IiiiI NUMBER) tptp.n32_THFTYPE_i)) tptp.n1dot8_THFTYPE_i)) tptp.lFahrenheitDegree_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((TEMP2 $$unsorted) (TEMP1 $$unsorted) (BOILING $$unsorted) (SUBSTANCE $$unsorted) (TYPE $$unsorted) (MEASURE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI BOILING) tptp.lBoiling_THFTYPE_i) (@ (@ tptp.boilingPoint_THFTYPE_IiioI TYPE) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI TEMP1) MEASURE)) (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE) TYPE) (@ (@ tptp.patient_THFTYPE_IiioI BOILING) SUBSTANCE) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI BOILING)) (@ (@ tptp.measure_THFTYPE_IiioI SUBSTANCE) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI TEMP2) MEASURE))) (@ (@ tptp.instance_THFTYPE_IiioI MEASURE) tptp.lUnitOfTemperature_THFTYPE_i)) (@ (@ tptp.gtet_THFTYPE_IiioI TEMP2) TEMP1))))
% 2.18/2.70  (assert (forall ((WEEK $$unsorted) (DAY1 $$unsorted) (DAY2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DAY1) tptp.lTuesday_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI DAY2) tptp.lWednesday_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI WEEK) tptp.lWeek_THFTYPE_i) (@ (@ tptp.temporalPart_THFTYPE_IiioI DAY1) WEEK) (@ (@ tptp.temporalPart_THFTYPE_IiioI DAY2) WEEK)) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI DAY1) DAY2))))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lDamaging_THFTYPE_i) tptp.lRepairing_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSurgery_THFTYPE_i) tptp.lTherapeuticProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lHormone_THFTYPE_i) tptp.lBodySubstance_THFTYPE_i))
% 2.18/2.70  (assert (forall ((AGENT $$unsorted) (DEATH $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DEATH) tptp.lDeath_THFTYPE_i) (@ (@ tptp.experiencer_THFTYPE_IiioI DEATH) AGENT)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lFutureFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI DEATH))) (@ (@ tptp.attribute_THFTYPE_IiioI AGENT) tptp.lDead_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWeapon_THFTYPE_i) tptp.lDevice_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lYear_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.70  (assert (forall ((DIGEST $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DIGEST) tptp.lDigesting_THFTYPE_i) (exists ((DECOMP $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI DECOMP) tptp.lChemicalDecomposition_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI DECOMP) DIGEST))))))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lFabric_THFTYPE_i) tptp.lStationaryArtifact_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lSetOrClass_THFTYPE_i) tptp.lSet_THFTYPE_i) tptp.lClass_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lExpressing_THFTYPE_i) tptp.lCommunication_THFTYPE_i))
% 2.18/2.70  (assert (forall ((MAT $$unsorted) (ORG $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MAT) tptp.lMatriculation_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI MAT) ORG)) (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lEducationalOrganization_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((NUMBER2 $$unsorted) (NUMBER1 $$unsorted)) (= (@ (@ tptp.gtet_THFTYPE_IiioI NUMBER1) NUMBER2) (or (= NUMBER1 NUMBER2) (@ (@ tptp.gt_THFTYPE_IiioI NUMBER1) NUMBER2)))))
% 2.18/2.70  (assert (forall ((ISLE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ISLE) tptp.lIsland_THFTYPE_i) (exists ((WATER $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI WATER) tptp.lWaterArea_THFTYPE_i) (@ (@ tptp.meetsSpatially_THFTYPE_IiioI ISLE) WATER))))))
% 2.18/2.70  (assert (forall ((OBJECT $$unsorted) (BOTTOM $$unsorted) (TOP $$unsorted) (HEIGHT $$unsorted)) (=> (and (@ (@ tptp.height_THFTYPE_IiioI OBJECT) HEIGHT) (@ (@ tptp.top_THFTYPE_IiioI TOP) OBJECT) (@ (@ tptp.bottom_THFTYPE_IiioI BOTTOM) OBJECT)) (@ (@ (@ tptp.distance_THFTYPE_IiiioI TOP) BOTTOM) HEIGHT))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lCelsiusDegree_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.minus_THFTYPE_IiiiI NUMBER) tptp.n273dot15_THFTYPE_i)) tptp.lKelvinDegree_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((AGENT $$unsorted) (CLOTHING $$unsorted)) (=> (@ (@ tptp.wears_THFTYPE_IiioI AGENT) CLOTHING) (@ (@ tptp.located_THFTYPE_IiioI CLOTHING) AGENT))))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lMereologicalDifferenceFn_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMeeting_THFTYPE_i) tptp.lSocialInteraction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subAttribute_THFTYPE_IiioI tptp.lWet_THFTYPE_i) tptp.lDamp_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lEducationalProcess_THFTYPE_i) tptp.lGuiding_THFTYPE_i))
% 2.18/2.70  (assert (forall ((INTERVAL1 $$unsorted) (INTERVAL2 $$unsorted)) (= (@ (@ tptp.earlier_THFTYPE_IiioI INTERVAL1) INTERVAL2) (@ (@ tptp.before_THFTYPE_IiioI (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL1)) (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL2)))))
% 2.18/2.70  (assert (forall ((MINUTE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MINUTE) tptp.lMinute_THFTYPE_i) (= (@ tptp.lCardinalityFn_THFTYPE_IiiI (@ (@ tptp.lTemporalCompositionFn_THFTYPE_IiiiI MINUTE) tptp.lSecond_THFTYPE_i)) tptp.n60_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((MOLE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MOLE) tptp.lMolecule_THFTYPE_i) (exists ((ATOM1 $$unsorted) (ATOM2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATOM1) tptp.lAtom_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI ATOM2) tptp.lAtom_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI ATOM1) MOLE) (@ (@ tptp.part_THFTYPE_IiioI ATOM2) MOLE) (not (= ATOM1 ATOM2)))))))
% 2.18/2.70  (assert (forall ((DIS $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DIS) tptp.lDisagreeing_THFTYPE_i) (exists ((A1 $$unsorted) (A2 $$unsorted) (STATE1 $$unsorted) (STATE2 $$unsorted) (STMT1 Bool) (STMT2 Bool)) (and (@ (@ tptp.subProcess_THFTYPE_IiioI STATE1) DIS) (@ (@ tptp.subProcess_THFTYPE_IiioI STATE2) DIS) (@ (@ tptp.agent_THFTYPE_IiioI STATE1) A1) (@ (@ tptp.agent_THFTYPE_IiioI STATE2) A2) (@ (@ tptp.containsInformation_THFTYPE_IiooI STATE1) STMT1) (@ (@ tptp.containsInformation_THFTYPE_IiooI STATE2) STMT2) (not (@ (@ tptp.consistent_THFTYPE_IoooI STMT1) STMT2)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGeometricPoint_THFTYPE_i) tptp.lGeometricFigure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRelationExtendedToQuantities_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (AGENT $$unsorted)) (=> (@ (@ tptp.wants_THFTYPE_IiioI AGENT) OBJ) (exists ((PURP Bool)) (@ (@ (@ tptp.hasPurposeForAgent_THFTYPE_IioioI OBJ) PURP) AGENT)))))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lRationalNumberFn_THFTYPE_i) tptp.lRationalNumber_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CHILD $$unsorted) (PARENT $$unsorted)) (=> (@ (@ tptp.daughter_THFTYPE_IiioI CHILD) PARENT) (@ (@ tptp.attribute_THFTYPE_IiioI CHILD) tptp.lFemale_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPartialOrderingRelation_THFTYPE_i) tptp.lReflexiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lImpelling_THFTYPE_i) tptp.lTransfer_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ1) tptp.lObject_THFTYPE_i) (@ (@ tptp.partlyLocated_THFTYPE_IiioI OBJ1) OBJ2)) (@ (@ tptp.overlapsSpatially_THFTYPE_IiioI OBJ1) OBJ2))))
% 2.18/2.70  (assert (forall ((PATH $$unsorted) (ARC2 $$unsorted) (ARC1 $$unsorted) (NUMBER2 $$unsorted) (SUM $$unsorted) (NUMBER1 $$unsorted)) (let ((_let_1 (@ tptp.lPathWeightFn_THFTYPE_IiiI PATH))) (=> (and (= _let_1 SUM) (@ (@ tptp.graphPart_THFTYPE_IiioI ARC1) PATH) (@ (@ tptp.graphPart_THFTYPE_IiioI ARC2) PATH) (@ (@ tptp.arcWeight_THFTYPE_IiioI ARC1) NUMBER1) (@ (@ tptp.arcWeight_THFTYPE_IiioI ARC2) NUMBER2) (forall ((ARC3 $$unsorted)) (=> (@ (@ tptp.graphPart_THFTYPE_IiioI ARC3) PATH) (or (= ARC3 ARC1) (= ARC3 ARC2))))) (= _let_1 (@ (@ tptp.plus_THFTYPE_IiiiI NUMBER1) NUMBER2))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSelecting_THFTYPE_i) tptp.lIntentionalPsychologicalProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lAssignmentFn_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.70  (assert (forall ((Y $$unsorted) (YEAR $$unsorted) (MONTH $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI Y))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MONTH) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lFebruary_THFTYPE_i) YEAR)) (@ _let_1 YEAR) (@ _let_1 tptp.lLeapYear_THFTYPE_i)) (@ (@ tptp.duration_THFTYPE_IiioI MONTH) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n29_THFTYPE_i) tptp.lDayDuration_THFTYPE_i))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWetting_THFTYPE_i) tptp.lPutting_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lEquivalenceRelation_THFTYPE_i) tptp.lTransitiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ORG $$unsorted) (POSITION $$unsorted) (AGENT $$unsorted)) (=> (@ (@ (@ tptp.occupiesPosition_THFTYPE_IiiioI AGENT) POSITION) ORG) (@ (@ tptp.attribute_THFTYPE_IiioI AGENT) POSITION))))
% 2.18/2.70  (assert (forall ((AREA $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI AREA) tptp.lWaterArea_THFTYPE_i) (exists ((BED $$unsorted) (HOLE $$unsorted) (WATER $$unsorted)) (and (= (@ tptp.lHoleHostFn_THFTYPE_IiiI HOLE) BED) (@ (@ tptp.instance_THFTYPE_IiioI WATER) tptp.lWater_THFTYPE_i) (@ (@ tptp.properlyFills_THFTYPE_IiioI WATER) HOLE) (= (@ (@ tptp.lMereologicalSumFn_THFTYPE_IiiiI BED) WATER) AREA))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPosition_THFTYPE_i) tptp.lSocialRole_THFTYPE_i))
% 2.18/2.70  (assert (forall ((COMP2 $$unsorted) (COMP1 $$unsorted)) (=> (@ (@ tptp.connectedEngineeringComponents_THFTYPE_IiioI COMP1) COMP2) (and (not (@ (@ tptp.engineeringSubcomponent_THFTYPE_IiioI COMP1) COMP2)) (not (@ (@ tptp.engineeringSubcomponent_THFTYPE_IiioI COMP2) COMP1))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBodyPart_THFTYPE_i) tptp.lAnatomicalStructure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSpeaking_THFTYPE_i) tptp.lVocalizing_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lPathologicProcess_THFTYPE_i) tptp.lPhysiologicProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((GRAPH2 $$unsorted) (GRAPH1 $$unsorted) (ELEMENT $$unsorted)) (let ((_let_1 (@ tptp.graphPart_THFTYPE_IiioI ELEMENT))) (=> (and (@ (@ tptp.subGraph_THFTYPE_IiioI GRAPH1) GRAPH2) (@ _let_1 GRAPH1)) (@ _let_1 GRAPH2)))))
% 2.18/2.70  (assert (forall ((DEPTH $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ (@ tptp.depth_THFTYPE_IiiioI OBJ1) OBJ2) DEPTH) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) tptp.lBelow_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lSeriesVolumeFn_THFTYPE_i) tptp.lText_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCompoundSubstance_THFTYPE_i) tptp.lPureSubstance_THFTYPE_i))
% 2.18/2.70  (assert (forall ((SPORE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SPORE) tptp.lSpore_THFTYPE_i) (exists ((PLANT $$unsorted) (TIME $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PLANT) tptp.lNonFloweringPlant_THFTYPE_i) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.part_THFTYPE_IiioI SPORE) PLANT)))))))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (= (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) tptp.lRight_THFTYPE_i) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ2) OBJ1) tptp.lLeft_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lTwoDimensionalFigure_THFTYPE_i) tptp.lOpenTwoDimensionalFigure_THFTYPE_i) tptp.lClosedTwoDimensionalFigure_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CHILD $$unsorted) (REP $$unsorted) (PARENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI REP) tptp.lReplication_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI REP) PARENT) (@ (@ tptp.result_THFTYPE_IiioI REP) CHILD)) (@ (@ tptp.parent_THFTYPE_IiioI CHILD) PARENT))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBoiling_THFTYPE_i) tptp.lStateChange_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PATIENT $$unsorted) (KILL $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI KILL) tptp.lKilling_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI KILL) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI KILL) PATIENT)) (and (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lOrganism_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI PATIENT) tptp.lOrganism_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ (@ (@ tptp.disjointDecomposition_THFTYPE_IiiiioI tptp.lPrimate_THFTYPE_i) tptp.lApe_THFTYPE_i) tptp.lMonkey_THFTYPE_i) tptp.lHominid_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSpeaking_THFTYPE_i) tptp.lLinguisticCommunication_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lCollection_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (KEEP $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI KEEP) tptp.lKeeping_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI KEEP) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI KEEP) OBJ)) (exists ((PUT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PUT) tptp.lPutting_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PUT) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI PUT) OBJ) (@ (@ tptp.earlier_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI PUT)) (@ tptp.lWhenFn_THFTYPE_IiiI KEEP)))))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (TEXT2 $$unsorted) (TEXT1 $$unsorted)) (=> (= (@ (@ tptp.lEditionFn_THFTYPE_IiiiI TEXT1) NUMBER) TEXT2) (@ (@ tptp.subsumesContentClass_THFTYPE_IiioI TEXT1) TEXT2))))
% 2.18/2.70  (assert (forall ((FORMULA Bool) (AGENT $$unsorted) (QUESTION $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI QUESTION) tptp.lQuestioning_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI QUESTION) AGENT) (@ (@ tptp.patient_THFTYPE_IiooI QUESTION) FORMULA) (@ (@ tptp.instance_THFTYPE_IoioI FORMULA) tptp.lFormula_THFTYPE_i)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI QUESTION)) (not (@ (@ tptp.knows_THFTYPE_IiooI AGENT) FORMULA))))))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lComplexNumber_THFTYPE_i) tptp.lRealNumber_THFTYPE_i))
% 2.18/2.70  (assert (forall ((INTERVAL1 $$unsorted) (INTERVAL2 $$unsorted)) (=> (and (= (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL1) (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL2)) (= (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL1) (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL2))) (= INTERVAL1 INTERVAL2))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lKeeping_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((INJ $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI INJ))) (= (@ _let_1 tptp.lInjuring_THFTYPE_i) (and (@ _let_1 tptp.lDamaging_THFTYPE_i) (exists ((ORGANISM $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ORGANISM) tptp.lOrganism_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI INJ) ORGANISM))))))))
% 2.18/2.70  (assert (forall ((CBO1 $$unsorted) (CBO2 $$unsorted) (PUB1 $$unsorted) (EDITION1 $$unsorted) (EDITION2 $$unsorted) (PUB2 $$unsorted) (INT2 $$unsorted) (DATE2 $$unsorted) (INT1 $$unsorted) (DATE1 $$unsorted) (TEXT $$unsorted)) (let ((_let_1 (@ tptp.lEditionFn_THFTYPE_IiiiI TEXT))) (=> (and (= (@ _let_1 INT1) EDITION1) (= (@ _let_1 INT2) EDITION2) (@ (@ tptp.gt_THFTYPE_IiioI INT2) INT1) (@ (@ tptp.instance_THFTYPE_IiioI PUB1) tptp.lPublication_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI PUB2) tptp.lPublication_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI CBO1) EDITION1) (@ (@ tptp.instance_THFTYPE_IiioI CBO2) EDITION2) (@ (@ tptp.patient_THFTYPE_IiioI PUB1) CBO1) (@ (@ tptp.patient_THFTYPE_IiioI PUB2) CBO2) (@ (@ tptp.date_THFTYPE_IiioI PUB1) DATE1) (@ (@ tptp.date_THFTYPE_IiioI PUB2) DATE2)) (@ (@ tptp.before_THFTYPE_IiioI (@ tptp.lEndFn_THFTYPE_IiiI DATE1)) (@ tptp.lEndFn_THFTYPE_IiiI DATE2))))))
% 2.18/2.70  (assert (forall ((PROC $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lPoliticalProcess_THFTYPE_i) (exists ((POL $$unsorted)) (and (or (@ (@ tptp.instance_THFTYPE_IiioI POL) tptp.lGovernment_THFTYPE_i) (exists ((GOV $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI GOV) tptp.lGovernment_THFTYPE_i) (@ (@ tptp.member_THFTYPE_IiioI POL) GOV)))) (or (@ (@ tptp.agent_THFTYPE_IiioI PROC) POL) (@ (@ tptp.patient_THFTYPE_IiioI PROC) POL)))))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lMinuteDuration_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n60_THFTYPE_i)) tptp.lSecondDuration_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (SEE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI SEE) tptp.lSeeing_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI SEE) OBJ)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI SEE)) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) tptp.lIlluminated_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((LEAP $$unsorted) (NUMBER $$unsorted)) (let ((_let_1 (@ tptp.lRemainderFn_THFTYPE_IiiiI NUMBER))) (let ((_let_2 (@ tptp.instance_THFTYPE_IiioI LEAP))) (=> (and (@ _let_2 tptp.lLeapYear_THFTYPE_i) (@ _let_2 (@ tptp.lYearFn_THFTYPE_IiiI NUMBER))) (or (and (= (@ _let_1 tptp.n4_THFTYPE_i) tptp.n0_THFTYPE_i) (not (= (@ _let_1 tptp.n100_THFTYPE_i) tptp.n0_THFTYPE_i))) (= (@ _let_1 tptp.n400_THFTYPE_i) tptp.n0_THFTYPE_i)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lIntentionalPsychologicalProcess_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPsychologicalAttribute_THFTYPE_i) tptp.lBiologicalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (INCREASE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI INCREASE) tptp.lIncreasing_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI INCREASE) OBJ)) (exists ((UNIT $$unsorted) (QUANT1 $$unsorted) (QUANT2 $$unsorted)) (let ((_let_1 (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI OBJ) UNIT))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI INCREASE))) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (= _let_1 QUANT1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (= _let_1 QUANT2)) (@ (@ tptp.gt_THFTYPE_IiioI QUANT2) QUANT1))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTernaryFunction_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTissue_THFTYPE_i) tptp.lBodySubstance_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lAbove_THFTYPE_i) tptp.lBelow_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CHILD $$unsorted) (PARENT $$unsorted)) (=> (@ (@ tptp.son_THFTYPE_IiioI CHILD) PARENT) (@ (@ tptp.attribute_THFTYPE_IiioI CHILD) tptp.lMale_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((MONTH1 $$unsorted) (MONTH2 $$unsorted) (YEAR $$unsorted)) (=> (and (= MONTH1 (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lApril_THFTYPE_i) YEAR)) (= MONTH2 (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lMay_THFTYPE_i) YEAR))) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI MONTH1) MONTH2))))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lSubtractionFn_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lRight_THFTYPE_i) tptp.lLeft_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBeverage_THFTYPE_i) tptp.lFood_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCaseRole_THFTYPE_i) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lSineFn_THFTYPE_i) tptp.lRealNumber_THFTYPE_i))
% 2.18/2.70  (assert (forall ((MAN $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MAN) tptp.lMan_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI MAN) tptp.lMale_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDevice_THFTYPE_i) tptp.lArtifact_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PATH1 $$unsorted) (MEASURE1 $$unsorted) (PROCESS $$unsorted) (DISTANCE $$unsorted) (SOURCE $$unsorted) (DEST $$unsorted)) (=> (and (@ (@ tptp.path_THFTYPE_IiioI PROCESS) PATH1) (@ (@ tptp.origin_THFTYPE_IiioI PROCESS) SOURCE) (@ (@ tptp.destination_THFTYPE_IiioI PROCESS) DEST) (@ (@ tptp.length_THFTYPE_IiioI PATH1) MEASURE1) (@ (@ (@ tptp.distance_THFTYPE_IiiioI SOURCE) DEST) DISTANCE) (not (@ (@ tptp.gt_THFTYPE_IiioI MEASURE1) DISTANCE))) (forall ((OBJ $$unsorted)) (=> (@ (@ tptp.part_THFTYPE_IiioI OBJ) PATH1) (@ (@ (@ tptp.between_THFTYPE_IiiioI SOURCE) OBJ) DEST))))))
% 2.18/2.70  (assert (forall ((ATOM $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ATOM) tptp.lAtom_THFTYPE_i) (exists ((PROTON $$unsorted) (ELECTRON $$unsorted)) (and (@ (@ tptp.component_THFTYPE_IiioI PROTON) ATOM) (@ (@ tptp.component_THFTYPE_IiioI ELECTRON) ATOM) (@ (@ tptp.instance_THFTYPE_IiioI PROTON) tptp.lProton_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI ELECTRON) tptp.lElectron_THFTYPE_i))))))
% 2.18/2.70  (assert (forall ((NUMBER2 $$unsorted) (NUMBER1 $$unsorted)) (let ((_let_1 (@ tptp.lFloorFn_THFTYPE_IiiI NUMBER1))) (let ((_let_2 (@ (@ tptp.minus_THFTYPE_IiiiI NUMBER1) _let_1))) (=> (= (@ tptp.lRoundFn_THFTYPE_IiiI NUMBER1) NUMBER2) (or (=> (@ (@ tptp.lt_THFTYPE_IiioI _let_2) tptp.n0dot5_THFTYPE_i) (= NUMBER2 _let_1)) (=> (@ (@ tptp.gtet_THFTYPE_IiioI _let_2) tptp.n0dot5_THFTYPE_i) (= NUMBER2 (@ tptp.lCeilingFn_THFTYPE_IiiI NUMBER1)))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPhysical_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lAdditionFn_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.70  (assert (forall ((LIST2 $$unsorted) (LIST1 $$unsorted)) (=> (@ (@ tptp.subList_THFTYPE_IiioI LIST1) LIST2) (forall ((ITEM $$unsorted)) (let ((_let_1 (@ tptp.inList_THFTYPE_IiioI ITEM))) (=> (@ _let_1 LIST1) (@ _let_1 LIST2)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lEncoding_THFTYPE_i) tptp.lWriting_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lAngstrom_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n1dot0Eminus10_THFTYPE_i)) tptp.lMeter_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((PATH $$unsorted) (ARC1 $$unsorted) (SUBPATH $$unsorted) (SUM $$unsorted) (NUMBER1 $$unsorted)) (=> (and (= (@ tptp.lPathWeightFn_THFTYPE_IiiI PATH) SUM) (@ (@ tptp.subGraph_THFTYPE_IiioI SUBPATH) PATH) (@ (@ tptp.graphPart_THFTYPE_IiioI ARC1) PATH) (@ (@ tptp.arcWeight_THFTYPE_IiioI ARC1) NUMBER1) (forall ((ARC2 $$unsorted)) (let ((_let_1 (@ tptp.graphPart_THFTYPE_IiioI ARC2))) (=> (@ _let_1 PATH) (or (@ _let_1 SUBPATH) (= ARC2 ARC1)))))) (= SUM (@ (@ tptp.plus_THFTYPE_IiiiI (@ tptp.lPathWeightFn_THFTYPE_IiiI SUBPATH)) NUMBER1)))))
% 2.18/2.70  (assert (forall ((UNIT $$unsorted) (MEGAUNIT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfMeasure_THFTYPE_i) (= MEGAUNIT (@ tptp.lMegaFn_THFTYPE_IiiI UNIT))) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1_THFTYPE_i) MEGAUNIT) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1000000_THFTYPE_i) UNIT)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWaterMotion_THFTYPE_i) tptp.lLiquidMotion_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGroupOfPeople_THFTYPE_i) tptp.lGroup_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPerceptualAttribute_THFTYPE_i) tptp.lRelationalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.typicalPart_THFTYPE_IiioI tptp.lVocalCords_THFTYPE_i) tptp.lHuman_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NODE $$unsorted) (ARC $$unsorted)) (=> (and (= (@ tptp.lInitialNodeFn_THFTYPE_IiiI ARC) NODE) (= (@ tptp.lTerminalNodeFn_THFTYPE_IiiI ARC) NODE)) (@ (@ tptp.instance_THFTYPE_IiioI ARC) tptp.lGraphLoop_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((ROW $$unsorted) (ITEM $$unsorted)) (@ (@ tptp.initialList_THFTYPE_IiioI (@ tptp.lListFn_THFTYPE_IiiI ROW)) (@ (@ tptp.lListFn_THFTYPE_IiiiI ROW) ITEM))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTranslating_THFTYPE_i) tptp.lContentDevelopment_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTactilePerception_THFTYPE_i) tptp.lPerception_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lLinguisticExpression_THFTYPE_i) tptp.lIcon_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lInch_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n0dot0254_THFTYPE_i)) tptp.lMeter_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((INJ $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INJ) tptp.lInjuring_THFTYPE_i) (exists ((STRUCT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI STRUCT) tptp.lAnatomicalStructure_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI INJ) STRUCT))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lConstructing_THFTYPE_i) tptp.lMaking_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (QUANT $$unsorted) (UNIT $$unsorted)) (=> (and (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) UNIT) QUANT) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfFrequency_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI QUANT) tptp.lFrequencyMeasure_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((FREEZE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI FREEZE) tptp.lFreezing_THFTYPE_i) (exists ((COOL $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI COOL) tptp.lCooling_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI COOL) FREEZE))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lStreamWaterArea_THFTYPE_i) tptp.lFlowRegion_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lConstructedLanguage_THFTYPE_i) tptp.lHumanLanguage_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAnimalLanguage_THFTYPE_i) tptp.lLanguage_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CLASS $$unsorted) (ATTR $$unsorted) (ROW $$unsorted)) (=> (@ (@ tptp.exhaustiveAttribute_THFTYPE_IiioI CLASS) ROW) (=> (@ (@ tptp.inList_THFTYPE_IiioI ATTR) (@ tptp.lListFn_THFTYPE_IiiI ROW)) (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lAttribute_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((DECODE $$unsorted) (DOC1 $$unsorted) (PROP Bool)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DECODE) tptp.lDecoding_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI DECODE) DOC1)) (exists ((ENCODE $$unsorted) (DOC2 $$unsorted) (TIME $$unsorted)) (and (@ (@ tptp.containsInformation_THFTYPE_IiooI DOC2) PROP) (@ (@ tptp.containsInformation_THFTYPE_IiooI DOC1) PROP) (@ (@ tptp.temporalPart_THFTYPE_IiioI TIME) (@ tptp.lPastFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI DECODE))) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (and (@ (@ tptp.instance_THFTYPE_IiioI ENCODE) tptp.lEncoding_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI ENCODE) DOC2))))))))
% 2.18/2.70  (assert (forall ((INST $$unsorted) (REL (-> $$unsorted $$unsorted Bool))) (= (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lReflexiveRelation_THFTYPE_i) (@ (@ REL INST) INST))))
% 2.18/2.70  (assert (forall ((CONTEST $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI CONTEST) tptp.lContest_THFTYPE_i) (exists ((AGENT1 $$unsorted) (AGENT2 $$unsorted) (PURP1 Bool) (PURP2 Bool)) (let ((_let_1 (@ tptp.hasPurposeForAgent_THFTYPE_IioioI CONTEST))) (let ((_let_2 (@ tptp.agent_THFTYPE_IiioI CONTEST))) (and (@ _let_2 AGENT1) (@ _let_2 AGENT2) (@ (@ _let_1 PURP1) AGENT1) (@ (@ _let_1 PURP2) AGENT2) (not (= AGENT1 AGENT2)) (not (= PURP1 PURP2)))))))))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (PROCESS $$unsorted) (REL (-> $$unsorted $$unsorted Bool))) (=> (and (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lCaseRole_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lObject_THFTYPE_i) (@ (@ REL PROCESS) OBJ)) (exists ((TIME $$unsorted)) (@ (@ tptp.overlapsSpatially_THFTYPE_IiioI (@ (@ tptp.lWhereFn_THFTYPE_IiiiI PROCESS) TIME)) OBJ)))))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lHeating_THFTYPE_i) tptp.lCooling_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBuying_THFTYPE_i) tptp.lFinancialTransaction_THFTYPE_i))
% 2.18/2.70  (assert (forall ((INTERVAL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI (@ tptp.lPastFn_THFTYPE_IiiI INTERVAL)) INTERVAL))))
% 2.18/2.70  (assert (forall ((BOOK $$unsorted) (ARTICLE1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ARTICLE1) tptp.lArticle_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI BOOK) tptp.lBook_THFTYPE_i) (@ (@ tptp.subsumesContentInstance_THFTYPE_IiioI BOOK) ARTICLE1)) (exists ((ARTICLE2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ARTICLE2) tptp.lArticle_THFTYPE_i) (not (= ARTICLE2 ARTICLE1)) (@ (@ tptp.subsumesContentInstance_THFTYPE_IiioI BOOK) ARTICLE2))))))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lExtensionFn_THFTYPE_i) tptp.lClass_THFTYPE_i))
% 2.18/2.70  (assert (forall ((MEAT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MEAT) tptp.lMeat_THFTYPE_i) (forall ((PART $$unsorted)) (=> (@ (@ tptp.part_THFTYPE_IiioI PART) MEAT) (exists ((SUBPART $$unsorted) (TIME $$unsorted) (ANIMAL $$unsorted)) (let ((_let_1 (@ tptp.part_THFTYPE_IiioI SUBPART))) (and (@ _let_1 PART) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (and (@ (@ tptp.instance_THFTYPE_IiioI ANIMAL) tptp.lAnimal_THFTYPE_i) (@ _let_1 ANIMAL)))))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lArtWork_THFTYPE_i) tptp.lArtifact_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lManaging_THFTYPE_i) tptp.lOrganizationalProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((MONTH1 $$unsorted) (MONTH2 $$unsorted) (YEAR $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MONTH1) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lSeptember_THFTYPE_i) YEAR)) (@ (@ tptp.instance_THFTYPE_IiioI MONTH2) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lOctober_THFTYPE_i) YEAR))) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI MONTH1) MONTH2))))
% 2.18/2.70  (assert (forall ((ORDER $$unsorted) (FORMULA Bool)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ORDER) tptp.lOrdering_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiooI ORDER) FORMULA)) (@ (@ tptp.modalAttribute_THFTYPE_IoioI FORMULA) tptp.lObligation_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((THING $$unsorted)) (@ (@ tptp.instance_THFTYPE_IiioI THING) tptp.lEntity_THFTYPE_i)))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lEndFn_THFTYPE_i) tptp.lTimePoint_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ACT $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ACT) tptp.lReligiousProcess_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI ACT) AGENT)) (or (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lReligiousOrganization_THFTYPE_i) (exists ((ORG $$unsorted)) (and (@ (@ tptp.member_THFTYPE_IiioI AGENT) ORG) (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lReligiousOrganization_THFTYPE_i)))))))
% 2.18/2.70  (assert (forall ((INTERACTION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INTERACTION) tptp.lSocialInteraction_THFTYPE_i) (exists ((AGENT1 $$unsorted) (AGENT2 $$unsorted)) (let ((_let_1 (@ tptp.involvedInEvent_THFTYPE_IiioI INTERACTION))) (and (@ _let_1 AGENT1) (@ _let_1 AGENT2) (@ (@ tptp.instance_THFTYPE_IiioI AGENT1) tptp.lAgent_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI AGENT2) tptp.lAgent_THFTYPE_i) (not (= AGENT1 AGENT2))))))))
% 2.18/2.70  (assert (forall ((LOOP $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI LOOP) tptp.lGraphLoop_THFTYPE_i) (exists ((NODE $$unsorted)) (@ (@ (@ tptp.links_THFTYPE_IiiioI NODE) NODE) LOOP)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTruthValue_THFTYPE_i) tptp.lRelationalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lVoting_THFTYPE_i) tptp.lDeciding_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMeasuringDevice_THFTYPE_i) tptp.lDevice_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJECT $$unsorted) (AGENT $$unsorted)) (=> (@ (@ tptp.needs_THFTYPE_IiioI AGENT) OBJECT) (@ (@ tptp.wants_THFTYPE_IiioI AGENT) OBJECT))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCounty_THFTYPE_i) tptp.lLandArea_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (CLASS1 $$unsorted) (REL $$unsorted) (CLASS2 $$unsorted)) (let ((_let_1 (@ (@ tptp.domainSubclass_THFTYPE_IiiioI REL) NUMBER))) (=> (and (@ _let_1 CLASS1) (@ _let_1 CLASS2)) (or (@ (@ tptp.subclass_THFTYPE_IiioI CLASS1) CLASS2) (@ (@ tptp.subclass_THFTYPE_IiioI CLASS2) CLASS1))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDirecting_THFTYPE_i) tptp.lLinguisticCommunication_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ATOM $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ATOM) tptp.lAtom_THFTYPE_i) (forall ((NUCLEUS1 $$unsorted) (NUCLEUS2 $$unsorted)) (=> (and (@ (@ tptp.component_THFTYPE_IiioI NUCLEUS1) ATOM) (@ (@ tptp.component_THFTYPE_IiioI NUCLEUS2) ATOM) (@ (@ tptp.instance_THFTYPE_IiioI NUCLEUS1) tptp.lAtomicNucleus_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI NUCLEUS2) tptp.lAtomicNucleus_THFTYPE_i)) (= NUCLEUS1 NUCLEUS2))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNonnegativeInteger_THFTYPE_i) tptp.lNonnegativeRealNumber_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lEngineeringComponent_THFTYPE_i) tptp.lDevice_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNonnegativeInteger_THFTYPE_i) tptp.lInteger_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CLASS $$unsorted) (SEQ $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI SEQ) tptp.lSequenceFunction_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI SEQ) CLASS)) (@ (@ tptp.subclass_THFTYPE_IiioI CLASS) tptp.lInteger_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRadiatingSound_THFTYPE_i) tptp.lRadiating_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJECT $$unsorted) (AGENT2 $$unsorted) (AGENT1 $$unsorted)) (= (exists ((BORROW $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI BORROW) tptp.lBorrowing_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI BORROW) AGENT1) (@ (@ tptp.origin_THFTYPE_IiioI BORROW) AGENT2) (@ (@ tptp.patient_THFTYPE_IiioI BORROW) OBJECT))) (exists ((LEND $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI LEND) tptp.lLending_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI LEND) AGENT2) (@ (@ tptp.destination_THFTYPE_IiioI LEND) AGENT1) (@ (@ tptp.patient_THFTYPE_IiioI LEND) OBJECT))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTranslocation_THFTYPE_i) tptp.lMotion_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PRODUCT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PRODUCT) tptp.lProduct_THFTYPE_i) (exists ((MANUFACTURE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI MANUFACTURE) tptp.lManufacture_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI MANUFACTURE) PRODUCT))))))
% 2.18/2.70  (assert (forall ((DAY $$unsorted) (NUMBER2 $$unsorted) (HOUR2 $$unsorted) (NUMBER1 $$unsorted) (HOUR1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI HOUR1) (@ (@ tptp.lHourFn_THFTYPE_IiiiI NUMBER1) DAY)) (@ (@ tptp.instance_THFTYPE_IiioI HOUR2) (@ (@ tptp.lHourFn_THFTYPE_IiiiI NUMBER2) DAY)) (= (@ (@ tptp.minus_THFTYPE_IiiiI NUMBER2) NUMBER1) tptp.n1_THFTYPE_i)) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI HOUR1) HOUR2))))
% 2.18/2.70  (assert (forall ((POINT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI POINT) tptp.lTimePoint_THFTYPE_i) (exists ((INTERVAL $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.temporalPart_THFTYPE_IiioI POINT) INTERVAL))))))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lImmediatePastFn_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAstronomicalBody_THFTYPE_i) tptp.lRegion_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGeologicalProcess_THFTYPE_i) tptp.lInternalChange_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.trichotomizingOn_THFTYPE_IIiioIioI tptp.greaterThan_THFTYPE_IiioI) tptp.lRealNumber_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTransfer_THFTYPE_i) tptp.lTranslocation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ROW2 $$unsorted) (ROW1 $$unsorted)) (=> (and (@ tptp.contraryAttribute_THFTYPE_IioI ROW1) (@ (@ tptp.identicalListItems_THFTYPE_IiioI (@ tptp.lListFn_THFTYPE_IiiI ROW1)) (@ tptp.lListFn_THFTYPE_IiiI ROW2))) (@ tptp.contraryAttribute_THFTYPE_IioI ROW2))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lVertebrate_THFTYPE_i) tptp.lAnimal_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPositionalAttribute_THFTYPE_i) tptp.lRelationalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGasMotion_THFTYPE_i) tptp.lMotion_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subAttribute_THFTYPE_IiioI tptp.lLiquid_THFTYPE_i) tptp.lFluid_THFTYPE_i))
% 2.18/2.70  (assert (forall ((POINT $$unsorted) (INTERVAL $$unsorted)) (=> (= (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL) POINT) (forall ((OTHERPOINT $$unsorted)) (=> (and (@ (@ tptp.temporalPart_THFTYPE_IiioI OTHERPOINT) INTERVAL) (not (= OTHERPOINT POINT))) (@ (@ tptp.before_THFTYPE_IiioI OTHERPOINT) POINT))))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lQuart_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.div_THFTYPE_IiiiI NUMBER) tptp.n4_THFTYPE_i)) tptp.lUnitedStatesGallon_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lFactualText_THFTYPE_i) tptp.lFictionalText_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ tptp.traverses_THFTYPE_IiioI OBJ1) OBJ2) (or (@ (@ tptp.crosses_THFTYPE_IiioI OBJ1) OBJ2) (@ (@ tptp.penetrates_THFTYPE_IiioI OBJ1) OBJ2)))))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted)) (=> (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) tptp.lDry_THFTYPE_i) (not (exists ((SUBOBJ $$unsorted)) (and (@ (@ tptp.part_THFTYPE_IiioI SUBOBJ) OBJ) (@ (@ tptp.attribute_THFTYPE_IiioI SUBOBJ) tptp.lLiquid_THFTYPE_i)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lEthnicGroup_THFTYPE_i) tptp.lGroupOfPeople_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (REPAIR $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI REPAIR) tptp.lRepairing_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI REPAIR) OBJ)) (exists ((DAMAGE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI DAMAGE) tptp.lDamaging_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI DAMAGE) OBJ) (@ (@ tptp.earlier_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI DAMAGE)) (@ tptp.lWhenFn_THFTYPE_IiiI REPAIR)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lVocalizing_THFTYPE_i) tptp.lRadiatingSound_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (QUANTITY $$unsorted)) (=> (= QUANTITY (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lCoulomb_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI QUANTITY) tptp.lTimeDependentQuantity_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((WEEK $$unsorted) (DAY1 $$unsorted) (DAY2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DAY1) tptp.lThursday_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI DAY2) tptp.lFriday_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI WEEK) tptp.lWeek_THFTYPE_i) (@ (@ tptp.temporalPart_THFTYPE_IiioI DAY1) WEEK) (@ (@ tptp.temporalPart_THFTYPE_IiioI DAY2) WEEK)) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI DAY1) DAY2))))
% 2.18/2.70  (assert (forall ((CONTENT Bool) (AGENT $$unsorted) (TEXT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TEXT) tptp.lFactualText_THFTYPE_i) (@ (@ tptp.authors_THFTYPE_IiioI AGENT) TEXT) (@ (@ tptp.subsumesContentInstance_THFTYPE_IiooI TEXT) CONTENT) (@ (@ tptp.instance_THFTYPE_IoioI CONTENT) tptp.lFormula_THFTYPE_i)) (@ (@ tptp.believes_THFTYPE_IiooI AGENT) CONTENT))))
% 2.18/2.70  (assert (@ (@ (@ (@ (@ tptp.partition_THFTYPE_IiiiiioI tptp.lGeometricFigure_THFTYPE_i) tptp.lGeometricPoint_THFTYPE_i) tptp.lOneDimensionalFigure_THFTYPE_i) tptp.lTwoDimensionalFigure_THFTYPE_i) tptp.lThreeDimensionalFigure_THFTYPE_i))
% 2.18/2.70  (assert (forall ((LIST2 $$unsorted) (LIST1 $$unsorted)) (=> (@ (@ tptp.initialList_THFTYPE_IiioI LIST1) LIST2) (forall ((NUMBER1 $$unsorted) (NUMBER2 $$unsorted)) (=> (and (= (@ tptp.lListLengthFn_THFTYPE_IiiI LIST1) NUMBER1) (@ (@ tptp.ltet_THFTYPE_IiioI NUMBER2) NUMBER1)) (= (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST1) NUMBER2) (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST2) NUMBER2)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTraitAttribute_THFTYPE_i) tptp.lPsychologicalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCooperation_THFTYPE_i) tptp.lSocialInteraction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPartialOrderingRelation_THFTYPE_i) tptp.lTransitiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((DEGREE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DEGREE) tptp.lPlaneAngleMeasure_THFTYPE_i) (= (@ tptp.lTangentFn_THFTYPE_IiiI DEGREE) (@ (@ tptp.div_THFTYPE_IiiiI (@ tptp.lSineFn_THFTYPE_IiiI DEGREE)) (@ tptp.lCosineFn_THFTYPE_IiiI DEGREE))))))
% 2.18/2.70  (assert (forall ((OBJECT $$unsorted) (OBJECTTYPE $$unsorted) (PART $$unsorted)) (=> (and (@ (@ tptp.subclass_THFTYPE_IiioI OBJECTTYPE) tptp.lSubstance_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI OBJECT) OBJECTTYPE) (@ (@ tptp.part_THFTYPE_IiioI PART) OBJECT)) (@ (@ tptp.instance_THFTYPE_IiioI PART) OBJECTTYPE))))
% 2.18/2.70  (assert (@ (@ tptp.identityElement_THFTYPE_IIiiiIioI tptp.lDivisionFn_THFTYPE_IiiiI) tptp.n1_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (CLASS $$unsorted) (REL (-> $$unsorted Bool)) (ROW $$unsorted)) (=> (and (@ (@ (@ tptp.domainSubclass_THFTYPE_IIioIiioI REL) NUMBER) CLASS) (@ REL ROW)) (@ (@ tptp.subclass_THFTYPE_IiioI (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI (@ tptp.lListFn_THFTYPE_IiiI ROW)) NUMBER)) CLASS))))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lFloorFn_THFTYPE_i) tptp.lInteger_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPerception_THFTYPE_i) tptp.lPsychologicalProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNonnegativeRealNumber_THFTYPE_i) tptp.lRealNumber_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNaturalProcess_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((REL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI REL) tptp.lTernaryPredicate_THFTYPE_i) (@ (@ tptp.valence_THFTYPE_IiioI REL) tptp.n3_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBone_THFTYPE_i) tptp.lTissue_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lMeasureFn_THFTYPE_i) tptp.lPhysicalQuantity_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (= (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) tptp.lHorizontal_THFTYPE_i) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ2) OBJ1) tptp.lHorizontal_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((MONTH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MONTH) tptp.lAugust_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI MONTH) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n31_THFTYPE_i) tptp.lDayDuration_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((HOUR $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI HOUR) tptp.lHour_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI HOUR) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1_THFTYPE_i) tptp.lHourDuration_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lPeriodicalIssueFn_THFTYPE_i) tptp.lPeriodical_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lEating_THFTYPE_i) tptp.lIngesting_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lHiring_THFTYPE_i) tptp.lJoiningAnOrganization_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lListConcatenateFn_THFTYPE_i) tptp.lList_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ORG $$unsorted) (TEXT $$unsorted)) (= (@ (@ tptp.publishes_THFTYPE_IiioI ORG) TEXT) (exists ((PUB $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PUB) tptp.lPublication_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PUB) ORG) (@ (@ tptp.patient_THFTYPE_IiioI PUB) TEXT))))))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) tptp.lOn_THFTYPE_i) (@ (@ tptp.connected_THFTYPE_IiioI OBJ1) OBJ2))))
% 2.18/2.70  (assert (forall ((REL (-> $$unsorted $$unsorted Bool))) (= (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lAntisymmetricRelation_THFTYPE_i) (forall ((INST1 $$unsorted) (INST2 $$unsorted)) (=> (and (@ (@ REL INST1) INST2) (@ (@ REL INST2) INST1)) (= INST1 INST2))))))
% 2.18/2.70  (assert (forall ((CLASS $$unsorted) (INTERVAL_TYPE $$unsorted) (INTERVAL $$unsorted)) (=> (= (@ (@ tptp.lTemporalCompositionFn_THFTYPE_IiiiI INTERVAL) INTERVAL_TYPE) CLASS) (forall ((TIME1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TIME1) CLASS) (not (@ (@ tptp.finishes_THFTYPE_IiioI TIME1) INTERVAL))) (exists ((TIME2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI TIME2) CLASS) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI TIME1) TIME2))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCommutativeFunction_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMotion_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ORG $$unsorted) (ATT $$unsorted)) (=> (and (@ (@ tptp.attribute_THFTYPE_IiioI ORG) ATT) (@ (@ tptp.instance_THFTYPE_IiioI ATT) tptp.lBiologicalAttribute_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lOrganism_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ (@ tptp.exhaustiveAttribute_THFTYPE_IiiioI tptp.lAnimacyAttribute_THFTYPE_i) tptp.lLiving_THFTYPE_i) tptp.lDead_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lStateOrProvince_THFTYPE_i) tptp.lLandArea_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ISLAND $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ISLAND) tptp.lIsland_THFTYPE_i) (not (exists ((AREA $$unsorted) (PART1 $$unsorted) (PART2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI AREA) tptp.lLandArea_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI PART1) ISLAND) (@ (@ tptp.part_THFTYPE_IiioI PART2) AREA) (not (@ (@ tptp.part_THFTYPE_IiioI ISLAND) AREA)) (not (@ (@ tptp.part_THFTYPE_IiioI AREA) ISLAND)) (@ (@ tptp.meetsSpatially_THFTYPE_IiioI PART1) PART2)))))))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (= (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) tptp.lVertical_THFTYPE_i) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ2) OBJ1) tptp.lVertical_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ (@ (@ tptp.disjointDecomposition_THFTYPE_IiiiioI tptp.lPhrase_THFTYPE_i) tptp.lVerbPhrase_THFTYPE_i) tptp.lNounPhrase_THFTYPE_i) tptp.lPrepositionalPhrase_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAtomicNucleus_THFTYPE_i) tptp.lSubatomicParticle_THFTYPE_i))
% 2.18/2.70  (assert (forall ((DIRECT $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted) (OBJ3 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DIRECT) tptp.lDirectionalAttribute_THFTYPE_i) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) DIRECT) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ2) OBJ3) DIRECT)) (@ (@ (@ tptp.between_THFTYPE_IiiioI OBJ1) OBJ2) OBJ3))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSymmetricPositionalAttribute_THFTYPE_i) tptp.lPositionalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lHouse_THFTYPE_i) tptp.lSingleFamilyResidence_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lRoom_THFTYPE_i) tptp.lBuilding_THFTYPE_i))
% 2.18/2.70  (assert (forall ((MORPH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MORPH) tptp.lMorpheme_THFTYPE_i) (exists ((WORD $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI WORD) tptp.lWord_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI MORPH) WORD))))))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lNaturalProcess_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((SURFACE $$unsorted) (OBJ $$unsorted) (ATTRIBUTE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ATTRIBUTE) tptp.lTextureAttribute_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) ATTRIBUTE) (@ (@ tptp.surface_THFTYPE_IiioI SURFACE) OBJ)) (@ (@ tptp.attribute_THFTYPE_IiioI SURFACE) ATTRIBUTE))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMotionDownward_THFTYPE_i) tptp.lMotion_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnaryFunction_THFTYPE_i) tptp.lFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lQuaternaryRelation_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((MINUTE $$unsorted) (NUMBER $$unsorted) (SECOND $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SECOND) (@ (@ tptp.lSecondFn_THFTYPE_IiiiI NUMBER) MINUTE)) (@ (@ tptp.lt_THFTYPE_IiioI NUMBER) tptp.n60_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (HOLE $$unsorted)) (=> (@ (@ tptp.hole_THFTYPE_IiioI HOLE) OBJ) (not (@ (@ tptp.overlapsSpatially_THFTYPE_IiioI HOLE) OBJ)))))
% 2.18/2.70  (assert (forall ((O $$unsorted) (M $$unsorted)) (=> (@ (@ tptp.length_THFTYPE_IiioI O) M) (not (exists ((M2 $$unsorted)) (and (@ (@ tptp.linearExtent_THFTYPE_IiioI O) M2) (@ (@ tptp.gt_THFTYPE_IiioI M2) M)))))))
% 2.18/2.70  (assert (@ (@ tptp.inverse_THFTYPE_IIiioIIiioIoI tptp.greaterThan_THFTYPE_IiioI) tptp.lessThan_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPhysicalQuantity_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (INT $$unsorted)) (=> (= (@ tptp.lFloorFn_THFTYPE_IiiI NUMBER) INT) (not (exists ((OTHERINT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI OTHERINT) tptp.lInteger_THFTYPE_i) (@ (@ tptp.ltet_THFTYPE_IiioI OTHERINT) NUMBER) (@ (@ tptp.gt_THFTYPE_IiioI OTHERINT) INT)))))))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lKiloFn_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPathologicProcess_THFTYPE_i) tptp.lBiologicalProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTimeDuration_THFTYPE_i) tptp.lTimeMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lCenterOfCircleFn_THFTYPE_i) tptp.lGeometricPoint_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lInteger_THFTYPE_i) tptp.lOddInteger_THFTYPE_i) tptp.lEvenInteger_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (QUANTITY $$unsorted)) (=> (= QUANTITY (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lBecquerel_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI QUANTITY) tptp.lTimeDependentQuantity_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lIntentionalRelation_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ORGANISM $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ORGANISM) tptp.lOrganism_THFTYPE_i) (exists ((BIRTH $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI BIRTH) tptp.lBirth_THFTYPE_i) (@ (@ tptp.experiencer_THFTYPE_IiioI BIRTH) ORGANISM))))))
% 2.18/2.70  (assert (forall ((MONTH1 $$unsorted) (MONTH2 $$unsorted) (YEAR $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MONTH1) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lAugust_THFTYPE_i) YEAR)) (@ (@ tptp.instance_THFTYPE_IiioI MONTH2) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lSeptember_THFTYPE_i) YEAR))) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI MONTH1) MONTH2))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCalculating_THFTYPE_i) tptp.lIntentionalPsychologicalProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((INVESTIGATE $$unsorted) (PROP $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI INVESTIGATE) tptp.lInvestigating_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI INVESTIGATE) PROP)) (@ (@ tptp.instance_THFTYPE_IiioI PROP) tptp.lFormula_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lAttribute_THFTYPE_i) tptp.lInternalAttribute_THFTYPE_i) tptp.lRelationalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPropositionalAttitude_THFTYPE_i) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lDayFn_THFTYPE_i) tptp.lDay_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ADVERT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ADVERT) tptp.lAdvertising_THFTYPE_i) (exists ((OBJ $$unsorted)) (and (@ (@ tptp.refers_THFTYPE_IiioI ADVERT) OBJ) (@ (@ tptp.hasPurpose_THFTYPE_IiooI ADVERT) (exists ((SALE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI SALE) tptp.lSelling_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI SALE) OBJ)))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lChangeOfPossession_THFTYPE_i) tptp.lSocialInteraction_THFTYPE_i))
% 2.18/2.70  (assert (forall ((MEET $$unsorted) (AGENT2 $$unsorted) (AGENT1 $$unsorted)) (let ((_let_1 (@ tptp.agent_THFTYPE_IiioI MEET))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MEET) tptp.lMeeting_THFTYPE_i) (@ _let_1 AGENT1) (@ _let_1 AGENT2)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI MEET)) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI AGENT1) AGENT2) tptp.lNear_THFTYPE_i))))))
% 2.18/2.70  (assert (forall ((TEMP $$unsorted) (BOIL $$unsorted) (MELT $$unsorted) (X $$unsorted) (Y $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI X) Y) (@ (@ tptp.subclass_THFTYPE_IiioI Y) tptp.lPureSubstance_THFTYPE_i) (@ (@ tptp.boilingPoint_THFTYPE_IiioI Y) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI BOIL) tptp.lKelvinDegree_THFTYPE_i)) (@ (@ tptp.meltingPoint_THFTYPE_IiioI Y) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI MELT) tptp.lKelvinDegree_THFTYPE_i)) (@ (@ tptp.measure_THFTYPE_IiioI X) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI TEMP) tptp.lKelvinDegree_THFTYPE_i)) (@ (@ tptp.gt_THFTYPE_IiioI TEMP) MELT) (@ (@ tptp.lt_THFTYPE_IiioI TEMP) BOIL)) (@ (@ tptp.attribute_THFTYPE_IiioI X) tptp.lLiquid_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGame_THFTYPE_i) tptp.lContest_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lApril_THFTYPE_i) tptp.lMonth_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBird_THFTYPE_i) tptp.lWarmBloodedVertebrate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAntisymmetricRelation_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lEvaporating_THFTYPE_i) tptp.lStateChange_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lMaximalWeightedPathFn_THFTYPE_i) tptp.lGraphPath_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lProcedure_THFTYPE_i) tptp.lProposition_THFTYPE_i))
% 2.18/2.70  (assert (forall ((WOMAN $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI WOMAN) tptp.lWoman_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI WOMAN) tptp.lFemale_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPublication_THFTYPE_i) tptp.lManufacture_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOffering_THFTYPE_i) tptp.lCommitting_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CLASS $$unsorted) (RELATION (-> $$unsorted $$unsorted Bool))) (=> (@ (@ tptp.trichotomizingOn_THFTYPE_IIiioIioI RELATION) CLASS) (forall ((INST1 $$unsorted) (INST2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI INST1) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI INST2) CLASS)) (or (@ (@ RELATION INST1) INST2) (@ (@ RELATION INST2) INST1) (= INST1 INST2)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPhysicalAttribute_THFTYPE_i) tptp.lInternalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDestruction_THFTYPE_i) tptp.lDamaging_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMusicalInstrument_THFTYPE_i) tptp.lDevice_THFTYPE_i))
% 2.18/2.70  (assert (forall ((REGION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI REGION) tptp.lRegion_THFTYPE_i) (exists ((PHYS $$unsorted)) (@ (@ tptp.located_THFTYPE_IiioI PHYS) REGION)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lVirus_THFTYPE_i) tptp.lMicroorganism_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNounPhrase_THFTYPE_i) tptp.lPhrase_THFTYPE_i))
% 2.18/2.70  (assert (forall ((REL2 (-> $$unsorted Bool)) (ROW2 $$unsorted) (REL1 (-> $$unsorted Bool))) (=> (and (@ (@ tptp.instance_THFTYPE_IIioIioI REL1) tptp.lPredicate_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIioIioI REL2) tptp.lPredicate_THFTYPE_i) (@ (@ tptp.disjointRelation_THFTYPE_IIioIIioIoI REL1) REL2) (not (= REL1 REL2)) (@ REL1 ROW2)) (not (@ REL2 ROW2)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRegulatoryProcess_THFTYPE_i) tptp.lGuiding_THFTYPE_i))
% 2.18/2.70  (assert (forall ((GRAPH $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI GRAPH) tptp.lPseudoGraph_THFTYPE_i) (exists ((LOOP $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI LOOP) tptp.lGraphLoop_THFTYPE_i) (@ (@ tptp.graphPart_THFTYPE_IiioI LOOP) GRAPH))))))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lSubstance_THFTYPE_i) (exists ((ATTR $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lPhysicalState_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) ATTR))))))
% 2.18/2.70  (assert (forall ((P $$unsorted) (A $$unsorted) (C $$unsorted)) (let ((_let_1 (@ tptp.wears_THFTYPE_IiioI A))) (=> (and (@ _let_1 C) (@ (@ tptp.part_THFTYPE_IiioI P) C)) (@ _let_1 P)))))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) tptp.lAbove_THFTYPE_i) (not (@ (@ tptp.connected_THFTYPE_IiioI OBJ1) OBJ2)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBinaryFunction_THFTYPE_i) tptp.lFunction_THFTYPE_i))
% 2.18/2.70  (assert (forall ((REL (-> $$unsorted $$unsorted Bool))) (= (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lTransitiveRelation_THFTYPE_i) (forall ((INST1 $$unsorted) (INST2 $$unsorted) (INST3 $$unsorted)) (let ((_let_1 (@ REL INST1))) (=> (and (@ _let_1 INST2) (@ (@ REL INST2) INST3)) (@ _let_1 INST3)))))))
% 2.18/2.70  (assert (@ (@ (@ tptp.exhaustiveAttribute_THFTYPE_IiiioI tptp.lSexAttribute_THFTYPE_i) tptp.lFemale_THFTYPE_i) tptp.lMale_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lSlug_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n14593dot90_THFTYPE_i)) tptp.lGram_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (SMELL $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI SMELL) tptp.lSmelling_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI SMELL) OBJ)) (exists ((ATTR $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lOlfactoryAttribute_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) ATTR))))))
% 2.18/2.70  (assert (forall ((CLASS $$unsorted) (INTERVAL_TYPE $$unsorted) (INTERVAL $$unsorted)) (=> (= (@ (@ tptp.lTemporalCompositionFn_THFTYPE_IiiiI INTERVAL) INTERVAL_TYPE) CLASS) (forall ((TIME1 $$unsorted) (TIME2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TIME1) INTERVAL_TYPE) (@ (@ tptp.instance_THFTYPE_IiioI TIME2) CLASS)) (exists ((DURATION $$unsorted)) (and (@ (@ tptp.duration_THFTYPE_IiioI TIME1) DURATION) (@ (@ tptp.duration_THFTYPE_IiioI TIME2) DURATION))))))))
% 2.18/2.70  (assert (@ (@ (@ (@ tptp.partition_THFTYPE_IiiiioI tptp.lRelation_THFTYPE_i) tptp.lPredicate_THFTYPE_i) tptp.lFunction_THFTYPE_i) tptp.lList_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CHANGE $$unsorted) (OBJ $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI CHANGE) tptp.lInternalChange_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI CHANGE) OBJ)) (exists ((PROPERTY $$unsorted)) (let ((_let_1 (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) PROPERTY))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI CHANGE))) (let ((_let_3 (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)))) (let ((_let_4 (not _let_1))) (let ((_let_5 (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)))) (or (and (@ _let_5 _let_1) (@ _let_3 _let_4)) (and (@ _let_5 _let_4) (@ _let_3 _let_1))))))))))))
% 2.18/2.70  (assert (forall ((EXPRESS $$unsorted) (LANGUAGE $$unsorted)) (= (@ (@ tptp.expressedInLanguage_THFTYPE_IiioI EXPRESS) LANGUAGE) (exists ((PROP $$unsorted)) (@ (@ (@ tptp.representsInLanguage_THFTYPE_IiiioI EXPRESS) PROP) LANGUAGE)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBodyPosition_THFTYPE_i) tptp.lBiologicalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lChemicalDecomposition_THFTYPE_i) tptp.lChemicalProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnaryFunction_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (let ((_let_1 (@ tptp.lSignumFn_THFTYPE_IiiI NUMBER))) (=> (@ (@ tptp.instance_THFTYPE_IiioI NUMBER) tptp.lNonnegativeRealNumber_THFTYPE_i) (or (= _let_1 tptp.n1_THFTYPE_i) (= _let_1 tptp.n0_THFTYPE_i))))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (QUANT $$unsorted) (UNIT $$unsorted)) (=> (and (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfMeasure_THFTYPE_i) (= QUANT (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) UNIT))) (= (@ tptp.lUnitFn_THFTYPE_IiiI QUANT) UNIT))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRepresentationalArtWork_THFTYPE_i) tptp.lArtWork_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lHorizontal_THFTYPE_i) tptp.lVertical_THFTYPE_i))
% 2.18/2.70  (assert (forall ((MEET $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MEET) tptp.lMeeting_THFTYPE_i) (exists ((AGENT1 $$unsorted) (AGENT2 $$unsorted)) (let ((_let_1 (@ tptp.agent_THFTYPE_IiioI MEET))) (and (@ _let_1 AGENT1) (@ _let_1 AGENT2) (@ (@ tptp.hasPurpose_THFTYPE_IiooI MEET) (exists ((COMM $$unsorted)) (let ((_let_1 (@ tptp.agent_THFTYPE_IiioI COMM))) (and (@ (@ tptp.instance_THFTYPE_IiioI COMM) tptp.lCommunication_THFTYPE_i) (@ _let_1 AGENT1) (@ _let_1 AGENT2)))))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lJuly_THFTYPE_i) tptp.lMonth_THFTYPE_i))
% 2.18/2.70  (assert (forall ((FORMULA $$unsorted) (AGENT $$unsorted) (REL (-> $$unsorted $$unsorted Bool))) (=> (and (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lPropositionalAttitude_THFTYPE_i) (@ (@ REL AGENT) FORMULA)) (@ (@ tptp.instance_THFTYPE_IiioI FORMULA) tptp.lFormula_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSaturday_THFTYPE_i) tptp.lDay_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRodent_THFTYPE_i) tptp.lMammal_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ORGANISM $$unsorted) (REP $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI REP) tptp.lSexualReproduction_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI REP) ORGANISM)) (exists ((MOTHER $$unsorted) (FATHER $$unsorted)) (and (@ (@ tptp.mother_THFTYPE_IiioI ORGANISM) MOTHER) (@ (@ tptp.father_THFTYPE_IiioI ORGANISM) FATHER))))))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (COMBINE $$unsorted) (OBJ2 $$unsorted)) (let ((_let_1 (@ (@ tptp.part_THFTYPE_IiioI OBJ1) OBJ2))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI COMBINE))) (= (and (@ (@ tptp.instance_THFTYPE_IiioI COMBINE) tptp.lCombining_THFTYPE_i) (@ (@ tptp.resource_THFTYPE_IiioI COMBINE) OBJ1) (@ (@ tptp.result_THFTYPE_IiioI COMBINE) OBJ2)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (not _let_1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) _let_1)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCompositeUnitOfMeasure_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lQuaternaryFunction_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPairwiseDisjointClass_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTwoDimensionalFigure_THFTYPE_i) tptp.lGeometricFigure_THFTYPE_i))
% 2.18/2.70  (assert (forall ((WORD $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI WORD) tptp.lWord_THFTYPE_i) (exists ((PART $$unsorted)) (and (@ (@ tptp.part_THFTYPE_IiioI PART) WORD) (@ (@ tptp.instance_THFTYPE_IiioI PART) tptp.lMorpheme_THFTYPE_i))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLandTransitway_THFTYPE_i) tptp.lTransitway_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBeliefGroup_THFTYPE_i) tptp.lGroupOfPeople_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CLOTHING $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI CLOTHING) tptp.lClothing_THFTYPE_i) (exists ((FABRIC $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI FABRIC) tptp.lFabric_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI FABRIC) CLOTHING))))))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (SEE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI SEE) tptp.lSeeing_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI SEE) OBJ)) (exists ((ATTR $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lColorAttribute_THFTYPE_i) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI SEE)) (@ (@ tptp.color_THFTYPE_IiioI OBJ) ATTR)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lExperimenting_THFTYPE_i) tptp.lInvestigating_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSelfConnectedObject_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.70  (assert (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n0_THFTYPE_i) tptp.lAngularDegree_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n360_THFTYPE_i) tptp.lAngularDegree_THFTYPE_i)))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lColoring_THFTYPE_i) tptp.lSurfaceChange_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lElection_THFTYPE_i) tptp.lOrganizationalProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lComparing_THFTYPE_i) tptp.lDualObjectProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRepresentationalArtWork_THFTYPE_i) tptp.lIcon_THFTYPE_i))
% 2.18/2.70  (assert (forall ((READ $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI READ) tptp.lReading_THFTYPE_i) (exists ((TEXT $$unsorted) (PROP Bool)) (and (@ (@ tptp.instance_THFTYPE_IiioI TEXT) tptp.lText_THFTYPE_i) (@ (@ tptp.containsInformation_THFTYPE_IiooI TEXT) PROP) (@ (@ tptp.realization_THFTYPE_IiooI READ) PROP))))))
% 2.18/2.70  (assert (forall ((TRANS $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI TRANS) tptp.lTransaction_THFTYPE_i) (exists ((AGENT1 $$unsorted) (AGENT2 $$unsorted) (GIVE1 $$unsorted) (GIVE2 $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI GIVE1) tptp.lGiving_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI GIVE2) tptp.lGiving_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI GIVE1) TRANS) (@ (@ tptp.subProcess_THFTYPE_IiioI GIVE2) TRANS) (@ (@ tptp.agent_THFTYPE_IiioI GIVE1) AGENT1) (@ (@ tptp.agent_THFTYPE_IiioI GIVE2) AGENT2) (@ (@ tptp.patient_THFTYPE_IiioI GIVE1) OBJ1) (@ (@ tptp.patient_THFTYPE_IiioI GIVE2) OBJ2) (@ (@ tptp.destination_THFTYPE_IiioI GIVE1) AGENT2) (@ (@ tptp.destination_THFTYPE_IiioI GIVE2) AGENT1) (not (= AGENT1 AGENT2)) (not (= OBJ1 OBJ2)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWaterArea_THFTYPE_i) tptp.lGeographicArea_THFTYPE_i))
% 2.18/2.70  (assert (forall ((GIVE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI GIVE) tptp.lUnilateralGiving_THFTYPE_i) (not (exists ((TRANS $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI TRANS) tptp.lTransaction_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI GIVE) TRANS)))))))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lWhereFn_THFTYPE_i) tptp.lRegion_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOrganOrTissueProcess_THFTYPE_i) tptp.lAutonomicProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBiologicalAttribute_THFTYPE_i) tptp.lInternalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPublication_THFTYPE_i) tptp.lContentDevelopment_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lComputerProgramming_THFTYPE_i) tptp.lContentDevelopment_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lHourDuration_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n60_THFTYPE_i)) tptp.lMinuteDuration_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((OBJECT $$unsorted) (WIDTH $$unsorted)) (= (@ (@ tptp.width_THFTYPE_IiioI OBJECT) WIDTH) (exists ((SIDE1 $$unsorted) (SIDE2 $$unsorted)) (and (@ (@ tptp.side_THFTYPE_IiioI SIDE1) OBJECT) (@ (@ tptp.side_THFTYPE_IiioI SIDE2) OBJECT) (@ (@ (@ tptp.distance_THFTYPE_IiiioI SIDE1) SIDE2) WIDTH))))))
% 2.18/2.70  (assert (forall ((PART $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PART) tptp.lAnatomicalStructure_THFTYPE_i) (exists ((CELL $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI CELL) tptp.lCell_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI CELL) PART))))))
% 2.18/2.70  (assert (forall ((EVENT $$unsorted) (CBO $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI EVENT) tptp.lPlanning_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI EVENT) CBO) (@ (@ tptp.instance_THFTYPE_IiioI CBO) tptp.lContentBearingObject_THFTYPE_i)) (exists ((PLAN Bool)) (and (@ (@ tptp.instance_THFTYPE_IoioI PLAN) tptp.lPlan_THFTYPE_i) (@ (@ tptp.containsInformation_THFTYPE_IiooI CBO) PLAN))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lQuintaryRelation_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWord_THFTYPE_i) tptp.lLinguisticExpression_THFTYPE_i))
% 2.18/2.70  (assert (forall ((HORMONE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI HORMONE) tptp.lHormone_THFTYPE_i) (exists ((PROCESS $$unsorted) (GLAND $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI GLAND) tptp.lGland_THFTYPE_i) (@ (@ tptp.instrument_THFTYPE_IiioI PROCESS) GLAND) (@ (@ tptp.result_THFTYPE_IiioI PROCESS) HORMONE))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTemporalRelation_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lSubstance_THFTYPE_i) tptp.lPureSubstance_THFTYPE_i) tptp.lMixture_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PROC $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lIntentionalProcess_THFTYPE_i) (exists ((AGENT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lCognitiveAgent_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PROC) AGENT))))))
% 2.18/2.70  (assert (forall ((VALUE $$unsorted) (REL (-> $$unsorted $$unsorted $$unsorted Bool)) (NUMBER2 $$unsorted) (NUMBER1 $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IIiiioIioI REL))) (=> (and (@ _let_1 tptp.lRelationExtendedToQuantities_THFTYPE_i) (@ _let_1 tptp.lTernaryRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI NUMBER1) tptp.lRealNumber_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI NUMBER2) tptp.lRealNumber_THFTYPE_i) (@ (@ (@ REL NUMBER1) NUMBER2) VALUE)) (forall ((UNIT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfMeasure_THFTYPE_i) (@ (@ (@ REL (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER1) UNIT)) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER2) UNIT)) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI VALUE) UNIT))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAgent_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ATTR2 $$unsorted) (ATTR1 $$unsorted)) (=> (= ATTR1 ATTR2) (forall ((THING $$unsorted)) (let ((_let_1 (@ tptp.property_THFTYPE_IiioI THING))) (= (@ _let_1 ATTR1) (@ _let_1 ATTR2)))))))
% 2.18/2.70  (assert (forall ((ITEM $$unsorted) (LIST2 $$unsorted) (LIST1 $$unsorted)) (let ((_let_1 (@ tptp.inList_THFTYPE_IiioI ITEM))) (=> (@ (@ tptp.identicalListItems_THFTYPE_IiioI LIST1) LIST2) (= (@ _let_1 LIST1) (@ _let_1 LIST2))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lProtein_THFTYPE_i) tptp.lNutrient_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCounty_THFTYPE_i) tptp.lGeopoliticalArea_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnitOfAtmosphericPressure_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (forall ((WEEK $$unsorted) (DAY1 $$unsorted) (DAY2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DAY1) tptp.lSaturday_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI DAY2) tptp.lSunday_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI WEEK) tptp.lWeek_THFTYPE_i) (@ (@ tptp.temporalPart_THFTYPE_IiioI DAY1) WEEK) (@ (@ tptp.temporalPart_THFTYPE_IiioI DAY2) WEEK)) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI DAY1) DAY2))))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lIntersectionFn_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWeek_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.70  (assert (forall ((QUANT $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ (@ tptp.distance_THFTYPE_IiiioI OBJ1) OBJ2) QUANT) (@ (@ (@ tptp.distance_THFTYPE_IiiioI OBJ2) OBJ1) QUANT))))
% 2.18/2.70  (assert (forall ((TIME $$unsorted) (PROC $$unsorted) (ATTR1 $$unsorted)) (=> (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.faces_THFTYPE_IiioI PROC) ATTR1)) (forall ((ATTR2 $$unsorted)) (=> (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.faces_THFTYPE_IiioI PROC) ATTR2)) (= ATTR2 ATTR1))))))
% 2.18/2.70  (assert (forall ((INJECT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INJECT) tptp.lInjecting_THFTYPE_i) (exists ((SUBSTANCE $$unsorted) (ANIMAL $$unsorted)) (and (@ (@ tptp.patient_THFTYPE_IiioI INJECT) SUBSTANCE) (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE) tptp.lBiologicallyActiveSubstance_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI SUBSTANCE) tptp.lLiquid_THFTYPE_i) (@ (@ tptp.destination_THFTYPE_IiioI INJECT) ANIMAL) (@ (@ tptp.instance_THFTYPE_IiioI ANIMAL) tptp.lAnimal_THFTYPE_i))))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lPint_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.div_THFTYPE_IiiiI NUMBER) tptp.n2_THFTYPE_i)) tptp.lQuart_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((AGENT $$unsorted) (PROC $$unsorted)) (=> (@ (@ tptp.hasSkill_THFTYPE_IiioI PROC) AGENT) (@ (@ (@ tptp.capability_THFTYPE_IiIiioIioI PROC) tptp.agent_THFTYPE_IiioI) AGENT))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLogicalOperator_THFTYPE_i) tptp.lPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lIcon_THFTYPE_i) tptp.lContentBearingPhysical_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lLeavingAnOrganization_THFTYPE_i) tptp.lJoiningAnOrganization_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (NUMBER2 $$unsorted) (NUMBER1 $$unsorted)) (let ((_let_1 (= NUMBER NUMBER2))) (let ((_let_2 (= NUMBER NUMBER1))) (=> (= (@ (@ tptp.lMaxFn_THFTYPE_IiiiI NUMBER1) NUMBER2) NUMBER) (or (and _let_2 (@ (@ tptp.gt_THFTYPE_IiioI NUMBER1) NUMBER2)) (and _let_1 (@ (@ tptp.gt_THFTYPE_IiioI NUMBER2) NUMBER1)) (and _let_2 _let_1)))))))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lClothing_THFTYPE_i) tptp.lStationaryArtifact_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFunctionQuantity_THFTYPE_i) tptp.lPhysicalQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInformationMeasure_THFTYPE_i) tptp.lConstantQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBorrowing_THFTYPE_i) tptp.lGetting_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lUnilluminated_THFTYPE_i) tptp.lIlluminated_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ (@ tptp.disjointDecomposition_THFTYPE_IiiiioI tptp.lColdBloodedVertebrate_THFTYPE_i) tptp.lAmphibian_THFTYPE_i) tptp.lFish_THFTYPE_i) tptp.lReptile_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lGraphPathFn_THFTYPE_i) tptp.lGraphPath_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRegion_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.70  (assert (forall ((TIME $$unsorted) (ORG $$unsorted)) (let ((_let_1 (@ tptp.holdsDuring_THFTYPE_IiooI TIME))) (=> (@ _let_1 (@ (@ tptp.attribute_THFTYPE_IiioI ORG) tptp.lEmbryonic_THFTYPE_i)) (@ _let_1 (not (exists ((BIRTH $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI BIRTH) tptp.lBirth_THFTYPE_i) (@ (@ tptp.experiencer_THFTYPE_IiioI BIRTH) ORG)))))))))
% 2.18/2.70  (assert (forall ((ENTITY $$unsorted)) (let ((_let_1 (@ tptp.property_THFTYPE_IiioI ENTITY))) (=> (@ _let_1 tptp.lPromise_THFTYPE_i) (or (@ _let_1 tptp.lContract_THFTYPE_i) (@ _let_1 tptp.lNakedPromise_THFTYPE_i))))))
% 2.18/2.70  (assert (forall ((ROW $$unsorted) (ITEM $$unsorted)) (= (@ tptp.lListLengthFn_THFTYPE_IiiI (@ (@ tptp.lListFn_THFTYPE_IiiiI ROW) ITEM)) (@ tptp.lSuccessorFn_THFTYPE_IiiI (@ tptp.lListLengthFn_THFTYPE_IiiI (@ tptp.lListFn_THFTYPE_IiiI ROW))))))
% 2.18/2.70  (assert (forall ((GRAPH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI GRAPH) tptp.lGraph_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI (@ tptp.lMinimalCutSetFn_THFTYPE_IiiI GRAPH)) (@ tptp.lCutSetFn_THFTYPE_IiiI GRAPH)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lObjectAttitude_THFTYPE_i) tptp.lIntentionalRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lIngesting_THFTYPE_i) tptp.lOrganismProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((R $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI R) tptp.lCaseRole_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IiIiioIoI R) tptp.involvedInEvent_THFTYPE_IiioI))))
% 2.18/2.70  (assert (@ (@ tptp.subAttribute_THFTYPE_IiioI tptp.lDead_THFTYPE_i) tptp.lUnconscious_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (ATTR2 $$unsorted) (ATTR1 $$unsorted) (TIME1 $$unsorted)) (=> (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME1) (@ (@ tptp.developmentalForm_THFTYPE_IiioI OBJ) ATTR1)) (@ (@ tptp.successorAttributeClosure_THFTYPE_IiioI ATTR2) ATTR1)) (exists ((TIME2 $$unsorted)) (and (@ (@ tptp.earlier_THFTYPE_IiioI TIME2) TIME1) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME2) (@ (@ tptp.developmentalForm_THFTYPE_IiioI OBJ) ATTR2)))))))
% 2.18/2.70  (assert (forall ((AGENT $$unsorted) (BIRTH $$unsorted) (DEATH $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DEATH) tptp.lDeath_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI BIRTH) tptp.lBirth_THFTYPE_i) (@ (@ tptp.experiencer_THFTYPE_IiioI DEATH) AGENT) (@ (@ tptp.experiencer_THFTYPE_IiioI BIRTH) AGENT)) (exists ((TIME $$unsorted)) (and (@ (@ tptp.meetsTemporally_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI BIRTH)) TIME) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI TIME) (@ tptp.lWhenFn_THFTYPE_IiiI DEATH)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.attribute_THFTYPE_IiioI AGENT) tptp.lLiving_THFTYPE_i)))))))
% 2.18/2.70  (assert (forall ((UNIT $$unsorted) (FUNCTION (-> $$unsorted $$unsorted))) (=> (and (@ (@ tptp.instance_THFTYPE_IIiiIioI FUNCTION) tptp.lUnitOfMeasureMultiplier_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lCompositeUnitOfMeasure_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI (@ FUNCTION UNIT)) tptp.lCompositeUnitOfMeasure_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((ACTION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ACTION) tptp.lCreation_THFTYPE_i) (exists ((RESULT $$unsorted)) (@ (@ tptp.result_THFTYPE_IiioI ACTION) RESULT)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPrimate_THFTYPE_i) tptp.lMammal_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ (@ (@ (@ (@ tptp.partition_THFTYPE_IiiiiiiioI tptp.lCommunication_THFTYPE_i) tptp.lStating_THFTYPE_i) tptp.lSupposing_THFTYPE_i) tptp.lDirecting_THFTYPE_i) tptp.lCommitting_THFTYPE_i) tptp.lExpressing_THFTYPE_i) tptp.lDeclaring_THFTYPE_i))
% 2.18/2.70  (assert (forall ((COND $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI COND) tptp.lCondensing_THFTYPE_i) (exists ((COOL $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI COOL) tptp.lCooling_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI COOL) COND))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDisagreeing_THFTYPE_i) tptp.lStating_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnitOfLength_THFTYPE_i) tptp.lNonCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTotalValuedRelation_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lSpeedFn_THFTYPE_i) tptp.lFunctionQuantity_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lFood_THFTYPE_i) (exists ((ATTR $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lTasteAttribute_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) ATTR))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDualObjectProcess_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((GOV $$unsorted) (ORG $$unsorted)) (=> (and (@ (@ tptp.subOrganization_THFTYPE_IiioI ORG) GOV) (@ (@ tptp.instance_THFTYPE_IiioI GOV) tptp.lGovernmentOrganization_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lGovernmentOrganization_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFabric_THFTYPE_i) tptp.lArtifact_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGraduation_THFTYPE_i) tptp.lLeavingAnOrganization_THFTYPE_i))
% 2.18/2.70  (assert (forall ((MOTHER $$unsorted) (CHILD $$unsorted)) (=> (@ (@ tptp.mother_THFTYPE_IiioI CHILD) MOTHER) (@ (@ tptp.attribute_THFTYPE_IiioI MOTHER) tptp.lFemale_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTemporalRelation_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGeopoliticalArea_THFTYPE_i) tptp.lAgent_THFTYPE_i))
% 2.18/2.70  (assert (forall ((BUILDING $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI BUILDING) tptp.lBuilding_THFTYPE_i) (exists ((HUMAN $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI HUMAN) tptp.lHuman_THFTYPE_i) (or (@ (@ tptp.inhabits_THFTYPE_IiioI HUMAN) BUILDING) (exists ((ACT $$unsorted)) (and (@ (@ tptp.agent_THFTYPE_IiioI ACT) HUMAN) (@ (@ tptp.located_THFTYPE_IiioI ACT) BUILDING)))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPrimaryColor_THFTYPE_i) tptp.lColorAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lDensityFn_THFTYPE_i) tptp.lFunctionQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lIrrationalNumber_THFTYPE_i) tptp.lRealNumber_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNaturalSubstance_THFTYPE_i) tptp.lSubstance_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOrganismProcess_THFTYPE_i) tptp.lPhysiologicProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((HOLE $$unsorted) (OBJ1 $$unsorted)) (=> (@ (@ tptp.completelyFills_THFTYPE_IiioI OBJ1) HOLE) (exists ((OBJ2 $$unsorted)) (and (@ (@ tptp.part_THFTYPE_IiioI OBJ2) OBJ1) (@ (@ tptp.fills_THFTYPE_IiioI OBJ2) HOLE))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGroup_THFTYPE_i) tptp.lAgent_THFTYPE_i))
% 2.18/2.70  (assert (forall ((DEFENSE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DEFENSE) tptp.lDefensiveManeuver_THFTYPE_i) (exists ((CONTEST $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI CONTEST) tptp.lViolentContest_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI DEFENSE) CONTEST))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRemembering_THFTYPE_i) tptp.lPsychologicalProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lRecurrentTimeIntervalFn_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (BOIL $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI BOIL) tptp.lBoiling_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI BOIL) OBJ)) (exists ((PART $$unsorted)) (let ((_let_1 (@ tptp.attribute_THFTYPE_IiioI PART))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI BOIL))) (and (@ (@ tptp.part_THFTYPE_IiioI PART) OBJ) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (@ _let_1 tptp.lLiquid_THFTYPE_i)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (@ _let_1 tptp.lGas_THFTYPE_i)))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFunction_THFTYPE_i) tptp.lSingleValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAnimal_THFTYPE_i) tptp.lOrganism_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (= (@ (@ tptp.properPart_THFTYPE_IiioI OBJ1) OBJ2) (and (@ (@ tptp.part_THFTYPE_IiioI OBJ1) OBJ2) (not (@ (@ tptp.part_THFTYPE_IiioI OBJ2) OBJ1))))))
% 2.18/2.70  (assert (forall ((UNIT $$unsorted) (FUNCTION (-> $$unsorted $$unsorted))) (=> (and (@ (@ tptp.instance_THFTYPE_IIiiIioI FUNCTION) tptp.lUnitOfMeasureMultiplier_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lNonCompositeUnitOfMeasure_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI (@ FUNCTION UNIT)) tptp.lNonCompositeUnitOfMeasure_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnitOfArea_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (forall ((COOK $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI COOK) tptp.lCooking_THFTYPE_i) (exists ((FOOD $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI FOOD) tptp.lFood_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI COOK) FOOD))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSingleValuedRelation_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFood_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSpatialRelation_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((STATE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI STATE) tptp.lStateOrProvince_THFTYPE_i) (exists ((LAND $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI LAND) tptp.lNation_THFTYPE_i) (@ (@ tptp.properPart_THFTYPE_IiioI STATE) LAND))))))
% 2.18/2.70  (assert (forall ((FORMULA Bool) (PREDICT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PREDICT) tptp.lPredicting_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiooI PREDICT) FORMULA)) (exists ((TIME $$unsorted)) (let ((_let_1 (@ tptp.lWhenFn_THFTYPE_IiiI PREDICT))) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) FORMULA) (or (@ (@ tptp.before_THFTYPE_IiioI TIME) _let_1) (@ (@ tptp.earlier_THFTYPE_IiioI TIME) _let_1))))))))
% 2.18/2.70  (assert (forall ((PARTICLE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PARTICLE) tptp.lSubatomicParticle_THFTYPE_i) (exists ((ATOM $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATOM) tptp.lAtom_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI PARTICLE) ATOM))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInserting_THFTYPE_i) tptp.lPutting_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CLASS $$unsorted) (ENTITY $$unsorted)) (=> (@ (@ tptp.immediateInstance_THFTYPE_IiioI ENTITY) CLASS) (not (exists ((SUBCLASS $$unsorted)) (and (@ (@ tptp.subclass_THFTYPE_IiioI SUBCLASS) CLASS) (not (= SUBCLASS CLASS)) (@ (@ tptp.instance_THFTYPE_IiioI ENTITY) SUBCLASS)))))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (NUMBER2 $$unsorted) (NUMBER1 $$unsorted)) (=> (= (@ (@ tptp.lRemainderFn_THFTYPE_IiiiI NUMBER1) NUMBER2) NUMBER) (= (@ tptp.lSignumFn_THFTYPE_IiiI NUMBER2) (@ tptp.lSignumFn_THFTYPE_IiiI NUMBER)))))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lMultiplicationFn_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.70  (assert (exists ((THING $$unsorted)) (@ (@ tptp.instance_THFTYPE_IiioI THING) tptp.lEntity_THFTYPE_i)))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOneToOneFunction_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lSignumFn_THFTYPE_i) tptp.lInteger_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGraphPath_THFTYPE_i) tptp.lDirectedGraph_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBuilding_THFTYPE_i) tptp.lStationaryArtifact_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSinging_THFTYPE_i) tptp.lMusic_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInductiveArgument_THFTYPE_i) tptp.lArgument_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lEquivalenceRelation_THFTYPE_i) tptp.lReflexiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTranslating_THFTYPE_i) tptp.lDualObjectProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((AVERAGE $$unsorted) (LIST $$unsorted)) (=> (@ (@ tptp.average_THFTYPE_IiioI LIST) AVERAGE) (forall ((LISTITEM $$unsorted)) (=> (@ (@ tptp.inList_THFTYPE_IiioI LISTITEM) LIST) (@ (@ tptp.instance_THFTYPE_IiioI LISTITEM) tptp.lRealNumber_THFTYPE_i))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSingleAgentProcess_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lSecondFn_THFTYPE_i) tptp.lSecond_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PHYS $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI PHYS) tptp.lPhysical_THFTYPE_i) (exists ((LOC $$unsorted) (TIME $$unsorted)) (and (@ (@ tptp.located_THFTYPE_IiioI PHYS) LOC) (@ (@ tptp.time_THFTYPE_IiioI PHYS) TIME))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAdjective_THFTYPE_i) tptp.lWord_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CONNECTION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI CONNECTION) tptp.lEngineeringConnection_THFTYPE_i) (exists ((COMP1 $$unsorted) (COMP2 $$unsorted)) (@ (@ (@ tptp.connectsEngineeringComponents_THFTYPE_IiiioI CONNECTION) COMP1) COMP2)))))
% 2.18/2.70  (assert (forall ((ATTR2 $$unsorted) (ATTR1 $$unsorted)) (=> (@ (@ tptp.successorAttribute_THFTYPE_IiioI ATTR1) ATTR2) (@ (@ tptp.successorAttributeClosure_THFTYPE_IiioI ATTR1) ATTR2))))
% 2.18/2.70  (assert (forall ((AGENT $$unsorted) (SELL $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI SELL) tptp.lSelling_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI SELL) AGENT)) (@ (@ tptp.origin_THFTYPE_IiioI SELL) AGENT))))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lCanine_THFTYPE_i) tptp.lFeline_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subAttribute_THFTYPE_IiioI tptp.lNakedPromise_THFTYPE_i) tptp.lPromise_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lResidence_THFTYPE_i) tptp.lStationaryArtifact_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CHANGE $$unsorted) (OBJ $$unsorted) (AGENT2 $$unsorted) (AGENT1 $$unsorted)) (let ((_let_1 (@ tptp.lWhenFn_THFTYPE_IiiI CHANGE))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI CHANGE) tptp.lChangeOfPossession_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI CHANGE) OBJ) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_1)) (@ (@ tptp.possesses_THFTYPE_IiioI AGENT1) OBJ)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_1)) (@ (@ tptp.possesses_THFTYPE_IiioI AGENT2) OBJ))) (not (= AGENT1 AGENT2))))))
% 2.18/2.70  (assert (forall ((PROCESS $$unsorted) (AGENT $$unsorted) (DECIDE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DECIDE) tptp.lDeciding_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI DECIDE) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI DECIDE) PROCESS)) (and (@ (@ tptp.instance_THFTYPE_IiioI PROCESS) tptp.lIntentionalProcess_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PROCESS) AGENT)))))
% 2.18/2.70  (assert (forall ((REL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI REL) tptp.lVariableArityRelation_THFTYPE_i) (not (exists ((INT $$unsorted)) (@ (@ tptp.valence_THFTYPE_IiioI REL) INT))))))
% 2.18/2.70  (assert (forall ((E3 $$unsorted) (E2 $$unsorted) (ATT $$unsorted) (E1 $$unsorted)) (let ((_let_1 (@ tptp.greaterThanByQuality_THFTYPE_IiiioI E1))) (=> (and (@ (@ _let_1 E2) ATT) (@ (@ (@ tptp.greaterThanByQuality_THFTYPE_IiiioI E2) E3) ATT)) (@ (@ _let_1 E3) ATT)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lColdBloodedVertebrate_THFTYPE_i) tptp.lVertebrate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNumber_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.70  (assert (forall ((SET $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SET) tptp.lNonNullSet_THFTYPE_i) (exists ((INST $$unsorted)) (@ (@ tptp.instance_THFTYPE_IiioI INST) SET)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lContentDevelopment_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CLASS $$unsorted) (INTERVAL_TYPE $$unsorted) (INTERVAL $$unsorted)) (=> (= (@ (@ tptp.lTemporalCompositionFn_THFTYPE_IiiiI INTERVAL) INTERVAL_TYPE) CLASS) (forall ((TIME1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TIME1) CLASS) (not (@ (@ tptp.starts_THFTYPE_IiioI TIME1) INTERVAL))) (exists ((TIME2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI TIME2) CLASS) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI TIME2) TIME1))))))))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (HOLE $$unsorted)) (=> (@ (@ tptp.hole_THFTYPE_IiioI HOLE) OBJ) (@ (@ tptp.connected_THFTYPE_IiioI HOLE) OBJ))))
% 2.18/2.70  (assert (@ (@ tptp.subAttribute_THFTYPE_IiioI tptp.lLarval_THFTYPE_i) tptp.lNonFullyFormed_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PERSON $$unsorted) (AREA $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI AREA) tptp.lGeopoliticalArea_THFTYPE_i) (@ (@ tptp.leader_THFTYPE_IiioI AREA) PERSON)) (@ (@ tptp.leader_THFTYPE_IiioI (@ tptp.lGovernmentFn_THFTYPE_IiiI AREA)) PERSON))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (= (@ tptp.lSuccessorFn_THFTYPE_IiiI NUMBER) (@ (@ tptp.plus_THFTYPE_IiiiI NUMBER) tptp.n1_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPropositionalAttitude_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ tptp.copy_THFTYPE_IiioI OBJ1) OBJ2) (forall ((ATTR $$unsorted)) (=> (@ (@ tptp.attribute_THFTYPE_IiioI OBJ1) ATTR) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ2) ATTR))))))
% 2.18/2.70  (assert (forall ((REL2 $$unsorted) (NUMBER $$unsorted) (CLASS1 $$unsorted) (REL1 $$unsorted)) (=> (and (@ (@ tptp.subrelation_THFTYPE_IiioI REL1) REL2) (@ (@ (@ tptp.domainSubclass_THFTYPE_IiiioI REL2) NUMBER) CLASS1)) (@ (@ (@ tptp.domainSubclass_THFTYPE_IiiioI REL1) NUMBER) CLASS1))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnitOfMass_THFTYPE_i) tptp.lNonCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFunding_THFTYPE_i) tptp.lGiving_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGroup_THFTYPE_i) tptp.lCollection_THFTYPE_i))
% 2.18/2.70  (assert (forall ((SEPARATE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SEPARATE) tptp.lSeparating_THFTYPE_i) (exists ((OBJ $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lSelfConnectedObject_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI SEPARATE) OBJ))))))
% 2.18/2.70  (assert (forall ((ATTR2 $$unsorted) (ATTR1 $$unsorted)) (=> (@ (@ tptp.subAttribute_THFTYPE_IiioI ATTR1) ATTR2) (forall ((OBJ $$unsorted)) (let ((_let_1 (@ tptp.property_THFTYPE_IiioI OBJ))) (=> (@ _let_1 ATTR1) (@ _let_1 ATTR2)))))))
% 2.18/2.70  (assert (forall ((BUSINESS $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI BUSINESS) tptp.lCommercialService_THFTYPE_i) (exists ((AGENT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lCommercialAgent_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI BUSINESS) AGENT))))))
% 2.18/2.70  (assert (forall ((JUNCT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI JUNCT) tptp.lBodyJunction_THFTYPE_i) (exists ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ1) tptp.lBodyPart_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI OBJ2) tptp.lBodyPart_THFTYPE_i) (@ (@ (@ tptp.connects_THFTYPE_IiiioI JUNCT) OBJ1) OBJ2))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPropositionalAttitude_THFTYPE_i) tptp.lIntentionalRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((REL (-> $$unsorted $$unsorted Bool)) (ROW $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lTotalValuedRelation_THFTYPE_i) (exists ((VALENCE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lRelation_THFTYPE_i) (@ (@ tptp.valence_THFTYPE_IIiioIioI REL) VALENCE) (=> (forall ((NUMBER $$unsorted) (ELEMENT $$unsorted) (CLASS $$unsorted)) (=> (and (@ (@ tptp.lt_THFTYPE_IiioI NUMBER) VALENCE) (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI REL) NUMBER) CLASS) (= ELEMENT (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI (@ tptp.lListFn_THFTYPE_IiiI ROW)) NUMBER))) (@ (@ tptp.instance_THFTYPE_IiioI ELEMENT) CLASS))) (exists ((ITEM $$unsorted)) (@ (@ REL ROW) ITEM))))))))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (PLACE $$unsorted) (DISCOVER $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DISCOVER) tptp.lDiscovering_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI DISCOVER) OBJ) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI DISCOVER)) (@ (@ tptp.located_THFTYPE_IiioI OBJ) PLACE))) (exists ((LEARN $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI LEARN) tptp.lLearning_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI LEARN) DISCOVER) (@ (@ tptp.patient_THFTYPE_IiooI LEARN) (@ (@ tptp.located_THFTYPE_IiioI OBJ) PLACE)))))))
% 2.18/2.70  (assert (forall ((NUMBER2 $$unsorted) (FORMULA1 Bool) (NUMBER1 $$unsorted) (FORMULA2 Bool)) (=> (and (@ (@ tptp.increasesLikelihood_THFTYPE_IoooI FORMULA1) FORMULA2) (= (@ tptp.lProbabilityFn_THFTYPE_IoiI FORMULA2) NUMBER1) (@ (@ (@ tptp.conditionalProbability_THFTYPE_IooioI FORMULA1) FORMULA2) NUMBER2)) (@ (@ tptp.gt_THFTYPE_IiioI NUMBER2) NUMBER1))))
% 2.18/2.70  (assert (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lCutSetFn_THFTYPE_i) tptp.lGraphPath_THFTYPE_i))
% 2.18/2.70  (assert (forall ((TEXT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI TEXT) tptp.lText_THFTYPE_i) (exists ((PART $$unsorted)) (and (@ (@ tptp.part_THFTYPE_IiioI PART) TEXT) (@ (@ tptp.instance_THFTYPE_IiioI PART) tptp.lLinguisticExpression_THFTYPE_i))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPoking_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CLASS $$unsorted) (RELATION (-> $$unsorted $$unsorted Bool))) (let ((_let_1 (@ tptp.instance_THFTYPE_IIiioIioI RELATION))) (=> (@ (@ tptp.equivalenceRelationOn_THFTYPE_IIiioIioI RELATION) CLASS) (and (@ _let_1 tptp.lTransitiveRelation_THFTYPE_i) (@ _let_1 tptp.lSymmetricRelation_THFTYPE_i) (@ (@ tptp.reflexiveOn_THFTYPE_IIiioIioI RELATION) CLASS))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSymmetricRelation_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWar_THFTYPE_i) tptp.lViolentContest_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSubjectiveAssessmentAttribute_THFTYPE_i) tptp.lNormativeAttribute_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lPoundForce_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n4dot448222_THFTYPE_i)) tptp.lNewton_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((LIST $$unsorted)) (= (= LIST tptp.lNullList_THFTYPE_i) (and (@ (@ tptp.instance_THFTYPE_IiioI LIST) tptp.lList_THFTYPE_i) (not (exists ((ITEM $$unsorted)) (@ (@ tptp.inList_THFTYPE_IiioI ITEM) LIST)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInterpreting_THFTYPE_i) tptp.lIntentionalPsychologicalProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CLASS $$unsorted) (ROW $$unsorted)) (=> (@ (@ tptp.disjointDecomposition_THFTYPE_IiioI CLASS) ROW) (forall ((ITEM1 $$unsorted) (ITEM2 $$unsorted)) (let ((_let_1 (@ tptp.lListFn_THFTYPE_IiiI ROW))) (=> (and (@ (@ tptp.inList_THFTYPE_IiioI ITEM1) _let_1) (@ (@ tptp.inList_THFTYPE_IiioI ITEM2) _let_1) (not (= ITEM1 ITEM2))) (@ (@ tptp.disjoint_THFTYPE_IiioI ITEM1) ITEM2)))))))
% 2.18/2.70  (assert (forall ((MONTH1 $$unsorted) (MONTH2 $$unsorted) (YEAR $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MONTH1) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lOctober_THFTYPE_i) YEAR)) (@ (@ tptp.instance_THFTYPE_IiioI MONTH2) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lNovember_THFTYPE_i) YEAR))) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI MONTH1) MONTH2))))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lSeparating_THFTYPE_i) tptp.lCombining_THFTYPE_i))
% 2.18/2.70  (assert (forall ((VOCAL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI VOCAL) tptp.lVocalizing_THFTYPE_i) (exists ((HUMAN $$unsorted) (VC $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI HUMAN) tptp.lHuman_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI VC) tptp.lVocalCords_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI VC) HUMAN) (@ (@ tptp.agent_THFTYPE_IiioI VOCAL) HUMAN) (@ (@ tptp.instrument_THFTYPE_IiioI VOCAL) VC))))))
% 2.18/2.70  (assert (forall ((REL (-> $$unsorted $$unsorted Bool))) (=> (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lSingleValuedRelation_THFTYPE_i) (forall ((ROW $$unsorted) (ITEM1 $$unsorted) (ITEM2 $$unsorted)) (let ((_let_1 (@ REL ROW))) (=> (and (@ _let_1 ITEM1) (@ _let_1 ITEM2)) (= ITEM1 ITEM2)))))))
% 2.18/2.70  (assert (forall ((QUANT $$unsorted) (UNIT $$unsorted) (N $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI QUANT))) (=> (and (@ _let_1 (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI N) UNIT)) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lNonCompositeUnitOfMeasure_THFTYPE_i)) (@ _let_1 tptp.lConstantQuantity_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTwoDimensionalAngle_THFTYPE_i) tptp.lOpenTwoDimensionalFigure_THFTYPE_i))
% 2.18/2.70  (assert (forall ((X $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI X) tptp.lNegativeInteger_THFTYPE_i) (@ (@ tptp.gt_THFTYPE_IiioI tptp.n0_THFTYPE_i) X))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMetal_THFTYPE_i) tptp.lElementalSubstance_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted)) (=> (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) tptp.lFullyFormed_THFTYPE_i) (exists ((GROWTH $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI GROWTH) tptp.lGrowth_THFTYPE_i) (@ (@ tptp.experiencer_THFTYPE_IiioI GROWTH) OBJ) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI OBJ))) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) tptp.lNonFullyFormed_THFTYPE_i)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMultiGraph_THFTYPE_i) tptp.lGraph_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ATTR $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lPsychologicalAttribute_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI AGENT) ATTR)) (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lSentientAgent_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((ATTACH $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (let ((_let_1 (@ (@ tptp.connected_THFTYPE_IiioI OBJ1) OBJ2))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI ATTACH))) (let ((_let_3 (@ tptp.patient_THFTYPE_IiioI ATTACH))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ATTACH) tptp.lAttaching_THFTYPE_i) (@ _let_3 OBJ1) (@ _let_3 OBJ2)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (not _let_1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) _let_1))))))))
% 2.18/2.70  (assert (forall ((ROOM $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ROOM) tptp.lRoom_THFTYPE_i) (exists ((BUILD $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI BUILD) tptp.lBuilding_THFTYPE_i) (@ (@ tptp.properPart_THFTYPE_IiioI ROOM) BUILD))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPrimeNumber_THFTYPE_i) tptp.lInteger_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lElementalSubstance_THFTYPE_i) tptp.lPureSubstance_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTransaction_THFTYPE_i) tptp.lChangeOfPossession_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER2 $$unsorted) (MONTH $$unsorted) (DAY1 $$unsorted) (DAY2 $$unsorted) (NUMBER1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DAY1) (@ (@ tptp.lDayFn_THFTYPE_IiiiI NUMBER1) MONTH)) (@ (@ tptp.instance_THFTYPE_IiioI DAY2) (@ (@ tptp.lDayFn_THFTYPE_IiiiI NUMBER2) MONTH)) (= (@ (@ tptp.minus_THFTYPE_IiiiI NUMBER2) NUMBER1) tptp.n1_THFTYPE_i)) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI DAY1) DAY2))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCaseRole_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (COND $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI COND) tptp.lCondensing_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI COND) OBJ)) (exists ((PART $$unsorted)) (let ((_let_1 (@ tptp.attribute_THFTYPE_IiioI PART))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI COND))) (and (@ (@ tptp.part_THFTYPE_IiioI PART) OBJ) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (@ _let_1 tptp.lGas_THFTYPE_i)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (@ _let_1 tptp.lLiquid_THFTYPE_i)))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lIntentionalPsychologicalProcess_THFTYPE_i) tptp.lPsychologicalProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ORG $$unsorted) (GRAD $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI GRAD) tptp.lGraduation_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI GRAD) ORG)) (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lEducationalOrganization_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((PART $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PART) tptp.lGraphElement_THFTYPE_i) (exists ((GRAPH $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI GRAPH) tptp.lGraph_THFTYPE_i) (@ (@ tptp.graphPart_THFTYPE_IiioI PART) GRAPH))))))
% 2.18/2.70  (assert (forall ((STRUCTURE $$unsorted) (PLANT $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI PLANT))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI STRUCTURE) tptp.lPlantAnatomicalStructure_THFTYPE_i) (@ _let_1 tptp.lOrganism_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI STRUCTURE) PLANT)) (@ _let_1 tptp.lPlant_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGovernment_THFTYPE_i) tptp.lGovernmentOrganization_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAbnormalAnatomicalStructure_THFTYPE_i) tptp.lAnatomicalStructure_THFTYPE_i))
% 2.18/2.70  (assert (forall ((POINT2 $$unsorted) (POINT1 $$unsorted) (INTERVAL $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI POINT1) tptp.lTimePoint_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI POINT2) tptp.lTimePoint_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL) tptp.lTimeInterval_THFTYPE_i) (= (@ (@ tptp.lTimeIntervalFn_THFTYPE_IiiiI POINT1) POINT2) INTERVAL)) (and (= (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL) POINT1) (= (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL) POINT2)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPhrase_THFTYPE_i) tptp.lLinguisticExpression_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PROCESS $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PROCESS) tptp.lDualObjectProcess_THFTYPE_i) (exists ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (let ((_let_1 (@ tptp.patient_THFTYPE_IiioI PROCESS))) (and (@ _let_1 OBJ1) (@ _let_1 OBJ2) (not (= OBJ1 OBJ2))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCorporation_THFTYPE_i) tptp.lCommercialAgent_THFTYPE_i))
% 2.18/2.70  (assert (forall ((AGENT $$unsorted) (PROC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lIntentionalProcess_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PROC) AGENT)) (exists ((PURP Bool)) (@ (@ (@ tptp.hasPurposeForAgent_THFTYPE_IioioI PROC) PURP) AGENT)))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI NUMBER))) (= (@ _let_1 tptp.lNegativeRealNumber_THFTYPE_i) (and (@ (@ tptp.lt_THFTYPE_IiioI NUMBER) tptp.n0_THFTYPE_i) (@ _let_1 tptp.lRealNumber_THFTYPE_i))))))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lInitialNodeFn_THFTYPE_i) tptp.lGraphNode_THFTYPE_i))
% 2.18/2.70  (assert (forall ((WEAPON $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI WEAPON) tptp.lWeapon_THFTYPE_i) (@ (@ tptp.hasPurpose_THFTYPE_IiooI WEAPON) (exists ((D $$unsorted) (PATIENT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI D) tptp.lDamaging_THFTYPE_i) (@ (@ tptp.instrument_THFTYPE_IiioI D) WEAPON) (@ (@ tptp.patient_THFTYPE_IiioI D) PATIENT)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDirectedGraph_THFTYPE_i) tptp.lGraph_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRealNumber_THFTYPE_i) tptp.lNumber_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ATTR2 $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted) (ATTR1 $$unsorted)) (let ((_let_1 (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2))) (=> (and (@ _let_1 ATTR1) (@ (@ tptp.instance_THFTYPE_IiioI ATTR1) tptp.lDirectionalAttribute_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI ATTR2) tptp.lDirectionalAttribute_THFTYPE_i) (not (= ATTR1 ATTR2))) (not (@ _let_1 ATTR2))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLegalAction_THFTYPE_i) tptp.lContest_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lQuaternaryPredicate_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGovernmentOrganization_THFTYPE_i) tptp.lOrganization_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRadiatingInfrared_THFTYPE_i) tptp.lRadiatingElectromagnetic_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAutonomicProcess_THFTYPE_i) tptp.lPhysiologicProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ROW $$unsorted)) (= (@ tptp.partition_THFTYPE_IioI ROW) (and (@ tptp.exhaustiveDecomposition_THFTYPE_IioI ROW) (@ tptp.disjointDecomposition_THFTYPE_IioI ROW)))))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lLiquidMixture_THFTYPE_i) tptp.lSolution_THFTYPE_i) tptp.lSuspension_THFTYPE_i))
% 2.18/2.70  (assert (forall ((TIME2 $$unsorted) (TIME1 $$unsorted)) (=> (= (@ (@ tptp.lRelativeTimeFn_THFTYPE_IiiiI TIME1) tptp.lCentralTimeZone_THFTYPE_i) TIME2) (= TIME2 (@ (@ tptp.plus_THFTYPE_IiiiI TIME1) tptp.n6_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lMegaFn_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBodyCavity_THFTYPE_i) tptp.lBodyPart_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lHunting_THFTYPE_i) tptp.lPursuing_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (@ (@ tptp.gtet_THFTYPE_IiioI (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lMonthDuration_THFTYPE_i)) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n28_THFTYPE_i)) tptp.lDayDuration_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMonth_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.70  (assert (forall ((FORMULA Bool) (COMMIT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI COMMIT) tptp.lCommitting_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiooI COMMIT) FORMULA) (@ (@ tptp.instance_THFTYPE_IoioI FORMULA) tptp.lFormula_THFTYPE_i)) (@ (@ tptp.modalAttribute_THFTYPE_IoioI FORMULA) tptp.lPromise_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((MOVEMENT $$unsorted) (PLACE1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MOVEMENT) tptp.lTranslocation_THFTYPE_i) (@ (@ tptp.origin_THFTYPE_IiioI MOVEMENT) PLACE1)) (exists ((PLACE2 $$unsorted) (STAGE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PLACE2) tptp.lRegion_THFTYPE_i) (not (= PLACE1 PLACE2)) (@ (@ tptp.subProcess_THFTYPE_IiioI STAGE) MOVEMENT) (@ (@ tptp.located_THFTYPE_IiioI STAGE) PLACE2))))))
% 2.18/2.70  (assert (forall ((GRAPH $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI GRAPH) tptp.lMultiGraph_THFTYPE_i) (exists ((ARC1 $$unsorted) (ARC2 $$unsorted) (NODE1 $$unsorted) (NODE2 $$unsorted)) (let ((_let_1 (@ (@ tptp.links_THFTYPE_IiiioI NODE1) NODE2))) (and (@ (@ tptp.graphPart_THFTYPE_IiioI ARC1) GRAPH) (@ (@ tptp.graphPart_THFTYPE_IiioI ARC2) GRAPH) (@ (@ tptp.graphPart_THFTYPE_IiioI NODE1) GRAPH) (@ (@ tptp.graphPart_THFTYPE_IiioI NODE2) GRAPH) (@ _let_1 ARC1) (@ _let_1 ARC2) (not (= ARC1 ARC2))))))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI NUMBER) tptp.lComplexNumber_THFTYPE_i) (exists ((REAL1 $$unsorted) (REAL2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI REAL1) tptp.lRealNumber_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI REAL2) tptp.lRealNumber_THFTYPE_i) (= NUMBER (@ (@ tptp.plus_THFTYPE_IiiiI REAL1) (@ (@ tptp.times_THFTYPE_IiiiI REAL2) (@ tptp.lSquareRootFn_THFTYPE_IiiI tptp.minus1_THFTYPE_i)))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTree_THFTYPE_i) tptp.lGraph_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBone_THFTYPE_i) tptp.lAnimalSubstance_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lArgument_THFTYPE_i) tptp.lDeductiveArgument_THFTYPE_i) tptp.lInductiveArgument_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lTerminalNodeFn_THFTYPE_i) tptp.lGraphNode_THFTYPE_i))
% 2.18/2.70  (assert (forall ((TACTILE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI TACTILE) tptp.lTactilePerception_THFTYPE_i) (exists ((TOUCH $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI TOUCH) tptp.lTouching_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI TOUCH) TACTILE))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lQuaternaryFunction_THFTYPE_i) tptp.lFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lGeneralizedUnionFn_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.70  (assert (forall ((REL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI REL) tptp.lQuintaryPredicate_THFTYPE_i) (@ (@ tptp.valence_THFTYPE_IiioI REL) tptp.n5_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((ATTR2 $$unsorted) (ENTITY $$unsorted) (TIME1 $$unsorted) (ATTR1 $$unsorted)) (=> (and (@ (@ tptp.successorAttribute_THFTYPE_IiioI ATTR1) ATTR2) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME1) (@ (@ tptp.property_THFTYPE_IiioI ENTITY) ATTR2))) (exists ((TIME2 $$unsorted)) (and (@ (@ tptp.temporalPart_THFTYPE_IiioI TIME2) (@ tptp.lPastFn_THFTYPE_IiiI TIME1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME2) (@ (@ tptp.property_THFTYPE_IiioI ENTITY) ATTR1)))))))
% 2.18/2.70  (assert (forall ((HOLE $$unsorted) (OBJ1 $$unsorted)) (=> (@ (@ tptp.completelyFills_THFTYPE_IiioI OBJ1) HOLE) (forall ((OBJ2 $$unsorted)) (let ((_let_1 (@ tptp.connected_THFTYPE_IiioI OBJ2))) (=> (@ _let_1 HOLE) (@ _let_1 OBJ1)))))))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lNonFloweringPlant_THFTYPE_i) tptp.lFloweringPlant_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PROC1 $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PROC1) tptp.lProcess_THFTYPE_i) (exists ((PROC2 $$unsorted)) (@ (@ tptp.causes_THFTYPE_IiioI PROC2) PROC1)))))
% 2.18/2.70  (assert (forall ((Y1 $$unsorted) (MONTH1 $$unsorted) (MONTH2 $$unsorted) (YEAR2 $$unsorted) (Y2 $$unsorted) (YEAR1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MONTH1) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lDecember_THFTYPE_i) YEAR1)) (@ (@ tptp.instance_THFTYPE_IiioI MONTH2) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lJanuary_THFTYPE_i) YEAR2)) (@ (@ tptp.instance_THFTYPE_IiioI Y1) YEAR1) (@ (@ tptp.instance_THFTYPE_IiioI Y2) YEAR2) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI Y1) Y2)) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI MONTH1) MONTH2))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMarsupial_THFTYPE_i) tptp.lMammal_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDigesting_THFTYPE_i) tptp.lOrganismProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lObject_THFTYPE_i) tptp.lPhysical_THFTYPE_i))
% 2.18/2.70  (assert (forall ((AREA $$unsorted) (ISLE $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI AREA))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ISLE) tptp.lIsland_THFTYPE_i) (@ _let_1 tptp.lGeographicArea_THFTYPE_i) (@ (@ tptp.meetsSpatially_THFTYPE_IiioI ISLE) AREA)) (not (@ _let_1 tptp.lLandArea_THFTYPE_i))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAsexualReproduction_THFTYPE_i) tptp.lReplication_THFTYPE_i))
% 2.18/2.70  (assert (forall ((TRANS $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI TRANS) tptp.lFinancialTransaction_THFTYPE_i) (exists ((OBJ $$unsorted)) (and (@ (@ tptp.patient_THFTYPE_IiioI TRANS) OBJ) (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lCurrency_THFTYPE_i))))))
% 2.18/2.70  (assert (@ (@ tptp.subAttribute_THFTYPE_IiioI tptp.lGas_THFTYPE_i) tptp.lFluid_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CLASS $$unsorted) (INTERVAL_TYPE $$unsorted) (INTERVAL $$unsorted)) (=> (= (@ (@ tptp.lTemporalCompositionFn_THFTYPE_IiiiI INTERVAL) INTERVAL_TYPE) CLASS) (forall ((TIME $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TIME) tptp.lTimePoint_THFTYPE_i) (@ (@ tptp.temporalPart_THFTYPE_IiioI TIME) INTERVAL)) (exists ((INSTANCE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI INSTANCE) CLASS) (@ (@ tptp.temporalPart_THFTYPE_IiioI TIME) INSTANCE))))))))
% 2.18/2.70  (assert (forall ((YEAR2 $$unsorted) (YEAR1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI YEAR1) tptp.lYear_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI YEAR2) tptp.lYear_THFTYPE_i) (= (@ (@ tptp.minus_THFTYPE_IiiiI YEAR2) YEAR1) tptp.n1_THFTYPE_i)) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI YEAR1) YEAR2))))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lBackFn_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lHuman_THFTYPE_i) tptp.lMan_THFTYPE_i) tptp.lWoman_THFTYPE_i))
% 2.18/2.70  (assert (forall ((SMOKE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SMOKE) tptp.lSmoke_THFTYPE_i) (exists ((BURNING $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI BURNING) tptp.lCombustion_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI BURNING) SMOKE))))))
% 2.18/2.70  (assert (forall ((FORMULA Bool)) (= (@ (@ tptp.modalAttribute_THFTYPE_IoioI FORMULA) tptp.lNecessity_THFTYPE_i) (not (@ (@ tptp.modalAttribute_THFTYPE_IoioI (not FORMULA)) tptp.lPossibility_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lHoofedMammal_THFTYPE_i) tptp.lMammal_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lTangentFn_THFTYPE_i) tptp.lRealNumber_THFTYPE_i))
% 2.18/2.70  (assert (forall ((FORMULA Bool) (AGENT $$unsorted)) (=> (@ (@ tptp.knows_THFTYPE_IiooI AGENT) FORMULA) (@ (@ tptp.believes_THFTYPE_IiooI AGENT) FORMULA))))
% 2.18/2.70  (assert (forall ((CBO1 $$unsorted) (CBO2 $$unsorted) (PUB1 $$unsorted) (PUB2 $$unsorted) (VOLUME2 $$unsorted) (INT2 $$unsorted) (VOLUME1 $$unsorted) (DATE2 $$unsorted) (INT1 $$unsorted) (DATE1 $$unsorted) (TEXT $$unsorted)) (let ((_let_1 (@ tptp.lSeriesVolumeFn_THFTYPE_IiiiI TEXT))) (=> (and (@ (@ tptp.subclass_THFTYPE_IiioI TEXT) tptp.lPeriodical_THFTYPE_i) (= (@ _let_1 INT1) VOLUME1) (= (@ _let_1 INT2) VOLUME2) (@ (@ tptp.gt_THFTYPE_IiioI INT2) INT1) (@ (@ tptp.instance_THFTYPE_IiioI PUB1) tptp.lPublication_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI PUB2) tptp.lPublication_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI CBO1) VOLUME1) (@ (@ tptp.instance_THFTYPE_IiioI CBO2) VOLUME2) (@ (@ tptp.patient_THFTYPE_IiioI PUB1) CBO1) (@ (@ tptp.patient_THFTYPE_IiioI PUB2) CBO2) (@ (@ tptp.date_THFTYPE_IiioI PUB1) DATE1) (@ (@ tptp.date_THFTYPE_IiioI PUB2) DATE2)) (@ (@ tptp.before_THFTYPE_IiioI (@ tptp.lEndFn_THFTYPE_IiiI DATE1)) (@ tptp.lEndFn_THFTYPE_IiiI DATE2))))))
% 2.18/2.70  (assert (forall ((THING2 $$unsorted) (THING1 $$unsorted)) (=> (= THING1 THING2) (forall ((CLASS $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI THING1) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI THING2) CLASS))))))
% 2.18/2.70  (assert (@ (@ tptp.trichotomizingOn_THFTYPE_IIiioIioI tptp.lessThan_THFTYPE_IiioI) tptp.lRealNumber_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lIrreflexiveRelation_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((SUBPROC $$unsorted) (PROC $$unsorted)) (=> (@ (@ tptp.subProcess_THFTYPE_IiioI SUBPROC) PROC) (@ (@ tptp.temporalPart_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI SUBPROC)) (@ tptp.lWhenFn_THFTYPE_IiiI PROC)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLending_THFTYPE_i) tptp.lGiving_THFTYPE_i))
% 2.18/2.70  (assert (forall ((SUBSET $$unsorted) (SET $$unsorted)) (=> (@ (@ tptp.subset_THFTYPE_IiioI SUBSET) SET) (forall ((ELEMENT $$unsorted)) (let ((_let_1 (@ tptp.element_THFTYPE_IiioI ELEMENT))) (=> (@ _let_1 SUBSET) (@ _let_1 SET)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSeptember_THFTYPE_i) tptp.lMonth_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMonday_THFTYPE_i) tptp.lDay_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (DRY $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DRY) tptp.lDrying_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI DRY) OBJ)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI DRY))) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) tptp.lDry_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((SUB $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SUB) tptp.lSubstituting_THFTYPE_i) (exists ((PUT $$unsorted) (REMOVE $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted) (PLACE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PUT) tptp.lPutting_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI REMOVE) tptp.lRemoving_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI PUT) SUB) (@ (@ tptp.subProcess_THFTYPE_IiioI REMOVE) SUB) (@ (@ tptp.patient_THFTYPE_IiioI REMOVE) OBJ1) (@ (@ tptp.origin_THFTYPE_IiioI REMOVE) PLACE) (@ (@ tptp.patient_THFTYPE_IiioI PUT) OBJ2) (@ (@ tptp.destination_THFTYPE_IiioI PUT) PLACE) (not (= OBJ1 OBJ2)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPlant_THFTYPE_i) tptp.lOrganism_THFTYPE_i))
% 2.18/2.70  (assert (forall ((STUFF $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI STUFF) tptp.lTissue_THFTYPE_i) (exists ((PART $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PART) tptp.lCell_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI PART) STUFF))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSummary_THFTYPE_i) tptp.lText_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lStreamWaterArea_THFTYPE_i) tptp.lWaterArea_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lContinent_THFTYPE_i) tptp.lLandArea_THFTYPE_i))
% 2.18/2.70  (assert (forall ((BATTLE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI BATTLE) tptp.lBattle_THFTYPE_i) (exists ((ATTACK $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTACK) tptp.lViolentContest_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI ATTACK) BATTLE))))))
% 2.18/2.70  (assert (forall ((SET $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SET) tptp.lFiniteSet_THFTYPE_i) (exists ((NUMBER $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI NUMBER) tptp.lNonnegativeInteger_THFTYPE_i) (= NUMBER (@ tptp.lCardinalityFn_THFTYPE_IiiI SET)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCloud_THFTYPE_i) tptp.lGasMixture_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lShoreArea_THFTYPE_i) tptp.lLandArea_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLiquidMotion_THFTYPE_i) tptp.lMotion_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ (@ tptp.disjointDecomposition_THFTYPE_IiiiioI tptp.lLanguage_THFTYPE_i) tptp.lAnimalLanguage_THFTYPE_i) tptp.lHumanLanguage_THFTYPE_i) tptp.lComputerLanguage_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER2 $$unsorted) (NUMBER1 $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI NUMBER1))) (= (and (= (@ tptp.lAbsoluteValueFn_THFTYPE_IiiI NUMBER1) NUMBER2) (@ _let_1 tptp.lRealNumber_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI NUMBER2) tptp.lRealNumber_THFTYPE_i)) (or (and (@ _let_1 tptp.lNonnegativeRealNumber_THFTYPE_i) (= NUMBER1 NUMBER2)) (and (@ _let_1 tptp.lNegativeRealNumber_THFTYPE_i) (= NUMBER2 (@ (@ tptp.minus_THFTYPE_IiiiI tptp.n0_THFTYPE_i) NUMBER1))))))))
% 2.18/2.70  (assert (forall ((PROCESS $$unsorted) (PROP Bool)) (=> (@ (@ tptp.realization_THFTYPE_IiooI PROCESS) PROP) (exists ((OBJ $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lContentBearingObject_THFTYPE_i) (@ (@ tptp.containsInformation_THFTYPE_IiooI OBJ) PROP))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lIncreasing_THFTYPE_i) tptp.lQuantityChange_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUCLEUS $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI NUCLEUS) tptp.lAtomicNucleus_THFTYPE_i) (exists ((NEUTRON $$unsorted) (PROTON $$unsorted)) (and (@ (@ tptp.component_THFTYPE_IiioI NEUTRON) NUCLEUS) (@ (@ tptp.component_THFTYPE_IiioI PROTON) NUCLEUS) (@ (@ tptp.instance_THFTYPE_IiioI NEUTRON) tptp.lNeutron_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI PROTON) tptp.lProton_THFTYPE_i))))))
% 2.18/2.70  (assert (forall ((SET $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SET) tptp.lNullSet_THFTYPE_i) (not (exists ((INST $$unsorted)) (@ (@ tptp.instance_THFTYPE_IiioI INST) SET))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lListening_THFTYPE_i) tptp.lHearing_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PERSON $$unsorted) (LEAVE $$unsorted) (ORG $$unsorted)) (let ((_let_1 (@ (@ tptp.member_THFTYPE_IiioI PERSON) ORG))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI LEAVE))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI LEAVE) tptp.lLeavingAnOrganization_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lOrganization_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI LEAVE) PERSON) (@ (@ tptp.patient_THFTYPE_IiioI LEAVE) ORG)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) _let_1) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (not _let_1))))))))
% 2.18/2.70  (assert (forall ((POL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI POL) tptp.lPoliticalOrganization_THFTYPE_i) (exists ((PROC $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lPoliticalProcess_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PROC) POL))))))
% 2.18/2.70  (assert (forall ((CLASS $$unsorted) (FUNCTION $$unsorted)) (=> (and (@ (@ tptp.closedOn_THFTYPE_IiioI FUNCTION) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI FUNCTION) tptp.lUnaryFunction_THFTYPE_i)) (forall ((INST $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INST) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI (@ (@ tptp.lAssignmentFn_THFTYPE_IiiiI FUNCTION) INST)) CLASS))))))
% 2.18/2.70  (assert (forall ((OBJECT $$unsorted) (AGENT2 $$unsorted) (AGENT1 $$unsorted)) (= (exists ((BUY $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI BUY) tptp.lBuying_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI BUY) AGENT1) (@ (@ tptp.origin_THFTYPE_IiioI BUY) AGENT2) (@ (@ tptp.patient_THFTYPE_IiioI BUY) OBJECT))) (exists ((SELL $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI SELL) tptp.lSelling_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI SELL) AGENT2) (@ (@ tptp.destination_THFTYPE_IiioI SELL) AGENT1) (@ (@ tptp.patient_THFTYPE_IiioI SELL) OBJECT))))))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (MOTION $$unsorted) (PLACE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MOTION) tptp.lMotion_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI MOTION) OBJ) (@ (@ tptp.origin_THFTYPE_IiioI MOTION) PLACE)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI MOTION))) (@ (@ tptp.located_THFTYPE_IiioI OBJ) PLACE)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lContestAttribute_THFTYPE_i) tptp.lObjectiveNorm_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWednesday_THFTYPE_i) tptp.lDay_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CURRENCY $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI CURRENCY) tptp.lCurrency_THFTYPE_i) (exists ((MEASURE $$unsorted)) (@ (@ tptp.monetaryValue_THFTYPE_IiioI CURRENCY) MEASURE)))))
% 2.18/2.70  (assert (forall ((CONTENT $$unsorted) (INTERPRET $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI INTERPRET) tptp.lInterpreting_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI INTERPRET) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI INTERPRET) CONTENT) (@ (@ tptp.instance_THFTYPE_IiioI CONTENT) tptp.lContentBearingObject_THFTYPE_i)) (exists ((PROP Bool)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI INTERPRET))) (@ (@ tptp.believes_THFTYPE_IiooI AGENT) (@ (@ tptp.containsInformation_THFTYPE_IiooI CONTENT) PROP)))))))
% 2.18/2.70  (assert (forall ((ORG $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lMercantileOrganization_THFTYPE_i) (@ tptp.hasPurpose_THFTYPE_IooI (exists ((SELL $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI SELL))) (and (@ _let_1 tptp.lSelling_THFTYPE_i) (@ _let_1 tptp.lCommercialService_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI SELL) ORG))))))))
% 2.18/2.70  (assert (forall ((PURPOSE Bool) (THING $$unsorted)) (=> (@ (@ tptp.hasPurpose_THFTYPE_IiooI THING) PURPOSE) (exists ((AGENT $$unsorted)) (@ (@ (@ tptp.hasPurposeForAgent_THFTYPE_IioioI THING) PURPOSE) AGENT)))))
% 2.18/2.70  (assert (forall ((PICOUNIT $$unsorted) (UNIT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfMeasure_THFTYPE_i) (= PICOUNIT (@ tptp.lPicoFn_THFTYPE_IiiI UNIT))) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1_THFTYPE_i) PICOUNIT) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n0dot000000000001_THFTYPE_i) UNIT)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPermanentResidence_THFTYPE_i) tptp.lResidence_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CLASS $$unsorted) (ATTRIBUTE $$unsorted)) (= (= (@ tptp.lExtensionFn_THFTYPE_IiiI ATTRIBUTE) CLASS) (= (@ tptp.lAbstractionFn_THFTYPE_IiiI CLASS) ATTRIBUTE))))
% 2.18/2.70  (assert (forall ((QUANT $$unsorted) (UNIT $$unsorted) (N $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI QUANT))) (=> (and (@ _let_1 (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI N) UNIT)) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lCompositeUnitOfMeasure_THFTYPE_i)) (@ _let_1 tptp.lFunctionQuantity_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.successorAttribute_THFTYPE_IiioI tptp.lNonFullyFormed_THFTYPE_i) tptp.lFullyFormed_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMinute_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.70  (assert (forall ((GIGAUNIT $$unsorted) (UNIT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfMeasure_THFTYPE_i) (= GIGAUNIT (@ tptp.lGigaFn_THFTYPE_IiiI UNIT))) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1_THFTYPE_i) GIGAUNIT) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1000000000_THFTYPE_i) UNIT)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTimePoint_THFTYPE_i) tptp.lTimePosition_THFTYPE_i))
% 2.18/2.70  (assert (forall ((TEMP2 $$unsorted) (TEMP1 $$unsorted) (TIME $$unsorted) (BOIL $$unsorted) (TEMP3 $$unsorted) (SUBSTANCE $$unsorted) (TYPE $$unsorted) (MEASURE $$unsorted)) (let ((_let_1 (@ tptp.holdsDuring_THFTYPE_IiooI TIME))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE) TYPE) (@ (@ tptp.boilingPoint_THFTYPE_IiioI TYPE) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI TEMP1) MEASURE)) (@ (@ tptp.meltingPoint_THFTYPE_IiioI TYPE) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI TEMP2) MEASURE)) (@ (@ tptp.instance_THFTYPE_IiioI MEASURE) tptp.lUnitOfTemperature_THFTYPE_i) (@ _let_1 (@ (@ tptp.measure_THFTYPE_IiioI SUBSTANCE) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI TEMP3) MEASURE))) (@ (@ tptp.gt_THFTYPE_IiioI TEMP3) TEMP2) (@ (@ tptp.lt_THFTYPE_IiioI TEMP3) TEMP1)) (or (@ _let_1 (@ (@ tptp.attribute_THFTYPE_IiioI SUBSTANCE) tptp.lLiquid_THFTYPE_i)) (exists ((MELT $$unsorted)) (and (@ (@ tptp.overlapsTemporally_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI MELT)) TIME) (@ (@ tptp.instance_THFTYPE_IiioI MELT) tptp.lMelting_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI BOIL) SUBSTANCE))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lHour_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lChemicalProcess_THFTYPE_i) tptp.lChemicalSynthesis_THFTYPE_i) tptp.lChemicalDecomposition_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBiologicallyActiveSubstance_THFTYPE_i) tptp.lSubstance_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lSubjectiveAssessmentAttribute_THFTYPE_i) tptp.lObjectiveNorm_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (PART $$unsorted) (ATTR $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lSubstance_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) ATTR) (@ (@ tptp.part_THFTYPE_IiioI PART) OBJ)) (@ (@ tptp.attribute_THFTYPE_IiioI PART) ATTR))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBreathing_THFTYPE_i) tptp.lAutonomicProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lClosedTwoDimensionalFigure_THFTYPE_i) tptp.lTwoDimensionalFigure_THFTYPE_i))
% 2.18/2.70  (assert (forall ((SURFACE $$unsorted) (OBJ $$unsorted) (ATTRIBUTE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ATTRIBUTE) tptp.lShapeAttribute_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) ATTRIBUTE) (@ (@ tptp.surface_THFTYPE_IiioI SURFACE) OBJ)) (@ (@ tptp.attribute_THFTYPE_IiioI SURFACE) ATTRIBUTE))))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lDecoding_THFTYPE_i) tptp.lEncoding_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted)) (=> (exists ((CHANGE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI CHANGE) tptp.lShapeChange_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI CHANGE) OBJ))) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) tptp.lPliable_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAttachingDevice_THFTYPE_i) tptp.lDevice_THFTYPE_i))
% 2.18/2.70  (assert (forall ((INTERVAL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.before_THFTYPE_IiioI (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL)) (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL)))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lUnitedKingdomGallon_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n4dot54609_THFTYPE_i)) tptp.lLiter_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((X $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI X) tptp.lNonnegativeInteger_THFTYPE_i) (@ (@ tptp.gt_THFTYPE_IiioI X) tptp.minus1_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTrichotomizingRelation_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((TIME $$unsorted) (PROC $$unsorted) (ATTR1 $$unsorted)) (=> (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.direction_THFTYPE_IiioI PROC) ATTR1)) (forall ((ATTR2 $$unsorted)) (=> (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.direction_THFTYPE_IiioI PROC) ATTR2)) (= ATTR2 ATTR1))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDecreasing_THFTYPE_i) tptp.lQuantityChange_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ (@ tptp.disjointDecomposition_THFTYPE_IiiiioI tptp.lInvertebrate_THFTYPE_i) tptp.lWorm_THFTYPE_i) tptp.lMollusk_THFTYPE_i) tptp.lArthropod_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lAstronomicalBody_THFTYPE_i) tptp.lGeographicArea_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAttack_THFTYPE_i) tptp.lManeuver_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCommunication_THFTYPE_i) tptp.lSocialInteraction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFinancialInstrument_THFTYPE_i) tptp.lCertificate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMeasuring_THFTYPE_i) tptp.lCalculating_THFTYPE_i))
% 2.18/2.70  (assert (forall ((P $$unsorted) (T2 $$unsorted) (T1 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (O1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI T1) tptp.lTranslocation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI T2) tptp.lTranslocation_THFTYPE_i) (@ (@ tptp.origin_THFTYPE_IiioI T1) O1) (@ (@ tptp.origin_THFTYPE_IiioI T2) D1) (@ (@ tptp.destination_THFTYPE_IiioI T1) D1) (@ (@ tptp.destination_THFTYPE_IiioI T2) D2) (@ (@ tptp.experiencer_THFTYPE_IiioI T1) P) (@ (@ tptp.experiencer_THFTYPE_IiioI T2) P)) (exists ((T $$unsorted)) (let ((_let_1 (@ tptp.lWhenFn_THFTYPE_IiiI T))) (and (@ (@ tptp.instance_THFTYPE_IiioI T) tptp.lTranslocation_THFTYPE_i) (@ (@ tptp.origin_THFTYPE_IiioI T) O1) (@ (@ tptp.destination_THFTYPE_IiioI T) D2) (@ (@ tptp.subProcess_THFTYPE_IiioI T1) T) (@ (@ tptp.subProcess_THFTYPE_IiioI T2) T) (@ (@ tptp.experiencer_THFTYPE_IiioI T) P) (@ (@ tptp.starts_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI T1)) _let_1) (@ (@ tptp.finishes_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI T2)) _let_1)))))))
% 2.18/2.70  (assert (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lMale_THFTYPE_i) tptp.lFemale_THFTYPE_i))
% 2.18/2.70  (assert (forall ((A1 $$unsorted) (T1 $$unsorted) (A2 $$unsorted)) (let ((_let_1 (@ tptp.holdsDuring_THFTYPE_IiooI T1))) (=> (and (@ _let_1 (@ (@ tptp.legalRelation_THFTYPE_IiioI A1) A2)) (@ (@ tptp.instance_THFTYPE_IiioI A1) tptp.lOrganism_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI A2) tptp.lOrganism_THFTYPE_i)) (@ _let_1 (@ (@ tptp.relative_THFTYPE_IiioI A1) A2))))))
% 2.18/2.70  (assert (forall ((SUBSTANCE $$unsorted) (MIXTURE $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI SUBSTANCE))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MIXTURE) tptp.lMixture_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI SUBSTANCE) MIXTURE) (not (@ _let_1 tptp.lMixture_THFTYPE_i))) (@ _let_1 tptp.lPureSubstance_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((ARTIFACT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ARTIFACT) tptp.lStationaryArtifact_THFTYPE_i) (exists ((PLACE $$unsorted)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI ARTIFACT)) (@ (@ tptp.located_THFTYPE_IiioI ARTIFACT) PLACE)) (not (exists ((P2 $$unsorted)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI ARTIFACT)) (@ (@ tptp.located_THFTYPE_IiioI ARTIFACT) P2)) (not (= PLACE P2))))))))))
% 2.18/2.70  (assert (forall ((C $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI C) tptp.lCircle_THFTYPE_i) (exists ((P $$unsorted)) (= (@ tptp.lCenterOfCircleFn_THFTYPE_IiiI C) P)))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (ROW $$unsorted)) (=> (= (@ tptp.lLeastCommonMultipleFn_THFTYPE_IiiI ROW) NUMBER) (forall ((ELEMENT $$unsorted)) (=> (@ (@ tptp.inList_THFTYPE_IiioI ELEMENT) (@ tptp.lListFn_THFTYPE_IiiI ROW)) (= (@ (@ tptp.lRemainderFn_THFTYPE_IiiiI NUMBER) ELEMENT) tptp.n0_THFTYPE_i))))))
% 2.18/2.70  (assert (@ (@ tptp.identityElement_THFTYPE_IIiiiIioI tptp.lSubtractionFn_THFTYPE_IiiiI) tptp.n0_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTerminatingEmployment_THFTYPE_i) tptp.lLeavingAnOrganization_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInjuring_THFTYPE_i) tptp.lDamaging_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGeologicalProcess_THFTYPE_i) tptp.lMotion_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER2 $$unsorted) (FORMULA1 Bool) (NUMBER1 $$unsorted) (FORMULA2 Bool)) (=> (and (@ (@ tptp.decreasesLikelihood_THFTYPE_IoooI FORMULA1) FORMULA2) (= (@ tptp.lProbabilityFn_THFTYPE_IoiI FORMULA2) NUMBER1) (@ (@ (@ tptp.conditionalProbability_THFTYPE_IooioI FORMULA1) FORMULA2) NUMBER2)) (@ (@ tptp.lt_THFTYPE_IiioI NUMBER2) NUMBER1))))
% 2.18/2.70  (assert (forall ((POISON $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI POISON) tptp.lPoisoning_THFTYPE_i) (exists ((THING $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI THING))) (and (@ (@ tptp.patient_THFTYPE_IiioI POISON) THING) (or (@ _let_1 tptp.lOrganism_THFTYPE_i) (@ _let_1 tptp.lAnatomicalStructure_THFTYPE_i))))))))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lOrganOrTissueProcess_THFTYPE_i) tptp.lOrganismProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((LIST2 $$unsorted) (LIST1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI LIST1) tptp.lList_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI LIST2) tptp.lList_THFTYPE_i) (forall ((NUMBER $$unsorted)) (= (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST1) NUMBER) (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST2) NUMBER)))) (= LIST1 LIST2))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBetting_THFTYPE_i) tptp.lFinancialTransaction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lStating_THFTYPE_i) tptp.lLinguisticCommunication_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lGasMixture_THFTYPE_i) tptp.lLiquidMixture_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lMereologicalProductFn_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.70  (assert (forall ((SERIES $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SERIES) tptp.lSeries_THFTYPE_i) (exists ((BOOK1 $$unsorted) (BOOK2 $$unsorted)) (let ((_let_1 (@ tptp.subsumesContentInstance_THFTYPE_IiioI SERIES))) (and (@ (@ tptp.instance_THFTYPE_IiioI BOOK1) tptp.lBook_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI BOOK2) tptp.lBook_THFTYPE_i) (@ _let_1 BOOK1) (@ _let_1 BOOK2) (not (= BOOK1 BOOK2))))))))
% 2.18/2.70  (assert (forall ((PHRASE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PHRASE) tptp.lPhrase_THFTYPE_i) (exists ((PART1 $$unsorted) (PART2 $$unsorted)) (and (@ (@ tptp.part_THFTYPE_IiioI PART1) PHRASE) (@ (@ tptp.part_THFTYPE_IiioI PART2) PHRASE) (@ (@ tptp.instance_THFTYPE_IiioI PART1) tptp.lWord_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI PART2) tptp.lWord_THFTYPE_i) (not (= PART1 PART2)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lComputerLanguage_THFTYPE_i) tptp.lArtificialLanguage_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lStreamWaterArea_THFTYPE_i) tptp.lStaticWaterArea_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lArticle_THFTYPE_i) tptp.lBook_THFTYPE_i))
% 2.18/2.70  (assert (forall ((AGENT $$unsorted) (SWIM $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI SWIM) tptp.lSwimming_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI SWIM) AGENT)) (exists ((AREA $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI AREA) tptp.lWaterArea_THFTYPE_i) (@ (@ tptp.located_THFTYPE_IiioI AGENT) AREA))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSymbolicString_THFTYPE_i) tptp.lContentBearingObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lImaginaryPartFn_THFTYPE_i) tptp.lImaginaryNumber_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lReligiousOrganization_THFTYPE_i) tptp.lOrganization_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PART $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PART) tptp.lBodyPart_THFTYPE_i) (exists ((PROC $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lPhysiologicProcess_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI PROC) PART))))))
% 2.18/2.70  (assert (forall ((ROW $$unsorted) (ELEMENT $$unsorted)) (=> (@ tptp.exhaustiveDecomposition_THFTYPE_IioI ROW) (=> (@ (@ tptp.inList_THFTYPE_IiioI ELEMENT) (@ tptp.lListFn_THFTYPE_IiiI ROW)) (@ (@ tptp.instance_THFTYPE_IiioI ELEMENT) tptp.lClass_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((SUB $$unsorted) (PART $$unsorted) (SYSTEM $$unsorted)) (let ((_let_1 (@ tptp.systemPart_THFTYPE_IiioI PART))) (=> (and (@ (@ tptp.subSystem_THFTYPE_IiioI SUB) SYSTEM) (@ _let_1 SUB)) (@ _let_1 SYSTEM)))))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lHumanLanguage_THFTYPE_i) tptp.lNaturalLanguage_THFTYPE_i) tptp.lConstructedLanguage_THFTYPE_i))
% 2.18/2.70  (assert (forall ((MONTH1 $$unsorted) (MONTH2 $$unsorted) (YEAR $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MONTH1) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lJanuary_THFTYPE_i) YEAR)) (@ (@ tptp.instance_THFTYPE_IiioI MONTH2) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lFebruary_THFTYPE_i) YEAR))) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI MONTH1) MONTH2))))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lAnatomicalStructure_THFTYPE_i) tptp.lBodyPart_THFTYPE_i) tptp.lAbnormalAnatomicalStructure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRepairing_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lDead_THFTYPE_i) tptp.lLiving_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCarnivore_THFTYPE_i) tptp.lMammal_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInternalChange_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBirth_THFTYPE_i) tptp.lOrganismProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((POINT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI POINT) tptp.lTimePoint_THFTYPE_i) (not (= POINT tptp.lNegativeInfinity_THFTYPE_i))) (exists ((OTHERPOINT $$unsorted)) (@ (@ (@ tptp.temporallyBetween_THFTYPE_IiiioI tptp.lNegativeInfinity_THFTYPE_i) OTHERPOINT) POINT)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSupposing_THFTYPE_i) tptp.lLinguisticCommunication_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lListening_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWind_THFTYPE_i) tptp.lGasMotion_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.exhaustiveAttribute_THFTYPE_IiiioI tptp.lDevelopmentalAttribute_THFTYPE_i) tptp.lFullyFormed_THFTYPE_i) tptp.lNonFullyFormed_THFTYPE_i))
% 2.18/2.70  (assert (forall ((STATE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI STATE) tptp.lCounty_THFTYPE_i) (exists ((LAND $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI LAND) tptp.lStateOrProvince_THFTYPE_i) (@ (@ tptp.properPart_THFTYPE_IiioI STATE) LAND))))))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (MEAS $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MEAS) tptp.lMeasuring_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI MEAS) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI MEAS) OBJ)) (exists ((QUANT $$unsorted) (UNIT $$unsorted)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI MEAS))) (@ (@ tptp.knows_THFTYPE_IiooI AGENT) (@ (@ tptp.measure_THFTYPE_IiioI OBJ) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI QUANT) UNIT))))))))
% 2.18/2.70  (assert (forall ((REL2 (-> $$unsorted Bool)) (ROW $$unsorted) (REL1 (-> $$unsorted Bool))) (=> (and (@ (@ tptp.subrelation_THFTYPE_IIioIIioIoI REL1) REL2) (@ REL1 ROW)) (@ REL2 ROW))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDriving_THFTYPE_i) tptp.lGuiding_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMercantileOrganization_THFTYPE_i) tptp.lCorporation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLegalDecision_THFTYPE_i) tptp.lDeclaring_THFTYPE_i))
% 2.18/2.70  (assert (= (@ tptp.lCardinalityFn_THFTYPE_IiiI tptp.lContinent_THFTYPE_i) tptp.n7_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNonCompositeUnitOfMeasure_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lGeographicArea_THFTYPE_i) tptp.lWaterArea_THFTYPE_i) tptp.lLandArea_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTernaryRelation_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (FREEZE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI FREEZE) tptp.lFreezing_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI FREEZE) OBJ)) (exists ((PART $$unsorted)) (let ((_let_1 (@ tptp.attribute_THFTYPE_IiioI PART))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI FREEZE))) (and (@ (@ tptp.part_THFTYPE_IiioI PART) OBJ) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (@ _let_1 tptp.lLiquid_THFTYPE_i)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (@ _let_1 tptp.lSolid_THFTYPE_i)))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSwimming_THFTYPE_i) tptp.lBodyMotion_THFTYPE_i))
% 2.18/2.70  (assert (forall ((MID $$unsorted) (END2 $$unsorted) (END1 $$unsorted)) (=> (@ (@ (@ tptp.between_THFTYPE_IiiioI END1) MID) END2) (@ (@ (@ tptp.between_THFTYPE_IiiioI END2) MID) END1))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDiagnosticProcess_THFTYPE_i) tptp.lInvestigating_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lLikely_THFTYPE_i) tptp.lUnlikely_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PURSUE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PURSUE) tptp.lPursuing_THFTYPE_i) (exists ((OBJ $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lObject_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI PURSUE) OBJ))))))
% 2.18/2.70  (assert (@ (@ (@ (@ tptp.disjointDecomposition_THFTYPE_IiiiioI tptp.lTissue_THFTYPE_i) tptp.lBone_THFTYPE_i) tptp.lMuscle_THFTYPE_i) tptp.lFatTissue_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lMotionUpward_THFTYPE_i) tptp.lMotionDownward_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNonNullSet_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CLASS1 $$unsorted) (CLASS2 $$unsorted)) (=> (@ (@ tptp.immediateSubclass_THFTYPE_IiioI CLASS1) CLASS2) (not (exists ((CLASS3 $$unsorted)) (and (@ (@ tptp.subclass_THFTYPE_IiioI CLASS3) CLASS2) (@ (@ tptp.subclass_THFTYPE_IiioI CLASS1) CLASS3) (not (= CLASS2 CLASS3)) (not (= CLASS1 CLASS3))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTimePosition_THFTYPE_i) tptp.lTimeMeasure_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted) (TOUCH $$unsorted)) (let ((_let_1 (@ (@ tptp.connected_THFTYPE_IiioI OBJ1) OBJ2))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI TOUCH))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TOUCH) tptp.lTouching_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI TOUCH) OBJ1) (@ (@ tptp.patient_THFTYPE_IiioI TOUCH) OBJ2)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (not _let_1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) _let_1)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lProposition_THFTYPE_i) tptp.lAbstract_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGasMixture_THFTYPE_i) tptp.lMixture_THFTYPE_i))
% 2.18/2.70  (assert (forall ((INT2 $$unsorted) (INT1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI INT1) tptp.lInteger_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI INT2) tptp.lInteger_THFTYPE_i)) (not (and (@ (@ tptp.lt_THFTYPE_IiioI INT2) INT1) (@ (@ tptp.lt_THFTYPE_IiioI (@ tptp.lPredecessorFn_THFTYPE_IiiI INT1)) INT2))))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (QUANT $$unsorted) (UNIT $$unsorted)) (=> (and (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) UNIT) QUANT) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfMass_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI QUANT) tptp.lMassMeasure_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((SUBSTANCE1 $$unsorted) (SUBSTANCE2 $$unsorted)) (=> (@ (@ tptp.piece_THFTYPE_IiioI SUBSTANCE1) SUBSTANCE2) (forall ((CLASS $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE1) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE2) CLASS))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNegativeRealNumber_THFTYPE_i) tptp.lRealNumber_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PERSON $$unsorted) (FAMILY $$unsorted)) (=> (= (@ tptp.lImmediateFamilyFn_THFTYPE_IiiI PERSON) FAMILY) (exists ((MEMBER $$unsorted)) (and (@ (@ tptp.member_THFTYPE_IiioI MEMBER) FAMILY) (or (@ (@ tptp.parent_THFTYPE_IiioI MEMBER) PERSON) (@ (@ tptp.parent_THFTYPE_IiioI PERSON) MEMBER)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWarmBloodedVertebrate_THFTYPE_i) tptp.lVertebrate_THFTYPE_i))
% 2.18/2.70  (assert (forall ((P $$unsorted) (FAMILY $$unsorted)) (=> (= (@ tptp.lImmediateFamilyFn_THFTYPE_IiiI P) FAMILY) (forall ((MEMBER $$unsorted)) (=> (@ (@ tptp.member_THFTYPE_IiioI MEMBER) FAMILY) (exists ((OTHER $$unsorted)) (or (@ (@ tptp.parent_THFTYPE_IiioI MEMBER) OTHER) (@ (@ tptp.parent_THFTYPE_IiioI OTHER) MEMBER))))))))
% 2.18/2.70  (assert (forall ((EXPRESSION1 $$unsorted) (EXPRESSION2 $$unsorted) (TRANSLATE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TRANSLATE) tptp.lTranslating_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI TRANSLATE) EXPRESSION1) (@ (@ tptp.result_THFTYPE_IiioI TRANSLATE) EXPRESSION2)) (exists ((LANGUAGE1 $$unsorted) (LANGUAGE2 $$unsorted) (ENTITY $$unsorted)) (and (@ (@ (@ tptp.representsInLanguage_THFTYPE_IiiioI EXPRESSION1) ENTITY) LANGUAGE1) (@ (@ (@ tptp.representsInLanguage_THFTYPE_IiiioI EXPRESSION2) ENTITY) LANGUAGE2) (not (= LANGUAGE1 LANGUAGE2)))))))
% 2.18/2.70  (assert (forall ((COMP2 $$unsorted) (COMP1 $$unsorted)) (=> (@ (@ tptp.connectedEngineeringComponents_THFTYPE_IiioI COMP1) COMP2) (not (or (@ (@ tptp.instance_THFTYPE_IiioI COMP1) tptp.lEngineeringConnection_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI COMP2) tptp.lEngineeringConnection_THFTYPE_i))))))
% 2.18/2.70  (assert (forall ((LIST $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI LIST) tptp.lUniqueList_THFTYPE_i) (forall ((NUMBER1 $$unsorted) (NUMBER2 $$unsorted)) (let ((_let_1 (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST))) (=> (= (@ _let_1 NUMBER1) (@ _let_1 NUMBER2)) (= NUMBER1 NUMBER2)))))))
% 2.18/2.70  (assert (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lPolychromatic_THFTYPE_i) tptp.lMonochromatic_THFTYPE_i))
% 2.18/2.70  (assert (forall ((WET $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI WET) tptp.lWetting_THFTYPE_i) (exists ((OBJ $$unsorted)) (let ((_let_1 (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) tptp.lDamp_THFTYPE_i))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI WET))) (and (@ (@ tptp.patient_THFTYPE_IiioI WET) OBJ) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (not _let_1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) _let_1))))))))
% 2.18/2.70  (assert (forall ((RELEASE $$unsorted) (GRAB $$unsorted) (AGENT $$unsorted) (THING $$unsorted)) (let ((_let_1 (@ (@ tptp.grasps_THFTYPE_IiioI AGENT) THING))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI RELEASE))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI RELEASE) tptp.lUngrasping_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI GRAB) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI GRAB) THING)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) _let_1) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (not _let_1))))))))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lDenominatorFn_THFTYPE_i) tptp.lInteger_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWriting_THFTYPE_i) tptp.lContentDevelopment_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lDeductiveArgument_THFTYPE_i) tptp.lValidDeductiveArgument_THFTYPE_i) tptp.lInvalidDeductiveArgument_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CLASS $$unsorted) (ROW $$unsorted)) (=> (@ (@ tptp.exhaustiveDecomposition_THFTYPE_IiioI CLASS) ROW) (forall ((OBJ $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI OBJ) CLASS) (exists ((ITEM $$unsorted)) (and (@ (@ tptp.inList_THFTYPE_IiioI ITEM) (@ tptp.lListFn_THFTYPE_IiiI ROW)) (@ (@ tptp.instance_THFTYPE_IiioI OBJ) ITEM))))))))
% 2.18/2.70  (assert (forall ((INTERVAL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI INTERVAL) (@ tptp.lFutureFn_THFTYPE_IiiI INTERVAL)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCollection_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ORG $$unsorted) (PROCESS $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI ORG))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PROCESS) tptp.lJudicialProcess_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PROCESS) ORG) (@ _let_1 tptp.lOrganization_THFTYPE_i)) (@ _let_1 tptp.lJudicialOrganization_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((GROUP $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI GROUP) tptp.lFamilyGroup_THFTYPE_i) (forall ((MEMB1 $$unsorted) (MEMB2 $$unsorted)) (=> (and (@ (@ tptp.member_THFTYPE_IiioI MEMB1) GROUP) (@ (@ tptp.member_THFTYPE_IiioI MEMB2) GROUP)) (@ (@ tptp.familyRelation_THFTYPE_IiioI MEMB1) MEMB2))))))
% 2.18/2.70  (assert (forall ((PLANT $$unsorted) (SUBSTANCE $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI PLANT))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE) tptp.lPlantSubstance_THFTYPE_i) (@ _let_1 tptp.lOrganism_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI SUBSTANCE) PLANT)) (@ _let_1 tptp.lPlant_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lMinimalCutSetFn_THFTYPE_i) tptp.lGraphPath_THFTYPE_i))
% 2.18/2.70  (assert (forall ((COMBINE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI COMBINE) tptp.lCombining_THFTYPE_i) (exists ((OBJ $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lSelfConnectedObject_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI COMBINE) OBJ))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAssociativeFunction_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAdvertising_THFTYPE_i) tptp.lDisseminating_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lObjectAttitude_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lNonFullyFormed_THFTYPE_i) tptp.lFullyFormed_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lRelativeTimeFn_THFTYPE_i) tptp.lTimePosition_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lEndNodeFn_THFTYPE_i) tptp.lGraphNode_THFTYPE_i))
% 2.18/2.70  (assert (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI Z))) (=> (and (@ (@ tptp.subclass_THFTYPE_IiioI X) Y) (@ _let_1 X)) (@ _let_1 Y)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lQuintaryPredicate_THFTYPE_i) tptp.lQuintaryRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSecond_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lConfining_THFTYPE_i) tptp.lKeeping_THFTYPE_i))
% 2.18/2.70  (assert (forall ((WEEK2 $$unsorted) (WEEK1 $$unsorted) (DAY1 $$unsorted) (DAY2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DAY1) tptp.lSunday_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI DAY2) tptp.lMonday_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI WEEK1) tptp.lWeek_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI WEEK2) tptp.lWeek_THFTYPE_i) (@ (@ tptp.temporalPart_THFTYPE_IiioI DAY1) WEEK1) (@ (@ tptp.temporalPart_THFTYPE_IiioI DAY2) WEEK2) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI WEEK1) WEEK2)) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI DAY1) DAY2))))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (PROC $$unsorted)) (=> (@ (@ tptp.result_THFTYPE_IiioI PROC) OBJ) (forall ((TIME $$unsorted)) (=> (@ (@ tptp.before_THFTYPE_IiioI TIME) (@ tptp.lBeginFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI PROC))) (not (@ (@ tptp.time_THFTYPE_IiioI OBJ) TIME)))))))
% 2.18/2.70  (assert (forall ((HOLE $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI HOLE) tptp.lHole_THFTYPE_i) (exists ((OBJ $$unsorted)) (@ (@ tptp.hole_THFTYPE_IiioI HOLE) OBJ)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSeed_THFTYPE_i) tptp.lPlantAnatomicalStructure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFormula_THFTYPE_i) tptp.lSentence_THFTYPE_i))
% 2.18/2.70  (assert (forall ((MINUTE1 $$unsorted) (MINUTE2 $$unsorted) (NUMBER2 $$unsorted) (HOUR $$unsorted) (NUMBER1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MINUTE1) (@ (@ tptp.lMinuteFn_THFTYPE_IiiiI NUMBER1) HOUR)) (@ (@ tptp.instance_THFTYPE_IiioI MINUTE2) (@ (@ tptp.lMinuteFn_THFTYPE_IiiiI NUMBER2) HOUR)) (= (@ (@ tptp.minus_THFTYPE_IiiiI NUMBER2) NUMBER1) tptp.n1_THFTYPE_i)) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI MINUTE1) MINUTE2))))
% 2.18/2.70  (assert (forall ((REL2 (-> $$unsorted $$unsorted Bool)) (REL1 (-> $$unsorted $$unsorted Bool))) (=> (@ (@ tptp.inverse_THFTYPE_IIiioIIiioIoI REL1) REL2) (forall ((INST1 $$unsorted) (INST2 $$unsorted)) (= (@ (@ REL1 INST1) INST2) (@ (@ REL2 INST2) INST1))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lHeating_THFTYPE_i) tptp.lIncreasing_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFruitOrVegetable_THFTYPE_i) tptp.lPlantAnatomicalStructure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInteger_THFTYPE_i) tptp.lRationalNumber_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subAttribute_THFTYPE_IiioI tptp.lServiceContract_THFTYPE_i) tptp.lContract_THFTYPE_i))
% 2.18/2.70  (assert (forall ((GRAPH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI GRAPH) tptp.lTree_THFTYPE_i) (not (exists ((LOOP $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI LOOP) tptp.lGraphLoop_THFTYPE_i) (@ (@ tptp.graphPart_THFTYPE_IiioI LOOP) GRAPH)))))))
% 2.18/2.70  (assert (forall ((COMMUNICATE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI COMMUNICATE) tptp.lLinguisticCommunication_THFTYPE_i) (exists ((OBJ $$unsorted)) (and (@ (@ tptp.represents_THFTYPE_IiioI COMMUNICATE) OBJ) (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lLinguisticExpression_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI COMMUNICATE) OBJ))))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (= (@ tptp.lPredecessorFn_THFTYPE_IiiI NUMBER) (@ (@ tptp.minus_THFTYPE_IiiiI NUMBER) tptp.n1_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDeath_THFTYPE_i) tptp.lOrganismProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLegalDecision_THFTYPE_i) tptp.lJudicialProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CHILD $$unsorted) (PARENT $$unsorted)) (=> (and (@ (@ tptp.parent_THFTYPE_IiioI CHILD) PARENT) (@ (@ tptp.attribute_THFTYPE_IiioI PARENT) tptp.lFemale_THFTYPE_i)) (@ (@ tptp.mother_THFTYPE_IiioI CHILD) PARENT))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lQuestioning_THFTYPE_i) tptp.lDirecting_THFTYPE_i))
% 2.18/2.70  (assert (forall ((P $$unsorted) (H $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI H) tptp.lHunting_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI H) P)) (@ (@ tptp.hasPurpose_THFTYPE_IiooI H) (exists ((PROC $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI PROC))) (and (@ (@ tptp.patient_THFTYPE_IiioI PROC) P) (or (@ _let_1 tptp.lConfining_THFTYPE_i) (@ _let_1 tptp.lKilling_THFTYPE_i)))))))))
% 2.18/2.70  (assert (forall ((H $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI H) tptp.lHunting_THFTYPE_i) (exists ((T $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI T) tptp.lAnimal_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI H) T))))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI NUMBER))) (= (@ _let_1 tptp.lPositiveRealNumber_THFTYPE_i) (and (@ (@ tptp.gt_THFTYPE_IiioI NUMBER) tptp.n0_THFTYPE_i) (@ _let_1 tptp.lRealNumber_THFTYPE_i))))))
% 2.18/2.70  (assert (forall ((GET $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI GET) tptp.lGetting_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI GET) AGENT)) (@ (@ tptp.destination_THFTYPE_IiioI GET) AGENT))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPhysiologicProcess_THFTYPE_i) tptp.lBiologicalProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lUnitOfMeasure_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i) tptp.lNonCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (forall ((COUNT $$unsorted) (AGENT $$unsorted) (ENTITY $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI COUNT) tptp.lCounting_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI COUNT) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI COUNT) ENTITY)) (exists ((NUMBER $$unsorted)) (@ (@ tptp.knows_THFTYPE_IiooI AGENT) (= (@ tptp.lCardinalityFn_THFTYPE_IiiI ENTITY) NUMBER))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lProcess_THFTYPE_i) tptp.lPhysical_THFTYPE_i))
% 2.18/2.70  (assert (forall ((HEAT $$unsorted) (OBJ $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI HEAT) tptp.lHeating_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI HEAT) OBJ)) (exists ((UNIT $$unsorted) (QUANT1 $$unsorted) (QUANT2 $$unsorted)) (let ((_let_1 (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI OBJ) UNIT))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI HEAT))) (and (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lTemperatureMeasure_THFTYPE_i) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (= _let_1 QUANT1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (= _let_1 QUANT2)) (@ (@ tptp.gt_THFTYPE_IiioI QUANT2) QUANT1))))))))
% 2.18/2.70  (assert (forall ((PERSON $$unsorted) (CONFINE $$unsorted)) (let ((_let_1 (@ (@ tptp.patient_THFTYPE_IiioI CONFINE) PERSON))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI CONFINE) tptp.lConfining_THFTYPE_i) _let_1 (@ (@ tptp.instance_THFTYPE_IiioI PERSON) tptp.lHuman_THFTYPE_i)) (not (@ (@ tptp.desires_THFTYPE_IiooI PERSON) _let_1))))))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted) (OBJ3 $$unsorted)) (=> (= OBJ3 (@ (@ tptp.lMereologicalProductFn_THFTYPE_IiiiI OBJ1) OBJ2)) (forall ((PART $$unsorted)) (let ((_let_1 (@ tptp.part_THFTYPE_IiioI PART))) (= (@ _let_1 OBJ3) (and (@ _let_1 OBJ1) (@ _let_1 OBJ2))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lClothing_THFTYPE_i) tptp.lWearableItem_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCity_THFTYPE_i) tptp.lLandArea_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lAnimal_THFTYPE_i) tptp.lVertebrate_THFTYPE_i) tptp.lInvertebrate_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CLASS $$unsorted) (RELATION (-> $$unsorted $$unsorted Bool))) (=> (@ (@ tptp.irreflexiveOn_THFTYPE_IIiioIioI RELATION) CLASS) (forall ((INST $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INST) CLASS) (not (@ (@ RELATION INST) INST)))))))
% 2.18/2.70  (assert (forall ((FUNCTION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI FUNCTION) tptp.lQuaternaryFunction_THFTYPE_i) (@ (@ tptp.valence_THFTYPE_IiioI FUNCTION) tptp.n4_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOpenTwoDimensionalFigure_THFTYPE_i) tptp.lTwoDimensionalFigure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lChemicalSynthesis_THFTYPE_i) tptp.lCombining_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PROC2 $$unsorted) (PROC1 $$unsorted)) (=> (@ (@ tptp.prevents_THFTYPE_IiioI PROC1) PROC2) (forall ((TIME $$unsorted) (PLACE $$unsorted)) (let ((_let_1 (@ tptp.holdsDuring_THFTYPE_IiooI TIME))) (=> (@ _let_1 (exists ((INST1 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI INST1) PROC1) (@ (@ tptp.located_THFTYPE_IiioI INST1) PLACE)))) (not (@ _let_1 (exists ((INST2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI INST2) PROC2) (@ (@ tptp.located_THFTYPE_IiioI INST2) PLACE)))))))))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI NUMBER) tptp.lNegativeRealNumber_THFTYPE_i) (= (@ tptp.lSignumFn_THFTYPE_IiiI NUMBER) tptp.minus1_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((ATOM $$unsorted) (NUMBER $$unsorted) (SUBSTANCE $$unsorted) (TYPE $$unsorted)) (=> (@ (@ tptp.atomicNumber_THFTYPE_IiioI TYPE) NUMBER) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE) TYPE) (@ (@ tptp.part_THFTYPE_IiioI ATOM) SUBSTANCE) (@ (@ tptp.instance_THFTYPE_IiioI ATOM) tptp.lAtom_THFTYPE_i)) (= NUMBER (@ tptp.lCardinalityFn_THFTYPE_IIioIiI (lambda ((PROTON $$unsorted)) (and (@ (@ tptp.part_THFTYPE_IiioI PROTON) ATOM) (@ (@ tptp.instance_THFTYPE_IiioI PROTON) tptp.lProton_THFTYPE_i)))))))))
% 2.18/2.70  (assert (forall ((PROC2 $$unsorted) (PROC1 $$unsorted)) (=> (@ (@ tptp.precondition_THFTYPE_IiioI PROC1) PROC2) (=> (exists ((INST2 $$unsorted)) (@ (@ tptp.instance_THFTYPE_IiioI INST2) PROC2)) (exists ((INST1 $$unsorted)) (@ (@ tptp.instance_THFTYPE_IiioI INST1) PROC1))))))
% 2.18/2.70  (assert (@ (@ (@ (@ (@ (@ tptp.disjointDecomposition_THFTYPE_IiiiiiioI tptp.lRelation_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i) tptp.lTernaryRelation_THFTYPE_i) tptp.lQuaternaryRelation_THFTYPE_i) tptp.lQuintaryRelation_THFTYPE_i) tptp.lVariableArityRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lCorpuscularObject_THFTYPE_i) (exists ((SUBSTANCE1 $$unsorted) (SUBSTANCE2 $$unsorted)) (and (@ (@ tptp.subclass_THFTYPE_IiioI SUBSTANCE1) tptp.lSubstance_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI SUBSTANCE2) tptp.lSubstance_THFTYPE_i) (@ (@ tptp.material_THFTYPE_IiioI SUBSTANCE1) OBJ) (@ (@ tptp.material_THFTYPE_IiioI SUBSTANCE2) OBJ) (not (= SUBSTANCE1 SUBSTANCE2)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBinaryFunction_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted) (HEIGHT $$unsorted)) (=> (@ (@ (@ tptp.altitude_THFTYPE_IiiioI OBJ1) OBJ2) HEIGHT) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) tptp.lAbove_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lThreeDimensionalFigure_THFTYPE_i) tptp.lGeometricFigure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMuscle_THFTYPE_i) tptp.lAnimalSubstance_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lRealNumberFn_THFTYPE_i) tptp.lRealNumber_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lPropertyFn_THFTYPE_i) tptp.lSet_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lManaging_THFTYPE_i) tptp.lGuiding_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGraphLoop_THFTYPE_i) tptp.lGraphArc_THFTYPE_i))
% 2.18/2.70  (assert (forall ((X $$unsorted)) (=> (@ (@ tptp.attribute_THFTYPE_IiioI X) tptp.lFlammable_THFTYPE_i) (@ (@ (@ tptp.capability_THFTYPE_IiIiioIioI tptp.lCombustion_THFTYPE_i) tptp.patient_THFTYPE_IiioI) X))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTuesday_THFTYPE_i) tptp.lDay_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lIntentionalRelation_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDeclaring_THFTYPE_i) tptp.lLinguisticCommunication_THFTYPE_i))
% 2.18/2.70  (assert (forall ((BEV $$unsorted) (DRINK $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DRINK) tptp.lDrinking_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI DRINK) BEV)) (@ (@ tptp.instance_THFTYPE_IiioI BEV) tptp.lBeverage_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((GROUP $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI GROUP) tptp.lAgeGroup_THFTYPE_i) (forall ((MEMB1 $$unsorted) (MEMB2 $$unsorted) (AGE1 $$unsorted) (AGE2 $$unsorted)) (=> (and (@ (@ tptp.member_THFTYPE_IiioI MEMB1) GROUP) (@ (@ tptp.member_THFTYPE_IiioI MEMB2) GROUP) (@ (@ tptp.age_THFTYPE_IiioI MEMB1) AGE1) (@ (@ tptp.age_THFTYPE_IiioI MEMB2) AGE2)) (= AGE1 AGE2))))))
% 2.18/2.70  (assert (forall ((DEMO $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DEMO) tptp.lDemonstrating_THFTYPE_i) (exists ((PERSON $$unsorted)) (@ (@ tptp.attends_THFTYPE_IiioI DEMO) PERSON)))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (PATH $$unsorted) (NUMBER2 $$unsorted) (NODE1 $$unsorted) (NUMBER1 $$unsorted) (NODE2 $$unsorted)) (=> (and (= (@ (@ tptp.lMaximalWeightedPathFn_THFTYPE_IiiiI NODE1) NODE2) PATH) (= (@ tptp.lPathWeightFn_THFTYPE_IiiI PATH) NUMBER)) (forall ((PATH2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PATH2) (@ (@ tptp.lGraphPathFn_THFTYPE_IiiiI NODE1) NODE2)) (= (@ tptp.lPathWeightFn_THFTYPE_IiiI PATH2) NUMBER2)) (@ (@ tptp.ltet_THFTYPE_IiioI NUMBER2) NUMBER1))))))
% 2.18/2.70  (assert (forall ((BATTLE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI BATTLE) tptp.lBattle_THFTYPE_i) (exists ((WAR $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI WAR) tptp.lWar_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI BATTLE) WAR))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOrganizationalProcess_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((REL (-> $$unsorted $$unsorted Bool)) (INTERVAL $$unsorted) (INST2 $$unsorted) (INST1 $$unsorted)) (=> (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI INTERVAL) (@ (@ REL INST1) INST2)) (@ (@ tptp.instance_THFTYPE_IiioI INST1) tptp.lPhysical_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI INST2) tptp.lPhysical_THFTYPE_i)) (and (@ (@ tptp.time_THFTYPE_IiioI INST1) INTERVAL) (@ (@ tptp.time_THFTYPE_IiioI INST2) INTERVAL)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMilitaryOrganization_THFTYPE_i) tptp.lMilitaryForce_THFTYPE_i))
% 2.18/2.70  (assert (forall ((HOUR $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI HOUR) tptp.lHour_THFTYPE_i) (= (@ tptp.lCardinalityFn_THFTYPE_IiiI (@ (@ tptp.lTemporalCompositionFn_THFTYPE_IiiiI HOUR) tptp.lMinute_THFTYPE_i)) tptp.n60_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((AGENT $$unsorted) (TEXT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TEXT) tptp.lFactualText_THFTYPE_i) (@ (@ tptp.authors_THFTYPE_IiioI AGENT) TEXT)) (exists ((CONTENT Bool)) (and (@ (@ tptp.subsumesContentInstance_THFTYPE_IiooI TEXT) CONTENT) (@ (@ tptp.instance_THFTYPE_IoioI CONTENT) tptp.lFormula_THFTYPE_i) (not (@ (@ tptp.believes_THFTYPE_IiooI AGENT) CONTENT)))))))
% 2.18/2.70  (assert (forall ((ABS $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI ABS) tptp.lAbstract_THFTYPE_i) (not (exists ((POINT $$unsorted)) (or (@ (@ tptp.located_THFTYPE_IiioI ABS) POINT) (@ (@ tptp.time_THFTYPE_IiioI ABS) POINT)))))))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lExponentiationFn_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (PERSON $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI OBJ) (@ tptp.lPropertyFn_THFTYPE_IiiI PERSON)) (@ (@ tptp.possesses_THFTYPE_IiioI PERSON) OBJ))))
% 2.18/2.70  (assert (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lIntervalFn_THFTYPE_i) tptp.lConstantQuantity_THFTYPE_i))
% 2.18/2.70  (assert (forall ((TEXT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI TEXT) tptp.lText_THFTYPE_i) (exists ((WRITE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI WRITE) tptp.lWriting_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI WRITE) TEXT))))))
% 2.18/2.70  (assert (@ (@ tptp.initialPart_THFTYPE_IiioI tptp.lVocalCords_THFTYPE_i) tptp.lHuman_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ORGAN $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ORGAN) tptp.lOrgan_THFTYPE_i) (exists ((PURP Bool)) (@ (@ tptp.hasPurpose_THFTYPE_IiooI ORGAN) PURP)))))
% 2.18/2.70  (assert (forall ((FORMULA1 Bool) (FORMULA2 Bool)) (=> (and (@ (@ tptp.instance_THFTYPE_IoioI FORMULA1) tptp.lFormula_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IoioI FORMULA2) tptp.lFormula_THFTYPE_i)) (or (@ (@ tptp.increasesLikelihood_THFTYPE_IoooI FORMULA1) FORMULA2) (@ (@ tptp.decreasesLikelihood_THFTYPE_IoooI FORMULA1) FORMULA2) (@ (@ tptp.independentProbability_THFTYPE_IoooI FORMULA1) FORMULA2)))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lBritishThermalUnit_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n1055dot05585262_THFTYPE_i)) tptp.lJoule_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOddInteger_THFTYPE_i) tptp.lInteger_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPoliticalOrganization_THFTYPE_i) tptp.lOrganization_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PREMISES Bool) (ARGUMENT Bool) (CONCLUSION Bool)) (=> (and (@ (@ tptp.instance_THFTYPE_IoioI ARGUMENT) tptp.lValidDeductiveArgument_THFTYPE_i) (= PREMISES (@ tptp.lPremisesFn_THFTYPE_IooI ARGUMENT)) (@ (@ tptp.conclusion_THFTYPE_IoooI CONCLUSION) ARGUMENT)) (exists ((FORMULA1 $$unsorted) (FORMULA2 $$unsorted)) (and (@ (@ tptp.containsInformation_THFTYPE_IiooI FORMULA1) PREMISES) (@ (@ tptp.containsInformation_THFTYPE_IiooI FORMULA2) CONCLUSION) (@ (@ tptp.entails_THFTYPE_IoooI PREMISES) CONCLUSION))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lReflexiveRelation_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((MONTH1 $$unsorted) (MONTH2 $$unsorted) (YEAR $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MONTH1) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lJuly_THFTYPE_i) YEAR)) (@ (@ tptp.instance_THFTYPE_IiioI MONTH2) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lAugust_THFTYPE_i) YEAR))) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI MONTH1) MONTH2))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lArtifact_THFTYPE_i) tptp.lCorpuscularObject_THFTYPE_i))
% 2.18/2.70  (assert (forall ((FORMULA Bool) (AGENT $$unsorted)) (=> (@ (@ tptp.believes_THFTYPE_IiooI AGENT) FORMULA) (exists ((TIME $$unsorted)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.considers_THFTYPE_IiooI AGENT) FORMULA))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lReleasing_THFTYPE_i) tptp.lTransfer_THFTYPE_i))
% 2.18/2.70  (assert (forall ((HOLE $$unsorted) (OBJ1 $$unsorted)) (=> (= OBJ1 (@ tptp.lHoleSkinFn_THFTYPE_IiiI HOLE)) (forall ((OBJ2 $$unsorted)) (= (@ (@ tptp.overlapsSpatially_THFTYPE_IiioI OBJ2) OBJ1) (exists ((OBJ3 $$unsorted)) (and (@ (@ tptp.superficialPart_THFTYPE_IiioI OBJ3) (@ tptp.lHoleHostFn_THFTYPE_IiiI HOLE)) (@ (@ tptp.meetsSpatially_THFTYPE_IiioI HOLE) OBJ3) (@ (@ tptp.overlapsSpatially_THFTYPE_IiioI OBJ2) OBJ3))))))))
% 2.18/2.70  (assert (forall ((MIXTURE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MIXTURE) tptp.lMixture_THFTYPE_i) (exists ((PURE1 $$unsorted) (PURE2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PURE1) tptp.lPureSubstance_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI PURE2) tptp.lPureSubstance_THFTYPE_i) (not (= PURE1 PURE2)) (@ (@ tptp.part_THFTYPE_IiioI PURE1) MIXTURE) (@ (@ tptp.part_THFTYPE_IiioI PURE2) MIXTURE))))))
% 2.18/2.70  (assert (@ (@ (@ (@ (@ (@ tptp.partition_THFTYPE_IiiiiiioI tptp.lWord_THFTYPE_i) tptp.lNoun_THFTYPE_i) tptp.lVerb_THFTYPE_i) tptp.lAdjective_THFTYPE_i) tptp.lAdverb_THFTYPE_i) tptp.lParticleWord_THFTYPE_i))
% 2.18/2.70  (assert (forall ((HOLE1 $$unsorted)) (= (@ (@ tptp.attribute_THFTYPE_IiioI HOLE1) tptp.lFillable_THFTYPE_i) (exists ((HOLE2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI HOLE2) tptp.lHole_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI HOLE1) HOLE2))))))
% 2.18/2.70  (assert (forall ((INTERVAL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL) tptp.lTimeInterval_THFTYPE_i) (exists ((POINT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI POINT) tptp.lTimePoint_THFTYPE_i) (@ (@ tptp.temporalPart_THFTYPE_IiioI POINT) INTERVAL))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFalling_THFTYPE_i) tptp.lTranslocation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnaryFunction_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((POISON $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI POISON) tptp.lPoisoning_THFTYPE_i) (exists ((SUBSTANCE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE) tptp.lBiologicallyActiveSubstance_THFTYPE_i) (@ (@ tptp.instrument_THFTYPE_IiioI POISON) SUBSTANCE))))))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lRemainderFn_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWater_THFTYPE_i) tptp.lCompoundSubstance_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lObject_THFTYPE_i) (exists ((TIME1 $$unsorted) (TIME2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI TIME1) tptp.lTimePoint_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI TIME2) tptp.lTimePoint_THFTYPE_i) (@ (@ tptp.before_THFTYPE_IiioI TIME1) TIME2) (forall ((TIME $$unsorted)) (=> (and (@ (@ tptp.beforeOrEqual_THFTYPE_IiioI TIME1) TIME) (@ (@ tptp.beforeOrEqual_THFTYPE_IiioI TIME) TIME2)) (@ (@ tptp.time_THFTYPE_IiioI OBJ) TIME))))))))
% 2.18/2.70  (assert (forall ((REL (-> $$unsorted $$unsorted Bool))) (= (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lTrichotomizingRelation_THFTYPE_i) (forall ((INST1 $$unsorted) (INST2 $$unsorted)) (let ((_let_1 (@ (@ REL INST2) INST1))) (let ((_let_2 (= INST1 INST2))) (let ((_let_3 (not _let_2))) (let ((_let_4 (@ (@ REL INST1) INST2))) (let ((_let_5 (not _let_4))) (let ((_let_6 (not _let_1))) (or (and _let_4 _let_3 _let_6) (and _let_5 _let_2 _let_6) (and _let_5 _let_3 _let_1))))))))))))
% 2.18/2.70  (assert (forall ((CLOUD $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI CLOUD) tptp.lWaterCloud_THFTYPE_i) (exists ((WATER $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI WATER) tptp.lWater_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI WATER) CLOUD))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFreshWaterArea_THFTYPE_i) tptp.lWaterArea_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBinaryPredicate_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PROCESS $$unsorted) (LOC $$unsorted)) (=> (@ (@ tptp.origin_THFTYPE_IiioI PROCESS) LOC) (@ (@ tptp.partlyLocated_THFTYPE_IiioI PROCESS) LOC))))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (HOLE2 $$unsorted) (HOLE1 $$unsorted)) (=> (and (@ (@ tptp.hole_THFTYPE_IiioI HOLE1) OBJ) (@ (@ tptp.hole_THFTYPE_IiioI HOLE2) OBJ)) (forall ((HOLE3 $$unsorted)) (=> (@ (@ tptp.part_THFTYPE_IiioI HOLE3) (@ (@ tptp.lMereologicalSumFn_THFTYPE_IiiiI HOLE1) HOLE2)) (@ (@ tptp.hole_THFTYPE_IiioI HOLE3) OBJ))))))
% 2.18/2.70  (assert (forall ((MONTH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MONTH) tptp.lOctober_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI MONTH) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n31_THFTYPE_i) tptp.lDayDuration_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((SUBSTANCE1 $$unsorted) (SUBSTANCE2 $$unsorted) (PROC $$unsorted)) (=> (and (@ (@ tptp.resource_THFTYPE_IiioI PROC) SUBSTANCE1) (@ (@ tptp.result_THFTYPE_IiioI PROC) SUBSTANCE2) (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE1) tptp.lElementalSubstance_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE2) tptp.lCompoundSubstance_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lChemicalSynthesis_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lChemicalDecomposition_THFTYPE_i) tptp.lSeparating_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lCeilingFn_THFTYPE_i) tptp.lInteger_THFTYPE_i))
% 2.18/2.70  (assert (forall ((WIND $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI WIND) tptp.lWind_THFTYPE_i) (exists ((AIR $$unsorted)) (and (@ (@ tptp.patient_THFTYPE_IiioI WIND) AIR) (@ (@ tptp.instance_THFTYPE_IiioI AIR) tptp.lAir_THFTYPE_i))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInsect_THFTYPE_i) tptp.lArthropod_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lSexualReproduction_THFTYPE_i) tptp.lAsexualReproduction_THFTYPE_i))
% 2.18/2.70  (assert (forall ((RESIDENCE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI RESIDENCE) tptp.lSingleFamilyResidence_THFTYPE_i) (@ (@ tptp.hasPurpose_THFTYPE_IiooI RESIDENCE) (forall ((AGENT1 $$unsorted) (AGENT2 $$unsorted)) (=> (and (@ (@ tptp.home_THFTYPE_IiioI AGENT1) RESIDENCE) (@ (@ tptp.home_THFTYPE_IiioI AGENT2) RESIDENCE)) (exists ((UNIT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lSocialUnit_THFTYPE_i) (@ (@ tptp.member_THFTYPE_IiioI AGENT1) UNIT) (@ (@ tptp.member_THFTYPE_IiioI AGENT2) UNIT)))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAtom_THFTYPE_i) tptp.lElementalSubstance_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lMereologicalSumFn_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFiniteSet_THFTYPE_i) tptp.lSet_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lHole_THFTYPE_i) tptp.lRegion_THFTYPE_i))
% 2.18/2.70  (assert (forall ((P $$unsorted) (S1 $$unsorted) (S2 $$unsorted)) (=> (and (@ (@ tptp.subProcess_THFTYPE_IiioI S1) P) (@ (@ tptp.subProcess_THFTYPE_IiioI S2) P)) (@ (@ tptp.relatedEvent_THFTYPE_IiioI S1) S2))))
% 2.18/2.70  (assert (forall ((T1 $$unsorted) (P2 $$unsorted) (P1 $$unsorted)) (=> (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI T1) (@ (@ tptp.spouse_THFTYPE_IiioI P1) P2)) (@ (@ tptp.instance_THFTYPE_IiioI T1) tptp.lTimeInterval_THFTYPE_i)) (exists ((WED $$unsorted)) (let ((_let_1 (@ tptp.patient_THFTYPE_IiioI WED))) (and (@ (@ tptp.instance_THFTYPE_IiioI WED) tptp.lWedding_THFTYPE_i) (@ _let_1 P1) (@ _let_1 P2) (@ (@ tptp.earlier_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI WED)) T1)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCharacter_THFTYPE_i) tptp.lSymbolicString_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lImmediateFamilyFn_THFTYPE_i) tptp.lFamilyGroup_THFTYPE_i))
% 2.18/2.70  (assert (forall ((EVENT $$unsorted) (AGENT $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI EVENT))) (=> (and (@ _let_1 tptp.lElection_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI EVENT) AGENT) (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lGeopoliticalArea_THFTYPE_i)) (@ _let_1 tptp.lPoliticalProcess_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGeographicArea_THFTYPE_i) tptp.lRegion_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PATH $$unsorted) (NODE1 $$unsorted) (NODE2 $$unsorted)) (=> (= (@ (@ tptp.lMaximalWeightedPathFn_THFTYPE_IiiiI NODE1) NODE2) PATH) (@ (@ tptp.instance_THFTYPE_IiioI PATH) (@ (@ tptp.lGraphPathFn_THFTYPE_IiiiI NODE1) NODE2)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPsychologicalDysfunction_THFTYPE_i) tptp.lDiseaseOrSyndrome_THFTYPE_i))
% 2.18/2.70  (assert (forall ((T $$unsorted) (E $$unsorted)) (=> (@ (@ tptp.involvedInEvent_THFTYPE_IiioI E) T) (exists ((R (-> $$unsorted $$unsorted Bool))) (and (@ (@ tptp.instance_THFTYPE_IIiioIioI R) tptp.lCaseRole_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI R) tptp.involvedInEvent_THFTYPE_IiioI) (@ (@ R E) T))))))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (HEAR $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI HEAR) tptp.lHearing_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI HEAR) OBJ)) (exists ((ATTR $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lSoundAttribute_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) ATTR))))))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (= (@ (@ tptp.overlapsPartially_THFTYPE_IiioI OBJ1) OBJ2) (and (not (@ (@ tptp.part_THFTYPE_IiioI OBJ1) OBJ2)) (not (@ (@ tptp.part_THFTYPE_IiioI OBJ2) OBJ1)) (exists ((OBJ3 $$unsorted)) (let ((_let_1 (@ tptp.part_THFTYPE_IiioI OBJ3))) (and (@ _let_1 OBJ1) (@ _let_1 OBJ2))))))))
% 2.18/2.70  (assert (forall ((FROM $$unsorted) (TRANSPORT $$unsorted) (MOVE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TRANSPORT) tptp.lVehicle_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI MOVE) tptp.lTranslocation_THFTYPE_i) (@ (@ tptp.instrument_THFTYPE_IiioI MOVE) TRANSPORT) (@ (@ tptp.origin_THFTYPE_IiioI MOVE) FROM)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI MOVE))) (@ (@ tptp.located_THFTYPE_IiioI TRANSPORT) FROM)))))
% 2.18/2.70  (assert (forall ((POINT2 $$unsorted) (POINT1 $$unsorted)) (=> (@ (@ tptp.beforeOrEqual_THFTYPE_IiioI POINT1) POINT2) (or (@ (@ tptp.before_THFTYPE_IiioI POINT1) POINT2) (= POINT1 POINT2)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPeriodical_THFTYPE_i) tptp.lSeries_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lListFn_THFTYPE_i) tptp.lList_THFTYPE_i))
% 2.18/2.70  (assert (forall ((DAY $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DAY) tptp.lDay_THFTYPE_i) (= (@ tptp.lCardinalityFn_THFTYPE_IiiI (@ (@ tptp.lTemporalCompositionFn_THFTYPE_IiiiI DAY) tptp.lHour_THFTYPE_i)) tptp.n24_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (QUANT $$unsorted) (UNIT $$unsorted)) (=> (and (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) UNIT) QUANT) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfArea_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI QUANT) tptp.lAreaMeasure_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lSelfConnectedObject_THFTYPE_i) (forall ((PART1 $$unsorted) (PART2 $$unsorted)) (=> (= OBJ (@ (@ tptp.lMereologicalSumFn_THFTYPE_IiiiI PART1) PART2)) (@ (@ tptp.connected_THFTYPE_IiioI PART1) PART2))))))
% 2.18/2.70  (assert (forall ((WED $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI WED) tptp.lWedding_THFTYPE_i) (exists ((PERSON1 $$unsorted) (PERSON2 $$unsorted)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lImmediateFutureFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI WED))) (@ (@ tptp.spouse_THFTYPE_IiioI PERSON1) PERSON2))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lQuintaryRelation_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lQuintaryPredicate_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTernaryFunction_THFTYPE_i) tptp.lFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lProbabilityFn_THFTYPE_i) tptp.lRealNumber_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJECT $$unsorted) (SIDE $$unsorted) (PART $$unsorted)) (=> (and (@ (@ tptp.side_THFTYPE_IiioI SIDE) OBJECT) (@ (@ tptp.part_THFTYPE_IiioI PART) OBJECT) (not (@ (@ tptp.connected_THFTYPE_IiioI PART) SIDE))) (exists ((DIRECT $$unsorted)) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI SIDE) PART) DIRECT)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lColorAttribute_THFTYPE_i) tptp.lInternalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (forall ((BOIL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI BOIL) tptp.lBoiling_THFTYPE_i) (exists ((HEAT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI HEAT) tptp.lHeating_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI HEAT) BOIL))))))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lPsychologicalAttribute_THFTYPE_i) tptp.lStateOfMind_THFTYPE_i) tptp.lTraitAttribute_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CLASS $$unsorted) (ATTR $$unsorted)) (= (= (@ tptp.lAbstractionFn_THFTYPE_IiiI CLASS) ATTR) (forall ((INST $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI INST) CLASS) (@ (@ tptp.property_THFTYPE_IiioI INST) ATTR))))))
% 2.18/2.70  (assert (forall ((WEEK $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI WEEK) tptp.lWeek_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI WEEK) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1_THFTYPE_i) tptp.lWeekDuration_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((ORG $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lOrganism_THFTYPE_i) (exists ((ATTR $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lAnimacyAttribute_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI ORG) ATTR))))))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (MOTION $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MOTION) tptp.lLiquidMotion_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI MOTION) OBJ)) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) tptp.lLiquid_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((MEMBER $$unsorted) (GROUP $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI GROUP) tptp.lGroupOfPeople_THFTYPE_i) (@ (@ tptp.member_THFTYPE_IiioI MEMBER) GROUP)) (@ (@ tptp.instance_THFTYPE_IiioI MEMBER) tptp.lHuman_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lArachnid_THFTYPE_i) tptp.lArthropod_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFeline_THFTYPE_i) tptp.lCarnivore_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBlood_THFTYPE_i) tptp.lBodySubstance_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOrdering_THFTYPE_i) tptp.lDirecting_THFTYPE_i))
% 2.18/2.70  (assert (forall ((DEVELOP $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DEVELOP) tptp.lContentDevelopment_THFTYPE_i) (exists ((OBJ $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lContentBearingObject_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI DEVELOP) OBJ))))))
% 2.18/2.70  (assert (forall ((REL2 $$unsorted) (CLASS1 $$unsorted) (CLASS2 $$unsorted) (REL1 $$unsorted)) (=> (and (@ (@ tptp.range_THFTYPE_IiioI REL1) CLASS1) (@ (@ tptp.range_THFTYPE_IiioI REL2) CLASS2) (@ (@ tptp.disjoint_THFTYPE_IiioI CLASS1) CLASS2)) (@ (@ tptp.disjointRelation_THFTYPE_IiioI REL1) REL2))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lVerbPhrase_THFTYPE_i) tptp.lPhrase_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (PUT $$unsorted) (PLACE $$unsorted)) (let ((_let_1 (@ (@ tptp.located_THFTYPE_IiioI OBJ) PLACE))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI PUT))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PUT) tptp.lPutting_THFTYPE_i) (@ (@ tptp.destination_THFTYPE_IiioI PUT) PLACE) (@ (@ tptp.patient_THFTYPE_IiioI PUT) OBJ)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (not _let_1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) _let_1)))))))
% 2.18/2.70  (assert (forall ((ORGANISM $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ORGANISM) tptp.lOrganism_THFTYPE_i) (exists ((PARENT $$unsorted)) (@ (@ tptp.parent_THFTYPE_IiioI ORGANISM) PARENT)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lText_THFTYPE_i) tptp.lLinguisticExpression_THFTYPE_i))
% 2.18/2.70  (assert (forall ((INT2 $$unsorted) (INT1 $$unsorted)) (=> (= (@ tptp.lPredecessorFn_THFTYPE_IiiI INT1) (@ tptp.lPredecessorFn_THFTYPE_IiiI INT2)) (= INT1 INT2))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPollen_THFTYPE_i) tptp.lReproductiveBody_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ORG $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lGovernmentOrganization_THFTYPE_i) (exists ((GOV $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI GOV) tptp.lGovernment_THFTYPE_i) (@ (@ tptp.subOrganization_THFTYPE_IiioI ORG) GOV))))))
% 2.18/2.70  (assert (forall ((INTERVAL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL) tptp.lTimeInterval_THFTYPE_i) (= (@ tptp.lFutureFn_THFTYPE_IiiI INTERVAL) (@ (@ tptp.lTimeIntervalFn_THFTYPE_IiiiI (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL)) tptp.lPositiveInfinity_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLooking_THFTYPE_i) tptp.lSeeing_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWaterCloud_THFTYPE_i) tptp.lCloud_THFTYPE_i))
% 2.18/2.70  (assert (forall ((STRING $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI STRING) tptp.lSymbolicString_THFTYPE_i) (exists ((PART $$unsorted)) (and (@ (@ tptp.part_THFTYPE_IiioI PART) STRING) (@ (@ tptp.instance_THFTYPE_IiioI PART) tptp.lCharacter_THFTYPE_i))))))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lGeologicalProcess_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (AGENT $$unsorted)) (=> (@ (@ tptp.uses_THFTYPE_IiioI OBJ) AGENT) (exists ((PROC $$unsorted)) (and (@ (@ tptp.agent_THFTYPE_IiioI PROC) AGENT) (@ (@ tptp.instrument_THFTYPE_IiioI PROC) OBJ))))))
% 2.18/2.70  (assert (@ (@ tptp.contraryAttribute_THFTYPE_IoooI false) true))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lFrontFn_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTernaryFunction_THFTYPE_i) tptp.lQuaternaryRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGuiding_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lMilliFn_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (REL (-> $$unsorted Bool))) (=> (@ (@ tptp.valence_THFTYPE_IIioIioI REL) NUMBER) (forall ((ROW $$unsorted)) (=> (@ REL ROW) (= (@ tptp.lListLengthFn_THFTYPE_IiiI (@ tptp.lListFn_THFTYPE_IiiI ROW)) NUMBER))))))
% 2.18/2.70  (assert (forall ((MONTH1 $$unsorted) (MONTH2 $$unsorted) (YEAR $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MONTH1) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lMarch_THFTYPE_i) YEAR)) (@ (@ tptp.instance_THFTYPE_IiioI MONTH2) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lApril_THFTYPE_i) YEAR))) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI MONTH1) MONTH2))))
% 2.18/2.70  (assert (forall ((CLASS $$unsorted) (FUNCTION $$unsorted)) (=> (and (@ (@ tptp.closedOn_THFTYPE_IiioI FUNCTION) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI FUNCTION) tptp.lBinaryFunction_THFTYPE_i)) (forall ((INST1 $$unsorted) (INST2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI INST1) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI INST2) CLASS)) (@ (@ tptp.instance_THFTYPE_IiioI (@ (@ (@ tptp.lAssignmentFn_THFTYPE_IiiiiI FUNCTION) INST1) INST2)) CLASS))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAquaticMammal_THFTYPE_i) tptp.lMammal_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (HOLE $$unsorted)) (=> (exists ((TIME $$unsorted)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.fills_THFTYPE_IiioI OBJ) HOLE))) (@ (@ tptp.attribute_THFTYPE_IiioI HOLE) tptp.lFillable_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((CHANGE $$unsorted) (OBJ $$unsorted) (AGENT2 $$unsorted) (AGENT1 $$unsorted)) (let ((_let_1 (@ tptp.lWhenFn_THFTYPE_IiiI CHANGE))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI CHANGE) tptp.lChangeOfPossession_THFTYPE_i) (@ (@ tptp.origin_THFTYPE_IiioI CHANGE) AGENT1) (@ (@ tptp.destination_THFTYPE_IiioI CHANGE) AGENT2) (@ (@ tptp.instance_THFTYPE_IiioI AGENT1) tptp.lAgent_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI AGENT2) tptp.lAgent_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI CHANGE) OBJ)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_1)) (@ (@ tptp.possesses_THFTYPE_IiioI AGENT1) OBJ)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_1)) (@ (@ tptp.possesses_THFTYPE_IiioI AGENT2) OBJ)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGrowth_THFTYPE_i) tptp.lAutonomicProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnilateralGetting_THFTYPE_i) tptp.lGetting_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lThursday_THFTYPE_i) tptp.lDay_THFTYPE_i))
% 2.18/2.70  (assert (forall ((LANG $$unsorted) (AGENT $$unsorted) (PROC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI LANG) tptp.lComputerLanguage_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PROC) AGENT) (@ (@ tptp.instrument_THFTYPE_IiioI PROC) LANG)) (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lMachine_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSocialUnit_THFTYPE_i) tptp.lGroupOfPeople_THFTYPE_i))
% 2.18/2.70  (assert (forall ((AA $$unsorted) (AN $$unsorted) (PA $$unsorted) (PN $$unsorted) (G $$unsorted) (N $$unsorted) (M $$unsorted)) (let ((_let_1 (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI N) M))) (=> (and (@ (@ tptp.graphMeasure_THFTYPE_IiioI G) M) (@ (@ tptp.instance_THFTYPE_IiioI AN) tptp.lGraphNode_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI AA) tptp.lGraphArc_THFTYPE_i) (@ (@ tptp.abstractCounterpart_THFTYPE_IiioI AN) PN) (@ (@ tptp.abstractCounterpart_THFTYPE_IiioI AA) PA) (@ (@ tptp.arcWeight_THFTYPE_IiioI AA) _let_1)) (@ (@ tptp.measure_THFTYPE_IiioI PA) _let_1)))))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ1) tptp.lObject_THFTYPE_i) (@ (@ tptp.partlyLocated_THFTYPE_IiioI OBJ1) OBJ2)) (exists ((SUB $$unsorted)) (and (@ (@ tptp.part_THFTYPE_IiioI SUB) OBJ1) (@ (@ tptp.located_THFTYPE_IiioI SUB) OBJ2))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lEgg_THFTYPE_i) tptp.lAnimalAnatomicalStructure_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PHYS2 $$unsorted) (PHYS1 $$unsorted)) (= (@ (@ tptp.cooccur_THFTYPE_IiioI PHYS1) PHYS2) (= (@ tptp.lWhenFn_THFTYPE_IiiI PHYS1) (@ tptp.lWhenFn_THFTYPE_IiiI PHYS2)))))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted) (HEIGHT $$unsorted)) (=> (@ (@ (@ tptp.altitude_THFTYPE_IiiioI OBJ1) OBJ2) HEIGHT) (exists ((TOP $$unsorted)) (and (@ (@ tptp.top_THFTYPE_IiioI TOP) OBJ1) (@ (@ (@ tptp.distance_THFTYPE_IiiioI TOP) OBJ2) HEIGHT))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFieldOfStudy_THFTYPE_i) tptp.lProposition_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (HOLE $$unsorted)) (=> (@ (@ tptp.hole_THFTYPE_IiioI HOLE) OBJ) (not (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lHole_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lStateChange_THFTYPE_i) tptp.lInternalChange_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (PART $$unsorted) (COLOR $$unsorted)) (=> (and (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) tptp.lMonochromatic_THFTYPE_i) (@ (@ tptp.superficialPart_THFTYPE_IiioI PART) OBJ) (@ (@ tptp.attribute_THFTYPE_IiioI PART) COLOR) (@ (@ tptp.instance_THFTYPE_IiioI COLOR) tptp.lPrimaryColor_THFTYPE_i)) (forall ((ELEMENT $$unsorted)) (=> (@ (@ tptp.superficialPart_THFTYPE_IiioI ELEMENT) OBJ) (@ (@ tptp.attribute_THFTYPE_IiioI ELEMENT) COLOR))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTouching_THFTYPE_i) tptp.lTransfer_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PATIENT $$unsorted) (AGENT $$unsorted) (TRANSFER $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TRANSFER) tptp.lTransfer_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI TRANSFER) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI TRANSFER) PATIENT)) (not (= AGENT PATIENT)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRelationalAttribute_THFTYPE_i) tptp.lAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lElectron_THFTYPE_i) tptp.lSubatomicParticle_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted) (OBJ3 $$unsorted)) (=> (= OBJ3 (@ (@ tptp.lMereologicalDifferenceFn_THFTYPE_IiiiI OBJ1) OBJ2)) (forall ((PART $$unsorted)) (let ((_let_1 (@ tptp.properPart_THFTYPE_IiioI PART))) (= (@ _let_1 OBJ3) (and (@ _let_1 OBJ1) (not (@ _let_1 OBJ2)))))))))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lQuantityChange_THFTYPE_i) tptp.lIncreasing_THFTYPE_i) tptp.lDecreasing_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ALT $$unsorted) (OBJ $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ALT) tptp.lSurfaceChange_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI ALT) OBJ)) (exists ((PART $$unsorted) (PROPERTY $$unsorted)) (let ((_let_1 (@ (@ tptp.attribute_THFTYPE_IiioI PART) PROPERTY))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI ALT))) (let ((_let_3 (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)))) (let ((_let_4 (not _let_1))) (let ((_let_5 (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)))) (and (@ (@ tptp.superficialPart_THFTYPE_IiioI PART) OBJ) (or (and (@ _let_5 _let_1) (@ _let_3 _let_4)) (and (@ _let_5 _let_4) (@ _let_3 _let_1)))))))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lReptile_THFTYPE_i) tptp.lColdBloodedVertebrate_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ARC $$unsorted) (NODE1 $$unsorted) (NODE2 $$unsorted)) (=> (@ (@ (@ tptp.links_THFTYPE_IiiioI NODE1) NODE2) ARC) (@ (@ (@ tptp.links_THFTYPE_IiiioI NODE2) NODE1) ARC))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFriday_THFTYPE_i) tptp.lDay_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRadiatingElectromagnetic_THFTYPE_i) tptp.lRadiating_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLinguisticExpression_THFTYPE_i) tptp.lContentBearingPhysical_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NANOUNIT $$unsorted) (UNIT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfMeasure_THFTYPE_i) (= NANOUNIT (@ tptp.lNanoFn_THFTYPE_IiiI UNIT))) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NANOUNIT) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n0dot000000001_THFTYPE_i) UNIT)))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI NUMBER) tptp.lComplexNumber_THFTYPE_i) (exists ((PART1 $$unsorted) (PART2 $$unsorted)) (and (= PART1 (@ tptp.lRealNumberFn_THFTYPE_IiiI NUMBER)) (= PART2 (@ tptp.lImaginaryPartFn_THFTYPE_IiiI NUMBER)))))))
% 2.18/2.70  (assert (forall ((AGENT $$unsorted) (DEFENSE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DEFENSE) tptp.lDefensiveManeuver_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI DEFENSE) AGENT)) (@ (@ (@ tptp.hasPurposeForAgent_THFTYPE_IioioI DEFENSE) (not (exists ((DAMAGE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI DAMAGE) tptp.lDamaging_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI DAMAGE) AGENT))))) AGENT))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lQuaternaryPredicate_THFTYPE_i) tptp.lPredicate_THFTYPE_i))
% 2.18/2.70  (assert (forall ((LANG $$unsorted) (AGENT $$unsorted) (PROC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI LANG) tptp.lHumanLanguage_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PROC) AGENT) (@ (@ tptp.instrument_THFTYPE_IiioI PROC) LANG)) (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lHuman_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lMegaByte_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n1024_THFTYPE_i)) tptp.lKiloByte_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lStaticWaterArea_THFTYPE_i) tptp.lWaterArea_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lComplementFn_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.70  (assert (forall ((BEV $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI BEV) tptp.lBeverage_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI BEV) tptp.lLiquid_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((MONTH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MONTH) tptp.lSeptember_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI MONTH) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n30_THFTYPE_i) tptp.lDayDuration_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lProbabilityAttribute_THFTYPE_i) tptp.lObjectiveNorm_THFTYPE_i))
% 2.18/2.70  (assert (forall ((X $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI X) tptp.lPositiveInteger_THFTYPE_i) (@ (@ tptp.gt_THFTYPE_IiioI X) tptp.n0_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((POINT3 $$unsorted) (POINT2 $$unsorted) (POINT1 $$unsorted)) (= (@ (@ (@ tptp.temporallyBetween_THFTYPE_IiiioI POINT1) POINT2) POINT3) (and (@ (@ tptp.before_THFTYPE_IiioI POINT1) POINT2) (@ (@ tptp.before_THFTYPE_IiioI POINT2) POINT3)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lHormone_THFTYPE_i) tptp.lBiologicallyActiveSubstance_THFTYPE_i))
% 2.18/2.70  (assert (forall ((AGENT2 $$unsorted) (AGENT1 $$unsorted)) (=> (@ (@ tptp.legalRelation_THFTYPE_IiioI AGENT1) AGENT2) (exists ((DECLARE $$unsorted) (OBLIGATION Bool)) (let ((_let_1 (@ (@ tptp.confersObligation_THFTYPE_IoiioI OBLIGATION) DECLARE))) (and (@ (@ tptp.instance_THFTYPE_IiioI DECLARE) tptp.lDeclaring_THFTYPE_i) (@ _let_1 AGENT1) (@ _let_1 AGENT2)))))))
% 2.18/2.70  (assert (forall ((GRAPH $$unsorted) (ARC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI GRAPH) tptp.lDirectedGraph_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI ARC) tptp.lGraphArc_THFTYPE_i) (@ (@ tptp.graphPart_THFTYPE_IiioI ARC) GRAPH)) (exists ((NODE1 $$unsorted) (NODE2 $$unsorted)) (and (= (@ tptp.lInitialNodeFn_THFTYPE_IiiI ARC) NODE1) (= (@ tptp.lTerminalNodeFn_THFTYPE_IiiI ARC) NODE2))))))
% 2.18/2.70  (assert (@ (@ tptp.inverse_THFTYPE_IIiioIIiioIoI tptp.greaterThanOrEqualTo_THFTYPE_IiioI) tptp.lessThanOrEqualTo_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLooking_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMachine_THFTYPE_i) tptp.lDevice_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDay_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ (@ tptp.disjointDecomposition_THFTYPE_IiiiioI tptp.lNutrient_THFTYPE_i) tptp.lProtein_THFTYPE_i) tptp.lCarbohydrate_THFTYPE_i) tptp.lVitamin_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lEgg_THFTYPE_i) tptp.lReproductiveBody_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (KEEP $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI KEEP) tptp.lKeeping_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI KEEP) OBJ)) (exists ((PLACE $$unsorted)) (forall ((TIME $$unsorted)) (=> (@ (@ tptp.temporalPart_THFTYPE_IiioI TIME) (@ tptp.lWhenFn_THFTYPE_IiiI KEEP)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.located_THFTYPE_IiioI OBJ) PLACE))))))))
% 2.18/2.70  (assert (forall ((TRANS $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI TRANS) tptp.lTransportation_THFTYPE_i) (exists ((DEVICE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI DEVICE) tptp.lTransportationDevice_THFTYPE_i) (@ (@ tptp.instrument_THFTYPE_IiioI TRANS) DEVICE))))))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted) (OBJ3 $$unsorted)) (=> (= OBJ3 (@ (@ tptp.lMereologicalSumFn_THFTYPE_IiiiI OBJ1) OBJ2)) (forall ((PART $$unsorted)) (let ((_let_1 (@ tptp.part_THFTYPE_IiioI PART))) (= (@ _let_1 OBJ3) (or (@ _let_1 OBJ1) (@ _let_1 OBJ2))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDesigning_THFTYPE_i) tptp.lIntentionalPsychologicalProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lUncovering_THFTYPE_i) tptp.lCovering_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSystemeInternationalUnit_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ROW2 $$unsorted) (LIST2 $$unsorted) (LIST1 $$unsorted) (ROW1 $$unsorted)) (=> (= LIST1 LIST2) (=> (and (= LIST1 (@ tptp.lListFn_THFTYPE_IiiI ROW1)) (= LIST2 (@ tptp.lListFn_THFTYPE_IiiI ROW2))) (forall ((NUMBER $$unsorted)) (= (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI (@ tptp.lListFn_THFTYPE_IiiI ROW1)) NUMBER) (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI (@ tptp.lListFn_THFTYPE_IiiI ROW2)) NUMBER)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lVocalizing_THFTYPE_i) tptp.lBodyMotion_THFTYPE_i))
% 2.18/2.70  (assert (forall ((STRUCTURE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI STRUCTURE) tptp.lAbnormalAnatomicalStructure_THFTYPE_i) (exists ((PROC $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lPathologicProcess_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI PROC) STRUCTURE))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFamilyGroup_THFTYPE_i) tptp.lGroupOfPeople_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lYearFn_THFTYPE_i) tptp.lYear_THFTYPE_i))
% 2.18/2.70  (assert (forall ((UNIT $$unsorted) (TERAUNIT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfMeasure_THFTYPE_i) (= TERAUNIT (@ tptp.lTeraFn_THFTYPE_IiiI UNIT))) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1_THFTYPE_i) TERAUNIT) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1000000000000_THFTYPE_i) UNIT)))))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lVelocityFn_THFTYPE_i) tptp.lFunctionQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPsychologicalProcess_THFTYPE_i) tptp.lBiologicalProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((INT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INT) tptp.lInteger_THFTYPE_i) (@ (@ tptp.gt_THFTYPE_IiioI INT) (@ tptp.lPredecessorFn_THFTYPE_IiiI INT)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLeapYear_THFTYPE_i) tptp.lYear_THFTYPE_i))
% 2.18/2.70  (assert (forall ((FOOD $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI FOOD) tptp.lFood_THFTYPE_i) (exists ((NUTRIENT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI NUTRIENT) tptp.lNutrient_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI NUTRIENT) FOOD))))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lMile_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n1609dot344_THFTYPE_i)) tptp.lMeter_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (PERSON $$unsorted)) (=> (@ (@ tptp.possesses_THFTYPE_IiioI PERSON) OBJ) (@ (@ tptp.modalAttribute_THFTYPE_IoioI (@ (@ tptp.uses_THFTYPE_IiioI OBJ) PERSON)) tptp.lPermission_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((REGION $$unsorted)) (= (exists ((EMIT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI EMIT) tptp.lRadiatingLight_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI EMIT) REGION) (@ (@ tptp.instance_THFTYPE_IiioI REGION) tptp.lRegion_THFTYPE_i))) (@ (@ tptp.attribute_THFTYPE_IiioI REGION) tptp.lIlluminated_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lReasoning_THFTYPE_i) tptp.lIntentionalPsychologicalProcess_THFTYPE_i))
% 2.18/2.70  (assert (forall ((TEMP $$unsorted) (BOIL $$unsorted) (PRES $$unsorted) (X $$unsorted) (Y $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI X) Y) (@ (@ tptp.subclass_THFTYPE_IiioI Y) tptp.lPureSubstance_THFTYPE_i) (@ (@ tptp.barometricPressure_THFTYPE_IiioI X) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI PRES) tptp.lInchMercury_THFTYPE_i)) (@ (@ tptp.gt_THFTYPE_IiioI tptp.n29dot92_THFTYPE_i) PRES) (@ (@ tptp.boilingPoint_THFTYPE_IiioI Y) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI BOIL) tptp.lKelvinDegree_THFTYPE_i)) (@ (@ tptp.measure_THFTYPE_IiioI X) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI TEMP) tptp.lKelvinDegree_THFTYPE_i)) (@ (@ tptp.gt_THFTYPE_IiioI TEMP) BOIL)) (@ (@ tptp.attribute_THFTYPE_IiioI X) tptp.lGas_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((MINUTE $$unsorted) (NUMBER $$unsorted) (HOUR $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MINUTE) (@ (@ tptp.lMinuteFn_THFTYPE_IiiiI NUMBER) HOUR)) (@ (@ tptp.lt_THFTYPE_IiioI NUMBER) tptp.n60_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDeciding_THFTYPE_i) tptp.lSelecting_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnitOfVolume_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CLASS $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI CLASS) tptp.lClass_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI CLASS) tptp.lEntity_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnitOfTemperature_THFTYPE_i) tptp.lNonCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (forall ((INT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INT) tptp.lInteger_THFTYPE_i) (= INT (@ tptp.lSuccessorFn_THFTYPE_IiiI (@ tptp.lPredecessorFn_THFTYPE_IiiI INT))))))
% 2.18/2.70  (assert (forall ((REGION $$unsorted) (TIME $$unsorted) (THING $$unsorted)) (= (= (@ (@ tptp.lWhereFn_THFTYPE_IiiiI THING) TIME) REGION) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.exactlyLocated_THFTYPE_IiioI THING) REGION)))))
% 2.18/2.70  (assert (forall ((CLASS $$unsorted) (ID $$unsorted) (FUNCTION $$unsorted)) (=> (@ (@ tptp.identityElement_THFTYPE_IiioI FUNCTION) ID) (forall ((INST $$unsorted)) (=> (and (@ (@ (@ tptp.domain_THFTYPE_IiiioI FUNCTION) tptp.n1_THFTYPE_i) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI INST) CLASS)) (= (@ (@ (@ tptp.lAssignmentFn_THFTYPE_IiiiiI FUNCTION) ID) INST) INST))))))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lDivisionFn_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subAttribute_THFTYPE_IiioI tptp.lPurchaseContract_THFTYPE_i) tptp.lContract_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (MONTH $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MONTH) tptp.lMonth_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI MONTH) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lDayDuration_THFTYPE_i))) (= (@ tptp.lCardinalityFn_THFTYPE_IiiI (@ (@ tptp.lTemporalCompositionFn_THFTYPE_IiiiI MONTH) tptp.lDay_THFTYPE_i)) NUMBER))))
% 2.18/2.70  (assert (forall ((DEVICE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DEVICE) tptp.lDevice_THFTYPE_i) (exists ((PROC $$unsorted)) (@ (@ tptp.hasPurpose_THFTYPE_IiooI DEVICE) (exists ((INST $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI INST) PROC) (@ (@ tptp.instrument_THFTYPE_IiioI INST) DEVICE))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRadiatingNuclear_THFTYPE_i) tptp.lRadiating_THFTYPE_i))
% 2.18/2.70  (assert (forall ((GRAPH $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI GRAPH) tptp.lGraphCircuit_THFTYPE_i) (exists ((NODE $$unsorted)) (and (= (@ tptp.lBeginNodeFn_THFTYPE_IiiI GRAPH) NODE) (= (@ tptp.lEndNodeFn_THFTYPE_IiiI GRAPH) NODE))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNovember_THFTYPE_i) tptp.lMonth_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.inverse_THFTYPE_IIiioIIiioIoI tptp.smaller_THFTYPE_IiioI) tptp.larger_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lQuantity_THFTYPE_i) tptp.lAbstract_THFTYPE_i))
% 2.18/2.70  (assert (forall ((INTERVAL1 $$unsorted) (INTERVAL2 $$unsorted)) (= (@ (@ tptp.finishes_THFTYPE_IiioI INTERVAL1) INTERVAL2) (and (@ (@ tptp.before_THFTYPE_IiioI (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL2)) (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL1)) (= (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL2) (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL1))))))
% 2.18/2.70  (assert (forall ((HOLE $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (let ((_let_1 (@ tptp.hole_THFTYPE_IiioI HOLE))) (=> (and (@ _let_1 OBJ1) (@ (@ tptp.part_THFTYPE_IiioI OBJ1) OBJ2)) (or (@ (@ tptp.overlapsSpatially_THFTYPE_IiioI HOLE) OBJ2) (@ _let_1 OBJ2))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMuscle_THFTYPE_i) tptp.lTissue_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (CLASS1 $$unsorted) (REL $$unsorted) (CLASS2 $$unsorted)) (let ((_let_1 (@ (@ tptp.domain_THFTYPE_IiiioI REL) NUMBER))) (=> (and (@ _let_1 CLASS1) (@ _let_1 CLASS2)) (or (@ (@ tptp.subclass_THFTYPE_IiioI CLASS1) CLASS2) (@ (@ tptp.subclass_THFTYPE_IiioI CLASS2) CLASS1))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAngleMeasure_THFTYPE_i) tptp.lConstantQuantity_THFTYPE_i))
% 2.18/2.70  (assert (forall ((MORPH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MORPH) tptp.lMorpheme_THFTYPE_i) (not (exists ((OTHERMORPH $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI OTHERMORPH) tptp.lMorpheme_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI OTHERMORPH) MORPH) (not (= OTHERMORPH MORPH))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOctober_THFTYPE_i) tptp.lMonth_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ORG $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lOrganism_THFTYPE_i) (exists ((ATTR $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lDevelopmentalAttribute_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI ORG) ATTR))))))
% 2.18/2.70  (assert (forall ((N2 $$unsorted) (N1 $$unsorted)) (=> (@ (@ tptp.multiplicativeFactor_THFTYPE_IiioI N1) N2) (exists ((I $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI I) tptp.lInteger_THFTYPE_i) (= N2 (@ (@ tptp.times_THFTYPE_IiiiI N1) I)))))))
% 2.18/2.70  (assert (forall ((OBJECT $$unsorted) (REF $$unsorted) (TIME $$unsorted) (DIRECTION $$unsorted) (DISTANCE $$unsorted)) (let ((_let_1 (@ tptp.measure_THFTYPE_IiioI OBJECT))) (=> (@ _let_1 (@ (@ (@ (@ tptp.lVelocityFn_THFTYPE_IiiiiiI DISTANCE) TIME) REF) DIRECTION)) (@ _let_1 (@ (@ tptp.lSpeedFn_THFTYPE_IiiiI DISTANCE) TIME))))))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lBeginNodeFn_THFTYPE_i) tptp.lGraphNode_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lTemporalCompositionFn_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.70  (assert (forall ((BONE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI BONE) tptp.lBone_THFTYPE_i) (exists ((VERT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI VERT) tptp.lVertebrate_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI BONE) VERT))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTransitway_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSurfaceChange_THFTYPE_i) tptp.lInternalChange_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPureSubstance_THFTYPE_i) tptp.lSubstance_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CLOUD $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI CLOUD) tptp.lCloud_THFTYPE_i) (@ (@ (@ tptp.capability_THFTYPE_IiIiioIioI tptp.lSeeing_THFTYPE_i) tptp.patient_THFTYPE_IiioI) CLOUD))))
% 2.18/2.70  (assert (forall ((REL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI REL) tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.valence_THFTYPE_IiioI REL) tptp.n2_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((ANIMAL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ANIMAL) tptp.lAnimal_THFTYPE_i) (or (exists ((MOTION $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI MOTION) tptp.lBodyMotion_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI MOTION) ANIMAL))) (exists ((ATTR $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lBodyPosition_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI ANIMAL) ATTR)))))))
% 2.18/2.70  (assert (forall ((ORG1 $$unsorted) (ORG2 $$unsorted) (PARENT $$unsorted)) (=> (and (@ (@ tptp.sibling_THFTYPE_IiioI ORG1) ORG2) (@ (@ tptp.parent_THFTYPE_IiioI ORG1) PARENT)) (@ (@ tptp.parent_THFTYPE_IiioI ORG2) PARENT))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lRankineDegree_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n1dot8_THFTYPE_i)) tptp.lKelvinDegree_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (PERCEPTION $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PERCEPTION) tptp.lPerception_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI PERCEPTION) OBJ)) (exists ((PROP $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PROP) tptp.lPerceptualAttribute_THFTYPE_i) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI PERCEPTION)) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) PROP)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRadiatingLight_THFTYPE_i) tptp.lRadiatingElectromagnetic_THFTYPE_i))
% 2.18/2.70  (assert (forall ((DETACH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DETACH) tptp.lDetaching_THFTYPE_i) (exists ((OBJ $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lCorpuscularObject_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI DETACH) OBJ))))))
% 2.18/2.70  (assert (forall ((ORGANISM $$unsorted) (REP $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI REP) tptp.lAsexualReproduction_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI REP) ORGANISM)) (not (exists ((PARENT1 $$unsorted) (PARENT2 $$unsorted)) (let ((_let_1 (@ tptp.parent_THFTYPE_IiioI ORGANISM))) (and (@ _let_1 PARENT1) (@ _let_1 PARENT2) (not (= PARENT1 PARENT2)))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBinaryRelation_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTransaction_THFTYPE_i) tptp.lDualObjectProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBacterium_THFTYPE_i) tptp.lMicroorganism_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOrganization_THFTYPE_i) tptp.lGroup_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNonFloweringPlant_THFTYPE_i) tptp.lPlant_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CLASS $$unsorted) (ROW $$unsorted)) (=> (@ (@ tptp.exhaustiveAttribute_THFTYPE_IiioI CLASS) ROW) (forall ((ATTR1 $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ATTR1) CLASS) (exists ((ATTR2 $$unsorted)) (and (@ (@ tptp.inList_THFTYPE_IiioI ATTR2) (@ tptp.lListFn_THFTYPE_IiiI ROW)) (= ATTR1 ATTR2))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCell_THFTYPE_i) tptp.lBodyPart_THFTYPE_i))
% 2.18/2.70  (assert (forall ((SET2 $$unsorted) (SET1 $$unsorted)) (=> (forall ((ELEMENT $$unsorted)) (let ((_let_1 (@ tptp.element_THFTYPE_IiioI ELEMENT))) (= (@ _let_1 SET1) (@ _let_1 SET2)))) (= SET1 SET2))))
% 2.18/2.70  (assert (forall ((PUB $$unsorted) (TEXT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PUB) tptp.lPublication_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI PUB) TEXT)) (@ (@ tptp.subclass_THFTYPE_IiioI TEXT) tptp.lText_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((SEED $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SEED) tptp.lSeed_THFTYPE_i) (exists ((PLANT $$unsorted) (TIME $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PLANT) tptp.lFloweringPlant_THFTYPE_i) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.part_THFTYPE_IiioI SEED) PLANT)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSaltWaterArea_THFTYPE_i) tptp.lWaterArea_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMan_THFTYPE_i) tptp.lHuman_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lGraphElement_THFTYPE_i) tptp.lGraphNode_THFTYPE_i) tptp.lGraphArc_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ORG $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lOrganization_THFTYPE_i) (exists ((PURP Bool)) (forall ((MEMBER $$unsorted)) (=> (@ (@ tptp.member_THFTYPE_IiioI MEMBER) ORG) (@ (@ tptp.hasPurpose_THFTYPE_IiooI MEMBER) PURP)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSentientAgent_THFTYPE_i) tptp.lAgent_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (PRED1 $$unsorted) (CLASS1 $$unsorted) (PRED2 $$unsorted)) (=> (and (@ (@ tptp.subrelation_THFTYPE_IiioI PRED1) PRED2) (@ (@ (@ tptp.domain_THFTYPE_IiiioI PRED2) NUMBER) CLASS1)) (@ (@ (@ tptp.domain_THFTYPE_IiiioI PRED1) NUMBER) CLASS1))))
% 2.18/2.70  (assert (forall ((CHILD $$unsorted) (PARENT $$unsorted)) (=> (@ (@ tptp.parent_THFTYPE_IiioI CHILD) PARENT) (@ (@ tptp.before_THFTYPE_IiioI (@ tptp.lBeginFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI PARENT))) (@ tptp.lBeginFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI CHILD))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMusic_THFTYPE_i) tptp.lRadiatingSound_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (VOLUME $$unsorted) (SERIES $$unsorted)) (=> (= (@ (@ tptp.lSeriesVolumeFn_THFTYPE_IiiiI SERIES) NUMBER) VOLUME) (@ (@ tptp.subsumesContentClass_THFTYPE_IiioI SERIES) VOLUME))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lText_THFTYPE_i) tptp.lArtifact_THFTYPE_i))
% 2.18/2.70  (assert (forall ((RESIDENCE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI RESIDENCE) tptp.lTemporaryResidence_THFTYPE_i) (not (exists ((PERSON $$unsorted)) (@ (@ tptp.home_THFTYPE_IiioI PERSON) RESIDENCE))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFungus_THFTYPE_i) tptp.lOrganism_THFTYPE_i))
% 2.18/2.70  (assert (forall ((WAR $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI WAR) tptp.lWar_THFTYPE_i) (exists ((BATTLE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI BATTLE) tptp.lBattle_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI BATTLE) WAR))))))
% 2.18/2.70  (assert (forall ((CLASS1 $$unsorted) (CLASS2 $$unsorted)) (=> (= CLASS1 CLASS2) (forall ((THING $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI THING))) (= (@ _let_1 CLASS1) (@ _let_1 CLASS2)))))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI NUMBER) tptp.lQuantity_THFTYPE_i) (= (@ tptp.lReciprocalFn_THFTYPE_IiiI NUMBER) (@ (@ tptp.lExponentiationFn_THFTYPE_IiiiI NUMBER) tptp.minus1_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSet_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMixture_THFTYPE_i) tptp.lSubstance_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMaking_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPhysicalSystem_THFTYPE_i) tptp.lPhysical_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lProton_THFTYPE_i) tptp.lSubatomicParticle_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMatriculation_THFTYPE_i) tptp.lJoiningAnOrganization_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOrganism_THFTYPE_i) tptp.lAgent_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lVocalCords_THFTYPE_i) tptp.lOrgan_THFTYPE_i))
% 2.18/2.70  (assert (forall ((FATHER $$unsorted) (CHILD $$unsorted)) (=> (@ (@ tptp.father_THFTYPE_IiioI CHILD) FATHER) (@ (@ tptp.attribute_THFTYPE_IiioI FATHER) tptp.lMale_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((MONTH1 $$unsorted) (MONTH2 $$unsorted) (YEAR $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MONTH1) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lMay_THFTYPE_i) YEAR)) (@ (@ tptp.instance_THFTYPE_IiioI MONTH2) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lJune_THFTYPE_i) YEAR))) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI MONTH1) MONTH2))))
% 2.18/2.70  (assert (forall ((ORG $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lManufacturer_THFTYPE_i) (@ tptp.hasPurpose_THFTYPE_IooI (exists ((MANUFACTURE $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI MANUFACTURE))) (and (@ _let_1 tptp.lManufacture_THFTYPE_i) (@ _let_1 tptp.lCommercialService_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI MANUFACTURE) ORG))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnitOfInformation_THFTYPE_i) tptp.lNonCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (forall ((N $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI N) tptp.lRealNumber_THFTYPE_i) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI N) tptp.lHorsepower_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI N) tptp.n746_THFTYPE_i)) tptp.lWatt_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((REL2 $$unsorted) (CLASS1 $$unsorted) (REL1 $$unsorted)) (=> (and (@ (@ tptp.subrelation_THFTYPE_IiioI REL1) REL2) (@ (@ tptp.range_THFTYPE_IiioI REL2) CLASS1)) (@ (@ tptp.range_THFTYPE_IiioI REL1) CLASS1))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (ROW $$unsorted)) (=> (= (@ tptp.lLeastCommonMultipleFn_THFTYPE_IiiI ROW) NUMBER) (not (exists ((LESS $$unsorted)) (and (@ (@ tptp.lt_THFTYPE_IiioI LESS) NUMBER) (forall ((ELEMENT $$unsorted)) (=> (@ (@ tptp.inList_THFTYPE_IiioI ELEMENT) (@ tptp.lListFn_THFTYPE_IiiI ROW)) (= (@ (@ tptp.lRemainderFn_THFTYPE_IiiiI LESS) ELEMENT) tptp.n0_THFTYPE_i)))))))))
% 2.18/2.70  (assert (forall ((WEEK $$unsorted) (DAY1 $$unsorted) (DAY2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DAY1) tptp.lWednesday_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI DAY2) tptp.lThursday_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI WEEK) tptp.lWeek_THFTYPE_i) (@ (@ tptp.temporalPart_THFTYPE_IiioI DAY1) WEEK) (@ (@ tptp.temporalPart_THFTYPE_IiioI DAY2) WEEK)) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI DAY1) DAY2))))
% 2.18/2.70  (assert (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lNakedPromise_THFTYPE_i) tptp.lContract_THFTYPE_i))
% 2.18/2.70  (assert (forall ((AGENT $$unsorted) (FORMULA1 Bool) (FORMULA2 Bool)) (=> (@ (@ (@ tptp.prefers_THFTYPE_IioooI AGENT) FORMULA1) FORMULA2) (not (and (@ (@ tptp.truth_THFTYPE_IoooI FORMULA1) true) (@ (@ tptp.truth_THFTYPE_IoooI FORMULA2) true))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTimeInterval_THFTYPE_i) tptp.lTimePosition_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGrabbing_THFTYPE_i) tptp.lAttaching_THFTYPE_i))
% 2.18/2.70  (assert (forall ((COLL $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (and (@ (@ tptp.member_THFTYPE_IiioI OBJ1) COLL) (@ (@ tptp.member_THFTYPE_IiioI OBJ2) COLL) (not (= OBJ1 OBJ2))) (not (@ (@ tptp.overlapsSpatially_THFTYPE_IiioI OBJ1) OBJ2)))))
% 2.18/2.70  (assert (forall ((NODE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI NODE) tptp.lGraphNode_THFTYPE_i) (exists ((OTHER $$unsorted) (ARC $$unsorted)) (@ (@ (@ tptp.links_THFTYPE_IiiioI NODE) OTHER) ARC)))))
% 2.18/2.70  (assert (forall ((CLASS $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI CLASS) tptp.lMutuallyDisjointClass_THFTYPE_i) (forall ((INST1 $$unsorted) (INST2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI INST1) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI INST2) INST1)) (exists ((INST3 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI INST3) CLASS) (not (@ (@ tptp.instance_THFTYPE_IiioI INST2) INST3)))))))))
% 2.18/2.70  (assert (forall ((MONTH1 $$unsorted) (MONTH2 $$unsorted) (YEAR $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MONTH1) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lFebruary_THFTYPE_i) YEAR)) (@ (@ tptp.instance_THFTYPE_IiioI MONTH2) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lMarch_THFTYPE_i) YEAR))) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI MONTH1) MONTH2))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (PATH $$unsorted) (NUMBER2 $$unsorted) (NODE1 $$unsorted) (NUMBER1 $$unsorted) (NODE2 $$unsorted)) (=> (and (= (@ (@ tptp.lMinimalWeightedPathFn_THFTYPE_IiiiI NODE1) NODE2) PATH) (= (@ tptp.lPathWeightFn_THFTYPE_IiiI PATH) NUMBER)) (forall ((PATH2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PATH2) (@ (@ tptp.lGraphPathFn_THFTYPE_IiiiI NODE1) NODE2)) (= (@ tptp.lPathWeightFn_THFTYPE_IiiI PATH2) NUMBER2)) (@ (@ tptp.gtet_THFTYPE_IiioI NUMBER2) NUMBER1))))))
% 2.18/2.70  (assert (forall ((SUBPROC $$unsorted) (PROC $$unsorted)) (=> (@ (@ tptp.subProcess_THFTYPE_IiioI SUBPROC) PROC) (forall ((REGION $$unsorted)) (=> (@ (@ tptp.located_THFTYPE_IiioI PROC) REGION) (@ (@ tptp.located_THFTYPE_IiioI SUBPROC) REGION))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBodySubstance_THFTYPE_i) tptp.lSubstance_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCelsiusDegree_THFTYPE_i) tptp.lTemperatureMeasure_THFTYPE_i))
% 2.18/2.70  (assert (forall ((SUBPROC $$unsorted) (PROC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lProcess_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI SUBPROC) PROC)) (exists ((TIME $$unsorted)) (@ (@ tptp.time_THFTYPE_IiioI SUBPROC) TIME)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDevelopmentalAttribute_THFTYPE_i) tptp.lBiologicalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lIsland_THFTYPE_i) tptp.lLandArea_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CLASS $$unsorted) (FUNCTION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI FUNCTION) tptp.lCommutativeFunction_THFTYPE_i) (forall ((INST1 $$unsorted) (INST2 $$unsorted)) (let ((_let_1 (@ tptp.lAssignmentFn_THFTYPE_IiiiiI FUNCTION))) (=> (and (@ (@ (@ tptp.domain_THFTYPE_IiiioI FUNCTION) tptp.n1_THFTYPE_i) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI INST1) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI INST2) CLASS)) (= (@ (@ _let_1 INST1) INST2) (@ (@ _let_1 INST2) INST1))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRequesting_THFTYPE_i) tptp.lDirecting_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lOrganicObject_THFTYPE_i) tptp.lOrganism_THFTYPE_i) tptp.lAnatomicalStructure_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (PROCESS $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PROCESS) tptp.lStateChange_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI PROCESS) OBJ)) (exists ((PART $$unsorted) (STATE1 $$unsorted) (STATE2 $$unsorted)) (let ((_let_1 (@ tptp.attribute_THFTYPE_IiioI PART))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI PROCESS))) (and (@ (@ tptp.part_THFTYPE_IiioI PART) OBJ) (@ (@ tptp.instance_THFTYPE_IiioI STATE1) tptp.lPhysicalState_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI STATE2) tptp.lPhysicalState_THFTYPE_i) (not (= STATE1 STATE2)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (@ _let_1 STATE1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (@ _let_1 STATE2)))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnitOfAngularMeasure_THFTYPE_i) tptp.lNonCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTemporaryResidence_THFTYPE_i) tptp.lResidence_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) tptp.lNear_THFTYPE_i) (not (@ (@ tptp.connected_THFTYPE_IiioI OBJ1) OBJ2)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBodyJunction_THFTYPE_i) tptp.lBodyPart_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (PRED1 $$unsorted) (PRED2 $$unsorted)) (=> (and (@ (@ tptp.subrelation_THFTYPE_IiioI PRED1) PRED2) (@ (@ tptp.valence_THFTYPE_IiioI PRED1) NUMBER)) (@ (@ tptp.valence_THFTYPE_IiioI PRED2) NUMBER))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSuspension_THFTYPE_i) tptp.lLiquidMixture_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnitOfDuration_THFTYPE_i) tptp.lNonCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (forall ((BODY $$unsorted) (ORG $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI BODY) tptp.lReproductiveBody_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI BODY) ORG) (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lOrganism_THFTYPE_i)) (@ (@ tptp.attribute_THFTYPE_IiioI ORG) tptp.lFemale_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lJune_THFTYPE_i) tptp.lMonth_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (let ((_let_1 (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ2) OBJ1))) (= (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) tptp.lBelow_THFTYPE_i) (or (@ _let_1 tptp.lOn_THFTYPE_i) (@ _let_1 tptp.lAbove_THFTYPE_i))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lReading_THFTYPE_i) tptp.lContentDevelopment_THFTYPE_i))
% 2.18/2.70  (assert (forall ((E2 $$unsorted) (ATT $$unsorted) (E1 $$unsorted)) (=> (@ (@ (@ tptp.greaterThanByQuality_THFTYPE_IiiioI E1) E2) ATT) (not (= E2 E1)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSentence_THFTYPE_i) tptp.lLinguisticExpression_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInvalidDeductiveArgument_THFTYPE_i) tptp.lDeductiveArgument_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNormativeAttribute_THFTYPE_i) tptp.lRelationalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPseudoGraph_THFTYPE_i) tptp.lGraph_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAbstract_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGland_THFTYPE_i) tptp.lOrgan_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CLASS $$unsorted) (PRED1 $$unsorted) (PRED2 $$unsorted)) (=> (and (@ (@ tptp.subrelation_THFTYPE_IiioI PRED1) PRED2) (@ (@ tptp.instance_THFTYPE_IiioI PRED2) CLASS) (@ (@ tptp.subclass_THFTYPE_IiioI CLASS) tptp.lInheritableRelation_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI PRED1) CLASS))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lFootLength_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n0dot3048_THFTYPE_i)) tptp.lMeter_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFrequencyMeasure_THFTYPE_i) tptp.lTimeDependentQuantity_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted) (OBJ3 $$unsorted)) (= (@ (@ (@ tptp.connects_THFTYPE_IiiioI OBJ1) OBJ2) OBJ3) (@ (@ (@ tptp.between_THFTYPE_IiiioI OBJ2) OBJ1) OBJ3))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (QUANT $$unsorted) (UNIT $$unsorted)) (=> (and (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) UNIT) QUANT) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfTemperature_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI QUANT) tptp.lTemperatureMeasure_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnaryConstantFunctionQuantity_THFTYPE_i) tptp.lFunctionQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCarbohydrate_THFTYPE_i) tptp.lNutrient_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lComplexNumber_THFTYPE_i) tptp.lNumber_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER2 $$unsorted) (NUMBER1 $$unsorted)) (= (@ (@ tptp.ltet_THFTYPE_IiioI NUMBER1) NUMBER2) (or (= NUMBER1 NUMBER2) (@ (@ tptp.lt_THFTYPE_IiioI NUMBER1) NUMBER2)))))
% 2.18/2.70  (assert (forall ((ARTIFACT $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI ARTIFACT) tptp.lArtifact_THFTYPE_i) (exists ((MAKING $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI MAKING) tptp.lMaking_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI MAKING) ARTIFACT))))))
% 2.18/2.70  (assert (forall ((CLASS1 $$unsorted) (CLASS2 $$unsorted)) (=> (@ (@ tptp.subsumesContentClass_THFTYPE_IiioI CLASS1) CLASS2) (forall ((OBJ2 $$unsorted) (INFO Bool)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ2) CLASS2) (@ (@ tptp.containsInformation_THFTYPE_IiooI OBJ2) INFO)) (exists ((OBJ1 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ1) CLASS1) (@ (@ tptp.containsInformation_THFTYPE_IiooI OBJ1) INFO))))))))
% 2.18/2.70  (assert (forall ((TIME2 $$unsorted) (TIME1 $$unsorted)) (=> (= (@ (@ tptp.lRelativeTimeFn_THFTYPE_IiiiI TIME1) tptp.lMountainTimeZone_THFTYPE_i) TIME2) (= TIME2 (@ (@ tptp.plus_THFTYPE_IiiiI TIME1) tptp.n7_THFTYPE_i)))))
% 2.18/2.70  (assert (forall ((REQUEST $$unsorted) (FORMULA Bool) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI REQUEST) tptp.lRequesting_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI REQUEST) AGENT) (@ (@ tptp.patient_THFTYPE_IiooI REQUEST) FORMULA) (@ (@ tptp.instance_THFTYPE_IoioI FORMULA) tptp.lFormula_THFTYPE_i)) (@ (@ tptp.desires_THFTYPE_IiooI AGENT) FORMULA))))
% 2.18/2.70  (assert (forall ((ATTR $$unsorted) (THING $$unsorted)) (=> (and (@ (@ tptp.property_THFTYPE_IiioI THING) ATTR) (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lContestAttribute_THFTYPE_i)) (exists ((CONTEST $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI CONTEST) tptp.lContest_THFTYPE_i) (or (@ (@ tptp.agent_THFTYPE_IiioI CONTEST) THING) (@ (@ tptp.patient_THFTYPE_IiioI CONTEST) THING) (@ (@ tptp.subProcess_THFTYPE_IiioI THING) CONTEST)))))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (NUMBER2 $$unsorted) (NUMBER1 $$unsorted)) (= (= (@ (@ tptp.lRemainderFn_THFTYPE_IiiiI NUMBER1) NUMBER2) NUMBER) (= (@ (@ tptp.plus_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI (@ tptp.lFloorFn_THFTYPE_IiiI (@ (@ tptp.div_THFTYPE_IiiiI NUMBER1) NUMBER2))) NUMBER2)) NUMBER) NUMBER1))))
% 2.18/2.70  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lHumanLanguage_THFTYPE_i) tptp.lSpokenHumanLanguage_THFTYPE_i) tptp.lManualHumanLanguage_THFTYPE_i))
% 2.18/2.70  (assert (forall ((WEEK $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI WEEK) tptp.lWeek_THFTYPE_i) (= (@ tptp.lCardinalityFn_THFTYPE_IiiI (@ (@ tptp.lTemporalCompositionFn_THFTYPE_IiiiI WEEK) tptp.lDay_THFTYPE_i)) tptp.n7_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lContentBearingPhysical_THFTYPE_i) (exists ((THING $$unsorted)) (@ (@ tptp.represents_THFTYPE_IiioI OBJ) THING)))))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (VIRUS $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI VIRUS) tptp.lVirus_THFTYPE_i) (@ (@ tptp.inhabits_THFTYPE_IiioI VIRUS) OBJ)) (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lOrganism_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((ORG $$unsorted) (PROC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lBiologicalProcess_THFTYPE_i) (@ (@ tptp.experiencer_THFTYPE_IiioI PROC) ORG)) (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lOrganism_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((POINT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI POINT) tptp.lTimePoint_THFTYPE_i) (not (= POINT tptp.lPositiveInfinity_THFTYPE_i))) (@ (@ tptp.before_THFTYPE_IiioI POINT) tptp.lPositiveInfinity_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lContentBearingObject_THFTYPE_i) tptp.lCorpuscularObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGesture_THFTYPE_i) tptp.lCommunication_THFTYPE_i))
% 2.18/2.70  (assert (forall ((AGENT $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lAgent_THFTYPE_i) (exists ((PROC $$unsorted)) (@ (@ tptp.agent_THFTYPE_IiioI PROC) AGENT)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPlantSubstance_THFTYPE_i) tptp.lBodySubstance_THFTYPE_i))
% 2.18/2.70  (assert (forall ((INT2 $$unsorted) (INT1 $$unsorted)) (=> (= (@ tptp.lSuccessorFn_THFTYPE_IiiI INT1) (@ tptp.lSuccessorFn_THFTYPE_IiiI INT2)) (= INT1 INT2))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lHominid_THFTYPE_i) tptp.lPrimate_THFTYPE_i))
% 2.18/2.70  (assert (forall ((Y $$unsorted) (YEAR $$unsorted) (MONTH $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI Y))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MONTH) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lFebruary_THFTYPE_i) YEAR)) (@ _let_1 YEAR) (not (@ _let_1 tptp.lLeapYear_THFTYPE_i))) (@ (@ tptp.duration_THFTYPE_IiioI MONTH) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n28_THFTYPE_i) tptp.lDayDuration_THFTYPE_i))))))
% 2.18/2.70  (assert (forall ((COOPERATE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI COOPERATE) tptp.lCooperation_THFTYPE_i) (exists ((PURP Bool)) (forall ((AGENT $$unsorted)) (=> (@ (@ tptp.agent_THFTYPE_IiioI COOPERATE) AGENT) (@ (@ (@ tptp.hasPurposeForAgent_THFTYPE_IioioI COOPERATE) PURP) AGENT)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOrganism_THFTYPE_i) tptp.lOrganicObject_THFTYPE_i))
% 2.18/2.70  (assert (forall ((DECISION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DECISION) tptp.lLegalDecision_THFTYPE_i) (exists ((DECIDE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI DECIDE) tptp.lDeciding_THFTYPE_i) (@ (@ tptp.earlier_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI DECIDE)) (@ tptp.lWhenFn_THFTYPE_IiiI DECISION)))))))
% 2.18/2.70  (assert (forall ((WEEK $$unsorted) (DAY1 $$unsorted) (DAY2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DAY1) tptp.lFriday_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI DAY2) tptp.lSaturday_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI WEEK) tptp.lWeek_THFTYPE_i) (@ (@ tptp.temporalPart_THFTYPE_IiioI DAY1) WEEK) (@ (@ tptp.temporalPart_THFTYPE_IiioI DAY2) WEEK)) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI DAY1) DAY2))))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lLeastCommonMultipleFn_THFTYPE_i) tptp.lInteger_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lQuaternaryRelation_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((FORMULA Bool) (AGENT $$unsorted)) (=> (@ (@ tptp.knows_THFTYPE_IiooI AGENT) FORMULA) (@ (@ tptp.truth_THFTYPE_IoooI FORMULA) true))))
% 2.18/2.70  (assert (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lBird_THFTYPE_i) tptp.lMammal_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ACT $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ACT) tptp.lOrganizationalProcess_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI ACT) AGENT)) (or (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lOrganization_THFTYPE_i) (exists ((ORG $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lOrganization_THFTYPE_i) (@ (@ tptp.member_THFTYPE_IiioI AGENT) ORG)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLandTransitway_THFTYPE_i) tptp.lLandArea_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (KILL $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI KILL) tptp.lKilling_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI KILL) OBJ)) (exists ((DEATH $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI DEATH) tptp.lDeath_THFTYPE_i) (@ (@ tptp.experiencer_THFTYPE_IiioI DEATH) OBJ) (@ (@ tptp.causes_THFTYPE_IiioI KILL) DEATH))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTransitiveRelation_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (AGENT $$unsorted) (SEE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI SEE) tptp.lSeeing_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI SEE) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI SEE) OBJ)) (exists ((PROP $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PROP) tptp.lColorAttribute_THFTYPE_i) (@ (@ tptp.knows_THFTYPE_IiooI AGENT) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) PROP)))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDancing_THFTYPE_i) tptp.lBodyMotion_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lParamilitaryOrganization_THFTYPE_i) tptp.lMilitaryForce_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMassMeasure_THFTYPE_i) tptp.lConstantQuantity_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PERSON $$unsorted) (ORG $$unsorted) (FIRE $$unsorted)) (let ((_let_1 (@ (@ tptp.employs_THFTYPE_IiioI ORG) PERSON))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI FIRE))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI FIRE) tptp.lTerminatingEmployment_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lOrganization_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI FIRE) ORG) (@ (@ tptp.patient_THFTYPE_IiioI FIRE) PERSON)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) _let_1) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (not _let_1))))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFactualText_THFTYPE_i) tptp.lText_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGesture_THFTYPE_i) tptp.lBodyMotion_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBinaryNumber_THFTYPE_i) tptp.lRealNumber_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lImaginaryNumber_THFTYPE_i) tptp.lNumber_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNutrient_THFTYPE_i) tptp.lBiologicallyActiveSubstance_THFTYPE_i))
% 2.18/2.70  (assert (forall ((AGENT $$unsorted)) (= (and (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lSentientAgent_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI AGENT) tptp.lLiving_THFTYPE_i)) (exists ((ATTR $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lConsciousnessAttribute_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI AGENT) ATTR))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCommercialService_THFTYPE_i) tptp.lServiceProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lQuantityChange_THFTYPE_i) tptp.lInternalChange_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (GIVE $$unsorted) (AGENT2 $$unsorted) (AGENT1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI GIVE) tptp.lGiving_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI GIVE) AGENT1) (@ (@ tptp.destination_THFTYPE_IiioI GIVE) AGENT2) (@ (@ tptp.instance_THFTYPE_IiioI AGENT2) tptp.lAgent_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI GIVE) OBJ)) (exists ((GET $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI GET) tptp.lGetting_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI GET) AGENT2) (@ (@ tptp.origin_THFTYPE_IiioI GET) AGENT1) (@ (@ tptp.patient_THFTYPE_IiioI GET) OBJ))))))
% 2.18/2.70  (assert (forall ((MOVE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MOVE) tptp.lManeuver_THFTYPE_i) (exists ((CONTEST $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI CONTEST) tptp.lContest_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI MOVE) CONTEST))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lVolumeMeasure_THFTYPE_i) tptp.lFunctionQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDisseminating_THFTYPE_i) tptp.lCommunication_THFTYPE_i))
% 2.18/2.70  (assert (forall ((AGENT $$unsorted) (BIRTH $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI BIRTH) tptp.lBirth_THFTYPE_i) (@ (@ tptp.experiencer_THFTYPE_IiioI BIRTH) AGENT)) (exists ((DEATH $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI DEATH) tptp.lDeath_THFTYPE_i) (@ (@ tptp.experiencer_THFTYPE_IiioI DEATH) AGENT))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSmoke_THFTYPE_i) tptp.lCloud_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRoadway_THFTYPE_i) tptp.lLandTransitway_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLengthMeasure_THFTYPE_i) tptp.lConstantQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTernaryPredicate_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 2.18/2.70  (assert (forall ((CP $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI CP) tptp.lComputerProgramming_THFTYPE_i) (exists ((C $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI C) tptp.lComputerProgram_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI CP) C))))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI NUMBER) tptp.lOddInteger_THFTYPE_i) (= (@ (@ tptp.lRemainderFn_THFTYPE_IiiiI NUMBER) tptp.n2_THFTYPE_i) tptp.n1_THFTYPE_i))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lQuintaryPredicate_THFTYPE_i) tptp.lPredicate_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (QUANT $$unsorted) (UNIT $$unsorted)) (=> (and (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) UNIT) QUANT) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfLength_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI QUANT) tptp.lLengthMeasure_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((VALUE $$unsorted) (ITEM $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI ITEM))) (=> (and (@ (@ tptp.property_THFTYPE_IiioI ITEM) VALUE) (@ (@ tptp.instance_THFTYPE_IiioI VALUE) tptp.lTruthValue_THFTYPE_i)) (or (@ _let_1 tptp.lSentence_THFTYPE_i) (@ _let_1 tptp.lProposition_THFTYPE_i))))))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted) (CLASS $$unsorted) (REL (-> $$unsorted Bool)) (ROW $$unsorted)) (=> (and (@ (@ (@ tptp.domain_THFTYPE_IIioIiioI REL) NUMBER) CLASS) (@ REL ROW)) (@ (@ tptp.instance_THFTYPE_IiioI (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI (@ tptp.lListFn_THFTYPE_IiiI ROW)) NUMBER)) CLASS))))
% 2.18/2.70  (assert (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lUnconscious_THFTYPE_i) tptp.lAwake_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lMillimeter_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n0dot001_THFTYPE_i)) tptp.lMeter_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNegativeInteger_THFTYPE_i) tptp.lInteger_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lGreatestCommonDivisorFn_THFTYPE_i) tptp.lInteger_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lPicoFn_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lProduct_THFTYPE_i) tptp.lArtifact_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lRelativeComplementFn_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.70  (assert (forall ((STUFF $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI STUFF) tptp.lTissue_THFTYPE_i) (exists ((ORGANISM $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ORGANISM) tptp.lOrganism_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI STUFF) ORGANISM))))))
% 2.18/2.70  (assert (forall ((CLASS1 $$unsorted) (REL $$unsorted) (CLASS2 $$unsorted)) (let ((_let_1 (@ tptp.range_THFTYPE_IiioI REL))) (=> (and (@ _let_1 CLASS1) (@ _let_1 CLASS2)) (or (@ (@ tptp.subclass_THFTYPE_IiioI CLASS1) CLASS2) (@ (@ tptp.subclass_THFTYPE_IiioI CLASS2) CLASS1))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lArtificialLanguage_THFTYPE_i) tptp.lLanguage_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lResidentialBuilding_THFTYPE_i) tptp.lBuilding_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMineral_THFTYPE_i) tptp.lSubstance_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lSolution_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) tptp.lLiquid_THFTYPE_i))))
% 2.18/2.70  (assert (forall ((TIME $$unsorted) (ATTR $$unsorted) (ORGANISM $$unsorted)) (let ((_let_1 (@ tptp.attribute_THFTYPE_IiioI ORGANISM))) (let ((_let_2 (@ tptp.holdsDuring_THFTYPE_IiooI TIME))) (=> (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lPsychologicalAttribute_THFTYPE_i) (=> (@ _let_2 (@ _let_1 ATTR)) (@ _let_2 (@ _let_1 tptp.lLiving_THFTYPE_i))))))))
% 2.18/2.70  (assert (forall ((PROPOSITION Bool) (AGENT $$unsorted) (JUDGE $$unsorted)) (let ((_let_1 (@ (@ tptp.believes_THFTYPE_IiooI AGENT) PROPOSITION))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI JUDGE))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI JUDGE) tptp.lJudging_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI JUDGE) AGENT) (@ (@ tptp.patient_THFTYPE_IiooI JUDGE) PROPOSITION)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (not _let_1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) _let_1)))))))
% 2.18/2.70  (assert (forall ((AGENT $$unsorted)) (let ((_let_1 (@ tptp.attribute_THFTYPE_IiioI AGENT))) (=> (or (@ _let_1 tptp.lAsleep_THFTYPE_i) (@ _let_1 tptp.lAwake_THFTYPE_i)) (@ _let_1 tptp.lLiving_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWoman_THFTYPE_i) tptp.lHuman_THFTYPE_i))
% 2.18/2.70  (assert (forall ((TIME $$unsorted) (FORMULA Bool) (ENTITY $$unsorted) (NORM $$unsorted)) (let ((_let_1 (@ (@ tptp.modalAttribute_THFTYPE_IoioI FORMULA) NORM))) (=> (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ (@ tptp.confersNorm_THFTYPE_IioioI ENTITY) FORMULA) NORM)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lImmediatePastFn_THFTYPE_IiiI TIME)) (not _let_1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lImmediateFutureFn_THFTYPE_IiiI TIME)) _let_1))))))
% 2.18/2.70  (assert (forall ((WEEK $$unsorted) (DAY1 $$unsorted) (DAY2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DAY1) tptp.lMonday_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI DAY2) tptp.lTuesday_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI WEEK) tptp.lWeek_THFTYPE_i) (@ (@ tptp.temporalPart_THFTYPE_IiioI DAY1) WEEK) (@ (@ tptp.temporalPart_THFTYPE_IiioI DAY2) WEEK)) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI DAY1) DAY2))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRadiating_THFTYPE_i) tptp.lMotion_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (TIME $$unsorted) (AGENT2 $$unsorted) (AGENT1 $$unsorted)) (let ((_let_1 (@ tptp.holdsDuring_THFTYPE_IiooI TIME))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TIME) tptp.lTimePosition_THFTYPE_i) (@ _let_1 (@ (@ tptp.possesses_THFTYPE_IiioI AGENT1) OBJ)) (@ _let_1 (@ (@ tptp.possesses_THFTYPE_IiioI AGENT2) OBJ))) (= AGENT1 AGENT2)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSunday_THFTYPE_i) tptp.lDay_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PROC2 $$unsorted) (PROC1 $$unsorted)) (=> (@ (@ tptp.inhibits_THFTYPE_IiioI PROC1) PROC2) (forall ((TIME $$unsorted) (PLACE $$unsorted)) (let ((_let_1 (@ tptp.holdsDuring_THFTYPE_IiooI TIME))) (@ (@ tptp.decreasesLikelihood_THFTYPE_IoooI (@ _let_1 (exists ((INST1 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI INST1) PROC1) (@ (@ tptp.located_THFTYPE_IiioI INST1) PLACE))))) (@ _let_1 (exists ((INST2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI INST2) PROC2) (@ (@ tptp.located_THFTYPE_IiioI INST2) PLACE))))))))))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (HOLE2 $$unsorted) (HOLE1 $$unsorted)) (=> (and (@ (@ tptp.fills_THFTYPE_IiioI OBJ) HOLE1) (@ (@ tptp.properPart_THFTYPE_IiioI HOLE2) HOLE1)) (@ (@ tptp.completelyFills_THFTYPE_IiioI OBJ) HOLE2))))
% 2.18/2.70  (assert (forall ((EVENT $$unsorted) (AGENT $$unsorted) (AREA $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI EVENT))) (=> (and (@ _let_1 tptp.lElection_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI EVENT) AGENT) (@ (@ tptp.instance_THFTYPE_IiioI AREA) tptp.lGeopoliticalArea_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI AGENT) (@ tptp.lGovernmentFn_THFTYPE_IiiI AREA))) (@ _let_1 tptp.lPoliticalProcess_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInternalAttribute_THFTYPE_i) tptp.lAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSocialInteraction_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInvestigating_THFTYPE_i) tptp.lIntentionalPsychologicalProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMay_THFTYPE_i) tptp.lMonth_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPredicate_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAgeGroup_THFTYPE_i) tptp.lGroupOfPeople_THFTYPE_i))
% 2.18/2.70  (assert (forall ((FORMULA Bool) (AGENT $$unsorted) (STATE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI STATE) tptp.lStating_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI STATE) AGENT) (@ (@ tptp.patient_THFTYPE_IiooI STATE) FORMULA) (@ (@ tptp.instance_THFTYPE_IoioI FORMULA) tptp.lFormula_THFTYPE_i)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI STATE)) (@ (@ tptp.believes_THFTYPE_IiooI AGENT) FORMULA)))))
% 2.18/2.70  (assert (forall ((DEVICE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DEVICE) tptp.lTransportationDevice_THFTYPE_i) (@ (@ (@ tptp.capability_THFTYPE_IiIiioIioI tptp.lTransportation_THFTYPE_i) tptp.instrument_THFTYPE_IiioI) DEVICE))))
% 2.18/2.70  (assert (forall ((VOTE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI VOTE) tptp.lVoting_THFTYPE_i) (exists ((ELECT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ELECT) tptp.lElection_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI VOTE) ELECT))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFreezing_THFTYPE_i) tptp.lStateChange_THFTYPE_i))
% 2.18/2.70  (assert (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lKilometer_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n1000_THFTYPE_i)) tptp.lMeter_THFTYPE_i)))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lValidDeductiveArgument_THFTYPE_i) tptp.lDeductiveArgument_THFTYPE_i))
% 2.18/2.70  (assert (forall ((PROCESS $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PROCESS) tptp.lPrecipitation_THFTYPE_i) (exists ((STUFF $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI STUFF) tptp.lWater_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI PROCESS) STUFF))))))
% 2.18/2.70  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBinaryPredicate_THFTYPE_i) tptp.lPredicate_THFTYPE_i))
% 2.18/2.70  (assert (forall ((OBJ $$unsorted) (PROCESS $$unsorted)) (=> (@ (@ tptp.located_THFTYPE_IiioI PROCESS) OBJ) (forall ((SUB $$unsorted)) (=> (@ (@ tptp.subProcess_THFTYPE_IiioI SUB) PROCESS) (@ (@ tptp.located_THFTYPE_IiioI SUB) OBJ))))))
% 2.18/2.70  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ tptp.interiorPart_THFTYPE_IiioI OBJ1) OBJ2) (forall ((PART $$unsorted)) (=> (@ (@ tptp.superficialPart_THFTYPE_IiioI PART) OBJ2) (not (@ (@ tptp.overlapsSpatially_THFTYPE_IiioI OBJ1) PART)))))))
% 2.18/2.70  (assert (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lDry_THFTYPE_i) tptp.lDamp_THFTYPE_i))
% 2.18/2.70  (assert (forall ((ITEM $$unsorted) (LIST $$unsorted)) (=> (@ (@ tptp.inList_THFTYPE_IiioI ITEM) LIST) (exists ((NUMBER $$unsorted)) (= (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST) NUMBER) ITEM)))))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lMereologicalProductFn_THFTYPE_IiiiI) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.containsInformation_THFTYPE_IiooI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.cooccur_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lDivisionFn_THFTYPE_IiiiI) tptp.lRelationExtendedToQuantities_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.partiallyFills_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMinFn_THFTYPE_i) tptp.lAssociativeFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lCutSetFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.uses_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIoooIioI tptp.causesProposition_THFTYPE_IoooI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lMereologicalProductFn_THFTYPE_IiiiI) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.geometricPart_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lGeometricFigure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.earlier_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiIiioIoI tptp.relatedExternalConcept_THFTYPE_i) tptp.relatedInternalConcept_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.version_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSuccessorFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.desires_THFTYPE_IiooI) tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiiIiioI tptp.lEditionFn_THFTYPE_IiiiI) tptp.n2_THFTYPE_i) tptp.lPositiveInteger_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.starts_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.hasPurpose_THFTYPE_IiooI) tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.multiplicativeFactor_THFTYPE_IiioI) tptp.lTransitiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.exploits_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lUnilateralGetting_THFTYPE_i) tptp.lUnilateralGiving_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lFahrenheitDegree_THFTYPE_i) tptp.lUnitOfTemperature_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.temporalPart_THFTYPE_IiioI) tptp.lPartialOrderingRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lGray_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.part_THFTYPE_IiioI) tptp.lPartialOrderingRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiIiiiIoI tptp.lSecond_THFTYPE_i) tptp.lSecondFn_THFTYPE_IiiiI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.version_THFTYPE_IiioI) tptp.lTransitiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.geographicSubregion_THFTYPE_i) tptp.lTransitiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.causes_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiiiiioIioI tptp.exhaustiveAttribute_THFTYPE_IiiiiiioI) tptp.lPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.subOrganization_THFTYPE_IiioI) tptp.lPartialOrderingRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lPowerSetFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IiIiioIoI tptp.geographicSubregion_THFTYPE_i) tptp.located_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.precondition_THFTYPE_IiioI) tptp.lTransitiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.spouse_THFTYPE_IiioI) tptp.lSymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.causes_THFTYPE_IiioI) tptp.relatedEvent_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIooIiioI tptp.lPremisesFn_THFTYPE_IooI) tptp.n1_THFTYPE_i) tptp.lArgument_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIoioIioI tptp.holdsObligation_THFTYPE_IoioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoooIiioI tptp.consistent_THFTYPE_IoooI) tptp.n2_THFTYPE_i) tptp.lProposition_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.between_THFTYPE_IiiioI) tptp.lTernaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lKiloFn_THFTYPE_i) tptp.lUnitOfMeasureMultiplier_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lCentimeter_THFTYPE_i) tptp.lUnitOfLength_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.refers_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.wife_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.exploits_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.sibling_THFTYPE_IiioI) tptp.familyRelation_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.subsumesContentInstance_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lContentBearingObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lRemainderFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.earlier_THFTYPE_IiioI) tptp.lTemporalRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.part_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.finishes_THFTYPE_IiioI) tptp.temporalPart_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lAdditionFn_THFTYPE_IiiiI) tptp.lCommutativeFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.multiplicativeFactor_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lInteger_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.grasps_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMmMercury_THFTYPE_i) tptp.lUnitOfAtmosphericPressure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lDensityFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lVolumeMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIoioIIiioIoI tptp.modalAttribute_THFTYPE_IoioI) tptp.property_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.closedOn_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.domain_THFTYPE_IiiioI) tptp.n3_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.geopoliticalSubdivision_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lGeopoliticalArea_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSeriesVolumeFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lMaximalWeightedPathFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lGraphNode_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lSignumFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.exploits_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lSpeedFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lTimeDuration_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.subSystem_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lPhysicalSystem_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.temporallyBetween_THFTYPE_IiiioI) tptp.n3_THFTYPE_i) tptp.lTimePoint_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiiiIiioI tptp.lSecondFn_THFTYPE_IiiiI) tptp.n2_THFTYPE_i) tptp.lMinute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.meetsTemporally_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIoiIioI tptp.lProbabilityFn_THFTYPE_IoiI) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.expressedInLanguage_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiIiioIoI tptp.lChangeOfPossession_THFTYPE_i) tptp.possesses_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lExtensionFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.engineeringSubcomponent_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lEngineeringComponent_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.subclass_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.relatedInternalConcept_THFTYPE_IiioI) tptp.lEquivalenceRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lPredecessorFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lInteger_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.earlier_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.causes_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.precondition_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lSignumFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lRealNumber_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.identityElement_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lMagnitudeFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lPhysicalQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.superficialPart_THFTYPE_IiioI) tptp.lTransitiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lRadian_THFTYPE_i) tptp.lUnitOfAngularMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.successorAttributeClosure_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiIiiiIoI tptp.lIntervalFn_THFTYPE_i) tptp.lRecurrentTimeIntervalFn_THFTYPE_IiiiI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSubtractionFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoooIiioI tptp.causesProposition_THFTYPE_IoooI) tptp.n1_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.familyRelation_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.agent_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lAgent_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiiIiioI tptp.lListOrderFn_THFTYPE_IiiiI) tptp.n1_THFTYPE_i) tptp.lList_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.properPart_THFTYPE_IiioI) tptp.part_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.fills_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.mother_THFTYPE_IiioI) tptp.lSingleValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lRelativeTimeFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lTimeZone_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.height_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lLengthMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lTerminalNodeFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lWhenFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiiiIiioI tptp.lRecurrentTimeIntervalFn_THFTYPE_IiiiI) tptp.n1_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiooIoI tptp.wants_THFTYPE_IiioI) tptp.desires_THFTYPE_IiooI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lDayFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiiIiioI tptp.lAdditionFn_THFTYPE_IiiiI) tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lLumen_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIiioIioIiioI tptp.equivalenceRelationOn_THFTYPE_IIiioIioI) tptp.n2_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiiiioIoI tptp.exhaustiveDecomposition_THFTYPE_IiioI) tptp.partition_THFTYPE_IiiiioI))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiiioIIiiioIoI tptp.altitude_THFTYPE_IiiioI) tptp.distance_THFTYPE_IiiioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.traverses_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.meltingPoint_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lTemperatureMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.successorAttribute_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.transactionAmount_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lCurrencyMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.top_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.identityElement_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lPastFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lTimePosition_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiioIoI tptp.member_THFTYPE_IiioI) tptp.element_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lFrontFn_THFTYPE_i) tptp.lSpatialRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoooIiioI tptp.premise_THFTYPE_IoooI) tptp.n1_THFTYPE_i) tptp.lArgument_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.width_THFTYPE_IiioI) tptp.linearExtent_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.desires_THFTYPE_IiooI) tptp.n1_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.possesses_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.realization_THFTYPE_IiooI) tptp.n2_THFTYPE_i) tptp.lProposition_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIoooIioI tptp.decreasesLikelihood_THFTYPE_IoooI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lWhite_THFTYPE_i) tptp.lPrimaryColor_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lDayFn_THFTYPE_i) tptp.lTemporalRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSubtractionFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.penetrates_THFTYPE_IiioI) tptp.meetsSpatially_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.publishes_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lText_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lRankineDegree_THFTYPE_i) tptp.lUnitOfTemperature_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lMaximalWeightedPathFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lGraphNode_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.greaterThanOrEqualTo_THFTYPE_IiioI) tptp.lRelationExtendedToQuantities_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.citizen_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lNation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lVelocityFn_THFTYPE_i) tptp.n4_THFTYPE_i) tptp.lDirectionalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.component_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lCorpuscularObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiiioIioI tptp.partition_THFTYPE_IiiiioI) tptp.lVariableArityRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.familyRelation_THFTYPE_IiioI) tptp.lEquivalenceRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lFlammable_THFTYPE_i) tptp.lPhysicalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.desires_THFTYPE_IiooI) tptp.lPropositionalAttitude_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lTeraFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lPredecessorFn_THFTYPE_IiiI) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lMultiplicationFn_THFTYPE_IiiiI) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.authors_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lAgent_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.equivalentContentClass_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lContentBearingObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.possesses_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.orientation_THFTYPE_IiiioI) tptp.lTernaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.lessThanOrEqualTo_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.interiorPart_THFTYPE_IiioI) tptp.lTransitiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.occupiesPosition_THFTYPE_IiiioI) tptp.lTernaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.traverses_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lIntervalFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.barometricPressure_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.leader_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.disjoint_THFTYPE_IiioI) tptp.lSymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lNumeratorFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.links_THFTYPE_IiiioI) tptp.n2_THFTYPE_i) tptp.lGraphNode_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lComplementFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.instrument_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.range_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.greaterThanOrEqualTo_THFTYPE_IiioI) tptp.lPartialOrderingRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.arcWeight_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.completelyFills_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSievert_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIoooIioI tptp.increasesLikelihood_THFTYPE_IoooI) tptp.lProbabilityRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lFutureFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lElectronVolt_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.smaller_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIIiioIIiioIoIioI tptp.inverse_THFTYPE_IIiioIIiioIoI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIIiioIioIioI tptp.totalOrderingOn_THFTYPE_IIiioIioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.bottom_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.ancestor_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lAdjacent_THFTYPE_i) tptp.lSymmetricPositionalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.starts_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.holdsDuring_THFTYPE_IiooI) tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lImmediateFutureFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIioioIiioI tptp.hasPurposeForAgent_THFTYPE_IioioI) tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.barometricPressure_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lUnitOfAtmosphericPressure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lBeginFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.equivalentContentInstance_THFTYPE_IiioI) tptp.lEquivalenceRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lKappaFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.starts_THFTYPE_IiioI) tptp.lTransitiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IiiioI tptp.lMonthFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lMonth_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.disjointRelation_THFTYPE_IiioI tptp.subsumedExternalConcept_THFTYPE_i) tptp.subsumingExternalConcept_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lMereologicalSumFn_THFTYPE_i) tptp.lMereologicalDifferenceFn_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.component_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lCorpuscularObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.properlyFills_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoooIiioI tptp.subProposition_THFTYPE_IoooI) tptp.n2_THFTYPE_i) tptp.lProposition_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIioioIioI tptp.deprivesNorm_THFTYPE_IioioI) tptp.lTernaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lHoleSkinFn_THFTYPE_IiiI) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPerFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.hasPurpose_THFTYPE_IiooI) tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.connectsEngineeringComponents_THFTYPE_IiiioI) tptp.n2_THFTYPE_i) tptp.lEngineeringComponent_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.duration_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.surface_THFTYPE_IiioI) tptp.superficialPart_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.inhibits_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.graphMeasure_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.inhibits_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lAssignmentFn_THFTYPE_i) tptp.lVariableArityRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.finishes_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lWest_THFTYPE_i) tptp.lDirectionalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.radius_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lTeraFn_THFTYPE_IiiI) tptp.lUnitOfMeasureMultiplier_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.wife_THFTYPE_IiioI) tptp.spouse_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lMinute_THFTYPE_i) tptp.lMinuteDuration_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lDayDuration_THFTYPE_i) tptp.lUnitOfDuration_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lRigid_THFTYPE_i) tptp.lInternalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPossibility_THFTYPE_i) tptp.lAlethicAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.pathLength_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lRationalNumberFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lNumber_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.parent_THFTYPE_IiioI) tptp.familyRelation_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.monetaryValue_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIoooIioI tptp.conclusion_THFTYPE_IoooI) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiiiIiioI tptp.lMinuteFn_THFTYPE_IiiiI) tptp.n2_THFTYPE_i) tptp.lHour_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMereologicalDifferenceFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lUnionFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lLeastCommonMultipleFn_THFTYPE_i) tptp.lVariableArityRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIioI tptp.spouse_THFTYPE_IiioI) tptp.mutualAcquaintance_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.origin_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.duration_THFTYPE_IiioI) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.fills_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lKelvinDegree_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.diameter_THFTYPE_IiioI) tptp.lSingleValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lFullyFormed_THFTYPE_i) tptp.lDevelopmentalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.abstractCounterpart_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lAbstract_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.pointOfFigure_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lGeometricPoint_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.starts_THFTYPE_IiioI) tptp.temporalPart_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.boilingPoint_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lPureSubstance_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IiiioI tptp.lMonthFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lYear_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMaxFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.geographicSubregion_THFTYPE_i) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lBelow_THFTYPE_i) tptp.lPositionalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.disjointRelation_THFTYPE_IiioI tptp.synonymousExternalConcept_THFTYPE_i) tptp.subsumingExternalConcept_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.temporalPart_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lTimePosition_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lIntervalFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lConstantQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.employs_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.precondition_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIooioIiioI tptp.conditionalProbability_THFTYPE_IooioI) tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiiIiioI tptp.lMereologicalProductFn_THFTYPE_IiiiI) tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.piece_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lSubstance_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lImmediatePastFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lTimePosition_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lFrontFn_THFTYPE_i) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.grasps_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lAnimal_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lAbstractionFn_THFTYPE_i) tptp.lPartialValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.believes_THFTYPE_IiooI) tptp.lPropositionalAttitude_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IiiioI tptp.lSeriesVolumeFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lSeries_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.wears_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lAnimal_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.distributes_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lKiloFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.containsInformation_THFTYPE_IiooI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.range_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPi_THFTYPE_i) tptp.lPositiveRealNumber_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lCoulomb_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.hole_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.property_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.subAttribute_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lUnionFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lBackFn_THFTYPE_i) tptp.lPartialValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lIncreasing_THFTYPE_i) tptp.lPutting_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lTimeIntervalFn_THFTYPE_IiiiI) tptp.lTemporalRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.inList_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.initialList_THFTYPE_IiioI) tptp.lPartialOrderingRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.subsumesContentClass_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lContentBearingObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiooIIiioIoI tptp.knows_THFTYPE_IiooI) tptp.inScopeOfInterest_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.identicalListItems_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lList_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lBlack_THFTYPE_i) tptp.lPrimaryColor_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIoioIioI tptp.holdsObligation_THFTYPE_IoioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.representsForAgent_THFTYPE_IiiioI) tptp.n3_THFTYPE_i) tptp.lAgent_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.top_THFTYPE_IiioI) tptp.superficialPart_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.relative_THFTYPE_IiioI) tptp.lSymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.subclass_THFTYPE_IiioI) tptp.lPartialOrderingRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiiIioI tptp.lMinimalCutSetFn_THFTYPE_IiiI) tptp.lCutSetFn_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lIntervalFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lConstantQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.transactionAmount_THFTYPE_IiioI) tptp.lSingleValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.geometricPart_THFTYPE_i) tptp.lPartialOrderingRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.experiencer_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lAgent_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.containsInformation_THFTYPE_IiooI) tptp.n1_THFTYPE_i) tptp.lContentBearingPhysical_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.angleOfFigure_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lTwoDimensionalAngle_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.sister_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lHuman_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lAdditionFn_THFTYPE_IiiiI) tptp.lAssociativeFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.partlyLocated_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.relatedExternalConcept_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lSymbolicString_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lHoleHostFn_THFTYPE_IiiI) tptp.lSpatialRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.length_THFTYPE_IiioI) tptp.lSingleValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIioioIioI tptp.hasPurposeForAgent_THFTYPE_IioioI) tptp.lTernaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.inList_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.overlapsTemporally_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiiIiioI tptp.lMinuteFn_THFTYPE_IiiiI) tptp.n1_THFTYPE_i) tptp.lNonnegativeInteger_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lUnitFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lFootLength_THFTYPE_i) tptp.lUnitOfLength_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.disjointRelation_THFTYPE_IIiioIIiioIoI tptp.resource_THFTYPE_IiioI) tptp.result_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.mutualAcquaintance_THFTYPE_i) tptp.lSymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.sibling_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lOrganism_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiiioIIiiioIoI tptp.connectsEngineeringComponents_THFTYPE_IiiioI) tptp.connects_THFTYPE_IiiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIoooIioI tptp.subProposition_THFTYPE_IoooI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSiemens_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.before_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lTimePoint_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIioIioIiioI tptp.valence_THFTYPE_IIioIioI) tptp.n2_THFTYPE_i) tptp.lPositiveInteger_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.involvedInEvent_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lKelvinDegree_THFTYPE_i) tptp.lUnitOfTemperature_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIoiIioI tptp.lProbabilityFn_THFTYPE_IoiI) tptp.lProbabilityRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lTemporalCompositionFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.subclass_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lInch_THFTYPE_i) tptp.lUnitOfLength_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.disjointRelation_THFTYPE_IIiioIIiioIoI tptp.crosses_THFTYPE_IiioI) tptp.connected_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lRelativeTimeFn_THFTYPE_i) tptp.lTemporalRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lGram_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.hasPurpose_THFTYPE_IiooI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.refers_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.inScopeOfInterest_THFTYPE_IiioI) tptp.lIntentionalRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.meetsTemporally_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.radius_THFTYPE_IiioI) tptp.lSingleValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMinFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.grasps_THFTYPE_IiioI) tptp.meetsSpatially_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIiioIioIiioI tptp.totalOrderingOn_THFTYPE_IIiioIioI) tptp.n1_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.hasSkill_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoooIiioI tptp.entails_THFTYPE_IoooI) tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.traverses_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIioooIiioI tptp.prefers_THFTYPE_IioooI) tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.cooccur_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lPhysical_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIoioIioI tptp.modalAttribute_THFTYPE_IoioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lAbove_THFTYPE_i) tptp.lPositionalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lHoleSkinFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.radius_THFTYPE_IiioI) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lEditionFn_THFTYPE_IiiiI) tptp.lPartialValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPastFn_THFTYPE_i) tptp.lTemporalRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.distance_THFTYPE_IiiioI) tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.earlier_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.graphMeasure_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.relatedEvent_THFTYPE_IiioI) tptp.lSymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.graphPart_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lGraphElement_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.familyRelation_THFTYPE_IiioI) tptp.relative_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.mother_THFTYPE_IiioI) tptp.parent_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lWealthFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lListLengthFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lList_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIoooIioI tptp.independentProbability_THFTYPE_IoooI) tptp.lSymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPolychromatic_THFTYPE_i) tptp.lColorAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lCup_THFTYPE_i) tptp.lUnitOfVolume_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lReciprocalFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.spouse_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lHuman_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lGreatestCommonDivisorFn_THFTYPE_i) tptp.lFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiIiooIoI tptp.lContentBearingObject_THFTYPE_i) tptp.containsInformation_THFTYPE_IiooI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.smaller_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiooIoI tptp.result_THFTYPE_IiioI) tptp.patient_THFTYPE_IiooI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSteradian_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.penetrates_THFTYPE_IiioI) tptp.traverses_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.considers_THFTYPE_IiooI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.greaterThan_THFTYPE_IiioI) tptp.lRelationExtendedToQuantities_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lPropertyFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lAgent_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSitting_THFTYPE_i) tptp.lBodyPosition_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIioI tptp.geopoliticalSubdivision_THFTYPE_IiioI) tptp.geographicSubregion_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lImmediateFutureFn_THFTYPE_IiiI) tptp.lTemporalRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.experiencer_THFTYPE_IiioI) tptp.involvedInEvent_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lLeft_THFTYPE_i) tptp.lAntiSymmetricPositionalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.greaterThanByQuality_THFTYPE_IiiioI) tptp.lTernaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.disjointRelation_THFTYPE_IIiioIIiioIoI tptp.meetsSpatially_THFTYPE_IiioI) tptp.overlapsSpatially_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lEast_THFTYPE_i) tptp.lDirectionalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.links_THFTYPE_IiiioI) tptp.lTernaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lMultiplicationFn_THFTYPE_IiiiI) tptp.lRelationExtendedToQuantities_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIiiIioIiioI tptp.relatedInternalConcept_THFTYPE_IIiiIioI) tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.husband_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.geometricDistance_THFTYPE_IiiioI) tptp.lSingleValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.linearExtent_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lLengthMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lBackFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lWeekDuration_THFTYPE_i) tptp.lUnitOfDuration_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lGeneralizedIntersectionFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIooioIiioI tptp.conditionalProbability_THFTYPE_IooioI) tptp.n3_THFTYPE_i) tptp.lRealNumber_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lLogFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lPositiveInteger_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lRadian_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIioioIioI tptp.confersNorm_THFTYPE_IioioI) tptp.lTernaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIioioIiioI tptp.confersNorm_THFTYPE_IioioI) tptp.n3_THFTYPE_i) tptp.lObjectiveNorm_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lRemainderFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIiioIioIiioI tptp.partialOrderingOn_THFTYPE_IIiioIioI) tptp.n2_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.during_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lBackFn_THFTYPE_i) tptp.lSpatialRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.documentation_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lHumanLanguage_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lMultiplicationFn_THFTYPE_IiiiI) tptp.lAssociativeFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIooioIioI tptp.conditionalProbability_THFTYPE_IooioI) tptp.lProbabilityRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lImmediatePastFn_THFTYPE_IiiI) tptp.lTemporalRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.earlier_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lFemale_THFTYPE_i) tptp.lSexAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.greaterThan_THFTYPE_IiioI) tptp.lTransitiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.connects_THFTYPE_IiiioI) tptp.n2_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIiioIioIiioI tptp.reflexiveOn_THFTYPE_IIiioIioI) tptp.n1_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMegaFn_THFTYPE_i) tptp.lUnitOfMeasureMultiplier_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.inScopeOfInterest_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.sibling_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lOrganism_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.developmentalForm_THFTYPE_IiioI) tptp.attribute_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.lessThanOrEqualTo_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lBritishThermalUnit_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lAbsoluteValueFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lRealNumber_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.destination_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lUnionFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.involvedInEvent_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.contains_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lGeneralizedUnionFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.date_THFTYPE_IiioI) tptp.lSingleValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.representsInLanguage_THFTYPE_IiiioI) tptp.lTernaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lHertz_THFTYPE_i) tptp.lUnitOfFrequency_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lLogFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.greaterThanByQuality_THFTYPE_IiiioI) tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.property_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lHorizontal_THFTYPE_i) tptp.lPositionalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiiioIioI tptp.partition_THFTYPE_IiiiioI) tptp.lPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lKiloByte_THFTYPE_i) tptp.lUnitOfInformation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIIoiIioIoI tptp.member_THFTYPE_IiioI) tptp.instance_THFTYPE_IIoiIioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIioIIiioIioIiioI tptp.capability_THFTYPE_IIioIIiioIioI) tptp.n2_THFTYPE_i) tptp.lCaseRole_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.geopoliticalSubdivision_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lGeopoliticalArea_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.precondition_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.pathLength_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lPositiveInteger_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lAssignmentFn_THFTYPE_i) tptp.lFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lAtomGram_THFTYPE_i) tptp.lUnitOfMass_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.wants_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lPhysical_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.linearExtent_THFTYPE_IiioI) tptp.measure_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lReciprocalFn_THFTYPE_IiiI) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lAbsoluteValueFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.successorAttribute_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.inhabits_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMountainTimeZone_THFTYPE_i) tptp.lTimeZone_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.abstractCounterpart_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lPhysical_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.subProcess_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.temporallyBetweenOrEqual_THFTYPE_IiiioI) tptp.lTernaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.connectedEngineeringComponents_THFTYPE_IiioI) tptp.lSymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.angularMeasure_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIioioIiioI tptp.deprivesNorm_THFTYPE_IioioI) tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IiioI tptp.synonymousExternalConcept_THFTYPE_i) tptp.relatedExternalConcept_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.lessThanOrEqualTo_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lHertz_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.husband_THFTYPE_IiioI) tptp.spouse_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.parent_THFTYPE_IiioI) tptp.ancestor_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.larger_THFTYPE_IiioI) tptp.lTransitiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lBackFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPacificTimeZone_THFTYPE_i) tptp.lTimeZone_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.husband_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lWoman_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.lessThan_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.greaterThan_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.range_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.equivalentContentClass_THFTYPE_IiioI) tptp.lEquivalenceRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lYearFn_THFTYPE_IiiI) tptp.lTemporalRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lGigaFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.connected_THFTYPE_IiioI) tptp.lSpatialRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiiIiioI tptp.lPeriodicalIssueFn_THFTYPE_IiiiI) tptp.n2_THFTYPE_i) tptp.lPositiveInteger_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.parent_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.documentation_THFTYPE_i) tptp.n3_THFTYPE_i) tptp.lSymbolicString_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.mother_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lOrganism_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.pointOfIntersection_THFTYPE_IiiioI) tptp.n2_THFTYPE_i) tptp.lOneDimensionalFigure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.width_THFTYPE_IiioI) tptp.lSingleValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.barometricPressure_THFTYPE_IiioI) tptp.measure_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.citizen_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lHuman_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.authors_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lText_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiiIiioI tptp.lExponentiationFn_THFTYPE_IiiiI) tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lSecondFn_THFTYPE_IiiiI) tptp.lTemporalRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lRemainderFn_THFTYPE_i) tptp.lRelationExtendedToQuantities_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.externalImage_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lExtensionFn_THFTYPE_IiiI) tptp.lPartialValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lRelativeTimeFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lTimePosition_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.material_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lCorpuscularObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.involvedInEvent_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lDecreasing_THFTYPE_i) tptp.lRemoving_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.causes_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.date_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lBecquerel_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.pointOfIntersection_THFTYPE_IiiioI) tptp.lTernaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.greaterThan_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.partiallyFills_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IiioI tptp.lSpeedFn_THFTYPE_i) tptp.lPerFn_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.relatedEvent_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.inhabits_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lOrganism_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.attribute_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.holdsDuring_THFTYPE_IiooI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.immediateInstance_THFTYPE_IiioI) tptp.lIntransitiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.needs_THFTYPE_IiioI) tptp.inScopeOfInterest_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIoooIioI tptp.consistent_THFTYPE_IoooI) tptp.lSymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.cooccur_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoioIiioI tptp.holdsRight_THFTYPE_IoioI) tptp.n2_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.geographicSubregion_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lLeastCommonMultipleFn_THFTYPE_i) tptp.lPartialValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.subsumesContentInstance_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIioioIiioI tptp.confersNorm_THFTYPE_IioioI) tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.pathLength_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lHoleSkinFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lHole_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lHour_THFTYPE_i) tptp.lHourFn_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.temporalPart_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiioIoI tptp.prevents_THFTYPE_IiioI) tptp.inhibits_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.frequency_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lMilliFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMonthFn_THFTYPE_i) tptp.lTemporalRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lMaxFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoooIiioI tptp.consistent_THFTYPE_IoooI) tptp.n1_THFTYPE_i) tptp.lProposition_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIooioIioI tptp.conditionalProbability_THFTYPE_IooioI) tptp.lTernaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIIioIioIioI tptp.valence_THFTYPE_IIioIioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiiIiioI tptp.lMultiplicationFn_THFTYPE_IiiiI) tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.relative_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lOrganism_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lHour_THFTYPE_i) tptp.lHourDuration_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.considers_THFTYPE_IiooI) tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lEndFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.arcWeight_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.believes_THFTYPE_IiooI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lRoundFn_THFTYPE_IiiI) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lFarad_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIioooIioI tptp.prefers_THFTYPE_IioooI) tptp.lIntentionalRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lCalorie_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lImmediateFutureFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lTimePosition_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.occupiesPosition_THFTYPE_IiiioI) tptp.n2_THFTYPE_i) tptp.lPosition_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lUnitedStatesGallon_THFTYPE_i) tptp.lUnitOfVolume_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.subPlan_THFTYPE_i) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.subSystem_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lRationalNumberFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.time_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.direction_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lDirectionalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.monetaryValue_THFTYPE_IiioI) tptp.measure_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiiiIioI tptp.lMereologicalProductFn_THFTYPE_IiiiI) tptp.lMereologicalDifferenceFn_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.surface_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.mother_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lOrganism_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.rangeSubclass_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIIiioIIiioIoIioI tptp.inverse_THFTYPE_IIiioIIiioIoI) tptp.lIntransitiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.identicalListItems_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lList_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMereologicalDifferenceFn_THFTYPE_i) tptp.lSpatialRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiiioIIiiioIoI tptp.temporallyBetween_THFTYPE_IiiioI) tptp.temporallyBetweenOrEqual_THFTYPE_IiiioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoioIiioI tptp.holdsObligation_THFTYPE_IoioI) tptp.n2_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lVelocityFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lLengthMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lCosineFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lPlaneAngleMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.earlier_THFTYPE_IiioI) tptp.lTransitiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.contains_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.bottom_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.hasPurpose_THFTYPE_IiooI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.overlapsSpatially_THFTYPE_IiioI) tptp.lSymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMonthFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IiIiioIoI tptp.weight_THFTYPE_i) tptp.measure_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.superficialPart_THFTYPE_IiioI) tptp.part_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.realization_THFTYPE_IiooI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lIntersectionFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lRealNumberFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lNumber_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.parent_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.time_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.meetsTemporally_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.manner_THFTYPE_IiioI) tptp.property_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lImmediatePastFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.equal_THFTYPE_i) tptp.lEquivalenceRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.expressedInLanguage_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIioioIiioI tptp.deprivesNorm_THFTYPE_IioioI) tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lEasternTimeZone_THFTYPE_i) tptp.lTimeZone_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lRelativeComplementFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lFluid_THFTYPE_i) tptp.lPhysicalState_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lCandela_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.distance_THFTYPE_IiiioI) tptp.n2_THFTYPE_i) tptp.lPhysical_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIoooIioI tptp.contraryAttribute_THFTYPE_IoooI) tptp.lVariableArityRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.needs_THFTYPE_IiioI) tptp.lObjectAttitude_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.subset_THFTYPE_IiioI) tptp.subclass_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.ancestor_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lOrganism_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPerFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.employs_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lOrganization_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.inhabits_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.fills_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lHole_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.wears_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lDead_THFTYPE_i) tptp.lAnimacyAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lUnitedKingdomGallon_THFTYPE_i) tptp.lUnitOfVolume_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lGreatestCommonDivisorFn_THFTYPE_i) tptp.lVariableArityRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lBeginNodeFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.parallel_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lOneDimensionalFigure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.expressedInLanguage_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lLinguisticExpression_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.wife_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lWoman_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.connected_THFTYPE_IiioI) tptp.lSymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lMinimalWeightedPathFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lGraphNode_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.side_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.father_THFTYPE_IiioI) tptp.lSingleValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lStanding_THFTYPE_i) tptp.lBodyPosition_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lOn_THFTYPE_i) tptp.lAntiSymmetricPositionalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiIiiiIoI tptp.lMinute_THFTYPE_i) tptp.lMinuteFn_THFTYPE_IiiiI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIoooIioI tptp.decreasesLikelihood_THFTYPE_IoooI) tptp.lProbabilityRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.disjointRelation_THFTYPE_IIiioIIiioIoI tptp.subAttribute_THFTYPE_IiioI) tptp.successorAttribute_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lMinuteFn_THFTYPE_IiiiI) tptp.lTemporalRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lWhereFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.names_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lSymbolicString_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoioIiioI tptp.holdsObligation_THFTYPE_IoioI) tptp.n1_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lHoleHostFn_THFTYPE_IiiI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lineMeasure_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.multiplicativeFactor_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.beforeOrEqual_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.geometricDistance_THFTYPE_IiiioI) tptp.n3_THFTYPE_i) tptp.lLengthMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoooIiioI tptp.decreasesLikelihood_THFTYPE_IoooI) tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIIiioIIiioIoIioI tptp.inverse_THFTYPE_IIiioIIiioIoI) tptp.lSymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lImmediatePastFn_THFTYPE_IiiI) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.connected_THFTYPE_IiioI) tptp.lReflexiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lRoundFn_THFTYPE_IiiI) tptp.lRelationExtendedToQuantities_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lVolt_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.disjoint_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.subProcess_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.publishes_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lRight_THFTYPE_i) tptp.lPositionalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IoioI false) tptp.lTruthValue_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.starts_THFTYPE_IiioI) tptp.lTemporalRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.greaterThan_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.parallel_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.systemPart_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lPhysicalSystem_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIioIIiioIioIiioI tptp.capability_THFTYPE_IIioIIiioIioI) tptp.n3_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.developmentalForm_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lOrganicObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lCommunication_THFTYPE_i) tptp.lContentDevelopment_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lCeilingFn_THFTYPE_IiiI) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.result_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.properlyFills_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lHole_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiiiiiioIIiioIoI tptp.disjointDecomposition_THFTYPE_IiiiiiioI) tptp.exhaustiveDecomposition_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.believes_THFTYPE_IiooI) tptp.n1_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.distributes_THFTYPE_IiioI) tptp.lBinaryRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.larger_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.subGraph_THFTYPE_IiioI) tptp.lReflexiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIoioIioI tptp.holdsRight_THFTYPE_IoioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.attends_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lHuman_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.connects_THFTYPE_IiiioI) tptp.lSpatialRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiooIIiioIoI tptp.patient_THFTYPE_IiooI) tptp.involvedInEvent_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.monetaryValue_THFTYPE_IiioI) tptp.lSingleValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lKilogram_THFTYPE_i) tptp.lUnitOfMass_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.editor_THFTYPE_i) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lAdditionFn_THFTYPE_IiiiI) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lVolt_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.daughter_THFTYPE_IiioI) tptp.parent_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.atomicNumber_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lPositiveInteger_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.orientation_THFTYPE_IiiioI) tptp.lSpatialRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.finishes_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.spouse_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lHuman_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lIntegerSquareRootFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lRealNumber_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoooIiioI tptp.subProposition_THFTYPE_IoooI) tptp.n1_THFTYPE_i) tptp.lProposition_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIioioIiioI tptp.hasPurposeForAgent_THFTYPE_IioioI) tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiIiiiIoI tptp.lMereologicalSumFn_THFTYPE_i) tptp.lMereologicalProductFn_THFTYPE_IiiiI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.finishes_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lListConcatenateFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.subGraph_THFTYPE_IiioI) tptp.lTransitiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.hasSkill_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lAgent_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiioIoI tptp.time_THFTYPE_IiioI) tptp.located_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.inScopeOfInterest_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIIiioIioIioI tptp.trichotomizingOn_THFTYPE_IIiioIioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lGigaFn_THFTYPE_i) tptp.lUnitOfMeasureMultiplier_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.range_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lLiquid_THFTYPE_i) tptp.lPhysicalState_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.leader_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lFloorFn_THFTYPE_IiiI) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoooIiioI tptp.increasesLikelihood_THFTYPE_IoooI) tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lPredecessorFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.atomicNumber_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lElementalSubstance_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.inhabits_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.subOrganization_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lOrganization_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiioIoI tptp.subsumesContentInstance_THFTYPE_IiioI) tptp.subsumesContentClass_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.destination_THFTYPE_IiioI) tptp.lCaseRole_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lIlluminated_THFTYPE_i) tptp.lVisualAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.equivalentContentClass_THFTYPE_IiioI) tptp.subsumesContentClass_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lAmpere_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.familyRelation_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lOrganism_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IiiioI tptp.lGeneralizedIntersectionFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.representsInLanguage_THFTYPE_IiiioI) tptp.n3_THFTYPE_i) tptp.lLanguage_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lJoule_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.subList_THFTYPE_IiioI) tptp.lPartialOrderingRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.weight_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lMassMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIoooIioI tptp.increasesLikelihood_THFTYPE_IoooI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.greaterThanOrEqualTo_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiioIoI tptp.before_THFTYPE_IiioI) tptp.earlier_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.believes_THFTYPE_IiooI) tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.subList_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lList_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.member_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.orientation_THFTYPE_IiiioI) tptp.n3_THFTYPE_i) tptp.lPositionalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.meetsSpatially_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.located_THFTYPE_IiioI) tptp.lAntisymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.connects_THFTYPE_IiiioI) tptp.n1_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIioIioIiioI tptp.valence_THFTYPE_IIioIioI) tptp.n1_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lKilogram_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lGraphPathFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIiioIioIiioI tptp.trichotomizingOn_THFTYPE_IIiioIioI) tptp.n2_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.relatedExternalConcept_THFTYPE_i) tptp.lTernaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.disjointRelation_THFTYPE_IIiioIIiioIoI tptp.manner_THFTYPE_IiioI) tptp.attribute_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiiIiioI tptp.lTimeIntervalFn_THFTYPE_IiiiI) tptp.n2_THFTYPE_i) tptp.lTimePoint_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IIoiioIIoiioIoI tptp.confersObligation_THFTYPE_IoiioI) tptp.confersRight_THFTYPE_IoiioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.average_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lRealNumber_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lVelocityFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lTimeDuration_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.properlyFills_THFTYPE_IiioI) tptp.partiallyFills_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lFrontFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lVelocityFn_THFTYPE_i) tptp.lQuaternaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.member_THFTYPE_IiioI) tptp.part_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.properPart_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lHoleSkinFn_THFTYPE_IiiI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lHoleHostFn_THFTYPE_IiiI) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.temporalPart_THFTYPE_IiioI) tptp.lTemporalRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.abstractCounterpart_THFTYPE_IiioI) tptp.represents_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lComplementFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.before_THFTYPE_IiioI) tptp.beforeOrEqual_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lMinimalCutSetFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IiiioI tptp.editor_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lText_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.resource_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.inScopeOfInterest_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lRelativeComplementFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMereologicalDifferenceFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lMultiplicationFn_THFTYPE_IiiiI) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.links_THFTYPE_IiiioI) tptp.n1_THFTYPE_i) tptp.lGraphNode_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lRecurrentTimeIntervalFn_THFTYPE_IiiiI) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lDenominatorFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.measure_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.during_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.realization_THFTYPE_IiooI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lPerFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lPhysicalQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoooIiioI tptp.decreasesLikelihood_THFTYPE_IoooI) tptp.n1_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lAudible_THFTYPE_i) tptp.lSoundAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.developmentalForm_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lDevelopmentalAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lLogFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lRealNumber_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.parallel_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lOneDimensionalFigure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lTangentFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lMeasureFn_THFTYPE_IiiiI) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.instrument_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.precondition_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.inhibits_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIIiioIioIioI tptp.partialOrderingOn_THFTYPE_IIiioIioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.representsInLanguage_THFTYPE_IiiioI) tptp.n1_THFTYPE_i) tptp.lLinguisticExpression_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.member_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.crosses_THFTYPE_IiioI) tptp.traverses_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.temporalPart_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lTimePosition_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lByte_THFTYPE_i) tptp.lUnitOfInformation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lUnconscious_THFTYPE_i) tptp.lConsciousnessAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.lessThan_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.causesSubclass_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lDensityFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lMassMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.fills_THFTYPE_IiioI) tptp.properlyFills_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.orientation_THFTYPE_IiiioI) tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.frequency_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.causesSubclass_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lYear_THFTYPE_i) tptp.lYearDuration_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.wants_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.material_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMilliFn_THFTYPE_i) tptp.lUnitOfMeasureMultiplier_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lListLengthFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lCoordinatedUniversalTimeZone_THFTYPE_i) tptp.lTimeZone_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lUnlikely_THFTYPE_i) tptp.lProbabilityAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.overlapsPartially_THFTYPE_IiioI) tptp.lSymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIIiioIioIioI tptp.reflexiveOn_THFTYPE_IIiioIioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.brother_THFTYPE_i) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.overlapsSpatially_THFTYPE_IiioI) tptp.connected_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lCutSetFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lGraph_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.part_THFTYPE_IiioI) tptp.lSpatialRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.agent_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IiIiioIoI tptp.uniqueIdentifier_THFTYPE_i) tptp.names_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IiioI tptp.subsumingExternalConcept_THFTYPE_i) tptp.relatedExternalConcept_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiooIIiioIoI tptp.desires_THFTYPE_IiooI) tptp.wants_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lObligation_THFTYPE_i) tptp.lDeonticAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.larger_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoooIiioI tptp.entails_THFTYPE_IoooI) tptp.n1_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lRepairing_THFTYPE_i) tptp.lMaintaining_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lBeginNodeFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMicroFn_THFTYPE_i) tptp.lUnitOfMeasureMultiplier_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSmooth_THFTYPE_i) tptp.lTextureAttribute_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.between_THFTYPE_IiiioI) tptp.lSpatialRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lCosineFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.mutualAcquaintance_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lLux_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lFloorFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lRealNumber_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.externalImage_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lDivisionFn_THFTYPE_IiiiI) tptp.lPartialValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lineMeasure_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lOneDimensionalFigure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIiioIioIiioI tptp.equivalenceRelationOn_THFTYPE_IIiioIioI) tptp.n1_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.superficialPart_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.subsumesContentInstance_THFTYPE_IiioI) tptp.lPartialOrderingRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lAmpere_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lMereologicalSumFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoooIiioI tptp.independentProbability_THFTYPE_IoooI) tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIiioIioIiioI tptp.partialOrderingOn_THFTYPE_IIiioIioI) tptp.n1_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.member_THFTYPE_IiioI) tptp.lIntransitiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.considers_THFTYPE_IiooI) tptp.lPropositionalAttitude_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.angleOfFigure_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lGeometricFigure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.son_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lOrganism_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSubtractionFn_THFTYPE_i) tptp.lRelationExtendedToQuantities_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.during_THFTYPE_IiioI) tptp.overlapsTemporally_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.uses_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.agent_THFTYPE_IiioI) tptp.involvedInEvent_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.wife_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lMan_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.immediateSubclass_THFTYPE_IiioI) tptp.subclass_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.overlapsTemporally_THFTYPE_IiioI) tptp.lSymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.closedOn_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSiemens_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiiIiioI tptp.lAdditionFn_THFTYPE_IiiiI) tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lSecond_THFTYPE_i) tptp.lSecondDuration_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMinFn_THFTYPE_i) tptp.lRelationExtendedToQuantities_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.piece_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lSubstance_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiooIIiioIoI tptp.realization_THFTYPE_IiooI) tptp.equivalentContentInstance_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.uses_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lAgent_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMinuteDuration_THFTYPE_i) tptp.lUnitOfDuration_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMereologicalSumFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.partiallyFills_THFTYPE_IiioI) tptp.lSpatialRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IiioI tptp.subsumedExternalConcept_THFTYPE_i) tptp.relatedExternalConcept_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiiIiioI tptp.lListOrderFn_THFTYPE_IiiiI) tptp.n2_THFTYPE_i) tptp.lPositiveInteger_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lBeginFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.hole_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.citizen_THFTYPE_i) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lBit_THFTYPE_i) tptp.lUnitOfInformation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lCosineFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.altitude_THFTYPE_IiiioI) tptp.lSingleValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.component_THFTYPE_IiioI) tptp.part_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSeriesVolumeFn_THFTYPE_i) tptp.lPartialValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIoooIioI tptp.decreasesLikelihood_THFTYPE_IoooI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.diameter_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lLengthMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.exhaustiveDecomposition_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lClass_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.disjointRelation_THFTYPE_IiIiioIoI tptp.stays_THFTYPE_i) tptp.home_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lCeilingFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lRealNumber_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiooIIiooIoI tptp.realization_THFTYPE_IiooI) tptp.containsInformation_THFTYPE_IiooI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.wife_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.holdsDuring_THFTYPE_IiooI) tptp.n1_THFTYPE_i) tptp.lTimePosition_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.graphPart_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.home_THFTYPE_IiioI) tptp.inhabits_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lWhereFn_THFTYPE_i) tptp.lSpatialRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIoioIIiioIoIiioI tptp.subrelation_THFTYPE_IIoioIIiioIoI) tptp.n1_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.employs_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lListFn_THFTYPE_i) tptp.lFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIiioIioIiioI tptp.trichotomizingOn_THFTYPE_IIiioIioI) tptp.n1_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lVelocityFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lHoleHostFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.immediateInstance_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.located_THFTYPE_IiioI) tptp.partlyLocated_THFTYPE_IiioI))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lEuroDollar_THFTYPE_i) tptp.lUnitOfCurrency_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.engineeringSubcomponent_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lEngineeringComponent_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lInitialNodeFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lGraphArc_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.hole_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lHole_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lListConcatenateFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lList_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoooIiioI tptp.independentProbability_THFTYPE_IoooI) tptp.n1_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.greaterThanOrEqualTo_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.meetsTemporally_THFTYPE_IiioI) tptp.lTemporalRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.measure_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lMegaFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lIntersectionFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.subset_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lSet_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIiioIIiioIoIiioI tptp.disjointRelation_THFTYPE_IIiioIIiioIoI) tptp.n2_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIoooIioI tptp.conclusion_THFTYPE_IoooI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.between_THFTYPE_IiiioI) tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lImmediateFutureFn_THFTYPE_IiiI) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIioooIioI tptp.prefers_THFTYPE_IioooI) tptp.lTernaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lPeriodicalIssueFn_THFTYPE_IiiiI) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lMonth_THFTYPE_i) tptp.lMonthFn_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.surface_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lCandela_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIIiioIioIioI tptp.totalOrderingOn_THFTYPE_IIiioIioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.subset_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lSet_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lAssignmentFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSecondDuration_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lNewton_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lUnitedStatesCent_THFTYPE_i) tptp.lUnitOfCurrency_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSolid_THFTYPE_i) tptp.lPhysicalState_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lGeneralizedIntersectionFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIioI tptp.pointOfFigure_THFTYPE_IiioI) tptp.geometricPart_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.closedOn_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.occupiesPosition_THFTYPE_IiiioI) tptp.n3_THFTYPE_i) tptp.lOrganization_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiiIiioI tptp.lMeasureFn_THFTYPE_IiiiI) tptp.n2_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.penetrates_THFTYPE_IiioI) tptp.lIntransitiveRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lPeriodicalIssueFn_THFTYPE_IiiiI) tptp.lPartialValuedRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIIiiIioIioI tptp.relatedInternalConcept_THFTYPE_IIiiIioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.cooccur_THFTYPE_IiioI) tptp.lEquivalenceRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lLeastCommonMultipleFn_THFTYPE_i) tptp.lFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIoiioIioI tptp.confersObligation_THFTYPE_IoiioI) tptp.lTernaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lListOrderFn_THFTYPE_IiiiI) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.arcWeight_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lGraphArc_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.properlyFills_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.geometricPart_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.height_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.relatedEvent_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiiIiioI tptp.lMultiplicationFn_THFTYPE_IiiiI) tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.time_THFTYPE_IiioI) tptp.lTemporalRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.distance_THFTYPE_IiiioI) tptp.lSpatialRelation_THFTYPE_i))
% 2.18/2.70  (assert (@ (@ tptp.subrelation_THFTYPE_IiIoooIoI tptp.subPlan_THFTYPE_i) tptp.subProposition_THFTYPE_IoooI))
% 2.18/2.70  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.patient_THFTYPE_IiooI) tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.hole_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IiioI tptp.angleOfFigure_THFTYPE_i) tptp.geometricPart_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIiioIIiioIoIiioI tptp.inverse_THFTYPE_IIiioIIiioIoI) tptp.n1_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.representsForAgent_THFTYPE_IiiioI) tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.documentation_THFTYPE_i) tptp.lTernaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lMagnitudeFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiiiiioIioI tptp.disjointDecomposition_THFTYPE_IiiiiiioI) tptp.lVariableArityRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lFutureFn_THFTYPE_IiiI) tptp.lTemporalRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.faces_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.faces_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSecondDuration_THFTYPE_i) tptp.lUnitOfDuration_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.copy_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.disjointRelation_THFTYPE_IIoooIIoooIoI tptp.increasesLikelihood_THFTYPE_IoooI) tptp.decreasesLikelihood_THFTYPE_IoooI))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.larger_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lAmu_THFTYPE_i) tptp.lUnitOfMass_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.smaller_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.equivalentContentInstance_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lContentBearingObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lBeginFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lDivisionFn_THFTYPE_IiiiI) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lLeft_THFTYPE_i) tptp.lPositionalAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.destination_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lUnitedStatesDollar_THFTYPE_i) tptp.lUnitOfCurrency_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.angularMeasure_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.weight_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoiioIiioI tptp.confersObligation_THFTYPE_IoiioI) tptp.n1_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lEnglishLanguage_THFTYPE_i) tptp.lSpokenHumanLanguage_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoiIiioI tptp.lProbabilityFn_THFTYPE_IoiI) tptp.n1_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lAngstrom_THFTYPE_i) tptp.lUnitOfLength_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lBackFn_THFTYPE_i) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.interiorPart_THFTYPE_IiioI) tptp.part_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lBecquerel_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.depth_THFTYPE_IiiioI) tptp.lSingleValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lKilometer_THFTYPE_i) tptp.lUnitOfLength_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSineFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lSeriesVolumeFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lPositiveInteger_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lNonFullyFormed_THFTYPE_i) tptp.lDevelopmentalAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPastFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.representsInLanguage_THFTYPE_IiiioI) tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lListLengthFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.legalRelation_THFTYPE_IiioI) tptp.lSymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIIioIIiioIioIioI tptp.capability_THFTYPE_IIioIIiioIioI) tptp.lTernaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.possesses_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lAgent_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.hole_THFTYPE_IiioI) tptp.lSpatialRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lAbsoluteValueFn_THFTYPE_IiiI) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiiIiioI tptp.lTimeIntervalFn_THFTYPE_IiiiI) tptp.n1_THFTYPE_i) tptp.lTimePoint_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIoooIioI tptp.increasesLikelihood_THFTYPE_IoooI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoooIiioI tptp.conclusion_THFTYPE_IoooI) tptp.n1_THFTYPE_i) tptp.lArgument_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lNewton_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.identicalListItems_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lTemporalCompositionFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIoooIioI tptp.subProposition_THFTYPE_IoooI) tptp.lTransitiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIoooIioI tptp.contraryAttribute_THFTYPE_IoooI) tptp.lPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.containsInformation_THFTYPE_IiooI) tptp.n2_THFTYPE_i) tptp.lProposition_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.origin_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.spouse_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lHoleSkinFn_THFTYPE_IiiI) tptp.lSpatialRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lHourFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lNanoFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lGovernmentFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lGeopoliticalArea_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.subCollection_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lCollection_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lIntegerSquareRootFn_THFTYPE_i) tptp.lPartialValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lTimeIntervalFn_THFTYPE_IiiiI) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.before_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lTimePoint_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.duration_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.surface_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.subsumesContentClass_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lContentBearingObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lHoleHostFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lHole_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.diameter_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lCircle_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIoiIioI tptp.lProbabilityFn_THFTYPE_IoiI) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.temporallyBetween_THFTYPE_IiiioI) tptp.lTernaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.connects_THFTYPE_IiiioI) tptp.n3_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiooIoI tptp.instrument_THFTYPE_IiioI) tptp.patient_THFTYPE_IiooI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lProstrate_THFTYPE_i) tptp.lBodyPosition_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lRemainderFn_THFTYPE_i) tptp.lPartialValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.disjointRelation_THFTYPE_IIiioIIiioIoI tptp.contains_THFTYPE_IiioI) tptp.part_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.meltingPoint_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lPureSubstance_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lWeber_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.rangeSubclass_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.member_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lCollection_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.daughter_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lOrganism_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lMinuteFn_THFTYPE_IiiiI) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lSquareRootFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.wants_THFTYPE_IiioI) tptp.lObjectAttitude_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPowerSetFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.sibling_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.subsumesContentClass_THFTYPE_IiioI) tptp.lPartialOrderingRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSouth_THFTYPE_i) tptp.lDirectionalAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMaximalWeightedPathFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.subProcess_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.equal_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.distance_THFTYPE_IiiioI) tptp.n3_THFTYPE_i) tptp.lLengthMeasure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lPicoFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.average_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lList_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.daughter_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lOrganism_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIioioIiioI tptp.deprivesNorm_THFTYPE_IioioI) tptp.n3_THFTYPE_i) tptp.lObjectiveNorm_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.duration_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lTimeDuration_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lVertical_THFTYPE_i) tptp.lPositionalAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lSignumFn_THFTYPE_IiiI) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IiIiioIoI tptp.brother_THFTYPE_i) tptp.sibling_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lRemainderFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lBackFn_THFTYPE_i) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiiiIiioI tptp.lPeriodicalIssueFn_THFTYPE_IiiiI) tptp.n1_THFTYPE_i) tptp.lPeriodical_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lEditionFn_THFTYPE_IiiiI) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.beforeOrEqual_THFTYPE_IiioI) tptp.lPartialOrderingRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lRelativeTimeFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSubtractionFn_THFTYPE_i) tptp.lAssociativeFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.during_THFTYPE_IiioI) tptp.lTransitiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lListConcatenateFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.successorAttribute_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.subGraph_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSievert_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiioIoI tptp.causes_THFTYPE_IiioI) tptp.causesSubclass_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.barometricPressure_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lNear_THFTYPE_i) tptp.lSymmetricPositionalAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.resource_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.connectedEngineeringComponents_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lTransportation_THFTYPE_i) tptp.lTransportationDevice_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lWhereFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lGovernmentFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.property_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.instance_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.legalRelation_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lHuman_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lAbove_THFTYPE_i) tptp.lAntiSymmetricPositionalAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.mutualAcquaintance_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lHuman_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lExtensionFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.version_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lArtifact_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.meetsSpatially_THFTYPE_IiioI) tptp.connected_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.systemPart_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.documentation_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.developmentalForm_THFTYPE_IiioI) tptp.lTransitiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIoooIioI tptp.entails_THFTYPE_IoooI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.equal_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPositiveInfinity_THFTYPE_i) tptp.lTimePoint_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIoooIioI tptp.independentProbability_THFTYPE_IoooI) tptp.lProbabilityRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.geographicSubregion_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lGeographicArea_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIioIiIiioI tptp.lCardinalityFn_THFTYPE_IIioIiI) tptp.n1_THFTYPE_i) (@ (@ tptp.lUnionFn_THFTYPE_IiiiI tptp.lSetOrClass_THFTYPE_i) tptp.lCollection_THFTYPE_i)))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.angularMeasure_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lTwoDimensionalAngle_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lGeneralizedUnionFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.version_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lArtifact_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lMeasureFn_THFTYPE_IiiiI) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiioIoI tptp.successorAttributeClosure_THFTYPE_IiioI) tptp.successorAttribute_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIooioIiioI tptp.conditionalProbability_THFTYPE_IooioI) tptp.n1_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.completelyFills_THFTYPE_IiioI) tptp.partiallyFills_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lRight_THFTYPE_i) tptp.lAntiSymmetricPositionalAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.successorAttributeClosure_THFTYPE_IiioI) tptp.lTransitiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.subAttribute_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.connects_THFTYPE_IiiioI) tptp.lTernaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lFutureFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lTimePosition_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.prevents_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.prevents_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.properPart_THFTYPE_IiioI) tptp.lTransitiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.causesSubclass_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIiiIioIiioI tptp.relatedInternalConcept_THFTYPE_IIiiIioI) tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.distance_THFTYPE_IiiioI) tptp.lTernaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.date_THFTYPE_IiioI) tptp.time_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.needs_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.successorAttributeClosure_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.contains_THFTYPE_IiioI) tptp.partlyLocated_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.rangeSubclass_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.successorAttributeClosure_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lDay_THFTYPE_i) tptp.lDayDuration_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIioooIiioI tptp.prefers_THFTYPE_IioooI) tptp.n1_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.identityElement_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.represents_THFTYPE_IiioI) tptp.refers_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lWealthFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lAgent_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.lessThanOrEqualTo_THFTYPE_IiioI) tptp.lPartialOrderingRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.brother_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lHuman_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.monetaryValue_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lCurrencyMeasure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lSineFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lPlaneAngleMeasure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lIntersectionFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lEndFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMile_THFTYPE_i) tptp.lUnitOfLength_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.immediateSubclass_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lJoule_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIoooIIiioIoI tptp.truth_THFTYPE_IoooI) tptp.property_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lImmediateFamilyFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.length_THFTYPE_IiioI) tptp.linearExtent_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lAdditionFn_THFTYPE_IiiiI) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lListFn_THFTYPE_i) tptp.lVariableArityRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.atomicNumber_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.element_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.measure_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lReciprocalFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lFrontFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.disjointRelation_THFTYPE_IIoooIIoooIoI tptp.increasesLikelihood_THFTYPE_IoooI) tptp.independentProbability_THFTYPE_IoooI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lGraphPathFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lSquareRootFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lRealNumber_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lEndNodeFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.connectedEngineeringComponents_THFTYPE_IiioI) tptp.connected_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.pointOfFigure_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lGeometricFigure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.authors_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lMereologicalDifferenceFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lRoundFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.names_THFTYPE_IiioI) tptp.refers_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lLiter_THFTYPE_i) tptp.lUnitOfVolume_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IiioI tptp.mutualAcquaintance_THFTYPE_i) tptp.acquaintance_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.smaller_THFTYPE_IiioI) tptp.lSpatialRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.exhaustiveDecomposition_THFTYPE_IiioI) tptp.lPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPlasma_THFTYPE_i) tptp.lPhysicalState_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lPathWeightFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lGraphPath_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.attribute_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.systemPart_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.patient_THFTYPE_IiooI) tptp.lCaseRole_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.patient_THFTYPE_IiooI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lRoundFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPliable_THFTYPE_i) tptp.lInternalAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.legalRelation_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.home_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lHuman_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.duration_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoioIiioI tptp.holdsRight_THFTYPE_IoioI) tptp.n1_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lLikely_THFTYPE_i) tptp.lProbabilityAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lReading_THFTYPE_i) tptp.lInterpreting_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.geometricDistance_THFTYPE_IiiioI) tptp.n2_THFTYPE_i) tptp.lGeometricPoint_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lExponentiationFn_THFTYPE_IiiiI) tptp.lRelationExtendedToQuantities_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiiiIiioI tptp.lEditionFn_THFTYPE_IiiiI) tptp.n1_THFTYPE_i) tptp.lContentBearingObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.temporallyBetween_THFTYPE_IiiioI) tptp.n1_THFTYPE_i) tptp.lTimePoint_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IIIiioIIiioIoIIiioIoI tptp.disjointRelation_THFTYPE_IIiioIIiioIoI) tptp.disjoint_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lExponentiationFn_THFTYPE_IiiiI) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.distributes_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.geometricPart_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lGeometricFigure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMereologicalSumFn_THFTYPE_i) tptp.lSpatialRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiiiiiioIIiioIoI tptp.disjointDecomposition_THFTYPE_IiiiiiioI) tptp.disjoint_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lOunce_THFTYPE_i) tptp.lUnitOfVolume_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.spouse_THFTYPE_IiioI) tptp.relative_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lMinFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.contains_THFTYPE_IiioI) tptp.lSpatialRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.path_THFTYPE_IiioI) tptp.involvedInEvent_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.transactionAmount_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lAttaching_THFTYPE_i) tptp.lPutting_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lRelativeTimeFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.representsForAgent_THFTYPE_IiiioI) tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.arcWeight_THFTYPE_IiioI) tptp.lSingleValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.subsumesContentClass_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoiioIiioI tptp.confersRight_THFTYPE_IoiioI) tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIoiioIioI tptp.confersRight_THFTYPE_IoiioI) tptp.lTernaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiiioIIiiioIoI tptp.depth_THFTYPE_IiiioI) tptp.distance_THFTYPE_IiiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMinimalWeightedPathFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIoooIioI tptp.causesProposition_THFTYPE_IoooI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.authors_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.parent_THFTYPE_IiioI) tptp.lIntransitiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.attribute_THFTYPE_IiioI) tptp.property_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IiiioI tptp.lDayFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lMonth_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.parent_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lOrganism_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.causes_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.subCollection_THFTYPE_IiioI) tptp.lPartialOrderingRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lDivisionFn_THFTYPE_IiiiI) tptp.lAssociativeFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiiiiioIioI tptp.disjointDecomposition_THFTYPE_IiiiiiioI) tptp.lPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMonthDuration_THFTYPE_i) tptp.lUnitOfDuration_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.partiallyFills_THFTYPE_IiioI) tptp.located_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPropertyFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lCeilingFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIIiioIioIioI tptp.irreflexiveOn_THFTYPE_IIiioIioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lCenterOfCircleFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lCircle_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiooIIiioIoI tptp.believes_THFTYPE_IiooI) tptp.inScopeOfInterest_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.larger_THFTYPE_IiioI) tptp.lSpatialRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.expressedInLanguage_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lLanguage_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.connectsEngineeringComponents_THFTYPE_IiiioI) tptp.n3_THFTYPE_i) tptp.lEngineeringComponent_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.disjointRelation_THFTYPE_IiioI tptp.synonymousExternalConcept_THFTYPE_i) tptp.subsumedExternalConcept_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.relative_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPermission_THFTYPE_i) tptp.lDeonticAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lWatt_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.sister_THFTYPE_i) tptp.lTransitiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lAbstractionFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.exactlyLocated_THFTYPE_IiioI) tptp.located_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.origin_THFTYPE_IiioI) tptp.lCaseRole_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIIiioIioIioI tptp.trichotomizingOn_THFTYPE_IIiioIioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.distance_THFTYPE_IiiioI) tptp.lSingleValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiooIIiioIoI tptp.containsInformation_THFTYPE_IiooI) tptp.represents_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lYearFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IiIiioIoI tptp.stays_THFTYPE_i) tptp.inhabits_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lCenterOfCircleFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.connectedEngineeringComponents_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lEngineeringComponent_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoooIiioI tptp.truth_THFTYPE_IoooI) tptp.n2_THFTYPE_i) tptp.lTruthValue_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIoiIioIiioI tptp.instance_THFTYPE_IIoiIioI) tptp.n2_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lMereologicalProductFn_THFTYPE_IiiiI) tptp.lSpatialRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lTangentFn_THFTYPE_IiiI) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lLumen_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.disjoint_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSineFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lRealNumberFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIoooIioI tptp.premise_THFTYPE_IoooI) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiioIoI tptp.equivalentContentInstance_THFTYPE_IiioI) tptp.equivalentContentClass_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPoundMass_THFTYPE_i) tptp.lUnitOfMass_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.sibling_THFTYPE_IiioI) tptp.lSymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIIoioIIiioIoIioI tptp.subrelation_THFTYPE_IIoioIIiioIoI) tptp.lPartialOrderingRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lBlue_THFTYPE_i) tptp.lPrimaryColor_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.relatedEvent_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.frequency_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.equivalentContentInstance_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lContentBearingObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lGraphPathFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lGraphNode_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lUnitFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lPhysicalQuantity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.manner_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.citizen_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiooIIiioIoI tptp.desires_THFTYPE_IiooI) tptp.inScopeOfInterest_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.wants_THFTYPE_IiioI) tptp.inScopeOfInterest_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIioioIiioI tptp.confersNorm_THFTYPE_IioioI) tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.meetsTemporally_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.identicalListItems_THFTYPE_IiioI) tptp.lEquivalenceRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.sister_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lWoman_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.ancestor_THFTYPE_IiioI) tptp.lTransitiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.transactionAmount_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lFinancialTransaction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.leader_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lAgent_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.publishes_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lListOrderFn_THFTYPE_IiiiI) tptp.lPartialValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.subProcess_THFTYPE_IiioI) tptp.lPartialOrderingRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.knows_THFTYPE_IiooI) tptp.lPropositionalAttitude_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.smaller_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.element_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.temporallyBetweenOrEqual_THFTYPE_IiiioI) tptp.n3_THFTYPE_i) tptp.lTimePoint_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lHenry_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIiioIioIiioI tptp.reflexiveOn_THFTYPE_IIiioIioI) tptp.n2_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lInchMercury_THFTYPE_i) tptp.lUnitOfAtmosphericPressure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.leader_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lHuman_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.occupiesPosition_THFTYPE_IiiioI) tptp.n1_THFTYPE_i) tptp.lHuman_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lNanoFn_THFTYPE_IiiI) tptp.lUnitOfMeasureMultiplier_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoooIiioI tptp.causesProposition_THFTYPE_IoooI) tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.knows_THFTYPE_IiooI) tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.brother_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lMan_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.inhibits_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lIntegerSquareRootFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lFrontFn_THFTYPE_i) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.home_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lPermanentResidence_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.knows_THFTYPE_IiooI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.result_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.path_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lMotion_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.part_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.pathLength_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lRelativeComplementFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIIiioIIiioIoIioI tptp.inverse_THFTYPE_IIiioIIiioIoI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.direction_THFTYPE_IiioI) tptp.involvedInEvent_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lYellow_THFTYPE_i) tptp.lPrimaryColor_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lCreation_THFTYPE_i) tptp.lDestruction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lVelocityFn_THFTYPE_i) tptp.n3_THFTYPE_i) tptp.lRegion_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMole_THFTYPE_i) tptp.lUnitOfMass_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiiIiioI tptp.lMeasureFn_THFTYPE_IiiiI) tptp.n1_THFTYPE_i) tptp.lRealNumber_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lWhereFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lTimePoint_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.husband_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.acquaintance_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lHuman_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.rangeSubclass_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.overlapsTemporally_THFTYPE_IiioI) tptp.lTemporalRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.path_THFTYPE_IiioI) tptp.lCaseRole_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lGray_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.before_THFTYPE_IiioI) tptp.lTemporalRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.average_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.disjointRelation_THFTYPE_IIoooIIoooIoI tptp.decreasesLikelihood_THFTYPE_IoooI) tptp.independentProbability_THFTYPE_IoooI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.identityElement_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.husband_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lMan_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.equivalentContentInstance_THFTYPE_IiioI) tptp.subsumesContentInstance_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.father_THFTYPE_IiioI) tptp.parent_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lDensityFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.overlapsSpatially_THFTYPE_IiioI) tptp.lReflexiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.inList_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.sister_THFTYPE_i) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lNullList_THFTYPE_i) tptp.lList_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lImaginaryPartFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lFarad_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.average_THFTYPE_IiioI) tptp.lPartialValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.prevents_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lNumeratorFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lRealNumber_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.connectedEngineeringComponents_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lEngineeringComponent_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.desires_THFTYPE_IiooI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.transactionAmount_THFTYPE_IiioI) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.inList_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lEndFn_THFTYPE_i) tptp.lTemporalRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lineMeasure_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lLengthMeasure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.subCollection_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.equal_THFTYPE_i) tptp.lRelationExtendedToQuantities_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lLux_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.attends_THFTYPE_IiioI) tptp.experiencer_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.publishes_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lOrganization_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.orientation_THFTYPE_IiiioI) tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.disjointRelation_THFTYPE_IIiioIIiioIoI tptp.result_THFTYPE_IiioI) tptp.instrument_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lTesla_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIioioIiioI tptp.hasPurposeForAgent_THFTYPE_IioioI) tptp.n3_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.prevents_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lCentralTimeZone_THFTYPE_i) tptp.lTimeZone_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lUnitedStatesGallon_THFTYPE_i) tptp.lUnitedKingdomGallon_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lWhenFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.initialList_THFTYPE_IiioI) tptp.subList_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.crosses_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.refers_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lWatt_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.graphPart_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.located_THFTYPE_IiioI) tptp.lTransitiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lDry_THFTYPE_i) tptp.lSaturationAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.editor_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.subList_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lList_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.meltingPoint_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lRed_THFTYPE_i) tptp.lPrimaryColor_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lDay_THFTYPE_i) tptp.lDayFn_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.initialList_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lTangentFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lPlaneAngleMeasure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.manner_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.copy_THFTYPE_IiioI) tptp.lEquivalenceRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lMultiplicationFn_THFTYPE_IiiiI) tptp.lCommutativeFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIoooIioI tptp.conclusion_THFTYPE_IoooI) tptp.lSingleValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.subSystem_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lPhysicalSystem_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lReciprocalFn_THFTYPE_IiiI) tptp.lRelationExtendedToQuantities_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.lessThan_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiiIiioI tptp.lDivisionFn_THFTYPE_IiiiI) tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.immediateSubclass_THFTYPE_IiioI) tptp.lIntransitiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lMaxFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.pointOfIntersection_THFTYPE_IiiioI) tptp.n3_THFTYPE_i) tptp.lGeometricPoint_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoooIiioI tptp.increasesLikelihood_THFTYPE_IoooI) tptp.n1_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lBelow_THFTYPE_i) tptp.lAntiSymmetricPositionalAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.subPlan_THFTYPE_i) tptp.lTransitiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IIoioIIoioIoI tptp.holdsObligation_THFTYPE_IoioI) tptp.holdsRight_THFTYPE_IoioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.version_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiiiiiioIiioI tptp.exhaustiveAttribute_THFTYPE_IiiiiiioI) tptp.n1_THFTYPE_i) tptp.lAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPropertyFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lAdditionFn_THFTYPE_IiiiI) tptp.lRelationExtendedToQuantities_THFTYPE_i))
% 2.18/2.71  (assert (forall ((X $$unsorted)) (@ (@ tptp.instance_THFTYPE_IiioI X) tptp.lRelation_THFTYPE_i)))
% 2.18/2.71  (assert (forall ((X $$unsorted)) (@ (@ tptp.instance_THFTYPE_IiioI X) tptp.lRelation_THFTYPE_i)))
% 2.18/2.71  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.causesSubclass_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIIioIIiioIioIiioI tptp.capability_THFTYPE_IIioIIiioIioI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMaxFn_THFTYPE_i) tptp.lCommutativeFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.multiplicativeFactor_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lInteger_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lOhm_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMole_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lSecondFn_THFTYPE_IiiiI) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.meetsTemporally_THFTYPE_IiioI) tptp.lIntransitiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lInitialNodeFn_THFTYPE_IiiI) tptp.lPartialValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.during_THFTYPE_IiioI) tptp.temporalPart_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.spouse_THFTYPE_IiioI) tptp.legalRelation_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.involvedInEvent_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.attends_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lDemonstrating_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lMinFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiiiIiioI tptp.lRecurrentTimeIntervalFn_THFTYPE_IiiiI) tptp.n2_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.graphMeasure_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lGraph_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.date_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIIoiIioIoI tptp.element_THFTYPE_IiioI) tptp.instance_THFTYPE_IIoiIioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSuccessorFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIoiIioIiioI tptp.instance_THFTYPE_IIoiIioI) tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPascal_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.larger_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.geometricDistance_THFTYPE_IiiioI) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.pathLength_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lGraphPath_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPowerSetFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.partlyLocated_THFTYPE_IiioI) tptp.lSpatialRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.subCollection_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lCollection_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.disjointRelation_THFTYPE_IIioioIIioioIoI tptp.deprivesNorm_THFTYPE_IioioI) tptp.confersNorm_THFTYPE_IioioI))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lMereologicalSumFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.crosses_THFTYPE_IiioI) tptp.lTransitiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.subAttribute_THFTYPE_IiioI) tptp.lPartialOrderingRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lEnglishLanguage_THFTYPE_i) tptp.lNaturalLanguage_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIIioIiIioI tptp.lCardinalityFn_THFTYPE_IIioIiI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.uses_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.familyRelation_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lOrganism_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lGram_THFTYPE_i) tptp.lUnitOfMass_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.temporallyBetweenOrEqual_THFTYPE_IiiioI) tptp.lTemporalRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.acquaintance_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lHuman_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiiIiioI tptp.lSecondFn_THFTYPE_IiiiI) tptp.n1_THFTYPE_i) tptp.lPositiveRealNumber_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.needs_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lPhysical_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.links_THFTYPE_IiiioI) tptp.n3_THFTYPE_i) tptp.lGraphArc_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiIiiIoI tptp.lEndNodeFn_THFTYPE_i) tptp.lTerminalNodeFn_THFTYPE_IiiI))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.subclass_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIIiioIioIioI tptp.reflexiveOn_THFTYPE_IIiioIioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.legalRelation_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lHuman_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IiiioI tptp.lTemporalCompositionFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.smaller_THFTYPE_IiioI) tptp.lTransitiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lGreatestCommonDivisorFn_THFTYPE_i) tptp.lPartialValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lPicoFn_THFTYPE_IiiI) tptp.lUnitOfMeasureMultiplier_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lHorsepower_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.contains_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.finishes_THFTYPE_IiioI) tptp.lTemporalRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.date_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lDay_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lInitialNodeFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lNumeratorFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.subOrganization_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lOrganization_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lNumberE_THFTYPE_i) tptp.lPositiveRealNumber_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.representsForAgent_THFTYPE_IiiioI) tptp.lTernaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.geometricDistance_THFTYPE_IiiioI) tptp.lTernaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.brother_THFTYPE_i) tptp.lTransitiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lImmediateFamilyFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lHuman_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.father_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lOrganism_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.knows_THFTYPE_IiooI) tptp.n1_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIoooIioI tptp.premise_THFTYPE_IoooI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.connected_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.connectsEngineeringComponents_THFTYPE_IiiioI) tptp.n1_THFTYPE_i) tptp.lEngineeringConnection_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.time_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lTimePosition_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.subPlan_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lPlan_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.subsumesContentInstance_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lContentBearingObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lHourDuration_THFTYPE_i) tptp.lUnitOfDuration_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.ancestor_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lOrganism_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lHenry_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lAbstractionFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lClass_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.agent_THFTYPE_IiioI) tptp.lCaseRole_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.manner_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lMicroFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIoooIioI tptp.subProposition_THFTYPE_IoooI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIoooIioI tptp.independentProbability_THFTYPE_IoooI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.atomicNumber_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.beforeOrEqual_THFTYPE_IiioI) tptp.lTemporalRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lLiving_THFTYPE_i) tptp.lAnimacyAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIIioIioIioI tptp.valence_THFTYPE_IIioIioI) tptp.lSingleValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.mutualAcquaintance_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lHuman_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lWet_THFTYPE_i) tptp.lSaturationAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.measure_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lPhysicalQuantity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.disjoint_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIIioIIiioIioIiioIiioI tptp.domainSubclass_THFTYPE_IIIioIIiioIioIiioI) tptp.n2_THFTYPE_i) tptp.lPositiveInteger_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIiioIIiioIoIiioI tptp.disjointRelation_THFTYPE_IIiioIIiioIoI) tptp.n1_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.beforeOrEqual_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lTimePoint_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIoioIIiioIoIiioI tptp.subrelation_THFTYPE_IIoioIIiioIoI) tptp.n2_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.direction_THFTYPE_IiioI) tptp.lCaseRole_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lFloorFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.developmentalForm_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.diameter_THFTYPE_IiioI) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMonochromatic_THFTYPE_i) tptp.lColorAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.distributes_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.frequency_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lTimeDuration_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIiioIioIiioI tptp.irreflexiveOn_THFTYPE_IIiioIioI) tptp.n2_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IiiioI tptp.lGeneralizedUnionFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.experiencer_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.between_THFTYPE_IiiioI) tptp.n3_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.domain_THFTYPE_IiiioI) tptp.n1_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.greaterThan_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.stays_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lTemporaryResidence_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiiIiioI tptp.lMereologicalProductFn_THFTYPE_IiiiI) tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lCenterOfCircleFn_THFTYPE_IiiI) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.connected_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lWhereFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lHourFn_THFTYPE_i) tptp.lTemporalRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMillimeter_THFTYPE_i) tptp.lUnitOfLength_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lineMeasure_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPoundForce_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lTemporalCompositionFn_THFTYPE_i) tptp.lTemporalRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSteradian_THFTYPE_i) tptp.lUnitOfAngularMeasure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.overlapsPartially_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.ancestor_THFTYPE_IiioI) tptp.familyRelation_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoooIiioI tptp.conclusion_THFTYPE_IoooI) tptp.n2_THFTYPE_i) tptp.lProposition_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.hasSkill_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lComplementFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIIiioIioIioI tptp.partialOrderingOn_THFTYPE_IIiioIioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lAngularDegree_THFTYPE_i) tptp.lUnitOfAngularMeasure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lPerFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lPhysicalQuantity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.subOrganization_THFTYPE_IiioI) tptp.subCollection_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.bottom_THFTYPE_IiioI) tptp.superficialPart_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lDamp_THFTYPE_i) tptp.lSaturationAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lTesla_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.subList_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.age_THFTYPE_IiioI) tptp.measure_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiIiiIoI tptp.lYear_THFTYPE_i) tptp.lYearFn_THFTYPE_IiiI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPascal_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IiIiioIoI tptp.sister_THFTYPE_i) tptp.sibling_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.meetsSpatially_THFTYPE_IiioI) tptp.lSymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IiIiioIoI tptp.geographicSubregion_THFTYPE_i) tptp.properPart_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoioIiioI tptp.modalAttribute_THFTYPE_IoioI) tptp.n2_THFTYPE_i) tptp.lNormativeAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiooIIiioIoI tptp.realization_THFTYPE_IiooI) tptp.represents_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lYearDuration_THFTYPE_i) tptp.lUnitOfDuration_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lWhereFn_THFTYPE_i) tptp.lWhenFn_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.subGraph_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lGraph_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.finishes_THFTYPE_IiioI) tptp.lTransitiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lIntersectionFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.domain_THFTYPE_IiiioI) tptp.n2_THFTYPE_i) tptp.lPositiveInteger_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lAsleep_THFTYPE_i) tptp.lConsciousnessAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.boilingPoint_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lTemperatureMeasure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIIioIIiioIioIiioIiioI tptp.domainSubclass_THFTYPE_IIIioIIiioIioIiioI) tptp.n1_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.geographicSubregion_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lGeographicArea_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lEndNodeFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lGraphPath_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.subAttribute_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lDayFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lPositiveInteger_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lEndFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lSpeedFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lLengthMeasure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMaxFn_THFTYPE_i) tptp.lRelationExtendedToQuantities_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.age_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lTimeDuration_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.graphPart_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lGraph_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.stays_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lHuman_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lImaginaryPartFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.starts_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.penetrates_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.geometricDistance_THFTYPE_IiiioI) tptp.n1_THFTYPE_i) tptp.lGeometricPoint_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lWhenFn_THFTYPE_i) tptp.lTemporalRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lQuart_THFTYPE_i) tptp.lUnitOfVolume_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.connected_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.greaterThanOrEqualTo_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lBeginNodeFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lGraphPath_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.element_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lSet_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.disjointRelation_THFTYPE_IIiioIIiioIoI tptp.resource_THFTYPE_IiioI) tptp.instrument_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.radius_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lLengthMeasure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lTerminalNodeFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lGraphArc_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.partlyLocated_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.lessThanOrEqualTo_THFTYPE_IiioI) tptp.lRelationExtendedToQuantities_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.cooccur_THFTYPE_IiioI) tptp.lTemporalRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.side_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.exploits_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lAgent_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.piece_THFTYPE_IiioI) tptp.part_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.editor_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lAgent_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiiiiioIiioI tptp.disjointDecomposition_THFTYPE_IiiiiiioI) tptp.n1_THFTYPE_i) tptp.lClass_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMegaByte_THFTYPE_i) tptp.lUnitOfInformation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIiioIioIiioI tptp.totalOrderingOn_THFTYPE_IIiioIioI) tptp.n2_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lExponentiationFn_THFTYPE_IiiiI) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiiiiioIioI tptp.exhaustiveAttribute_THFTYPE_IiiiiiioI) tptp.lVariableArityRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lGas_THFTYPE_i) tptp.lPhysicalState_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lEuroCent_THFTYPE_i) tptp.lUnitOfCurrency_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIioI tptp.fills_THFTYPE_IiioI) tptp.lFillable_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lWhenFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIoioIioI tptp.modalAttribute_THFTYPE_IoioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiooIIiioIoI tptp.considers_THFTYPE_IiooI) tptp.inScopeOfInterest_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.exhaustiveDecomposition_THFTYPE_IiioI) tptp.lVariableArityRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIIioIiIioI tptp.lCardinalityFn_THFTYPE_IIioIiI) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lTerminalNodeFn_THFTYPE_IiiI) tptp.lPartialValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.closedOn_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lFrontFn_THFTYPE_i) tptp.lPartialValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lBuying_THFTYPE_i) tptp.lSelling_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.angularMeasure_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lPlaneAngleMeasure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lDenominatorFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lRealNumber_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoiioIiioI tptp.confersRight_THFTYPE_IoiioI) tptp.n1_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.overlapsTemporally_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.greaterThanByQuality_THFTYPE_IiiioI) tptp.n3_THFTYPE_i) tptp.lAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIooIioI tptp.lPremisesFn_THFTYPE_IooI) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lUnemployed_THFTYPE_i) tptp.lSocialRole_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lNegativeInfinity_THFTYPE_i) tptp.lTimePoint_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lCoulomb_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIiioIIiioIoIiioI tptp.inverse_THFTYPE_IIiioIIiioIoI) tptp.n2_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.date_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IiIiiIoI tptp.lBeginNodeFn_THFTYPE_i) tptp.lInitialNodeFn_THFTYPE_IiiI))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiiIiioI tptp.lDivisionFn_THFTYPE_IiiiI) tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSpeedFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lBeginFn_THFTYPE_i) tptp.lTemporalRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIIiioIioIioI tptp.equivalenceRelationOn_THFTYPE_IIiioIioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.lessThan_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IoioI true) tptp.lTruthValue_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.uniqueIdentifier_THFTYPE_i) tptp.lSingleValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lYearFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lInteger_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.wears_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lClothing_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIIioioIiioIioI tptp.domain_THFTYPE_IIioioIiioI) tptp.lTernaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.developmentalForm_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.overlapsTemporally_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.temporallyBetween_THFTYPE_IiiioI) tptp.lTemporalRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSlug_THFTYPE_i) tptp.lUnitOfMass_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.faces_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lDirectionalAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIoioIioI tptp.holdsRight_THFTYPE_IoioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.relatedExternalConcept_THFTYPE_i) tptp.n3_THFTYPE_i) tptp.lLanguage_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiooIoI tptp.time_THFTYPE_IiioI) tptp.holdsDuring_THFTYPE_IiooI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.leader_THFTYPE_IiioI) tptp.lSingleValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.acquaintance_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIIiioIIiioIoIioI tptp.disjointRelation_THFTYPE_IIiioIIiioIoI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiiIiioI tptp.lUnionFn_THFTYPE_IiiiI) tptp.n2_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPastFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.parent_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lOrganism_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lGraphPathFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lGraphNode_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.successorAttributeClosure_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.origin_THFTYPE_IiioI) tptp.involvedInEvent_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lRough_THFTYPE_i) tptp.lTextureAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMale_THFTYPE_i) tptp.lSexAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIIiioIioIioI tptp.equivalenceRelationOn_THFTYPE_IIiioIioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.temporallyBetweenOrEqual_THFTYPE_IiiioI) tptp.n2_THFTYPE_i) tptp.lTimePoint_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMinFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.element_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.fills_THFTYPE_IiioI) tptp.completelyFills_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIIiioIioIioI tptp.irreflexiveOn_THFTYPE_IIiioIioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.sibling_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lAwake_THFTYPE_i) tptp.lConsciousnessAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.geopoliticalSubdivision_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.needs_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lMinimalWeightedPathFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lGraphNode_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.side_THFTYPE_IiioI) tptp.superficialPart_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.greaterThanByQuality_THFTYPE_IiiioI) tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPint_THFTYPE_i) tptp.lUnitOfVolume_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.holdsDuring_THFTYPE_IiooI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lOhm_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoioIiioI tptp.modalAttribute_THFTYPE_IoioI) tptp.n1_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.possesses_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lProhibition_THFTYPE_i) tptp.lDeonticAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.diameter_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIoioIioI tptp.modalAttribute_THFTYPE_IoioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.partiallyFills_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lHole_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lListConcatenateFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lList_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.relative_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lOrganism_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.weight_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIIioIIiioIioIiioIiioI tptp.domainSubclass_THFTYPE_IIIioIIiioIioIiioI) tptp.n3_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.radius_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lCircle_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.temporallyBetweenOrEqual_THFTYPE_IiiioI) tptp.n1_THFTYPE_i) tptp.lTimePoint_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lMinimalCutSetFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lGraph_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIoiIioI tptp.lProbabilityFn_THFTYPE_IoiI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.average_THFTYPE_IiioI) tptp.lSingleValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.overlapsTemporally_THFTYPE_IiioI) tptp.lReflexiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lRecurrentTimeIntervalFn_THFTYPE_IiiiI) tptp.lTemporalRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lDenominatorFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.subPlan_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lPlan_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lKappaFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lSymbolicString_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lWeber_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.son_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lOrganism_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.partlyLocated_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.height_THFTYPE_IiioI) tptp.linearExtent_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.time_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.equal_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMeter_THFTYPE_i) tptp.lUnitOfLength_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoooIiioI tptp.truth_THFTYPE_IoooI) tptp.n1_THFTYPE_i) tptp.lSentence_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.experiencer_THFTYPE_IiioI) tptp.lCaseRole_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMaxFn_THFTYPE_i) tptp.lAssociativeFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.abstractCounterpart_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.between_THFTYPE_IiiioI) tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lMereologicalDifferenceFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoiioIiioI tptp.confersObligation_THFTYPE_IoiioI) tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiiIiioI tptp.lExponentiationFn_THFTYPE_IiiiI) tptp.n2_THFTYPE_i) tptp.lInteger_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.engineeringSubcomponent_THFTYPE_IiioI) tptp.properPart_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.pointOfIntersection_THFTYPE_IiiioI) tptp.n1_THFTYPE_i) tptp.lOneDimensionalFigure_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.before_THFTYPE_IiioI) tptp.lTransitiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoooIiioI tptp.premise_THFTYPE_IoooI) tptp.n2_THFTYPE_i) tptp.lProposition_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lEndNodeFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lUnilluminated_THFTYPE_i) tptp.lVisualAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.temporallyBetween_THFTYPE_IiiioI) tptp.n2_THFTYPE_i) tptp.lTimePoint_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lSuccessorFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lInteger_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.son_THFTYPE_IiioI) tptp.parent_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.beforeOrEqual_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lTimePoint_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.graphPart_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lNecessity_THFTYPE_i) tptp.lAlethicAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lKappaFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMeter_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.barometricPressure_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.considers_THFTYPE_IiooI) tptp.n1_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMereologicalSumFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIIoioIIiioIoIioI tptp.subrelation_THFTYPE_IIoioIIiioIoI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMinFn_THFTYPE_i) tptp.lCommutativeFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.overlapsPartially_THFTYPE_IiioI) tptp.overlapsSpatially_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIIioIioIioI tptp.valence_THFTYPE_IIioIioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiiioIiioI tptp.partition_THFTYPE_IiiiioI) tptp.n1_THFTYPE_i) tptp.lClass_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.destination_THFTYPE_IiioI) tptp.involvedInEvent_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.hasSkill_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lNorth_THFTYPE_i) tptp.lDirectionalAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIiioIioIiioI tptp.irreflexiveOn_THFTYPE_IIiioIioI) tptp.n1_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIioooIiioI tptp.prefers_THFTYPE_IioooI) tptp.n3_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lImaginaryPartFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lComplexNumber_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.during_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.age_THFTYPE_IiioI) tptp.lSingleValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.geopoliticalSubdivision_THFTYPE_IiioI) tptp.lTransitiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lFutureFn_THFTYPE_IiiI) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IiiioI tptp.lHourFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lDay_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.top_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiooIoI tptp.resource_THFTYPE_IiioI) tptp.patient_THFTYPE_IiooI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIIioIiIioI tptp.lCardinalityFn_THFTYPE_IIioIiI) tptp.lTotalValuedRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.copy_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIoooIioI tptp.consistent_THFTYPE_IoooI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.relatedExternalConcept_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.inList_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lList_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.equivalentContentClass_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lContentBearingObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lRelativeComplementFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.boilingPoint_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMaxFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.wants_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lSubtractionFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.copy_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.traverses_THFTYPE_IiioI) tptp.lSpatialRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.successorAttribute_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lSubtractionFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.father_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lOrganism_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoiioIiioI tptp.confersRight_THFTYPE_IoiioI) tptp.n3_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lPathWeightFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIIIioIIiioIioIiioIioI tptp.domainSubclass_THFTYPE_IIIioIIiioIioIiioI) tptp.lTernaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lHourFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lNonnegativeInteger_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lFillable_THFTYPE_i) tptp.lShapeAttribute_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.diameter_THFTYPE_IiioI) tptp.width_THFTYPE_IiioI))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.before_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.direction_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.path_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.lessThan_THFTYPE_IiioI) tptp.lTransitiveRelation_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lCelsiusDegree_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.material_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lSubstance_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIIiioIIiioIoIioI tptp.disjointRelation_THFTYPE_IIiioIIiioIoI) tptp.lBinaryPredicate_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.externalImage_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lSymbolicString_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.lessThan_THFTYPE_IiioI) tptp.lRelationExtendedToQuantities_THFTYPE_i))
% 2.18/2.71  (assert (@ (@ (@ tptp.domain_THFTYPE_IIoiioIiioI tptp.confersObligation_THFTYPE_IoiioI) tptp.n3_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i))
% 3.11/3.44  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.attribute_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 3.11/3.44  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.subGraph_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lGraph_THFTYPE_i))
% 3.11/3.44  (assert (@ (@ tptp.subrelation_THFTYPE_IiioI tptp.lDensityFn_THFTYPE_i) tptp.lPerFn_THFTYPE_i))
% 3.11/3.44  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.interiorPart_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 3.11/3.44  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIIooIioIoI tptp.immediateInstance_THFTYPE_IiioI) tptp.instance_THFTYPE_IIooIioI))
% 3.11/3.44  (declare-fun tptp.lBill_THFTYPE_i () $$unsorted)
% 3.11/3.44  (declare-fun tptp.lMary_THFTYPE_i () $$unsorted)
% 3.11/3.44  (declare-fun tptp.lSue_THFTYPE_i () $$unsorted)
% 3.11/3.44  (declare-fun tptp.likes_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 3.11/3.44  (declare-fun tptp.n2009_THFTYPE_i () $$unsorted)
% 3.11/3.44  (assert (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lYearFn_THFTYPE_IiiI tptp.n2009_THFTYPE_i)) (and (@ (@ tptp.likes_THFTYPE_IiioI tptp.lMary_THFTYPE_i) tptp.lBill_THFTYPE_i) (@ (@ tptp.likes_THFTYPE_IiioI tptp.lSue_THFTYPE_i) tptp.lBill_THFTYPE_i))))
% 3.11/3.44  (assert (not (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lYearFn_THFTYPE_IiiI tptp.n2009_THFTYPE_i)) (and (@ (@ tptp.likes_THFTYPE_IiioI tptp.lSue_THFTYPE_i) tptp.lBill_THFTYPE_i) (@ (@ tptp.likes_THFTYPE_IiioI tptp.lMary_THFTYPE_i) tptp.lBill_THFTYPE_i)))))
% 3.11/3.44  (set-info :filename cvc5---1.0.5_19358)
% 3.11/3.44  (check-sat-assuming ( true ))
% 3.11/3.44  ------- get file name : TPTP file name is CSR151^3
% 3.11/3.44  ------- cvc5-thf : /export/starexec/sandbox/solver/bin/cvc5---1.0.5_19358.smt2...
% 3.11/3.44  --- Run --ho-elim --full-saturate-quant at 10...
% 3.11/3.44  % SZS status Theorem for CSR151^3
% 3.11/3.44  % SZS output start Proof for CSR151^3
% 3.11/3.44  (
% 3.11/3.44  (let ((_let_1 (@ (@ tptp.likes_THFTYPE_IiioI tptp.lMary_THFTYPE_i) tptp.lBill_THFTYPE_i))) (let ((_let_2 (@ (@ tptp.likes_THFTYPE_IiioI tptp.lSue_THFTYPE_i) tptp.lBill_THFTYPE_i))) (let ((_let_3 (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lYearFn_THFTYPE_IiiI tptp.n2009_THFTYPE_i)))) (let ((_let_4 (not (@ _let_3 (and _let_2 _let_1))))) (let ((_let_5 (@ _let_3 (and _let_1 _let_2)))) (let ((_let_6 (@ tptp.instance_THFTYPE_IIiioIioI tptp.interiorPart_THFTYPE_IiioI))) (let ((_let_7 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.subGraph_THFTYPE_IiioI))) (let ((_let_8 (@ tptp.domain_THFTYPE_IIoiioIiioI tptp.confersObligation_THFTYPE_IoiioI))) (let ((_let_9 (@ tptp.instance_THFTYPE_IIiioIioI tptp.lessThan_THFTYPE_IiioI))) (let ((_let_10 (@ tptp.domain_THFTYPE_IiiioI tptp.externalImage_THFTYPE_i))) (let ((_let_11 (@ tptp.instance_THFTYPE_IIIiioIIiioIoIioI tptp.disjointRelation_THFTYPE_IIiioIIiioIoI))) (let ((_let_12 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.path_THFTYPE_IiioI))) (let ((_let_13 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.direction_THFTYPE_IiioI))) (let ((_let_14 (@ tptp.instance_THFTYPE_IIiioIioI tptp.before_THFTYPE_IiioI))) (let ((_let_15 (@ tptp.domain_THFTYPE_IIoiioIiioI tptp.confersRight_THFTYPE_IoiioI))) (let ((_let_16 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.father_THFTYPE_IiioI))) (let ((_let_17 (@ tptp.domain_THFTYPE_IiiioI tptp.lSubtractionFn_THFTYPE_i))) (let ((_let_18 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.successorAttribute_THFTYPE_IiioI))) (let ((_let_19 (@ tptp.instance_THFTYPE_IIiioIioI tptp.traverses_THFTYPE_IiioI))) (let ((_let_20 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.copy_THFTYPE_IiioI))) (let ((_let_21 (@ tptp.instance_THFTYPE_IIiioIioI tptp.wants_THFTYPE_IiioI))) (let ((_let_22 (@ tptp.instance_THFTYPE_IiioI tptp.lMaxFn_THFTYPE_i))) (let ((_let_23 (@ tptp.domain_THFTYPE_IiiioI tptp.lRelativeComplementFn_THFTYPE_i))) (let ((_let_24 (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.equivalentContentClass_THFTYPE_IiioI))) (let ((_let_25 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.inList_THFTYPE_IiioI))) (let ((_let_26 (@ tptp.domain_THFTYPE_IiiioI tptp.relatedExternalConcept_THFTYPE_i))) (let ((_let_27 (@ tptp.instance_THFTYPE_IIoooIioI tptp.consistent_THFTYPE_IoooI))) (let ((_let_28 (@ tptp.instance_THFTYPE_IIIioIiIioI tptp.lCardinalityFn_THFTYPE_IIioIiI))) (let ((_let_29 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.top_THFTYPE_IiioI))) (let ((_let_30 (@ tptp.instance_THFTYPE_IIiiIioI tptp.lFutureFn_THFTYPE_IiiI))) (let ((_let_31 (@ tptp.instance_THFTYPE_IIiioIioI tptp.geopoliticalSubdivision_THFTYPE_IiioI))) (let ((_let_32 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.during_THFTYPE_IiioI))) (let ((_let_33 (@ tptp.domain_THFTYPE_IIioooIiioI tptp.prefers_THFTYPE_IioooI))) (let ((_let_34 (@ tptp.domain_THFTYPE_IIIiioIioIiioI tptp.irreflexiveOn_THFTYPE_IIiioIioI))) (let ((_let_35 (@ tptp.instance_THFTYPE_IIIioIioIioI tptp.valence_THFTYPE_IIioIioI))) (let ((_let_36 (@ tptp.instance_THFTYPE_IiioI tptp.lMinFn_THFTYPE_i))) (let ((_let_37 (@ tptp.instance_THFTYPE_IIIoioIIiioIoIioI tptp.subrelation_THFTYPE_IIoioIIiioIoI))) (let ((_let_38 (@ tptp.instance_THFTYPE_IiioI tptp.lMereologicalSumFn_THFTYPE_i))) (let ((_let_39 (@ tptp.domain_THFTYPE_IIiooIiioI tptp.considers_THFTYPE_IiooI))) (let ((_let_40 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.barometricPressure_THFTYPE_IiioI))) (let ((_let_41 (@ tptp.instance_THFTYPE_IiioI tptp.lMeter_THFTYPE_i))) (let ((_let_42 (@ tptp.instance_THFTYPE_IIiioIioI tptp.graphPart_THFTYPE_IiioI))) (let ((_let_43 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.beforeOrEqual_THFTYPE_IiioI))) (let ((_let_44 (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.temporallyBetween_THFTYPE_IiiioI))) (let ((_let_45 (@ tptp.instance_THFTYPE_IiioI tptp.lEndNodeFn_THFTYPE_i))) (let ((_let_46 (@ tptp.domain_THFTYPE_IIoooIiioI tptp.premise_THFTYPE_IoooI))) (let ((_let_47 (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.pointOfIntersection_THFTYPE_IiiioI))) (let ((_let_48 (@ tptp.domain_THFTYPE_IIiiiIiioI tptp.lExponentiationFn_THFTYPE_IiiiI))) (let ((_let_49 (@ tptp.domain_THFTYPE_IiiioI tptp.lMereologicalDifferenceFn_THFTYPE_i))) (let ((_let_50 (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.between_THFTYPE_IiiioI))) (let ((_let_51 (@ tptp.domain_THFTYPE_IIoooIiioI tptp.truth_THFTYPE_IoooI))) (let ((_let_52 (@ tptp.domain_THFTYPE_IiiioI tptp.equal_THFTYPE_i))) (let ((_let_53 (@ tptp.instance_THFTYPE_IIiioIioI tptp.time_THFTYPE_IiioI))) (let ((_let_54 (@ tptp.instance_THFTYPE_IIiioIioI tptp.partlyLocated_THFTYPE_IiioI))) (let ((_let_55 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.son_THFTYPE_IiioI))) (let ((_let_56 (@ tptp.instance_THFTYPE_IiioI tptp.lWeber_THFTYPE_i))) (let ((_let_57 (@ tptp.domain_THFTYPE_IiiioI tptp.lKappaFn_THFTYPE_i))) (let ((_let_58 (@ tptp.domain_THFTYPE_IiiioI tptp.subPlan_THFTYPE_i))) (let ((_let_59 (@ tptp.instance_THFTYPE_IiioI tptp.lDenominatorFn_THFTYPE_i))) (let ((_let_60 (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lRecurrentTimeIntervalFn_THFTYPE_IiiiI))) (let ((_let_61 (@ tptp.instance_THFTYPE_IIiioIioI tptp.overlapsTemporally_THFTYPE_IiioI))) (let ((_let_62 (@ tptp.instance_THFTYPE_IIiioIioI tptp.average_THFTYPE_IiioI))) (let ((_let_63 (@ tptp.instance_THFTYPE_IIoiIioI tptp.lProbabilityFn_THFTYPE_IoiI))) (let ((_let_64 (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.temporallyBetweenOrEqual_THFTYPE_IiiioI))) (let ((_let_65 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.radius_THFTYPE_IiioI))) (let ((_let_66 (@ tptp.domain_THFTYPE_IIIIioIIiioIioIiioIiioI tptp.domainSubclass_THFTYPE_IIIioIIiioIioIiioI))) (let ((_let_67 (@ tptp.domain_THFTYPE_IiiioI tptp.weight_THFTYPE_i))) (let ((_let_68 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.relative_THFTYPE_IiioI))) (let ((_let_69 (@ tptp.domain_THFTYPE_IiiioI tptp.lListConcatenateFn_THFTYPE_i))) (let ((_let_70 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.partiallyFills_THFTYPE_IiioI))) (let ((_let_71 (@ tptp.instance_THFTYPE_IIoioIioI tptp.modalAttribute_THFTYPE_IoioI))) (let ((_let_72 (@ tptp.instance_THFTYPE_IIiioIioI tptp.diameter_THFTYPE_IiioI))) (let ((_let_73 (@ tptp.instance_THFTYPE_IIiioIioI tptp.possesses_THFTYPE_IiioI))) (let ((_let_74 (@ tptp.domain_THFTYPE_IIoioIiioI tptp.modalAttribute_THFTYPE_IoioI))) (let ((_let_75 (@ tptp.instance_THFTYPE_IiioI tptp.lOhm_THFTYPE_i))) (let ((_let_76 (@ tptp.instance_THFTYPE_IIiooIioI tptp.holdsDuring_THFTYPE_IiooI))) (let ((_let_77 (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.greaterThanByQuality_THFTYPE_IiiioI))) (let ((_let_78 (@ tptp.domain_THFTYPE_IiiioI tptp.lMinimalWeightedPathFn_THFTYPE_i))) (let ((_let_79 (@ tptp.instance_THFTYPE_IIiioIioI tptp.needs_THFTYPE_IiioI))) (let ((_let_80 (@ tptp.instance_THFTYPE_IIiioIioI tptp.sibling_THFTYPE_IiioI))) (let ((_let_81 (@ tptp.instance_THFTYPE_IIIiioIioIioI tptp.irreflexiveOn_THFTYPE_IIiioIioI))) (let ((_let_82 (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.fills_THFTYPE_IiioI))) (let ((_let_83 (@ tptp.instance_THFTYPE_IIiioIioI tptp.element_THFTYPE_IiioI))) (let ((_let_84 (@ tptp.instance_THFTYPE_IIIiioIioIioI 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k_555 tptp.lMary_THFTYPE_i) tptp.lBill_THFTYPE_i))) (let ((_let_622 (and _let_621 _let_620))) (let ((_let_623 (MACRO_SR_PRED_INTRO :args ((= _let_622 BOOLEAN_TERM_VARIABLE_66869))))) (let ((_let_624 (REFL :args (_let_616)))) (let ((_let_625 (EQ_RESOLVE (ASSUME :args (_let_5)) (TRANS (PREPROCESS :args ((= _let_5 (ho_40 _let_616 _let_622)))) (CONG _let_624 _let_623 :args _let_619))))) (let ((_let_626 (and _let_620 _let_621))) (let ((_let_627 (MACRO_SR_PRED_INTRO :args ((= _let_626 BOOLEAN_TERM_VARIABLE_66878))))) (let ((_let_628 (EQ_RESOLVE (ASSUME :args (_let_4)) (TRANS (PREPROCESS :args ((= _let_4 (not (ho_40 _let_616 _let_626))))) (CONG (CONG _let_624 _let_627 :args _let_619) :args (not)))))) (let ((_let_629 (not BOOLEAN_TERM_VARIABLE_66869))) (let ((_let_630 (not _let_622))) (let ((_let_631 (not _let_621))) (let ((_let_632 (not _let_626))) (let ((_let_633 (EQUIV_ELIM2 _let_623))) (let ((_let_634 (EQUIV_ELIM2 _let_627))) (let ((_let_635 (not _let_617))) (let ((_let_636 (or))) (let ((_let_637 (not BOOLEAN_TERM_VARIABLE_66878))) (let ((_let_638 (not _let_618))) (let ((_let_639 (MACRO_SR_PRED_INTRO :args ((= (not _let_638) _let_618))))) (let ((_let_640 (REFL :args (_let_635)))) (let ((_let_641 (TRUE_INTRO _let_625))) (let ((_let_642 (_let_629))) (let ((_let_643 (ASSUME :args _let_642))) (let ((_let_644 (_let_637))) (let ((_let_645 (ASSUME :args _let_644))) (let ((_let_646 (SYMM (FALSE_INTRO _let_628)))) (let ((_let_647 (REORDERING (EQ_RESOLVE (NOT_AND (MACRO_SR_PRED_TRANSFORM (SCOPE (AND_INTRO _let_625 _let_643 _let_645 _let_628) :args (_let_617 _let_638 _let_629 _let_637)) (SCOPE (MACRO_SR_PRED_ELIM (TRANS _let_646 (CONG _let_624 (TRANS (FALSE_INTRO _let_645) (SYMM (FALSE_INTRO _let_643))) :args _let_619) _let_641)) :args (_let_617 _let_629 _let_637 _let_638)) :args ((not (and _let_617 _let_638 _let_629 _let_637)) SB_LITERAL))) (CONG _let_640 _let_639 (MACRO_SR_PRED_INTRO :args ((= (not _let_629) BOOLEAN_TERM_VARIABLE_66869))) (MACRO_SR_PRED_INTRO :args ((= (not _let_637) BOOLEAN_TERM_VARIABLE_66878))) :args _let_636)) :args ((or BOOLEAN_TERM_VARIABLE_66869 BOOLEAN_TERM_VARIABLE_66878 _let_618 _let_635))))) (let ((_let_648 (not _let_620))) (let ((_let_649 (ASSUME :args (BOOLEAN_TERM_VARIABLE_66869)))) (let ((_let_650 (ASSUME :args (BOOLEAN_TERM_VARIABLE_66878)))) (let ((_let_651 (MACRO_RESOLUTION_TRUST (MACRO_RESOLUTION_TRUST (REORDERING (EQ_RESOLVE (NOT_AND (MACRO_SR_PRED_TRANSFORM (SCOPE (AND_INTRO _let_625 _let_649 _let_650 _let_628) :args (BOOLEAN_TERM_VARIABLE_66869 _let_617 BOOLEAN_TERM_VARIABLE_66878 _let_638)) (SCOPE (MACRO_SR_PRED_ELIM (TRANS _let_646 (CONG _let_624 (TRANS (TRUE_INTRO _let_650) (SYMM (TRUE_INTRO _let_649))) :args _let_619) _let_641)) :args (_let_617 BOOLEAN_TERM_VARIABLE_66869 BOOLEAN_TERM_VARIABLE_66878 _let_638)) :args ((not (and BOOLEAN_TERM_VARIABLE_66869 _let_617 BOOLEAN_TERM_VARIABLE_66878 _let_638)) SB_LITERAL))) (CONG (REFL :args _let_642) _let_640 (REFL :args _let_644) _let_639 :args _let_636)) :args ((or _let_618 _let_635 _let_629 _let_637))) _let_628 _let_625 (REORDERING (EQUIV_ELIM1 _let_627) :args ((or BOOLEAN_TERM_VARIABLE_66878 _let_632))) (REORDERING (EQUIV_ELIM1 _let_623) :args ((or BOOLEAN_TERM_VARIABLE_66869 _let_630))) (REORDERING (CNF_AND_NEG :args (_let_626)) :args ((or _let_626 _let_631 _let_648))) (CNF_AND_NEG :args (_let_622)) :args ((or _let_631 _let_648) true _let_618 false _let_617 false BOOLEAN_TERM_VARIABLE_66878 false BOOLEAN_TERM_VARIABLE_66869 false _let_626 false _let_622)) (MACRO_RESOLUTION_TRUST _let_647 _let_628 _let_625 _let_634 _let_633 (REORDERING (CNF_AND_POS :args (_let_626 0)) :args ((or _let_620 _let_632))) (REORDERING (CNF_AND_POS :args (_let_622 1)) :args ((or _let_620 _let_630))) :args (_let_620 true _let_618 false _let_617 true BOOLEAN_TERM_VARIABLE_66878 true BOOLEAN_TERM_VARIABLE_66869 true _let_626 true _let_622)) :args (_let_631 false _let_620)))) (SCOPE (SCOPE (MACRO_RESOLUTION_TRUST _let_647 (MACRO_RESOLUTION_TRUST _let_634 (MACRO_RESOLUTION_TRUST (REORDERING (CNF_AND_POS :args (_let_626 1)) :args ((or _let_621 _let_632))) _let_651 :args (_let_632 true _let_621)) :args (_let_637 true _let_626)) (MACRO_RESOLUTION_TRUST _let_633 (MACRO_RESOLUTION_TRUST (REORDERING (CNF_AND_POS :args (_let_622 0)) :args ((or _let_621 _let_630))) _let_651 :args (_let_630 true _let_621)) :args (_let_629 true _let_622)) _let_628 _let_625 :args (false true BOOLEAN_TERM_VARIABLE_66878 true BOOLEAN_TERM_VARIABLE_66869 true _let_618 false _let_617)) :args ((@ (@ tptp.identityElement_THFTYPE_IIiiiIioI tptp.lAdditionFn_THFTYPE_IiiiI) tptp.n0_THFTYPE_i) (forall ((PROC $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lOrganOrTissueProcess_THFTYPE_i) (exists ((THING $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI THING))) (and (@ (@ tptp.located_THFTYPE_IiioI PROC) THING) (or (@ _let_1 tptp.lOrgan_THFTYPE_i) (@ _let_1 tptp.lTissue_THFTYPE_i))))))) (forall ((NUMBER1 $$unsorted) (LIST $$unsorted)) (=> (and (= (@ tptp.lListLengthFn_THFTYPE_IiiI LIST) NUMBER1) (@ (@ tptp.instance_THFTYPE_IiioI LIST) tptp.lList_THFTYPE_i) (not (= LIST tptp.lNullList_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI NUMBER1) tptp.lPositiveInteger_THFTYPE_i)) (forall ((NUMBER2 $$unsorted)) (= (exists ((ITEM $$unsorted)) (and (= (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST) NUMBER2) ITEM) (@ (@ tptp.inList_THFTYPE_IiioI ITEM) LIST))) (@ (@ tptp.ltet_THFTYPE_IiioI NUMBER2) NUMBER1))))) (forall ((ROLE (-> $$unsorted $$unsorted Bool)) (ARG1 $$unsorted) (ARG2 $$unsorted) (PROC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IIiioIioI ROLE) tptp.lCaseRole_THFTYPE_i) (@ (@ ROLE ARG1) ARG2) (@ (@ tptp.instance_THFTYPE_IiioI ARG1) PROC) (@ (@ tptp.subclass_THFTYPE_IiioI PROC) tptp.lProcess_THFTYPE_i)) (@ (@ (@ tptp.capability_THFTYPE_IiIiioIioI PROC) ROLE) ARG2))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnitOfMeasure_THFTYPE_i) tptp.lPhysicalQuantity_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCooling_THFTYPE_i) tptp.lDecreasing_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lPremisesFn_THFTYPE_i) tptp.lProposition_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAnimalAnatomicalStructure_THFTYPE_i) tptp.lAnatomicalStructure_THFTYPE_i) (@ _let_574 tptp.lQuintaryRelation_THFTYPE_i) (forall ((GRAPH $$unsorted) (PATH $$unsorted) (NODE1 $$unsorted) (NODE2 $$unsorted)) (=> (and (@ (@ tptp.graphPart_THFTYPE_IiioI PATH) GRAPH) (not (@ (@ tptp.instance_THFTYPE_IiioI GRAPH) tptp.lDirectedGraph_THFTYPE_i))) (= (= (@ (@ tptp.lGraphPathFn_THFTYPE_IiiiI NODE1) NODE2) PATH) (= (@ (@ tptp.lGraphPathFn_THFTYPE_IiiiI NODE2) NODE1) PATH)))) (@ _let_521 tptp.lBinaryRelation_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lJudicialOrganization_THFTYPE_i) tptp.lOrganization_THFTYPE_i) (forall ((SOUND $$unsorted) (EMIT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI EMIT) tptp.lRadiatingSound_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI EMIT) SOUND)) (exists ((ATTR $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lSoundAttribute_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI SOUND) ATTR))))) (forall ((MINUTE $$unsorted) (SECOND2 $$unsorted) (SECOND1 $$unsorted) (NUMBER2 $$unsorted) (NUMBER1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI SECOND1) (@ (@ tptp.lSecondFn_THFTYPE_IiiiI NUMBER1) MINUTE)) (@ (@ tptp.instance_THFTYPE_IiioI SECOND2) (@ (@ tptp.lSecondFn_THFTYPE_IiiiI NUMBER2) MINUTE)) (= (@ (@ tptp.minus_THFTYPE_IiiiI NUMBER2) NUMBER1) tptp.n1_THFTYPE_i)) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI SECOND1) SECOND2))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAttaching_THFTYPE_i) tptp.lDualObjectProcess_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTherapeuticProcess_THFTYPE_i) tptp.lRepairing_THFTYPE_i) (forall ((ARC $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ARC) tptp.lGraphArc_THFTYPE_i) (exists ((NODE1 $$unsorted) (NODE2 $$unsorted)) (@ (@ (@ tptp.links_THFTYPE_IiiioI NODE1) NODE2) ARC)))) (@ (@ _let_591 tptp.lSyntheticSubstance_THFTYPE_i) tptp.lNaturalSubstance_THFTYPE_i) (@ _let_606 tptp.lIrreflexiveRelation_THFTYPE_i) (forall ((SENT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SENT) tptp.lSentence_THFTYPE_i) (exists ((PROP Bool)) (and (@ (@ tptp.instance_THFTYPE_IoioI PROP) tptp.lProposition_THFTYPE_i) (@ (@ tptp.containsInformation_THFTYPE_IiooI SENT) PROP))))) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lPoundMass_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n453dot59237_THFTYPE_i)) tptp.lGram_THFTYPE_i)))) (forall ((GIVE $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI GIVE) tptp.lGiving_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI GIVE) AGENT)) (@ (@ tptp.origin_THFTYPE_IiioI GIVE) AGENT))) (forall ((E2 $$unsorted) (ATT $$unsorted) (E1 $$unsorted)) (=> (@ (@ (@ tptp.greaterThanByQuality_THFTYPE_IiiioI E1) E2) ATT) (not (@ (@ (@ tptp.greaterThanByQuality_THFTYPE_IiiioI E2) E1) ATT)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lReproductiveBody_THFTYPE_i) tptp.lBodyPart_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFinancialTransaction_THFTYPE_i) tptp.lTransaction_THFTYPE_i) (forall ((FORMULA Bool)) (let ((_let_1 (@ tptp.modalAttribute_THFTYPE_IoioI FORMULA))) (=> (@ _let_1 tptp.lNecessity_THFTYPE_i) (@ _let_1 tptp.lPossibility_THFTYPE_i)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGraphCircuit_THFTYPE_i) tptp.lGraphPath_THFTYPE_i) (forall ((OBJ $$unsorted) (PURSUE $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PURSUE) tptp.lPursuing_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PURSUE) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI PURSUE) OBJ)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI PURSUE) (@ (@ tptp.wants_THFTYPE_IiioI AGENT) OBJ)))) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lWarmBloodedVertebrate_THFTYPE_i) tptp.lColdBloodedVertebrate_THFTYPE_i) (forall ((NUMBER $$unsorted) (QUANT $$unsorted) (UNIT $$unsorted)) (=> (and (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) UNIT) QUANT) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfDuration_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI QUANT) tptp.lTimeDuration_THFTYPE_i))) (@ _let_605 tptp.lDualObjectProcess_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAugust_THFTYPE_i) tptp.lMonth_THFTYPE_i) (forall ((VIRUS $$unsorted) (PROC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI VIRUS) tptp.lVirus_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lReplication_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PROC) VIRUS)) (exists ((CELL $$unsorted)) (and (@ (@ tptp.located_THFTYPE_IiioI PROC) CELL) (@ (@ tptp.instance_THFTYPE_IiioI CELL) tptp.lCell_THFTYPE_i))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSexAttribute_THFTYPE_i) tptp.lBiologicalAttribute_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDrinking_THFTYPE_i) tptp.lIngesting_THFTYPE_i) (@ _let_567 tptp.lBeliefGroup_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lServiceProcess_THFTYPE_i) tptp.lSocialInteraction_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBiologicalProcess_THFTYPE_i) tptp.lInternalChange_THFTYPE_i) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ tptp.connected_THFTYPE_IiioI OBJ1) OBJ2) (or (@ (@ tptp.meetsSpatially_THFTYPE_IiioI OBJ1) OBJ2) (@ (@ tptp.overlapsSpatially_THFTYPE_IiioI OBJ1) OBJ2)))) (@ _let_532 tptp.lContentBearingPhysical_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lChemicalProcess_THFTYPE_i) tptp.lInternalChange_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lSquareRootFn_THFTYPE_i) tptp.lNumber_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCanine_THFTYPE_i) tptp.lCarnivore_THFTYPE_i) (forall ((COOL $$unsorted) (OBJ $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI COOL) tptp.lCooling_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI COOL) OBJ)) (exists ((UNIT $$unsorted) (QUANT1 $$unsorted) (QUANT2 $$unsorted)) (let ((_let_1 (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI OBJ) UNIT))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI COOL))) (and (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lTemperatureMeasure_THFTYPE_i) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (= _let_1 QUANT1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (= _let_1 QUANT2)) (@ (@ tptp.lt_THFTYPE_IiioI QUANT2) QUANT1))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lJudging_THFTYPE_i) tptp.lSelecting_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lHearing_THFTYPE_i) tptp.lPerception_THFTYPE_i) (@ _let_526 tptp.lPredicate_THFTYPE_i) (forall ((OBJ $$unsorted) (ATTACK $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ATTACK) tptp.lAttack_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI ATTACK) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI ATTACK) OBJ)) (@ (@ (@ tptp.hasPurposeForAgent_THFTYPE_IioioI ATTACK) (exists ((DAMAGE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI DAMAGE) tptp.lDamaging_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI DAMAGE) OBJ)))) AGENT))) (@ _let_571 tptp.lOrganismProcess_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDrying_THFTYPE_i) tptp.lRemoving_THFTYPE_i) (forall ((MELT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MELT) tptp.lMelting_THFTYPE_i) (exists ((HEAT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI HEAT) tptp.lHeating_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI HEAT) MELT))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCircle_THFTYPE_i) tptp.lOval_THFTYPE_i) (@ _let_612 tptp.lPositiveRealNumber_THFTYPE_i) (@ _let_527 tptp.lFinancialTransaction_THFTYPE_i) (forall ((BANK $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI BANK) tptp.lShoreArea_THFTYPE_i) (exists ((WATER $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI WATER) tptp.lWaterArea_THFTYPE_i) (@ (@ tptp.meetsSpatially_THFTYPE_IiioI BANK) WATER))))) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (let ((_let_1 (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2))) (= (@ _let_1 tptp.lAdjacent_THFTYPE_i) (or (@ _let_1 tptp.lNear_THFTYPE_i) (@ (@ tptp.connected_THFTYPE_IiioI OBJ1) OBJ2))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTransportationDevice_THFTYPE_i) tptp.lDevice_THFTYPE_i) (@ _let_585 tptp.lInheritableRelation_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTransportation_THFTYPE_i) tptp.lTranslocation_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSubatomicParticle_THFTYPE_i) tptp.lElementalSubstance_THFTYPE_i) (forall ((BACTERIUM $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI BACTERIUM) tptp.lBacterium_THFTYPE_i) (exists ((CELL1 $$unsorted)) (and (@ (@ tptp.component_THFTYPE_IiioI CELL1) BACTERIUM) (@ (@ tptp.instance_THFTYPE_IiioI CELL1) tptp.lCell_THFTYPE_i) (forall ((CELL2 $$unsorted)) (=> (and (@ (@ tptp.component_THFTYPE_IiioI CELL2) BACTERIUM) (@ (@ tptp.instance_THFTYPE_IiioI CELL2) tptp.lCell_THFTYPE_i)) (= CELL1 CELL2))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMicroorganism_THFTYPE_i) tptp.lOrganism_THFTYPE_i) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (= (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) tptp.lEast_THFTYPE_i) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ2) OBJ1) tptp.lWest_THFTYPE_i))) (@ _let_610 tptp.lTrichotomizingRelation_THFTYPE_i) (forall ((CLASS $$unsorted) (ROW $$unsorted)) (=> (@ (@ tptp.disjointDecomposition_THFTYPE_IiioI CLASS) ROW) (forall ((ITEM $$unsorted)) (=> (@ (@ tptp.inList_THFTYPE_IiioI ITEM) (@ tptp.lListFn_THFTYPE_IiiI ROW)) (@ (@ tptp.subclass_THFTYPE_IiioI ITEM) CLASS))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRelation_THFTYPE_i) tptp.lAbstract_THFTYPE_i) (forall ((OBJ $$unsorted) (MOTION $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MOTION) tptp.lGasMotion_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI MOTION) OBJ)) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) tptp.lGas_THFTYPE_i))) (forall ((YEAR $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI YEAR) tptp.lYear_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI YEAR) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1_THFTYPE_i) tptp.lYearDuration_THFTYPE_i)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDecember_THFTYPE_i) tptp.lMonth_THFTYPE_i) (@ _let_522 tptp.lRelation_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lTimeIntervalFn_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (forall ((HOLE $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (and (@ (@ tptp.properlyFills_THFTYPE_IiioI OBJ1) HOLE) (@ (@ tptp.connected_THFTYPE_IiioI OBJ2) OBJ1)) (@ (@ tptp.connected_THFTYPE_IiioI HOLE) OBJ2))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTemperatureMeasure_THFTYPE_i) tptp.lConstantQuantity_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDiseaseOrSyndrome_THFTYPE_i) tptp.lBiologicalAttribute_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDeductiveArgument_THFTYPE_i) tptp.lArgument_THFTYPE_i) (forall ((CLASS $$unsorted) (INTERVAL_TYPE $$unsorted) (INTERVAL $$unsorted)) (=> (= (@ (@ tptp.lTemporalCompositionFn_THFTYPE_IiiiI INTERVAL) INTERVAL_TYPE) CLASS) (forall ((TIME1 $$unsorted) (TIME2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TIME1) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI TIME2) CLASS) (not (= TIME1 TIME2))) (or (@ (@ tptp.meetsTemporally_THFTYPE_IiioI TIME1) TIME2) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI TIME2) TIME1) (@ (@ tptp.earlier_THFTYPE_IiioI TIME1) TIME2) (@ (@ tptp.earlier_THFTYPE_IiioI TIME2) TIME1)))))) (@ _let_524 tptp.lNegativeRealNumber_THFTYPE_i) (forall ((YEAR $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI YEAR) tptp.lYear_THFTYPE_i) (= (@ tptp.lCardinalityFn_THFTYPE_IiiI (@ (@ tptp.lTemporalCompositionFn_THFTYPE_IiiiI YEAR) tptp.lMonth_THFTYPE_i)) tptp.n12_THFTYPE_i))) (forall ((TIME2 $$unsorted) (TIME1 $$unsorted)) (=> (= (@ (@ tptp.lRelativeTimeFn_THFTYPE_IiiiI TIME1) tptp.lPacificTimeZone_THFTYPE_i) TIME2) (= TIME2 (@ (@ tptp.plus_THFTYPE_IiiiI TIME1) tptp.n8_THFTYPE_i)))) (forall ((FORMULA Bool) (AGENT2 $$unsorted) (AGENT1 $$unsorted)) (=> (@ (@ (@ tptp.confersRight_THFTYPE_IoiioI FORMULA) AGENT1) AGENT2) (@ (@ tptp.holdsRight_THFTYPE_IoioI FORMULA) AGENT2))) (forall ((PERSON $$unsorted) (ATTRIBUTE $$unsorted)) (=> (and (@ (@ tptp.attribute_THFTYPE_IiioI PERSON) ATTRIBUTE) (@ (@ tptp.instance_THFTYPE_IiioI ATTRIBUTE) tptp.lSocialRole_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI PERSON) tptp.lHuman_THFTYPE_i))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPredicting_THFTYPE_i) tptp.lIntentionalPsychologicalProcess_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWedding_THFTYPE_i) tptp.lDeclaring_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInvertebrate_THFTYPE_i) tptp.lAnimal_THFTYPE_i) (forall ((START $$unsorted) (FINISH $$unsorted) (DROP $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DROP) tptp.lFalling_THFTYPE_i) (@ (@ tptp.origin_THFTYPE_IiioI DROP) START) (@ (@ tptp.destination_THFTYPE_IiioI DROP) FINISH)) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI FINISH) START) tptp.lBelow_THFTYPE_i))) (forall ((ORG $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lOrganization_THFTYPE_i) (@ (@ tptp.member_THFTYPE_IiioI AGENT) ORG)) (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lAgent_THFTYPE_i))) (forall ((OBJ $$unsorted) (HOLE1 $$unsorted)) (=> (@ (@ tptp.properlyFills_THFTYPE_IiioI OBJ) HOLE1) (exists ((HOLE2 $$unsorted)) (and (@ (@ tptp.part_THFTYPE_IiioI HOLE2) HOLE1) (@ (@ tptp.fills_THFTYPE_IiioI OBJ) HOLE2))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBook_THFTYPE_i) tptp.lText_THFTYPE_i) (forall ((FORMULA Bool)) (let ((_let_1 (@ tptp.modalAttribute_THFTYPE_IoioI FORMULA))) (= (@ _let_1 tptp.lProhibition_THFTYPE_i) (not (@ _let_1 tptp.lPermission_THFTYPE_i))))) (forall ((EAT $$unsorted) (CARNIVORE $$unsorted) (PREY $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI CARNIVORE) tptp.lCarnivore_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI EAT) tptp.lEating_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI EAT) CARNIVORE) (@ (@ tptp.patient_THFTYPE_IiioI EAT) PREY)) (@ (@ tptp.instance_THFTYPE_IiioI PREY) tptp.lAnimal_THFTYPE_i))) (forall ((OBJ $$unsorted) (BACTERIUM $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI BACTERIUM) tptp.lBacterium_THFTYPE_i) (@ (@ tptp.inhabits_THFTYPE_IiioI BACTERIUM) OBJ)) (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lOrganism_THFTYPE_i))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCurrencyMeasure_THFTYPE_i) tptp.lConstantQuantity_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFatTissue_THFTYPE_i) tptp.lTissue_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lArthropod_THFTYPE_i) tptp.lInvertebrate_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lEvenInteger_THFTYPE_i) tptp.lInteger_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lJanuary_THFTYPE_i) tptp.lMonth_THFTYPE_i) (forall ((BOIL $$unsorted) (MELT $$unsorted) (TYPE $$unsorted)) (=> (and (@ (@ tptp.meltingPoint_THFTYPE_IiioI TYPE) MELT) (@ (@ tptp.boilingPoint_THFTYPE_IiioI TYPE) BOIL)) (@ (@ tptp.gtet_THFTYPE_IiioI BOIL) MELT))) (@ _let_576 tptp.lOrganization_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lBeginFn_THFTYPE_i) tptp.lTimePoint_THFTYPE_i) (forall ((OBJ $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lSelfConnectedObject_THFTYPE_i) (@ (@ tptp.side_THFTYPE_IiioI (@ tptp.lBackFn_THFTYPE_IiiI OBJ)) OBJ))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAir_THFTYPE_i) tptp.lGasMixture_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMyriapod_THFTYPE_i) tptp.lArthropod_THFTYPE_i) (@ (@ (@ (@ (@ (@ tptp.exhaustiveAttribute_THFTYPE_IiiiiiioI tptp.lPhysicalState_THFTYPE_i) tptp.lSolid_THFTYPE_i) tptp.lFluid_THFTYPE_i) tptp.lLiquid_THFTYPE_i) tptp.lGas_THFTYPE_i) tptp.lPlasma_THFTYPE_i) (forall ((HOLE $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (and (@ (@ tptp.fills_THFTYPE_IiioI OBJ1) HOLE) (@ (@ tptp.properPart_THFTYPE_IiioI OBJ2) OBJ1)) (@ (@ tptp.properlyFills_THFTYPE_IiioI OBJ2) HOLE))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFictionalText_THFTYPE_i) tptp.lText_THFTYPE_i) (forall ((ACT $$unsorted) (FOOD $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ACT) tptp.lIngesting_THFTYPE_i) (@ (@ tptp.resource_THFTYPE_IiioI ACT) FOOD)) (@ (@ tptp.instance_THFTYPE_IiioI FOOD) tptp.lFood_THFTYPE_i))) (@ _let_597 tptp.lResidentialBuilding_THFTYPE_i) (forall ((NUMBER $$unsorted) (ROW $$unsorted)) (=> (= (@ tptp.lGreatestCommonDivisorFn_THFTYPE_IiiI ROW) NUMBER) (forall ((ELEMENT $$unsorted)) (=> (@ (@ tptp.inList_THFTYPE_IiioI ELEMENT) (@ tptp.lListFn_THFTYPE_IiiI ROW)) (= (@ (@ tptp.lRemainderFn_THFTYPE_IiiiI ELEMENT) NUMBER) tptp.n0_THFTYPE_i))))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lIntegerSquareRootFn_THFTYPE_i) tptp.lNonnegativeInteger_THFTYPE_i) (forall ((QUANT $$unsorted) (N $$unsorted)) (=> (= QUANT (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI N) tptp.lAngularDegree_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI QUANT) tptp.lPlaneAngleMeasure_THFTYPE_i))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lMaxFn_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (forall ((AGENT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lCognitiveAgent_THFTYPE_i) (@ (@ (@ tptp.capability_THFTYPE_IiIiioIioI tptp.lReasoning_THFTYPE_i) tptp.agent_THFTYPE_IiioI) AGENT))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lIntransitiveRelation_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i) (@ (@ tptp.trichotomizingOn_THFTYPE_IIiioIioI tptp.greaterThanOrEqualTo_THFTYPE_IiioI) tptp.lRealNumber_THFTYPE_i) (forall ((AGENT $$unsorted) (REL (-> $$unsorted $$unsorted Bool)) (THING $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lObjectAttitude_THFTYPE_i) (@ (@ REL AGENT) THING)) (@ (@ tptp.instance_THFTYPE_IiioI THING) tptp.lPhysical_THFTYPE_i))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCorpuscularObject_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSequenceFunction_THFTYPE_i) tptp.lOneToOneFunction_THFTYPE_i) (forall ((OBJ $$unsorted) (DISCOVER $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DISCOVER) tptp.lDiscovering_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI DISCOVER) OBJ)) (exists ((PURSUE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PURSUE) tptp.lPursuing_THFTYPE_i) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI PURSUE)) (@ tptp.lWhenFn_THFTYPE_IiiI DISCOVER)))))) (@ _let_550 tptp.lPsychologicalAttribute_THFTYPE_i) (@ _let_562 tptp.lReproductiveBody_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCombining_THFTYPE_i) tptp.lDualObjectProcess_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAnimacyAttribute_THFTYPE_i) tptp.lBiologicalAttribute_THFTYPE_i) (forall ((QUANT2 $$unsorted) (OBJ $$unsorted) (QUANT1 $$unsorted) (PROC $$unsorted)) (let ((_let_1 (@ tptp.measure_THFTYPE_IiioI OBJ))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI PROC))) (=> (and (@ (@ tptp.resource_THFTYPE_IiioI PROC) OBJ) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (@ _let_1 QUANT1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (@ _let_1 QUANT2))) (@ (@ tptp.gt_THFTYPE_IiioI QUANT1) QUANT2))))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lHoleHostFn_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPhysicalState_THFTYPE_i) tptp.lInternalAttribute_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lKappaFn_THFTYPE_i) tptp.lClass_THFTYPE_i) (@ _let_614 tptp.lWeatherProcess_THFTYPE_i) (forall ((REL (-> $$unsorted $$unsorted Bool))) (= (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lIntransitiveRelation_THFTYPE_i) (forall ((INST1 $$unsorted) (INST2 $$unsorted) (INST3 $$unsorted)) (let ((_let_1 (@ REL INST1))) (=> (and (@ _let_1 INST2) (@ (@ REL INST2) INST3)) (not (@ _let_1 INST3))))))) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lCalorie_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n4dot1868_THFTYPE_i)) tptp.lJoule_THFTYPE_i)))) (forall ((CONTEST $$unsorted) (MANEUVER $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI MANEUVER))) (=> (and (@ _let_1 tptp.lManeuver_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI CONTEST) tptp.lViolentContest_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI MANEUVER) CONTEST)) (or (@ _let_1 tptp.lAttack_THFTYPE_i) (@ _let_1 tptp.lDefensiveManeuver_THFTYPE_i))))) (forall ((O $$unsorted) (S $$unsorted) (TOP $$unsorted)) (=> (and (@ (@ tptp.top_THFTYPE_IiioI TOP) O) (@ (@ tptp.side_THFTYPE_IiioI S) O)) (not (= TOP S)))) (forall ((WAY $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI WAY) tptp.lTransitway_THFTYPE_i) (@ tptp.hasPurpose_THFTYPE_IooI (exists ((TRANSPORT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI TRANSPORT) tptp.lTransportation_THFTYPE_i) (@ (@ tptp.path_THFTYPE_IiioI TRANSPORT) WAY)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInheritableRelation_THFTYPE_i) tptp.lRelation_THFTYPE_i) (forall ((OBJ $$unsorted) (PLAN Bool)) (=> (and (@ (@ tptp.instance_THFTYPE_IoioI PLAN) tptp.lPlan_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lContentBearingObject_THFTYPE_i) (@ (@ tptp.containsInformation_THFTYPE_IiooI OBJ) PLAN)) (exists ((PLANNING $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PLANNING) tptp.lPlanning_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI PLANNING) OBJ))))) (@ (@ (@ (@ tptp.partition_THFTYPE_IiiiioI tptp.lOrganism_THFTYPE_i) tptp.lAnimal_THFTYPE_i) tptp.lPlant_THFTYPE_i) tptp.lMicroorganism_THFTYPE_i) (@ _let_573 tptp.lAutonomicProcess_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCertificate_THFTYPE_i) tptp.lText_THFTYPE_i) (forall ((NUMBER $$unsorted) (QUANT $$unsorted) (UNIT $$unsorted)) (=> (and (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) UNIT) QUANT) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfVolume_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI QUANT) tptp.lVolumeMeasure_THFTYPE_i))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTextureAttribute_THFTYPE_i) tptp.lPerceptualAttribute_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lParticleWord_THFTYPE_i) tptp.lWord_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMoss_THFTYPE_i) tptp.lNonFloweringPlant_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPlan_THFTYPE_i) tptp.lProcedure_THFTYPE_i) (forall ((MONTH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MONTH) tptp.lJuly_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI MONTH) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n31_THFTYPE_i) tptp.lDayDuration_THFTYPE_i)))) (@ (@ tptp.subAttribute_THFTYPE_IiioI tptp.lEmbryonic_THFTYPE_i) tptp.lNonFullyFormed_THFTYPE_i) (@ _let_539 tptp.lRelation_THFTYPE_i) (forall ((MILLIUNIT $$unsorted) (UNIT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfMeasure_THFTYPE_i) (= MILLIUNIT (@ tptp.lMilliFn_THFTYPE_IiiI UNIT))) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1_THFTYPE_i) MILLIUNIT) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n0dot001_THFTYPE_i) UNIT)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lVerb_THFTYPE_i) tptp.lWord_THFTYPE_i) (forall ((ACT $$unsorted) (ANIMAL $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ACT) tptp.lSurgery_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI ACT) ANIMAL)) (exists ((SUBACT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI SUBACT) tptp.lCutting_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI ANIMAL) tptp.lAnimal_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI SUBACT) ANIMAL) (@ (@ tptp.subProcess_THFTYPE_IiioI SUBACT) ACT))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLearning_THFTYPE_i) tptp.lIntentionalPsychologicalProcess_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSport_THFTYPE_i) tptp.lGame_THFTYPE_i) (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lPowerSetFn_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (forall ((OBJ $$unsorted) (FUNGUS $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI FUNGUS) tptp.lFungus_THFTYPE_i) (@ (@ tptp.inhabits_THFTYPE_IiioI FUNGUS) OBJ)) (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lOrganism_THFTYPE_i))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDefensiveManeuver_THFTYPE_i) tptp.lManeuver_THFTYPE_i) (forall ((GRAB $$unsorted) (AGENT $$unsorted) (THING $$unsorted)) (let ((_let_1 (@ (@ tptp.grasps_THFTYPE_IiioI AGENT) THING))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI GRAB))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI GRAB) tptp.lGrabbing_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI GRAB) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI GRAB) THING)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (not _let_1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) _let_1)))))) (@ (@ tptp.subAttribute_THFTYPE_IiioI tptp.lPlasma_THFTYPE_i) tptp.lFluid_THFTYPE_i) (forall ((ALT $$unsorted) (OBJ $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ALT) tptp.lShapeChange_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI ALT) OBJ)) (exists ((PROPERTY $$unsorted)) (let ((_let_1 (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) PROPERTY))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI ALT))) (let ((_let_3 (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)))) (let ((_let_4 (not _let_1))) (let ((_let_5 (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)))) (and (@ (@ tptp.instance_THFTYPE_IiioI PROPERTY) tptp.lShapeAttribute_THFTYPE_i) (or (and (@ _let_5 _let_1) (@ _let_3 _let_4)) (and (@ _let_5 _let_4) (@ _let_3 _let_1)))))))))))) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lKilogram_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n1000_THFTYPE_i)) tptp.lGram_THFTYPE_i)))) (forall ((DAY $$unsorted) (NUMBER $$unsorted) (HOUR $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI HOUR) (@ (@ tptp.lHourFn_THFTYPE_IiiiI NUMBER) DAY)) (@ (@ tptp.lt_THFTYPE_IiioI NUMBER) tptp.n24_THFTYPE_i))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lApe_THFTYPE_i) tptp.lPrimate_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGivingBack_THFTYPE_i) tptp.lGiving_THFTYPE_i) (forall ((TIME $$unsorted) (PHYS $$unsorted)) (let ((_let_1 (@ tptp.lWhenFn_THFTYPE_IiiI PHYS))) (= (and (@ (@ tptp.time_THFTYPE_IiioI PHYS) TIME) (@ (@ tptp.instance_THFTYPE_IiioI TIME) tptp.lTimePoint_THFTYPE_i)) (@ (@ (@ tptp.temporallyBetweenOrEqual_THFTYPE_IiiioI (@ tptp.lBeginFn_THFTYPE_IiiI _let_1)) TIME) (@ tptp.lEndFn_THFTYPE_IiiI _let_1))))) (forall ((AGENT $$unsorted) (ENTITY $$unsorted) (REP $$unsorted)) (=> (@ (@ (@ tptp.representsForAgent_THFTYPE_IiiioI REP) ENTITY) AGENT) (@ (@ tptp.represents_THFTYPE_IiioI REP) ENTITY))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lImpacting_THFTYPE_i) tptp.lTouching_THFTYPE_i) (forall ((REL2 $$unsorted) (NUMBER $$unsorted) (CLASS1 $$unsorted) (CLASS2 $$unsorted) (REL1 $$unsorted)) (=> (and (@ (@ (@ tptp.domainSubclass_THFTYPE_IiiioI REL1) NUMBER) CLASS1) (@ (@ (@ tptp.domainSubclass_THFTYPE_IiiioI REL2) NUMBER) CLASS2) (@ (@ tptp.disjoint_THFTYPE_IiioI CLASS1) CLASS2)) (@ (@ tptp.disjointRelation_THFTYPE_IiioI REL1) REL2))) (forall ((PROCESS $$unsorted) (ORGANISM $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ORGANISM) tptp.lOrganism_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PROCESS) ORGANISM)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI PROCESS)) (@ (@ tptp.attribute_THFTYPE_IiioI ORGANISM) tptp.lLiving_THFTYPE_i)))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lHoleSkinFn_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ _let_534 tptp.lTouching_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lClass_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lShapeChange_THFTYPE_i) tptp.lInternalChange_THFTYPE_i) (@ (@ _let_596 tptp.lNegativeInteger_THFTYPE_i) tptp.lNonnegativeInteger_THFTYPE_i) (@ _let_615 tptp.lUnaryFunction_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lStationaryArtifact_THFTYPE_i) tptp.lArtifact_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSolidAngleMeasure_THFTYPE_i) tptp.lAngleMeasure_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFish_THFTYPE_i) tptp.lColdBloodedVertebrate_THFTYPE_i) (@ _let_558 tptp.lChemicalProcess_THFTYPE_i) (forall ((CLASS1 $$unsorted) (CLASS2 $$unsorted)) (= (and (@ (@ tptp.subsumesContentClass_THFTYPE_IiioI CLASS1) CLASS2) (@ (@ tptp.subsumesContentClass_THFTYPE_IiioI CLASS2) CLASS1)) (@ (@ tptp.equivalentContentClass_THFTYPE_IiioI CLASS1) CLASS2))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTimeMeasure_THFTYPE_i) tptp.lConstantQuantity_THFTYPE_i) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lByte_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n8_THFTYPE_i)) tptp.lBit_THFTYPE_i)))) (forall ((SECOND $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SECOND) tptp.lSecond_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI SECOND) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1_THFTYPE_i) tptp.lSecondDuration_THFTYPE_i)))) (forall ((OBJ $$unsorted) (REGION $$unsorted)) (=> (@ (@ tptp.exactlyLocated_THFTYPE_IiioI OBJ) REGION) (not (exists ((OTHEROBJ $$unsorted)) (and (@ (@ tptp.exactlyLocated_THFTYPE_IiioI OTHEROBJ) REGION) (not (= OTHEROBJ OBJ))))))) (forall ((COVER $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI COVER) tptp.lBodyCovering_THFTYPE_i) (exists ((BODY $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI BODY))) (and (@ (@ tptp.superficialPart_THFTYPE_IiioI COVER) BODY) (or (@ _let_1 tptp.lOrganism_THFTYPE_i) (@ _let_1 tptp.lBodyPart_THFTYPE_i))))))) (forall ((TIME $$unsorted) (SITUATION Bool)) (let ((_let_1 (@ tptp.holdsDuring_THFTYPE_IiooI TIME))) (=> (@ _let_1 (not SITUATION)) (not (@ _let_1 SITUATION))))) (forall ((INTERVAL1 $$unsorted) (INTERVAL2 $$unsorted)) (= (@ (@ tptp.overlapsTemporally_THFTYPE_IiioI INTERVAL1) INTERVAL2) (exists ((INTERVAL3 $$unsorted)) (let ((_let_1 (@ tptp.temporalPart_THFTYPE_IiioI INTERVAL3))) (and (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL3) tptp.lTimeInterval_THFTYPE_i) (@ _let_1 INTERVAL1) (@ _let_1 INTERVAL2)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNeutron_THFTYPE_i) tptp.lSubatomicParticle_THFTYPE_i) (forall ((HUMAN $$unsorted) (PROC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lIntentionalProcess_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PROC) HUMAN) (@ (@ tptp.instance_THFTYPE_IiioI HUMAN) tptp.lAnimal_THFTYPE_i)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI PROC)) (@ (@ tptp.attribute_THFTYPE_IiioI HUMAN) tptp.lAwake_THFTYPE_i)))) (forall ((CIRCLE $$unsorted) (RADIUS $$unsorted)) (=> (@ (@ tptp.radius_THFTYPE_IiioI CIRCLE) RADIUS) (exists ((POINT $$unsorted)) (forall ((PART $$unsorted)) (=> (@ (@ tptp.pointOfFigure_THFTYPE_IiioI PART) CIRCLE) (@ (@ (@ tptp.geometricDistance_THFTYPE_IiiioI PART) POINT) RADIUS)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPlanning_THFTYPE_i) tptp.lIntentionalPsychologicalProcess_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDecoding_THFTYPE_i) tptp.lWriting_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lCosineFn_THFTYPE_i) tptp.lRealNumber_THFTYPE_i) (forall ((KILOUNIT $$unsorted) (UNIT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfMeasure_THFTYPE_i) (= KILOUNIT (@ tptp.lKiloFn_THFTYPE_IiiI UNIT))) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1_THFTYPE_i) KILOUNIT) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1000_THFTYPE_i) UNIT)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lVisualAttribute_THFTYPE_i) tptp.lPerceptualAttribute_THFTYPE_i) (forall ((DRIVE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DRIVE) tptp.lDriving_THFTYPE_i) (exists ((VEHICLE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI VEHICLE) tptp.lVehicle_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI DRIVE) VEHICLE))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTimeDependentQuantity_THFTYPE_i) tptp.lUnaryConstantFunctionQuantity_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lHumanLanguage_THFTYPE_i) tptp.lLanguage_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lUnionFn_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (forall ((ATTACK $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ATTACK) tptp.lAttack_THFTYPE_i) (exists ((CONTEST $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI CONTEST) tptp.lViolentContest_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI ATTACK) CONTEST))))) (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lMinuteFn_THFTYPE_i) tptp.lMinute_THFTYPE_i) (forall ((OBJ $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lSelfConnectedObject_THFTYPE_i) (@ (@ tptp.side_THFTYPE_IiioI (@ tptp.lFrontFn_THFTYPE_IiiI OBJ)) OBJ))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSelling_THFTYPE_i) tptp.lFinancialTransaction_THFTYPE_i) (forall ((REL2 $$unsorted) (CLASS1 $$unsorted) (REL1 $$unsorted)) (=> (and (@ (@ tptp.subrelation_THFTYPE_IiioI REL1) REL2) (@ (@ tptp.rangeSubclass_THFTYPE_IiioI REL2) CLASS1)) (@ (@ tptp.rangeSubclass_THFTYPE_IiioI REL1) CLASS1))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAlethicAttribute_THFTYPE_i) tptp.lObjectiveNorm_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSeeing_THFTYPE_i) tptp.lPerception_THFTYPE_i) (forall ((FROM $$unsorted) (QUANTITY $$unsorted) (CLASS $$unsorted) (TO $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI QUANTITY))) (=> (and (@ _let_1 (@ (@ tptp.lIntervalFn_THFTYPE_IiiiI FROM) TO)) (@ (@ tptp.instance_THFTYPE_IiioI FROM) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI TO) CLASS)) (@ _let_1 CLASS)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUniqueList_THFTYPE_i) tptp.lList_THFTYPE_i) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lParamilitaryOrganization_THFTYPE_i) tptp.lGovernmentOrganization_THFTYPE_i) (@ _let_557 tptp.lTernaryRelation_THFTYPE_i) (forall ((UNIT $$unsorted) (MICROUNIT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfMeasure_THFTYPE_i) (= MICROUNIT (@ tptp.lMicroFn_THFTYPE_IiiI UNIT))) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1_THFTYPE_i) MICROUNIT) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n0dot000001_THFTYPE_i) UNIT)))) (forall ((PROCESS $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI PROCESS) tptp.lDestruction_THFTYPE_i) (exists ((PATIENT $$unsorted)) (let ((_let_1 (@ tptp.lWhenFn_THFTYPE_IiiI PROCESS))) (let ((_let_2 (@ tptp.time_THFTYPE_IiioI PATIENT))) (and (@ (@ tptp.patient_THFTYPE_IiioI PROCESS) PATIENT) (@ _let_2 (@ tptp.lBeginFn_THFTYPE_IiiI _let_1)) (not (@ _let_2 (@ tptp.lEndFn_THFTYPE_IiiI _let_1))))))))) (forall ((NUMBER $$unsorted) (QUANT $$unsorted) (UNIT $$unsorted)) (=> (and (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) UNIT) QUANT) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfAngularMeasure_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI QUANT) tptp.lAngleMeasure_THFTYPE_i))) (forall ((OBJ $$unsorted) (HOLE1 $$unsorted)) (=> (@ (@ tptp.partiallyFills_THFTYPE_IiioI OBJ) HOLE1) (exists ((HOLE2 $$unsorted)) (and (@ (@ tptp.part_THFTYPE_IiioI HOLE2) HOLE1) (@ (@ tptp.completelyFills_THFTYPE_IiioI OBJ) HOLE2))))) (forall ((FORMULA Bool)) (let ((_let_1 (@ tptp.modalAttribute_THFTYPE_IoioI FORMULA))) (=> (@ _let_1 tptp.lPermission_THFTYPE_i) (@ _let_1 tptp.lPossibility_THFTYPE_i)))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lGeneralizedIntersectionFn_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (forall ((ATTACH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ATTACH) tptp.lAttaching_THFTYPE_i) (exists ((OBJ $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lCorpuscularObject_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI ATTACH) OBJ))))) (@ _let_608 tptp.lTranslocation_THFTYPE_i) (forall ((CLASS $$unsorted) (CHILD $$unsorted) (PARENT $$unsorted)) (=> (and (@ (@ tptp.parent_THFTYPE_IiioI CHILD) PARENT) (@ (@ tptp.subclass_THFTYPE_IiioI CLASS) tptp.lOrganism_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI PARENT) CLASS)) (@ (@ tptp.instance_THFTYPE_IiioI CHILD) CLASS))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPatent_THFTYPE_i) tptp.lCertificate_THFTYPE_i) (forall ((DECISION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DECISION) tptp.lLegalDecision_THFTYPE_i) (exists ((ACTION $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ACTION) tptp.lLegalAction_THFTYPE_i) (@ (@ tptp.refers_THFTYPE_IiioI DECISION) ACTION))))) (forall ((ROW $$unsorted) (ATTRCLASS $$unsorted)) (=> (@ (@ tptp.exhaustiveAttribute_THFTYPE_IiioI ATTRCLASS) ROW) (not (exists ((EL $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI EL) ATTRCLASS) (not (exists ((ATTR $$unsorted) (NUMBER $$unsorted)) (and (= EL ATTR) (= ATTR (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI (@ tptp.lListFn_THFTYPE_IiiI ROW)) NUMBER)))))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPursuing_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i) (forall ((LANG $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI LANG) tptp.lConstructedLanguage_THFTYPE_i) (exists ((PLAN $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PLAN) tptp.lPlanning_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI PLAN) LANG))))) (forall ((PERSON $$unsorted) (ORGANIZATION $$unsorted) (POSITION $$unsorted)) (=> (@ (@ (@ tptp.occupiesPosition_THFTYPE_IiiioI PERSON) POSITION) ORGANIZATION) (@ (@ tptp.member_THFTYPE_IiioI PERSON) ORGANIZATION))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPretending_THFTYPE_i) tptp.lSocialInteraction_THFTYPE_i) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ tptp.subsumesContentInstance_THFTYPE_IiioI OBJ1) OBJ2) (forall ((INFO Bool)) (=> (@ (@ tptp.containsInformation_THFTYPE_IiooI OBJ2) INFO) (@ (@ tptp.containsInformation_THFTYPE_IiooI OBJ1) INFO))))) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (= (and (@ (@ tptp.subsumesContentInstance_THFTYPE_IiioI OBJ1) OBJ2) (@ (@ tptp.subsumesContentInstance_THFTYPE_IiioI OBJ2) OBJ1)) (@ (@ tptp.equivalentContentInstance_THFTYPE_IiioI OBJ1) OBJ2))) (forall ((COMPOUND $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI COMPOUND) tptp.lCompoundSubstance_THFTYPE_i) (exists ((ELEMENT1 $$unsorted) (ELEMENT2 $$unsorted) (PROCESS $$unsorted)) (let ((_let_1 (@ tptp.resource_THFTYPE_IiioI PROCESS))) (and (@ (@ tptp.instance_THFTYPE_IiioI ELEMENT1) tptp.lElementalSubstance_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI ELEMENT2) tptp.lElementalSubstance_THFTYPE_i) (not (= ELEMENT1 ELEMENT2)) (@ (@ tptp.instance_THFTYPE_IiioI PROCESS) tptp.lChemicalSynthesis_THFTYPE_i) (@ _let_1 ELEMENT1) (@ _let_1 ELEMENT2) (@ (@ tptp.result_THFTYPE_IiioI PROCESS) COMPOUND)))))) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lWeatherProcess_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i) (forall ((C $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI C) tptp.lCircle_THFTYPE_i) (exists ((R $$unsorted)) (@ (@ tptp.radius_THFTYPE_IiioI C) R)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAreaMeasure_THFTYPE_i) tptp.lFunctionQuantity_THFTYPE_i) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lCup_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.div_THFTYPE_IiiiI NUMBER) tptp.n2_THFTYPE_i)) tptp.lPint_THFTYPE_i)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLinguisticCommunication_THFTYPE_i) tptp.lCommunication_THFTYPE_i) (forall ((PROCESS $$unsorted) (THING $$unsorted) (NAME $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PROCESS) tptp.lNaming_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI PROCESS) THING) (@ (@ tptp.destination_THFTYPE_IiioI PROCESS) NAME)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lFutureFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI PROCESS))) (@ (@ tptp.names_THFTYPE_IiioI NAME) THING)))) (forall ((NUMBER $$unsorted) (NUMBER2 $$unsorted) (NUMBER1 $$unsorted)) (let ((_let_1 (= NUMBER NUMBER2))) (let ((_let_2 (= NUMBER NUMBER1))) (=> (= (@ (@ tptp.lMinFn_THFTYPE_IiiiI NUMBER1) NUMBER2) NUMBER) (or (and _let_2 (@ (@ tptp.lt_THFTYPE_IiioI NUMBER1) NUMBER2)) (and _let_1 (@ (@ tptp.lt_THFTYPE_IiioI NUMBER2) NUMBER1)) (and _let_2 _let_1)))))) (forall ((MEMB $$unsorted) (GROUP $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI GROUP) tptp.lGroup_THFTYPE_i) (@ (@ tptp.member_THFTYPE_IiioI MEMB) GROUP)) (@ (@ tptp.instance_THFTYPE_IiioI MEMB) tptp.lAgent_THFTYPE_i))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lMagnitudeFn_THFTYPE_i) tptp.lRealNumber_THFTYPE_i) (forall ((POINT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI POINT) tptp.lTimePoint_THFTYPE_i) (not (= POINT tptp.lNegativeInfinity_THFTYPE_i))) (@ (@ tptp.before_THFTYPE_IiioI tptp.lNegativeInfinity_THFTYPE_i) POINT))) (forall ((OBJ $$unsorted) (COLORING $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI COLORING) tptp.lColoring_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI COLORING) OBJ)) (exists ((PROPERTY $$unsorted) (PART $$unsorted)) (let ((_let_1 (@ (@ tptp.attribute_THFTYPE_IiioI PART) PROPERTY))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI COLORING))) (let ((_let_3 (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)))) (let ((_let_4 (not _let_1))) (let ((_let_5 (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)))) (and (@ (@ tptp.part_THFTYPE_IiioI PART) OBJ) (@ (@ tptp.instance_THFTYPE_IiioI PROPERTY) tptp.lColorAttribute_THFTYPE_i) (or (and (@ _let_5 _let_1) (@ _let_3 _let_4)) (and (@ _let_5 _let_4) (@ _let_3 _let_1)))))))))))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lUnitFn_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i) (forall ((AMOUNT $$unsorted) (TRANS $$unsorted)) (=> (@ (@ tptp.transactionAmount_THFTYPE_IiioI TRANS) AMOUNT) (exists ((OBJ $$unsorted)) (and (@ (@ tptp.patient_THFTYPE_IiioI TRANS) OBJ) (@ (@ tptp.monetaryValue_THFTYPE_IiioI OBJ) AMOUNT))))) (forall ((PARENT2 $$unsorted) (ORGANISM1 $$unsorted) (ORGANISM2 $$unsorted) (PARENT1 $$unsorted)) (let ((_let_1 (@ tptp.parent_THFTYPE_IiioI ORGANISM2))) (let ((_let_2 (@ tptp.parent_THFTYPE_IiioI ORGANISM1))) (=> (and (@ _let_2 PARENT1) (@ _let_1 PARENT1) (@ _let_2 PARENT2) (@ _let_1 PARENT2) (not (= ORGANISM1 ORGANISM2)) (not (= PARENT1 PARENT2))) (@ (@ tptp.sibling_THFTYPE_IiioI ORGANISM1) ORGANISM2))))) (forall ((OBJ $$unsorted) (PLACE $$unsorted) (REMOVE $$unsorted)) (let ((_let_1 (@ (@ tptp.located_THFTYPE_IiioI OBJ) PLACE))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI REMOVE))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI REMOVE) tptp.lRemoving_THFTYPE_i) (@ (@ tptp.origin_THFTYPE_IiioI REMOVE) PLACE) (@ (@ tptp.patient_THFTYPE_IiioI REMOVE) OBJ)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) _let_1) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (not _let_1))))))) (forall ((WEAPON $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI WEAPON) tptp.lWeapon_THFTYPE_i) (@ (@ (@ tptp.capability_THFTYPE_IiIiioIioI tptp.lDamaging_THFTYPE_i) tptp.instrument_THFTYPE_IiioI) WEAPON))) (forall ((REL2 $$unsorted) (NUMBER $$unsorted) (CLASS1 $$unsorted) (CLASS2 $$unsorted) (REL1 $$unsorted)) (=> (and (@ (@ (@ tptp.domain_THFTYPE_IiiioI REL1) NUMBER) CLASS1) (@ (@ (@ tptp.domain_THFTYPE_IiiioI REL2) NUMBER) CLASS2) (@ (@ tptp.disjoint_THFTYPE_IiioI CLASS1) CLASS2)) (@ (@ tptp.disjointRelation_THFTYPE_IiioI REL1) REL2))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOval_THFTYPE_i) tptp.lClosedTwoDimensionalFigure_THFTYPE_i) (forall ((PHRASE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PHRASE) tptp.lVerbPhrase_THFTYPE_i) (exists ((VERB $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI VERB) tptp.lVerb_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI VERB) PHRASE))))) (forall ((NUMBER $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI NUMBER) tptp.lPositiveRealNumber_THFTYPE_i) (= (@ tptp.lSignumFn_THFTYPE_IiiI NUMBER) tptp.n1_THFTYPE_i))) (@ _let_535 tptp.lCreation_THFTYPE_i) (forall ((REL2 $$unsorted) (CLASS1 $$unsorted) (CLASS2 $$unsorted) (REL1 $$unsorted)) (=> (and (@ (@ tptp.rangeSubclass_THFTYPE_IiioI REL1) CLASS1) (@ (@ tptp.rangeSubclass_THFTYPE_IiioI REL2) CLASS2) (@ (@ tptp.disjoint_THFTYPE_IiioI CLASS1) CLASS2)) (@ (@ tptp.disjointRelation_THFTYPE_IiioI REL1) REL2))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lTeraFn_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFebruary_THFTYPE_i) tptp.lMonth_THFTYPE_i) (@ _let_546 tptp.lQuaternaryRelation_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lCardinalityFn_THFTYPE_i) tptp.lNumber_THFTYPE_i) (forall ((DISSEMINATE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DISSEMINATE) tptp.lDisseminating_THFTYPE_i) (exists ((AGENT1 $$unsorted) (AGENT2 $$unsorted)) (let ((_let_1 (@ tptp.destination_THFTYPE_IiioI DISSEMINATE))) (and (@ _let_1 AGENT1) (@ (@ tptp.instance_THFTYPE_IiioI AGENT1) tptp.lCognitiveAgent_THFTYPE_i) (@ _let_1 AGENT2) (@ (@ tptp.instance_THFTYPE_IiioI AGENT2) tptp.lCognitiveAgent_THFTYPE_i) (not (= AGENT1 AGENT2))))))) (forall ((TEMP2 $$unsorted) (TEMP1 $$unsorted) (TIME $$unsorted) (SUBSTANCE $$unsorted) (TYPE $$unsorted) (MEASURE $$unsorted)) (let ((_let_1 (@ tptp.holdsDuring_THFTYPE_IiooI TIME))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE) TYPE) (@ (@ tptp.meltingPoint_THFTYPE_IiioI TYPE) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI TEMP1) MEASURE)) (@ _let_1 (@ (@ tptp.measure_THFTYPE_IiioI SUBSTANCE) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI TEMP2) MEASURE))) (@ (@ tptp.instance_THFTYPE_IiioI MEASURE) tptp.lUnitOfTemperature_THFTYPE_i) (@ (@ tptp.lt_THFTYPE_IiioI TEMP2) TEMP1)) (or (@ _let_1 (@ (@ tptp.attribute_THFTYPE_IiioI SUBSTANCE) tptp.lSolid_THFTYPE_i)) (exists ((FREEZE $$unsorted)) (and (@ (@ tptp.overlapsTemporally_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI FREEZE)) TIME) (@ (@ tptp.instance_THFTYPE_IiioI FREEZE) tptp.lFreezing_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI FREEZE) SUBSTANCE))))))) (@ _let_604 tptp.lRelation_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAntiSymmetricPositionalAttribute_THFTYPE_i) tptp.lPositionalAttribute_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCreation_THFTYPE_i) tptp.lInternalChange_THFTYPE_i) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (= (@ (@ tptp.overlapsSpatially_THFTYPE_IiioI OBJ1) OBJ2) (exists ((OBJ3 $$unsorted)) (let ((_let_1 (@ tptp.part_THFTYPE_IiioI OBJ3))) (and (@ _let_1 OBJ1) (@ _let_1 OBJ2)))))) (forall ((DEVICE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DEVICE) tptp.lAttachingDevice_THFTYPE_i) (exists ((ATTACH $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTACH) tptp.lAttaching_THFTYPE_i) (@ (@ tptp.instrument_THFTYPE_IiioI ATTACH) DEVICE))))) (forall ((PHRASE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PHRASE) tptp.lNounPhrase_THFTYPE_i) (exists ((NOUN $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI NOUN) tptp.lNoun_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI NOUN) PHRASE))))) (forall ((PREMISES Bool) (ARGUMENT Bool) (PROPOSITION Bool)) (=> (and (@ (@ tptp.instance_THFTYPE_IoioI ARGUMENT) tptp.lArgument_THFTYPE_i) (= PREMISES (@ tptp.lPremisesFn_THFTYPE_IooI ARGUMENT))) (= (@ (@ tptp.subProposition_THFTYPE_IoooI PROPOSITION) PREMISES) (@ (@ tptp.premise_THFTYPE_IoooI ARGUMENT) PROPOSITION)))) (forall ((PERSON $$unsorted) (ORG $$unsorted) (HIRE $$unsorted)) (let ((_let_1 (@ (@ tptp.employs_THFTYPE_IiioI ORG) PERSON))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI HIRE))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI HIRE) tptp.lHiring_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lOrganization_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI HIRE) ORG) (@ (@ tptp.patient_THFTYPE_IiioI HIRE) PERSON)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (not _let_1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) _let_1)))))) (forall ((GRAPH $$unsorted) (NODE1 $$unsorted) (NODE2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI GRAPH) tptp.lGraph_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI NODE1) tptp.lGraphNode_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI NODE2) tptp.lGraphNode_THFTYPE_i) (@ (@ tptp.graphPart_THFTYPE_IiioI NODE1) GRAPH) (@ (@ tptp.graphPart_THFTYPE_IiioI NODE2) GRAPH) (not (= NODE1 NODE2))) (exists ((ARC $$unsorted) (PATH $$unsorted)) (let ((_let_1 (@ tptp.lEndNodeFn_THFTYPE_IiiI PATH))) (let ((_let_2 (@ tptp.lBeginNodeFn_THFTYPE_IiiI PATH))) (or (@ (@ (@ tptp.links_THFTYPE_IiiioI NODE1) NODE2) ARC) (and (@ (@ tptp.subGraph_THFTYPE_IiioI PATH) GRAPH) (@ (@ tptp.instance_THFTYPE_IiioI PATH) tptp.lGraphPath_THFTYPE_i) (or (and (= _let_2 NODE1) (= _let_1 NODE2)) (and (= _let_2 NODE2) (= _let_1 NODE1)))))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lVariableArityRelation_THFTYPE_i) tptp.lRelation_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAnatomicalStructure_THFTYPE_i) tptp.lOrganicObject_THFTYPE_i) (forall ((RELEASE $$unsorted) (GRAB $$unsorted) (AGENT $$unsorted) (THING $$unsorted)) (let ((_let_1 (@ (@ tptp.grasps_THFTYPE_IiioI AGENT) THING))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI RELEASE))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI RELEASE) tptp.lReleasing_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI GRAB) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI GRAB) THING)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) _let_1) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (not _let_1))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lObjectiveNorm_THFTYPE_i) tptp.lNormativeAttribute_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDiscovering_THFTYPE_i) tptp.lIntentionalPsychologicalProcess_THFTYPE_i) (forall ((SUB $$unsorted) (AREA $$unsorted)) (=> (@ (@ tptp.geopoliticalSubdivision_THFTYPE_IiioI SUB) AREA) (not (@ (@ tptp.instance_THFTYPE_IiioI SUB) tptp.lNation_THFTYPE_i)))) (forall ((CLASS $$unsorted) (ATTR2 $$unsorted) (ATTR1 $$unsorted)) (=> (and (@ (@ tptp.subAttribute_THFTYPE_IiioI ATTR1) ATTR2) (@ (@ tptp.instance_THFTYPE_IiioI ATTR2) CLASS)) (@ (@ tptp.instance_THFTYPE_IiioI ATTR1) CLASS))) (forall ((ARTIFACT1 $$unsorted) (ARTIFACT2 $$unsorted)) (=> (@ (@ tptp.version_THFTYPE_IiioI ARTIFACT1) ARTIFACT2) (@ (@ tptp.subclass_THFTYPE_IiioI ARTIFACT1) ARTIFACT2))) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted) (OBJ3 $$unsorted)) (let ((_let_1 (@ tptp.connected_THFTYPE_IiioI OBJ1))) (= (@ (@ (@ tptp.connects_THFTYPE_IiiioI OBJ1) OBJ2) OBJ3) (and (@ _let_1 OBJ2) (@ _let_1 OBJ3) (not (@ (@ tptp.connected_THFTYPE_IiioI OBJ2) OBJ3)))))) (forall ((OBJ $$unsorted) (INST $$unsorted) (AGENT $$unsorted) (POKE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI POKE) tptp.lPoking_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI POKE) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI POKE) OBJ) (@ (@ tptp.instrument_THFTYPE_IiioI POKE) INST)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI POKE)) (@ (@ (@ tptp.connects_THFTYPE_IiiioI INST) AGENT) OBJ)))) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lCentimeter_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n0dot01_THFTYPE_i)) tptp.lMeter_THFTYPE_i)))) (@ _let_615 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ tptp.typicallyContainsPart_THFTYPE_IiioI tptp.lVocalCords_THFTYPE_i) tptp.lHuman_THFTYPE_i) (forall ((CLASS $$unsorted) (RELATION (-> $$unsorted $$unsorted Bool))) (=> (@ (@ tptp.reflexiveOn_THFTYPE_IIiioIioI RELATION) CLASS) (forall ((INST $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INST) CLASS) (@ (@ RELATION INST) INST))))) (forall ((NUMBER $$unsorted) (QUANT $$unsorted) (UNIT $$unsorted)) (=> (and (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) UNIT) QUANT) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfCurrency_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI QUANT) tptp.lCurrencyMeasure_THFTYPE_i))) (@ _let_548 tptp.lPlantAnatomicalStructure_THFTYPE_i) (@ _let_609 tptp.lLandArea_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGiving_THFTYPE_i) tptp.lChangeOfPossession_THFTYPE_i) (@ _let_536 tptp.lContentBearingObject_THFTYPE_i) (@ _let_582 tptp.lSymmetricRelation_THFTYPE_i) (forall ((THING2 $$unsorted) (THING1 $$unsorted)) (=> (= THING1 THING2) (forall ((ATTR $$unsorted)) (= (@ (@ tptp.property_THFTYPE_IiioI THING1) ATTR) (@ (@ tptp.property_THFTYPE_IiioI THING2) ATTR))))) (forall ((INT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INT) tptp.lInteger_THFTYPE_i) (= INT (@ tptp.lPredecessorFn_THFTYPE_IiiI (@ tptp.lSuccessorFn_THFTYPE_IiiI INT))))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lRoundFn_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (forall ((NUMBER2 $$unsorted) (NUMBER1 $$unsorted)) (=> (= (@ tptp.lSquareRootFn_THFTYPE_IiiI NUMBER1) NUMBER2) (= (@ (@ tptp.times_THFTYPE_IiiiI NUMBER2) NUMBER2) NUMBER1))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMarch_THFTYPE_i) tptp.lMonth_THFTYPE_i) (forall ((PROCESS $$unsorted) (LOC $$unsorted)) (=> (@ (@ tptp.destination_THFTYPE_IiioI PROCESS) LOC) (@ (@ tptp.partlyLocated_THFTYPE_IiioI PROCESS) LOC))) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lKiloByte_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n1024_THFTYPE_i)) tptp.lByte_THFTYPE_i)))) (forall ((GRAPH $$unsorted) (NUMBER2 $$unsorted) (NUMBER1 $$unsorted)) (not (exists ((PATH1 $$unsorted) (PATH2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PATH1) (@ tptp.lCutSetFn_THFTYPE_IiiI GRAPH)) (@ (@ tptp.instance_THFTYPE_IiioI PATH2) (@ tptp.lMinimalCutSetFn_THFTYPE_IiiI GRAPH)) (@ (@ tptp.pathLength_THFTYPE_IiioI PATH1) NUMBER1) (@ (@ tptp.pathLength_THFTYPE_IiioI PATH2) NUMBER2) (@ (@ tptp.lt_THFTYPE_IiioI NUMBER1) NUMBER2))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGeometricFigure_THFTYPE_i) tptp.lShapeAttribute_THFTYPE_i) (forall ((HOLE $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (and (@ (@ tptp.fills_THFTYPE_IiioI OBJ1) HOLE) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ2) tptp.lFillable_THFTYPE_i)) (not (@ (@ tptp.overlapsSpatially_THFTYPE_IiioI OBJ1) OBJ2)))) (forall ((NUMBER $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI NUMBER) tptp.lImaginaryNumber_THFTYPE_i) (exists ((REAL $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI REAL) tptp.lRealNumber_THFTYPE_i) (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI REAL) (@ tptp.lSquareRootFn_THFTYPE_IiiI tptp.minus1_THFTYPE_i))))))) (forall ((REP $$unsorted) (CHILD $$unsorted) (PARENT $$unsorted)) (=> (and (@ (@ tptp.parent_THFTYPE_IiioI CHILD) PARENT) (@ (@ tptp.instance_THFTYPE_IiioI REP) tptp.lSexualReproduction_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI REP) PARENT) (@ (@ tptp.result_THFTYPE_IiioI REP) CHILD)) (or (@ (@ tptp.mother_THFTYPE_IiioI CHILD) PARENT) (@ (@ tptp.father_THFTYPE_IiioI CHILD) PARENT)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lComputerProgram_THFTYPE_i) tptp.lProcedure_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCombustion_THFTYPE_i) tptp.lChemicalDecomposition_THFTYPE_i) (forall ((OBJ $$unsorted) (SOUND $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI SOUND) tptp.lRadiatingSound_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI SOUND) OBJ) (@ (@ tptp.attribute_THFTYPE_IiioI SOUND) tptp.lAudible_THFTYPE_i)) (exists ((HUMAN $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI HUMAN) tptp.lHuman_THFTYPE_i) (@ (@ (@ tptp.capability_THFTYPE_IIioIIiioIioI (lambda ((HEAR $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI HEAR) tptp.lHearing_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI HEAR) HUMAN) (@ (@ tptp.destination_THFTYPE_IiioI HEAR) HUMAN) (@ (@ tptp.origin_THFTYPE_IiioI HEAR) OBJ)))) tptp.agent_THFTYPE_IiioI) HUMAN))))) (forall ((SUBSTANCE1 $$unsorted) (SUBSTANCE2 $$unsorted) (PROC $$unsorted)) (=> (and (@ (@ tptp.resource_THFTYPE_IiioI PROC) SUBSTANCE1) (@ (@ tptp.result_THFTYPE_IiioI PROC) SUBSTANCE2) (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE1) tptp.lCompoundSubstance_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE2) tptp.lElementalSubstance_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lChemicalDecomposition_THFTYPE_i))) (forall ((ARC $$unsorted) (NODE1 $$unsorted) (NODE2 $$unsorted)) (let ((_let_1 (@ tptp.connects_THFTYPE_IiiioI ARC))) (=> (@ (@ _let_1 NODE1) NODE2) (@ (@ _let_1 NODE2) NODE1)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lList_THFTYPE_i) tptp.lRelation_THFTYPE_i) (@ _let_613 tptp.lCognitiveAgent_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPoliceOrganization_THFTYPE_i) tptp.lGovernmentOrganization_THFTYPE_i) (forall ((PRIME $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PRIME) tptp.lPrimeNumber_THFTYPE_i) (forall ((NUMBER $$unsorted)) (=> (= (@ (@ tptp.lRemainderFn_THFTYPE_IiiiI PRIME) NUMBER) tptp.n0_THFTYPE_i) (or (= NUMBER tptp.n1_THFTYPE_i) (= NUMBER PRIME)))))) (forall ((HOLE2 $$unsorted) (HOLE1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI HOLE1) tptp.lHole_THFTYPE_i) (@ (@ tptp.properPart_THFTYPE_IiioI HOLE2) HOLE1)) (exists ((OBJ $$unsorted)) (and (@ (@ tptp.meetsSpatially_THFTYPE_IiioI HOLE1) OBJ) (not (@ (@ tptp.meetsSpatially_THFTYPE_IiioI HOLE2) OBJ)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLeavingAnOrganization_THFTYPE_i) tptp.lOrganizationalProcess_THFTYPE_i) (forall ((MONTH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MONTH) tptp.lDecember_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI MONTH) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n31_THFTYPE_i) tptp.lDayDuration_THFTYPE_i)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lShooting_THFTYPE_i) tptp.lImpelling_THFTYPE_i) (forall ((SUBSTANCE $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE) tptp.lSyntheticSubstance_THFTYPE_i) (exists ((PROCESS $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PROCESS) tptp.lIntentionalProcess_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI PROCESS) SUBSTANCE) (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE) tptp.lSubstance_THFTYPE_i))))) (forall ((OBJ $$unsorted) (PROCESS $$unsorted)) (=> (@ (@ tptp.origin_THFTYPE_IiioI PROCESS) OBJ) (@ (@ tptp.located_THFTYPE_IiioI (@ (@ tptp.lWhereFn_THFTYPE_IiiiI PROCESS) (@ tptp.lBeginFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI PROCESS)))) (@ (@ tptp.lWhereFn_THFTYPE_IiiiI OBJ) (@ tptp.lBeginFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI OBJ)))))) (forall ((INT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INT) tptp.lInteger_THFTYPE_i) (@ (@ tptp.lt_THFTYPE_IiioI INT) (@ tptp.lSuccessorFn_THFTYPE_IiiI INT)))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lGigaFn_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i) (forall ((AMBULATE $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI AMBULATE) tptp.lAmbulating_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI AMBULATE) AGENT)) (@ (@ tptp.attribute_THFTYPE_IiioI AGENT) tptp.lStanding_THFTYPE_i))) (@ (@ tptp.identityElement_THFTYPE_IIiiiIioI tptp.lMultiplicationFn_THFTYPE_IiiiI) tptp.n1_THFTYPE_i) (forall ((SUPERCLASS $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SUPERCLASS) tptp.lPairwiseDisjointClass_THFTYPE_i) (forall ((CLASS1 $$unsorted) (CLASS2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI CLASS1) SUPERCLASS) (@ (@ tptp.instance_THFTYPE_IiioI CLASS2) SUPERCLASS)) (or (= CLASS1 CLASS2) (@ (@ tptp.disjoint_THFTYPE_IiioI CLASS1) CLASS2)))))) (forall ((FORMULA Bool) (AGENT2 $$unsorted) (AGENT1 $$unsorted)) (=> (@ (@ (@ tptp.confersObligation_THFTYPE_IoiioI FORMULA) AGENT1) AGENT2) (@ (@ tptp.holdsObligation_THFTYPE_IoioI FORMULA) AGENT2))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMotionPicture_THFTYPE_i) tptp.lText_THFTYPE_i) (forall ((OBJ $$unsorted) (T1 $$unsorted) (ORGANISM $$unsorted)) (=> (@ (@ tptp.holdsDuring_THFTYPE_IiooI T1) (@ (@ tptp.inhabits_THFTYPE_IiioI ORGANISM) OBJ)) (exists ((TIME $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI TIME) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.temporalPart_THFTYPE_IiioI TIME) T1) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.located_THFTYPE_IiioI ORGANISM) OBJ)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPoisoning_THFTYPE_i) tptp.lInjuring_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPlantAnatomicalStructure_THFTYPE_i) tptp.lAnatomicalStructure_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCrustacean_THFTYPE_i) tptp.lArthropod_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lStateOfMind_THFTYPE_i) tptp.lPsychologicalAttribute_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMolecule_THFTYPE_i) tptp.lCompoundSubstance_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lListOrderFn_THFTYPE_i) tptp.lEntity_THFTYPE_i) (forall ((REL (-> $$unsorted $$unsorted Bool))) (= (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lIrreflexiveRelation_THFTYPE_i) (forall ((INST $$unsorted)) (not (@ (@ REL INST) INST))))) (forall ((INVESTIGATE $$unsorted) (PROP Bool) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI INVESTIGATE) tptp.lInvestigating_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI INVESTIGATE) AGENT) (@ (@ tptp.patient_THFTYPE_IiooI INVESTIGATE) PROP)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI INVESTIGATE)) (not (@ (@ tptp.knows_THFTYPE_IiooI AGENT) PROP))))) (@ _let_589 tptp.lRelation_THFTYPE_i) (forall ((FORMULA Bool)) (= (@ (@ tptp.modalAttribute_THFTYPE_IoioI FORMULA) tptp.lObligation_THFTYPE_i) (not (@ (@ tptp.modalAttribute_THFTYPE_IoioI (not FORMULA)) tptp.lPermission_THFTYPE_i)))) (forall ((ACT $$unsorted) (FOOD $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ACT) tptp.lEating_THFTYPE_i) (@ (@ tptp.resource_THFTYPE_IiioI ACT) FOOD)) (@ (@ tptp.attribute_THFTYPE_IiioI FOOD) tptp.lSolid_THFTYPE_i))) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) tptp.lOn_THFTYPE_i) (@ (@ tptp.located_THFTYPE_IiioI OBJ1) OBJ2))) (@ _let_614 tptp.lFalling_THFTYPE_i) (forall ((INTERVAL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.finishes_THFTYPE_IiioI (@ tptp.lImmediatePastFn_THFTYPE_IiiI INTERVAL)) (@ tptp.lPastFn_THFTYPE_IiiI INTERVAL)))) (forall ((CLASS $$unsorted) (FUNCTION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI FUNCTION) tptp.lAssociativeFunction_THFTYPE_i) (forall ((INST1 $$unsorted) (INST2 $$unsorted) (INST3 $$unsorted)) (let ((_let_1 (@ tptp.lAssignmentFn_THFTYPE_IiiiiI FUNCTION))) (let ((_let_2 (@ _let_1 INST1))) (=> (and (@ (@ (@ tptp.domain_THFTYPE_IiiioI FUNCTION) tptp.n1_THFTYPE_i) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI INST1) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI INST2) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI INST3) CLASS)) (= (@ _let_2 (@ (@ _let_1 INST2) INST3)) (@ (@ _let_1 (@ _let_2 INST2)) INST3)))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lViolentContest_THFTYPE_i) tptp.lContest_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lMinimalWeightedPathFn_THFTYPE_i) tptp.lGraphPath_THFTYPE_i) (forall ((OBJ $$unsorted) (IMPACT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI IMPACT) tptp.lImpacting_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI IMPACT) OBJ)) (exists ((IMPEL $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI IMPEL) tptp.lImpelling_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI IMPEL) OBJ) (@ (@ tptp.earlier_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI IMPEL)) (@ tptp.lWhenFn_THFTYPE_IiiI IMPACT)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPutting_THFTYPE_i) tptp.lTransfer_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lArgument_THFTYPE_i) tptp.lProposition_THFTYPE_i) (forall ((PROC $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lDirectionChange_THFTYPE_i) (exists ((ATTR $$unsorted)) (let ((_let_1 (@ (@ tptp.manner_THFTYPE_IiioI PROC) ATTR))) (let ((_let_2 (not _let_1))) (let ((_let_3 (@ tptp.lWhenFn_THFTYPE_IiiI PROC))) (let ((_let_4 (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_3)))) (let ((_let_5 (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_3)))) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lDirectionalAttribute_THFTYPE_i) (or (and (@ _let_4 _let_1) (@ _let_5 _let_2)) (and (@ _let_5 _let_1) (@ _let_4 _let_2)))))))))))) (forall ((MEMBER $$unsorted) (UNIT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lSocialUnit_THFTYPE_i) (exists ((HOME $$unsorted)) (=> (@ (@ tptp.member_THFTYPE_IiioI MEMBER) UNIT) (@ (@ tptp.home_THFTYPE_IiioI MEMBER) HOME))))) (forall ((MONTH1 $$unsorted) (MONTH2 $$unsorted) (YEAR $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MONTH1) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lNovember_THFTYPE_i) YEAR)) (@ (@ tptp.instance_THFTYPE_IiioI MONTH2) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lDecember_THFTYPE_i) YEAR))) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI MONTH1) MONTH2))) (forall ((CIRCLE $$unsorted) (LENGTH $$unsorted)) (=> (@ (@ tptp.diameter_THFTYPE_IiioI CIRCLE) LENGTH) (exists ((HALF $$unsorted)) (and (@ (@ tptp.radius_THFTYPE_IiioI CIRCLE) HALF) (= (@ (@ tptp.times_THFTYPE_IiiiI HALF) tptp.n2_THFTYPE_i) LENGTH))))) (forall ((MONTH1 $$unsorted) (MONTH2 $$unsorted) (YEAR $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MONTH1) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lJune_THFTYPE_i) YEAR)) (@ (@ tptp.instance_THFTYPE_IiioI MONTH2) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lJuly_THFTYPE_i) YEAR))) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI MONTH1) MONTH2))) (forall ((MIX $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MIX) tptp.lGasMixture_THFTYPE_i) (exists ((PART $$unsorted)) (and (@ (@ tptp.part_THFTYPE_IiioI PART) MIX) (@ (@ tptp.attribute_THFTYPE_IiioI PART) tptp.lGas_THFTYPE_i))))) (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lMonthFn_THFTYPE_i) tptp.lMonth_THFTYPE_i) (@ (@ _let_607 tptp.lNegativeRealNumber_THFTYPE_i) tptp.lNonnegativeRealNumber_THFTYPE_i) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lEuroCent_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n0dot01_THFTYPE_i)) tptp.lEuroDollar_THFTYPE_i)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRoom_THFTYPE_i) tptp.lStationaryArtifact_THFTYPE_i) (forall ((LIST $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI LIST) tptp.lList_THFTYPE_i) (exists ((NUMBER1 $$unsorted) (ITEM1 $$unsorted)) (and (not (= (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST) NUMBER1) ITEM1)) (forall ((NUMBER2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI NUMBER2) tptp.lPositiveInteger_THFTYPE_i) (@ (@ tptp.lt_THFTYPE_IiioI NUMBER2) NUMBER1)) (exists ((ITEM2 $$unsorted)) (= (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST) NUMBER2) ITEM2)))))))) (@ _let_583 tptp.lSpeaking_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSexualReproduction_THFTYPE_i) tptp.lReplication_THFTYPE_i) (@ _let_584 tptp.lRelation_THFTYPE_i) (forall ((REMEMBER $$unsorted) (FORMULA Bool)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI REMEMBER) tptp.lRemembering_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiooI REMEMBER) FORMULA)) (exists ((TIME $$unsorted)) (let ((_let_1 (@ tptp.lWhenFn_THFTYPE_IiiI REMEMBER))) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) FORMULA) (or (@ (@ tptp.before_THFTYPE_IiioI TIME) _let_1) (@ (@ tptp.earlier_THFTYPE_IiioI TIME) _let_1))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lArticle_THFTYPE_i) tptp.lText_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOneDimensionalFigure_THFTYPE_i) tptp.lGeometricFigure_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lListLengthFn_THFTYPE_i) tptp.lNonnegativeInteger_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lMicroFn_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i) (forall ((PERSON $$unsorted) (AREA $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI AREA) tptp.lGeopoliticalArea_THFTYPE_i) (@ (@ tptp.leader_THFTYPE_IiioI (@ tptp.lGovernmentFn_THFTYPE_IiiI AREA)) PERSON)) (@ (@ tptp.leader_THFTYPE_IiioI AREA) PERSON))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTasteAttribute_THFTYPE_i) tptp.lPerceptualAttribute_THFTYPE_i) (forall ((REL (-> $$unsorted $$unsorted Bool))) (= (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lSymmetricRelation_THFTYPE_i) (forall ((INST1 $$unsorted) (INST2 $$unsorted)) (=> (@ (@ REL INST1) INST2) (@ (@ REL INST2) INST1))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRadiatingXRay_THFTYPE_i) tptp.lRadiatingElectromagnetic_THFTYPE_i) (forall ((DEVICE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DEVICE) tptp.lDevice_THFTYPE_i) (exists ((PROC $$unsorted)) (@ (@ (@ tptp.capability_THFTYPE_IiIiioIioI PROC) tptp.instrument_THFTYPE_IiioI) DEVICE)))) (forall ((ROW $$unsorted) (ELEMENT $$unsorted)) (=> (@ tptp.contraryAttribute_THFTYPE_IioI ROW) (=> (@ (@ tptp.inList_THFTYPE_IiioI ELEMENT) (@ tptp.lListFn_THFTYPE_IiiI ROW)) (@ (@ tptp.instance_THFTYPE_IiioI ELEMENT) tptp.lAttribute_THFTYPE_i)))) (forall ((DAY $$unsorted) (NUMBER $$unsorted) (MONTH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DAY) (@ (@ tptp.lDayFn_THFTYPE_IiiiI NUMBER) MONTH)) (@ (@ tptp.ltet_THFTYPE_IiioI NUMBER) tptp.n31_THFTYPE_i))) (forall ((AGENT $$unsorted) (RETURN $$unsorted) (DEST $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI RETURN) tptp.lGivingBack_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI RETURN) AGENT) (@ (@ tptp.destination_THFTYPE_IiioI RETURN) DEST)) (exists ((GIVE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI GIVE) tptp.lGiving_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI GIVE) DEST) (@ (@ tptp.destination_THFTYPE_IiioI GIVE) AGENT) (@ (@ tptp.earlier_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI GIVE)) (@ tptp.lWhenFn_THFTYPE_IiiI RETURN)))))) (forall ((OBJECT $$unsorted) (PART $$unsorted) (BOTTOM $$unsorted)) (=> (and (@ (@ tptp.bottom_THFTYPE_IiioI BOTTOM) OBJECT) (@ (@ tptp.part_THFTYPE_IiioI PART) OBJECT) (not (@ (@ tptp.connected_THFTYPE_IiioI PART) BOTTOM))) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI PART) BOTTOM) tptp.lAbove_THFTYPE_i))) (forall ((TIMECLASS1 $$unsorted) (TIMECLASS2 $$unsorted) (INTERVAL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL) (@ (@ tptp.lRecurrentTimeIntervalFn_THFTYPE_IiiiI TIMECLASS1) TIMECLASS2)) (exists ((TIME1 $$unsorted) (TIME2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI TIME1) TIMECLASS1) (@ (@ tptp.instance_THFTYPE_IiioI TIME2) TIMECLASS2) (@ (@ tptp.starts_THFTYPE_IiioI TIME1) INTERVAL) (@ (@ tptp.finishes_THFTYPE_IiioI TIME2) INTERVAL))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lJudicialProcess_THFTYPE_i) tptp.lPoliticalProcess_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lManualHumanLanguage_THFTYPE_i) tptp.lHumanLanguage_THFTYPE_i) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lSolidAngleMeasure_THFTYPE_i) tptp.lPlaneAngleMeasure_THFTYPE_i) (@ (@ (@ (@ tptp.contraryAttribute_THFTYPE_IiiiioI tptp.lSolid_THFTYPE_i) tptp.lLiquid_THFTYPE_i) tptp.lGas_THFTYPE_i) tptp.lPlasma_THFTYPE_i) (@ _let_614 tptp.lWaterMotion_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSoundAttribute_THFTYPE_i) tptp.lRelationalAttribute_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCutting_THFTYPE_i) tptp.lPoking_THFTYPE_i) (forall ((CLASS1 $$unsorted) (REL $$unsorted) (CLASS2 $$unsorted)) (let ((_let_1 (@ tptp.rangeSubclass_THFTYPE_IiioI REL))) (=> (and (@ _let_1 CLASS1) (@ _let_1 CLASS2)) (or (@ (@ tptp.subclass_THFTYPE_IiioI CLASS1) CLASS2) (@ (@ tptp.subclass_THFTYPE_IiioI CLASS2) CLASS1))))) (forall ((NUMBER $$unsorted) (INT $$unsorted)) (=> (= (@ tptp.lCeilingFn_THFTYPE_IiiI NUMBER) INT) (not (exists ((OTHERINT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI OTHERINT) tptp.lInteger_THFTYPE_i) (@ (@ tptp.gtet_THFTYPE_IiioI OTHERINT) NUMBER) (@ (@ tptp.lt_THFTYPE_IiioI OTHERINT) INT)))))) (@ _let_554 tptp.lGovernmentOrganization_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMotionUpward_THFTYPE_i) tptp.lMotion_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMelting_THFTYPE_i) tptp.lStateChange_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBodyCovering_THFTYPE_i) tptp.lBodyPart_THFTYPE_i) (forall ((FUND $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI FUND) tptp.lFunding_THFTYPE_i) (exists ((MONEY $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI MONEY) tptp.lCurrency_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI FUND) MONEY))))) (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lEntity_THFTYPE_i) tptp.lPhysical_THFTYPE_i) tptp.lAbstract_THFTYPE_i) (forall ((GRAPH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI GRAPH) tptp.lGraph_THFTYPE_i) (exists ((NODE1 $$unsorted) (NODE2 $$unsorted) (NODE3 $$unsorted) (ARC1 $$unsorted) (ARC2 $$unsorted)) (and (@ (@ tptp.graphPart_THFTYPE_IiioI NODE1) GRAPH) (@ (@ tptp.graphPart_THFTYPE_IiioI NODE2) GRAPH) (@ (@ tptp.graphPart_THFTYPE_IiioI NODE3) GRAPH) (@ (@ tptp.graphPart_THFTYPE_IiioI ARC1) GRAPH) (@ (@ tptp.graphPart_THFTYPE_IiioI ARC2) GRAPH) (@ (@ (@ tptp.links_THFTYPE_IiiioI NODE1) NODE2) ARC1) (@ (@ (@ tptp.links_THFTYPE_IiiioI NODE2) NODE3) ARC2) (not (= NODE1 NODE2)) (not (= NODE2 NODE3)) (not (= NODE1 NODE3)) (not (= ARC1 ARC2)))))) (forall ((MONTH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MONTH) tptp.lNovember_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI MONTH) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n30_THFTYPE_i) tptp.lDayDuration_THFTYPE_i)))) (forall ((REASON $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI REASON) tptp.lReasoning_THFTYPE_i) (exists ((ARGUMENT Bool)) (and (@ (@ tptp.instance_THFTYPE_IoioI ARGUMENT) tptp.lArgument_THFTYPE_i) (@ (@ tptp.realization_THFTYPE_IiooI REASON) ARGUMENT))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTimeZone_THFTYPE_i) tptp.lRelationalAttribute_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTasting_THFTYPE_i) tptp.lPerception_THFTYPE_i) (forall ((REL (-> $$unsorted $$unsorted Bool)) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IIiioIioI REL))) (=> (and (@ _let_1 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_1 tptp.lSpatialRelation_THFTYPE_i) (@ (@ REL OBJ1) OBJ2)) (@ (@ tptp.overlapsTemporally_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI OBJ1)) (@ tptp.lWhenFn_THFTYPE_IiiI OBJ2))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSolution_THFTYPE_i) tptp.lLiquidMixture_THFTYPE_i) (forall ((RUN $$unsorted) (TIME $$unsorted) (AGENT $$unsorted) (LENGTH1 $$unsorted) (LENGTH2 $$unsorted) (WALK $$unsorted)) (let ((_let_1 (@ tptp.measure_THFTYPE_IiioI AGENT))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI WALK) tptp.lWalking_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI RUN) tptp.lRunning_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI WALK) AGENT) (@ (@ tptp.agent_THFTYPE_IiioI RUN) AGENT) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI WALK)) (@ _let_1 (@ (@ tptp.lSpeedFn_THFTYPE_IiiiI LENGTH1) TIME))) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI RUN)) (@ _let_1 (@ (@ tptp.lSpeedFn_THFTYPE_IiiiI LENGTH2) TIME)))) (@ (@ tptp.gt_THFTYPE_IiioI LENGTH2) LENGTH1)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMeat_THFTYPE_i) tptp.lFood_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSetOrClass_THFTYPE_i) tptp.lAbstract_THFTYPE_i) (forall ((REP $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI REP) tptp.lReplication_THFTYPE_i) (exists ((BODY $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI BODY) tptp.lReproductiveBody_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI REP) BODY))))) (@ _let_569 tptp.lPathologicProcess_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFloweringPlant_THFTYPE_i) tptp.lPlant_THFTYPE_i) (forall ((PATH $$unsorted) (NODE1 $$unsorted) (NODE2 $$unsorted)) (=> (= (@ (@ tptp.lMinimalWeightedPathFn_THFTYPE_IiiiI NODE1) NODE2) PATH) (@ (@ tptp.instance_THFTYPE_IiioI PATH) (@ (@ tptp.lGraphPathFn_THFTYPE_IiiiI NODE1) NODE2)))) (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lSmooth_THFTYPE_i) tptp.lRough_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMammal_THFTYPE_i) tptp.lWarmBloodedVertebrate_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lGovernmentFn_THFTYPE_i) tptp.lGovernment_THFTYPE_i) (forall ((GET $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI GET) tptp.lUnilateralGetting_THFTYPE_i) (not (exists ((TRANS $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI TRANS) tptp.lTransaction_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI GET) TRANS)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lIntentionalProcess_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lNumeratorFn_THFTYPE_i) tptp.lInteger_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAmphibian_THFTYPE_i) tptp.lColdBloodedVertebrate_THFTYPE_i) (forall ((STRUCTURE $$unsorted) (ANIMAL $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI ANIMAL))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI STRUCTURE) tptp.lAnimalAnatomicalStructure_THFTYPE_i) (@ _let_1 tptp.lOrganism_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI STRUCTURE) ANIMAL)) (@ _let_1 tptp.lAnimal_THFTYPE_i)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lManufacturer_THFTYPE_i) tptp.lCorporation_THFTYPE_i) (forall ((POINT $$unsorted) (INTERVAL $$unsorted)) (=> (= (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL) POINT) (forall ((OTHERPOINT $$unsorted)) (=> (and (@ (@ tptp.temporalPart_THFTYPE_IiioI OTHERPOINT) INTERVAL) (not (= OTHERPOINT POINT))) (@ (@ tptp.before_THFTYPE_IiioI POINT) OTHERPOINT))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSingleFamilyResidence_THFTYPE_i) tptp.lPermanentResidence_THFTYPE_i) (forall ((DETACH $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (let ((_let_1 (@ (@ tptp.connected_THFTYPE_IiioI OBJ1) OBJ2))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI DETACH))) (let ((_let_3 (@ tptp.patient_THFTYPE_IiioI DETACH))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DETACH) tptp.lDetaching_THFTYPE_i) (@ _let_3 OBJ1) (@ _let_3 OBJ2)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) _let_1) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (not _let_1)))))))) (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lEditionFn_THFTYPE_i) tptp.lContentBearingObject_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWalking_THFTYPE_i) tptp.lAmbulating_THFTYPE_i) (forall ((WET $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI WET) tptp.lWetting_THFTYPE_i) (exists ((OBJ $$unsorted)) (and (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) tptp.lLiquid_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI WET) OBJ))))) (forall ((FISH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI FISH) tptp.lFish_THFTYPE_i) (exists ((WATER $$unsorted)) (and (@ (@ tptp.inhabits_THFTYPE_IiioI FISH) WATER) (@ (@ tptp.instance_THFTYPE_IiioI WATER) tptp.lWater_THFTYPE_i))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCurrency_THFTYPE_i) tptp.lFinancialInstrument_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSeries_THFTYPE_i) tptp.lText_THFTYPE_i) (@ _let_613 tptp.lHominid_THFTYPE_i) (forall ((NUMBER $$unsorted) (LIST1 $$unsorted) (NUMBER1 $$unsorted) (LIST $$unsorted)) (=> (and (= (@ tptp.lListLengthFn_THFTYPE_IiiI LIST1) NUMBER) (@ (@ tptp.instance_THFTYPE_IiioI LIST) tptp.lList_THFTYPE_i) (not (= LIST tptp.lNullList_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI NUMBER1) tptp.lPositiveInteger_THFTYPE_i)) (exists ((LIST2 $$unsorted) (ITEM $$unsorted)) (let ((_let_1 (@ tptp.lSuccessorFn_THFTYPE_IiiI NUMBER))) (and (@ (@ tptp.initialList_THFTYPE_IiioI LIST1) LIST2) (= _let_1 (@ tptp.lListLengthFn_THFTYPE_IiiI LIST2)) (= (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST2) _let_1) ITEM)))))) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lDayDuration_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n24_THFTYPE_i)) tptp.lHourDuration_THFTYPE_i)))) (@ _let_586 tptp.lInheritableRelation_THFTYPE_i) (forall ((AGENT $$unsorted) (TEXT $$unsorted)) (=> (@ (@ tptp.authors_THFTYPE_IiioI AGENT) TEXT) (exists ((PROCESS $$unsorted) (INSTANCE $$unsorted)) (and (@ (@ tptp.agent_THFTYPE_IiioI PROCESS) AGENT) (@ (@ tptp.instance_THFTYPE_IiioI INSTANCE) TEXT) (@ (@ tptp.result_THFTYPE_IiioI PROCESS) TEXT))))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lWhenFn_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRationalNumber_THFTYPE_i) tptp.lRealNumber_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPositiveRealNumber_THFTYPE_i) tptp.lNonnegativeRealNumber_THFTYPE_i) (forall ((INTERVAL1 $$unsorted) (INTERVAL2 $$unsorted)) (= (@ (@ tptp.meetsTemporally_THFTYPE_IiioI INTERVAL1) INTERVAL2) (= (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL1) (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL2)))) (forall ((MONTH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MONTH) tptp.lMay_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI MONTH) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n31_THFTYPE_i) tptp.lDayDuration_THFTYPE_i)))) (forall ((REL (-> $$unsorted $$unsorted Bool))) (= (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lTotalOrderingRelation_THFTYPE_i) (forall ((INST1 $$unsorted) (INST2 $$unsorted)) (let ((_let_1 (@ (@ REL INST2) INST1))) (let ((_let_2 (@ (@ REL INST1) INST2))) (and (or _let_2 _let_1) (or (not _let_2) (not _let_1)))))))) (forall ((BOILVAL $$unsorted) (OBJ $$unsorted) (MEAS $$unsorted) (VAL $$unsorted) (EVAP $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI EVAP) tptp.lEvaporating_THFTYPE_i) (@ (@ tptp.boilingPoint_THFTYPE_IiioI OBJ) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI BOILVAL) MEAS)) (@ (@ tptp.measure_THFTYPE_IiioI OBJ) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI VAL) MEAS)) (@ (@ tptp.instance_THFTYPE_IiioI MEAS) tptp.lUnitOfTemperature_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI EVAP) OBJ)) (exists ((PART $$unsorted)) (let ((_let_1 (@ tptp.attribute_THFTYPE_IiioI PART))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI EVAP))) (and (@ (@ tptp.part_THFTYPE_IiioI PART) OBJ) (@ (@ tptp.gt_THFTYPE_IiioI BOILVAL) VAL) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (@ _let_1 tptp.lLiquid_THFTYPE_i)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (@ _let_1 tptp.lGas_THFTYPE_i)))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAnimalSubstance_THFTYPE_i) tptp.lBodySubstance_THFTYPE_i) (forall ((COMP2 $$unsorted) (COMP1 $$unsorted)) (= (@ (@ tptp.connectedEngineeringComponents_THFTYPE_IiioI COMP1) COMP2) (exists ((CONNECTION $$unsorted)) (@ (@ (@ tptp.connectsEngineeringComponents_THFTYPE_IiiioI CONNECTION) COMP1) COMP2)))) (@ _let_611 tptp.lReproductiveBody_THFTYPE_i) (forall ((NUMBER $$unsorted) (QUANT $$unsorted) (UNIT $$unsorted)) (=> (and (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfMeasure_THFTYPE_i) (= QUANT (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) UNIT))) (= (@ tptp.lMagnitudeFn_THFTYPE_IiiI QUANT) NUMBER))) (@ (@ (@ (@ (@ (@ tptp.disjointDecomposition_THFTYPE_IiiiiiioI tptp.lAbstract_THFTYPE_i) tptp.lQuantity_THFTYPE_i) tptp.lAttribute_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) tptp.lRelation_THFTYPE_i) tptp.lProposition_THFTYPE_i) (forall ((CLASS $$unsorted) (INTERVAL_TYPE $$unsorted) (INTERVAL $$unsorted)) (=> (= (@ (@ tptp.lTemporalCompositionFn_THFTYPE_IiiiI INTERVAL) INTERVAL_TYPE) CLASS) (exists ((TIME $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI TIME) CLASS) (@ (@ tptp.starts_THFTYPE_IiioI TIME) INTERVAL))))) (forall ((MINUTE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MINUTE) tptp.lMinute_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI MINUTE) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1_THFTYPE_i) tptp.lMinuteDuration_THFTYPE_i)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lContentBearingProcess_THFTYPE_i) tptp.lContentBearingPhysical_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lWealthFn_THFTYPE_i) tptp.lCurrencyMeasure_THFTYPE_i) (@ _let_587 tptp.lGeographicArea_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lAbstractionFn_THFTYPE_i) tptp.lAttribute_THFTYPE_i) (@ _let_594 tptp.lIntentionalPsychologicalProcess_THFTYPE_i) (@ (@ tptp.inverse_THFTYPE_IIiioIIiioIoI tptp.husband_THFTYPE_IiioI) tptp.wife_THFTYPE_IiioI) (forall ((PROC2 $$unsorted) (PROC1 $$unsorted)) (=> (@ (@ tptp.causesSubclass_THFTYPE_IiioI PROC1) PROC2) (forall ((INST2 $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INST2) PROC2) (exists ((INST1 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI INST1) PROC1) (@ (@ tptp.causes_THFTYPE_IiioI INST1) INST2))))))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lPredecessorFn_THFTYPE_i) tptp.lInteger_THFTYPE_i) (forall ((REL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI REL) tptp.lQuaternaryPredicate_THFTYPE_i) (@ (@ tptp.valence_THFTYPE_IiioI REL) tptp.n4_THFTYPE_i))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lLogFn_THFTYPE_i) tptp.lRealNumber_THFTYPE_i) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lOrganicObject_THFTYPE_i) tptp.lArtifact_THFTYPE_i) (forall ((INSTRUMENT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INSTRUMENT) tptp.lMusicalInstrument_THFTYPE_i) (@ (@ (@ tptp.capability_THFTYPE_IiIiioIioI tptp.lMusic_THFTYPE_i) tptp.instrument_THFTYPE_IiioI) INSTRUMENT))) (forall ((PERSON $$unsorted) (JOIN $$unsorted) (ORG $$unsorted)) (let ((_let_1 (@ (@ tptp.member_THFTYPE_IiioI PERSON) ORG))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI JOIN))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI JOIN) tptp.lJoiningAnOrganization_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lOrganization_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI JOIN) PERSON) (@ (@ tptp.patient_THFTYPE_IiioI JOIN) ORG)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (not _let_1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) _let_1)))))) (@ _let_553 tptp.lMotionDownward_THFTYPE_i) (forall ((NUMBER $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI NUMBER))) (= (@ _let_1 tptp.lNonnegativeRealNumber_THFTYPE_i) (and (@ (@ tptp.gtet_THFTYPE_IiioI NUMBER) tptp.n0_THFTYPE_i) (@ _let_1 tptp.lRealNumber_THFTYPE_i))))) (forall ((PERCEPT $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PERCEPT) tptp.lPerception_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PERCEPT) AGENT)) (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lAnimal_THFTYPE_i))) (@ _let_612 tptp.lNonnegativeInteger_THFTYPE_i) (forall ((PROCESS $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI PROCESS) tptp.lCreation_THFTYPE_i) (exists ((PATIENT $$unsorted)) (let ((_let_1 (@ tptp.lWhenFn_THFTYPE_IiiI PROCESS))) (let ((_let_2 (@ tptp.time_THFTYPE_IiioI PATIENT))) (and (@ (@ tptp.patient_THFTYPE_IiioI PROCESS) PATIENT) (@ _let_2 (@ tptp.lEndFn_THFTYPE_IiiI _let_1)) (not (@ _let_2 (@ tptp.lBeginFn_THFTYPE_IiiI _let_1))))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNaming_THFTYPE_i) tptp.lDeclaring_THFTYPE_i) (forall ((MONTH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MONTH) tptp.lJune_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI MONTH) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n30_THFTYPE_i) tptp.lDayDuration_THFTYPE_i)))) (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lAmbulating_THFTYPE_i) tptp.lWalking_THFTYPE_i) tptp.lRunning_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNoun_THFTYPE_i) tptp.lWord_THFTYPE_i) (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lPhysical_THFTYPE_i) tptp.lObject_THFTYPE_i) tptp.lProcess_THFTYPE_i) (forall ((AGENT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lSentientAgent_THFTYPE_i) (@ (@ (@ tptp.capability_THFTYPE_IiIiioIioI tptp.lPerception_THFTYPE_i) tptp.experiencer_THFTYPE_IiioI) AGENT))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWeatherProcess_THFTYPE_i) tptp.lMotion_THFTYPE_i) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lAutonomicProcess_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i) (forall ((NUMBER $$unsorted) (QUANT $$unsorted) (UNIT $$unsorted)) (=> (and (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) UNIT) QUANT) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfInformation_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI QUANT) tptp.lInformationMeasure_THFTYPE_i))) (forall ((COMMUNICATE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI COMMUNICATE) tptp.lCommunication_THFTYPE_i) (exists ((PHYS $$unsorted) (ENTITY $$unsorted) (AGENT1 $$unsorted) (AGENT2 $$unsorted)) (and (@ (@ tptp.refers_THFTYPE_IiioI PHYS) ENTITY) (@ (@ tptp.patient_THFTYPE_IiioI COMMUNICATE) PHYS) (@ (@ tptp.instance_THFTYPE_IiioI AGENT1) tptp.lCognitiveAgent_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI COMMUNICATE) AGENT1) (@ (@ tptp.instance_THFTYPE_IiioI AGENT2) tptp.lCognitiveAgent_THFTYPE_i) (@ (@ tptp.destination_THFTYPE_IiioI COMMUNICATE) AGENT2))))) (forall ((CLASS $$unsorted) (INTERVAL_TYPE $$unsorted) (INTERVAL $$unsorted)) (=> (= (@ (@ tptp.lTemporalCompositionFn_THFTYPE_IiiiI INTERVAL) INTERVAL_TYPE) CLASS) (exists ((TIME $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI TIME) CLASS) (@ (@ tptp.finishes_THFTYPE_IiioI TIME) INTERVAL))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnitOfFrequency_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i) (forall ((PERSON $$unsorted) (EDUCATION $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI EDUCATION) tptp.lEducationalProcess_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI EDUCATION) PERSON)) (@ (@ tptp.hasPurpose_THFTYPE_IiooI EDUCATION) (exists ((LEARN $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI LEARN) tptp.lLearning_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI LEARN) PERSON)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGetting_THFTYPE_i) tptp.lChangeOfPossession_THFTYPE_i) (forall ((MEASURE2 $$unsorted) (MEASURE1 $$unsorted) (CLOUD $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI CLOUD) tptp.lWaterCloud_THFTYPE_i) (forall ((PART $$unsorted)) (=> (and (@ (@ tptp.part_THFTYPE_IiioI PART) CLOUD) (not (@ (@ tptp.instance_THFTYPE_IiioI PART) tptp.lWater_THFTYPE_i))) (exists ((WATER $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI WATER) tptp.lWater_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI WATER) CLOUD) (@ (@ tptp.measure_THFTYPE_IiioI WATER) MEASURE1) (@ (@ tptp.measure_THFTYPE_IiioI PART) MEASURE2) (@ (@ tptp.gt_THFTYPE_IiioI MEASURE1) MEASURE2))))))) (forall ((ROW $$unsorted) (ELEMENT $$unsorted)) (=> (@ tptp.disjointDecomposition_THFTYPE_IioI ROW) (=> (@ (@ tptp.inList_THFTYPE_IiioI ELEMENT) (@ tptp.lListFn_THFTYPE_IiiI ROW)) (@ (@ tptp.instance_THFTYPE_IiioI ELEMENT) tptp.lClass_THFTYPE_i)))) (forall ((FUN $$unsorted) (CLASS $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI FUN) tptp.lOneToOneFunction_THFTYPE_i) (forall ((ARG1 $$unsorted) (ARG2 $$unsorted)) (let ((_let_1 (@ tptp.lAssignmentFn_THFTYPE_IiiiI FUN))) (=> (and (@ (@ (@ tptp.domain_THFTYPE_IiiioI FUN) tptp.n1_THFTYPE_i) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI ARG1) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI ARG2) CLASS) (not (= ARG1 ARG2))) (not (= (@ _let_1 ARG1) (@ _let_1 ARG2)))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPoliticalProcess_THFTYPE_i) tptp.lOrganizationalProcess_THFTYPE_i) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lObjectAttitude_THFTYPE_i) tptp.lPropositionalAttitude_THFTYPE_i) (@ _let_611 tptp.lPlantAnatomicalStructure_THFTYPE_i) (forall ((AGENT $$unsorted) (PROC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lDiagnosticProcess_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PROC) AGENT)) (exists ((CAUSE $$unsorted)) (@ (@ (@ tptp.hasPurposeForAgent_THFTYPE_IioioI PROC) (@ (@ tptp.knows_THFTYPE_IiooI AGENT) (@ (@ tptp.causes_THFTYPE_IiioI CAUSE) PROC))) AGENT)))) (forall ((OBJ $$unsorted) (MELT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MELT) tptp.lMelting_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI MELT) OBJ)) (exists ((PART $$unsorted)) (let ((_let_1 (@ tptp.attribute_THFTYPE_IiioI PART))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI MELT))) (and (@ (@ tptp.part_THFTYPE_IiioI PART) OBJ) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (@ _let_1 tptp.lSolid_THFTYPE_i)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (@ _let_1 tptp.lLiquid_THFTYPE_i)))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lReligiousProcess_THFTYPE_i) tptp.lOrganizationalProcess_THFTYPE_i) (forall ((OBJ $$unsorted) (TIME $$unsorted) (DURATION $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TIME) tptp.lTimePoint_THFTYPE_i) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.age_THFTYPE_IiioI OBJ) DURATION))) (@ (@ tptp.duration_THFTYPE_IiioI (@ (@ tptp.lTimeIntervalFn_THFTYPE_IiiiI (@ tptp.lBeginFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI OBJ))) TIME)) DURATION))) (forall ((CHILD $$unsorted) (PARENT $$unsorted)) (=> (and (@ (@ tptp.parent_THFTYPE_IiioI CHILD) PARENT) (@ (@ tptp.attribute_THFTYPE_IiioI PARENT) tptp.lMale_THFTYPE_i)) (@ (@ tptp.father_THFTYPE_IiioI CHILD) PARENT))) (forall ((PROP $$unsorted) (FORMULA1 Bool) (FORMULA2 Bool)) (=> (and (@ (@ tptp.modalAttribute_THFTYPE_IoioI FORMULA1) PROP) (@ (@ tptp.entails_THFTYPE_IoooI FORMULA1) FORMULA2)) (@ (@ tptp.modalAttribute_THFTYPE_IoioI FORMULA2) PROP))) (forall ((OBJECT $$unsorted) (AGENT $$unsorted)) (= (exists ((PROCESS $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PROCESS) tptp.lIntentionalProcess_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PROCESS) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI PROCESS) OBJECT))) (@ (@ tptp.inScopeOfInterest_THFTYPE_IiioI AGENT) OBJECT))) (forall ((INSERT $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (let ((_let_1 (@ (@ tptp.contains_THFTYPE_IiioI OBJ2) OBJ1))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI INSERT))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI INSERT) tptp.lInserting_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI INSERT) OBJ1) (@ (@ tptp.destination_THFTYPE_IiioI INSERT) OBJ2)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (not _let_1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) _let_1)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMutuallyDisjointClass_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (forall ((MACHINE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MACHINE) tptp.lMachine_THFTYPE_i) (forall ((PROC $$unsorted)) (=> (@ (@ tptp.instrument_THFTYPE_IiioI PROC) MACHINE) (exists ((RESOURCE $$unsorted) (RESULT $$unsorted)) (and (@ (@ tptp.resource_THFTYPE_IiioI PROC) RESOURCE) (@ (@ tptp.result_THFTYPE_IiioI PROC) RESULT))))))) (forall ((TEXT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI TEXT) tptp.lSummary_THFTYPE_i) (exists ((TEXT2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI TEXT2) tptp.lText_THFTYPE_i) (@ (@ tptp.subsumesContentInstance_THFTYPE_IiioI TEXT2) TEXT))))) (@ _let_559 tptp.lGeopoliticalArea_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSpokenHumanLanguage_THFTYPE_i) tptp.lHumanLanguage_THFTYPE_i) (forall ((MIX $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MIX) tptp.lLiquidMixture_THFTYPE_i) (exists ((PART $$unsorted)) (and (@ (@ tptp.part_THFTYPE_IiioI PART) MIX) (@ (@ tptp.attribute_THFTYPE_IiioI PART) tptp.lLiquid_THFTYPE_i))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lEmotionalState_THFTYPE_i) tptp.lStateOfMind_THFTYPE_i) (forall ((MONTH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MONTH) tptp.lMarch_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI MONTH) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n31_THFTYPE_i) tptp.lDayDuration_THFTYPE_i)))) (@ (@ (@ (@ tptp.partition_THFTYPE_IiiiioI tptp.lNumber_THFTYPE_i) tptp.lRealNumber_THFTYPE_i) tptp.lImaginaryNumber_THFTYPE_i) tptp.lComplexNumber_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSeparating_THFTYPE_i) tptp.lDualObjectProcess_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMonkey_THFTYPE_i) tptp.lPrimate_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMilitaryProcess_THFTYPE_i) tptp.lPoliticalProcess_THFTYPE_i) (forall ((P $$unsorted) (O2 $$unsorted) (O1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI P) tptp.lAntiSymmetricPositionalAttribute_THFTYPE_i) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI O1) O2) P)) (not (@ (@ (@ tptp.orientation_THFTYPE_IiiioI O2) O1) P)))) (forall ((FUNCTION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI FUNCTION) tptp.lBinaryFunction_THFTYPE_i) (@ (@ tptp.valence_THFTYPE_IiioI FUNCTION) tptp.n2_THFTYPE_i))) (forall ((LANGUAGE $$unsorted) (ENTITY $$unsorted) (REP $$unsorted)) (=> (@ (@ (@ tptp.representsInLanguage_THFTYPE_IiiioI REP) ENTITY) LANGUAGE) (exists ((AGENT $$unsorted)) (@ (@ (@ tptp.representsForAgent_THFTYPE_IiiioI REP) ENTITY) AGENT)))) (forall ((P2 $$unsorted) (P1 $$unsorted)) (=> (@ (@ tptp.causes_THFTYPE_IiioI P1) P2) (@ (@ tptp.earlier_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI P1)) (@ tptp.lWhenFn_THFTYPE_IiiI P2)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lConsciousnessAttribute_THFTYPE_i) tptp.lStateOfMind_THFTYPE_i) (forall ((INTERVAL1 $$unsorted) (INTERVAL2 $$unsorted)) (= (@ (@ tptp.starts_THFTYPE_IiioI INTERVAL1) INTERVAL2) (and (= (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL1) (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL2)) (@ (@ tptp.before_THFTYPE_IiioI (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL1)) (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL2))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNaturalLanguage_THFTYPE_i) tptp.lHumanLanguage_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDeonticAttribute_THFTYPE_i) tptp.lObjectiveNorm_THFTYPE_i) (forall ((OBJ $$unsorted) (DECREASE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DECREASE) tptp.lDecreasing_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI DECREASE) OBJ)) (exists ((UNIT $$unsorted) (QUANT1 $$unsorted) (QUANT2 $$unsorted)) (let ((_let_1 (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI OBJ) UNIT))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI DECREASE))) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (= _let_1 QUANT1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (= _let_1 QUANT2)) (@ (@ tptp.lt_THFTYPE_IiioI QUANT2) QUANT1))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBattle_THFTYPE_i) tptp.lViolentContest_THFTYPE_i) (forall ((NUMBER2 $$unsorted) (FORMULA1 Bool) (NUMBER1 $$unsorted) (FORMULA2 Bool)) (=> (and (@ (@ tptp.independentProbability_THFTYPE_IoooI FORMULA1) FORMULA2) (= (@ tptp.lProbabilityFn_THFTYPE_IoiI FORMULA2) NUMBER1) (@ (@ (@ tptp.conditionalProbability_THFTYPE_IooioI FORMULA1) FORMULA2) NUMBER2)) (= NUMBER2 NUMBER1))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAttribute_THFTYPE_i) tptp.lAbstract_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCounting_THFTYPE_i) tptp.lCalculating_THFTYPE_i) (@ _let_526 tptp.lTernaryRelation_THFTYPE_i) (forall ((REL (-> $$unsorted $$unsorted Bool)) (NUMBER2 $$unsorted) (NUMBER1 $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IIiioIioI REL))) (=> (and (@ _let_1 tptp.lRelationExtendedToQuantities_THFTYPE_i) (@ _let_1 tptp.lBinaryRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI NUMBER1) tptp.lRealNumber_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI NUMBER2) tptp.lRealNumber_THFTYPE_i) (@ (@ REL NUMBER1) NUMBER2)) (forall ((UNIT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfMeasure_THFTYPE_i) (@ (@ REL (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER1) UNIT)) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER2) UNIT))))))) (forall ((OBJ $$unsorted)) (let ((_let_1 (@ tptp.attribute_THFTYPE_IiioI OBJ))) (=> (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lObject_THFTYPE_i) (or (@ _let_1 tptp.lMonochromatic_THFTYPE_i) (@ _let_1 tptp.lPolychromatic_THFTYPE_i))))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lPathWeightFn_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGraph_THFTYPE_i) tptp.lAbstract_THFTYPE_i) (forall ((PHRASE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PHRASE) tptp.lPrepositionalPhrase_THFTYPE_i) (exists ((PREP $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PREP) tptp.lParticleWord_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI PREP) PHRASE))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnitOfCurrency_THFTYPE_i) tptp.lNonCompositeUnitOfMeasure_THFTYPE_i) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lElectronVolt_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n1dot60217733Eminus19_THFTYPE_i)) tptp.lJoule_THFTYPE_i)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCognitiveAgent_THFTYPE_i) tptp.lSentientAgent_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lPerFn_THFTYPE_i) tptp.lFunctionQuantity_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDamaging_THFTYPE_i) tptp.lInternalChange_THFTYPE_i) (forall ((STUFF $$unsorted) (PROC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lChemicalProcess_THFTYPE_i) (or (@ (@ tptp.resource_THFTYPE_IiioI PROC) STUFF) (@ (@ tptp.result_THFTYPE_IiioI PROC) STUFF))) (@ (@ tptp.instance_THFTYPE_IiioI STUFF) tptp.lPureSubstance_THFTYPE_i))) (forall ((PROP2 Bool) (PROP1 Bool)) (=> (@ (@ tptp.subProposition_THFTYPE_IoooI PROP1) PROP2) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (and (@ (@ tptp.containsInformation_THFTYPE_IiooI OBJ1) PROP1) (@ (@ tptp.containsInformation_THFTYPE_IiooI OBJ2) PROP2)) (@ (@ tptp.subsumesContentInstance_THFTYPE_IiioI OBJ2) OBJ1))))) (@ _let_610 tptp.lPartialOrderingRelation_THFTYPE_i) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (= (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) tptp.lNorth_THFTYPE_i) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ2) OBJ1) tptp.lSouth_THFTYPE_i))) (forall ((HOLE2 $$unsorted) (HOLE1 $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (and (@ (@ tptp.hole_THFTYPE_IiioI HOLE1) OBJ1) (@ (@ tptp.hole_THFTYPE_IiioI HOLE2) OBJ2) (@ (@ tptp.overlapsSpatially_THFTYPE_IiioI HOLE1) HOLE2)) (@ (@ tptp.overlapsSpatially_THFTYPE_IiioI OBJ1) OBJ2))) (forall ((FUNCTION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI FUNCTION) tptp.lUnaryFunction_THFTYPE_i) (@ (@ tptp.valence_THFTYPE_IiioI FUNCTION) tptp.n1_THFTYPE_i))) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (= (@ (@ tptp.larger_THFTYPE_IiioI OBJ1) OBJ2) (forall ((QUANT1 $$unsorted) (QUANT2 $$unsorted) (UNIT $$unsorted)) (=> (and (@ (@ tptp.measure_THFTYPE_IiioI OBJ1) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI QUANT1) UNIT)) (@ (@ tptp.measure_THFTYPE_IiioI OBJ2) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI QUANT2) UNIT)) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfLength_THFTYPE_i)) (@ (@ tptp.gt_THFTYPE_IiioI QUANT1) QUANT2))))) (@ (@ (@ (@ tptp.contraryAttribute_THFTYPE_IiiiioI tptp.lNorth_THFTYPE_i) tptp.lSouth_THFTYPE_i) tptp.lEast_THFTYPE_i) tptp.lWest_THFTYPE_i) (forall ((DECLARE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DECLARE) tptp.lDeclaring_THFTYPE_i) (exists ((PROP Bool) (NORM $$unsorted)) (or (@ (@ (@ tptp.confersNorm_THFTYPE_IioioI DECLARE) PROP) NORM) (@ (@ (@ tptp.deprivesNorm_THFTYPE_IioioI DECLARE) PROP) NORM))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOrganicObject_THFTYPE_i) tptp.lCorpuscularObject_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMorpheme_THFTYPE_i) tptp.lLinguisticExpression_THFTYPE_i) (forall ((G $$unsorted) (M $$unsorted)) (=> (@ (@ tptp.graphMeasure_THFTYPE_IiioI G) M) (forall ((AC $$unsorted)) (and (@ (@ tptp.graphPart_THFTYPE_IiioI AC) G) (exists ((PC $$unsorted)) (@ (@ tptp.abstractCounterpart_THFTYPE_IiioI AC) PC)))))) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ tptp.located_THFTYPE_IiioI OBJ1) OBJ2) (forall ((SUB $$unsorted)) (=> (@ (@ tptp.part_THFTYPE_IiioI SUB) OBJ1) (@ (@ tptp.located_THFTYPE_IiioI SUB) OBJ2))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSaturationAttribute_THFTYPE_i) tptp.lInternalAttribute_THFTYPE_i) (forall ((ATTR2 $$unsorted) (OBJ1 $$unsorted) (ROW $$unsorted) (OBJ2 $$unsorted) (ATTR1 $$unsorted)) (let ((_let_1 (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2))) (let ((_let_2 (@ tptp.lListFn_THFTYPE_IiiI ROW))) (=> (and (@ _let_1 ATTR1) (@ tptp.contraryAttribute_THFTYPE_IioI ROW) (@ (@ tptp.inList_THFTYPE_IiioI ATTR1) _let_2) (@ (@ tptp.inList_THFTYPE_IiioI ATTR2) _let_2) (not (= ATTR1 ATTR2))) (not (@ _let_1 ATTR2)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lJoiningAnOrganization_THFTYPE_i) tptp.lOrganizationalProcess_THFTYPE_i) (forall ((FROM $$unsorted) (QUANTITY $$unsorted) (TO $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI QUANTITY) (@ (@ tptp.lIntervalFn_THFTYPE_IiiiI FROM) TO)) (and (@ (@ tptp.gtet_THFTYPE_IiioI QUANTITY) FROM) (@ (@ tptp.ltet_THFTYPE_IiioI QUANTITY) TO)))) (@ _let_564 tptp.lRelation_THFTYPE_i) (forall ((VALUE $$unsorted) (CLASS $$unsorted) (FUNCTION $$unsorted) (ROW $$unsorted)) (=> (and (@ (@ tptp.range_THFTYPE_IiioI FUNCTION) CLASS) (= (@ (@ tptp.lAssignmentFn_THFTYPE_IiiiI FUNCTION) ROW) VALUE)) (@ (@ tptp.instance_THFTYPE_IiioI VALUE) CLASS))) (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lPhysicalQuantity_THFTYPE_i) tptp.lConstantQuantity_THFTYPE_i) tptp.lFunctionQuantity_THFTYPE_i) (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lRelation_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i) tptp.lPartialValuedRelation_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lContest_THFTYPE_i) tptp.lSocialInteraction_THFTYPE_i) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ tptp.surface_THFTYPE_IiioI OBJ1) OBJ2) (forall ((OBJ3 $$unsorted)) (=> (@ (@ tptp.superficialPart_THFTYPE_IiioI OBJ3) OBJ2) (@ (@ tptp.part_THFTYPE_IiioI OBJ3) OBJ1))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lClassifying_THFTYPE_i) tptp.lIntentionalPsychologicalProcess_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lReplication_THFTYPE_i) tptp.lOrganismProcess_THFTYPE_i) (forall ((THING $$unsorted) (POS $$unsorted)) (= (@ (@ tptp.temporalPart_THFTYPE_IiioI POS) (@ tptp.lWhenFn_THFTYPE_IiiI THING)) (@ (@ tptp.time_THFTYPE_IiioI THING) POS))) (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lRigid_THFTYPE_i) tptp.lPliable_THFTYPE_i) (forall ((NUMBER $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI NUMBER) tptp.lQuantity_THFTYPE_i) (= tptp.n1_THFTYPE_i (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) (@ tptp.lReciprocalFn_THFTYPE_IiiI NUMBER))))) (forall ((CONFINE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI CONFINE) tptp.lConfining_THFTYPE_i) (exists ((AGENT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lAnimal_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI CONFINE) AGENT))))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lReciprocalFn_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGraphNode_THFTYPE_i) tptp.lGraphElement_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCovering_THFTYPE_i) tptp.lPutting_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSmelling_THFTYPE_i) tptp.lPerception_THFTYPE_i) (forall ((LAND1 $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI LAND1) tptp.lLandArea_THFTYPE_i) (exists ((LAND2 $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI LAND2))) (and (@ (@ tptp.part_THFTYPE_IiioI LAND1) LAND2) (or (@ _let_1 tptp.lContinent_THFTYPE_i) (@ _let_1 tptp.lIsland_THFTYPE_i))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInjecting_THFTYPE_i) tptp.lInserting_THFTYPE_i) (forall ((EXPRESS $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI EXPRESS) tptp.lExpressing_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI EXPRESS) AGENT)) (exists ((STATE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI STATE) tptp.lStateOfMind_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI AGENT) STATE) (@ (@ tptp.represents_THFTYPE_IiioI EXPRESS) STATE))))) (forall ((PERSON $$unsorted)) (= (and (@ (@ tptp.instance_THFTYPE_IiioI PERSON) tptp.lHuman_THFTYPE_i) (forall ((ORG $$unsorted)) (not (@ (@ tptp.employs_THFTYPE_IiioI ORG) PERSON)))) (@ (@ tptp.attribute_THFTYPE_IiioI PERSON) tptp.lUnemployed_THFTYPE_i))) (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lResidence_THFTYPE_i) tptp.lPermanentResidence_THFTYPE_i) tptp.lTemporaryResidence_THFTYPE_i) (forall ((SITUATION Bool) (TIME2 $$unsorted) (TIME1 $$unsorted)) (=> (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME1) SITUATION) (@ (@ tptp.temporalPart_THFTYPE_IiioI TIME2) TIME1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME2) SITUATION))) (forall ((BUY $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI BUY) tptp.lBuying_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI BUY) AGENT)) (@ (@ tptp.destination_THFTYPE_IiioI BUY) AGENT))) (forall ((MOTION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MOTION) tptp.lWaterMotion_THFTYPE_i) (exists ((WATER $$unsorted)) (and (@ (@ tptp.patient_THFTYPE_IiioI MOTION) WATER) (@ (@ tptp.instance_THFTYPE_IiioI WATER) tptp.lWater_THFTYPE_i))))) (forall ((CARRY $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI CARRY) tptp.lCarrying_THFTYPE_i) (exists ((ANIMAL $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ANIMAL) tptp.lAnimal_THFTYPE_i) (@ (@ tptp.instrument_THFTYPE_IiioI CARRY) ANIMAL))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDemonstrating_THFTYPE_i) tptp.lDisseminating_THFTYPE_i) (forall ((T2 $$unsorted) (T1 $$unsorted) (SIT1 Bool) (SIT2 Bool)) (=> (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI T2) SIT2) (@ (@ tptp.holdsDuring_THFTYPE_IiooI T1) SIT1) (@ (@ tptp.instance_THFTYPE_IiioI T1) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI T2) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.causesProposition_THFTYPE_IoooI SIT1) SIT2)) (@ (@ tptp.beforeOrEqual_THFTYPE_IiioI (@ tptp.lBeginFn_THFTYPE_IiiI T1)) (@ tptp.lBeginFn_THFTYPE_IiiI T2)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOrgan_THFTYPE_i) tptp.lBodyPart_THFTYPE_i) (forall ((NUMBER $$unsorted) (PERIODICAL $$unsorted) (ISSUE $$unsorted)) (=> (= (@ (@ tptp.lPeriodicalIssueFn_THFTYPE_IiiiI PERIODICAL) NUMBER) ISSUE) (@ (@ tptp.subsumesContentClass_THFTYPE_IiioI PERIODICAL) ISSUE))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lManeuver_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i) (forall ((RESIDENCE $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI RESIDENCE))) (=> (@ _let_1 tptp.lResidence_THFTYPE_i) (or (@ _let_1 tptp.lHouse_THFTYPE_i) (exists ((BUILDING $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI BUILDING) tptp.lResidentialBuilding_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI RESIDENCE) BUILDING))))))) (forall ((FORMULA Bool)) (let ((_let_1 (@ tptp.modalAttribute_THFTYPE_IoioI FORMULA))) (=> (@ _let_1 tptp.lObligation_THFTYPE_i) (@ _let_1 tptp.lPermission_THFTYPE_i)))) (forall ((ALGA $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ALGA) tptp.lAlga_THFTYPE_i) (exists ((WATER $$unsorted)) (and (@ (@ tptp.inhabits_THFTYPE_IiioI ALGA) WATER) (@ (@ tptp.instance_THFTYPE_IiioI WATER) tptp.lWater_THFTYPE_i))))) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lAmu_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n1dot6605402Eminus24_THFTYPE_i)) tptp.lGram_THFTYPE_i)))) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lYearDuration_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n365_THFTYPE_i)) tptp.lDayDuration_THFTYPE_i)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPlaneAngleMeasure_THFTYPE_i) tptp.lAngleMeasure_THFTYPE_i) (@ _let_523 tptp.lResidence_THFTYPE_i) (@ _let_601 tptp.lArtificialLanguage_THFTYPE_i) (@ _let_561 tptp.lReproductiveBody_THFTYPE_i) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ tptp.superficialPart_THFTYPE_IiioI OBJ1) OBJ2) (and (not (@ (@ tptp.interiorPart_THFTYPE_IiioI OBJ1) OBJ2)) (not (exists ((OBJ3 $$unsorted)) (@ (@ tptp.interiorPart_THFTYPE_IiioI OBJ3) OBJ1)))))) (@ _let_603 tptp.lInheritableRelation_THFTYPE_i) (@ (@ tptp.subAttribute_THFTYPE_IiioI tptp.lContract_THFTYPE_i) tptp.lPromise_THFTYPE_i) (@ _let_609 tptp.lGeopoliticalArea_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lSuccessorFn_THFTYPE_i) tptp.lInteger_THFTYPE_i) (forall ((PROCESS $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PROCESS) tptp.lPsychologicalProcess_THFTYPE_i) (exists ((ANIMAL $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ANIMAL) tptp.lAnimal_THFTYPE_i) (@ (@ tptp.experiencer_THFTYPE_IiioI PROCESS) ANIMAL))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCooking_THFTYPE_i) tptp.lMaking_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUncovering_THFTYPE_i) tptp.lRemoving_THFTYPE_i) (forall ((ROW $$unsorted) (ITEM $$unsorted)) (let ((_let_1 (@ (@ tptp.lListFn_THFTYPE_IiiiI ROW) ITEM))) (= (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI _let_1) (@ tptp.lListLengthFn_THFTYPE_IiiI _let_1)) ITEM))) (forall ((NODE $$unsorted) (GRAPH $$unsorted) (ARC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI GRAPH) tptp.lGraphPath_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI ARC) tptp.lGraphArc_THFTYPE_i) (@ (@ tptp.graphPart_THFTYPE_IiioI ARC) GRAPH)) (=> (= (@ tptp.lTerminalNodeFn_THFTYPE_IiiI ARC) NODE) (not (exists ((OTHER $$unsorted)) (and (= (@ tptp.lTerminalNodeFn_THFTYPE_IiiI OTHER) NODE) (not (= OTHER ARC)))))))) (@ (@ tptp.subAttribute_THFTYPE_IiioI tptp.lPromise_THFTYPE_i) tptp.lObligation_THFTYPE_i) (forall ((NUMBER $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI NUMBER) tptp.lRationalNumber_THFTYPE_i) (exists ((INT1 $$unsorted) (INT2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI INT1) tptp.lInteger_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI INT2) tptp.lInteger_THFTYPE_i) (= NUMBER (@ (@ tptp.div_THFTYPE_IiiiI INT1) INT2)))))) (@ _let_608 tptp.lBodyMotion_THFTYPE_i) (forall ((FUNCTION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI FUNCTION) tptp.lTernaryFunction_THFTYPE_i) (@ (@ tptp.valence_THFTYPE_IiioI FUNCTION) tptp.n3_THFTYPE_i))) (forall ((LIST3 $$unsorted) (LIST2 $$unsorted) (LIST1 $$unsorted)) (= (= LIST3 (@ (@ tptp.lListConcatenateFn_THFTYPE_IiiiI LIST1) LIST2)) (forall ((NUMBER1 $$unsorted) (NUMBER2 $$unsorted)) (let ((_let_1 (@ tptp.lListLengthFn_THFTYPE_IiiI LIST1))) (let ((_let_2 (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST3))) (=> (and (@ (@ tptp.ltet_THFTYPE_IiioI NUMBER1) _let_1) (@ (@ tptp.ltet_THFTYPE_IiioI NUMBER2) (@ tptp.lListLengthFn_THFTYPE_IiiI LIST2)) (@ (@ tptp.instance_THFTYPE_IiioI NUMBER1) tptp.lPositiveInteger_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI NUMBER2) tptp.lPositiveInteger_THFTYPE_i)) (and (= (@ _let_2 NUMBER1) (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST1) NUMBER1)) (= (@ _let_2 (@ (@ tptp.plus_THFTYPE_IiiiI _let_1) NUMBER2)) (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST2) NUMBER2))))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lContentBearingPhysical_THFTYPE_i) tptp.lPhysical_THFTYPE_i) (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lTimePosition_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) tptp.lTimePoint_THFTYPE_i) (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lEmbryonic_THFTYPE_i) tptp.lLarval_THFTYPE_i) (forall ((OBJ $$unsorted)) (=> (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) tptp.lPolychromatic_THFTYPE_i) (exists ((PART1 $$unsorted) (PART2 $$unsorted) (COLOR1 $$unsorted) (COLOR2 $$unsorted)) (and (@ (@ tptp.superficialPart_THFTYPE_IiioI PART1) OBJ) (@ (@ tptp.superficialPart_THFTYPE_IiioI PART2) OBJ) (@ (@ tptp.attribute_THFTYPE_IiioI PART1) COLOR1) (@ (@ tptp.attribute_THFTYPE_IiioI PART2) COLOR2) (@ (@ tptp.instance_THFTYPE_IiioI COLOR1) tptp.lColorAttribute_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI COLOR2) tptp.lColorAttribute_THFTYPE_i) (not (= COLOR1 COLOR2)))))) (forall ((PART $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PART) tptp.lBodyPart_THFTYPE_i) (exists ((ORGANISM $$unsorted) (TIME $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ORGANISM) tptp.lOrganism_THFTYPE_i) (@ (@ tptp.temporalPart_THFTYPE_IiioI TIME) (@ tptp.lWhenFn_THFTYPE_IiiI ORGANISM)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.component_THFTYPE_IiioI PART) ORGANISM)))))) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lAngularDegree_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) (@ (@ tptp.div_THFTYPE_IiiiI tptp.lPi_THFTYPE_i) tptp.n180_THFTYPE_i))) tptp.lRadian_THFTYPE_i)))) (forall ((SUBSTANCE $$unsorted) (ANIMAL $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI ANIMAL))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE) tptp.lAnimalSubstance_THFTYPE_i) (@ _let_1 tptp.lOrganism_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI SUBSTANCE) ANIMAL)) (@ _let_1 tptp.lAnimal_THFTYPE_i)))) (forall ((DOC $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DOC) tptp.lCertificate_THFTYPE_i) (exists ((PROP Bool) (NORM $$unsorted)) (or (@ (@ (@ tptp.confersNorm_THFTYPE_IioioI DOC) PROP) NORM) (@ (@ (@ tptp.deprivesNorm_THFTYPE_IioioI DOC) PROP) NORM))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSocialRole_THFTYPE_i) tptp.lRelationalAttribute_THFTYPE_i) (forall ((LIST2 $$unsorted) (LIST1 $$unsorted)) (=> (@ (@ tptp.subList_THFTYPE_IiioI LIST1) LIST2) (exists ((NUMBER3 $$unsorted)) (forall ((ITEM $$unsorted)) (=> (@ (@ tptp.inList_THFTYPE_IiioI ITEM) LIST1) (exists ((NUMBER1 $$unsorted) (NUMBER2 $$unsorted)) (and (= (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST1) NUMBER1) ITEM) (= (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST2) NUMBER2) ITEM) (= NUMBER2 (@ (@ tptp.plus_THFTYPE_IiiiI NUMBER1) NUMBER3))))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lExplanation_THFTYPE_i) tptp.lDeductiveArgument_THFTYPE_i) (@ (@ tptp.subAttribute_THFTYPE_IiioI tptp.lWarranty_THFTYPE_i) tptp.lServiceContract_THFTYPE_i) (@ (@ tptp.subAttribute_THFTYPE_IiioI tptp.lLaw_THFTYPE_i) tptp.lObligation_THFTYPE_i) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lUnitedStatesGallon_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n3dot785411784_THFTYPE_i)) tptp.lLiter_THFTYPE_i)))) (forall ((PRETEND $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PRETEND) tptp.lPretending_THFTYPE_i) (exists ((PERSON $$unsorted) (PROP Bool)) (and (@ (@ tptp.hasPurpose_THFTYPE_IiooI PRETEND) (@ (@ tptp.believes_THFTYPE_IiooI PERSON) PROP)) (@ (@ tptp.truth_THFTYPE_IoooI PROP) true))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lConstantQuantity_THFTYPE_i) tptp.lPhysicalQuantity_THFTYPE_i) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) tptp.lOn_THFTYPE_i) (not (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ2) OBJ1) tptp.lOn_THFTYPE_i)))) (forall ((OBJECT $$unsorted) (PART $$unsorted) (TOP $$unsorted)) (=> (and (@ (@ tptp.top_THFTYPE_IiioI TOP) OBJECT) (@ (@ tptp.part_THFTYPE_IiioI PART) OBJECT) (not (@ (@ tptp.connected_THFTYPE_IiioI PART) TOP))) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI PART) TOP) tptp.lBelow_THFTYPE_i))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMaintaining_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lVitamin_THFTYPE_i) tptp.lNutrient_THFTYPE_i) (forall ((COMBUSTION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI COMBUSTION) tptp.lCombustion_THFTYPE_i) (exists ((HEAT $$unsorted) (LIGHT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI HEAT) tptp.lHeating_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI LIGHT) tptp.lRadiatingLight_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI HEAT) COMBUSTION) (@ (@ tptp.subProcess_THFTYPE_IiioI LIGHT) COMBUSTION))))) (forall ((TIME2 $$unsorted) (TIME1 $$unsorted)) (=> (= (@ (@ tptp.lRelativeTimeFn_THFTYPE_IiiiI TIME1) tptp.lEasternTimeZone_THFTYPE_i) TIME2) (= TIME2 (@ (@ tptp.plus_THFTYPE_IiiiI TIME1) tptp.n5_THFTYPE_i)))) (forall ((LINE2 $$unsorted) (LINE1 $$unsorted)) (=> (@ (@ tptp.parallel_THFTYPE_IiioI LINE1) LINE2) (not (exists ((POINT $$unsorted)) (@ (@ (@ tptp.pointOfIntersection_THFTYPE_IiiioI LINE1) LINE2) POINT))))) (forall ((OBJ $$unsorted) (AGENT $$unsorted)) (=> (@ (@ tptp.wants_THFTYPE_IiioI AGENT) OBJ) (@ (@ tptp.desires_THFTYPE_IiooI AGENT) (@ (@ tptp.possesses_THFTYPE_IiioI AGENT) OBJ)))) (forall ((REL $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI REL))) (= (@ _let_1 tptp.lAsymmetricRelation_THFTYPE_i) (and (@ _let_1 tptp.lAntisymmetricRelation_THFTYPE_i) (@ _let_1 tptp.lIrreflexiveRelation_THFTYPE_i))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lEngineeringConnection_THFTYPE_i) tptp.lEngineeringComponent_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnilateralGiving_THFTYPE_i) tptp.lGiving_THFTYPE_i) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lCorpuscularObject_THFTYPE_i) tptp.lSubstance_THFTYPE_i) (@ (@ _let_607 tptp.lRationalNumber_THFTYPE_i) tptp.lIrrationalNumber_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNullSet_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (forall ((AMOUNT $$unsorted) (PERSON $$unsorted)) (= (= (@ tptp.lWealthFn_THFTYPE_IiiI PERSON) AMOUNT) (@ (@ tptp.monetaryValue_THFTYPE_IiioI (@ tptp.lPropertyFn_THFTYPE_IiiI PERSON)) AMOUNT))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCarrying_THFTYPE_i) tptp.lTransfer_THFTYPE_i) (forall ((LEARN $$unsorted) (PROP Bool) (AGENT $$unsorted)) (let ((_let_1 (@ (@ tptp.knows_THFTYPE_IiooI AGENT) PROP))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI LEARN))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI LEARN) tptp.lLearning_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI LEARN) AGENT) (@ (@ tptp.patient_THFTYPE_IiooI LEARN) PROP)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (not _let_1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) _let_1)))))) (forall ((NUMBER $$unsorted) (ROW $$unsorted)) (=> (= (@ tptp.lGreatestCommonDivisorFn_THFTYPE_IiiI ROW) NUMBER) (not (exists ((GREATER $$unsorted)) (and (@ (@ tptp.gt_THFTYPE_IiioI GREATER) NUMBER) (forall ((ELEMENT $$unsorted)) (=> (@ (@ tptp.inList_THFTYPE_IiioI ELEMENT) (@ tptp.lListFn_THFTYPE_IiiI ROW)) (= (@ (@ tptp.lRemainderFn_THFTYPE_IiiiI ELEMENT) GREATER) tptp.n0_THFTYPE_i)))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGraphElement_THFTYPE_i) tptp.lAbstract_THFTYPE_i) (forall ((LANG $$unsorted) (AGENT $$unsorted) (PROC $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI AGENT))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI LANG) tptp.lAnimalLanguage_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PROC) AGENT) (@ (@ tptp.instrument_THFTYPE_IiioI PROC) LANG)) (and (@ _let_1 tptp.lAnimal_THFTYPE_i) (not (@ _let_1 tptp.lHuman_THFTYPE_i)))))) (forall ((RESIDENCE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI RESIDENCE) tptp.lPermanentResidence_THFTYPE_i) (exists ((PERSON $$unsorted)) (@ (@ tptp.home_THFTYPE_IiioI PERSON) RESIDENCE)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMollusk_THFTYPE_i) tptp.lInvertebrate_THFTYPE_i) (forall ((MONTH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MONTH) tptp.lJanuary_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI MONTH) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n31_THFTYPE_i) tptp.lDayDuration_THFTYPE_i)))) (forall ((DEPTH $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ (@ tptp.depth_THFTYPE_IiiioI OBJ1) OBJ2) DEPTH) (exists ((BOTTOM $$unsorted)) (and (@ (@ tptp.bottom_THFTYPE_IiioI BOTTOM) OBJ1) (@ (@ (@ tptp.distance_THFTYPE_IiiioI BOTTOM) OBJ2) DEPTH))))) (forall ((MOTION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MOTION) tptp.lBodyMotion_THFTYPE_i) (exists ((OBJ $$unsorted) (AGENT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lBodyPart_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI MOTION) OBJ) (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lOrganism_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI MOTION) AGENT))))) (@ _let_595 tptp.lRecreationOrExercise_THFTYPE_i) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lAttaching_THFTYPE_i) tptp.lDetaching_THFTYPE_i) (forall ((BIO $$unsorted) (PROC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lTherapeuticProcess_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI PROC) BIO)) (or (@ (@ tptp.instance_THFTYPE_IiioI BIO) tptp.lOrganism_THFTYPE_i) (exists ((ORG $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lOrganism_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI BIO) ORG)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lKilling_THFTYPE_i) tptp.lDestruction_THFTYPE_i) (forall ((COLL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI COLL) tptp.lCollection_THFTYPE_i) (exists ((OBJ $$unsorted)) (@ (@ tptp.member_THFTYPE_IiioI OBJ) COLL)))) (@ (@ (@ (@ (@ tptp.disjointDecomposition_THFTYPE_IiiiiioI tptp.lArthropod_THFTYPE_i) tptp.lArachnid_THFTYPE_i) tptp.lMyriapod_THFTYPE_i) tptp.lInsect_THFTYPE_i) tptp.lCrustacean_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lFutureFn_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (forall ((PROC $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lBiologicalProcess_THFTYPE_i) (exists ((OBJ $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lOrganism_THFTYPE_i) (@ (@ tptp.located_THFTYPE_IiioI PROC) OBJ))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDirectionalAttribute_THFTYPE_i) tptp.lPositionalAttribute_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBodyVessel_THFTYPE_i) tptp.lBodyCavity_THFTYPE_i) (forall ((PATHCLASS $$unsorted) (GRAPH $$unsorted)) (=> (= (@ tptp.lMinimalCutSetFn_THFTYPE_IiiI GRAPH) PATHCLASS) (exists ((NUMBER $$unsorted)) (forall ((PATH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PATH) PATHCLASS) (@ (@ tptp.pathLength_THFTYPE_IiioI PATH) NUMBER)))))) (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lPureSubstance_THFTYPE_i) tptp.lCompoundSubstance_THFTYPE_i) tptp.lElementalSubstance_THFTYPE_i) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lUnitedStatesCent_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n0dot01_THFTYPE_i)) tptp.lUnitedStatesDollar_THFTYPE_i)))) (forall ((PATH $$unsorted) (ORG $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PATH) tptp.lPathologicProcess_THFTYPE_i) (@ (@ tptp.experiencer_THFTYPE_IiioI PATH) ORG)) (exists ((PART $$unsorted) (DISEASE $$unsorted)) (and (@ (@ tptp.part_THFTYPE_IiioI PART) ORG) (@ (@ tptp.instance_THFTYPE_IiioI DISEASE) tptp.lDiseaseOrSyndrome_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI PART) DISEASE))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAlga_THFTYPE_i) tptp.lNonFloweringPlant_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBodyMotion_THFTYPE_i) tptp.lMotion_THFTYPE_i) (forall ((LEARN $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI LEARN) tptp.lLearning_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI LEARN) AGENT)) (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lCognitiveAgent_THFTYPE_i))) (forall ((DAY $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DAY) tptp.lDay_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI DAY) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1_THFTYPE_i) tptp.lDayDuration_THFTYPE_i)))) (forall ((POINT2 $$unsorted) (POINT1 $$unsorted) (LENGTH $$unsorted)) (=> (@ (@ (@ tptp.geometricDistance_THFTYPE_IiiioI POINT1) POINT2) LENGTH) (@ (@ (@ tptp.geometricDistance_THFTYPE_IiiioI POINT2) POINT1) LENGTH))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lMinFn_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (forall ((ORGANISM1 $$unsorted) (ORGANISM2 $$unsorted)) (=> (@ (@ tptp.familyRelation_THFTYPE_IiioI ORGANISM1) ORGANISM2) (exists ((ORGANISM3 $$unsorted)) (let ((_let_1 (@ tptp.ancestor_THFTYPE_IiioI ORGANISM3))) (and (@ _let_1 ORGANISM1) (@ _let_1 ORGANISM2)))))) (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lHourFn_THFTYPE_i) tptp.lHour_THFTYPE_i) (forall ((FORMULA Bool)) (let ((_let_1 (@ tptp.truth_THFTYPE_IoooI FORMULA))) (=> (@ (@ tptp.modalAttribute_THFTYPE_IoioI FORMULA) tptp.lUnlikely_THFTYPE_i) (@ (@ tptp.gt_THFTYPE_IiioI (@ tptp.lProbabilityFn_THFTYPE_IoiI (@ _let_1 false))) (@ tptp.lProbabilityFn_THFTYPE_IoiI (@ _let_1 true)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lShapeAttribute_THFTYPE_i) tptp.lInternalAttribute_THFTYPE_i) (forall ((AGENT_1 $$unsorted) (AGENT_2 $$unsorted) (PROC $$unsorted)) (let ((_let_1 (@ tptp.agent_THFTYPE_IiioI PROC))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lSingleAgentProcess_THFTYPE_i) (@ _let_1 AGENT_1) (@ _let_1 AGENT_2)) (= AGENT_1 AGENT_2)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUngrasping_THFTYPE_i) tptp.lDetaching_THFTYPE_i) (forall ((TEMP $$unsorted) (PRES $$unsorted) (MELT $$unsorted) (X $$unsorted) (Y $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI X) Y) (@ (@ tptp.subclass_THFTYPE_IiioI Y) tptp.lPureSubstance_THFTYPE_i) (@ (@ tptp.meltingPoint_THFTYPE_IiioI Y) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI MELT) tptp.lKelvinDegree_THFTYPE_i)) (@ (@ tptp.barometricPressure_THFTYPE_IiioI X) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI PRES) tptp.lInchMercury_THFTYPE_i)) (@ (@ tptp.gt_THFTYPE_IiioI PRES) tptp.n29dot92_THFTYPE_i) (@ (@ tptp.measure_THFTYPE_IiioI X) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI TEMP) tptp.lKelvinDegree_THFTYPE_i)) (@ (@ tptp.lt_THFTYPE_IiioI TEMP) MELT)) (@ (@ tptp.attribute_THFTYPE_IiioI X) tptp.lSolid_THFTYPE_i))) (forall ((CLASS $$unsorted) (RELATION (-> $$unsorted $$unsorted Bool))) (let ((_let_1 (@ tptp.instance_THFTYPE_IIiioIioI RELATION))) (=> (@ (@ tptp.partialOrderingOn_THFTYPE_IIiioIioI RELATION) CLASS) (and (@ (@ tptp.reflexiveOn_THFTYPE_IIiioIioI RELATION) CLASS) (@ _let_1 tptp.lTransitiveRelation_THFTYPE_i) (@ _let_1 tptp.lAntisymmetricRelation_THFTYPE_i))))) (forall ((FUNCTION1 $$unsorted) (FUNCTION2 $$unsorted) (CLASS1 $$unsorted) (CLASS2 $$unsorted)) (=> (@ (@ tptp.distributes_THFTYPE_IiioI FUNCTION1) FUNCTION2) (forall ((INST1 $$unsorted) (INST2 $$unsorted) (INST3 $$unsorted)) (let ((_let_1 (@ (@ tptp.lAssignmentFn_THFTYPE_IiiiiI FUNCTION1) INST1))) (let ((_let_2 (@ tptp.lAssignmentFn_THFTYPE_IiiiiI FUNCTION2))) (let ((_let_3 (@ tptp.instance_THFTYPE_IiioI INST3))) (let ((_let_4 (@ tptp.instance_THFTYPE_IiioI INST2))) (let ((_let_5 (@ tptp.instance_THFTYPE_IiioI INST1))) (=> (and (@ (@ (@ tptp.domain_THFTYPE_IiiioI FUNCTION1) tptp.n1_THFTYPE_i) CLASS1) (@ _let_5 CLASS1) (@ _let_4 CLASS1) (@ _let_3 CLASS1) (@ (@ (@ tptp.domain_THFTYPE_IiiioI FUNCTION2) tptp.n1_THFTYPE_i) CLASS2) (@ _let_5 CLASS2) (@ _let_4 CLASS2) (@ _let_3 CLASS2)) (= (@ _let_1 (@ (@ _let_2 INST2) INST3)) (@ (@ _let_2 (@ _let_1 INST2)) (@ _let_1 INST3)))))))))))) (forall ((DEVICE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DEVICE) tptp.lMeasuringDevice_THFTYPE_i) (@ (@ tptp.hasPurpose_THFTYPE_IiooI DEVICE) (exists ((MEASURE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI MEASURE) tptp.lMeasuring_THFTYPE_i) (@ (@ tptp.instrument_THFTYPE_IiioI MEASURE) DEVICE)))))) (forall ((OBJ $$unsorted) (MOTION $$unsorted) (PLACE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MOTION) tptp.lMotion_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI MOTION) OBJ) (@ (@ tptp.destination_THFTYPE_IiioI MOTION) PLACE)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI MOTION))) (@ (@ tptp.located_THFTYPE_IiioI OBJ) PLACE)))) (@ _let_578 tptp.lBinaryPredicate_THFTYPE_i) (forall ((PERSON $$unsorted) (ORG $$unsorted)) (=> (@ (@ tptp.employs_THFTYPE_IiioI ORG) PERSON) (exists ((POSITION $$unsorted)) (@ (@ (@ tptp.occupiesPosition_THFTYPE_IiiioI PERSON) POSITION) ORG)))) (forall ((SITUATION1 Bool) (SITUATION2 Bool) (TIME $$unsorted)) (let ((_let_1 (@ tptp.holdsDuring_THFTYPE_IiooI TIME))) (=> (and (@ _let_1 SITUATION1) (@ (@ tptp.entails_THFTYPE_IoooI SITUATION1) SITUATION2)) (@ _let_1 SITUATION2)))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lAbsoluteValueFn_THFTYPE_i) tptp.lNonnegativeRealNumber_THFTYPE_i) (forall ((P $$unsorted) (O2 $$unsorted) (O1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI P) tptp.lSymmetricPositionalAttribute_THFTYPE_i) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI O1) O2) P)) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI O2) O1) P))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAdverb_THFTYPE_i) tptp.lWord_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLandArea_THFTYPE_i) tptp.lGeographicArea_THFTYPE_i) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lSaltWaterArea_THFTYPE_i) tptp.lFreshWaterArea_THFTYPE_i) (forall ((HOLE1 $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI HOLE1) tptp.lHole_THFTYPE_i) (exists ((HOLE2 $$unsorted)) (@ (@ tptp.properPart_THFTYPE_IiioI HOLE2) HOLE1)))) (forall ((TIME $$unsorted) (FORMULA Bool) (ENTITY $$unsorted) (NORM $$unsorted)) (let ((_let_1 (@ (@ tptp.modalAttribute_THFTYPE_IoioI FORMULA) NORM))) (=> (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ (@ tptp.deprivesNorm_THFTYPE_IioioI ENTITY) FORMULA) NORM)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lImmediatePastFn_THFTYPE_IiiI TIME)) _let_1) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lImmediateFutureFn_THFTYPE_IiiI TIME)) (not _let_1)))))) (forall ((PATIENT $$unsorted) (KILL $$unsorted)) (let ((_let_1 (@ tptp.attribute_THFTYPE_IiioI PATIENT))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI KILL))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI KILL) tptp.lKilling_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI KILL) PATIENT)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (@ _let_1 tptp.lLiving_THFTYPE_i)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lFutureFn_THFTYPE_IiiI _let_2)) (@ _let_1 tptp.lDead_THFTYPE_i))))))) (forall ((POINT2 $$unsorted) (POINT1 $$unsorted) (INTERVAL $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI POINT1) tptp.lTimePoint_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI POINT2) tptp.lTimePoint_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL) tptp.lTimeInterval_THFTYPE_i) (= (@ (@ tptp.lTimeIntervalFn_THFTYPE_IiiiI POINT1) POINT2) INTERVAL)) (forall ((POINT $$unsorted)) (= (@ (@ (@ tptp.temporallyBetweenOrEqual_THFTYPE_IiiioI POINT1) POINT) POINT2) (@ (@ tptp.temporalPart_THFTYPE_IiioI POINT) INTERVAL))))) (forall ((HOLE $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (let ((_let_1 (@ tptp.hole_THFTYPE_IiioI HOLE))) (=> (and (@ _let_1 OBJ1) (@ _let_1 OBJ2)) (exists ((OBJ3 $$unsorted)) (and (@ (@ tptp.properPart_THFTYPE_IiioI OBJ3) (@ (@ tptp.lMereologicalProductFn_THFTYPE_IiiiI OBJ1) OBJ2)) (@ (@ tptp.hole_THFTYPE_IiioI HOLE) OBJ3)))))) (forall ((SENTENCE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SENTENCE) tptp.lSentence_THFTYPE_i) (exists ((PHRASE1 $$unsorted) (PHRASE2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PHRASE1) tptp.lNounPhrase_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI PHRASE2) tptp.lVerbPhrase_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI PHRASE1) SENTENCE) (@ (@ tptp.part_THFTYPE_IiioI PHRASE2) SENTENCE))))) (forall ((GROUP $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI GROUP) tptp.lBeliefGroup_THFTYPE_i) (exists ((BELIEF Bool)) (forall ((MEMB $$unsorted)) (=> (@ (@ tptp.member_THFTYPE_IiioI MEMB) GROUP) (@ (@ tptp.believes_THFTYPE_IiooI MEMB) BELIEF)))))) (forall ((TO $$unsorted) (TRANSPORT $$unsorted) (MOVE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TRANSPORT) tptp.lVehicle_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI MOVE) tptp.lTranslocation_THFTYPE_i) (@ (@ tptp.instrument_THFTYPE_IiioI MOVE) TRANSPORT) (@ (@ tptp.destination_THFTYPE_IiioI MOVE) TO)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI MOVE))) (@ (@ tptp.located_THFTYPE_IiioI TRANSPORT) TO)))) (forall ((VALUE $$unsorted) (CLASS $$unsorted) (FUNCTION $$unsorted) (ROW $$unsorted)) (=> (and (@ (@ tptp.rangeSubclass_THFTYPE_IiioI FUNCTION) CLASS) (= (@ (@ tptp.lAssignmentFn_THFTYPE_IiiiI FUNCTION) ROW) VALUE)) (@ (@ tptp.subclass_THFTYPE_IiioI VALUE) CLASS))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSyntheticSubstance_THFTYPE_i) tptp.lSubstance_THFTYPE_i) (forall ((OBJ $$unsorted)) (=> (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) tptp.lWet_THFTYPE_i) (forall ((PART $$unsorted)) (=> (@ (@ tptp.part_THFTYPE_IiioI PART) OBJ) (exists ((SUBPART $$unsorted)) (and (@ (@ tptp.part_THFTYPE_IiioI SUBPART) PART) (@ (@ tptp.attribute_THFTYPE_IiioI SUBPART) tptp.lLiquid_THFTYPE_i))))))) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lOunce_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.div_THFTYPE_IiiiI NUMBER) tptp.n8_THFTYPE_i)) tptp.lCup_THFTYPE_i)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOlfactoryAttribute_THFTYPE_i) tptp.lPerceptualAttribute_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSubstance_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i) (forall ((INTERVAL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL) tptp.lTimeInterval_THFTYPE_i) (= (@ tptp.lPastFn_THFTYPE_IiiI INTERVAL) (@ (@ tptp.lTimeIntervalFn_THFTYPE_IiiiI tptp.lNegativeInfinity_THFTYPE_i) (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lEducationalOrganization_THFTYPE_i) tptp.lOrganization_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lNanoFn_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i) (forall ((NUMBER $$unsorted) (ANGLE $$unsorted)) (=> (@ (@ tptp.measure_THFTYPE_IiioI ANGLE) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lAngularDegree_THFTYPE_i)) (and (@ (@ tptp.gtet_THFTYPE_IiioI NUMBER) tptp.n0_THFTYPE_i) (@ (@ tptp.ltet_THFTYPE_IiioI NUMBER) tptp.n360_THFTYPE_i)))) (@ (@ tptp.trichotomizingOn_THFTYPE_IIiioIioI tptp.lessThanOrEqualTo_THFTYPE_IiioI) tptp.lRealNumber_THFTYPE_i) (forall ((MONTH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MONTH) tptp.lApril_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI MONTH) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n30_THFTYPE_i) tptp.lDayDuration_THFTYPE_i)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPrepositionalPhrase_THFTYPE_i) tptp.lPhrase_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDirectionChange_THFTYPE_i) tptp.lMotion_THFTYPE_i) (forall ((INTERVAL1 $$unsorted) (INTERVAL2 $$unsorted)) (=> (@ (@ tptp.during_THFTYPE_IiioI INTERVAL1) INTERVAL2) (and (@ (@ tptp.before_THFTYPE_IiioI (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL1)) (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL2)) (@ (@ tptp.before_THFTYPE_IiioI (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL2)) (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL1))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRunning_THFTYPE_i) tptp.lAmbulating_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRecreationOrExercise_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i) (@ _let_599 tptp.lAntisymmetricRelation_THFTYPE_i) (forall ((CLASS1 $$unsorted) (CLASS2 $$unsorted)) (= (@ (@ tptp.disjoint_THFTYPE_IiioI CLASS1) CLASS2) (forall ((INST $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI INST))) (not (and (@ _let_1 CLASS1) (@ _let_1 CLASS2))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lVehicle_THFTYPE_i) tptp.lTransportationDevice_THFTYPE_i) (@ _let_537 tptp.lCognitiveAgent_THFTYPE_i) (forall ((OBJ $$unsorted) (PURSUE $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PURSUE) tptp.lPursuing_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PURSUE) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI PURSUE) OBJ)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI PURSUE) (not (@ (@ tptp.possesses_THFTYPE_IiioI AGENT) OBJ))))) (forall ((TIME $$unsorted) (ORG $$unsorted)) (=> (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.attribute_THFTYPE_IiioI ORG) tptp.lLarval_THFTYPE_i)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lPastFn_THFTYPE_IiiI TIME)) (exists ((BIRTH $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI BIRTH) tptp.lBirth_THFTYPE_i) (@ (@ tptp.experiencer_THFTYPE_IiioI BIRTH) ORG)))))) (forall ((ORGANISM $$unsorted) (DIGEST $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DIGEST) tptp.lDigesting_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI DIGEST) ORGANISM)) (exists ((INGEST $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI INGEST) tptp.lIngesting_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI INGEST) ORGANISM) (@ (@ tptp.overlapsTemporally_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI INGEST)) (@ tptp.lWhenFn_THFTYPE_IiiI DIGEST)))))) (@ (@ (@ tptp.disjointDecomposition_THFTYPE_IiiioI tptp.lFood_THFTYPE_i) tptp.lMeat_THFTYPE_i) tptp.lBeverage_THFTYPE_i) (forall ((OBJ $$unsorted) (NUMBER2 $$unsorted) (ROW $$unsorted) (NUMBER1 $$unsorted)) (=> (@ tptp.contraryAttribute_THFTYPE_IioI ROW) (forall ((ATTR1 $$unsorted) (ATTR2 $$unsorted)) (let ((_let_1 (@ tptp.property_THFTYPE_IiioI OBJ))) (let ((_let_2 (@ tptp.lListOrderFn_THFTYPE_IiiiI (@ tptp.lListFn_THFTYPE_IiiI ROW)))) (=> (and (= ATTR1 (@ _let_2 NUMBER1)) (= ATTR2 (@ _let_2 NUMBER2)) (not (= NUMBER1 NUMBER2))) (=> (@ _let_1 ATTR1) (not (@ _let_1 ATTR2))))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFern_THFTYPE_i) tptp.lNonFloweringPlant_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWearableItem_THFTYPE_i) tptp.lArtifact_THFTYPE_i) (forall ((PROC $$unsorted) (TIME1 $$unsorted)) (=> (@ (@ tptp.frequency_THFTYPE_IiioI PROC) TIME1) (forall ((TIME2 $$unsorted)) (=> (@ (@ tptp.duration_THFTYPE_IiioI TIME2) TIME1) (exists ((POSITION $$unsorted)) (and (@ (@ tptp.temporalPart_THFTYPE_IiioI POSITION) TIME2) (@ (@ tptp.holdsDuring_THFTYPE_IiooI POSITION) (exists ((INST $$unsorted)) (@ (@ tptp.instance_THFTYPE_IiioI INST) PROC))))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lContinuousFunction_THFTYPE_i) tptp.lFunction_THFTYPE_i) (@ _let_606 tptp.lAntisymmetricRelation_THFTYPE_i) (forall ((COLL1 $$unsorted) (COLL2 $$unsorted)) (= (@ (@ tptp.subCollection_THFTYPE_IiioI COLL1) COLL2) (forall ((MEMBER $$unsorted)) (let ((_let_1 (@ tptp.member_THFTYPE_IiioI MEMBER))) (=> (@ _let_1 COLL1) (@ _let_1 COLL2)))))) (forall ((X $$unsorted) (Y $$unsorted)) (=> (@ (@ tptp.leader_THFTYPE_IiioI X) Y) (@ (@ tptp.attribute_THFTYPE_IiioI Y) tptp.lLiving_THFTYPE_i))) (forall ((INT2 $$unsorted) (INT1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI INT1) tptp.lInteger_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI INT2) tptp.lInteger_THFTYPE_i)) (not (and (@ (@ tptp.lt_THFTYPE_IiioI INT1) INT2) (@ (@ tptp.lt_THFTYPE_IiioI INT2) (@ tptp.lSuccessorFn_THFTYPE_IiiI INT1)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lEnzyme_THFTYPE_i) tptp.lProtein_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCommercialAgent_THFTYPE_i) tptp.lAgent_THFTYPE_i) (@ (@ (@ (@ (@ (@ tptp.disjointDecomposition_THFTYPE_IiiiiiioI tptp.lMammal_THFTYPE_i) tptp.lAquaticMammal_THFTYPE_i) tptp.lHoofedMammal_THFTYPE_i) tptp.lMarsupial_THFTYPE_i) tptp.lRodent_THFTYPE_i) tptp.lPrimate_THFTYPE_i) (forall ((FORMULA Bool)) (let ((_let_1 (@ tptp.truth_THFTYPE_IoooI FORMULA))) (=> (@ (@ tptp.modalAttribute_THFTYPE_IoioI FORMULA) tptp.lLikely_THFTYPE_i) (@ (@ tptp.gt_THFTYPE_IiioI (@ tptp.lProbabilityFn_THFTYPE_IoiI (@ _let_1 true))) (@ tptp.lProbabilityFn_THFTYPE_IoiI (@ _let_1 false)))))) (@ _let_605 tptp.lTransfer_THFTYPE_i) (forall ((POINT $$unsorted) (FIGURE1 $$unsorted) (FIGURE2 $$unsorted)) (let ((_let_1 (@ tptp.pointOfFigure_THFTYPE_IiioI POINT))) (=> (@ (@ (@ tptp.pointOfIntersection_THFTYPE_IiiioI FIGURE1) FIGURE2) POINT) (and (@ _let_1 FIGURE1) (@ _let_1 FIGURE2))))) (forall ((OBJ $$unsorted) (TASTE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TASTE) tptp.lTasting_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI TASTE) OBJ)) (exists ((ATTR $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lTasteAttribute_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) ATTR))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDetaching_THFTYPE_i) tptp.lDualObjectProcess_THFTYPE_i) (forall ((ANIMAL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ANIMAL) tptp.lAnimal_THFTYPE_i) (exists ((ATTR $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lSexAttribute_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI ANIMAL) ATTR))))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lImmediateFutureFn_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ (@ _let_566 tptp.lAnimalAnatomicalStructure_THFTYPE_i) tptp.lPlantAnatomicalStructure_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lPastFn_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (forall ((ORG $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lMilitaryForce_THFTYPE_i) (@ (@ (@ tptp.capability_THFTYPE_IiIiioIioI tptp.lViolentContest_THFTYPE_i) tptp.agent_THFTYPE_IiioI) ORG))) (@ _let_598 tptp.lGeopoliticalArea_THFTYPE_i) (forall ((MACHINE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MACHINE) tptp.lMachine_THFTYPE_i) (exists ((COMP1 $$unsorted) (COMP2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI COMP1) tptp.lEngineeringComponent_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI COMP2) tptp.lEngineeringComponent_THFTYPE_i) (not (= COMP1 COMP2)) (@ (@ tptp.part_THFTYPE_IiioI COMP1) MACHINE) (@ (@ tptp.part_THFTYPE_IiioI COMP2) MACHINE))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGraphArc_THFTYPE_i) tptp.lGraphElement_THFTYPE_i) (forall ((TEMP2 $$unsorted) (TEMP1 $$unsorted) (TIME $$unsorted) (SUBSTANCE $$unsorted) (TYPE $$unsorted) (MEASURE $$unsorted)) (let ((_let_1 (@ tptp.holdsDuring_THFTYPE_IiooI TIME))) (=> (and (@ (@ tptp.boilingPoint_THFTYPE_IiioI TYPE) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI TEMP1) MEASURE)) (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE) TYPE) (@ _let_1 (@ (@ tptp.measure_THFTYPE_IiioI SUBSTANCE) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI TEMP2) MEASURE))) (@ (@ tptp.instance_THFTYPE_IiioI MEASURE) tptp.lUnitOfTemperature_THFTYPE_i) (@ (@ tptp.gtet_THFTYPE_IiioI TEMP2) TEMP1)) (or (@ _let_1 (@ (@ tptp.attribute_THFTYPE_IiioI SUBSTANCE) tptp.lGas_THFTYPE_i)) (exists ((BOIL $$unsorted)) (and (@ (@ tptp.overlapsTemporally_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI BOIL)) TIME) (@ (@ tptp.instance_THFTYPE_IiioI BOIL) tptp.lBoiling_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI BOIL) SUBSTANCE))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCommitting_THFTYPE_i) tptp.lLinguisticCommunication_THFTYPE_i) (forall ((NUMBER $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI NUMBER) tptp.lEvenInteger_THFTYPE_i) (= (@ (@ tptp.lRemainderFn_THFTYPE_IiiiI NUMBER) tptp.n2_THFTYPE_i) tptp.n0_THFTYPE_i))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLiquidMixture_THFTYPE_i) tptp.lMixture_THFTYPE_i) (forall ((COMP $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI COMP) tptp.lEngineeringComponent_THFTYPE_i) (exists ((DEVICE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI DEVICE) tptp.lDevice_THFTYPE_i) (@ (@ tptp.component_THFTYPE_IiioI COMP) DEVICE))))) (@ _let_570 tptp.lContentBearingProcess_THFTYPE_i) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (@ (@ tptp.ltet_THFTYPE_IiioI (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lMonthDuration_THFTYPE_i)) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n31_THFTYPE_i)) tptp.lDayDuration_THFTYPE_i)))) (forall ((NODE $$unsorted) (GRAPH $$unsorted) (ARC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI GRAPH) tptp.lGraphPath_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI ARC) tptp.lGraphArc_THFTYPE_i) (@ (@ tptp.graphPart_THFTYPE_IiioI ARC) GRAPH)) (=> (= (@ tptp.lInitialNodeFn_THFTYPE_IiiI ARC) NODE) (not (exists ((OTHER $$unsorted)) (and (= (@ tptp.lInitialNodeFn_THFTYPE_IiiI OTHER) NODE) (not (= OTHER ARC)))))))) (forall ((OBJ $$unsorted) (AGENT $$unsorted)) (=> (@ (@ tptp.exploits_THFTYPE_IiioI OBJ) AGENT) (exists ((PROCESS $$unsorted)) (and (@ (@ tptp.agent_THFTYPE_IiioI PROCESS) AGENT) (@ (@ tptp.resource_THFTYPE_IiioI PROCESS) OBJ))))) (@ _let_604 tptp.lInheritableRelation_THFTYPE_i) (@ _let_540 tptp.lRegion_THFTYPE_i) (forall ((INTERVAL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.starts_THFTYPE_IiioI (@ tptp.lImmediateFutureFn_THFTYPE_IiiI INTERVAL)) (@ tptp.lFutureFn_THFTYPE_IiiI INTERVAL)))) (forall ((ANAT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ANAT) tptp.lAnatomicalStructure_THFTYPE_i) (exists ((ORGANISM $$unsorted) (TIME $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ORGANISM) tptp.lOrganism_THFTYPE_i) (@ (@ tptp.temporalPart_THFTYPE_IiioI TIME) (@ tptp.lWhenFn_THFTYPE_IiiI ORGANISM)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.part_THFTYPE_IiioI ANAT) ORGANISM)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWorm_THFTYPE_i) tptp.lInvertebrate_THFTYPE_i) (forall ((X $$unsorted) (Y $$unsorted)) (=> (@ (@ tptp.subclass_THFTYPE_IiioI X) Y) (and (@ (@ tptp.instance_THFTYPE_IiioI X) tptp.lSetOrClass_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI Y) tptp.lSetOrClass_THFTYPE_i)))) (forall ((POINT3 $$unsorted) (POINT2 $$unsorted) (POINT1 $$unsorted)) (= (@ (@ (@ tptp.temporallyBetweenOrEqual_THFTYPE_IiiioI POINT1) POINT2) POINT3) (and (@ (@ tptp.beforeOrEqual_THFTYPE_IiioI POINT1) POINT2) (@ (@ tptp.beforeOrEqual_THFTYPE_IiioI POINT2) POINT3)))) (forall ((POINT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI POINT) tptp.lTimePoint_THFTYPE_i) (not (= POINT tptp.lPositiveInfinity_THFTYPE_i))) (exists ((OTHERPOINT $$unsorted)) (@ (@ (@ tptp.temporallyBetween_THFTYPE_IiiioI POINT) OTHERPOINT) tptp.lPositiveInfinity_THFTYPE_i)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lManufacture_THFTYPE_i) tptp.lMaking_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLanguage_THFTYPE_i) tptp.lLinguisticExpression_THFTYPE_i) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) tptp.lNear_THFTYPE_i) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ2) OBJ1) tptp.lNear_THFTYPE_i))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRemoving_THFTYPE_i) tptp.lTransfer_THFTYPE_i) (forall ((CLASS $$unsorted) (RELATION (-> $$unsorted $$unsorted Bool))) (= (@ (@ tptp.totalOrderingOn_THFTYPE_IIiioIioI RELATION) CLASS) (and (@ (@ tptp.partialOrderingOn_THFTYPE_IIiioIioI RELATION) CLASS) (@ (@ tptp.trichotomizingOn_THFTYPE_IIiioIioI RELATION) CLASS)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCondensing_THFTYPE_i) tptp.lStateChange_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPartialValuedRelation_THFTYPE_i) tptp.lRelation_THFTYPE_i) (forall ((ARTIFACT $$unsorted)) (= (exists ((BUILD $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI BUILD) tptp.lConstructing_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI BUILD) ARTIFACT))) (@ (@ tptp.instance_THFTYPE_IiioI ARTIFACT) tptp.lStationaryArtifact_THFTYPE_i))) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lNounPhrase_THFTYPE_i) tptp.lVerbPhrase_THFTYPE_i) (forall ((PROC $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lSingleAgentProcess_THFTYPE_i) (exists ((AGENT $$unsorted)) (@ (@ tptp.agent_THFTYPE_IiioI PROC) AGENT)))) (forall ((AGENT $$unsorted) (WAR $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI AGENT))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI WAR) tptp.lWar_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI WAR) AGENT)) (or (@ _let_1 tptp.lGeopoliticalArea_THFTYPE_i) (and (@ _let_1 tptp.lOrganization_THFTYPE_i) (forall ((MEMBER $$unsorted)) (=> (@ (@ tptp.member_THFTYPE_IiioI MEMBER) AGENT) (@ (@ tptp.instance_THFTYPE_IiioI MEMBER) tptp.lGeopoliticalArea_THFTYPE_i)))))))) (forall ((OBJ $$unsorted) (AGENT $$unsorted) (REL (-> $$unsorted $$unsorted Bool)) (ROW $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lIntentionalRelation_THFTYPE_i) (@ (@ REL AGENT) ROW) (@ (@ tptp.inList_THFTYPE_IiioI OBJ) (@ tptp.lListFn_THFTYPE_IiiI ROW))) (@ (@ tptp.inScopeOfInterest_THFTYPE_IiioI AGENT) OBJ))) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (= (@ (@ tptp.contains_THFTYPE_IiioI OBJ1) OBJ2) (exists ((HOLE $$unsorted)) (and (@ (@ tptp.hole_THFTYPE_IiioI HOLE) OBJ1) (@ (@ tptp.properlyFills_THFTYPE_IiioI OBJ2) HOLE))))) (@ (@ (@ (@ tptp.disjointDecomposition_THFTYPE_IiiiioI tptp.lNonFloweringPlant_THFTYPE_i) tptp.lAlga_THFTYPE_i) tptp.lFern_THFTYPE_i) tptp.lMoss_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMilitaryForce_THFTYPE_i) tptp.lPoliticalOrganization_THFTYPE_i) (forall ((ORG $$unsorted)) (=> (@ (@ tptp.attribute_THFTYPE_IiioI ORG) tptp.lEmbryonic_THFTYPE_i) (exists ((BODY $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI BODY) tptp.lReproductiveBody_THFTYPE_i) (@ (@ tptp.located_THFTYPE_IiioI ORG) BODY))))) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lWeekDuration_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n7_THFTYPE_i)) tptp.lDayDuration_THFTYPE_i)))) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lCelsiusDegree_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.div_THFTYPE_IiiiI (@ (@ tptp.minus_THFTYPE_IiiiI NUMBER) tptp.n32_THFTYPE_i)) tptp.n1dot8_THFTYPE_i)) tptp.lFahrenheitDegree_THFTYPE_i)))) (forall ((TEMP2 $$unsorted) (TEMP1 $$unsorted) (BOILING $$unsorted) (SUBSTANCE $$unsorted) (TYPE $$unsorted) (MEASURE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI BOILING) tptp.lBoiling_THFTYPE_i) (@ (@ tptp.boilingPoint_THFTYPE_IiioI TYPE) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI TEMP1) MEASURE)) (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE) TYPE) (@ (@ tptp.patient_THFTYPE_IiioI BOILING) SUBSTANCE) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI BOILING)) (@ (@ tptp.measure_THFTYPE_IiioI SUBSTANCE) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI TEMP2) MEASURE))) (@ (@ tptp.instance_THFTYPE_IiioI MEASURE) tptp.lUnitOfTemperature_THFTYPE_i)) (@ (@ tptp.gtet_THFTYPE_IiioI TEMP2) TEMP1))) (forall ((WEEK $$unsorted) (DAY1 $$unsorted) (DAY2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DAY1) tptp.lTuesday_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI DAY2) tptp.lWednesday_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI WEEK) tptp.lWeek_THFTYPE_i) (@ (@ tptp.temporalPart_THFTYPE_IiioI DAY1) WEEK) (@ (@ tptp.temporalPart_THFTYPE_IiioI DAY2) WEEK)) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI DAY1) DAY2))) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lDamaging_THFTYPE_i) tptp.lRepairing_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSurgery_THFTYPE_i) tptp.lTherapeuticProcess_THFTYPE_i) (@ _let_545 tptp.lBodySubstance_THFTYPE_i) (forall ((AGENT $$unsorted) (DEATH $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DEATH) tptp.lDeath_THFTYPE_i) (@ (@ tptp.experiencer_THFTYPE_IiioI DEATH) AGENT)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lFutureFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI DEATH))) (@ (@ tptp.attribute_THFTYPE_IiioI AGENT) tptp.lDead_THFTYPE_i)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWeapon_THFTYPE_i) tptp.lDevice_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lYear_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (forall ((DIGEST $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DIGEST) tptp.lDigesting_THFTYPE_i) (exists ((DECOMP $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI DECOMP) tptp.lChemicalDecomposition_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI DECOMP) DIGEST))))) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lFabric_THFTYPE_i) tptp.lStationaryArtifact_THFTYPE_i) (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lSetOrClass_THFTYPE_i) tptp.lSet_THFTYPE_i) tptp.lClass_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lExpressing_THFTYPE_i) tptp.lCommunication_THFTYPE_i) (forall ((MAT $$unsorted) (ORG $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MAT) tptp.lMatriculation_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI MAT) ORG)) (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lEducationalOrganization_THFTYPE_i))) (forall ((NUMBER2 $$unsorted) (NUMBER1 $$unsorted)) (= (@ (@ tptp.gtet_THFTYPE_IiioI NUMBER1) NUMBER2) (or (= NUMBER1 NUMBER2) (@ (@ tptp.gt_THFTYPE_IiioI NUMBER1) NUMBER2)))) (forall ((ISLE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ISLE) tptp.lIsland_THFTYPE_i) (exists ((WATER $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI WATER) tptp.lWaterArea_THFTYPE_i) (@ (@ tptp.meetsSpatially_THFTYPE_IiioI ISLE) WATER))))) (forall ((OBJECT $$unsorted) (BOTTOM $$unsorted) (TOP $$unsorted) (HEIGHT $$unsorted)) (=> (and (@ (@ tptp.height_THFTYPE_IiioI OBJECT) HEIGHT) (@ (@ tptp.top_THFTYPE_IiioI TOP) OBJECT) (@ (@ tptp.bottom_THFTYPE_IiioI BOTTOM) OBJECT)) (@ (@ (@ tptp.distance_THFTYPE_IiiioI TOP) BOTTOM) HEIGHT))) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lCelsiusDegree_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.minus_THFTYPE_IiiiI NUMBER) tptp.n273dot15_THFTYPE_i)) tptp.lKelvinDegree_THFTYPE_i)))) (forall ((AGENT $$unsorted) (CLOTHING $$unsorted)) (=> (@ (@ tptp.wears_THFTYPE_IiioI AGENT) CLOTHING) (@ (@ tptp.located_THFTYPE_IiioI CLOTHING) AGENT))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lMereologicalDifferenceFn_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMeeting_THFTYPE_i) tptp.lSocialInteraction_THFTYPE_i) (@ (@ tptp.subAttribute_THFTYPE_IiioI tptp.lWet_THFTYPE_i) tptp.lDamp_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lEducationalProcess_THFTYPE_i) tptp.lGuiding_THFTYPE_i) (forall ((INTERVAL1 $$unsorted) (INTERVAL2 $$unsorted)) (= (@ (@ tptp.earlier_THFTYPE_IiioI INTERVAL1) INTERVAL2) (@ (@ tptp.before_THFTYPE_IiioI (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL1)) (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL2)))) (forall ((MINUTE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MINUTE) tptp.lMinute_THFTYPE_i) (= (@ tptp.lCardinalityFn_THFTYPE_IiiI (@ (@ tptp.lTemporalCompositionFn_THFTYPE_IiiiI MINUTE) tptp.lSecond_THFTYPE_i)) tptp.n60_THFTYPE_i))) (forall ((MOLE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MOLE) tptp.lMolecule_THFTYPE_i) (exists ((ATOM1 $$unsorted) (ATOM2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATOM1) tptp.lAtom_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI ATOM2) tptp.lAtom_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI ATOM1) MOLE) (@ (@ tptp.part_THFTYPE_IiioI ATOM2) MOLE) (not (= ATOM1 ATOM2)))))) (forall ((DIS $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DIS) tptp.lDisagreeing_THFTYPE_i) (exists ((A1 $$unsorted) (A2 $$unsorted) (STATE1 $$unsorted) (STATE2 $$unsorted) (STMT1 Bool) (STMT2 Bool)) (and (@ (@ tptp.subProcess_THFTYPE_IiioI STATE1) DIS) (@ (@ tptp.subProcess_THFTYPE_IiioI STATE2) DIS) (@ (@ tptp.agent_THFTYPE_IiioI STATE1) A1) (@ (@ tptp.agent_THFTYPE_IiioI STATE2) A2) (@ (@ tptp.containsInformation_THFTYPE_IiooI STATE1) STMT1) (@ (@ tptp.containsInformation_THFTYPE_IiooI STATE2) STMT2) (not (@ (@ tptp.consistent_THFTYPE_IoooI STMT1) STMT2)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGeometricPoint_THFTYPE_i) tptp.lGeometricFigure_THFTYPE_i) (@ _let_603 tptp.lRelation_THFTYPE_i) (forall ((OBJ $$unsorted) (AGENT $$unsorted)) (=> (@ (@ tptp.wants_THFTYPE_IiioI AGENT) OBJ) (exists ((PURP Bool)) (@ (@ (@ tptp.hasPurposeForAgent_THFTYPE_IioioI OBJ) PURP) AGENT)))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lRationalNumberFn_THFTYPE_i) tptp.lRationalNumber_THFTYPE_i) (forall ((CHILD $$unsorted) (PARENT $$unsorted)) (=> (@ (@ tptp.daughter_THFTYPE_IiioI CHILD) PARENT) (@ (@ tptp.attribute_THFTYPE_IiioI CHILD) tptp.lFemale_THFTYPE_i))) (@ _let_599 tptp.lReflexiveRelation_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lImpelling_THFTYPE_i) tptp.lTransfer_THFTYPE_i) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ1) tptp.lObject_THFTYPE_i) (@ (@ tptp.partlyLocated_THFTYPE_IiioI OBJ1) OBJ2)) (@ (@ tptp.overlapsSpatially_THFTYPE_IiioI OBJ1) OBJ2))) (forall ((PATH $$unsorted) (ARC2 $$unsorted) (ARC1 $$unsorted) (NUMBER2 $$unsorted) (SUM $$unsorted) (NUMBER1 $$unsorted)) (let ((_let_1 (@ tptp.lPathWeightFn_THFTYPE_IiiI PATH))) (=> (and (= _let_1 SUM) (@ (@ tptp.graphPart_THFTYPE_IiioI ARC1) PATH) (@ (@ tptp.graphPart_THFTYPE_IiioI ARC2) PATH) (@ (@ tptp.arcWeight_THFTYPE_IiioI ARC1) NUMBER1) (@ (@ tptp.arcWeight_THFTYPE_IiioI ARC2) NUMBER2) (forall ((ARC3 $$unsorted)) (=> (@ (@ tptp.graphPart_THFTYPE_IiioI ARC3) PATH) (or (= ARC3 ARC1) (= ARC3 ARC2))))) (= _let_1 (@ (@ tptp.plus_THFTYPE_IiiiI NUMBER1) NUMBER2))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSelecting_THFTYPE_i) tptp.lIntentionalPsychologicalProcess_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lAssignmentFn_THFTYPE_i) tptp.lEntity_THFTYPE_i) (forall ((Y $$unsorted) (YEAR $$unsorted) (MONTH $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI Y))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MONTH) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lFebruary_THFTYPE_i) YEAR)) (@ _let_1 YEAR) (@ _let_1 tptp.lLeapYear_THFTYPE_i)) (@ (@ tptp.duration_THFTYPE_IiioI MONTH) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n29_THFTYPE_i) tptp.lDayDuration_THFTYPE_i))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWetting_THFTYPE_i) tptp.lPutting_THFTYPE_i) (@ _let_582 tptp.lTransitiveRelation_THFTYPE_i) (forall ((ORG $$unsorted) (POSITION $$unsorted) (AGENT $$unsorted)) (=> (@ (@ (@ tptp.occupiesPosition_THFTYPE_IiiioI AGENT) POSITION) ORG) (@ (@ tptp.attribute_THFTYPE_IiioI AGENT) POSITION))) (forall ((AREA $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI AREA) tptp.lWaterArea_THFTYPE_i) (exists ((BED $$unsorted) (HOLE $$unsorted) (WATER $$unsorted)) (and (= (@ tptp.lHoleHostFn_THFTYPE_IiiI HOLE) BED) (@ (@ tptp.instance_THFTYPE_IiioI WATER) tptp.lWater_THFTYPE_i) (@ (@ tptp.properlyFills_THFTYPE_IiioI WATER) HOLE) (= (@ (@ tptp.lMereologicalSumFn_THFTYPE_IiiiI BED) WATER) AREA))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPosition_THFTYPE_i) tptp.lSocialRole_THFTYPE_i) (forall ((COMP2 $$unsorted) (COMP1 $$unsorted)) (=> (@ (@ tptp.connectedEngineeringComponents_THFTYPE_IiioI COMP1) COMP2) (and (not (@ (@ tptp.engineeringSubcomponent_THFTYPE_IiioI COMP1) COMP2)) (not (@ (@ tptp.engineeringSubcomponent_THFTYPE_IiioI COMP2) COMP1))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBodyPart_THFTYPE_i) tptp.lAnatomicalStructure_THFTYPE_i) (@ _let_602 tptp.lVocalizing_THFTYPE_i) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lPathologicProcess_THFTYPE_i) tptp.lPhysiologicProcess_THFTYPE_i) (forall ((GRAPH2 $$unsorted) (GRAPH1 $$unsorted) (ELEMENT $$unsorted)) (let ((_let_1 (@ tptp.graphPart_THFTYPE_IiioI ELEMENT))) (=> (and (@ (@ tptp.subGraph_THFTYPE_IiioI GRAPH1) GRAPH2) (@ _let_1 GRAPH1)) (@ _let_1 GRAPH2)))) (forall ((DEPTH $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ (@ tptp.depth_THFTYPE_IiiioI OBJ1) OBJ2) DEPTH) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) tptp.lBelow_THFTYPE_i))) (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lSeriesVolumeFn_THFTYPE_i) tptp.lText_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCompoundSubstance_THFTYPE_i) tptp.lPureSubstance_THFTYPE_i) (forall ((SPORE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SPORE) tptp.lSpore_THFTYPE_i) (exists ((PLANT $$unsorted) (TIME $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PLANT) tptp.lNonFloweringPlant_THFTYPE_i) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.part_THFTYPE_IiioI SPORE) PLANT)))))) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (= (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) tptp.lRight_THFTYPE_i) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ2) OBJ1) tptp.lLeft_THFTYPE_i))) (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lTwoDimensionalFigure_THFTYPE_i) tptp.lOpenTwoDimensionalFigure_THFTYPE_i) tptp.lClosedTwoDimensionalFigure_THFTYPE_i) (forall ((CHILD $$unsorted) (REP $$unsorted) (PARENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI REP) tptp.lReplication_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI REP) PARENT) (@ (@ tptp.result_THFTYPE_IiioI REP) CHILD)) (@ (@ tptp.parent_THFTYPE_IiioI CHILD) PARENT))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBoiling_THFTYPE_i) tptp.lStateChange_THFTYPE_i) (forall ((PATIENT $$unsorted) (KILL $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI KILL) tptp.lKilling_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI KILL) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI KILL) PATIENT)) (and (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lOrganism_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI PATIENT) tptp.lOrganism_THFTYPE_i)))) (@ (@ (@ (@ tptp.disjointDecomposition_THFTYPE_IiiiioI tptp.lPrimate_THFTYPE_i) tptp.lApe_THFTYPE_i) tptp.lMonkey_THFTYPE_i) tptp.lHominid_THFTYPE_i) (@ _let_602 tptp.lLinguisticCommunication_THFTYPE_i) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lCollection_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i) (forall ((OBJ $$unsorted) (KEEP $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI KEEP) tptp.lKeeping_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI KEEP) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI KEEP) OBJ)) (exists ((PUT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PUT) tptp.lPutting_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PUT) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI PUT) OBJ) (@ (@ tptp.earlier_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI PUT)) (@ tptp.lWhenFn_THFTYPE_IiiI KEEP)))))) (forall ((NUMBER $$unsorted) (TEXT2 $$unsorted) (TEXT1 $$unsorted)) (=> (= (@ (@ tptp.lEditionFn_THFTYPE_IiiiI TEXT1) NUMBER) TEXT2) (@ (@ tptp.subsumesContentClass_THFTYPE_IiioI TEXT1) TEXT2))) (forall ((FORMULA Bool) (AGENT $$unsorted) (QUESTION $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI QUESTION) tptp.lQuestioning_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI QUESTION) AGENT) (@ (@ tptp.patient_THFTYPE_IiooI QUESTION) FORMULA) (@ (@ tptp.instance_THFTYPE_IoioI FORMULA) tptp.lFormula_THFTYPE_i)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI QUESTION)) (not (@ (@ tptp.knows_THFTYPE_IiooI AGENT) FORMULA))))) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lComplexNumber_THFTYPE_i) tptp.lRealNumber_THFTYPE_i) (forall ((INTERVAL1 $$unsorted) (INTERVAL2 $$unsorted)) (=> (and (= (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL1) (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL2)) (= (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL1) (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL2))) (= INTERVAL1 INTERVAL2))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lKeeping_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i) (forall ((INJ $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI INJ))) (= (@ _let_1 tptp.lInjuring_THFTYPE_i) (and (@ _let_1 tptp.lDamaging_THFTYPE_i) (exists ((ORGANISM $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ORGANISM) tptp.lOrganism_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI INJ) ORGANISM))))))) (forall ((CBO1 $$unsorted) (CBO2 $$unsorted) (PUB1 $$unsorted) (EDITION1 $$unsorted) (EDITION2 $$unsorted) (PUB2 $$unsorted) (INT2 $$unsorted) (DATE2 $$unsorted) (INT1 $$unsorted) (DATE1 $$unsorted) (TEXT $$unsorted)) (let ((_let_1 (@ tptp.lEditionFn_THFTYPE_IiiiI TEXT))) (=> (and (= (@ _let_1 INT1) EDITION1) (= (@ _let_1 INT2) EDITION2) (@ (@ tptp.gt_THFTYPE_IiioI INT2) INT1) (@ (@ tptp.instance_THFTYPE_IiioI PUB1) tptp.lPublication_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI PUB2) tptp.lPublication_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI CBO1) EDITION1) (@ (@ tptp.instance_THFTYPE_IiioI CBO2) EDITION2) (@ (@ tptp.patient_THFTYPE_IiioI PUB1) CBO1) (@ (@ tptp.patient_THFTYPE_IiioI PUB2) CBO2) (@ (@ tptp.date_THFTYPE_IiioI PUB1) DATE1) (@ (@ tptp.date_THFTYPE_IiioI PUB2) DATE2)) (@ (@ tptp.before_THFTYPE_IiioI (@ tptp.lEndFn_THFTYPE_IiiI DATE1)) (@ tptp.lEndFn_THFTYPE_IiiI DATE2))))) (forall ((PROC $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lPoliticalProcess_THFTYPE_i) (exists ((POL $$unsorted)) (and (or (@ (@ tptp.instance_THFTYPE_IiioI POL) tptp.lGovernment_THFTYPE_i) (exists ((GOV $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI GOV) tptp.lGovernment_THFTYPE_i) (@ (@ tptp.member_THFTYPE_IiioI POL) GOV)))) (or (@ (@ tptp.agent_THFTYPE_IiioI PROC) POL) (@ (@ tptp.patient_THFTYPE_IiioI PROC) POL)))))) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lMinuteDuration_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n60_THFTYPE_i)) tptp.lSecondDuration_THFTYPE_i)))) (forall ((OBJ $$unsorted) (SEE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI SEE) tptp.lSeeing_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI SEE) OBJ)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI SEE)) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) tptp.lIlluminated_THFTYPE_i)))) (forall ((LEAP $$unsorted) (NUMBER $$unsorted)) (let ((_let_1 (@ tptp.lRemainderFn_THFTYPE_IiiiI NUMBER))) (let ((_let_2 (@ tptp.instance_THFTYPE_IiioI LEAP))) (=> (and (@ _let_2 tptp.lLeapYear_THFTYPE_i) (@ _let_2 (@ tptp.lYearFn_THFTYPE_IiiI NUMBER))) (or (and (= (@ _let_1 tptp.n4_THFTYPE_i) tptp.n0_THFTYPE_i) (not (= (@ _let_1 tptp.n100_THFTYPE_i) tptp.n0_THFTYPE_i))) (= (@ _let_1 tptp.n400_THFTYPE_i) tptp.n0_THFTYPE_i)))))) (@ _let_577 tptp.lIntentionalProcess_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPsychologicalAttribute_THFTYPE_i) tptp.lBiologicalAttribute_THFTYPE_i) (forall ((OBJ $$unsorted) (INCREASE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI INCREASE) tptp.lIncreasing_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI INCREASE) OBJ)) (exists ((UNIT $$unsorted) (QUANT1 $$unsorted) (QUANT2 $$unsorted)) (let ((_let_1 (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI OBJ) UNIT))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI INCREASE))) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (= _let_1 QUANT1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (= _let_1 QUANT2)) (@ (@ tptp.gt_THFTYPE_IiioI QUANT2) QUANT1))))))) (@ _let_547 tptp.lInheritableRelation_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTissue_THFTYPE_i) tptp.lBodySubstance_THFTYPE_i) (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lAbove_THFTYPE_i) tptp.lBelow_THFTYPE_i) (forall ((CHILD $$unsorted) (PARENT $$unsorted)) (=> (@ (@ tptp.son_THFTYPE_IiioI CHILD) PARENT) (@ (@ tptp.attribute_THFTYPE_IiioI CHILD) tptp.lMale_THFTYPE_i))) (forall ((MONTH1 $$unsorted) (MONTH2 $$unsorted) (YEAR $$unsorted)) (=> (and (= MONTH1 (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lApril_THFTYPE_i) YEAR)) (= MONTH2 (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lMay_THFTYPE_i) YEAR))) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI MONTH1) MONTH2))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lSubtractionFn_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lRight_THFTYPE_i) tptp.lLeft_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBeverage_THFTYPE_i) tptp.lFood_THFTYPE_i) (@ _let_578 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lSineFn_THFTYPE_i) tptp.lRealNumber_THFTYPE_i) (forall ((MAN $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MAN) tptp.lMan_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI MAN) tptp.lMale_THFTYPE_i))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDevice_THFTYPE_i) tptp.lArtifact_THFTYPE_i) (forall ((PATH1 $$unsorted) (MEASURE1 $$unsorted) (PROCESS $$unsorted) (DISTANCE $$unsorted) (SOURCE $$unsorted) (DEST $$unsorted)) (=> (and (@ (@ tptp.path_THFTYPE_IiioI PROCESS) PATH1) (@ (@ tptp.origin_THFTYPE_IiioI PROCESS) SOURCE) (@ (@ tptp.destination_THFTYPE_IiioI PROCESS) DEST) (@ (@ tptp.length_THFTYPE_IiioI PATH1) MEASURE1) (@ (@ (@ tptp.distance_THFTYPE_IiiioI SOURCE) DEST) DISTANCE) (not (@ (@ tptp.gt_THFTYPE_IiioI MEASURE1) DISTANCE))) (forall ((OBJ $$unsorted)) (=> (@ (@ tptp.part_THFTYPE_IiioI OBJ) PATH1) (@ (@ (@ tptp.between_THFTYPE_IiiioI SOURCE) OBJ) DEST))))) (forall ((ATOM $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ATOM) tptp.lAtom_THFTYPE_i) (exists ((PROTON $$unsorted) (ELECTRON $$unsorted)) (and (@ (@ tptp.component_THFTYPE_IiioI PROTON) ATOM) (@ (@ tptp.component_THFTYPE_IiioI ELECTRON) ATOM) (@ (@ tptp.instance_THFTYPE_IiioI PROTON) tptp.lProton_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI ELECTRON) tptp.lElectron_THFTYPE_i))))) (forall ((NUMBER2 $$unsorted) (NUMBER1 $$unsorted)) (let ((_let_1 (@ tptp.lFloorFn_THFTYPE_IiiI NUMBER1))) (let ((_let_2 (@ (@ tptp.minus_THFTYPE_IiiiI NUMBER1) _let_1))) (=> (= (@ tptp.lRoundFn_THFTYPE_IiiI NUMBER1) NUMBER2) (or (=> (@ (@ tptp.lt_THFTYPE_IiioI _let_2) tptp.n0dot5_THFTYPE_i) (= NUMBER2 _let_1)) (=> (@ (@ tptp.gtet_THFTYPE_IiioI _let_2) tptp.n0dot5_THFTYPE_i) (= NUMBER2 (@ tptp.lCeilingFn_THFTYPE_IiiI NUMBER1)))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPhysical_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lAdditionFn_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (forall ((LIST2 $$unsorted) (LIST1 $$unsorted)) (=> (@ (@ tptp.subList_THFTYPE_IiioI LIST1) LIST2) (forall ((ITEM $$unsorted)) (let ((_let_1 (@ tptp.inList_THFTYPE_IiioI ITEM))) (=> (@ _let_1 LIST1) (@ _let_1 LIST2)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lEncoding_THFTYPE_i) tptp.lWriting_THFTYPE_i) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lAngstrom_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n1dot0Eminus10_THFTYPE_i)) tptp.lMeter_THFTYPE_i)))) (forall ((PATH $$unsorted) (ARC1 $$unsorted) (SUBPATH $$unsorted) (SUM $$unsorted) (NUMBER1 $$unsorted)) (=> (and (= (@ tptp.lPathWeightFn_THFTYPE_IiiI PATH) SUM) (@ (@ tptp.subGraph_THFTYPE_IiioI SUBPATH) PATH) (@ (@ tptp.graphPart_THFTYPE_IiioI ARC1) PATH) (@ (@ tptp.arcWeight_THFTYPE_IiioI ARC1) NUMBER1) (forall ((ARC2 $$unsorted)) (let ((_let_1 (@ tptp.graphPart_THFTYPE_IiioI ARC2))) (=> (@ _let_1 PATH) (or (@ _let_1 SUBPATH) (= ARC2 ARC1)))))) (= SUM (@ (@ tptp.plus_THFTYPE_IiiiI (@ tptp.lPathWeightFn_THFTYPE_IiiI SUBPATH)) NUMBER1)))) (forall ((UNIT $$unsorted) (MEGAUNIT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfMeasure_THFTYPE_i) (= MEGAUNIT (@ tptp.lMegaFn_THFTYPE_IiiI UNIT))) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1_THFTYPE_i) MEGAUNIT) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1000000_THFTYPE_i) UNIT)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWaterMotion_THFTYPE_i) tptp.lLiquidMotion_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGroupOfPeople_THFTYPE_i) tptp.lGroup_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPerceptualAttribute_THFTYPE_i) tptp.lRelationalAttribute_THFTYPE_i) (@ (@ tptp.typicalPart_THFTYPE_IiioI tptp.lVocalCords_THFTYPE_i) tptp.lHuman_THFTYPE_i) (forall ((NODE $$unsorted) (ARC $$unsorted)) (=> (and (= (@ tptp.lInitialNodeFn_THFTYPE_IiiI ARC) NODE) (= (@ tptp.lTerminalNodeFn_THFTYPE_IiiI ARC) NODE)) (@ (@ tptp.instance_THFTYPE_IiioI ARC) tptp.lGraphLoop_THFTYPE_i))) (forall ((ROW $$unsorted) (ITEM $$unsorted)) (@ (@ tptp.initialList_THFTYPE_IiioI (@ tptp.lListFn_THFTYPE_IiiI ROW)) (@ (@ tptp.lListFn_THFTYPE_IiiiI ROW) ITEM))) (@ _let_581 tptp.lContentDevelopment_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTactilePerception_THFTYPE_i) tptp.lPerception_THFTYPE_i) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lLinguisticExpression_THFTYPE_i) tptp.lIcon_THFTYPE_i) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lInch_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n0dot0254_THFTYPE_i)) tptp.lMeter_THFTYPE_i)))) (forall ((INJ $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INJ) tptp.lInjuring_THFTYPE_i) (exists ((STRUCT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI STRUCT) tptp.lAnatomicalStructure_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI INJ) STRUCT))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lConstructing_THFTYPE_i) tptp.lMaking_THFTYPE_i) (forall ((NUMBER $$unsorted) (QUANT $$unsorted) (UNIT $$unsorted)) (=> (and (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) UNIT) QUANT) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfFrequency_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI QUANT) tptp.lFrequencyMeasure_THFTYPE_i))) (forall ((FREEZE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI FREEZE) tptp.lFreezing_THFTYPE_i) (exists ((COOL $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI COOL) tptp.lCooling_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI COOL) FREEZE))))) (@ _let_572 tptp.lFlowRegion_THFTYPE_i) (@ _let_601 tptp.lHumanLanguage_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAnimalLanguage_THFTYPE_i) tptp.lLanguage_THFTYPE_i) (forall ((CLASS $$unsorted) (ATTR $$unsorted) (ROW $$unsorted)) (=> (@ (@ tptp.exhaustiveAttribute_THFTYPE_IiioI CLASS) ROW) (=> (@ (@ tptp.inList_THFTYPE_IiioI ATTR) (@ tptp.lListFn_THFTYPE_IiiI ROW)) (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lAttribute_THFTYPE_i)))) (forall ((DECODE $$unsorted) (DOC1 $$unsorted) (PROP Bool)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DECODE) tptp.lDecoding_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI DECODE) DOC1)) (exists ((ENCODE $$unsorted) (DOC2 $$unsorted) (TIME $$unsorted)) (and (@ (@ tptp.containsInformation_THFTYPE_IiooI DOC2) PROP) (@ (@ tptp.containsInformation_THFTYPE_IiooI DOC1) PROP) (@ (@ tptp.temporalPart_THFTYPE_IiioI TIME) (@ tptp.lPastFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI DECODE))) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (and (@ (@ tptp.instance_THFTYPE_IiioI ENCODE) tptp.lEncoding_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI ENCODE) DOC2))))))) (forall ((INST $$unsorted) (REL (-> $$unsorted $$unsorted Bool))) (= (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lReflexiveRelation_THFTYPE_i) (@ (@ REL INST) INST))) (forall ((CONTEST $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI CONTEST) tptp.lContest_THFTYPE_i) (exists ((AGENT1 $$unsorted) (AGENT2 $$unsorted) (PURP1 Bool) (PURP2 Bool)) (let ((_let_1 (@ tptp.hasPurposeForAgent_THFTYPE_IioioI CONTEST))) (let ((_let_2 (@ tptp.agent_THFTYPE_IiioI CONTEST))) (and (@ _let_2 AGENT1) (@ _let_2 AGENT2) (@ (@ _let_1 PURP1) AGENT1) (@ (@ _let_1 PURP2) AGENT2) (not (= AGENT1 AGENT2)) (not (= PURP1 PURP2)))))))) (forall ((OBJ $$unsorted) (PROCESS $$unsorted) (REL (-> $$unsorted $$unsorted Bool))) (=> (and (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lCaseRole_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lObject_THFTYPE_i) (@ (@ REL PROCESS) OBJ)) (exists ((TIME $$unsorted)) (@ (@ tptp.overlapsSpatially_THFTYPE_IiioI (@ (@ tptp.lWhereFn_THFTYPE_IiiiI PROCESS) TIME)) OBJ)))) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lHeating_THFTYPE_i) tptp.lCooling_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBuying_THFTYPE_i) tptp.lFinancialTransaction_THFTYPE_i) (forall ((INTERVAL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI (@ tptp.lPastFn_THFTYPE_IiiI INTERVAL)) INTERVAL))) (forall ((BOOK $$unsorted) (ARTICLE1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ARTICLE1) tptp.lArticle_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI BOOK) tptp.lBook_THFTYPE_i) (@ (@ tptp.subsumesContentInstance_THFTYPE_IiioI BOOK) ARTICLE1)) (exists ((ARTICLE2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ARTICLE2) tptp.lArticle_THFTYPE_i) (not (= ARTICLE2 ARTICLE1)) (@ (@ tptp.subsumesContentInstance_THFTYPE_IiioI BOOK) ARTICLE2))))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lExtensionFn_THFTYPE_i) tptp.lClass_THFTYPE_i) (forall ((MEAT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MEAT) tptp.lMeat_THFTYPE_i) (forall ((PART $$unsorted)) (=> (@ (@ tptp.part_THFTYPE_IiioI PART) MEAT) (exists ((SUBPART $$unsorted) (TIME $$unsorted) (ANIMAL $$unsorted)) (let ((_let_1 (@ tptp.part_THFTYPE_IiioI SUBPART))) (and (@ _let_1 PART) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (and (@ (@ tptp.instance_THFTYPE_IiioI ANIMAL) tptp.lAnimal_THFTYPE_i) (@ _let_1 ANIMAL)))))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lArtWork_THFTYPE_i) tptp.lArtifact_THFTYPE_i) (@ _let_556 tptp.lOrganizationalProcess_THFTYPE_i) (forall ((MONTH1 $$unsorted) (MONTH2 $$unsorted) (YEAR $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MONTH1) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lSeptember_THFTYPE_i) YEAR)) (@ (@ tptp.instance_THFTYPE_IiioI MONTH2) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lOctober_THFTYPE_i) YEAR))) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI MONTH1) MONTH2))) (forall ((ORDER $$unsorted) (FORMULA Bool)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ORDER) tptp.lOrdering_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiooI ORDER) FORMULA)) (@ (@ tptp.modalAttribute_THFTYPE_IoioI FORMULA) tptp.lObligation_THFTYPE_i))) (forall ((THING $$unsorted)) (@ (@ tptp.instance_THFTYPE_IiioI THING) tptp.lEntity_THFTYPE_i)) (@ (@ tptp.range_THFTYPE_IiioI tptp.lEndFn_THFTYPE_i) tptp.lTimePoint_THFTYPE_i) (forall ((ACT $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ACT) tptp.lReligiousProcess_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI ACT) AGENT)) (or (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lReligiousOrganization_THFTYPE_i) (exists ((ORG $$unsorted)) (and (@ (@ tptp.member_THFTYPE_IiioI AGENT) ORG) (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lReligiousOrganization_THFTYPE_i)))))) (forall ((INTERACTION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INTERACTION) tptp.lSocialInteraction_THFTYPE_i) (exists ((AGENT1 $$unsorted) (AGENT2 $$unsorted)) (let ((_let_1 (@ tptp.involvedInEvent_THFTYPE_IiioI INTERACTION))) (and (@ _let_1 AGENT1) (@ _let_1 AGENT2) (@ (@ tptp.instance_THFTYPE_IiioI AGENT1) tptp.lAgent_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI AGENT2) tptp.lAgent_THFTYPE_i) (not (= AGENT1 AGENT2))))))) (forall ((LOOP $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI LOOP) tptp.lGraphLoop_THFTYPE_i) (exists ((NODE $$unsorted)) (@ (@ (@ tptp.links_THFTYPE_IiiioI NODE) NODE) LOOP)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTruthValue_THFTYPE_i) tptp.lRelationalAttribute_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lVoting_THFTYPE_i) tptp.lDeciding_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMeasuringDevice_THFTYPE_i) tptp.lDevice_THFTYPE_i) (forall ((OBJECT $$unsorted) (AGENT $$unsorted)) (=> (@ (@ tptp.needs_THFTYPE_IiioI AGENT) OBJECT) (@ (@ tptp.wants_THFTYPE_IiioI AGENT) OBJECT))) (@ _let_590 tptp.lLandArea_THFTYPE_i) (forall ((NUMBER $$unsorted) (CLASS1 $$unsorted) (REL $$unsorted) (CLASS2 $$unsorted)) (let ((_let_1 (@ (@ tptp.domainSubclass_THFTYPE_IiiioI REL) NUMBER))) (=> (and (@ _let_1 CLASS1) (@ _let_1 CLASS2)) (or (@ (@ tptp.subclass_THFTYPE_IiioI CLASS1) CLASS2) (@ (@ tptp.subclass_THFTYPE_IiioI CLASS2) CLASS1))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDirecting_THFTYPE_i) tptp.lLinguisticCommunication_THFTYPE_i) (forall ((ATOM $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ATOM) tptp.lAtom_THFTYPE_i) (forall ((NUCLEUS1 $$unsorted) (NUCLEUS2 $$unsorted)) (=> (and (@ (@ tptp.component_THFTYPE_IiioI NUCLEUS1) ATOM) (@ (@ tptp.component_THFTYPE_IiioI NUCLEUS2) ATOM) (@ (@ tptp.instance_THFTYPE_IiioI NUCLEUS1) tptp.lAtomicNucleus_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI NUCLEUS2) tptp.lAtomicNucleus_THFTYPE_i)) (= NUCLEUS1 NUCLEUS2))))) (@ _let_600 tptp.lNonnegativeRealNumber_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lEngineeringComponent_THFTYPE_i) tptp.lDevice_THFTYPE_i) (@ _let_600 tptp.lInteger_THFTYPE_i) (forall ((CLASS $$unsorted) (SEQ $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI SEQ) tptp.lSequenceFunction_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI SEQ) CLASS)) (@ (@ tptp.subclass_THFTYPE_IiioI CLASS) tptp.lInteger_THFTYPE_i))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRadiatingSound_THFTYPE_i) tptp.lRadiating_THFTYPE_i) (forall ((OBJECT $$unsorted) (AGENT2 $$unsorted) (AGENT1 $$unsorted)) (= (exists ((BORROW $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI BORROW) tptp.lBorrowing_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI BORROW) AGENT1) (@ (@ tptp.origin_THFTYPE_IiioI BORROW) AGENT2) (@ (@ tptp.patient_THFTYPE_IiioI BORROW) OBJECT))) (exists ((LEND $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI LEND) tptp.lLending_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI LEND) AGENT2) (@ (@ tptp.destination_THFTYPE_IiioI LEND) AGENT1) (@ (@ tptp.patient_THFTYPE_IiioI LEND) OBJECT))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTranslocation_THFTYPE_i) tptp.lMotion_THFTYPE_i) (forall ((PRODUCT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PRODUCT) tptp.lProduct_THFTYPE_i) (exists ((MANUFACTURE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI MANUFACTURE) tptp.lManufacture_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI MANUFACTURE) PRODUCT))))) (forall ((DAY $$unsorted) (NUMBER2 $$unsorted) (HOUR2 $$unsorted) (NUMBER1 $$unsorted) (HOUR1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI HOUR1) (@ (@ tptp.lHourFn_THFTYPE_IiiiI NUMBER1) DAY)) (@ (@ tptp.instance_THFTYPE_IiioI HOUR2) (@ (@ tptp.lHourFn_THFTYPE_IiiiI NUMBER2) DAY)) (= (@ (@ tptp.minus_THFTYPE_IiiiI NUMBER2) NUMBER1) tptp.n1_THFTYPE_i)) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI HOUR1) HOUR2))) (forall ((POINT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI POINT) tptp.lTimePoint_THFTYPE_i) (exists ((INTERVAL $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.temporalPart_THFTYPE_IiioI POINT) INTERVAL))))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lImmediatePastFn_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAstronomicalBody_THFTYPE_i) tptp.lRegion_THFTYPE_i) (@ _let_568 tptp.lInternalChange_THFTYPE_i) (@ (@ tptp.trichotomizingOn_THFTYPE_IIiioIioI tptp.greaterThan_THFTYPE_IiioI) tptp.lRealNumber_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTransfer_THFTYPE_i) tptp.lTranslocation_THFTYPE_i) (forall ((ROW2 $$unsorted) (ROW1 $$unsorted)) (=> (and (@ tptp.contraryAttribute_THFTYPE_IioI ROW1) (@ (@ tptp.identicalListItems_THFTYPE_IiioI (@ tptp.lListFn_THFTYPE_IiiI ROW1)) (@ tptp.lListFn_THFTYPE_IiiI ROW2))) (@ tptp.contraryAttribute_THFTYPE_IioI ROW2))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lVertebrate_THFTYPE_i) tptp.lAnimal_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPositionalAttribute_THFTYPE_i) tptp.lRelationalAttribute_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGasMotion_THFTYPE_i) tptp.lMotion_THFTYPE_i) (@ (@ tptp.subAttribute_THFTYPE_IiioI tptp.lLiquid_THFTYPE_i) tptp.lFluid_THFTYPE_i) (forall ((POINT $$unsorted) (INTERVAL $$unsorted)) (=> (= (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL) POINT) (forall ((OTHERPOINT $$unsorted)) (=> (and (@ (@ tptp.temporalPart_THFTYPE_IiioI OTHERPOINT) INTERVAL) (not (= OTHERPOINT POINT))) (@ (@ tptp.before_THFTYPE_IiioI OTHERPOINT) POINT))))) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lQuart_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.div_THFTYPE_IiiiI NUMBER) tptp.n4_THFTYPE_i)) tptp.lUnitedStatesGallon_THFTYPE_i)))) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lFactualText_THFTYPE_i) tptp.lFictionalText_THFTYPE_i) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ tptp.traverses_THFTYPE_IiioI OBJ1) OBJ2) (or (@ (@ tptp.crosses_THFTYPE_IiioI OBJ1) OBJ2) (@ (@ tptp.penetrates_THFTYPE_IiioI OBJ1) OBJ2)))) (forall ((OBJ $$unsorted)) (=> (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) tptp.lDry_THFTYPE_i) (not (exists ((SUBOBJ $$unsorted)) (and (@ (@ tptp.part_THFTYPE_IiioI SUBOBJ) OBJ) (@ (@ tptp.attribute_THFTYPE_IiioI SUBOBJ) tptp.lLiquid_THFTYPE_i)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lEthnicGroup_THFTYPE_i) tptp.lGroupOfPeople_THFTYPE_i) (forall ((OBJ $$unsorted) (REPAIR $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI REPAIR) tptp.lRepairing_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI REPAIR) OBJ)) (exists ((DAMAGE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI DAMAGE) tptp.lDamaging_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI DAMAGE) OBJ) (@ (@ tptp.earlier_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI DAMAGE)) (@ tptp.lWhenFn_THFTYPE_IiiI REPAIR)))))) (@ _let_542 tptp.lRadiatingSound_THFTYPE_i) (forall ((NUMBER $$unsorted) (QUANTITY $$unsorted)) (=> (= QUANTITY (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lCoulomb_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI QUANTITY) tptp.lTimeDependentQuantity_THFTYPE_i))) (forall ((WEEK $$unsorted) (DAY1 $$unsorted) (DAY2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DAY1) tptp.lThursday_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI DAY2) tptp.lFriday_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI WEEK) tptp.lWeek_THFTYPE_i) (@ (@ tptp.temporalPart_THFTYPE_IiioI DAY1) WEEK) (@ (@ tptp.temporalPart_THFTYPE_IiioI DAY2) WEEK)) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI DAY1) DAY2))) (forall ((CONTENT Bool) (AGENT $$unsorted) (TEXT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TEXT) tptp.lFactualText_THFTYPE_i) (@ (@ tptp.authors_THFTYPE_IiioI AGENT) TEXT) (@ (@ tptp.subsumesContentInstance_THFTYPE_IiooI TEXT) CONTENT) (@ (@ tptp.instance_THFTYPE_IoioI CONTENT) tptp.lFormula_THFTYPE_i)) (@ (@ tptp.believes_THFTYPE_IiooI AGENT) CONTENT))) (@ (@ (@ (@ (@ tptp.partition_THFTYPE_IiiiiioI tptp.lGeometricFigure_THFTYPE_i) tptp.lGeometricPoint_THFTYPE_i) tptp.lOneDimensionalFigure_THFTYPE_i) tptp.lTwoDimensionalFigure_THFTYPE_i) tptp.lThreeDimensionalFigure_THFTYPE_i) (forall ((LIST2 $$unsorted) (LIST1 $$unsorted)) (=> (@ (@ tptp.initialList_THFTYPE_IiioI LIST1) LIST2) (forall ((NUMBER1 $$unsorted) (NUMBER2 $$unsorted)) (=> (and (= (@ tptp.lListLengthFn_THFTYPE_IiiI LIST1) NUMBER1) (@ (@ tptp.ltet_THFTYPE_IiioI NUMBER2) NUMBER1)) (= (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST1) NUMBER2) (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST2) NUMBER2)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTraitAttribute_THFTYPE_i) tptp.lPsychologicalAttribute_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCooperation_THFTYPE_i) tptp.lSocialInteraction_THFTYPE_i) (@ _let_599 tptp.lTransitiveRelation_THFTYPE_i) (forall ((DEGREE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DEGREE) tptp.lPlaneAngleMeasure_THFTYPE_i) (= (@ tptp.lTangentFn_THFTYPE_IiiI DEGREE) (@ (@ tptp.div_THFTYPE_IiiiI (@ tptp.lSineFn_THFTYPE_IiiI DEGREE)) (@ tptp.lCosineFn_THFTYPE_IiiI DEGREE))))) (forall ((OBJECT $$unsorted) (OBJECTTYPE $$unsorted) (PART $$unsorted)) (=> (and (@ (@ tptp.subclass_THFTYPE_IiioI OBJECTTYPE) tptp.lSubstance_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI OBJECT) OBJECTTYPE) (@ (@ tptp.part_THFTYPE_IiioI PART) OBJECT)) (@ (@ tptp.instance_THFTYPE_IiioI PART) OBJECTTYPE))) (@ (@ tptp.identityElement_THFTYPE_IIiiiIioI tptp.lDivisionFn_THFTYPE_IiiiI) tptp.n1_THFTYPE_i) (forall ((NUMBER $$unsorted) (CLASS $$unsorted) (REL (-> $$unsorted Bool)) (ROW $$unsorted)) (=> (and (@ (@ (@ tptp.domainSubclass_THFTYPE_IIioIiioI REL) NUMBER) CLASS) (@ REL ROW)) (@ (@ tptp.subclass_THFTYPE_IiioI (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI (@ tptp.lListFn_THFTYPE_IiiI ROW)) NUMBER)) CLASS))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lFloorFn_THFTYPE_i) tptp.lInteger_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPerception_THFTYPE_i) tptp.lPsychologicalProcess_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNonnegativeRealNumber_THFTYPE_i) tptp.lRealNumber_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNaturalProcess_THFTYPE_i) tptp.lProcess_THFTYPE_i) (forall ((REL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI REL) tptp.lTernaryPredicate_THFTYPE_i) (@ (@ tptp.valence_THFTYPE_IiioI REL) tptp.n3_THFTYPE_i))) (@ _let_575 tptp.lTissue_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lMeasureFn_THFTYPE_i) tptp.lPhysicalQuantity_THFTYPE_i) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (= (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) tptp.lHorizontal_THFTYPE_i) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ2) OBJ1) tptp.lHorizontal_THFTYPE_i))) (forall ((MONTH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MONTH) tptp.lAugust_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI MONTH) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n31_THFTYPE_i) tptp.lDayDuration_THFTYPE_i)))) (forall ((HOUR $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI HOUR) tptp.lHour_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI HOUR) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1_THFTYPE_i) tptp.lHourDuration_THFTYPE_i)))) (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lPeriodicalIssueFn_THFTYPE_i) tptp.lPeriodical_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lEating_THFTYPE_i) tptp.lIngesting_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lHiring_THFTYPE_i) tptp.lJoiningAnOrganization_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lListConcatenateFn_THFTYPE_i) tptp.lList_THFTYPE_i) (forall ((ORG $$unsorted) (TEXT $$unsorted)) (= (@ (@ tptp.publishes_THFTYPE_IiioI ORG) TEXT) (exists ((PUB $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PUB) tptp.lPublication_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PUB) ORG) (@ (@ tptp.patient_THFTYPE_IiioI PUB) TEXT))))) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) tptp.lOn_THFTYPE_i) (@ (@ tptp.connected_THFTYPE_IiioI OBJ1) OBJ2))) (forall ((REL (-> $$unsorted $$unsorted Bool))) (= (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lAntisymmetricRelation_THFTYPE_i) (forall ((INST1 $$unsorted) (INST2 $$unsorted)) (=> (and (@ (@ REL INST1) INST2) (@ (@ REL INST2) INST1)) (= INST1 INST2))))) (forall ((CLASS $$unsorted) (INTERVAL_TYPE $$unsorted) (INTERVAL $$unsorted)) (=> (= (@ (@ tptp.lTemporalCompositionFn_THFTYPE_IiiiI INTERVAL) INTERVAL_TYPE) CLASS) (forall ((TIME1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TIME1) CLASS) (not (@ (@ tptp.finishes_THFTYPE_IiioI TIME1) INTERVAL))) (exists ((TIME2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI TIME2) CLASS) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI TIME1) TIME2))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCommutativeFunction_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMotion_THFTYPE_i) tptp.lProcess_THFTYPE_i) (forall ((ORG $$unsorted) (ATT $$unsorted)) (=> (and (@ (@ tptp.attribute_THFTYPE_IiioI ORG) ATT) (@ (@ tptp.instance_THFTYPE_IiioI ATT) tptp.lBiologicalAttribute_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lOrganism_THFTYPE_i))) (@ (@ (@ tptp.exhaustiveAttribute_THFTYPE_IiiioI tptp.lAnimacyAttribute_THFTYPE_i) tptp.lLiving_THFTYPE_i) tptp.lDead_THFTYPE_i) (@ _let_598 tptp.lLandArea_THFTYPE_i) (forall ((ISLAND $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ISLAND) tptp.lIsland_THFTYPE_i) (not (exists ((AREA $$unsorted) (PART1 $$unsorted) (PART2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI AREA) tptp.lLandArea_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI PART1) ISLAND) (@ (@ tptp.part_THFTYPE_IiioI PART2) AREA) (not (@ (@ tptp.part_THFTYPE_IiioI ISLAND) AREA)) (not (@ (@ tptp.part_THFTYPE_IiioI AREA) ISLAND)) (@ (@ tptp.meetsSpatially_THFTYPE_IiioI PART1) PART2)))))) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (= (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) tptp.lVertical_THFTYPE_i) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ2) OBJ1) tptp.lVertical_THFTYPE_i))) (@ (@ (@ (@ tptp.disjointDecomposition_THFTYPE_IiiiioI tptp.lPhrase_THFTYPE_i) tptp.lVerbPhrase_THFTYPE_i) tptp.lNounPhrase_THFTYPE_i) tptp.lPrepositionalPhrase_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAtomicNucleus_THFTYPE_i) tptp.lSubatomicParticle_THFTYPE_i) (forall ((DIRECT $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted) (OBJ3 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DIRECT) tptp.lDirectionalAttribute_THFTYPE_i) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) DIRECT) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ2) OBJ3) DIRECT)) (@ (@ (@ tptp.between_THFTYPE_IiiioI OBJ1) OBJ2) OBJ3))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSymmetricPositionalAttribute_THFTYPE_i) tptp.lPositionalAttribute_THFTYPE_i) (@ _let_597 tptp.lSingleFamilyResidence_THFTYPE_i) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lRoom_THFTYPE_i) tptp.lBuilding_THFTYPE_i) (forall ((MORPH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MORPH) tptp.lMorpheme_THFTYPE_i) (exists ((WORD $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI WORD) tptp.lWord_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI MORPH) WORD))))) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lNaturalProcess_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i) (forall ((SURFACE $$unsorted) (OBJ $$unsorted) (ATTRIBUTE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ATTRIBUTE) tptp.lTextureAttribute_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) ATTRIBUTE) (@ (@ tptp.surface_THFTYPE_IiioI SURFACE) OBJ)) (@ (@ tptp.attribute_THFTYPE_IiioI SURFACE) ATTRIBUTE))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMotionDownward_THFTYPE_i) tptp.lMotion_THFTYPE_i) (@ _let_552 tptp.lFunction_THFTYPE_i) (@ _let_530 tptp.lInheritableRelation_THFTYPE_i) (forall ((MINUTE $$unsorted) (NUMBER $$unsorted) (SECOND $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SECOND) (@ (@ tptp.lSecondFn_THFTYPE_IiiiI NUMBER) MINUTE)) (@ (@ tptp.lt_THFTYPE_IiioI NUMBER) tptp.n60_THFTYPE_i))) (forall ((OBJ $$unsorted) (HOLE $$unsorted)) (=> (@ (@ tptp.hole_THFTYPE_IiioI HOLE) OBJ) (not (@ (@ tptp.overlapsSpatially_THFTYPE_IiioI HOLE) OBJ)))) (forall ((O $$unsorted) (M $$unsorted)) (=> (@ (@ tptp.length_THFTYPE_IiioI O) M) (not (exists ((M2 $$unsorted)) (and (@ (@ tptp.linearExtent_THFTYPE_IiioI O) M2) (@ (@ tptp.gt_THFTYPE_IiioI M2) M)))))) (@ (@ tptp.inverse_THFTYPE_IIiioIIiioIoI tptp.greaterThan_THFTYPE_IiioI) tptp.lessThan_THFTYPE_IiioI) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPhysicalQuantity_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (forall ((NUMBER $$unsorted) (INT $$unsorted)) (=> (= (@ tptp.lFloorFn_THFTYPE_IiiI NUMBER) INT) (not (exists ((OTHERINT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI OTHERINT) tptp.lInteger_THFTYPE_i) (@ (@ tptp.ltet_THFTYPE_IiioI OTHERINT) NUMBER) (@ (@ tptp.gt_THFTYPE_IiioI OTHERINT) INT)))))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lKiloFn_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPathologicProcess_THFTYPE_i) tptp.lBiologicalProcess_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTimeDuration_THFTYPE_i) tptp.lTimeMeasure_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lCenterOfCircleFn_THFTYPE_i) tptp.lGeometricPoint_THFTYPE_i) (@ (@ _let_596 tptp.lOddInteger_THFTYPE_i) tptp.lEvenInteger_THFTYPE_i) (forall ((NUMBER $$unsorted) (QUANTITY $$unsorted)) (=> (= QUANTITY (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lBecquerel_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI QUANTITY) tptp.lTimeDependentQuantity_THFTYPE_i))) (@ _let_555 tptp.lRelation_THFTYPE_i) (forall ((ORGANISM $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ORGANISM) tptp.lOrganism_THFTYPE_i) (exists ((BIRTH $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI BIRTH) tptp.lBirth_THFTYPE_i) (@ (@ tptp.experiencer_THFTYPE_IiioI BIRTH) ORGANISM))))) (forall ((MONTH1 $$unsorted) (MONTH2 $$unsorted) (YEAR $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MONTH1) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lAugust_THFTYPE_i) YEAR)) (@ (@ tptp.instance_THFTYPE_IiioI MONTH2) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lSeptember_THFTYPE_i) YEAR))) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI MONTH1) MONTH2))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCalculating_THFTYPE_i) tptp.lIntentionalPsychologicalProcess_THFTYPE_i) (forall ((INVESTIGATE $$unsorted) (PROP $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI INVESTIGATE) tptp.lInvestigating_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI INVESTIGATE) PROP)) (@ (@ tptp.instance_THFTYPE_IiioI PROP) tptp.lFormula_THFTYPE_i))) (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lAttribute_THFTYPE_i) tptp.lInternalAttribute_THFTYPE_i) tptp.lRelationalAttribute_THFTYPE_i) (@ _let_579 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lDayFn_THFTYPE_i) tptp.lDay_THFTYPE_i) (forall ((ADVERT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ADVERT) tptp.lAdvertising_THFTYPE_i) (exists ((OBJ $$unsorted)) (and (@ (@ tptp.refers_THFTYPE_IiioI ADVERT) OBJ) (@ (@ tptp.hasPurpose_THFTYPE_IiooI ADVERT) (exists ((SALE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI SALE) tptp.lSelling_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI SALE) OBJ)))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lChangeOfPossession_THFTYPE_i) tptp.lSocialInteraction_THFTYPE_i) (forall ((MEET $$unsorted) (AGENT2 $$unsorted) (AGENT1 $$unsorted)) (let ((_let_1 (@ tptp.agent_THFTYPE_IiioI MEET))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MEET) tptp.lMeeting_THFTYPE_i) (@ _let_1 AGENT1) (@ _let_1 AGENT2)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI MEET)) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI AGENT1) AGENT2) tptp.lNear_THFTYPE_i))))) (forall ((TEMP $$unsorted) (BOIL $$unsorted) (MELT $$unsorted) (X $$unsorted) (Y $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI X) Y) (@ (@ tptp.subclass_THFTYPE_IiioI Y) tptp.lPureSubstance_THFTYPE_i) (@ (@ tptp.boilingPoint_THFTYPE_IiioI Y) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI BOIL) tptp.lKelvinDegree_THFTYPE_i)) (@ (@ tptp.meltingPoint_THFTYPE_IiioI Y) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI MELT) tptp.lKelvinDegree_THFTYPE_i)) (@ (@ tptp.measure_THFTYPE_IiioI X) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI TEMP) tptp.lKelvinDegree_THFTYPE_i)) (@ (@ tptp.gt_THFTYPE_IiioI TEMP) MELT) (@ (@ tptp.lt_THFTYPE_IiioI TEMP) BOIL)) (@ (@ tptp.attribute_THFTYPE_IiioI X) tptp.lLiquid_THFTYPE_i))) (@ _let_595 tptp.lContest_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lApril_THFTYPE_i) tptp.lMonth_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBird_THFTYPE_i) tptp.lWarmBloodedVertebrate_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAntisymmetricRelation_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lEvaporating_THFTYPE_i) tptp.lStateChange_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lMaximalWeightedPathFn_THFTYPE_i) tptp.lGraphPath_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lProcedure_THFTYPE_i) tptp.lProposition_THFTYPE_i) (forall ((WOMAN $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI WOMAN) tptp.lWoman_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI WOMAN) tptp.lFemale_THFTYPE_i))) (@ _let_592 tptp.lManufacture_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOffering_THFTYPE_i) tptp.lCommitting_THFTYPE_i) (forall ((CLASS $$unsorted) (RELATION (-> $$unsorted $$unsorted Bool))) (=> (@ (@ tptp.trichotomizingOn_THFTYPE_IIiioIioI RELATION) CLASS) (forall ((INST1 $$unsorted) (INST2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI INST1) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI INST2) CLASS)) (or (@ (@ RELATION INST1) INST2) (@ (@ RELATION INST2) INST1) (= INST1 INST2)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPhysicalAttribute_THFTYPE_i) tptp.lInternalAttribute_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDestruction_THFTYPE_i) tptp.lDamaging_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMusicalInstrument_THFTYPE_i) tptp.lDevice_THFTYPE_i) (forall ((REGION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI REGION) tptp.lRegion_THFTYPE_i) (exists ((PHYS $$unsorted)) (@ (@ tptp.located_THFTYPE_IiioI PHYS) REGION)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lVirus_THFTYPE_i) tptp.lMicroorganism_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNounPhrase_THFTYPE_i) tptp.lPhrase_THFTYPE_i) (forall ((REL2 (-> $$unsorted Bool)) (ROW2 $$unsorted) (REL1 (-> $$unsorted Bool))) (=> (and (@ (@ tptp.instance_THFTYPE_IIioIioI REL1) tptp.lPredicate_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIioIioI REL2) tptp.lPredicate_THFTYPE_i) (@ (@ tptp.disjointRelation_THFTYPE_IIioIIioIoI REL1) REL2) (not (= REL1 REL2)) (@ REL1 ROW2)) (not (@ REL2 ROW2)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRegulatoryProcess_THFTYPE_i) tptp.lGuiding_THFTYPE_i) (forall ((GRAPH $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI GRAPH) tptp.lPseudoGraph_THFTYPE_i) (exists ((LOOP $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI LOOP) tptp.lGraphLoop_THFTYPE_i) (@ (@ tptp.graphPart_THFTYPE_IiioI LOOP) GRAPH))))) (forall ((OBJ $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lSubstance_THFTYPE_i) (exists ((ATTR $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lPhysicalState_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) ATTR))))) (forall ((P $$unsorted) (A $$unsorted) (C $$unsorted)) (let ((_let_1 (@ tptp.wears_THFTYPE_IiioI A))) (=> (and (@ _let_1 C) (@ (@ tptp.part_THFTYPE_IiioI P) C)) (@ _let_1 P)))) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) tptp.lAbove_THFTYPE_i) (not (@ (@ tptp.connected_THFTYPE_IiioI OBJ1) OBJ2)))) (@ _let_557 tptp.lFunction_THFTYPE_i) (forall ((REL (-> $$unsorted $$unsorted Bool))) (= (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lTransitiveRelation_THFTYPE_i) (forall ((INST1 $$unsorted) (INST2 $$unsorted) (INST3 $$unsorted)) (let ((_let_1 (@ REL INST1))) (=> (and (@ _let_1 INST2) (@ (@ REL INST2) INST3)) (@ _let_1 INST3)))))) (@ (@ (@ tptp.exhaustiveAttribute_THFTYPE_IiiioI tptp.lSexAttribute_THFTYPE_i) tptp.lFemale_THFTYPE_i) tptp.lMale_THFTYPE_i) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lSlug_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n14593dot90_THFTYPE_i)) tptp.lGram_THFTYPE_i)))) (forall ((OBJ $$unsorted) (SMELL $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI SMELL) tptp.lSmelling_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI SMELL) OBJ)) (exists ((ATTR $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lOlfactoryAttribute_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) ATTR))))) (forall ((CLASS $$unsorted) (INTERVAL_TYPE $$unsorted) (INTERVAL $$unsorted)) (=> (= (@ (@ tptp.lTemporalCompositionFn_THFTYPE_IiiiI INTERVAL) INTERVAL_TYPE) CLASS) (forall ((TIME1 $$unsorted) (TIME2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TIME1) INTERVAL_TYPE) (@ (@ tptp.instance_THFTYPE_IiioI TIME2) CLASS)) (exists ((DURATION $$unsorted)) (and (@ (@ tptp.duration_THFTYPE_IiioI TIME1) DURATION) (@ (@ tptp.duration_THFTYPE_IiioI TIME2) DURATION))))))) (@ (@ (@ (@ tptp.partition_THFTYPE_IiiiioI tptp.lRelation_THFTYPE_i) tptp.lPredicate_THFTYPE_i) tptp.lFunction_THFTYPE_i) tptp.lList_THFTYPE_i) (forall ((CHANGE $$unsorted) (OBJ $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI CHANGE) tptp.lInternalChange_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI CHANGE) OBJ)) (exists ((PROPERTY $$unsorted)) (let ((_let_1 (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) PROPERTY))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI CHANGE))) (let ((_let_3 (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)))) (let ((_let_4 (not _let_1))) (let ((_let_5 (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)))) (or (and (@ _let_5 _let_1) (@ _let_3 _let_4)) (and (@ _let_5 _let_4) (@ _let_3 _let_1))))))))))) (forall ((EXPRESS $$unsorted) (LANGUAGE $$unsorted)) (= (@ (@ tptp.expressedInLanguage_THFTYPE_IiioI EXPRESS) LANGUAGE) (exists ((PROP $$unsorted)) (@ (@ (@ tptp.representsInLanguage_THFTYPE_IiiioI EXPRESS) PROP) LANGUAGE)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBodyPosition_THFTYPE_i) tptp.lBiologicalAttribute_THFTYPE_i) (@ _let_551 tptp.lChemicalProcess_THFTYPE_i) (@ _let_552 tptp.lBinaryRelation_THFTYPE_i) (forall ((NUMBER $$unsorted)) (let ((_let_1 (@ tptp.lSignumFn_THFTYPE_IiiI NUMBER))) (=> (@ (@ tptp.instance_THFTYPE_IiioI NUMBER) tptp.lNonnegativeRealNumber_THFTYPE_i) (or (= _let_1 tptp.n1_THFTYPE_i) (= _let_1 tptp.n0_THFTYPE_i))))) (forall ((NUMBER $$unsorted) (QUANT $$unsorted) (UNIT $$unsorted)) (=> (and (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfMeasure_THFTYPE_i) (= QUANT (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) UNIT))) (= (@ tptp.lUnitFn_THFTYPE_IiiI QUANT) UNIT))) (@ _let_593 tptp.lArtWork_THFTYPE_i) (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lHorizontal_THFTYPE_i) tptp.lVertical_THFTYPE_i) (forall ((MEET $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MEET) tptp.lMeeting_THFTYPE_i) (exists ((AGENT1 $$unsorted) (AGENT2 $$unsorted)) (let ((_let_1 (@ tptp.agent_THFTYPE_IiioI MEET))) (and (@ _let_1 AGENT1) (@ _let_1 AGENT2) (@ (@ tptp.hasPurpose_THFTYPE_IiooI MEET) (exists ((COMM $$unsorted)) (let ((_let_1 (@ tptp.agent_THFTYPE_IiioI COMM))) (and (@ (@ tptp.instance_THFTYPE_IiioI COMM) tptp.lCommunication_THFTYPE_i) (@ _let_1 AGENT1) (@ _let_1 AGENT2)))))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lJuly_THFTYPE_i) tptp.lMonth_THFTYPE_i) (forall ((FORMULA $$unsorted) (AGENT $$unsorted) (REL (-> $$unsorted $$unsorted Bool))) (=> (and (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lPropositionalAttitude_THFTYPE_i) (@ (@ REL AGENT) FORMULA)) (@ (@ tptp.instance_THFTYPE_IiioI FORMULA) tptp.lFormula_THFTYPE_i))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSaturday_THFTYPE_i) tptp.lDay_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRodent_THFTYPE_i) tptp.lMammal_THFTYPE_i) (forall ((ORGANISM $$unsorted) (REP $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI REP) tptp.lSexualReproduction_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI REP) ORGANISM)) (exists ((MOTHER $$unsorted) (FATHER $$unsorted)) (and (@ (@ tptp.mother_THFTYPE_IiioI ORGANISM) MOTHER) (@ (@ tptp.father_THFTYPE_IiioI ORGANISM) FATHER))))) (forall ((OBJ1 $$unsorted) (COMBINE $$unsorted) (OBJ2 $$unsorted)) (let ((_let_1 (@ (@ tptp.part_THFTYPE_IiioI OBJ1) OBJ2))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI COMBINE))) (= (and (@ (@ tptp.instance_THFTYPE_IiioI COMBINE) tptp.lCombining_THFTYPE_i) (@ (@ tptp.resource_THFTYPE_IiioI COMBINE) OBJ1) (@ (@ tptp.result_THFTYPE_IiioI COMBINE) OBJ2)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (not _let_1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) _let_1)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCompositeUnitOfMeasure_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i) (@ _let_574 tptp.lInheritableRelation_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPairwiseDisjointClass_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTwoDimensionalFigure_THFTYPE_i) tptp.lGeometricFigure_THFTYPE_i) (forall ((WORD $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI WORD) tptp.lWord_THFTYPE_i) (exists ((PART $$unsorted)) (and (@ (@ tptp.part_THFTYPE_IiioI PART) WORD) (@ (@ tptp.instance_THFTYPE_IiioI PART) tptp.lMorpheme_THFTYPE_i))))) (@ _let_529 tptp.lTransitway_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBeliefGroup_THFTYPE_i) tptp.lGroupOfPeople_THFTYPE_i) (forall ((CLOTHING $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI CLOTHING) tptp.lClothing_THFTYPE_i) (exists ((FABRIC $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI FABRIC) tptp.lFabric_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI FABRIC) CLOTHING))))) (forall ((OBJ $$unsorted) (SEE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI SEE) tptp.lSeeing_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI SEE) OBJ)) (exists ((ATTR $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lColorAttribute_THFTYPE_i) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI SEE)) (@ (@ tptp.color_THFTYPE_IiioI OBJ) ATTR)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lExperimenting_THFTYPE_i) tptp.lInvestigating_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSelfConnectedObject_THFTYPE_i) tptp.lObject_THFTYPE_i) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n0_THFTYPE_i) tptp.lAngularDegree_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n360_THFTYPE_i) tptp.lAngularDegree_THFTYPE_i)) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lColoring_THFTYPE_i) tptp.lSurfaceChange_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lElection_THFTYPE_i) tptp.lOrganizationalProcess_THFTYPE_i) (@ _let_594 tptp.lDualObjectProcess_THFTYPE_i) (@ _let_593 tptp.lIcon_THFTYPE_i) (forall ((READ $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI READ) tptp.lReading_THFTYPE_i) (exists ((TEXT $$unsorted) (PROP Bool)) (and (@ (@ tptp.instance_THFTYPE_IiioI TEXT) tptp.lText_THFTYPE_i) (@ (@ tptp.containsInformation_THFTYPE_IiooI TEXT) PROP) (@ (@ tptp.realization_THFTYPE_IiooI READ) PROP))))) (forall ((TRANS $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI TRANS) tptp.lTransaction_THFTYPE_i) (exists ((AGENT1 $$unsorted) (AGENT2 $$unsorted) (GIVE1 $$unsorted) (GIVE2 $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI GIVE1) tptp.lGiving_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI GIVE2) tptp.lGiving_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI GIVE1) TRANS) (@ (@ tptp.subProcess_THFTYPE_IiioI GIVE2) TRANS) (@ (@ tptp.agent_THFTYPE_IiioI GIVE1) AGENT1) (@ (@ tptp.agent_THFTYPE_IiioI GIVE2) AGENT2) (@ (@ tptp.patient_THFTYPE_IiioI GIVE1) OBJ1) (@ (@ tptp.patient_THFTYPE_IiioI GIVE2) OBJ2) (@ (@ tptp.destination_THFTYPE_IiioI GIVE1) AGENT2) (@ (@ tptp.destination_THFTYPE_IiioI GIVE2) AGENT1) (not (= AGENT1 AGENT2)) (not (= OBJ1 OBJ2)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWaterArea_THFTYPE_i) tptp.lGeographicArea_THFTYPE_i) (forall ((GIVE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI GIVE) tptp.lUnilateralGiving_THFTYPE_i) (not (exists ((TRANS $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI TRANS) tptp.lTransaction_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI GIVE) TRANS)))))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lWhereFn_THFTYPE_i) tptp.lRegion_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOrganOrTissueProcess_THFTYPE_i) tptp.lAutonomicProcess_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBiologicalAttribute_THFTYPE_i) tptp.lInternalAttribute_THFTYPE_i) (@ _let_592 tptp.lContentDevelopment_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lComputerProgramming_THFTYPE_i) tptp.lContentDevelopment_THFTYPE_i) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lHourDuration_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n60_THFTYPE_i)) tptp.lMinuteDuration_THFTYPE_i)))) (forall ((OBJECT $$unsorted) (WIDTH $$unsorted)) (= (@ (@ tptp.width_THFTYPE_IiioI OBJECT) WIDTH) (exists ((SIDE1 $$unsorted) (SIDE2 $$unsorted)) (and (@ (@ tptp.side_THFTYPE_IiioI SIDE1) OBJECT) (@ (@ tptp.side_THFTYPE_IiioI SIDE2) OBJECT) (@ (@ (@ tptp.distance_THFTYPE_IiiioI SIDE1) SIDE2) WIDTH))))) (forall ((PART $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PART) tptp.lAnatomicalStructure_THFTYPE_i) (exists ((CELL $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI CELL) tptp.lCell_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI CELL) PART))))) (forall ((EVENT $$unsorted) (CBO $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI EVENT) tptp.lPlanning_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI EVENT) CBO) (@ (@ tptp.instance_THFTYPE_IiioI CBO) tptp.lContentBearingObject_THFTYPE_i)) (exists ((PLAN Bool)) (and (@ (@ tptp.instance_THFTYPE_IoioI PLAN) tptp.lPlan_THFTYPE_i) (@ (@ tptp.containsInformation_THFTYPE_IiooI CBO) PLAN))))) (@ _let_549 tptp.lRelation_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWord_THFTYPE_i) tptp.lLinguisticExpression_THFTYPE_i) (forall ((HORMONE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI HORMONE) tptp.lHormone_THFTYPE_i) (exists ((PROCESS $$unsorted) (GLAND $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI GLAND) tptp.lGland_THFTYPE_i) (@ (@ tptp.instrument_THFTYPE_IiioI PROCESS) GLAND) (@ (@ tptp.result_THFTYPE_IiioI PROCESS) HORMONE))))) (@ _let_588 tptp.lInheritableRelation_THFTYPE_i) (@ (@ _let_591 tptp.lPureSubstance_THFTYPE_i) tptp.lMixture_THFTYPE_i) (forall ((PROC $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lIntentionalProcess_THFTYPE_i) (exists ((AGENT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lCognitiveAgent_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PROC) AGENT))))) (forall ((VALUE $$unsorted) (REL (-> $$unsorted $$unsorted $$unsorted Bool)) (NUMBER2 $$unsorted) (NUMBER1 $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IIiiioIioI REL))) (=> (and (@ _let_1 tptp.lRelationExtendedToQuantities_THFTYPE_i) (@ _let_1 tptp.lTernaryRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI NUMBER1) tptp.lRealNumber_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI NUMBER2) tptp.lRealNumber_THFTYPE_i) (@ (@ (@ REL NUMBER1) NUMBER2) VALUE)) (forall ((UNIT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfMeasure_THFTYPE_i) (@ (@ (@ REL (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER1) UNIT)) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER2) UNIT)) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI VALUE) UNIT))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAgent_THFTYPE_i) tptp.lObject_THFTYPE_i) (forall ((ATTR2 $$unsorted) (ATTR1 $$unsorted)) (=> (= ATTR1 ATTR2) (forall ((THING $$unsorted)) (let ((_let_1 (@ tptp.property_THFTYPE_IiioI THING))) (= (@ _let_1 ATTR1) (@ _let_1 ATTR2)))))) (forall ((ITEM $$unsorted) (LIST2 $$unsorted) (LIST1 $$unsorted)) (let ((_let_1 (@ tptp.inList_THFTYPE_IiioI ITEM))) (=> (@ (@ tptp.identicalListItems_THFTYPE_IiioI LIST1) LIST2) (= (@ _let_1 LIST1) (@ _let_1 LIST2))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lProtein_THFTYPE_i) tptp.lNutrient_THFTYPE_i) (@ _let_590 tptp.lGeopoliticalArea_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnitOfAtmosphericPressure_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i) (forall ((WEEK $$unsorted) (DAY1 $$unsorted) (DAY2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DAY1) tptp.lSaturday_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI DAY2) tptp.lSunday_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI WEEK) tptp.lWeek_THFTYPE_i) (@ (@ tptp.temporalPart_THFTYPE_IiioI DAY1) WEEK) (@ (@ tptp.temporalPart_THFTYPE_IiioI DAY2) WEEK)) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI DAY1) DAY2))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lIntersectionFn_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWeek_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (forall ((QUANT $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ (@ tptp.distance_THFTYPE_IiiioI OBJ1) OBJ2) QUANT) (@ (@ (@ tptp.distance_THFTYPE_IiiioI OBJ2) OBJ1) QUANT))) (forall ((TIME $$unsorted) (PROC $$unsorted) (ATTR1 $$unsorted)) (=> (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.faces_THFTYPE_IiioI PROC) ATTR1)) (forall ((ATTR2 $$unsorted)) (=> (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.faces_THFTYPE_IiioI PROC) ATTR2)) (= ATTR2 ATTR1))))) (forall ((INJECT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INJECT) tptp.lInjecting_THFTYPE_i) (exists ((SUBSTANCE $$unsorted) (ANIMAL $$unsorted)) (and (@ (@ tptp.patient_THFTYPE_IiioI INJECT) SUBSTANCE) (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE) tptp.lBiologicallyActiveSubstance_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI SUBSTANCE) tptp.lLiquid_THFTYPE_i) (@ (@ tptp.destination_THFTYPE_IiioI INJECT) ANIMAL) (@ (@ tptp.instance_THFTYPE_IiioI ANIMAL) tptp.lAnimal_THFTYPE_i))))) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lPint_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.div_THFTYPE_IiiiI NUMBER) tptp.n2_THFTYPE_i)) tptp.lQuart_THFTYPE_i)))) (forall ((AGENT $$unsorted) (PROC $$unsorted)) (=> (@ (@ tptp.hasSkill_THFTYPE_IiioI PROC) AGENT) (@ (@ (@ tptp.capability_THFTYPE_IiIiioIioI PROC) tptp.agent_THFTYPE_IiioI) AGENT))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLogicalOperator_THFTYPE_i) tptp.lPredicate_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lIcon_THFTYPE_i) tptp.lContentBearingPhysical_THFTYPE_i) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lLeavingAnOrganization_THFTYPE_i) tptp.lJoiningAnOrganization_THFTYPE_i) (forall ((NUMBER $$unsorted) (NUMBER2 $$unsorted) (NUMBER1 $$unsorted)) (let ((_let_1 (= NUMBER NUMBER2))) (let ((_let_2 (= NUMBER NUMBER1))) (=> (= (@ (@ tptp.lMaxFn_THFTYPE_IiiiI NUMBER1) NUMBER2) NUMBER) (or (and _let_2 (@ (@ tptp.gt_THFTYPE_IiioI NUMBER1) NUMBER2)) (and _let_1 (@ (@ tptp.gt_THFTYPE_IiioI NUMBER2) NUMBER1)) (and _let_2 _let_1)))))) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lClothing_THFTYPE_i) tptp.lStationaryArtifact_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFunctionQuantity_THFTYPE_i) tptp.lPhysicalQuantity_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInformationMeasure_THFTYPE_i) tptp.lConstantQuantity_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBorrowing_THFTYPE_i) tptp.lGetting_THFTYPE_i) (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lUnilluminated_THFTYPE_i) tptp.lIlluminated_THFTYPE_i) (@ (@ (@ (@ tptp.disjointDecomposition_THFTYPE_IiiiioI tptp.lColdBloodedVertebrate_THFTYPE_i) tptp.lAmphibian_THFTYPE_i) tptp.lFish_THFTYPE_i) tptp.lReptile_THFTYPE_i) (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lGraphPathFn_THFTYPE_i) tptp.lGraphPath_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRegion_THFTYPE_i) tptp.lObject_THFTYPE_i) (forall ((TIME $$unsorted) (ORG $$unsorted)) (let ((_let_1 (@ tptp.holdsDuring_THFTYPE_IiooI TIME))) (=> (@ _let_1 (@ (@ tptp.attribute_THFTYPE_IiioI ORG) tptp.lEmbryonic_THFTYPE_i)) (@ _let_1 (not (exists ((BIRTH $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI BIRTH) tptp.lBirth_THFTYPE_i) (@ (@ tptp.experiencer_THFTYPE_IiioI BIRTH) ORG)))))))) (forall ((ENTITY $$unsorted)) (let ((_let_1 (@ tptp.property_THFTYPE_IiioI ENTITY))) (=> (@ _let_1 tptp.lPromise_THFTYPE_i) (or (@ _let_1 tptp.lContract_THFTYPE_i) (@ _let_1 tptp.lNakedPromise_THFTYPE_i))))) (forall ((ROW $$unsorted) (ITEM $$unsorted)) (= (@ tptp.lListLengthFn_THFTYPE_IiiI (@ (@ tptp.lListFn_THFTYPE_IiiiI ROW) ITEM)) (@ tptp.lSuccessorFn_THFTYPE_IiiI (@ tptp.lListLengthFn_THFTYPE_IiiI (@ tptp.lListFn_THFTYPE_IiiI ROW))))) (forall ((GRAPH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI GRAPH) tptp.lGraph_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI (@ tptp.lMinimalCutSetFn_THFTYPE_IiiI GRAPH)) (@ tptp.lCutSetFn_THFTYPE_IiiI GRAPH)))) (@ _let_563 tptp.lIntentionalRelation_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lIngesting_THFTYPE_i) tptp.lOrganismProcess_THFTYPE_i) (forall ((R $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI R) tptp.lCaseRole_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IiIiioIoI R) tptp.involvedInEvent_THFTYPE_IiioI))) (@ (@ tptp.subAttribute_THFTYPE_IiioI tptp.lDead_THFTYPE_i) tptp.lUnconscious_THFTYPE_i) (forall ((OBJ $$unsorted) (ATTR2 $$unsorted) (ATTR1 $$unsorted) (TIME1 $$unsorted)) (=> (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME1) (@ (@ tptp.developmentalForm_THFTYPE_IiioI OBJ) ATTR1)) (@ (@ tptp.successorAttributeClosure_THFTYPE_IiioI ATTR2) ATTR1)) (exists ((TIME2 $$unsorted)) (and (@ (@ tptp.earlier_THFTYPE_IiioI TIME2) TIME1) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME2) (@ (@ tptp.developmentalForm_THFTYPE_IiioI OBJ) ATTR2)))))) (forall ((AGENT $$unsorted) (BIRTH $$unsorted) (DEATH $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DEATH) tptp.lDeath_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI BIRTH) tptp.lBirth_THFTYPE_i) (@ (@ tptp.experiencer_THFTYPE_IiioI DEATH) AGENT) (@ (@ tptp.experiencer_THFTYPE_IiioI BIRTH) AGENT)) (exists ((TIME $$unsorted)) (and (@ (@ tptp.meetsTemporally_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI BIRTH)) TIME) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI TIME) (@ tptp.lWhenFn_THFTYPE_IiiI DEATH)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.attribute_THFTYPE_IiioI AGENT) tptp.lLiving_THFTYPE_i)))))) (forall ((UNIT $$unsorted) (FUNCTION (-> $$unsorted $$unsorted))) (=> (and (@ (@ tptp.instance_THFTYPE_IIiiIioI FUNCTION) tptp.lUnitOfMeasureMultiplier_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lCompositeUnitOfMeasure_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI (@ FUNCTION UNIT)) tptp.lCompositeUnitOfMeasure_THFTYPE_i))) (forall ((ACTION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ACTION) tptp.lCreation_THFTYPE_i) (exists ((RESULT $$unsorted)) (@ (@ tptp.result_THFTYPE_IiioI ACTION) RESULT)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPrimate_THFTYPE_i) tptp.lMammal_THFTYPE_i) (@ (@ (@ (@ (@ (@ (@ tptp.partition_THFTYPE_IiiiiiiioI tptp.lCommunication_THFTYPE_i) tptp.lStating_THFTYPE_i) tptp.lSupposing_THFTYPE_i) tptp.lDirecting_THFTYPE_i) tptp.lCommitting_THFTYPE_i) tptp.lExpressing_THFTYPE_i) tptp.lDeclaring_THFTYPE_i) (forall ((COND $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI COND) tptp.lCondensing_THFTYPE_i) (exists ((COOL $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI COOL) tptp.lCooling_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI COOL) COND))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDisagreeing_THFTYPE_i) tptp.lStating_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnitOfLength_THFTYPE_i) tptp.lNonCompositeUnitOfMeasure_THFTYPE_i) (@ _let_589 tptp.lInheritableRelation_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lSpeedFn_THFTYPE_i) tptp.lFunctionQuantity_THFTYPE_i) (forall ((OBJ $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lFood_THFTYPE_i) (exists ((ATTR $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lTasteAttribute_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) ATTR))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDualObjectProcess_THFTYPE_i) tptp.lProcess_THFTYPE_i) (forall ((GOV $$unsorted) (ORG $$unsorted)) (=> (and (@ (@ tptp.subOrganization_THFTYPE_IiioI ORG) GOV) (@ (@ tptp.instance_THFTYPE_IiioI GOV) tptp.lGovernmentOrganization_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lGovernmentOrganization_THFTYPE_i))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFabric_THFTYPE_i) tptp.lArtifact_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGraduation_THFTYPE_i) tptp.lLeavingAnOrganization_THFTYPE_i) (forall ((MOTHER $$unsorted) (CHILD $$unsorted)) (=> (@ (@ tptp.mother_THFTYPE_IiioI CHILD) MOTHER) (@ (@ tptp.attribute_THFTYPE_IiioI MOTHER) tptp.lFemale_THFTYPE_i))) (@ _let_588 tptp.lRelation_THFTYPE_i) (@ _let_587 tptp.lAgent_THFTYPE_i) (forall ((BUILDING $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI BUILDING) tptp.lBuilding_THFTYPE_i) (exists ((HUMAN $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI HUMAN) tptp.lHuman_THFTYPE_i) (or (@ (@ tptp.inhabits_THFTYPE_IiioI HUMAN) BUILDING) (exists ((ACT $$unsorted)) (and (@ (@ tptp.agent_THFTYPE_IiioI ACT) HUMAN) (@ (@ tptp.located_THFTYPE_IiioI ACT) BUILDING)))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPrimaryColor_THFTYPE_i) tptp.lColorAttribute_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lDensityFn_THFTYPE_i) tptp.lFunctionQuantity_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lIrrationalNumber_THFTYPE_i) tptp.lRealNumber_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNaturalSubstance_THFTYPE_i) tptp.lSubstance_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOrganismProcess_THFTYPE_i) tptp.lPhysiologicProcess_THFTYPE_i) (forall ((HOLE $$unsorted) (OBJ1 $$unsorted)) (=> (@ (@ tptp.completelyFills_THFTYPE_IiioI OBJ1) HOLE) (exists ((OBJ2 $$unsorted)) (and (@ (@ tptp.part_THFTYPE_IiioI OBJ2) OBJ1) (@ (@ tptp.fills_THFTYPE_IiioI OBJ2) HOLE))))) (@ _let_580 tptp.lAgent_THFTYPE_i) (forall ((DEFENSE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DEFENSE) tptp.lDefensiveManeuver_THFTYPE_i) (exists ((CONTEST $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI CONTEST) tptp.lViolentContest_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI DEFENSE) CONTEST))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRemembering_THFTYPE_i) tptp.lPsychologicalProcess_THFTYPE_i) (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lRecurrentTimeIntervalFn_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (forall ((OBJ $$unsorted) (BOIL $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI BOIL) tptp.lBoiling_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI BOIL) OBJ)) (exists ((PART $$unsorted)) (let ((_let_1 (@ tptp.attribute_THFTYPE_IiioI PART))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI BOIL))) (and (@ (@ tptp.part_THFTYPE_IiioI PART) OBJ) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (@ _let_1 tptp.lLiquid_THFTYPE_i)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (@ _let_1 tptp.lGas_THFTYPE_i)))))))) (@ _let_586 tptp.lSingleValuedRelation_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAnimal_THFTYPE_i) tptp.lOrganism_THFTYPE_i) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (= (@ (@ tptp.properPart_THFTYPE_IiioI OBJ1) OBJ2) (and (@ (@ tptp.part_THFTYPE_IiioI OBJ1) OBJ2) (not (@ (@ tptp.part_THFTYPE_IiioI OBJ2) OBJ1))))) (forall ((UNIT $$unsorted) (FUNCTION (-> $$unsorted $$unsorted))) (=> (and (@ (@ tptp.instance_THFTYPE_IIiiIioI FUNCTION) tptp.lUnitOfMeasureMultiplier_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lNonCompositeUnitOfMeasure_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI (@ FUNCTION UNIT)) tptp.lNonCompositeUnitOfMeasure_THFTYPE_i))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnitOfArea_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i) (forall ((COOK $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI COOK) tptp.lCooking_THFTYPE_i) (exists ((FOOD $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI FOOD) tptp.lFood_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI COOK) FOOD))))) (@ _let_585 tptp.lRelation_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFood_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i) (@ _let_584 tptp.lInheritableRelation_THFTYPE_i) (forall ((STATE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI STATE) tptp.lStateOrProvince_THFTYPE_i) (exists ((LAND $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI LAND) tptp.lNation_THFTYPE_i) (@ (@ tptp.properPart_THFTYPE_IiioI STATE) LAND))))) (forall ((FORMULA Bool) (PREDICT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PREDICT) tptp.lPredicting_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiooI PREDICT) FORMULA)) (exists ((TIME $$unsorted)) (let ((_let_1 (@ tptp.lWhenFn_THFTYPE_IiiI PREDICT))) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) FORMULA) (or (@ (@ tptp.before_THFTYPE_IiioI TIME) _let_1) (@ (@ tptp.earlier_THFTYPE_IiioI TIME) _let_1))))))) (forall ((PARTICLE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PARTICLE) tptp.lSubatomicParticle_THFTYPE_i) (exists ((ATOM $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATOM) tptp.lAtom_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI PARTICLE) ATOM))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInserting_THFTYPE_i) tptp.lPutting_THFTYPE_i) (forall ((CLASS $$unsorted) (ENTITY $$unsorted)) (=> (@ (@ tptp.immediateInstance_THFTYPE_IiioI ENTITY) CLASS) (not (exists ((SUBCLASS $$unsorted)) (and (@ (@ tptp.subclass_THFTYPE_IiioI SUBCLASS) CLASS) (not (= SUBCLASS CLASS)) (@ (@ tptp.instance_THFTYPE_IiioI ENTITY) SUBCLASS)))))) (forall ((NUMBER $$unsorted) (NUMBER2 $$unsorted) (NUMBER1 $$unsorted)) (=> (= (@ (@ tptp.lRemainderFn_THFTYPE_IiiiI NUMBER1) NUMBER2) NUMBER) (= (@ tptp.lSignumFn_THFTYPE_IiiI NUMBER2) (@ tptp.lSignumFn_THFTYPE_IiiI NUMBER)))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lMultiplicationFn_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (exists ((THING $$unsorted)) (@ (@ tptp.instance_THFTYPE_IiioI THING) tptp.lEntity_THFTYPE_i)) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOneToOneFunction_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lSignumFn_THFTYPE_i) tptp.lInteger_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGraphPath_THFTYPE_i) tptp.lDirectedGraph_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBuilding_THFTYPE_i) tptp.lStationaryArtifact_THFTYPE_i) (@ _let_583 tptp.lMusic_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInductiveArgument_THFTYPE_i) tptp.lArgument_THFTYPE_i) (@ _let_582 tptp.lReflexiveRelation_THFTYPE_i) (@ _let_581 tptp.lDualObjectProcess_THFTYPE_i) (forall ((AVERAGE $$unsorted) (LIST $$unsorted)) (=> (@ (@ tptp.average_THFTYPE_IiioI LIST) AVERAGE) (forall ((LISTITEM $$unsorted)) (=> (@ (@ tptp.inList_THFTYPE_IiioI LISTITEM) LIST) (@ (@ tptp.instance_THFTYPE_IiioI LISTITEM) tptp.lRealNumber_THFTYPE_i))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSingleAgentProcess_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lSecondFn_THFTYPE_i) tptp.lSecond_THFTYPE_i) (forall ((PHYS $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI PHYS) tptp.lPhysical_THFTYPE_i) (exists ((LOC $$unsorted) (TIME $$unsorted)) (and (@ (@ tptp.located_THFTYPE_IiioI PHYS) LOC) (@ (@ tptp.time_THFTYPE_IiioI PHYS) TIME))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAdjective_THFTYPE_i) tptp.lWord_THFTYPE_i) (forall ((CONNECTION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI CONNECTION) tptp.lEngineeringConnection_THFTYPE_i) (exists ((COMP1 $$unsorted) (COMP2 $$unsorted)) (@ (@ (@ tptp.connectsEngineeringComponents_THFTYPE_IiiioI CONNECTION) COMP1) COMP2)))) (forall ((ATTR2 $$unsorted) (ATTR1 $$unsorted)) (=> (@ (@ tptp.successorAttribute_THFTYPE_IiioI ATTR1) ATTR2) (@ (@ tptp.successorAttributeClosure_THFTYPE_IiioI ATTR1) ATTR2))) (forall ((AGENT $$unsorted) (SELL $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI SELL) tptp.lSelling_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI SELL) AGENT)) (@ (@ tptp.origin_THFTYPE_IiioI SELL) AGENT))) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lCanine_THFTYPE_i) tptp.lFeline_THFTYPE_i) (@ (@ tptp.subAttribute_THFTYPE_IiioI tptp.lNakedPromise_THFTYPE_i) tptp.lPromise_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lResidence_THFTYPE_i) tptp.lStationaryArtifact_THFTYPE_i) (forall ((CHANGE $$unsorted) (OBJ $$unsorted) (AGENT2 $$unsorted) (AGENT1 $$unsorted)) (let ((_let_1 (@ tptp.lWhenFn_THFTYPE_IiiI CHANGE))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI CHANGE) tptp.lChangeOfPossession_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI CHANGE) OBJ) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_1)) (@ (@ tptp.possesses_THFTYPE_IiioI AGENT1) OBJ)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_1)) (@ (@ tptp.possesses_THFTYPE_IiioI AGENT2) OBJ))) (not (= AGENT1 AGENT2))))) (forall ((PROCESS $$unsorted) (AGENT $$unsorted) (DECIDE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DECIDE) tptp.lDeciding_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI DECIDE) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI DECIDE) PROCESS)) (and (@ (@ tptp.instance_THFTYPE_IiioI PROCESS) tptp.lIntentionalProcess_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PROCESS) AGENT)))) (forall ((REL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI REL) tptp.lVariableArityRelation_THFTYPE_i) (not (exists ((INT $$unsorted)) (@ (@ tptp.valence_THFTYPE_IiioI REL) INT))))) (forall ((E3 $$unsorted) (E2 $$unsorted) (ATT $$unsorted) (E1 $$unsorted)) (let ((_let_1 (@ tptp.greaterThanByQuality_THFTYPE_IiiioI E1))) (=> (and (@ (@ _let_1 E2) ATT) (@ (@ (@ tptp.greaterThanByQuality_THFTYPE_IiiioI E2) E3) ATT)) (@ (@ _let_1 E3) ATT)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lColdBloodedVertebrate_THFTYPE_i) tptp.lVertebrate_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNumber_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (forall ((SET $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SET) tptp.lNonNullSet_THFTYPE_i) (exists ((INST $$unsorted)) (@ (@ tptp.instance_THFTYPE_IiioI INST) SET)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lContentDevelopment_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i) (forall ((CLASS $$unsorted) (INTERVAL_TYPE $$unsorted) (INTERVAL $$unsorted)) (=> (= (@ (@ tptp.lTemporalCompositionFn_THFTYPE_IiiiI INTERVAL) INTERVAL_TYPE) CLASS) (forall ((TIME1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TIME1) CLASS) (not (@ (@ tptp.starts_THFTYPE_IiioI TIME1) INTERVAL))) (exists ((TIME2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI TIME2) CLASS) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI TIME2) TIME1))))))) (forall ((OBJ $$unsorted) (HOLE $$unsorted)) (=> (@ (@ tptp.hole_THFTYPE_IiioI HOLE) OBJ) (@ (@ tptp.connected_THFTYPE_IiioI HOLE) OBJ))) (@ (@ tptp.subAttribute_THFTYPE_IiioI tptp.lLarval_THFTYPE_i) tptp.lNonFullyFormed_THFTYPE_i) (forall ((PERSON $$unsorted) (AREA $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI AREA) tptp.lGeopoliticalArea_THFTYPE_i) (@ (@ tptp.leader_THFTYPE_IiioI AREA) PERSON)) (@ (@ tptp.leader_THFTYPE_IiioI (@ tptp.lGovernmentFn_THFTYPE_IiiI AREA)) PERSON))) (forall ((NUMBER $$unsorted)) (= (@ tptp.lSuccessorFn_THFTYPE_IiiI NUMBER) (@ (@ tptp.plus_THFTYPE_IiiiI NUMBER) tptp.n1_THFTYPE_i))) (@ _let_579 tptp.lInheritableRelation_THFTYPE_i) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ tptp.copy_THFTYPE_IiioI OBJ1) OBJ2) (forall ((ATTR $$unsorted)) (=> (@ (@ tptp.attribute_THFTYPE_IiioI OBJ1) ATTR) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ2) ATTR))))) (forall ((REL2 $$unsorted) (NUMBER $$unsorted) (CLASS1 $$unsorted) (REL1 $$unsorted)) (=> (and (@ (@ tptp.subrelation_THFTYPE_IiioI REL1) REL2) (@ (@ (@ tptp.domainSubclass_THFTYPE_IiiioI REL2) NUMBER) CLASS1)) (@ (@ (@ tptp.domainSubclass_THFTYPE_IiiioI REL1) NUMBER) CLASS1))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnitOfMass_THFTYPE_i) tptp.lNonCompositeUnitOfMeasure_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFunding_THFTYPE_i) tptp.lGiving_THFTYPE_i) (@ _let_580 tptp.lCollection_THFTYPE_i) (forall ((SEPARATE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SEPARATE) tptp.lSeparating_THFTYPE_i) (exists ((OBJ $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lSelfConnectedObject_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI SEPARATE) OBJ))))) (forall ((ATTR2 $$unsorted) (ATTR1 $$unsorted)) (=> (@ (@ tptp.subAttribute_THFTYPE_IiioI ATTR1) ATTR2) (forall ((OBJ $$unsorted)) (let ((_let_1 (@ tptp.property_THFTYPE_IiioI OBJ))) (=> (@ _let_1 ATTR1) (@ _let_1 ATTR2)))))) (forall ((BUSINESS $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI BUSINESS) tptp.lCommercialService_THFTYPE_i) (exists ((AGENT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lCommercialAgent_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI BUSINESS) AGENT))))) (forall ((JUNCT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI JUNCT) tptp.lBodyJunction_THFTYPE_i) (exists ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ1) tptp.lBodyPart_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI OBJ2) tptp.lBodyPart_THFTYPE_i) (@ (@ (@ tptp.connects_THFTYPE_IiiioI JUNCT) OBJ1) OBJ2))))) (@ _let_579 tptp.lIntentionalRelation_THFTYPE_i) (forall ((REL (-> $$unsorted $$unsorted Bool)) (ROW $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lTotalValuedRelation_THFTYPE_i) (exists ((VALENCE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lRelation_THFTYPE_i) (@ (@ tptp.valence_THFTYPE_IIiioIioI REL) VALENCE) (=> (forall ((NUMBER $$unsorted) (ELEMENT $$unsorted) (CLASS $$unsorted)) (=> (and (@ (@ tptp.lt_THFTYPE_IiioI NUMBER) VALENCE) (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI REL) NUMBER) CLASS) (= ELEMENT (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI (@ tptp.lListFn_THFTYPE_IiiI ROW)) NUMBER))) (@ (@ tptp.instance_THFTYPE_IiioI ELEMENT) CLASS))) (exists ((ITEM $$unsorted)) (@ (@ REL ROW) ITEM))))))) (forall ((OBJ $$unsorted) (PLACE $$unsorted) (DISCOVER $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DISCOVER) tptp.lDiscovering_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI DISCOVER) OBJ) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI DISCOVER)) (@ (@ tptp.located_THFTYPE_IiioI OBJ) PLACE))) (exists ((LEARN $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI LEARN) tptp.lLearning_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI LEARN) DISCOVER) (@ (@ tptp.patient_THFTYPE_IiooI LEARN) (@ (@ tptp.located_THFTYPE_IiioI OBJ) PLACE)))))) (forall ((NUMBER2 $$unsorted) (FORMULA1 Bool) (NUMBER1 $$unsorted) (FORMULA2 Bool)) (=> (and (@ (@ tptp.increasesLikelihood_THFTYPE_IoooI FORMULA1) FORMULA2) (= (@ tptp.lProbabilityFn_THFTYPE_IoiI FORMULA2) NUMBER1) (@ (@ (@ tptp.conditionalProbability_THFTYPE_IooioI FORMULA1) FORMULA2) NUMBER2)) (@ (@ tptp.gt_THFTYPE_IiioI NUMBER2) NUMBER1))) (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lCutSetFn_THFTYPE_i) tptp.lGraphPath_THFTYPE_i) (forall ((TEXT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI TEXT) tptp.lText_THFTYPE_i) (exists ((PART $$unsorted)) (and (@ (@ tptp.part_THFTYPE_IiioI PART) TEXT) (@ (@ tptp.instance_THFTYPE_IiioI PART) tptp.lLinguisticExpression_THFTYPE_i))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPoking_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i) (forall ((CLASS $$unsorted) (RELATION (-> $$unsorted $$unsorted Bool))) (let ((_let_1 (@ tptp.instance_THFTYPE_IIiioIioI RELATION))) (=> (@ (@ tptp.equivalenceRelationOn_THFTYPE_IIiioIioI RELATION) CLASS) (and (@ _let_1 tptp.lTransitiveRelation_THFTYPE_i) (@ _let_1 tptp.lSymmetricRelation_THFTYPE_i) (@ (@ tptp.reflexiveOn_THFTYPE_IIiioIioI RELATION) CLASS))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSymmetricRelation_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWar_THFTYPE_i) tptp.lViolentContest_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSubjectiveAssessmentAttribute_THFTYPE_i) tptp.lNormativeAttribute_THFTYPE_i) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lPoundForce_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n4dot448222_THFTYPE_i)) tptp.lNewton_THFTYPE_i)))) (forall ((LIST $$unsorted)) (= (= LIST tptp.lNullList_THFTYPE_i) (and (@ (@ tptp.instance_THFTYPE_IiioI LIST) tptp.lList_THFTYPE_i) (not (exists ((ITEM $$unsorted)) (@ (@ tptp.inList_THFTYPE_IiioI ITEM) LIST)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInterpreting_THFTYPE_i) tptp.lIntentionalPsychologicalProcess_THFTYPE_i) (forall ((CLASS $$unsorted) (ROW $$unsorted)) (=> (@ (@ tptp.disjointDecomposition_THFTYPE_IiioI CLASS) ROW) (forall ((ITEM1 $$unsorted) (ITEM2 $$unsorted)) (let ((_let_1 (@ tptp.lListFn_THFTYPE_IiiI ROW))) (=> (and (@ (@ tptp.inList_THFTYPE_IiioI ITEM1) _let_1) (@ (@ tptp.inList_THFTYPE_IiioI ITEM2) _let_1) (not (= ITEM1 ITEM2))) (@ (@ tptp.disjoint_THFTYPE_IiioI ITEM1) ITEM2)))))) (forall ((MONTH1 $$unsorted) (MONTH2 $$unsorted) (YEAR $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MONTH1) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lOctober_THFTYPE_i) YEAR)) (@ (@ tptp.instance_THFTYPE_IiioI MONTH2) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lNovember_THFTYPE_i) YEAR))) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI MONTH1) MONTH2))) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lSeparating_THFTYPE_i) tptp.lCombining_THFTYPE_i) (forall ((VOCAL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI VOCAL) tptp.lVocalizing_THFTYPE_i) (exists ((HUMAN $$unsorted) (VC $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI HUMAN) tptp.lHuman_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI VC) tptp.lVocalCords_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI VC) HUMAN) (@ (@ tptp.agent_THFTYPE_IiioI VOCAL) HUMAN) (@ (@ tptp.instrument_THFTYPE_IiioI VOCAL) VC))))) (forall ((REL (-> $$unsorted $$unsorted Bool))) (=> (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lSingleValuedRelation_THFTYPE_i) (forall ((ROW $$unsorted) (ITEM1 $$unsorted) (ITEM2 $$unsorted)) (let ((_let_1 (@ REL ROW))) (=> (and (@ _let_1 ITEM1) (@ _let_1 ITEM2)) (= ITEM1 ITEM2)))))) (forall ((QUANT $$unsorted) (UNIT $$unsorted) (N $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI QUANT))) (=> (and (@ _let_1 (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI N) UNIT)) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lNonCompositeUnitOfMeasure_THFTYPE_i)) (@ _let_1 tptp.lConstantQuantity_THFTYPE_i)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTwoDimensionalAngle_THFTYPE_i) tptp.lOpenTwoDimensionalFigure_THFTYPE_i) (forall ((X $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI X) tptp.lNegativeInteger_THFTYPE_i) (@ (@ tptp.gt_THFTYPE_IiioI tptp.n0_THFTYPE_i) X))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMetal_THFTYPE_i) tptp.lElementalSubstance_THFTYPE_i) (forall ((OBJ $$unsorted)) (=> (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) tptp.lFullyFormed_THFTYPE_i) (exists ((GROWTH $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI GROWTH) tptp.lGrowth_THFTYPE_i) (@ (@ tptp.experiencer_THFTYPE_IiioI GROWTH) OBJ) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI OBJ))) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) tptp.lNonFullyFormed_THFTYPE_i)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMultiGraph_THFTYPE_i) tptp.lGraph_THFTYPE_i) (forall ((ATTR $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lPsychologicalAttribute_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI AGENT) ATTR)) (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lSentientAgent_THFTYPE_i))) (forall ((ATTACH $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (let ((_let_1 (@ (@ tptp.connected_THFTYPE_IiioI OBJ1) OBJ2))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI ATTACH))) (let ((_let_3 (@ tptp.patient_THFTYPE_IiioI ATTACH))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ATTACH) tptp.lAttaching_THFTYPE_i) (@ _let_3 OBJ1) (@ _let_3 OBJ2)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (not _let_1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) _let_1))))))) (forall ((ROOM $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ROOM) tptp.lRoom_THFTYPE_i) (exists ((BUILD $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI BUILD) tptp.lBuilding_THFTYPE_i) (@ (@ tptp.properPart_THFTYPE_IiioI ROOM) BUILD))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPrimeNumber_THFTYPE_i) tptp.lInteger_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lElementalSubstance_THFTYPE_i) tptp.lPureSubstance_THFTYPE_i) (@ _let_538 tptp.lChangeOfPossession_THFTYPE_i) (forall ((NUMBER2 $$unsorted) (MONTH $$unsorted) (DAY1 $$unsorted) (DAY2 $$unsorted) (NUMBER1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DAY1) (@ (@ tptp.lDayFn_THFTYPE_IiiiI NUMBER1) MONTH)) (@ (@ tptp.instance_THFTYPE_IiioI DAY2) (@ (@ tptp.lDayFn_THFTYPE_IiiiI NUMBER2) MONTH)) (= (@ (@ tptp.minus_THFTYPE_IiiiI NUMBER2) NUMBER1) tptp.n1_THFTYPE_i)) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI DAY1) DAY2))) (@ _let_578 tptp.lInheritableRelation_THFTYPE_i) (forall ((OBJ $$unsorted) (COND $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI COND) tptp.lCondensing_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI COND) OBJ)) (exists ((PART $$unsorted)) (let ((_let_1 (@ tptp.attribute_THFTYPE_IiioI PART))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI COND))) (and (@ (@ tptp.part_THFTYPE_IiioI PART) OBJ) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (@ _let_1 tptp.lGas_THFTYPE_i)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (@ _let_1 tptp.lLiquid_THFTYPE_i)))))))) (@ _let_577 tptp.lPsychologicalProcess_THFTYPE_i) (forall ((ORG $$unsorted) (GRAD $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI GRAD) tptp.lGraduation_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI GRAD) ORG)) (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lEducationalOrganization_THFTYPE_i))) (forall ((PART $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PART) tptp.lGraphElement_THFTYPE_i) (exists ((GRAPH $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI GRAPH) tptp.lGraph_THFTYPE_i) (@ (@ tptp.graphPart_THFTYPE_IiioI PART) GRAPH))))) (forall ((STRUCTURE $$unsorted) (PLANT $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI PLANT))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI STRUCTURE) tptp.lPlantAnatomicalStructure_THFTYPE_i) (@ _let_1 tptp.lOrganism_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI STRUCTURE) PLANT)) (@ _let_1 tptp.lPlant_THFTYPE_i)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGovernment_THFTYPE_i) tptp.lGovernmentOrganization_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAbnormalAnatomicalStructure_THFTYPE_i) tptp.lAnatomicalStructure_THFTYPE_i) (forall ((POINT2 $$unsorted) (POINT1 $$unsorted) (INTERVAL $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI POINT1) tptp.lTimePoint_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI POINT2) tptp.lTimePoint_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL) tptp.lTimeInterval_THFTYPE_i) (= (@ (@ tptp.lTimeIntervalFn_THFTYPE_IiiiI POINT1) POINT2) INTERVAL)) (and (= (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL) POINT1) (= (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL) POINT2)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPhrase_THFTYPE_i) tptp.lLinguisticExpression_THFTYPE_i) (forall ((PROCESS $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PROCESS) tptp.lDualObjectProcess_THFTYPE_i) (exists ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (let ((_let_1 (@ tptp.patient_THFTYPE_IiioI PROCESS))) (and (@ _let_1 OBJ1) (@ _let_1 OBJ2) (not (= OBJ1 OBJ2))))))) (@ _let_576 tptp.lCommercialAgent_THFTYPE_i) (forall ((AGENT $$unsorted) (PROC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lIntentionalProcess_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PROC) AGENT)) (exists ((PURP Bool)) (@ (@ (@ tptp.hasPurposeForAgent_THFTYPE_IioioI PROC) PURP) AGENT)))) (forall ((NUMBER $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI NUMBER))) (= (@ _let_1 tptp.lNegativeRealNumber_THFTYPE_i) (and (@ (@ tptp.lt_THFTYPE_IiioI NUMBER) tptp.n0_THFTYPE_i) (@ _let_1 tptp.lRealNumber_THFTYPE_i))))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lInitialNodeFn_THFTYPE_i) tptp.lGraphNode_THFTYPE_i) (forall ((WEAPON $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI WEAPON) tptp.lWeapon_THFTYPE_i) (@ (@ tptp.hasPurpose_THFTYPE_IiooI WEAPON) (exists ((D $$unsorted) (PATIENT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI D) tptp.lDamaging_THFTYPE_i) (@ (@ tptp.instrument_THFTYPE_IiioI D) WEAPON) (@ (@ tptp.patient_THFTYPE_IiioI D) PATIENT)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDirectedGraph_THFTYPE_i) tptp.lGraph_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRealNumber_THFTYPE_i) tptp.lNumber_THFTYPE_i) (forall ((ATTR2 $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted) (ATTR1 $$unsorted)) (let ((_let_1 (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2))) (=> (and (@ _let_1 ATTR1) (@ (@ tptp.instance_THFTYPE_IiioI ATTR1) tptp.lDirectionalAttribute_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI ATTR2) tptp.lDirectionalAttribute_THFTYPE_i) (not (= ATTR1 ATTR2))) (not (@ _let_1 ATTR2))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLegalAction_THFTYPE_i) tptp.lContest_THFTYPE_i) (@ _let_546 tptp.lInheritableRelation_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGovernmentOrganization_THFTYPE_i) tptp.lOrganization_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRadiatingInfrared_THFTYPE_i) tptp.lRadiatingElectromagnetic_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAutonomicProcess_THFTYPE_i) tptp.lPhysiologicProcess_THFTYPE_i) (forall ((ROW $$unsorted)) (= (@ tptp.partition_THFTYPE_IioI ROW) (and (@ tptp.exhaustiveDecomposition_THFTYPE_IioI ROW) (@ tptp.disjointDecomposition_THFTYPE_IioI ROW)))) (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lLiquidMixture_THFTYPE_i) tptp.lSolution_THFTYPE_i) tptp.lSuspension_THFTYPE_i) (forall ((TIME2 $$unsorted) (TIME1 $$unsorted)) (=> (= (@ (@ tptp.lRelativeTimeFn_THFTYPE_IiiiI TIME1) tptp.lCentralTimeZone_THFTYPE_i) TIME2) (= TIME2 (@ (@ tptp.plus_THFTYPE_IiiiI TIME1) tptp.n6_THFTYPE_i)))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lMegaFn_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBodyCavity_THFTYPE_i) tptp.lBodyPart_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lHunting_THFTYPE_i) tptp.lPursuing_THFTYPE_i) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (@ (@ tptp.gtet_THFTYPE_IiioI (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lMonthDuration_THFTYPE_i)) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n28_THFTYPE_i)) tptp.lDayDuration_THFTYPE_i)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMonth_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (forall ((FORMULA Bool) (COMMIT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI COMMIT) tptp.lCommitting_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiooI COMMIT) FORMULA) (@ (@ tptp.instance_THFTYPE_IoioI FORMULA) tptp.lFormula_THFTYPE_i)) (@ (@ tptp.modalAttribute_THFTYPE_IoioI FORMULA) tptp.lPromise_THFTYPE_i))) (forall ((MOVEMENT $$unsorted) (PLACE1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MOVEMENT) tptp.lTranslocation_THFTYPE_i) (@ (@ tptp.origin_THFTYPE_IiioI MOVEMENT) PLACE1)) (exists ((PLACE2 $$unsorted) (STAGE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PLACE2) tptp.lRegion_THFTYPE_i) (not (= PLACE1 PLACE2)) (@ (@ tptp.subProcess_THFTYPE_IiioI STAGE) MOVEMENT) (@ (@ tptp.located_THFTYPE_IiioI STAGE) PLACE2))))) (forall ((GRAPH $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI GRAPH) tptp.lMultiGraph_THFTYPE_i) (exists ((ARC1 $$unsorted) (ARC2 $$unsorted) (NODE1 $$unsorted) (NODE2 $$unsorted)) (let ((_let_1 (@ (@ tptp.links_THFTYPE_IiiioI NODE1) NODE2))) (and (@ (@ tptp.graphPart_THFTYPE_IiioI ARC1) GRAPH) (@ (@ tptp.graphPart_THFTYPE_IiioI ARC2) GRAPH) (@ (@ tptp.graphPart_THFTYPE_IiioI NODE1) GRAPH) (@ (@ tptp.graphPart_THFTYPE_IiioI NODE2) GRAPH) (@ _let_1 ARC1) (@ _let_1 ARC2) (not (= ARC1 ARC2))))))) (forall ((NUMBER $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI NUMBER) tptp.lComplexNumber_THFTYPE_i) (exists ((REAL1 $$unsorted) (REAL2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI REAL1) tptp.lRealNumber_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI REAL2) tptp.lRealNumber_THFTYPE_i) (= NUMBER (@ (@ tptp.plus_THFTYPE_IiiiI REAL1) (@ (@ tptp.times_THFTYPE_IiiiI REAL2) (@ tptp.lSquareRootFn_THFTYPE_IiiI tptp.minus1_THFTYPE_i)))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTree_THFTYPE_i) tptp.lGraph_THFTYPE_i) (@ _let_575 tptp.lAnimalSubstance_THFTYPE_i) (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lArgument_THFTYPE_i) tptp.lDeductiveArgument_THFTYPE_i) tptp.lInductiveArgument_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lTerminalNodeFn_THFTYPE_i) tptp.lGraphNode_THFTYPE_i) (forall ((TACTILE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI TACTILE) tptp.lTactilePerception_THFTYPE_i) (exists ((TOUCH $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI TOUCH) tptp.lTouching_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI TOUCH) TACTILE))))) (@ _let_574 tptp.lFunction_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lGeneralizedUnionFn_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (forall ((REL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI REL) tptp.lQuintaryPredicate_THFTYPE_i) (@ (@ tptp.valence_THFTYPE_IiioI REL) tptp.n5_THFTYPE_i))) (forall ((ATTR2 $$unsorted) (ENTITY $$unsorted) (TIME1 $$unsorted) (ATTR1 $$unsorted)) (=> (and (@ (@ tptp.successorAttribute_THFTYPE_IiioI ATTR1) ATTR2) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME1) (@ (@ tptp.property_THFTYPE_IiioI ENTITY) ATTR2))) (exists ((TIME2 $$unsorted)) (and (@ (@ tptp.temporalPart_THFTYPE_IiioI TIME2) (@ tptp.lPastFn_THFTYPE_IiiI TIME1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME2) (@ (@ tptp.property_THFTYPE_IiioI ENTITY) ATTR1)))))) (forall ((HOLE $$unsorted) (OBJ1 $$unsorted)) (=> (@ (@ tptp.completelyFills_THFTYPE_IiioI OBJ1) HOLE) (forall ((OBJ2 $$unsorted)) (let ((_let_1 (@ tptp.connected_THFTYPE_IiioI OBJ2))) (=> (@ _let_1 HOLE) (@ _let_1 OBJ1)))))) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lNonFloweringPlant_THFTYPE_i) tptp.lFloweringPlant_THFTYPE_i) (forall ((PROC1 $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PROC1) tptp.lProcess_THFTYPE_i) (exists ((PROC2 $$unsorted)) (@ (@ tptp.causes_THFTYPE_IiioI PROC2) PROC1)))) (forall ((Y1 $$unsorted) (MONTH1 $$unsorted) (MONTH2 $$unsorted) (YEAR2 $$unsorted) (Y2 $$unsorted) (YEAR1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MONTH1) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lDecember_THFTYPE_i) YEAR1)) (@ (@ tptp.instance_THFTYPE_IiioI MONTH2) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lJanuary_THFTYPE_i) YEAR2)) (@ (@ tptp.instance_THFTYPE_IiioI Y1) YEAR1) (@ (@ tptp.instance_THFTYPE_IiioI Y2) YEAR2) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI Y1) Y2)) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI MONTH1) MONTH2))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMarsupial_THFTYPE_i) tptp.lMammal_THFTYPE_i) (@ _let_573 tptp.lOrganismProcess_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lObject_THFTYPE_i) tptp.lPhysical_THFTYPE_i) (forall ((AREA $$unsorted) (ISLE $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI AREA))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ISLE) tptp.lIsland_THFTYPE_i) (@ _let_1 tptp.lGeographicArea_THFTYPE_i) (@ (@ tptp.meetsSpatially_THFTYPE_IiioI ISLE) AREA)) (not (@ _let_1 tptp.lLandArea_THFTYPE_i))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAsexualReproduction_THFTYPE_i) tptp.lReplication_THFTYPE_i) (forall ((TRANS $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI TRANS) tptp.lFinancialTransaction_THFTYPE_i) (exists ((OBJ $$unsorted)) (and (@ (@ tptp.patient_THFTYPE_IiioI TRANS) OBJ) (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lCurrency_THFTYPE_i))))) (@ (@ tptp.subAttribute_THFTYPE_IiioI tptp.lGas_THFTYPE_i) tptp.lFluid_THFTYPE_i) (forall ((CLASS $$unsorted) (INTERVAL_TYPE $$unsorted) (INTERVAL $$unsorted)) (=> (= (@ (@ tptp.lTemporalCompositionFn_THFTYPE_IiiiI INTERVAL) INTERVAL_TYPE) CLASS) (forall ((TIME $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TIME) tptp.lTimePoint_THFTYPE_i) (@ (@ tptp.temporalPart_THFTYPE_IiioI TIME) INTERVAL)) (exists ((INSTANCE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI INSTANCE) CLASS) (@ (@ tptp.temporalPart_THFTYPE_IiioI TIME) INSTANCE))))))) (forall ((YEAR2 $$unsorted) (YEAR1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI YEAR1) tptp.lYear_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI YEAR2) tptp.lYear_THFTYPE_i) (= (@ (@ tptp.minus_THFTYPE_IiiiI YEAR2) YEAR1) tptp.n1_THFTYPE_i)) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI YEAR1) YEAR2))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lBackFn_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i) (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lHuman_THFTYPE_i) tptp.lMan_THFTYPE_i) tptp.lWoman_THFTYPE_i) (forall ((SMOKE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SMOKE) tptp.lSmoke_THFTYPE_i) (exists ((BURNING $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI BURNING) tptp.lCombustion_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI BURNING) SMOKE))))) (forall ((FORMULA Bool)) (= (@ (@ tptp.modalAttribute_THFTYPE_IoioI FORMULA) tptp.lNecessity_THFTYPE_i) (not (@ (@ tptp.modalAttribute_THFTYPE_IoioI (not FORMULA)) tptp.lPossibility_THFTYPE_i)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lHoofedMammal_THFTYPE_i) tptp.lMammal_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lTangentFn_THFTYPE_i) tptp.lRealNumber_THFTYPE_i) (forall ((FORMULA Bool) (AGENT $$unsorted)) (=> (@ (@ tptp.knows_THFTYPE_IiooI AGENT) FORMULA) (@ (@ tptp.believes_THFTYPE_IiooI AGENT) FORMULA))) (forall ((CBO1 $$unsorted) (CBO2 $$unsorted) (PUB1 $$unsorted) (PUB2 $$unsorted) (VOLUME2 $$unsorted) (INT2 $$unsorted) (VOLUME1 $$unsorted) (DATE2 $$unsorted) (INT1 $$unsorted) (DATE1 $$unsorted) (TEXT $$unsorted)) (let ((_let_1 (@ tptp.lSeriesVolumeFn_THFTYPE_IiiiI TEXT))) (=> (and (@ (@ tptp.subclass_THFTYPE_IiioI TEXT) tptp.lPeriodical_THFTYPE_i) (= (@ _let_1 INT1) VOLUME1) (= (@ _let_1 INT2) VOLUME2) (@ (@ tptp.gt_THFTYPE_IiioI INT2) INT1) (@ (@ tptp.instance_THFTYPE_IiioI PUB1) tptp.lPublication_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI PUB2) tptp.lPublication_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI CBO1) VOLUME1) (@ (@ tptp.instance_THFTYPE_IiioI CBO2) VOLUME2) (@ (@ tptp.patient_THFTYPE_IiioI PUB1) CBO1) (@ (@ tptp.patient_THFTYPE_IiioI PUB2) CBO2) (@ (@ tptp.date_THFTYPE_IiioI PUB1) DATE1) (@ (@ tptp.date_THFTYPE_IiioI PUB2) DATE2)) (@ (@ tptp.before_THFTYPE_IiioI (@ tptp.lEndFn_THFTYPE_IiiI DATE1)) (@ tptp.lEndFn_THFTYPE_IiiI DATE2))))) (forall ((THING2 $$unsorted) (THING1 $$unsorted)) (=> (= THING1 THING2) (forall ((CLASS $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI THING1) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI THING2) CLASS))))) (@ (@ tptp.trichotomizingOn_THFTYPE_IIiioIioI tptp.lessThan_THFTYPE_IiioI) tptp.lRealNumber_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lIrreflexiveRelation_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i) (forall ((SUBPROC $$unsorted) (PROC $$unsorted)) (=> (@ (@ tptp.subProcess_THFTYPE_IiioI SUBPROC) PROC) (@ (@ tptp.temporalPart_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI SUBPROC)) (@ tptp.lWhenFn_THFTYPE_IiiI PROC)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLending_THFTYPE_i) tptp.lGiving_THFTYPE_i) (forall ((SUBSET $$unsorted) (SET $$unsorted)) (=> (@ (@ tptp.subset_THFTYPE_IiioI SUBSET) SET) (forall ((ELEMENT $$unsorted)) (let ((_let_1 (@ tptp.element_THFTYPE_IiioI ELEMENT))) (=> (@ _let_1 SUBSET) (@ _let_1 SET)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSeptember_THFTYPE_i) tptp.lMonth_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMonday_THFTYPE_i) tptp.lDay_THFTYPE_i) (forall ((OBJ $$unsorted) (DRY $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DRY) tptp.lDrying_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI DRY) OBJ)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI DRY))) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) tptp.lDry_THFTYPE_i)))) (forall ((SUB $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SUB) tptp.lSubstituting_THFTYPE_i) (exists ((PUT $$unsorted) (REMOVE $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted) (PLACE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PUT) tptp.lPutting_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI REMOVE) tptp.lRemoving_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI PUT) SUB) (@ (@ tptp.subProcess_THFTYPE_IiioI REMOVE) SUB) (@ (@ tptp.patient_THFTYPE_IiioI REMOVE) OBJ1) (@ (@ tptp.origin_THFTYPE_IiioI REMOVE) PLACE) (@ (@ tptp.patient_THFTYPE_IiioI PUT) OBJ2) (@ (@ tptp.destination_THFTYPE_IiioI PUT) PLACE) (not (= OBJ1 OBJ2)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPlant_THFTYPE_i) tptp.lOrganism_THFTYPE_i) (forall ((STUFF $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI STUFF) tptp.lTissue_THFTYPE_i) (exists ((PART $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PART) tptp.lCell_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI PART) STUFF))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSummary_THFTYPE_i) tptp.lText_THFTYPE_i) (@ _let_572 tptp.lWaterArea_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lContinent_THFTYPE_i) tptp.lLandArea_THFTYPE_i) (forall ((BATTLE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI BATTLE) tptp.lBattle_THFTYPE_i) (exists ((ATTACK $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTACK) tptp.lViolentContest_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI ATTACK) BATTLE))))) (forall ((SET $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SET) tptp.lFiniteSet_THFTYPE_i) (exists ((NUMBER $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI NUMBER) tptp.lNonnegativeInteger_THFTYPE_i) (= NUMBER (@ tptp.lCardinalityFn_THFTYPE_IiiI SET)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCloud_THFTYPE_i) tptp.lGasMixture_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lShoreArea_THFTYPE_i) tptp.lLandArea_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLiquidMotion_THFTYPE_i) tptp.lMotion_THFTYPE_i) (@ (@ (@ (@ tptp.disjointDecomposition_THFTYPE_IiiiioI tptp.lLanguage_THFTYPE_i) tptp.lAnimalLanguage_THFTYPE_i) tptp.lHumanLanguage_THFTYPE_i) tptp.lComputerLanguage_THFTYPE_i) (forall ((NUMBER2 $$unsorted) (NUMBER1 $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI NUMBER1))) (= (and (= (@ tptp.lAbsoluteValueFn_THFTYPE_IiiI NUMBER1) NUMBER2) (@ _let_1 tptp.lRealNumber_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI NUMBER2) tptp.lRealNumber_THFTYPE_i)) (or (and (@ _let_1 tptp.lNonnegativeRealNumber_THFTYPE_i) (= NUMBER1 NUMBER2)) (and (@ _let_1 tptp.lNegativeRealNumber_THFTYPE_i) (= NUMBER2 (@ (@ tptp.minus_THFTYPE_IiiiI tptp.n0_THFTYPE_i) NUMBER1))))))) (forall ((PROCESS $$unsorted) (PROP Bool)) (=> (@ (@ tptp.realization_THFTYPE_IiooI PROCESS) PROP) (exists ((OBJ $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lContentBearingObject_THFTYPE_i) (@ (@ tptp.containsInformation_THFTYPE_IiooI OBJ) PROP))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lIncreasing_THFTYPE_i) tptp.lQuantityChange_THFTYPE_i) (forall ((NUCLEUS $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI NUCLEUS) tptp.lAtomicNucleus_THFTYPE_i) (exists ((NEUTRON $$unsorted) (PROTON $$unsorted)) (and (@ (@ tptp.component_THFTYPE_IiioI NEUTRON) NUCLEUS) (@ (@ tptp.component_THFTYPE_IiioI PROTON) NUCLEUS) (@ (@ tptp.instance_THFTYPE_IiioI NEUTRON) tptp.lNeutron_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI PROTON) tptp.lProton_THFTYPE_i))))) (forall ((SET $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SET) tptp.lNullSet_THFTYPE_i) (not (exists ((INST $$unsorted)) (@ (@ tptp.instance_THFTYPE_IiioI INST) SET))))) (@ _let_565 tptp.lHearing_THFTYPE_i) (forall ((PERSON $$unsorted) (LEAVE $$unsorted) (ORG $$unsorted)) (let ((_let_1 (@ (@ tptp.member_THFTYPE_IiioI PERSON) ORG))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI LEAVE))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI LEAVE) tptp.lLeavingAnOrganization_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lOrganization_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI LEAVE) PERSON) (@ (@ tptp.patient_THFTYPE_IiioI LEAVE) ORG)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) _let_1) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (not _let_1))))))) (forall ((POL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI POL) tptp.lPoliticalOrganization_THFTYPE_i) (exists ((PROC $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lPoliticalProcess_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PROC) POL))))) (forall ((CLASS $$unsorted) (FUNCTION $$unsorted)) (=> (and (@ (@ tptp.closedOn_THFTYPE_IiioI FUNCTION) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI FUNCTION) tptp.lUnaryFunction_THFTYPE_i)) (forall ((INST $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INST) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI (@ (@ tptp.lAssignmentFn_THFTYPE_IiiiI FUNCTION) INST)) CLASS))))) (forall ((OBJECT $$unsorted) (AGENT2 $$unsorted) (AGENT1 $$unsorted)) (= (exists ((BUY $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI BUY) tptp.lBuying_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI BUY) AGENT1) (@ (@ tptp.origin_THFTYPE_IiioI BUY) AGENT2) (@ (@ tptp.patient_THFTYPE_IiioI BUY) OBJECT))) (exists ((SELL $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI SELL) tptp.lSelling_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI SELL) AGENT2) (@ (@ tptp.destination_THFTYPE_IiioI SELL) AGENT1) (@ (@ tptp.patient_THFTYPE_IiioI SELL) OBJECT))))) (forall ((OBJ $$unsorted) (MOTION $$unsorted) (PLACE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MOTION) tptp.lMotion_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI MOTION) OBJ) (@ (@ tptp.origin_THFTYPE_IiioI MOTION) PLACE)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI MOTION))) (@ (@ tptp.located_THFTYPE_IiioI OBJ) PLACE)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lContestAttribute_THFTYPE_i) tptp.lObjectiveNorm_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWednesday_THFTYPE_i) tptp.lDay_THFTYPE_i) (forall ((CURRENCY $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI CURRENCY) tptp.lCurrency_THFTYPE_i) (exists ((MEASURE $$unsorted)) (@ (@ tptp.monetaryValue_THFTYPE_IiioI CURRENCY) MEASURE)))) (forall ((CONTENT $$unsorted) (INTERPRET $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI INTERPRET) tptp.lInterpreting_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI INTERPRET) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI INTERPRET) CONTENT) (@ (@ tptp.instance_THFTYPE_IiioI CONTENT) tptp.lContentBearingObject_THFTYPE_i)) (exists ((PROP Bool)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI INTERPRET))) (@ (@ tptp.believes_THFTYPE_IiooI AGENT) (@ (@ tptp.containsInformation_THFTYPE_IiooI CONTENT) PROP)))))) (forall ((ORG $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lMercantileOrganization_THFTYPE_i) (@ tptp.hasPurpose_THFTYPE_IooI (exists ((SELL $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI SELL))) (and (@ _let_1 tptp.lSelling_THFTYPE_i) (@ _let_1 tptp.lCommercialService_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI SELL) ORG))))))) (forall ((PURPOSE Bool) (THING $$unsorted)) (=> (@ (@ tptp.hasPurpose_THFTYPE_IiooI THING) PURPOSE) (exists ((AGENT $$unsorted)) (@ (@ (@ tptp.hasPurposeForAgent_THFTYPE_IioioI THING) PURPOSE) AGENT)))) (forall ((PICOUNIT $$unsorted) (UNIT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfMeasure_THFTYPE_i) (= PICOUNIT (@ tptp.lPicoFn_THFTYPE_IiiI UNIT))) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1_THFTYPE_i) PICOUNIT) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n0dot000000000001_THFTYPE_i) UNIT)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPermanentResidence_THFTYPE_i) tptp.lResidence_THFTYPE_i) (forall ((CLASS $$unsorted) (ATTRIBUTE $$unsorted)) (= (= (@ tptp.lExtensionFn_THFTYPE_IiiI ATTRIBUTE) CLASS) (= (@ tptp.lAbstractionFn_THFTYPE_IiiI CLASS) ATTRIBUTE))) (forall ((QUANT $$unsorted) (UNIT $$unsorted) (N $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI QUANT))) (=> (and (@ _let_1 (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI N) UNIT)) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lCompositeUnitOfMeasure_THFTYPE_i)) (@ _let_1 tptp.lFunctionQuantity_THFTYPE_i)))) (@ (@ tptp.successorAttribute_THFTYPE_IiioI tptp.lNonFullyFormed_THFTYPE_i) tptp.lFullyFormed_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMinute_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (forall ((GIGAUNIT $$unsorted) (UNIT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfMeasure_THFTYPE_i) (= GIGAUNIT (@ tptp.lGigaFn_THFTYPE_IiiI UNIT))) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1_THFTYPE_i) GIGAUNIT) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1000000000_THFTYPE_i) UNIT)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTimePoint_THFTYPE_i) tptp.lTimePosition_THFTYPE_i) (forall ((TEMP2 $$unsorted) (TEMP1 $$unsorted) (TIME $$unsorted) (BOIL $$unsorted) (TEMP3 $$unsorted) (SUBSTANCE $$unsorted) (TYPE $$unsorted) (MEASURE $$unsorted)) (let ((_let_1 (@ tptp.holdsDuring_THFTYPE_IiooI TIME))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE) TYPE) (@ (@ tptp.boilingPoint_THFTYPE_IiioI TYPE) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI TEMP1) MEASURE)) (@ (@ tptp.meltingPoint_THFTYPE_IiioI TYPE) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI TEMP2) MEASURE)) (@ (@ tptp.instance_THFTYPE_IiioI MEASURE) tptp.lUnitOfTemperature_THFTYPE_i) (@ _let_1 (@ (@ tptp.measure_THFTYPE_IiioI SUBSTANCE) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI TEMP3) MEASURE))) (@ (@ tptp.gt_THFTYPE_IiioI TEMP3) TEMP2) (@ (@ tptp.lt_THFTYPE_IiioI TEMP3) TEMP1)) (or (@ _let_1 (@ (@ tptp.attribute_THFTYPE_IiioI SUBSTANCE) tptp.lLiquid_THFTYPE_i)) (exists ((MELT $$unsorted)) (and (@ (@ tptp.overlapsTemporally_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI MELT)) TIME) (@ (@ tptp.instance_THFTYPE_IiioI MELT) tptp.lMelting_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI BOIL) SUBSTANCE))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lHour_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lChemicalProcess_THFTYPE_i) tptp.lChemicalSynthesis_THFTYPE_i) tptp.lChemicalDecomposition_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBiologicallyActiveSubstance_THFTYPE_i) tptp.lSubstance_THFTYPE_i) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lSubjectiveAssessmentAttribute_THFTYPE_i) tptp.lObjectiveNorm_THFTYPE_i) (forall ((OBJ $$unsorted) (PART $$unsorted) (ATTR $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lSubstance_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) ATTR) (@ (@ tptp.part_THFTYPE_IiioI PART) OBJ)) (@ (@ tptp.attribute_THFTYPE_IiioI PART) ATTR))) (@ _let_571 tptp.lAutonomicProcess_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lClosedTwoDimensionalFigure_THFTYPE_i) tptp.lTwoDimensionalFigure_THFTYPE_i) (forall ((SURFACE $$unsorted) (OBJ $$unsorted) (ATTRIBUTE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ATTRIBUTE) tptp.lShapeAttribute_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) ATTRIBUTE) (@ (@ tptp.surface_THFTYPE_IiioI SURFACE) OBJ)) (@ (@ tptp.attribute_THFTYPE_IiioI SURFACE) ATTRIBUTE))) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lDecoding_THFTYPE_i) tptp.lEncoding_THFTYPE_i) (forall ((OBJ $$unsorted)) (=> (exists ((CHANGE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI CHANGE) tptp.lShapeChange_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI CHANGE) OBJ))) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) tptp.lPliable_THFTYPE_i))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAttachingDevice_THFTYPE_i) tptp.lDevice_THFTYPE_i) (forall ((INTERVAL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.before_THFTYPE_IiioI (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL)) (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL)))) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lUnitedKingdomGallon_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n4dot54609_THFTYPE_i)) tptp.lLiter_THFTYPE_i)))) (forall ((X $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI X) tptp.lNonnegativeInteger_THFTYPE_i) (@ (@ tptp.gt_THFTYPE_IiioI X) tptp.minus1_THFTYPE_i))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTrichotomizingRelation_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i) (forall ((TIME $$unsorted) (PROC $$unsorted) (ATTR1 $$unsorted)) (=> (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.direction_THFTYPE_IiioI PROC) ATTR1)) (forall ((ATTR2 $$unsorted)) (=> (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.direction_THFTYPE_IiioI PROC) ATTR2)) (= ATTR2 ATTR1))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDecreasing_THFTYPE_i) tptp.lQuantityChange_THFTYPE_i) (@ (@ (@ (@ tptp.disjointDecomposition_THFTYPE_IiiiioI tptp.lInvertebrate_THFTYPE_i) tptp.lWorm_THFTYPE_i) tptp.lMollusk_THFTYPE_i) tptp.lArthropod_THFTYPE_i) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lAstronomicalBody_THFTYPE_i) tptp.lGeographicArea_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAttack_THFTYPE_i) tptp.lManeuver_THFTYPE_i) (@ _let_570 tptp.lSocialInteraction_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFinancialInstrument_THFTYPE_i) tptp.lCertificate_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMeasuring_THFTYPE_i) tptp.lCalculating_THFTYPE_i) (forall ((P $$unsorted) (T2 $$unsorted) (T1 $$unsorted) (D1 $$unsorted) (D2 $$unsorted) (O1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI T1) tptp.lTranslocation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI T2) tptp.lTranslocation_THFTYPE_i) (@ (@ tptp.origin_THFTYPE_IiioI T1) O1) (@ (@ tptp.origin_THFTYPE_IiioI T2) D1) (@ (@ tptp.destination_THFTYPE_IiioI T1) D1) (@ (@ tptp.destination_THFTYPE_IiioI T2) D2) (@ (@ tptp.experiencer_THFTYPE_IiioI T1) P) (@ (@ tptp.experiencer_THFTYPE_IiioI T2) P)) (exists ((T $$unsorted)) (let ((_let_1 (@ tptp.lWhenFn_THFTYPE_IiiI T))) (and (@ (@ tptp.instance_THFTYPE_IiioI T) tptp.lTranslocation_THFTYPE_i) (@ (@ tptp.origin_THFTYPE_IiioI T) O1) (@ (@ tptp.destination_THFTYPE_IiioI T) D2) (@ (@ tptp.subProcess_THFTYPE_IiioI T1) T) (@ (@ tptp.subProcess_THFTYPE_IiioI T2) T) (@ (@ tptp.experiencer_THFTYPE_IiioI T) P) (@ (@ tptp.starts_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI T1)) _let_1) (@ (@ tptp.finishes_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI T2)) _let_1)))))) (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lMale_THFTYPE_i) tptp.lFemale_THFTYPE_i) (forall ((A1 $$unsorted) (T1 $$unsorted) (A2 $$unsorted)) (let ((_let_1 (@ tptp.holdsDuring_THFTYPE_IiooI T1))) (=> (and (@ _let_1 (@ (@ tptp.legalRelation_THFTYPE_IiioI A1) A2)) (@ (@ tptp.instance_THFTYPE_IiioI A1) tptp.lOrganism_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI A2) tptp.lOrganism_THFTYPE_i)) (@ _let_1 (@ (@ tptp.relative_THFTYPE_IiioI A1) A2))))) (forall ((SUBSTANCE $$unsorted) (MIXTURE $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI SUBSTANCE))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MIXTURE) tptp.lMixture_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI SUBSTANCE) MIXTURE) (not (@ _let_1 tptp.lMixture_THFTYPE_i))) (@ _let_1 tptp.lPureSubstance_THFTYPE_i)))) (forall ((ARTIFACT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ARTIFACT) tptp.lStationaryArtifact_THFTYPE_i) (exists ((PLACE $$unsorted)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI ARTIFACT)) (@ (@ tptp.located_THFTYPE_IiioI ARTIFACT) PLACE)) (not (exists ((P2 $$unsorted)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI ARTIFACT)) (@ (@ tptp.located_THFTYPE_IiioI ARTIFACT) P2)) (not (= PLACE P2))))))))) (forall ((C $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI C) tptp.lCircle_THFTYPE_i) (exists ((P $$unsorted)) (= (@ tptp.lCenterOfCircleFn_THFTYPE_IiiI C) P)))) (forall ((NUMBER $$unsorted) (ROW $$unsorted)) (=> (= (@ tptp.lLeastCommonMultipleFn_THFTYPE_IiiI ROW) NUMBER) (forall ((ELEMENT $$unsorted)) (=> (@ (@ tptp.inList_THFTYPE_IiioI ELEMENT) (@ tptp.lListFn_THFTYPE_IiiI ROW)) (= (@ (@ tptp.lRemainderFn_THFTYPE_IiiiI NUMBER) ELEMENT) tptp.n0_THFTYPE_i))))) (@ (@ tptp.identityElement_THFTYPE_IIiiiIioI tptp.lSubtractionFn_THFTYPE_IiiiI) tptp.n0_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTerminatingEmployment_THFTYPE_i) tptp.lLeavingAnOrganization_THFTYPE_i) (@ _let_569 tptp.lDamaging_THFTYPE_i) (@ _let_568 tptp.lMotion_THFTYPE_i) (forall ((NUMBER2 $$unsorted) (FORMULA1 Bool) (NUMBER1 $$unsorted) (FORMULA2 Bool)) (=> (and (@ (@ tptp.decreasesLikelihood_THFTYPE_IoooI FORMULA1) FORMULA2) (= (@ tptp.lProbabilityFn_THFTYPE_IoiI FORMULA2) NUMBER1) (@ (@ (@ tptp.conditionalProbability_THFTYPE_IooioI FORMULA1) FORMULA2) NUMBER2)) (@ (@ tptp.lt_THFTYPE_IiioI NUMBER2) NUMBER1))) (forall ((POISON $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI POISON) tptp.lPoisoning_THFTYPE_i) (exists ((THING $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI THING))) (and (@ (@ tptp.patient_THFTYPE_IiioI POISON) THING) (or (@ _let_1 tptp.lOrganism_THFTYPE_i) (@ _let_1 tptp.lAnatomicalStructure_THFTYPE_i))))))) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lOrganOrTissueProcess_THFTYPE_i) tptp.lOrganismProcess_THFTYPE_i) (forall ((LIST2 $$unsorted) (LIST1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI LIST1) tptp.lList_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI LIST2) tptp.lList_THFTYPE_i) (forall ((NUMBER $$unsorted)) (= (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST1) NUMBER) (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST2) NUMBER)))) (= LIST1 LIST2))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBetting_THFTYPE_i) tptp.lFinancialTransaction_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lStating_THFTYPE_i) tptp.lLinguisticCommunication_THFTYPE_i) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lGasMixture_THFTYPE_i) tptp.lLiquidMixture_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lMereologicalProductFn_THFTYPE_i) tptp.lObject_THFTYPE_i) (forall ((SERIES $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SERIES) tptp.lSeries_THFTYPE_i) (exists ((BOOK1 $$unsorted) (BOOK2 $$unsorted)) (let ((_let_1 (@ tptp.subsumesContentInstance_THFTYPE_IiioI SERIES))) (and (@ (@ tptp.instance_THFTYPE_IiioI BOOK1) tptp.lBook_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI BOOK2) tptp.lBook_THFTYPE_i) (@ _let_1 BOOK1) (@ _let_1 BOOK2) (not (= BOOK1 BOOK2))))))) (forall ((PHRASE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PHRASE) tptp.lPhrase_THFTYPE_i) (exists ((PART1 $$unsorted) (PART2 $$unsorted)) (and (@ (@ tptp.part_THFTYPE_IiioI PART1) PHRASE) (@ (@ tptp.part_THFTYPE_IiioI PART2) PHRASE) (@ (@ tptp.instance_THFTYPE_IiioI PART1) tptp.lWord_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI PART2) tptp.lWord_THFTYPE_i) (not (= PART1 PART2)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lComputerLanguage_THFTYPE_i) tptp.lArtificialLanguage_THFTYPE_i) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lStreamWaterArea_THFTYPE_i) tptp.lStaticWaterArea_THFTYPE_i) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lArticle_THFTYPE_i) tptp.lBook_THFTYPE_i) (forall ((AGENT $$unsorted) (SWIM $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI SWIM) tptp.lSwimming_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI SWIM) AGENT)) (exists ((AREA $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI AREA) tptp.lWaterArea_THFTYPE_i) (@ (@ tptp.located_THFTYPE_IiioI AGENT) AREA))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSymbolicString_THFTYPE_i) tptp.lContentBearingObject_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lImaginaryPartFn_THFTYPE_i) tptp.lImaginaryNumber_THFTYPE_i) (@ _let_567 tptp.lOrganization_THFTYPE_i) (forall ((PART $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PART) tptp.lBodyPart_THFTYPE_i) (exists ((PROC $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lPhysiologicProcess_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI PROC) PART))))) (forall ((ROW $$unsorted) (ELEMENT $$unsorted)) (=> (@ tptp.exhaustiveDecomposition_THFTYPE_IioI ROW) (=> (@ (@ tptp.inList_THFTYPE_IiioI ELEMENT) (@ tptp.lListFn_THFTYPE_IiiI ROW)) (@ (@ tptp.instance_THFTYPE_IiioI ELEMENT) tptp.lClass_THFTYPE_i)))) (forall ((SUB $$unsorted) (PART $$unsorted) (SYSTEM $$unsorted)) (let ((_let_1 (@ tptp.systemPart_THFTYPE_IiioI PART))) (=> (and (@ (@ tptp.subSystem_THFTYPE_IiioI SUB) SYSTEM) (@ _let_1 SUB)) (@ _let_1 SYSTEM)))) (@ (@ _let_533 tptp.lNaturalLanguage_THFTYPE_i) tptp.lConstructedLanguage_THFTYPE_i) (forall ((MONTH1 $$unsorted) (MONTH2 $$unsorted) (YEAR $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MONTH1) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lJanuary_THFTYPE_i) YEAR)) (@ (@ tptp.instance_THFTYPE_IiioI MONTH2) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lFebruary_THFTYPE_i) YEAR))) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI MONTH1) MONTH2))) (@ (@ _let_566 tptp.lBodyPart_THFTYPE_i) tptp.lAbnormalAnatomicalStructure_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRepairing_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i) (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lDead_THFTYPE_i) tptp.lLiving_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCarnivore_THFTYPE_i) tptp.lMammal_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInternalChange_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBirth_THFTYPE_i) tptp.lOrganismProcess_THFTYPE_i) (forall ((POINT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI POINT) tptp.lTimePoint_THFTYPE_i) (not (= POINT tptp.lNegativeInfinity_THFTYPE_i))) (exists ((OTHERPOINT $$unsorted)) (@ (@ (@ tptp.temporallyBetween_THFTYPE_IiiioI tptp.lNegativeInfinity_THFTYPE_i) OTHERPOINT) POINT)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSupposing_THFTYPE_i) tptp.lLinguisticCommunication_THFTYPE_i) (@ _let_565 tptp.lIntentionalProcess_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWind_THFTYPE_i) tptp.lGasMotion_THFTYPE_i) (@ (@ (@ tptp.exhaustiveAttribute_THFTYPE_IiiioI tptp.lDevelopmentalAttribute_THFTYPE_i) tptp.lFullyFormed_THFTYPE_i) tptp.lNonFullyFormed_THFTYPE_i) (forall ((STATE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI STATE) tptp.lCounty_THFTYPE_i) (exists ((LAND $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI LAND) tptp.lStateOrProvince_THFTYPE_i) (@ (@ tptp.properPart_THFTYPE_IiioI STATE) LAND))))) (forall ((OBJ $$unsorted) (MEAS $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MEAS) tptp.lMeasuring_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI MEAS) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI MEAS) OBJ)) (exists ((QUANT $$unsorted) (UNIT $$unsorted)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI MEAS))) (@ (@ tptp.knows_THFTYPE_IiooI AGENT) (@ (@ tptp.measure_THFTYPE_IiioI OBJ) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI QUANT) UNIT))))))) (forall ((REL2 (-> $$unsorted Bool)) (ROW $$unsorted) (REL1 (-> $$unsorted Bool))) (=> (and (@ (@ tptp.subrelation_THFTYPE_IIioIIioIoI REL1) REL2) (@ REL1 ROW)) (@ REL2 ROW))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDriving_THFTYPE_i) tptp.lGuiding_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMercantileOrganization_THFTYPE_i) tptp.lCorporation_THFTYPE_i) (@ _let_560 tptp.lDeclaring_THFTYPE_i) (= (@ tptp.lCardinalityFn_THFTYPE_IiiI tptp.lContinent_THFTYPE_i) tptp.n7_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNonCompositeUnitOfMeasure_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i) (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lGeographicArea_THFTYPE_i) tptp.lWaterArea_THFTYPE_i) tptp.lLandArea_THFTYPE_i) (@ _let_564 tptp.lInheritableRelation_THFTYPE_i) (forall ((OBJ $$unsorted) (FREEZE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI FREEZE) tptp.lFreezing_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI FREEZE) OBJ)) (exists ((PART $$unsorted)) (let ((_let_1 (@ tptp.attribute_THFTYPE_IiioI PART))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI FREEZE))) (and (@ (@ tptp.part_THFTYPE_IiioI PART) OBJ) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (@ _let_1 tptp.lLiquid_THFTYPE_i)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (@ _let_1 tptp.lSolid_THFTYPE_i)))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSwimming_THFTYPE_i) tptp.lBodyMotion_THFTYPE_i) (forall ((MID $$unsorted) (END2 $$unsorted) (END1 $$unsorted)) (=> (@ (@ (@ tptp.between_THFTYPE_IiiioI END1) MID) END2) (@ (@ (@ tptp.between_THFTYPE_IiiioI END2) MID) END1))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDiagnosticProcess_THFTYPE_i) tptp.lInvestigating_THFTYPE_i) (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lLikely_THFTYPE_i) tptp.lUnlikely_THFTYPE_i) (forall ((PURSUE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PURSUE) tptp.lPursuing_THFTYPE_i) (exists ((OBJ $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lObject_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI PURSUE) OBJ))))) (@ (@ (@ (@ tptp.disjointDecomposition_THFTYPE_IiiiioI tptp.lTissue_THFTYPE_i) tptp.lBone_THFTYPE_i) tptp.lMuscle_THFTYPE_i) tptp.lFatTissue_THFTYPE_i) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lMotionUpward_THFTYPE_i) tptp.lMotionDownward_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNonNullSet_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (forall ((CLASS1 $$unsorted) (CLASS2 $$unsorted)) (=> (@ (@ tptp.immediateSubclass_THFTYPE_IiioI CLASS1) CLASS2) (not (exists ((CLASS3 $$unsorted)) (and (@ (@ tptp.subclass_THFTYPE_IiioI CLASS3) CLASS2) (@ (@ tptp.subclass_THFTYPE_IiioI CLASS1) CLASS3) (not (= CLASS2 CLASS3)) (not (= CLASS1 CLASS3))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTimePosition_THFTYPE_i) tptp.lTimeMeasure_THFTYPE_i) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted) (TOUCH $$unsorted)) (let ((_let_1 (@ (@ tptp.connected_THFTYPE_IiioI OBJ1) OBJ2))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI TOUCH))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TOUCH) tptp.lTouching_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI TOUCH) OBJ1) (@ (@ tptp.patient_THFTYPE_IiioI TOUCH) OBJ2)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (not _let_1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) _let_1)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lProposition_THFTYPE_i) tptp.lAbstract_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGasMixture_THFTYPE_i) tptp.lMixture_THFTYPE_i) (forall ((INT2 $$unsorted) (INT1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI INT1) tptp.lInteger_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI INT2) tptp.lInteger_THFTYPE_i)) (not (and (@ (@ tptp.lt_THFTYPE_IiioI INT2) INT1) (@ (@ tptp.lt_THFTYPE_IiioI (@ tptp.lPredecessorFn_THFTYPE_IiiI INT1)) INT2))))) (forall ((NUMBER $$unsorted) (QUANT $$unsorted) (UNIT $$unsorted)) (=> (and (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) UNIT) QUANT) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfMass_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI QUANT) tptp.lMassMeasure_THFTYPE_i))) (forall ((SUBSTANCE1 $$unsorted) (SUBSTANCE2 $$unsorted)) (=> (@ (@ tptp.piece_THFTYPE_IiioI SUBSTANCE1) SUBSTANCE2) (forall ((CLASS $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE1) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE2) CLASS))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNegativeRealNumber_THFTYPE_i) tptp.lRealNumber_THFTYPE_i) (forall ((PERSON $$unsorted) (FAMILY $$unsorted)) (=> (= (@ tptp.lImmediateFamilyFn_THFTYPE_IiiI PERSON) FAMILY) (exists ((MEMBER $$unsorted)) (and (@ (@ tptp.member_THFTYPE_IiioI MEMBER) FAMILY) (or (@ (@ tptp.parent_THFTYPE_IiioI MEMBER) PERSON) (@ (@ tptp.parent_THFTYPE_IiioI PERSON) MEMBER)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWarmBloodedVertebrate_THFTYPE_i) tptp.lVertebrate_THFTYPE_i) (forall ((P $$unsorted) (FAMILY $$unsorted)) (=> (= (@ tptp.lImmediateFamilyFn_THFTYPE_IiiI P) FAMILY) (forall ((MEMBER $$unsorted)) (=> (@ (@ tptp.member_THFTYPE_IiioI MEMBER) FAMILY) (exists ((OTHER $$unsorted)) (or (@ (@ tptp.parent_THFTYPE_IiioI MEMBER) OTHER) (@ (@ tptp.parent_THFTYPE_IiioI OTHER) MEMBER))))))) (forall ((EXPRESSION1 $$unsorted) (EXPRESSION2 $$unsorted) (TRANSLATE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TRANSLATE) tptp.lTranslating_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI TRANSLATE) EXPRESSION1) (@ (@ tptp.result_THFTYPE_IiioI TRANSLATE) EXPRESSION2)) (exists ((LANGUAGE1 $$unsorted) (LANGUAGE2 $$unsorted) (ENTITY $$unsorted)) (and (@ (@ (@ tptp.representsInLanguage_THFTYPE_IiiioI EXPRESSION1) ENTITY) LANGUAGE1) (@ (@ (@ tptp.representsInLanguage_THFTYPE_IiiioI EXPRESSION2) ENTITY) LANGUAGE2) (not (= LANGUAGE1 LANGUAGE2)))))) (forall ((COMP2 $$unsorted) (COMP1 $$unsorted)) (=> (@ (@ tptp.connectedEngineeringComponents_THFTYPE_IiioI COMP1) COMP2) (not (or (@ (@ tptp.instance_THFTYPE_IiioI COMP1) tptp.lEngineeringConnection_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI COMP2) tptp.lEngineeringConnection_THFTYPE_i))))) (forall ((LIST $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI LIST) tptp.lUniqueList_THFTYPE_i) (forall ((NUMBER1 $$unsorted) (NUMBER2 $$unsorted)) (let ((_let_1 (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST))) (=> (= (@ _let_1 NUMBER1) (@ _let_1 NUMBER2)) (= NUMBER1 NUMBER2)))))) (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lPolychromatic_THFTYPE_i) tptp.lMonochromatic_THFTYPE_i) (forall ((WET $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI WET) tptp.lWetting_THFTYPE_i) (exists ((OBJ $$unsorted)) (let ((_let_1 (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) tptp.lDamp_THFTYPE_i))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI WET))) (and (@ (@ tptp.patient_THFTYPE_IiioI WET) OBJ) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (not _let_1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) _let_1))))))) (forall ((RELEASE $$unsorted) (GRAB $$unsorted) (AGENT $$unsorted) (THING $$unsorted)) (let ((_let_1 (@ (@ tptp.grasps_THFTYPE_IiioI AGENT) THING))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI RELEASE))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI RELEASE) tptp.lUngrasping_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI GRAB) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI GRAB) THING)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) _let_1) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (not _let_1))))))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lDenominatorFn_THFTYPE_i) tptp.lInteger_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWriting_THFTYPE_i) tptp.lContentDevelopment_THFTYPE_i) (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lDeductiveArgument_THFTYPE_i) tptp.lValidDeductiveArgument_THFTYPE_i) tptp.lInvalidDeductiveArgument_THFTYPE_i) (forall ((CLASS $$unsorted) (ROW $$unsorted)) (=> (@ (@ tptp.exhaustiveDecomposition_THFTYPE_IiioI CLASS) ROW) (forall ((OBJ $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI OBJ) CLASS) (exists ((ITEM $$unsorted)) (and (@ (@ tptp.inList_THFTYPE_IiioI ITEM) (@ tptp.lListFn_THFTYPE_IiiI ROW)) (@ (@ tptp.instance_THFTYPE_IiioI OBJ) ITEM))))))) (forall ((INTERVAL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI INTERVAL) (@ tptp.lFutureFn_THFTYPE_IiiI INTERVAL)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCollection_THFTYPE_i) tptp.lObject_THFTYPE_i) (forall ((ORG $$unsorted) (PROCESS $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI ORG))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PROCESS) tptp.lJudicialProcess_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PROCESS) ORG) (@ _let_1 tptp.lOrganization_THFTYPE_i)) (@ _let_1 tptp.lJudicialOrganization_THFTYPE_i)))) (forall ((GROUP $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI GROUP) tptp.lFamilyGroup_THFTYPE_i) (forall ((MEMB1 $$unsorted) (MEMB2 $$unsorted)) (=> (and (@ (@ tptp.member_THFTYPE_IiioI MEMB1) GROUP) (@ (@ tptp.member_THFTYPE_IiioI MEMB2) GROUP)) (@ (@ tptp.familyRelation_THFTYPE_IiioI MEMB1) MEMB2))))) (forall ((PLANT $$unsorted) (SUBSTANCE $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI PLANT))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE) tptp.lPlantSubstance_THFTYPE_i) (@ _let_1 tptp.lOrganism_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI SUBSTANCE) PLANT)) (@ _let_1 tptp.lPlant_THFTYPE_i)))) (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lMinimalCutSetFn_THFTYPE_i) tptp.lGraphPath_THFTYPE_i) (forall ((COMBINE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI COMBINE) tptp.lCombining_THFTYPE_i) (exists ((OBJ $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lSelfConnectedObject_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI COMBINE) OBJ))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAssociativeFunction_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAdvertising_THFTYPE_i) tptp.lDisseminating_THFTYPE_i) (@ _let_563 tptp.lInheritableRelation_THFTYPE_i) (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lNonFullyFormed_THFTYPE_i) tptp.lFullyFormed_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lRelativeTimeFn_THFTYPE_i) tptp.lTimePosition_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lEndNodeFn_THFTYPE_i) tptp.lGraphNode_THFTYPE_i) (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI Z))) (=> (and (@ (@ tptp.subclass_THFTYPE_IiioI X) Y) (@ _let_1 X)) (@ _let_1 Y)))) (@ _let_525 tptp.lQuintaryRelation_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSecond_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lConfining_THFTYPE_i) tptp.lKeeping_THFTYPE_i) (forall ((WEEK2 $$unsorted) (WEEK1 $$unsorted) (DAY1 $$unsorted) (DAY2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DAY1) tptp.lSunday_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI DAY2) tptp.lMonday_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI WEEK1) tptp.lWeek_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI WEEK2) tptp.lWeek_THFTYPE_i) (@ (@ tptp.temporalPart_THFTYPE_IiioI DAY1) WEEK1) (@ (@ tptp.temporalPart_THFTYPE_IiioI DAY2) WEEK2) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI WEEK1) WEEK2)) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI DAY1) DAY2))) (forall ((OBJ $$unsorted) (PROC $$unsorted)) (=> (@ (@ tptp.result_THFTYPE_IiioI PROC) OBJ) (forall ((TIME $$unsorted)) (=> (@ (@ tptp.before_THFTYPE_IiioI TIME) (@ tptp.lBeginFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI PROC))) (not (@ (@ tptp.time_THFTYPE_IiioI OBJ) TIME)))))) (forall ((HOLE $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI HOLE) tptp.lHole_THFTYPE_i) (exists ((OBJ $$unsorted)) (@ (@ tptp.hole_THFTYPE_IiioI HOLE) OBJ)))) (@ _let_562 tptp.lPlantAnatomicalStructure_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFormula_THFTYPE_i) tptp.lSentence_THFTYPE_i) (forall ((MINUTE1 $$unsorted) (MINUTE2 $$unsorted) (NUMBER2 $$unsorted) (HOUR $$unsorted) (NUMBER1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MINUTE1) (@ (@ tptp.lMinuteFn_THFTYPE_IiiiI NUMBER1) HOUR)) (@ (@ tptp.instance_THFTYPE_IiioI MINUTE2) (@ (@ tptp.lMinuteFn_THFTYPE_IiiiI NUMBER2) HOUR)) (= (@ (@ tptp.minus_THFTYPE_IiiiI NUMBER2) NUMBER1) tptp.n1_THFTYPE_i)) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI MINUTE1) MINUTE2))) (forall ((REL2 (-> $$unsorted $$unsorted Bool)) (REL1 (-> $$unsorted $$unsorted Bool))) (=> (@ (@ tptp.inverse_THFTYPE_IIiioIIiioIoI REL1) REL2) (forall ((INST1 $$unsorted) (INST2 $$unsorted)) (= (@ (@ REL1 INST1) INST2) (@ (@ REL2 INST2) INST1))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lHeating_THFTYPE_i) tptp.lIncreasing_THFTYPE_i) (@ _let_561 tptp.lPlantAnatomicalStructure_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInteger_THFTYPE_i) tptp.lRationalNumber_THFTYPE_i) (@ (@ tptp.subAttribute_THFTYPE_IiioI tptp.lServiceContract_THFTYPE_i) tptp.lContract_THFTYPE_i) (forall ((GRAPH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI GRAPH) tptp.lTree_THFTYPE_i) (not (exists ((LOOP $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI LOOP) tptp.lGraphLoop_THFTYPE_i) (@ (@ tptp.graphPart_THFTYPE_IiioI LOOP) GRAPH)))))) (forall ((COMMUNICATE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI COMMUNICATE) tptp.lLinguisticCommunication_THFTYPE_i) (exists ((OBJ $$unsorted)) (and (@ (@ tptp.represents_THFTYPE_IiioI COMMUNICATE) OBJ) (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lLinguisticExpression_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI COMMUNICATE) OBJ))))) (forall ((NUMBER $$unsorted)) (= (@ tptp.lPredecessorFn_THFTYPE_IiiI NUMBER) (@ (@ tptp.minus_THFTYPE_IiiiI NUMBER) tptp.n1_THFTYPE_i))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDeath_THFTYPE_i) tptp.lOrganismProcess_THFTYPE_i) (@ _let_560 tptp.lJudicialProcess_THFTYPE_i) (forall ((CHILD $$unsorted) (PARENT $$unsorted)) (=> (and (@ (@ tptp.parent_THFTYPE_IiioI CHILD) PARENT) (@ (@ tptp.attribute_THFTYPE_IiioI PARENT) tptp.lFemale_THFTYPE_i)) (@ (@ tptp.mother_THFTYPE_IiioI CHILD) PARENT))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lQuestioning_THFTYPE_i) tptp.lDirecting_THFTYPE_i) (forall ((P $$unsorted) (H $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI H) tptp.lHunting_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI H) P)) (@ (@ tptp.hasPurpose_THFTYPE_IiooI H) (exists ((PROC $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI PROC))) (and (@ (@ tptp.patient_THFTYPE_IiioI PROC) P) (or (@ _let_1 tptp.lConfining_THFTYPE_i) (@ _let_1 tptp.lKilling_THFTYPE_i)))))))) (forall ((H $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI H) tptp.lHunting_THFTYPE_i) (exists ((T $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI T) tptp.lAnimal_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI H) T))))) (forall ((NUMBER $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI NUMBER))) (= (@ _let_1 tptp.lPositiveRealNumber_THFTYPE_i) (and (@ (@ tptp.gt_THFTYPE_IiioI NUMBER) tptp.n0_THFTYPE_i) (@ _let_1 tptp.lRealNumber_THFTYPE_i))))) (forall ((GET $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI GET) tptp.lGetting_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI GET) AGENT)) (@ (@ tptp.destination_THFTYPE_IiioI GET) AGENT))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPhysiologicProcess_THFTYPE_i) tptp.lBiologicalProcess_THFTYPE_i) (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lUnitOfMeasure_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i) tptp.lNonCompositeUnitOfMeasure_THFTYPE_i) (forall ((COUNT $$unsorted) (AGENT $$unsorted) (ENTITY $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI COUNT) tptp.lCounting_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI COUNT) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI COUNT) ENTITY)) (exists ((NUMBER $$unsorted)) (@ (@ tptp.knows_THFTYPE_IiooI AGENT) (= (@ tptp.lCardinalityFn_THFTYPE_IiiI ENTITY) NUMBER))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lProcess_THFTYPE_i) tptp.lPhysical_THFTYPE_i) (forall ((HEAT $$unsorted) (OBJ $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI HEAT) tptp.lHeating_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI HEAT) OBJ)) (exists ((UNIT $$unsorted) (QUANT1 $$unsorted) (QUANT2 $$unsorted)) (let ((_let_1 (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI OBJ) UNIT))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI HEAT))) (and (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lTemperatureMeasure_THFTYPE_i) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (= _let_1 QUANT1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (= _let_1 QUANT2)) (@ (@ tptp.gt_THFTYPE_IiioI QUANT2) QUANT1))))))) (forall ((PERSON $$unsorted) (CONFINE $$unsorted)) (let ((_let_1 (@ (@ tptp.patient_THFTYPE_IiioI CONFINE) PERSON))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI CONFINE) tptp.lConfining_THFTYPE_i) _let_1 (@ (@ tptp.instance_THFTYPE_IiioI PERSON) tptp.lHuman_THFTYPE_i)) (not (@ (@ tptp.desires_THFTYPE_IiooI PERSON) _let_1))))) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted) (OBJ3 $$unsorted)) (=> (= OBJ3 (@ (@ tptp.lMereologicalProductFn_THFTYPE_IiiiI OBJ1) OBJ2)) (forall ((PART $$unsorted)) (let ((_let_1 (@ tptp.part_THFTYPE_IiioI PART))) (= (@ _let_1 OBJ3) (and (@ _let_1 OBJ1) (@ _let_1 OBJ2))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lClothing_THFTYPE_i) tptp.lWearableItem_THFTYPE_i) (@ _let_559 tptp.lLandArea_THFTYPE_i) (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lAnimal_THFTYPE_i) tptp.lVertebrate_THFTYPE_i) tptp.lInvertebrate_THFTYPE_i) (forall ((CLASS $$unsorted) (RELATION (-> $$unsorted $$unsorted Bool))) (=> (@ (@ tptp.irreflexiveOn_THFTYPE_IIiioIioI RELATION) CLASS) (forall ((INST $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INST) CLASS) (not (@ (@ RELATION INST) INST)))))) (forall ((FUNCTION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI FUNCTION) tptp.lQuaternaryFunction_THFTYPE_i) (@ (@ tptp.valence_THFTYPE_IiioI FUNCTION) tptp.n4_THFTYPE_i))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOpenTwoDimensionalFigure_THFTYPE_i) tptp.lTwoDimensionalFigure_THFTYPE_i) (@ _let_558 tptp.lCombining_THFTYPE_i) (forall ((PROC2 $$unsorted) (PROC1 $$unsorted)) (=> (@ (@ tptp.prevents_THFTYPE_IiioI PROC1) PROC2) (forall ((TIME $$unsorted) (PLACE $$unsorted)) (let ((_let_1 (@ tptp.holdsDuring_THFTYPE_IiooI TIME))) (=> (@ _let_1 (exists ((INST1 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI INST1) PROC1) (@ (@ tptp.located_THFTYPE_IiioI INST1) PLACE)))) (not (@ _let_1 (exists ((INST2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI INST2) PROC2) (@ (@ tptp.located_THFTYPE_IiioI INST2) PLACE)))))))))) (forall ((NUMBER $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI NUMBER) tptp.lNegativeRealNumber_THFTYPE_i) (= (@ tptp.lSignumFn_THFTYPE_IiiI NUMBER) tptp.minus1_THFTYPE_i))) (forall ((ATOM $$unsorted) (NUMBER $$unsorted) (SUBSTANCE $$unsorted) (TYPE $$unsorted)) (=> (@ (@ tptp.atomicNumber_THFTYPE_IiioI TYPE) NUMBER) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE) TYPE) (@ (@ tptp.part_THFTYPE_IiioI ATOM) SUBSTANCE) (@ (@ tptp.instance_THFTYPE_IiioI ATOM) tptp.lAtom_THFTYPE_i)) (= NUMBER (@ tptp.lCardinalityFn_THFTYPE_IIioIiI (lambda ((PROTON $$unsorted)) (and (@ (@ tptp.part_THFTYPE_IiioI PROTON) ATOM) (@ (@ tptp.instance_THFTYPE_IiioI PROTON) tptp.lProton_THFTYPE_i)))))))) (forall ((PROC2 $$unsorted) (PROC1 $$unsorted)) (=> (@ (@ tptp.precondition_THFTYPE_IiioI PROC1) PROC2) (=> (exists ((INST2 $$unsorted)) (@ (@ tptp.instance_THFTYPE_IiioI INST2) PROC2)) (exists ((INST1 $$unsorted)) (@ (@ tptp.instance_THFTYPE_IiioI INST1) PROC1))))) (@ (@ (@ (@ (@ (@ tptp.disjointDecomposition_THFTYPE_IiiiiiioI tptp.lRelation_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i) tptp.lTernaryRelation_THFTYPE_i) tptp.lQuaternaryRelation_THFTYPE_i) tptp.lQuintaryRelation_THFTYPE_i) tptp.lVariableArityRelation_THFTYPE_i) (forall ((OBJ $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lCorpuscularObject_THFTYPE_i) (exists ((SUBSTANCE1 $$unsorted) (SUBSTANCE2 $$unsorted)) (and (@ (@ tptp.subclass_THFTYPE_IiioI SUBSTANCE1) tptp.lSubstance_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI SUBSTANCE2) tptp.lSubstance_THFTYPE_i) (@ (@ tptp.material_THFTYPE_IiioI SUBSTANCE1) OBJ) (@ (@ tptp.material_THFTYPE_IiioI SUBSTANCE2) OBJ) (not (= SUBSTANCE1 SUBSTANCE2)))))) (@ _let_557 tptp.lInheritableRelation_THFTYPE_i) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted) (HEIGHT $$unsorted)) (=> (@ (@ (@ tptp.altitude_THFTYPE_IiiioI OBJ1) OBJ2) HEIGHT) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) tptp.lAbove_THFTYPE_i))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lThreeDimensionalFigure_THFTYPE_i) tptp.lGeometricFigure_THFTYPE_i) (@ _let_541 tptp.lAnimalSubstance_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lRealNumberFn_THFTYPE_i) tptp.lRealNumber_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lPropertyFn_THFTYPE_i) tptp.lSet_THFTYPE_i) (@ _let_556 tptp.lGuiding_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGraphLoop_THFTYPE_i) tptp.lGraphArc_THFTYPE_i) (forall ((X $$unsorted)) (=> (@ (@ tptp.attribute_THFTYPE_IiioI X) tptp.lFlammable_THFTYPE_i) (@ (@ (@ tptp.capability_THFTYPE_IiIiioIioI tptp.lCombustion_THFTYPE_i) tptp.patient_THFTYPE_IiioI) X))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTuesday_THFTYPE_i) tptp.lDay_THFTYPE_i) (@ _let_555 tptp.lInheritableRelation_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDeclaring_THFTYPE_i) tptp.lLinguisticCommunication_THFTYPE_i) (forall ((BEV $$unsorted) (DRINK $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DRINK) tptp.lDrinking_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI DRINK) BEV)) (@ (@ tptp.instance_THFTYPE_IiioI BEV) tptp.lBeverage_THFTYPE_i))) (forall ((GROUP $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI GROUP) tptp.lAgeGroup_THFTYPE_i) (forall ((MEMB1 $$unsorted) (MEMB2 $$unsorted) (AGE1 $$unsorted) (AGE2 $$unsorted)) (=> (and (@ (@ tptp.member_THFTYPE_IiioI MEMB1) GROUP) (@ (@ tptp.member_THFTYPE_IiioI MEMB2) GROUP) (@ (@ tptp.age_THFTYPE_IiioI MEMB1) AGE1) (@ (@ tptp.age_THFTYPE_IiioI MEMB2) AGE2)) (= AGE1 AGE2))))) (forall ((DEMO $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DEMO) tptp.lDemonstrating_THFTYPE_i) (exists ((PERSON $$unsorted)) (@ (@ tptp.attends_THFTYPE_IiioI DEMO) PERSON)))) (forall ((NUMBER $$unsorted) (PATH $$unsorted) (NUMBER2 $$unsorted) (NODE1 $$unsorted) (NUMBER1 $$unsorted) (NODE2 $$unsorted)) (=> (and (= (@ (@ tptp.lMaximalWeightedPathFn_THFTYPE_IiiiI NODE1) NODE2) PATH) (= (@ tptp.lPathWeightFn_THFTYPE_IiiI PATH) NUMBER)) (forall ((PATH2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PATH2) (@ (@ tptp.lGraphPathFn_THFTYPE_IiiiI NODE1) NODE2)) (= (@ tptp.lPathWeightFn_THFTYPE_IiiI PATH2) NUMBER2)) (@ (@ tptp.ltet_THFTYPE_IiioI NUMBER2) NUMBER1))))) (forall ((BATTLE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI BATTLE) tptp.lBattle_THFTYPE_i) (exists ((WAR $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI WAR) tptp.lWar_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI BATTLE) WAR))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOrganizationalProcess_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i) (forall ((REL (-> $$unsorted $$unsorted Bool)) (INTERVAL $$unsorted) (INST2 $$unsorted) (INST1 $$unsorted)) (=> (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI INTERVAL) (@ (@ REL INST1) INST2)) (@ (@ tptp.instance_THFTYPE_IiioI INST1) tptp.lPhysical_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI INST2) tptp.lPhysical_THFTYPE_i)) (and (@ (@ tptp.time_THFTYPE_IiioI INST1) INTERVAL) (@ (@ tptp.time_THFTYPE_IiioI INST2) INTERVAL)))) (@ _let_554 tptp.lMilitaryForce_THFTYPE_i) (forall ((HOUR $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI HOUR) tptp.lHour_THFTYPE_i) (= (@ tptp.lCardinalityFn_THFTYPE_IiiI (@ (@ tptp.lTemporalCompositionFn_THFTYPE_IiiiI HOUR) tptp.lMinute_THFTYPE_i)) tptp.n60_THFTYPE_i))) (forall ((AGENT $$unsorted) (TEXT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TEXT) tptp.lFactualText_THFTYPE_i) (@ (@ tptp.authors_THFTYPE_IiioI AGENT) TEXT)) (exists ((CONTENT Bool)) (and (@ (@ tptp.subsumesContentInstance_THFTYPE_IiooI TEXT) CONTENT) (@ (@ tptp.instance_THFTYPE_IoioI CONTENT) tptp.lFormula_THFTYPE_i) (not (@ (@ tptp.believes_THFTYPE_IiooI AGENT) CONTENT)))))) (forall ((ABS $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI ABS) tptp.lAbstract_THFTYPE_i) (not (exists ((POINT $$unsorted)) (or (@ (@ tptp.located_THFTYPE_IiioI ABS) POINT) (@ (@ tptp.time_THFTYPE_IiioI ABS) POINT)))))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lExponentiationFn_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (forall ((OBJ $$unsorted) (PERSON $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI OBJ) (@ tptp.lPropertyFn_THFTYPE_IiiI PERSON)) (@ (@ tptp.possesses_THFTYPE_IiioI PERSON) OBJ))) (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lIntervalFn_THFTYPE_i) tptp.lConstantQuantity_THFTYPE_i) (forall ((TEXT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI TEXT) tptp.lText_THFTYPE_i) (exists ((WRITE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI WRITE) tptp.lWriting_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI WRITE) TEXT))))) (@ (@ tptp.initialPart_THFTYPE_IiioI tptp.lVocalCords_THFTYPE_i) tptp.lHuman_THFTYPE_i) (forall ((ORGAN $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ORGAN) tptp.lOrgan_THFTYPE_i) (exists ((PURP Bool)) (@ (@ tptp.hasPurpose_THFTYPE_IiooI ORGAN) PURP)))) (forall ((FORMULA1 Bool) (FORMULA2 Bool)) (=> (and (@ (@ tptp.instance_THFTYPE_IoioI FORMULA1) tptp.lFormula_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IoioI FORMULA2) tptp.lFormula_THFTYPE_i)) (or (@ (@ tptp.increasesLikelihood_THFTYPE_IoooI FORMULA1) FORMULA2) (@ (@ tptp.decreasesLikelihood_THFTYPE_IoooI FORMULA1) FORMULA2) (@ (@ tptp.independentProbability_THFTYPE_IoooI FORMULA1) FORMULA2)))) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lBritishThermalUnit_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n1055dot05585262_THFTYPE_i)) tptp.lJoule_THFTYPE_i)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOddInteger_THFTYPE_i) tptp.lInteger_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPoliticalOrganization_THFTYPE_i) tptp.lOrganization_THFTYPE_i) (forall ((PREMISES Bool) (ARGUMENT Bool) (CONCLUSION Bool)) (=> (and (@ (@ tptp.instance_THFTYPE_IoioI ARGUMENT) tptp.lValidDeductiveArgument_THFTYPE_i) (= PREMISES (@ tptp.lPremisesFn_THFTYPE_IooI ARGUMENT)) (@ (@ tptp.conclusion_THFTYPE_IoooI CONCLUSION) ARGUMENT)) (exists ((FORMULA1 $$unsorted) (FORMULA2 $$unsorted)) (and (@ (@ tptp.containsInformation_THFTYPE_IiooI FORMULA1) PREMISES) (@ (@ tptp.containsInformation_THFTYPE_IiooI FORMULA2) CONCLUSION) (@ (@ tptp.entails_THFTYPE_IoooI PREMISES) CONCLUSION))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lReflexiveRelation_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i) (forall ((MONTH1 $$unsorted) (MONTH2 $$unsorted) (YEAR $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MONTH1) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lJuly_THFTYPE_i) YEAR)) (@ (@ tptp.instance_THFTYPE_IiioI MONTH2) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lAugust_THFTYPE_i) YEAR))) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI MONTH1) MONTH2))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lArtifact_THFTYPE_i) tptp.lCorpuscularObject_THFTYPE_i) (forall ((FORMULA Bool) (AGENT $$unsorted)) (=> (@ (@ tptp.believes_THFTYPE_IiooI AGENT) FORMULA) (exists ((TIME $$unsorted)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.considers_THFTYPE_IiooI AGENT) FORMULA))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lReleasing_THFTYPE_i) tptp.lTransfer_THFTYPE_i) (forall ((HOLE $$unsorted) (OBJ1 $$unsorted)) (=> (= OBJ1 (@ tptp.lHoleSkinFn_THFTYPE_IiiI HOLE)) (forall ((OBJ2 $$unsorted)) (= (@ (@ tptp.overlapsSpatially_THFTYPE_IiioI OBJ2) OBJ1) (exists ((OBJ3 $$unsorted)) (and (@ (@ tptp.superficialPart_THFTYPE_IiioI OBJ3) (@ tptp.lHoleHostFn_THFTYPE_IiiI HOLE)) (@ (@ tptp.meetsSpatially_THFTYPE_IiioI HOLE) OBJ3) (@ (@ tptp.overlapsSpatially_THFTYPE_IiioI OBJ2) OBJ3))))))) (forall ((MIXTURE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MIXTURE) tptp.lMixture_THFTYPE_i) (exists ((PURE1 $$unsorted) (PURE2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PURE1) tptp.lPureSubstance_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI PURE2) tptp.lPureSubstance_THFTYPE_i) (not (= PURE1 PURE2)) (@ (@ tptp.part_THFTYPE_IiioI PURE1) MIXTURE) (@ (@ tptp.part_THFTYPE_IiioI PURE2) MIXTURE))))) (@ (@ (@ (@ (@ (@ tptp.partition_THFTYPE_IiiiiiioI tptp.lWord_THFTYPE_i) tptp.lNoun_THFTYPE_i) tptp.lVerb_THFTYPE_i) tptp.lAdjective_THFTYPE_i) tptp.lAdverb_THFTYPE_i) tptp.lParticleWord_THFTYPE_i) (forall ((HOLE1 $$unsorted)) (= (@ (@ tptp.attribute_THFTYPE_IiioI HOLE1) tptp.lFillable_THFTYPE_i) (exists ((HOLE2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI HOLE2) tptp.lHole_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI HOLE1) HOLE2))))) (forall ((INTERVAL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL) tptp.lTimeInterval_THFTYPE_i) (exists ((POINT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI POINT) tptp.lTimePoint_THFTYPE_i) (@ (@ tptp.temporalPart_THFTYPE_IiioI POINT) INTERVAL))))) (@ _let_553 tptp.lTranslocation_THFTYPE_i) (@ _let_552 tptp.lInheritableRelation_THFTYPE_i) (forall ((POISON $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI POISON) tptp.lPoisoning_THFTYPE_i) (exists ((SUBSTANCE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE) tptp.lBiologicallyActiveSubstance_THFTYPE_i) (@ (@ tptp.instrument_THFTYPE_IiioI POISON) SUBSTANCE))))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lRemainderFn_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWater_THFTYPE_i) tptp.lCompoundSubstance_THFTYPE_i) (forall ((OBJ $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lObject_THFTYPE_i) (exists ((TIME1 $$unsorted) (TIME2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI TIME1) tptp.lTimePoint_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI TIME2) tptp.lTimePoint_THFTYPE_i) (@ (@ tptp.before_THFTYPE_IiioI TIME1) TIME2) (forall ((TIME $$unsorted)) (=> (and (@ (@ tptp.beforeOrEqual_THFTYPE_IiioI TIME1) TIME) (@ (@ tptp.beforeOrEqual_THFTYPE_IiioI TIME) TIME2)) (@ (@ tptp.time_THFTYPE_IiioI OBJ) TIME))))))) (forall ((REL (-> $$unsorted $$unsorted Bool))) (= (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lTrichotomizingRelation_THFTYPE_i) (forall ((INST1 $$unsorted) (INST2 $$unsorted)) (let ((_let_1 (@ (@ REL INST2) INST1))) (let ((_let_2 (= INST1 INST2))) (let ((_let_3 (not _let_2))) (let ((_let_4 (@ (@ REL INST1) INST2))) (let ((_let_5 (not _let_4))) (let ((_let_6 (not _let_1))) (or (and _let_4 _let_3 _let_6) (and _let_5 _let_2 _let_6) (and _let_5 _let_3 _let_1))))))))))) (forall ((CLOUD $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI CLOUD) tptp.lWaterCloud_THFTYPE_i) (exists ((WATER $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI WATER) tptp.lWater_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI WATER) CLOUD))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFreshWaterArea_THFTYPE_i) tptp.lWaterArea_THFTYPE_i) (@ _let_521 tptp.lInheritableRelation_THFTYPE_i) (forall ((PROCESS $$unsorted) (LOC $$unsorted)) (=> (@ (@ tptp.origin_THFTYPE_IiioI PROCESS) LOC) (@ (@ tptp.partlyLocated_THFTYPE_IiioI PROCESS) LOC))) (forall ((OBJ $$unsorted) (HOLE2 $$unsorted) (HOLE1 $$unsorted)) (=> (and (@ (@ tptp.hole_THFTYPE_IiioI HOLE1) OBJ) (@ (@ tptp.hole_THFTYPE_IiioI HOLE2) OBJ)) (forall ((HOLE3 $$unsorted)) (=> (@ (@ tptp.part_THFTYPE_IiioI HOLE3) (@ (@ tptp.lMereologicalSumFn_THFTYPE_IiiiI HOLE1) HOLE2)) (@ (@ tptp.hole_THFTYPE_IiioI HOLE3) OBJ))))) (forall ((MONTH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MONTH) tptp.lOctober_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI MONTH) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n31_THFTYPE_i) tptp.lDayDuration_THFTYPE_i)))) (forall ((SUBSTANCE1 $$unsorted) (SUBSTANCE2 $$unsorted) (PROC $$unsorted)) (=> (and (@ (@ tptp.resource_THFTYPE_IiioI PROC) SUBSTANCE1) (@ (@ tptp.result_THFTYPE_IiioI PROC) SUBSTANCE2) (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE1) tptp.lElementalSubstance_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI SUBSTANCE2) tptp.lCompoundSubstance_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lChemicalSynthesis_THFTYPE_i))) (@ _let_551 tptp.lSeparating_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lCeilingFn_THFTYPE_i) tptp.lInteger_THFTYPE_i) (forall ((WIND $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI WIND) tptp.lWind_THFTYPE_i) (exists ((AIR $$unsorted)) (and (@ (@ tptp.patient_THFTYPE_IiioI WIND) AIR) (@ (@ tptp.instance_THFTYPE_IiioI AIR) tptp.lAir_THFTYPE_i))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInsect_THFTYPE_i) tptp.lArthropod_THFTYPE_i) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lSexualReproduction_THFTYPE_i) tptp.lAsexualReproduction_THFTYPE_i) (forall ((RESIDENCE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI RESIDENCE) tptp.lSingleFamilyResidence_THFTYPE_i) (@ (@ tptp.hasPurpose_THFTYPE_IiooI RESIDENCE) (forall ((AGENT1 $$unsorted) (AGENT2 $$unsorted)) (=> (and (@ (@ tptp.home_THFTYPE_IiioI AGENT1) RESIDENCE) (@ (@ tptp.home_THFTYPE_IiioI AGENT2) RESIDENCE)) (exists ((UNIT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lSocialUnit_THFTYPE_i) (@ (@ tptp.member_THFTYPE_IiioI AGENT1) UNIT) (@ (@ tptp.member_THFTYPE_IiioI AGENT2) UNIT)))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAtom_THFTYPE_i) tptp.lElementalSubstance_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lMereologicalSumFn_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFiniteSet_THFTYPE_i) tptp.lSet_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lHole_THFTYPE_i) tptp.lRegion_THFTYPE_i) (forall ((P $$unsorted) (S1 $$unsorted) (S2 $$unsorted)) (=> (and (@ (@ tptp.subProcess_THFTYPE_IiioI S1) P) (@ (@ tptp.subProcess_THFTYPE_IiioI S2) P)) (@ (@ tptp.relatedEvent_THFTYPE_IiioI S1) S2))) (forall ((T1 $$unsorted) (P2 $$unsorted) (P1 $$unsorted)) (=> (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI T1) (@ (@ tptp.spouse_THFTYPE_IiioI P1) P2)) (@ (@ tptp.instance_THFTYPE_IiioI T1) tptp.lTimeInterval_THFTYPE_i)) (exists ((WED $$unsorted)) (let ((_let_1 (@ tptp.patient_THFTYPE_IiioI WED))) (and (@ (@ tptp.instance_THFTYPE_IiioI WED) tptp.lWedding_THFTYPE_i) (@ _let_1 P1) (@ _let_1 P2) (@ (@ tptp.earlier_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI WED)) T1)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCharacter_THFTYPE_i) tptp.lSymbolicString_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lImmediateFamilyFn_THFTYPE_i) tptp.lFamilyGroup_THFTYPE_i) (forall ((EVENT $$unsorted) (AGENT $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI EVENT))) (=> (and (@ _let_1 tptp.lElection_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI EVENT) AGENT) (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lGeopoliticalArea_THFTYPE_i)) (@ _let_1 tptp.lPoliticalProcess_THFTYPE_i)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGeographicArea_THFTYPE_i) tptp.lRegion_THFTYPE_i) (forall ((PATH $$unsorted) (NODE1 $$unsorted) (NODE2 $$unsorted)) (=> (= (@ (@ tptp.lMaximalWeightedPathFn_THFTYPE_IiiiI NODE1) NODE2) PATH) (@ (@ tptp.instance_THFTYPE_IiioI PATH) (@ (@ tptp.lGraphPathFn_THFTYPE_IiiiI NODE1) NODE2)))) (@ _let_550 tptp.lDiseaseOrSyndrome_THFTYPE_i) (forall ((T $$unsorted) (E $$unsorted)) (=> (@ (@ tptp.involvedInEvent_THFTYPE_IiioI E) T) (exists ((R (-> $$unsorted $$unsorted Bool))) (and (@ (@ tptp.instance_THFTYPE_IIiioIioI R) tptp.lCaseRole_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI R) tptp.involvedInEvent_THFTYPE_IiioI) (@ (@ R E) T))))) (forall ((OBJ $$unsorted) (HEAR $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI HEAR) tptp.lHearing_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI HEAR) OBJ)) (exists ((ATTR $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lSoundAttribute_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) ATTR))))) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (= (@ (@ tptp.overlapsPartially_THFTYPE_IiioI OBJ1) OBJ2) (and (not (@ (@ tptp.part_THFTYPE_IiioI OBJ1) OBJ2)) (not (@ (@ tptp.part_THFTYPE_IiioI OBJ2) OBJ1)) (exists ((OBJ3 $$unsorted)) (let ((_let_1 (@ tptp.part_THFTYPE_IiioI OBJ3))) (and (@ _let_1 OBJ1) (@ _let_1 OBJ2))))))) (forall ((FROM $$unsorted) (TRANSPORT $$unsorted) (MOVE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TRANSPORT) tptp.lVehicle_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI MOVE) tptp.lTranslocation_THFTYPE_i) (@ (@ tptp.instrument_THFTYPE_IiioI MOVE) TRANSPORT) (@ (@ tptp.origin_THFTYPE_IiioI MOVE) FROM)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI MOVE))) (@ (@ tptp.located_THFTYPE_IiioI TRANSPORT) FROM)))) (forall ((POINT2 $$unsorted) (POINT1 $$unsorted)) (=> (@ (@ tptp.beforeOrEqual_THFTYPE_IiioI POINT1) POINT2) (or (@ (@ tptp.before_THFTYPE_IiioI POINT1) POINT2) (= POINT1 POINT2)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPeriodical_THFTYPE_i) tptp.lSeries_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lListFn_THFTYPE_i) tptp.lList_THFTYPE_i) (forall ((DAY $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DAY) tptp.lDay_THFTYPE_i) (= (@ tptp.lCardinalityFn_THFTYPE_IiiI (@ (@ tptp.lTemporalCompositionFn_THFTYPE_IiiiI DAY) tptp.lHour_THFTYPE_i)) tptp.n24_THFTYPE_i))) (forall ((NUMBER $$unsorted) (QUANT $$unsorted) (UNIT $$unsorted)) (=> (and (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) UNIT) QUANT) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfArea_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI QUANT) tptp.lAreaMeasure_THFTYPE_i))) (forall ((OBJ $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lSelfConnectedObject_THFTYPE_i) (forall ((PART1 $$unsorted) (PART2 $$unsorted)) (=> (= OBJ (@ (@ tptp.lMereologicalSumFn_THFTYPE_IiiiI PART1) PART2)) (@ (@ tptp.connected_THFTYPE_IiioI PART1) PART2))))) (forall ((WED $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI WED) tptp.lWedding_THFTYPE_i) (exists ((PERSON1 $$unsorted) (PERSON2 $$unsorted)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lImmediateFutureFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI WED))) (@ (@ tptp.spouse_THFTYPE_IiioI PERSON1) PERSON2))))) (@ _let_549 tptp.lInheritableRelation_THFTYPE_i) (@ _let_525 tptp.lInheritableRelation_THFTYPE_i) (@ _let_547 tptp.lFunction_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lProbabilityFn_THFTYPE_i) tptp.lRealNumber_THFTYPE_i) (forall ((OBJECT $$unsorted) (SIDE $$unsorted) (PART $$unsorted)) (=> (and (@ (@ tptp.side_THFTYPE_IiioI SIDE) OBJECT) (@ (@ tptp.part_THFTYPE_IiioI PART) OBJECT) (not (@ (@ tptp.connected_THFTYPE_IiioI PART) SIDE))) (exists ((DIRECT $$unsorted)) (@ (@ (@ tptp.orientation_THFTYPE_IiiioI SIDE) PART) DIRECT)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lColorAttribute_THFTYPE_i) tptp.lInternalAttribute_THFTYPE_i) (forall ((BOIL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI BOIL) tptp.lBoiling_THFTYPE_i) (exists ((HEAT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI HEAT) tptp.lHeating_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI HEAT) BOIL))))) (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lPsychologicalAttribute_THFTYPE_i) tptp.lStateOfMind_THFTYPE_i) tptp.lTraitAttribute_THFTYPE_i) (forall ((CLASS $$unsorted) (ATTR $$unsorted)) (= (= (@ tptp.lAbstractionFn_THFTYPE_IiiI CLASS) ATTR) (forall ((INST $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI INST) CLASS) (@ (@ tptp.property_THFTYPE_IiioI INST) ATTR))))) (forall ((WEEK $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI WEEK) tptp.lWeek_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI WEEK) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1_THFTYPE_i) tptp.lWeekDuration_THFTYPE_i)))) (forall ((ORG $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lOrganism_THFTYPE_i) (exists ((ATTR $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lAnimacyAttribute_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI ORG) ATTR))))) (forall ((OBJ $$unsorted) (MOTION $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MOTION) tptp.lLiquidMotion_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI MOTION) OBJ)) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) tptp.lLiquid_THFTYPE_i))) (forall ((MEMBER $$unsorted) (GROUP $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI GROUP) tptp.lGroupOfPeople_THFTYPE_i) (@ (@ tptp.member_THFTYPE_IiioI MEMBER) GROUP)) (@ (@ tptp.instance_THFTYPE_IiioI MEMBER) tptp.lHuman_THFTYPE_i))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lArachnid_THFTYPE_i) tptp.lArthropod_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFeline_THFTYPE_i) tptp.lCarnivore_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBlood_THFTYPE_i) tptp.lBodySubstance_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOrdering_THFTYPE_i) tptp.lDirecting_THFTYPE_i) (forall ((DEVELOP $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DEVELOP) tptp.lContentDevelopment_THFTYPE_i) (exists ((OBJ $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lContentBearingObject_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI DEVELOP) OBJ))))) (forall ((REL2 $$unsorted) (CLASS1 $$unsorted) (CLASS2 $$unsorted) (REL1 $$unsorted)) (=> (and (@ (@ tptp.range_THFTYPE_IiioI REL1) CLASS1) (@ (@ tptp.range_THFTYPE_IiioI REL2) CLASS2) (@ (@ tptp.disjoint_THFTYPE_IiioI CLASS1) CLASS2)) (@ (@ tptp.disjointRelation_THFTYPE_IiioI REL1) REL2))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lVerbPhrase_THFTYPE_i) tptp.lPhrase_THFTYPE_i) (forall ((OBJ $$unsorted) (PUT $$unsorted) (PLACE $$unsorted)) (let ((_let_1 (@ (@ tptp.located_THFTYPE_IiioI OBJ) PLACE))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI PUT))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PUT) tptp.lPutting_THFTYPE_i) (@ (@ tptp.destination_THFTYPE_IiioI PUT) PLACE) (@ (@ tptp.patient_THFTYPE_IiioI PUT) OBJ)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (not _let_1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) _let_1)))))) (forall ((ORGANISM $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ORGANISM) tptp.lOrganism_THFTYPE_i) (exists ((PARENT $$unsorted)) (@ (@ tptp.parent_THFTYPE_IiioI ORGANISM) PARENT)))) (@ _let_536 tptp.lLinguisticExpression_THFTYPE_i) (forall ((INT2 $$unsorted) (INT1 $$unsorted)) (=> (= (@ tptp.lPredecessorFn_THFTYPE_IiiI INT1) (@ tptp.lPredecessorFn_THFTYPE_IiiI INT2)) (= INT1 INT2))) (@ _let_548 tptp.lReproductiveBody_THFTYPE_i) (forall ((ORG $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lGovernmentOrganization_THFTYPE_i) (exists ((GOV $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI GOV) tptp.lGovernment_THFTYPE_i) (@ (@ tptp.subOrganization_THFTYPE_IiioI ORG) GOV))))) (forall ((INTERVAL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL) tptp.lTimeInterval_THFTYPE_i) (= (@ tptp.lFutureFn_THFTYPE_IiiI INTERVAL) (@ (@ tptp.lTimeIntervalFn_THFTYPE_IiiiI (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL)) tptp.lPositiveInfinity_THFTYPE_i)))) (@ _let_544 tptp.lSeeing_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWaterCloud_THFTYPE_i) tptp.lCloud_THFTYPE_i) (forall ((STRING $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI STRING) tptp.lSymbolicString_THFTYPE_i) (exists ((PART $$unsorted)) (and (@ (@ tptp.part_THFTYPE_IiioI PART) STRING) (@ (@ tptp.instance_THFTYPE_IiioI PART) tptp.lCharacter_THFTYPE_i))))) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lGeologicalProcess_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i) (forall ((OBJ $$unsorted) (AGENT $$unsorted)) (=> (@ (@ tptp.uses_THFTYPE_IiioI OBJ) AGENT) (exists ((PROC $$unsorted)) (and (@ (@ tptp.agent_THFTYPE_IiioI PROC) AGENT) (@ (@ tptp.instrument_THFTYPE_IiioI PROC) OBJ))))) (@ (@ tptp.contraryAttribute_THFTYPE_IoooI false) true) (@ (@ tptp.range_THFTYPE_IiioI tptp.lFrontFn_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i) (@ _let_547 tptp.lQuaternaryRelation_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGuiding_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lMilliFn_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i) (forall ((NUMBER $$unsorted) (REL (-> $$unsorted Bool))) (=> (@ (@ tptp.valence_THFTYPE_IIioIioI REL) NUMBER) (forall ((ROW $$unsorted)) (=> (@ REL ROW) (= (@ tptp.lListLengthFn_THFTYPE_IiiI (@ tptp.lListFn_THFTYPE_IiiI ROW)) NUMBER))))) (forall ((MONTH1 $$unsorted) (MONTH2 $$unsorted) (YEAR $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MONTH1) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lMarch_THFTYPE_i) YEAR)) (@ (@ tptp.instance_THFTYPE_IiioI MONTH2) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lApril_THFTYPE_i) YEAR))) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI MONTH1) MONTH2))) (forall ((CLASS $$unsorted) (FUNCTION $$unsorted)) (=> (and (@ (@ tptp.closedOn_THFTYPE_IiioI FUNCTION) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI FUNCTION) tptp.lBinaryFunction_THFTYPE_i)) (forall ((INST1 $$unsorted) (INST2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI INST1) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI INST2) CLASS)) (@ (@ tptp.instance_THFTYPE_IiioI (@ (@ (@ tptp.lAssignmentFn_THFTYPE_IiiiiI FUNCTION) INST1) INST2)) CLASS))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAquaticMammal_THFTYPE_i) tptp.lMammal_THFTYPE_i) (forall ((OBJ $$unsorted) (HOLE $$unsorted)) (=> (exists ((TIME $$unsorted)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.fills_THFTYPE_IiioI OBJ) HOLE))) (@ (@ tptp.attribute_THFTYPE_IiioI HOLE) tptp.lFillable_THFTYPE_i))) (forall ((CHANGE $$unsorted) (OBJ $$unsorted) (AGENT2 $$unsorted) (AGENT1 $$unsorted)) (let ((_let_1 (@ tptp.lWhenFn_THFTYPE_IiiI CHANGE))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI CHANGE) tptp.lChangeOfPossession_THFTYPE_i) (@ (@ tptp.origin_THFTYPE_IiioI CHANGE) AGENT1) (@ (@ tptp.destination_THFTYPE_IiioI CHANGE) AGENT2) (@ (@ tptp.instance_THFTYPE_IiioI AGENT1) tptp.lAgent_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI AGENT2) tptp.lAgent_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI CHANGE) OBJ)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_1)) (@ (@ tptp.possesses_THFTYPE_IiioI AGENT1) OBJ)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_1)) (@ (@ tptp.possesses_THFTYPE_IiioI AGENT2) OBJ)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGrowth_THFTYPE_i) tptp.lAutonomicProcess_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnilateralGetting_THFTYPE_i) tptp.lGetting_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lThursday_THFTYPE_i) tptp.lDay_THFTYPE_i) (forall ((LANG $$unsorted) (AGENT $$unsorted) (PROC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI LANG) tptp.lComputerLanguage_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PROC) AGENT) (@ (@ tptp.instrument_THFTYPE_IiioI PROC) LANG)) (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lMachine_THFTYPE_i))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSocialUnit_THFTYPE_i) tptp.lGroupOfPeople_THFTYPE_i) (forall ((AA $$unsorted) (AN $$unsorted) (PA $$unsorted) (PN $$unsorted) (G $$unsorted) (N $$unsorted) (M $$unsorted)) (let ((_let_1 (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI N) M))) (=> (and (@ (@ tptp.graphMeasure_THFTYPE_IiioI G) M) (@ (@ tptp.instance_THFTYPE_IiioI AN) tptp.lGraphNode_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI AA) tptp.lGraphArc_THFTYPE_i) (@ (@ tptp.abstractCounterpart_THFTYPE_IiioI AN) PN) (@ (@ tptp.abstractCounterpart_THFTYPE_IiioI AA) PA) (@ (@ tptp.arcWeight_THFTYPE_IiioI AA) _let_1)) (@ (@ tptp.measure_THFTYPE_IiioI PA) _let_1)))) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ1) tptp.lObject_THFTYPE_i) (@ (@ tptp.partlyLocated_THFTYPE_IiioI OBJ1) OBJ2)) (exists ((SUB $$unsorted)) (and (@ (@ tptp.part_THFTYPE_IiioI SUB) OBJ1) (@ (@ tptp.located_THFTYPE_IiioI SUB) OBJ2))))) (@ _let_543 tptp.lAnimalAnatomicalStructure_THFTYPE_i) (forall ((PHYS2 $$unsorted) (PHYS1 $$unsorted)) (= (@ (@ tptp.cooccur_THFTYPE_IiioI PHYS1) PHYS2) (= (@ tptp.lWhenFn_THFTYPE_IiiI PHYS1) (@ tptp.lWhenFn_THFTYPE_IiiI PHYS2)))) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted) (HEIGHT $$unsorted)) (=> (@ (@ (@ tptp.altitude_THFTYPE_IiiioI OBJ1) OBJ2) HEIGHT) (exists ((TOP $$unsorted)) (and (@ (@ tptp.top_THFTYPE_IiioI TOP) OBJ1) (@ (@ (@ tptp.distance_THFTYPE_IiiioI TOP) OBJ2) HEIGHT))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFieldOfStudy_THFTYPE_i) tptp.lProposition_THFTYPE_i) (forall ((OBJ $$unsorted) (HOLE $$unsorted)) (=> (@ (@ tptp.hole_THFTYPE_IiioI HOLE) OBJ) (not (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lHole_THFTYPE_i)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lStateChange_THFTYPE_i) tptp.lInternalChange_THFTYPE_i) (forall ((OBJ $$unsorted) (PART $$unsorted) (COLOR $$unsorted)) (=> (and (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) tptp.lMonochromatic_THFTYPE_i) (@ (@ tptp.superficialPart_THFTYPE_IiioI PART) OBJ) (@ (@ tptp.attribute_THFTYPE_IiioI PART) COLOR) (@ (@ tptp.instance_THFTYPE_IiioI COLOR) tptp.lPrimaryColor_THFTYPE_i)) (forall ((ELEMENT $$unsorted)) (=> (@ (@ tptp.superficialPart_THFTYPE_IiioI ELEMENT) OBJ) (@ (@ tptp.attribute_THFTYPE_IiioI ELEMENT) COLOR))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTouching_THFTYPE_i) tptp.lTransfer_THFTYPE_i) (forall ((PATIENT $$unsorted) (AGENT $$unsorted) (TRANSFER $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TRANSFER) tptp.lTransfer_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI TRANSFER) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI TRANSFER) PATIENT)) (not (= AGENT PATIENT)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRelationalAttribute_THFTYPE_i) tptp.lAttribute_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lElectron_THFTYPE_i) tptp.lSubatomicParticle_THFTYPE_i) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted) (OBJ3 $$unsorted)) (=> (= OBJ3 (@ (@ tptp.lMereologicalDifferenceFn_THFTYPE_IiiiI OBJ1) OBJ2)) (forall ((PART $$unsorted)) (let ((_let_1 (@ tptp.properPart_THFTYPE_IiioI PART))) (= (@ _let_1 OBJ3) (and (@ _let_1 OBJ1) (not (@ _let_1 OBJ2)))))))) (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lQuantityChange_THFTYPE_i) tptp.lIncreasing_THFTYPE_i) tptp.lDecreasing_THFTYPE_i) (forall ((ALT $$unsorted) (OBJ $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ALT) tptp.lSurfaceChange_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI ALT) OBJ)) (exists ((PART $$unsorted) (PROPERTY $$unsorted)) (let ((_let_1 (@ (@ tptp.attribute_THFTYPE_IiioI PART) PROPERTY))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI ALT))) (let ((_let_3 (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)))) (let ((_let_4 (not _let_1))) (let ((_let_5 (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)))) (and (@ (@ tptp.superficialPart_THFTYPE_IiioI PART) OBJ) (or (and (@ _let_5 _let_1) (@ _let_3 _let_4)) (and (@ _let_5 _let_4) (@ _let_3 _let_1)))))))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lReptile_THFTYPE_i) tptp.lColdBloodedVertebrate_THFTYPE_i) (forall ((ARC $$unsorted) (NODE1 $$unsorted) (NODE2 $$unsorted)) (=> (@ (@ (@ tptp.links_THFTYPE_IiiioI NODE1) NODE2) ARC) (@ (@ (@ tptp.links_THFTYPE_IiiioI NODE2) NODE1) ARC))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFriday_THFTYPE_i) tptp.lDay_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRadiatingElectromagnetic_THFTYPE_i) tptp.lRadiating_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLinguisticExpression_THFTYPE_i) tptp.lContentBearingPhysical_THFTYPE_i) (forall ((NANOUNIT $$unsorted) (UNIT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfMeasure_THFTYPE_i) (= NANOUNIT (@ tptp.lNanoFn_THFTYPE_IiiI UNIT))) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NANOUNIT) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n0dot000000001_THFTYPE_i) UNIT)))) (forall ((NUMBER $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI NUMBER) tptp.lComplexNumber_THFTYPE_i) (exists ((PART1 $$unsorted) (PART2 $$unsorted)) (and (= PART1 (@ tptp.lRealNumberFn_THFTYPE_IiiI NUMBER)) (= PART2 (@ tptp.lImaginaryPartFn_THFTYPE_IiiI NUMBER)))))) (forall ((AGENT $$unsorted) (DEFENSE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DEFENSE) tptp.lDefensiveManeuver_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI DEFENSE) AGENT)) (@ (@ (@ tptp.hasPurposeForAgent_THFTYPE_IioioI DEFENSE) (not (exists ((DAMAGE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI DAMAGE) tptp.lDamaging_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI DAMAGE) AGENT))))) AGENT))) (@ _let_546 tptp.lPredicate_THFTYPE_i) (forall ((LANG $$unsorted) (AGENT $$unsorted) (PROC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI LANG) tptp.lHumanLanguage_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PROC) AGENT) (@ (@ tptp.instrument_THFTYPE_IiioI PROC) LANG)) (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lHuman_THFTYPE_i))) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lMegaByte_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n1024_THFTYPE_i)) tptp.lKiloByte_THFTYPE_i)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lStaticWaterArea_THFTYPE_i) tptp.lWaterArea_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lComplementFn_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (forall ((BEV $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI BEV) tptp.lBeverage_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI BEV) tptp.lLiquid_THFTYPE_i))) (forall ((MONTH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MONTH) tptp.lSeptember_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI MONTH) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n30_THFTYPE_i) tptp.lDayDuration_THFTYPE_i)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lProbabilityAttribute_THFTYPE_i) tptp.lObjectiveNorm_THFTYPE_i) (forall ((X $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI X) tptp.lPositiveInteger_THFTYPE_i) (@ (@ tptp.gt_THFTYPE_IiioI X) tptp.n0_THFTYPE_i))) (forall ((POINT3 $$unsorted) (POINT2 $$unsorted) (POINT1 $$unsorted)) (= (@ (@ (@ tptp.temporallyBetween_THFTYPE_IiiioI POINT1) POINT2) POINT3) (and (@ (@ tptp.before_THFTYPE_IiioI POINT1) POINT2) (@ (@ tptp.before_THFTYPE_IiioI POINT2) POINT3)))) (@ _let_545 tptp.lBiologicallyActiveSubstance_THFTYPE_i) (forall ((AGENT2 $$unsorted) (AGENT1 $$unsorted)) (=> (@ (@ tptp.legalRelation_THFTYPE_IiioI AGENT1) AGENT2) (exists ((DECLARE $$unsorted) (OBLIGATION Bool)) (let ((_let_1 (@ (@ tptp.confersObligation_THFTYPE_IoiioI OBLIGATION) DECLARE))) (and (@ (@ tptp.instance_THFTYPE_IiioI DECLARE) tptp.lDeclaring_THFTYPE_i) (@ _let_1 AGENT1) (@ _let_1 AGENT2)))))) (forall ((GRAPH $$unsorted) (ARC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI GRAPH) tptp.lDirectedGraph_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI ARC) tptp.lGraphArc_THFTYPE_i) (@ (@ tptp.graphPart_THFTYPE_IiioI ARC) GRAPH)) (exists ((NODE1 $$unsorted) (NODE2 $$unsorted)) (and (= (@ tptp.lInitialNodeFn_THFTYPE_IiiI ARC) NODE1) (= (@ tptp.lTerminalNodeFn_THFTYPE_IiiI ARC) NODE2))))) (@ (@ tptp.inverse_THFTYPE_IIiioIIiioIoI tptp.greaterThanOrEqualTo_THFTYPE_IiioI) tptp.lessThanOrEqualTo_THFTYPE_IiioI) (@ _let_544 tptp.lIntentionalProcess_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMachine_THFTYPE_i) tptp.lDevice_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDay_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ (@ (@ (@ tptp.disjointDecomposition_THFTYPE_IiiiioI tptp.lNutrient_THFTYPE_i) tptp.lProtein_THFTYPE_i) tptp.lCarbohydrate_THFTYPE_i) tptp.lVitamin_THFTYPE_i) (@ _let_543 tptp.lReproductiveBody_THFTYPE_i) (forall ((OBJ $$unsorted) (KEEP $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI KEEP) tptp.lKeeping_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI KEEP) OBJ)) (exists ((PLACE $$unsorted)) (forall ((TIME $$unsorted)) (=> (@ (@ tptp.temporalPart_THFTYPE_IiioI TIME) (@ tptp.lWhenFn_THFTYPE_IiiI KEEP)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.located_THFTYPE_IiioI OBJ) PLACE))))))) (forall ((TRANS $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI TRANS) tptp.lTransportation_THFTYPE_i) (exists ((DEVICE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI DEVICE) tptp.lTransportationDevice_THFTYPE_i) (@ (@ tptp.instrument_THFTYPE_IiioI TRANS) DEVICE))))) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted) (OBJ3 $$unsorted)) (=> (= OBJ3 (@ (@ tptp.lMereologicalSumFn_THFTYPE_IiiiI OBJ1) OBJ2)) (forall ((PART $$unsorted)) (let ((_let_1 (@ tptp.part_THFTYPE_IiioI PART))) (= (@ _let_1 OBJ3) (or (@ _let_1 OBJ1) (@ _let_1 OBJ2))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDesigning_THFTYPE_i) tptp.lIntentionalPsychologicalProcess_THFTYPE_i) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lUncovering_THFTYPE_i) tptp.lCovering_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSystemeInternationalUnit_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i) (forall ((ROW2 $$unsorted) (LIST2 $$unsorted) (LIST1 $$unsorted) (ROW1 $$unsorted)) (=> (= LIST1 LIST2) (=> (and (= LIST1 (@ tptp.lListFn_THFTYPE_IiiI ROW1)) (= LIST2 (@ tptp.lListFn_THFTYPE_IiiI ROW2))) (forall ((NUMBER $$unsorted)) (= (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI (@ tptp.lListFn_THFTYPE_IiiI ROW1)) NUMBER) (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI (@ tptp.lListFn_THFTYPE_IiiI ROW2)) NUMBER)))))) (@ _let_542 tptp.lBodyMotion_THFTYPE_i) (forall ((STRUCTURE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI STRUCTURE) tptp.lAbnormalAnatomicalStructure_THFTYPE_i) (exists ((PROC $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lPathologicProcess_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI PROC) STRUCTURE))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFamilyGroup_THFTYPE_i) tptp.lGroupOfPeople_THFTYPE_i) (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lYearFn_THFTYPE_i) tptp.lYear_THFTYPE_i) (forall ((UNIT $$unsorted) (TERAUNIT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfMeasure_THFTYPE_i) (= TERAUNIT (@ tptp.lTeraFn_THFTYPE_IiiI UNIT))) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1_THFTYPE_i) TERAUNIT) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n1000000000000_THFTYPE_i) UNIT)))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lVelocityFn_THFTYPE_i) tptp.lFunctionQuantity_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPsychologicalProcess_THFTYPE_i) tptp.lBiologicalProcess_THFTYPE_i) (forall ((INT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INT) tptp.lInteger_THFTYPE_i) (@ (@ tptp.gt_THFTYPE_IiioI INT) (@ tptp.lPredecessorFn_THFTYPE_IiiI INT)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLeapYear_THFTYPE_i) tptp.lYear_THFTYPE_i) (forall ((FOOD $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI FOOD) tptp.lFood_THFTYPE_i) (exists ((NUTRIENT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI NUTRIENT) tptp.lNutrient_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI NUTRIENT) FOOD))))) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lMile_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n1609dot344_THFTYPE_i)) tptp.lMeter_THFTYPE_i)))) (forall ((OBJ $$unsorted) (PERSON $$unsorted)) (=> (@ (@ tptp.possesses_THFTYPE_IiioI PERSON) OBJ) (@ (@ tptp.modalAttribute_THFTYPE_IoioI (@ (@ tptp.uses_THFTYPE_IiioI OBJ) PERSON)) tptp.lPermission_THFTYPE_i))) (forall ((REGION $$unsorted)) (= (exists ((EMIT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI EMIT) tptp.lRadiatingLight_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI EMIT) REGION) (@ (@ tptp.instance_THFTYPE_IiioI REGION) tptp.lRegion_THFTYPE_i))) (@ (@ tptp.attribute_THFTYPE_IiioI REGION) tptp.lIlluminated_THFTYPE_i))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lReasoning_THFTYPE_i) tptp.lIntentionalPsychologicalProcess_THFTYPE_i) (forall ((TEMP $$unsorted) (BOIL $$unsorted) (PRES $$unsorted) (X $$unsorted) (Y $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI X) Y) (@ (@ tptp.subclass_THFTYPE_IiioI Y) tptp.lPureSubstance_THFTYPE_i) (@ (@ tptp.barometricPressure_THFTYPE_IiioI X) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI PRES) tptp.lInchMercury_THFTYPE_i)) (@ (@ tptp.gt_THFTYPE_IiioI tptp.n29dot92_THFTYPE_i) PRES) (@ (@ tptp.boilingPoint_THFTYPE_IiioI Y) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI BOIL) tptp.lKelvinDegree_THFTYPE_i)) (@ (@ tptp.measure_THFTYPE_IiioI X) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI TEMP) tptp.lKelvinDegree_THFTYPE_i)) (@ (@ tptp.gt_THFTYPE_IiioI TEMP) BOIL)) (@ (@ tptp.attribute_THFTYPE_IiioI X) tptp.lGas_THFTYPE_i))) (forall ((MINUTE $$unsorted) (NUMBER $$unsorted) (HOUR $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MINUTE) (@ (@ tptp.lMinuteFn_THFTYPE_IiiiI NUMBER) HOUR)) (@ (@ tptp.lt_THFTYPE_IiioI NUMBER) tptp.n60_THFTYPE_i))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDeciding_THFTYPE_i) tptp.lSelecting_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnitOfVolume_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i) (forall ((CLASS $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI CLASS) tptp.lClass_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI CLASS) tptp.lEntity_THFTYPE_i))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnitOfTemperature_THFTYPE_i) tptp.lNonCompositeUnitOfMeasure_THFTYPE_i) (forall ((INT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INT) tptp.lInteger_THFTYPE_i) (= INT (@ tptp.lSuccessorFn_THFTYPE_IiiI (@ tptp.lPredecessorFn_THFTYPE_IiiI INT))))) (forall ((REGION $$unsorted) (TIME $$unsorted) (THING $$unsorted)) (= (= (@ (@ tptp.lWhereFn_THFTYPE_IiiiI THING) TIME) REGION) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.exactlyLocated_THFTYPE_IiioI THING) REGION)))) (forall ((CLASS $$unsorted) (ID $$unsorted) (FUNCTION $$unsorted)) (=> (@ (@ tptp.identityElement_THFTYPE_IiioI FUNCTION) ID) (forall ((INST $$unsorted)) (=> (and (@ (@ (@ tptp.domain_THFTYPE_IiiioI FUNCTION) tptp.n1_THFTYPE_i) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI INST) CLASS)) (= (@ (@ (@ tptp.lAssignmentFn_THFTYPE_IiiiiI FUNCTION) ID) INST) INST))))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lDivisionFn_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ (@ tptp.subAttribute_THFTYPE_IiioI tptp.lPurchaseContract_THFTYPE_i) tptp.lContract_THFTYPE_i) (forall ((NUMBER $$unsorted) (MONTH $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MONTH) tptp.lMonth_THFTYPE_i) (@ (@ tptp.duration_THFTYPE_IiioI MONTH) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lDayDuration_THFTYPE_i))) (= (@ tptp.lCardinalityFn_THFTYPE_IiiI (@ (@ tptp.lTemporalCompositionFn_THFTYPE_IiiiI MONTH) tptp.lDay_THFTYPE_i)) NUMBER))) (forall ((DEVICE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DEVICE) tptp.lDevice_THFTYPE_i) (exists ((PROC $$unsorted)) (@ (@ tptp.hasPurpose_THFTYPE_IiooI DEVICE) (exists ((INST $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI INST) PROC) (@ (@ tptp.instrument_THFTYPE_IiioI INST) DEVICE))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRadiatingNuclear_THFTYPE_i) tptp.lRadiating_THFTYPE_i) (forall ((GRAPH $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI GRAPH) tptp.lGraphCircuit_THFTYPE_i) (exists ((NODE $$unsorted)) (and (= (@ tptp.lBeginNodeFn_THFTYPE_IiiI GRAPH) NODE) (= (@ tptp.lEndNodeFn_THFTYPE_IiiI GRAPH) NODE))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNovember_THFTYPE_i) tptp.lMonth_THFTYPE_i) (@ (@ tptp.inverse_THFTYPE_IIiioIIiioIoI tptp.smaller_THFTYPE_IiioI) tptp.larger_THFTYPE_IiioI) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lQuantity_THFTYPE_i) tptp.lAbstract_THFTYPE_i) (forall ((INTERVAL1 $$unsorted) (INTERVAL2 $$unsorted)) (= (@ (@ tptp.finishes_THFTYPE_IiioI INTERVAL1) INTERVAL2) (and (@ (@ tptp.before_THFTYPE_IiioI (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL2)) (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL1)) (= (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL2) (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL1))))) (forall ((HOLE $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (let ((_let_1 (@ tptp.hole_THFTYPE_IiioI HOLE))) (=> (and (@ _let_1 OBJ1) (@ (@ tptp.part_THFTYPE_IiioI OBJ1) OBJ2)) (or (@ (@ tptp.overlapsSpatially_THFTYPE_IiioI HOLE) OBJ2) (@ _let_1 OBJ2))))) (@ _let_541 tptp.lTissue_THFTYPE_i) (forall ((NUMBER $$unsorted) (CLASS1 $$unsorted) (REL $$unsorted) (CLASS2 $$unsorted)) (let ((_let_1 (@ (@ tptp.domain_THFTYPE_IiiioI REL) NUMBER))) (=> (and (@ _let_1 CLASS1) (@ _let_1 CLASS2)) (or (@ (@ tptp.subclass_THFTYPE_IiioI CLASS1) CLASS2) (@ (@ tptp.subclass_THFTYPE_IiioI CLASS2) CLASS1))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAngleMeasure_THFTYPE_i) tptp.lConstantQuantity_THFTYPE_i) (forall ((MORPH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MORPH) tptp.lMorpheme_THFTYPE_i) (not (exists ((OTHERMORPH $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI OTHERMORPH) tptp.lMorpheme_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI OTHERMORPH) MORPH) (not (= OTHERMORPH MORPH))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOctober_THFTYPE_i) tptp.lMonth_THFTYPE_i) (forall ((ORG $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lOrganism_THFTYPE_i) (exists ((ATTR $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lDevelopmentalAttribute_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI ORG) ATTR))))) (forall ((N2 $$unsorted) (N1 $$unsorted)) (=> (@ (@ tptp.multiplicativeFactor_THFTYPE_IiioI N1) N2) (exists ((I $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI I) tptp.lInteger_THFTYPE_i) (= N2 (@ (@ tptp.times_THFTYPE_IiiiI N1) I)))))) (forall ((OBJECT $$unsorted) (REF $$unsorted) (TIME $$unsorted) (DIRECTION $$unsorted) (DISTANCE $$unsorted)) (let ((_let_1 (@ tptp.measure_THFTYPE_IiioI OBJECT))) (=> (@ _let_1 (@ (@ (@ (@ tptp.lVelocityFn_THFTYPE_IiiiiiI DISTANCE) TIME) REF) DIRECTION)) (@ _let_1 (@ (@ tptp.lSpeedFn_THFTYPE_IiiiI DISTANCE) TIME))))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lBeginNodeFn_THFTYPE_i) tptp.lGraphNode_THFTYPE_i) (@ (@ tptp.rangeSubclass_THFTYPE_IiioI tptp.lTemporalCompositionFn_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (forall ((BONE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI BONE) tptp.lBone_THFTYPE_i) (exists ((VERT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI VERT) tptp.lVertebrate_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI BONE) VERT))))) (@ _let_540 tptp.lSelfConnectedObject_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSurfaceChange_THFTYPE_i) tptp.lInternalChange_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPureSubstance_THFTYPE_i) tptp.lSubstance_THFTYPE_i) (forall ((CLOUD $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI CLOUD) tptp.lCloud_THFTYPE_i) (@ (@ (@ tptp.capability_THFTYPE_IiIiioIioI tptp.lSeeing_THFTYPE_i) tptp.patient_THFTYPE_IiioI) CLOUD))) (forall ((REL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI REL) tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.valence_THFTYPE_IiioI REL) tptp.n2_THFTYPE_i))) (forall ((ANIMAL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ANIMAL) tptp.lAnimal_THFTYPE_i) (or (exists ((MOTION $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI MOTION) tptp.lBodyMotion_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI MOTION) ANIMAL))) (exists ((ATTR $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lBodyPosition_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI ANIMAL) ATTR)))))) (forall ((ORG1 $$unsorted) (ORG2 $$unsorted) (PARENT $$unsorted)) (=> (and (@ (@ tptp.sibling_THFTYPE_IiioI ORG1) ORG2) (@ (@ tptp.parent_THFTYPE_IiioI ORG1) PARENT)) (@ (@ tptp.parent_THFTYPE_IiioI ORG2) PARENT))) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lRankineDegree_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n1dot8_THFTYPE_i)) tptp.lKelvinDegree_THFTYPE_i)))) (forall ((OBJ $$unsorted) (PERCEPTION $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PERCEPTION) tptp.lPerception_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI PERCEPTION) OBJ)) (exists ((PROP $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PROP) tptp.lPerceptualAttribute_THFTYPE_i) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI PERCEPTION)) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) PROP)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRadiatingLight_THFTYPE_i) tptp.lRadiatingElectromagnetic_THFTYPE_i) (forall ((DETACH $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DETACH) tptp.lDetaching_THFTYPE_i) (exists ((OBJ $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lCorpuscularObject_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI DETACH) OBJ))))) (forall ((ORGANISM $$unsorted) (REP $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI REP) tptp.lAsexualReproduction_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI REP) ORGANISM)) (not (exists ((PARENT1 $$unsorted) (PARENT2 $$unsorted)) (let ((_let_1 (@ tptp.parent_THFTYPE_IiioI ORGANISM))) (and (@ _let_1 PARENT1) (@ _let_1 PARENT2) (not (= PARENT1 PARENT2)))))))) (@ _let_539 tptp.lInheritableRelation_THFTYPE_i) (@ _let_538 tptp.lDualObjectProcess_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBacterium_THFTYPE_i) tptp.lMicroorganism_THFTYPE_i) (@ _let_537 tptp.lGroup_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNonFloweringPlant_THFTYPE_i) tptp.lPlant_THFTYPE_i) (forall ((CLASS $$unsorted) (ROW $$unsorted)) (=> (@ (@ tptp.exhaustiveAttribute_THFTYPE_IiioI CLASS) ROW) (forall ((ATTR1 $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ATTR1) CLASS) (exists ((ATTR2 $$unsorted)) (and (@ (@ tptp.inList_THFTYPE_IiioI ATTR2) (@ tptp.lListFn_THFTYPE_IiiI ROW)) (= ATTR1 ATTR2))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCell_THFTYPE_i) tptp.lBodyPart_THFTYPE_i) (forall ((SET2 $$unsorted) (SET1 $$unsorted)) (=> (forall ((ELEMENT $$unsorted)) (let ((_let_1 (@ tptp.element_THFTYPE_IiioI ELEMENT))) (= (@ _let_1 SET1) (@ _let_1 SET2)))) (= SET1 SET2))) (forall ((PUB $$unsorted) (TEXT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PUB) tptp.lPublication_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI PUB) TEXT)) (@ (@ tptp.subclass_THFTYPE_IiioI TEXT) tptp.lText_THFTYPE_i))) (forall ((SEED $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI SEED) tptp.lSeed_THFTYPE_i) (exists ((PLANT $$unsorted) (TIME $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PLANT) tptp.lFloweringPlant_THFTYPE_i) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.part_THFTYPE_IiioI SEED) PLANT)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSaltWaterArea_THFTYPE_i) tptp.lWaterArea_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMan_THFTYPE_i) tptp.lHuman_THFTYPE_i) (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lGraphElement_THFTYPE_i) tptp.lGraphNode_THFTYPE_i) tptp.lGraphArc_THFTYPE_i) (forall ((ORG $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lOrganization_THFTYPE_i) (exists ((PURP Bool)) (forall ((MEMBER $$unsorted)) (=> (@ (@ tptp.member_THFTYPE_IiioI MEMBER) ORG) (@ (@ tptp.hasPurpose_THFTYPE_IiooI MEMBER) PURP)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSentientAgent_THFTYPE_i) tptp.lAgent_THFTYPE_i) (forall ((NUMBER $$unsorted) (PRED1 $$unsorted) (CLASS1 $$unsorted) (PRED2 $$unsorted)) (=> (and (@ (@ tptp.subrelation_THFTYPE_IiioI PRED1) PRED2) (@ (@ (@ tptp.domain_THFTYPE_IiiioI PRED2) NUMBER) CLASS1)) (@ (@ (@ tptp.domain_THFTYPE_IiiioI PRED1) NUMBER) CLASS1))) (forall ((CHILD $$unsorted) (PARENT $$unsorted)) (=> (@ (@ tptp.parent_THFTYPE_IiioI CHILD) PARENT) (@ (@ tptp.before_THFTYPE_IiioI (@ tptp.lBeginFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI PARENT))) (@ tptp.lBeginFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI CHILD))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMusic_THFTYPE_i) tptp.lRadiatingSound_THFTYPE_i) (forall ((NUMBER $$unsorted) (VOLUME $$unsorted) (SERIES $$unsorted)) (=> (= (@ (@ tptp.lSeriesVolumeFn_THFTYPE_IiiiI SERIES) NUMBER) VOLUME) (@ (@ tptp.subsumesContentClass_THFTYPE_IiioI SERIES) VOLUME))) (@ _let_536 tptp.lArtifact_THFTYPE_i) (forall ((RESIDENCE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI RESIDENCE) tptp.lTemporaryResidence_THFTYPE_i) (not (exists ((PERSON $$unsorted)) (@ (@ tptp.home_THFTYPE_IiioI PERSON) RESIDENCE))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFungus_THFTYPE_i) tptp.lOrganism_THFTYPE_i) (forall ((WAR $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI WAR) tptp.lWar_THFTYPE_i) (exists ((BATTLE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI BATTLE) tptp.lBattle_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI BATTLE) WAR))))) (forall ((CLASS1 $$unsorted) (CLASS2 $$unsorted)) (=> (= CLASS1 CLASS2) (forall ((THING $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI THING))) (= (@ _let_1 CLASS1) (@ _let_1 CLASS2)))))) (forall ((NUMBER $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI NUMBER) tptp.lQuantity_THFTYPE_i) (= (@ tptp.lReciprocalFn_THFTYPE_IiiI NUMBER) (@ (@ tptp.lExponentiationFn_THFTYPE_IiiiI NUMBER) tptp.minus1_THFTYPE_i)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSet_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMixture_THFTYPE_i) tptp.lSubstance_THFTYPE_i) (@ _let_535 tptp.lIntentionalProcess_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPhysicalSystem_THFTYPE_i) tptp.lPhysical_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lProton_THFTYPE_i) tptp.lSubatomicParticle_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMatriculation_THFTYPE_i) tptp.lJoiningAnOrganization_THFTYPE_i) (@ _let_531 tptp.lAgent_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lVocalCords_THFTYPE_i) tptp.lOrgan_THFTYPE_i) (forall ((FATHER $$unsorted) (CHILD $$unsorted)) (=> (@ (@ tptp.father_THFTYPE_IiioI CHILD) FATHER) (@ (@ tptp.attribute_THFTYPE_IiioI FATHER) tptp.lMale_THFTYPE_i))) (forall ((MONTH1 $$unsorted) (MONTH2 $$unsorted) (YEAR $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MONTH1) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lMay_THFTYPE_i) YEAR)) (@ (@ tptp.instance_THFTYPE_IiioI MONTH2) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lJune_THFTYPE_i) YEAR))) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI MONTH1) MONTH2))) (forall ((ORG $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lManufacturer_THFTYPE_i) (@ tptp.hasPurpose_THFTYPE_IooI (exists ((MANUFACTURE $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI MANUFACTURE))) (and (@ _let_1 tptp.lManufacture_THFTYPE_i) (@ _let_1 tptp.lCommercialService_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI MANUFACTURE) ORG))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnitOfInformation_THFTYPE_i) tptp.lNonCompositeUnitOfMeasure_THFTYPE_i) (forall ((N $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI N) tptp.lRealNumber_THFTYPE_i) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI N) tptp.lHorsepower_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI N) tptp.n746_THFTYPE_i)) tptp.lWatt_THFTYPE_i)))) (forall ((REL2 $$unsorted) (CLASS1 $$unsorted) (REL1 $$unsorted)) (=> (and (@ (@ tptp.subrelation_THFTYPE_IiioI REL1) REL2) (@ (@ tptp.range_THFTYPE_IiioI REL2) CLASS1)) (@ (@ tptp.range_THFTYPE_IiioI REL1) CLASS1))) (forall ((NUMBER $$unsorted) (ROW $$unsorted)) (=> (= (@ tptp.lLeastCommonMultipleFn_THFTYPE_IiiI ROW) NUMBER) (not (exists ((LESS $$unsorted)) (and (@ (@ tptp.lt_THFTYPE_IiioI LESS) NUMBER) (forall ((ELEMENT $$unsorted)) (=> (@ (@ tptp.inList_THFTYPE_IiioI ELEMENT) (@ tptp.lListFn_THFTYPE_IiiI ROW)) (= (@ (@ tptp.lRemainderFn_THFTYPE_IiiiI LESS) ELEMENT) tptp.n0_THFTYPE_i)))))))) (forall ((WEEK $$unsorted) (DAY1 $$unsorted) (DAY2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DAY1) tptp.lWednesday_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI DAY2) tptp.lThursday_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI WEEK) tptp.lWeek_THFTYPE_i) (@ (@ tptp.temporalPart_THFTYPE_IiioI DAY1) WEEK) (@ (@ tptp.temporalPart_THFTYPE_IiioI DAY2) WEEK)) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI DAY1) DAY2))) (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lNakedPromise_THFTYPE_i) tptp.lContract_THFTYPE_i) (forall ((AGENT $$unsorted) (FORMULA1 Bool) (FORMULA2 Bool)) (=> (@ (@ (@ tptp.prefers_THFTYPE_IioooI AGENT) FORMULA1) FORMULA2) (not (and (@ (@ tptp.truth_THFTYPE_IoooI FORMULA1) true) (@ (@ tptp.truth_THFTYPE_IoooI FORMULA2) true))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTimeInterval_THFTYPE_i) tptp.lTimePosition_THFTYPE_i) (@ _let_534 tptp.lAttaching_THFTYPE_i) (forall ((COLL $$unsorted) (OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (and (@ (@ tptp.member_THFTYPE_IiioI OBJ1) COLL) (@ (@ tptp.member_THFTYPE_IiioI OBJ2) COLL) (not (= OBJ1 OBJ2))) (not (@ (@ tptp.overlapsSpatially_THFTYPE_IiioI OBJ1) OBJ2)))) (forall ((NODE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI NODE) tptp.lGraphNode_THFTYPE_i) (exists ((OTHER $$unsorted) (ARC $$unsorted)) (@ (@ (@ tptp.links_THFTYPE_IiiioI NODE) OTHER) ARC)))) (forall ((CLASS $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI CLASS) tptp.lMutuallyDisjointClass_THFTYPE_i) (forall ((INST1 $$unsorted) (INST2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI INST1) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI INST2) INST1)) (exists ((INST3 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI INST3) CLASS) (not (@ (@ tptp.instance_THFTYPE_IiioI INST2) INST3)))))))) (forall ((MONTH1 $$unsorted) (MONTH2 $$unsorted) (YEAR $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MONTH1) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lFebruary_THFTYPE_i) YEAR)) (@ (@ tptp.instance_THFTYPE_IiioI MONTH2) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lMarch_THFTYPE_i) YEAR))) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI MONTH1) MONTH2))) (forall ((NUMBER $$unsorted) (PATH $$unsorted) (NUMBER2 $$unsorted) (NODE1 $$unsorted) (NUMBER1 $$unsorted) (NODE2 $$unsorted)) (=> (and (= (@ (@ tptp.lMinimalWeightedPathFn_THFTYPE_IiiiI NODE1) NODE2) PATH) (= (@ tptp.lPathWeightFn_THFTYPE_IiiI PATH) NUMBER)) (forall ((PATH2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PATH2) (@ (@ tptp.lGraphPathFn_THFTYPE_IiiiI NODE1) NODE2)) (= (@ tptp.lPathWeightFn_THFTYPE_IiiI PATH2) NUMBER2)) (@ (@ tptp.gtet_THFTYPE_IiioI NUMBER2) NUMBER1))))) (forall ((SUBPROC $$unsorted) (PROC $$unsorted)) (=> (@ (@ tptp.subProcess_THFTYPE_IiioI SUBPROC) PROC) (forall ((REGION $$unsorted)) (=> (@ (@ tptp.located_THFTYPE_IiioI PROC) REGION) (@ (@ tptp.located_THFTYPE_IiioI SUBPROC) REGION))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBodySubstance_THFTYPE_i) tptp.lSubstance_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCelsiusDegree_THFTYPE_i) tptp.lTemperatureMeasure_THFTYPE_i) (forall ((SUBPROC $$unsorted) (PROC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lProcess_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI SUBPROC) PROC)) (exists ((TIME $$unsorted)) (@ (@ tptp.time_THFTYPE_IiioI SUBPROC) TIME)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDevelopmentalAttribute_THFTYPE_i) tptp.lBiologicalAttribute_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lIsland_THFTYPE_i) tptp.lLandArea_THFTYPE_i) (forall ((CLASS $$unsorted) (FUNCTION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI FUNCTION) tptp.lCommutativeFunction_THFTYPE_i) (forall ((INST1 $$unsorted) (INST2 $$unsorted)) (let ((_let_1 (@ tptp.lAssignmentFn_THFTYPE_IiiiiI FUNCTION))) (=> (and (@ (@ (@ tptp.domain_THFTYPE_IiiioI FUNCTION) tptp.n1_THFTYPE_i) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI INST1) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI INST2) CLASS)) (= (@ (@ _let_1 INST1) INST2) (@ (@ _let_1 INST2) INST1))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRequesting_THFTYPE_i) tptp.lDirecting_THFTYPE_i) (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lOrganicObject_THFTYPE_i) tptp.lOrganism_THFTYPE_i) tptp.lAnatomicalStructure_THFTYPE_i) (forall ((OBJ $$unsorted) (PROCESS $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PROCESS) tptp.lStateChange_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI PROCESS) OBJ)) (exists ((PART $$unsorted) (STATE1 $$unsorted) (STATE2 $$unsorted)) (let ((_let_1 (@ tptp.attribute_THFTYPE_IiioI PART))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI PROCESS))) (and (@ (@ tptp.part_THFTYPE_IiioI PART) OBJ) (@ (@ tptp.instance_THFTYPE_IiioI STATE1) tptp.lPhysicalState_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI STATE2) tptp.lPhysicalState_THFTYPE_i) (not (= STATE1 STATE2)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (@ _let_1 STATE1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (@ _let_1 STATE2)))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnitOfAngularMeasure_THFTYPE_i) tptp.lNonCompositeUnitOfMeasure_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTemporaryResidence_THFTYPE_i) tptp.lResidence_THFTYPE_i) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) tptp.lNear_THFTYPE_i) (not (@ (@ tptp.connected_THFTYPE_IiioI OBJ1) OBJ2)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBodyJunction_THFTYPE_i) tptp.lBodyPart_THFTYPE_i) (forall ((NUMBER $$unsorted) (PRED1 $$unsorted) (PRED2 $$unsorted)) (=> (and (@ (@ tptp.subrelation_THFTYPE_IiioI PRED1) PRED2) (@ (@ tptp.valence_THFTYPE_IiioI PRED1) NUMBER)) (@ (@ tptp.valence_THFTYPE_IiioI PRED2) NUMBER))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSuspension_THFTYPE_i) tptp.lLiquidMixture_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnitOfDuration_THFTYPE_i) tptp.lNonCompositeUnitOfMeasure_THFTYPE_i) (forall ((BODY $$unsorted) (ORG $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI BODY) tptp.lReproductiveBody_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI BODY) ORG) (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lOrganism_THFTYPE_i)) (@ (@ tptp.attribute_THFTYPE_IiioI ORG) tptp.lFemale_THFTYPE_i))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lJune_THFTYPE_i) tptp.lMonth_THFTYPE_i) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (let ((_let_1 (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ2) OBJ1))) (= (@ (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2) tptp.lBelow_THFTYPE_i) (or (@ _let_1 tptp.lOn_THFTYPE_i) (@ _let_1 tptp.lAbove_THFTYPE_i))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lReading_THFTYPE_i) tptp.lContentDevelopment_THFTYPE_i) (forall ((E2 $$unsorted) (ATT $$unsorted) (E1 $$unsorted)) (=> (@ (@ (@ tptp.greaterThanByQuality_THFTYPE_IiiioI E1) E2) ATT) (not (= E2 E1)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSentence_THFTYPE_i) tptp.lLinguisticExpression_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInvalidDeductiveArgument_THFTYPE_i) tptp.lDeductiveArgument_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNormativeAttribute_THFTYPE_i) tptp.lRelationalAttribute_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPseudoGraph_THFTYPE_i) tptp.lGraph_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAbstract_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lGland_THFTYPE_i) tptp.lOrgan_THFTYPE_i) (forall ((CLASS $$unsorted) (PRED1 $$unsorted) (PRED2 $$unsorted)) (=> (and (@ (@ tptp.subrelation_THFTYPE_IiioI PRED1) PRED2) (@ (@ tptp.instance_THFTYPE_IiioI PRED2) CLASS) (@ (@ tptp.subclass_THFTYPE_IiioI CLASS) tptp.lInheritableRelation_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI PRED1) CLASS))) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lFootLength_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n0dot3048_THFTYPE_i)) tptp.lMeter_THFTYPE_i)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFrequencyMeasure_THFTYPE_i) tptp.lTimeDependentQuantity_THFTYPE_i) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted) (OBJ3 $$unsorted)) (= (@ (@ (@ tptp.connects_THFTYPE_IiiioI OBJ1) OBJ2) OBJ3) (@ (@ (@ tptp.between_THFTYPE_IiiioI OBJ2) OBJ1) OBJ3))) (forall ((NUMBER $$unsorted) (QUANT $$unsorted) (UNIT $$unsorted)) (=> (and (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) UNIT) QUANT) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfTemperature_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI QUANT) tptp.lTemperatureMeasure_THFTYPE_i))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnaryConstantFunctionQuantity_THFTYPE_i) tptp.lFunctionQuantity_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lCarbohydrate_THFTYPE_i) tptp.lNutrient_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lComplexNumber_THFTYPE_i) tptp.lNumber_THFTYPE_i) (forall ((NUMBER2 $$unsorted) (NUMBER1 $$unsorted)) (= (@ (@ tptp.ltet_THFTYPE_IiioI NUMBER1) NUMBER2) (or (= NUMBER1 NUMBER2) (@ (@ tptp.lt_THFTYPE_IiioI NUMBER1) NUMBER2)))) (forall ((ARTIFACT $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI ARTIFACT) tptp.lArtifact_THFTYPE_i) (exists ((MAKING $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI MAKING) tptp.lMaking_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI MAKING) ARTIFACT))))) (forall ((CLASS1 $$unsorted) (CLASS2 $$unsorted)) (=> (@ (@ tptp.subsumesContentClass_THFTYPE_IiioI CLASS1) CLASS2) (forall ((OBJ2 $$unsorted) (INFO Bool)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ2) CLASS2) (@ (@ tptp.containsInformation_THFTYPE_IiooI OBJ2) INFO)) (exists ((OBJ1 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI OBJ1) CLASS1) (@ (@ tptp.containsInformation_THFTYPE_IiooI OBJ1) INFO))))))) (forall ((TIME2 $$unsorted) (TIME1 $$unsorted)) (=> (= (@ (@ tptp.lRelativeTimeFn_THFTYPE_IiiiI TIME1) tptp.lMountainTimeZone_THFTYPE_i) TIME2) (= TIME2 (@ (@ tptp.plus_THFTYPE_IiiiI TIME1) tptp.n7_THFTYPE_i)))) (forall ((REQUEST $$unsorted) (FORMULA Bool) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI REQUEST) tptp.lRequesting_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI REQUEST) AGENT) (@ (@ tptp.patient_THFTYPE_IiooI REQUEST) FORMULA) (@ (@ tptp.instance_THFTYPE_IoioI FORMULA) tptp.lFormula_THFTYPE_i)) (@ (@ tptp.desires_THFTYPE_IiooI AGENT) FORMULA))) (forall ((ATTR $$unsorted) (THING $$unsorted)) (=> (and (@ (@ tptp.property_THFTYPE_IiioI THING) ATTR) (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lContestAttribute_THFTYPE_i)) (exists ((CONTEST $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI CONTEST) tptp.lContest_THFTYPE_i) (or (@ (@ tptp.agent_THFTYPE_IiioI CONTEST) THING) (@ (@ tptp.patient_THFTYPE_IiioI CONTEST) THING) (@ (@ tptp.subProcess_THFTYPE_IiioI THING) CONTEST)))))) (forall ((NUMBER $$unsorted) (NUMBER2 $$unsorted) (NUMBER1 $$unsorted)) (= (= (@ (@ tptp.lRemainderFn_THFTYPE_IiiiI NUMBER1) NUMBER2) NUMBER) (= (@ (@ tptp.plus_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI (@ tptp.lFloorFn_THFTYPE_IiiI (@ (@ tptp.div_THFTYPE_IiiiI NUMBER1) NUMBER2))) NUMBER2)) NUMBER) NUMBER1))) (@ (@ _let_533 tptp.lSpokenHumanLanguage_THFTYPE_i) tptp.lManualHumanLanguage_THFTYPE_i) (forall ((WEEK $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI WEEK) tptp.lWeek_THFTYPE_i) (= (@ tptp.lCardinalityFn_THFTYPE_IiiI (@ (@ tptp.lTemporalCompositionFn_THFTYPE_IiiiI WEEK) tptp.lDay_THFTYPE_i)) tptp.n7_THFTYPE_i))) (forall ((OBJ $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lContentBearingPhysical_THFTYPE_i) (exists ((THING $$unsorted)) (@ (@ tptp.represents_THFTYPE_IiioI OBJ) THING)))) (forall ((OBJ $$unsorted) (VIRUS $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI VIRUS) tptp.lVirus_THFTYPE_i) (@ (@ tptp.inhabits_THFTYPE_IiioI VIRUS) OBJ)) (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lOrganism_THFTYPE_i))) (forall ((ORG $$unsorted) (PROC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lBiologicalProcess_THFTYPE_i) (@ (@ tptp.experiencer_THFTYPE_IiioI PROC) ORG)) (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lOrganism_THFTYPE_i))) (forall ((POINT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI POINT) tptp.lTimePoint_THFTYPE_i) (not (= POINT tptp.lPositiveInfinity_THFTYPE_i))) (@ (@ tptp.before_THFTYPE_IiioI POINT) tptp.lPositiveInfinity_THFTYPE_i))) (@ _let_532 tptp.lCorpuscularObject_THFTYPE_i) (@ _let_528 tptp.lCommunication_THFTYPE_i) (forall ((AGENT $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lAgent_THFTYPE_i) (exists ((PROC $$unsorted)) (@ (@ tptp.agent_THFTYPE_IiioI PROC) AGENT)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPlantSubstance_THFTYPE_i) tptp.lBodySubstance_THFTYPE_i) (forall ((INT2 $$unsorted) (INT1 $$unsorted)) (=> (= (@ tptp.lSuccessorFn_THFTYPE_IiiI INT1) (@ tptp.lSuccessorFn_THFTYPE_IiiI INT2)) (= INT1 INT2))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lHominid_THFTYPE_i) tptp.lPrimate_THFTYPE_i) (forall ((Y $$unsorted) (YEAR $$unsorted) (MONTH $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI Y))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI MONTH) (@ (@ tptp.lMonthFn_THFTYPE_IiiiI tptp.lFebruary_THFTYPE_i) YEAR)) (@ _let_1 YEAR) (not (@ _let_1 tptp.lLeapYear_THFTYPE_i))) (@ (@ tptp.duration_THFTYPE_IiioI MONTH) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI tptp.n28_THFTYPE_i) tptp.lDayDuration_THFTYPE_i))))) (forall ((COOPERATE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI COOPERATE) tptp.lCooperation_THFTYPE_i) (exists ((PURP Bool)) (forall ((AGENT $$unsorted)) (=> (@ (@ tptp.agent_THFTYPE_IiioI COOPERATE) AGENT) (@ (@ (@ tptp.hasPurposeForAgent_THFTYPE_IioioI COOPERATE) PURP) AGENT)))))) (@ _let_531 tptp.lOrganicObject_THFTYPE_i) (forall ((DECISION $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DECISION) tptp.lLegalDecision_THFTYPE_i) (exists ((DECIDE $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI DECIDE) tptp.lDeciding_THFTYPE_i) (@ (@ tptp.earlier_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI DECIDE)) (@ tptp.lWhenFn_THFTYPE_IiiI DECISION)))))) (forall ((WEEK $$unsorted) (DAY1 $$unsorted) (DAY2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DAY1) tptp.lFriday_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI DAY2) tptp.lSaturday_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI WEEK) tptp.lWeek_THFTYPE_i) (@ (@ tptp.temporalPart_THFTYPE_IiioI DAY1) WEEK) (@ (@ tptp.temporalPart_THFTYPE_IiioI DAY2) WEEK)) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI DAY1) DAY2))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lLeastCommonMultipleFn_THFTYPE_i) tptp.lInteger_THFTYPE_i) (@ _let_530 tptp.lRelation_THFTYPE_i) (forall ((FORMULA Bool) (AGENT $$unsorted)) (=> (@ (@ tptp.knows_THFTYPE_IiooI AGENT) FORMULA) (@ (@ tptp.truth_THFTYPE_IoooI FORMULA) true))) (@ (@ tptp.disjoint_THFTYPE_IiioI tptp.lBird_THFTYPE_i) tptp.lMammal_THFTYPE_i) (forall ((ACT $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ACT) tptp.lOrganizationalProcess_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI ACT) AGENT)) (or (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lOrganization_THFTYPE_i) (exists ((ORG $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lOrganization_THFTYPE_i) (@ (@ tptp.member_THFTYPE_IiioI AGENT) ORG)))))) (@ _let_529 tptp.lLandArea_THFTYPE_i) (forall ((OBJ $$unsorted) (KILL $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI KILL) tptp.lKilling_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI KILL) OBJ)) (exists ((DEATH $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI DEATH) tptp.lDeath_THFTYPE_i) (@ (@ tptp.experiencer_THFTYPE_IiioI DEATH) OBJ) (@ (@ tptp.causes_THFTYPE_IiioI KILL) DEATH))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTransitiveRelation_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i) (forall ((OBJ $$unsorted) (AGENT $$unsorted) (SEE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI SEE) tptp.lSeeing_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI SEE) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI SEE) OBJ)) (exists ((PROP $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PROP) tptp.lColorAttribute_THFTYPE_i) (@ (@ tptp.knows_THFTYPE_IiooI AGENT) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) PROP)))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDancing_THFTYPE_i) tptp.lBodyMotion_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lParamilitaryOrganization_THFTYPE_i) tptp.lMilitaryForce_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMassMeasure_THFTYPE_i) tptp.lConstantQuantity_THFTYPE_i) (forall ((PERSON $$unsorted) (ORG $$unsorted) (FIRE $$unsorted)) (let ((_let_1 (@ (@ tptp.employs_THFTYPE_IiioI ORG) PERSON))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI FIRE))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI FIRE) tptp.lTerminatingEmployment_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lOrganization_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI FIRE) ORG) (@ (@ tptp.patient_THFTYPE_IiioI FIRE) PERSON)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) _let_1) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) (not _let_1))))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFactualText_THFTYPE_i) tptp.lText_THFTYPE_i) (@ _let_528 tptp.lBodyMotion_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBinaryNumber_THFTYPE_i) tptp.lRealNumber_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lImaginaryNumber_THFTYPE_i) tptp.lNumber_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lNutrient_THFTYPE_i) tptp.lBiologicallyActiveSubstance_THFTYPE_i) (forall ((AGENT $$unsorted)) (= (and (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lSentientAgent_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI AGENT) tptp.lLiving_THFTYPE_i)) (exists ((ATTR $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lConsciousnessAttribute_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI AGENT) ATTR))))) (@ _let_527 tptp.lServiceProcess_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lQuantityChange_THFTYPE_i) tptp.lInternalChange_THFTYPE_i) (forall ((OBJ $$unsorted) (GIVE $$unsorted) (AGENT2 $$unsorted) (AGENT1 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI GIVE) tptp.lGiving_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI GIVE) AGENT1) (@ (@ tptp.destination_THFTYPE_IiioI GIVE) AGENT2) (@ (@ tptp.instance_THFTYPE_IiioI AGENT2) tptp.lAgent_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI GIVE) OBJ)) (exists ((GET $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI GET) tptp.lGetting_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI GET) AGENT2) (@ (@ tptp.origin_THFTYPE_IiioI GET) AGENT1) (@ (@ tptp.patient_THFTYPE_IiioI GET) OBJ))))) (forall ((MOVE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MOVE) tptp.lManeuver_THFTYPE_i) (exists ((CONTEST $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI CONTEST) tptp.lContest_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI MOVE) CONTEST))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lVolumeMeasure_THFTYPE_i) tptp.lFunctionQuantity_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lDisseminating_THFTYPE_i) tptp.lCommunication_THFTYPE_i) (forall ((AGENT $$unsorted) (BIRTH $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI BIRTH) tptp.lBirth_THFTYPE_i) (@ (@ tptp.experiencer_THFTYPE_IiioI BIRTH) AGENT)) (exists ((DEATH $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI DEATH) tptp.lDeath_THFTYPE_i) (@ (@ tptp.experiencer_THFTYPE_IiioI DEATH) AGENT))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSmoke_THFTYPE_i) tptp.lCloud_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRoadway_THFTYPE_i) tptp.lLandTransitway_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lLengthMeasure_THFTYPE_i) tptp.lConstantQuantity_THFTYPE_i) (@ _let_526 tptp.lInheritableRelation_THFTYPE_i) (forall ((CP $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI CP) tptp.lComputerProgramming_THFTYPE_i) (exists ((C $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI C) tptp.lComputerProgram_THFTYPE_i) (@ (@ tptp.result_THFTYPE_IiioI CP) C))))) (forall ((NUMBER $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI NUMBER) tptp.lOddInteger_THFTYPE_i) (= (@ (@ tptp.lRemainderFn_THFTYPE_IiiiI NUMBER) tptp.n2_THFTYPE_i) tptp.n1_THFTYPE_i))) (@ _let_525 tptp.lPredicate_THFTYPE_i) (forall ((NUMBER $$unsorted) (QUANT $$unsorted) (UNIT $$unsorted)) (=> (and (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) UNIT) QUANT) (@ (@ tptp.instance_THFTYPE_IiioI UNIT) tptp.lUnitOfLength_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI QUANT) tptp.lLengthMeasure_THFTYPE_i))) (forall ((VALUE $$unsorted) (ITEM $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI ITEM))) (=> (and (@ (@ tptp.property_THFTYPE_IiioI ITEM) VALUE) (@ (@ tptp.instance_THFTYPE_IiioI VALUE) tptp.lTruthValue_THFTYPE_i)) (or (@ _let_1 tptp.lSentence_THFTYPE_i) (@ _let_1 tptp.lProposition_THFTYPE_i))))) (forall ((NUMBER $$unsorted) (CLASS $$unsorted) (REL (-> $$unsorted Bool)) (ROW $$unsorted)) (=> (and (@ (@ (@ tptp.domain_THFTYPE_IIioIiioI REL) NUMBER) CLASS) (@ REL ROW)) (@ (@ tptp.instance_THFTYPE_IiioI (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI (@ tptp.lListFn_THFTYPE_IiiI ROW)) NUMBER)) CLASS))) (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lUnconscious_THFTYPE_i) tptp.lAwake_THFTYPE_i) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lMillimeter_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n0dot001_THFTYPE_i)) tptp.lMeter_THFTYPE_i)))) (@ _let_524 tptp.lInteger_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lGreatestCommonDivisorFn_THFTYPE_i) tptp.lInteger_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lPicoFn_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lProduct_THFTYPE_i) tptp.lArtifact_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lRelativeComplementFn_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (forall ((STUFF $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI STUFF) tptp.lTissue_THFTYPE_i) (exists ((ORGANISM $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ORGANISM) tptp.lOrganism_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI STUFF) ORGANISM))))) (forall ((CLASS1 $$unsorted) (REL $$unsorted) (CLASS2 $$unsorted)) (let ((_let_1 (@ tptp.range_THFTYPE_IiioI REL))) (=> (and (@ _let_1 CLASS1) (@ _let_1 CLASS2)) (or (@ (@ tptp.subclass_THFTYPE_IiioI CLASS1) CLASS2) (@ (@ tptp.subclass_THFTYPE_IiioI CLASS2) CLASS1))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lArtificialLanguage_THFTYPE_i) tptp.lLanguage_THFTYPE_i) (@ _let_523 tptp.lBuilding_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMineral_THFTYPE_i) tptp.lSubstance_THFTYPE_i) (forall ((OBJ $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI OBJ) tptp.lSolution_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI OBJ) tptp.lLiquid_THFTYPE_i))) (forall ((TIME $$unsorted) (ATTR $$unsorted) (ORGANISM $$unsorted)) (let ((_let_1 (@ tptp.attribute_THFTYPE_IiioI ORGANISM))) (let ((_let_2 (@ tptp.holdsDuring_THFTYPE_IiooI TIME))) (=> (@ (@ tptp.instance_THFTYPE_IiioI ATTR) tptp.lPsychologicalAttribute_THFTYPE_i) (=> (@ _let_2 (@ _let_1 ATTR)) (@ _let_2 (@ _let_1 tptp.lLiving_THFTYPE_i))))))) (forall ((PROPOSITION Bool) (AGENT $$unsorted) (JUDGE $$unsorted)) (let ((_let_1 (@ (@ tptp.believes_THFTYPE_IiooI AGENT) PROPOSITION))) (let ((_let_2 (@ tptp.lWhenFn_THFTYPE_IiiI JUDGE))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI JUDGE) tptp.lJudging_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI JUDGE) AGENT) (@ (@ tptp.patient_THFTYPE_IiooI JUDGE) PROPOSITION)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lBeginFn_THFTYPE_IiiI _let_2)) (not _let_1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lEndFn_THFTYPE_IiiI _let_2)) _let_1)))))) (forall ((AGENT $$unsorted)) (let ((_let_1 (@ tptp.attribute_THFTYPE_IiioI AGENT))) (=> (or (@ _let_1 tptp.lAsleep_THFTYPE_i) (@ _let_1 tptp.lAwake_THFTYPE_i)) (@ _let_1 tptp.lLiving_THFTYPE_i)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWoman_THFTYPE_i) tptp.lHuman_THFTYPE_i) (forall ((TIME $$unsorted) (FORMULA Bool) (ENTITY $$unsorted) (NORM $$unsorted)) (let ((_let_1 (@ (@ tptp.modalAttribute_THFTYPE_IoioI FORMULA) NORM))) (=> (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ (@ tptp.confersNorm_THFTYPE_IioioI ENTITY) FORMULA) NORM)) (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lImmediatePastFn_THFTYPE_IiiI TIME)) (not _let_1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lImmediateFutureFn_THFTYPE_IiiI TIME)) _let_1))))) (forall ((WEEK $$unsorted) (DAY1 $$unsorted) (DAY2 $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI DAY1) tptp.lMonday_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI DAY2) tptp.lTuesday_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI WEEK) tptp.lWeek_THFTYPE_i) (@ (@ tptp.temporalPart_THFTYPE_IiioI DAY1) WEEK) (@ (@ tptp.temporalPart_THFTYPE_IiioI DAY2) WEEK)) (@ (@ tptp.meetsTemporally_THFTYPE_IiioI DAY1) DAY2))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRadiating_THFTYPE_i) tptp.lMotion_THFTYPE_i) (forall ((OBJ $$unsorted) (TIME $$unsorted) (AGENT2 $$unsorted) (AGENT1 $$unsorted)) (let ((_let_1 (@ tptp.holdsDuring_THFTYPE_IiooI TIME))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TIME) tptp.lTimePosition_THFTYPE_i) (@ _let_1 (@ (@ tptp.possesses_THFTYPE_IiioI AGENT1) OBJ)) (@ _let_1 (@ (@ tptp.possesses_THFTYPE_IiioI AGENT2) OBJ))) (= AGENT1 AGENT2)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSunday_THFTYPE_i) tptp.lDay_THFTYPE_i) (forall ((PROC2 $$unsorted) (PROC1 $$unsorted)) (=> (@ (@ tptp.inhibits_THFTYPE_IiioI PROC1) PROC2) (forall ((TIME $$unsorted) (PLACE $$unsorted)) (let ((_let_1 (@ tptp.holdsDuring_THFTYPE_IiooI TIME))) (@ (@ tptp.decreasesLikelihood_THFTYPE_IoooI (@ _let_1 (exists ((INST1 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI INST1) PROC1) (@ (@ tptp.located_THFTYPE_IiioI INST1) PLACE))))) (@ _let_1 (exists ((INST2 $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI INST2) PROC2) (@ (@ tptp.located_THFTYPE_IiioI INST2) PLACE))))))))) (forall ((OBJ $$unsorted) (HOLE2 $$unsorted) (HOLE1 $$unsorted)) (=> (and (@ (@ tptp.fills_THFTYPE_IiioI OBJ) HOLE1) (@ (@ tptp.properPart_THFTYPE_IiioI HOLE2) HOLE1)) (@ (@ tptp.completelyFills_THFTYPE_IiioI OBJ) HOLE2))) (forall ((EVENT $$unsorted) (AGENT $$unsorted) (AREA $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI EVENT))) (=> (and (@ _let_1 tptp.lElection_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI EVENT) AGENT) (@ (@ tptp.instance_THFTYPE_IiioI AREA) tptp.lGeopoliticalArea_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI AGENT) (@ tptp.lGovernmentFn_THFTYPE_IiiI AREA))) (@ _let_1 tptp.lPoliticalProcess_THFTYPE_i)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInternalAttribute_THFTYPE_i) tptp.lAttribute_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSocialInteraction_THFTYPE_i) tptp.lIntentionalProcess_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInvestigating_THFTYPE_i) tptp.lIntentionalPsychologicalProcess_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMay_THFTYPE_i) tptp.lMonth_THFTYPE_i) (@ _let_522 tptp.lInheritableRelation_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAgeGroup_THFTYPE_i) tptp.lGroupOfPeople_THFTYPE_i) (forall ((FORMULA Bool) (AGENT $$unsorted) (STATE $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI STATE) tptp.lStating_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI STATE) AGENT) (@ (@ tptp.patient_THFTYPE_IiooI STATE) FORMULA) (@ (@ tptp.instance_THFTYPE_IoioI FORMULA) tptp.lFormula_THFTYPE_i)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI (@ tptp.lWhenFn_THFTYPE_IiiI STATE)) (@ (@ tptp.believes_THFTYPE_IiooI AGENT) FORMULA)))) (forall ((DEVICE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI DEVICE) tptp.lTransportationDevice_THFTYPE_i) (@ (@ (@ tptp.capability_THFTYPE_IiIiioIioI tptp.lTransportation_THFTYPE_i) tptp.instrument_THFTYPE_IiioI) DEVICE))) (forall ((VOTE $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI VOTE) tptp.lVoting_THFTYPE_i) (exists ((ELECT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI ELECT) tptp.lElection_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI VOTE) ELECT))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lFreezing_THFTYPE_i) tptp.lStateChange_THFTYPE_i) (forall ((NUMBER $$unsorted)) (=> (= NUMBER (@ (@ tptp.times_THFTYPE_IiiiI tptp.n1_THFTYPE_i) NUMBER)) (= (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI NUMBER) tptp.lKilometer_THFTYPE_i) (@ (@ tptp.lMeasureFn_THFTYPE_IiiiI (@ (@ tptp.times_THFTYPE_IiiiI NUMBER) tptp.n1000_THFTYPE_i)) tptp.lMeter_THFTYPE_i)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lValidDeductiveArgument_THFTYPE_i) tptp.lDeductiveArgument_THFTYPE_i) (forall ((PROCESS $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PROCESS) tptp.lPrecipitation_THFTYPE_i) (exists ((STUFF $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI STUFF) tptp.lWater_THFTYPE_i) (@ (@ tptp.patient_THFTYPE_IiioI PROCESS) STUFF))))) (@ _let_521 tptp.lPredicate_THFTYPE_i) (forall ((OBJ $$unsorted) (PROCESS $$unsorted)) (=> (@ (@ tptp.located_THFTYPE_IiioI PROCESS) OBJ) (forall ((SUB $$unsorted)) (=> (@ (@ tptp.subProcess_THFTYPE_IiioI SUB) PROCESS) (@ (@ tptp.located_THFTYPE_IiioI SUB) OBJ))))) (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ tptp.interiorPart_THFTYPE_IiioI OBJ1) OBJ2) (forall ((PART $$unsorted)) (=> (@ (@ tptp.superficialPart_THFTYPE_IiioI PART) OBJ2) (not (@ (@ tptp.overlapsSpatially_THFTYPE_IiioI OBJ1) PART)))))) (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lDry_THFTYPE_i) tptp.lDamp_THFTYPE_i) (forall ((ITEM $$unsorted) (LIST $$unsorted)) (=> (@ (@ tptp.inList_THFTYPE_IiioI ITEM) LIST) (exists ((NUMBER $$unsorted)) (= (@ (@ tptp.lListOrderFn_THFTYPE_IiiiI LIST) NUMBER) ITEM)))) (@ _let_284 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_509 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_502 tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i) (@ _let_294 tptp.lRelationExtendedToQuantities_THFTYPE_i) (@ _let_411 tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_36 tptp.lAssociativeFunction_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lCutSetFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i) (@ _let_191 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_298 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_284 tptp.lBinaryFunction_THFTYPE_i) (@ (@ _let_305 tptp.n2_THFTYPE_i) tptp.lGeometricFigure_THFTYPE_i) (@ (@ _let_500 tptp.n2_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IiIiioIoI tptp.relatedExternalConcept_THFTYPE_i) tptp.relatedInternalConcept_THFTYPE_IiioI) (@ _let_215 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_200 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ _let_519 tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiiIiioI tptp.lEditionFn_THFTYPE_IiiiI) tptp.n2_THFTYPE_i) tptp.lPositiveInteger_THFTYPE_i) (@ (@ _let_122 tptp.n2_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ (@ _let_514 tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i) (@ _let_462 tptp.lTransitiveRelation_THFTYPE_i) (@ _let_520 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lUnilateralGetting_THFTYPE_i) tptp.lUnilateralGiving_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lFahrenheitDegree_THFTYPE_i) tptp.lUnitOfTemperature_THFTYPE_i) (@ _let_445 tptp.lPartialOrderingRelation_THFTYPE_i) (@ _let_249 tptp.lSystemeInternationalUnit_THFTYPE_i) (@ _let_431 tptp.lPartialOrderingRelation_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IiIiiiIoI tptp.lSecond_THFTYPE_i) tptp.lSecondFn_THFTYPE_IiiiI) (@ _let_215 tptp.lTransitiveRelation_THFTYPE_i) (@ _let_479 tptp.lTransitiveRelation_THFTYPE_i) (@ _let_295 tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_108 tptp.lPredicate_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.subOrganization_THFTYPE_IiioI) tptp.lPartialOrderingRelation_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lPowerSetFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (@ _let_133 tptp.located_THFTYPE_IiioI) (@ _let_511 tptp.lTransitiveRelation_THFTYPE_i) (@ _let_362 tptp.lSymmetricRelation_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.causes_THFTYPE_IiioI) tptp.relatedEvent_THFTYPE_IiioI) (@ (@ (@ tptp.domain_THFTYPE_IIooIiioI tptp.lPremisesFn_THFTYPE_IooI) tptp.n1_THFTYPE_i) tptp.lArgument_THFTYPE_i) (@ _let_508 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ _let_478 tptp.n2_THFTYPE_i) tptp.lProposition_THFTYPE_i) (@ _let_427 tptp.lTernaryPredicate_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lKiloFn_THFTYPE_i) tptp.lUnitOfMeasureMultiplier_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lCentimeter_THFTYPE_i) tptp.lUnitOfLength_THFTYPE_i) (@ (@ _let_504 tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ _let_406 tptp.lIrreflexiveRelation_THFTYPE_i) (@ (@ _let_111 tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.sibling_THFTYPE_IiioI) tptp.familyRelation_THFTYPE_IiioI) (@ (@ _let_168 tptp.n1_THFTYPE_i) tptp.lContentBearingObject_THFTYPE_i) (@ (@ _let_497 tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ _let_472 tptp.lTemporalRelation_THFTYPE_i) (@ (@ _let_257 tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.finishes_THFTYPE_IiioI) tptp.temporalPart_THFTYPE_IiioI) (@ _let_213 tptp.lCommutativeFunction_THFTYPE_i) (@ (@ _let_211 tptp.n2_THFTYPE_i) tptp.lInteger_THFTYPE_i) (@ (@ _let_510 tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMmMercury_THFTYPE_i) tptp.lUnitOfAtmosphericPressure_THFTYPE_i) (@ (@ _let_434 tptp.n2_THFTYPE_i) tptp.lVolumeMeasure_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIoioIIiioIoI tptp.modalAttribute_THFTYPE_IoioI) tptp.property_THFTYPE_IiioI) (@ _let_416 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ _let_130 tptp.n3_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (@ (@ _let_492 tptp.n1_THFTYPE_i) tptp.lGeopoliticalArea_THFTYPE_i) (@ _let_408 tptp.lBinaryFunction_THFTYPE_i) (@ (@ _let_517 tptp.n2_THFTYPE_i) tptp.lGraphNode_THFTYPE_i) (@ _let_347 tptp.lUnaryFunction_THFTYPE_i) (@ _let_520 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_126 tptp.n2_THFTYPE_i) tptp.lTimeDuration_THFTYPE_i) (@ (@ _let_222 tptp.n2_THFTYPE_i) tptp.lPhysicalSystem_THFTYPE_i) (@ (@ _let_44 tptp.n3_THFTYPE_i) tptp.lTimePoint_THFTYPE_i) (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiiiIiioI tptp.lSecondFn_THFTYPE_IiiiI) tptp.n2_THFTYPE_i) tptp.lMinute_THFTYPE_i) (@ _let_208 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_63 tptp.lUnaryFunction_THFTYPE_i) (@ _let_468 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IiIiioIoI tptp.lChangeOfPossession_THFTYPE_i) tptp.possesses_THFTYPE_IiioI) (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lExtensionFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lAttribute_THFTYPE_i) (@ (@ _let_400 tptp.n2_THFTYPE_i) tptp.lEngineeringComponent_THFTYPE_i) (@ _let_507 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.relatedInternalConcept_THFTYPE_IiioI) tptp.lEquivalenceRelation_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lPredecessorFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lInteger_THFTYPE_i) (@ _let_472 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_482 tptp.n2_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ _let_511 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lSignumFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lRealNumber_THFTYPE_i) (@ _let_248 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lMagnitudeFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lPhysicalQuantity_THFTYPE_i) (@ _let_424 tptp.lTransitiveRelation_THFTYPE_i) (@ _let_498 tptp.lUnitOfAngularMeasure_THFTYPE_i) (@ (@ _let_320 tptp.n2_THFTYPE_i) tptp.lAttribute_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IiIiiiIoI tptp.lIntervalFn_THFTYPE_i) tptp.lRecurrentTimeIntervalFn_THFTYPE_IiiiI) (@ _let_343 tptp.lBinaryFunction_THFTYPE_i) (@ (@ _let_264 tptp.n1_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ _let_516 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_430 tptp.n2_THFTYPE_i) tptp.lAgent_THFTYPE_i) (@ (@ _let_410 tptp.n1_THFTYPE_i) tptp.lList_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.properPart_THFTYPE_IiioI) tptp.part_THFTYPE_IiioI) (@ (@ _let_464 tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.mother_THFTYPE_IiioI) tptp.lSingleValuedRelation_THFTYPE_i) (@ (@ _let_484 tptp.n2_THFTYPE_i) tptp.lTimeZone_THFTYPE_i) (@ (@ _let_382 tptp.n2_THFTYPE_i) tptp.lLengthMeasure_THFTYPE_i) (@ _let_105 tptp.lUnaryFunction_THFTYPE_i) (@ _let_107 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ _let_202 tptp.n1_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiooIoI tptp.wants_THFTYPE_IiioI) tptp.desires_THFTYPE_IiooI) (@ _let_518 tptp.lBinaryFunction_THFTYPE_i) (@ (@ _let_414 tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ _let_282 tptp.lSystemeInternationalUnit_THFTYPE_i) (@ (@ _let_425 tptp.n2_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiiiioIoI tptp.exhaustiveDecomposition_THFTYPE_IiioI) tptp.partition_THFTYPE_IiiiioI) (@ (@ tptp.subrelation_THFTYPE_IIiiioIIiiioIoI tptp.altitude_THFTYPE_IiiioI) tptp.distance_THFTYPE_IiiioI) (@ (@ _let_503 tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.meltingPoint_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lTemperatureMeasure_THFTYPE_i) (@ _let_490 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_271 tptp.n2_THFTYPE_i) tptp.lCurrencyMeasure_THFTYPE_i) (@ (@ _let_29 tptp.n1_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i) (@ (@ _let_319 tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lPastFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lTimePosition_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiioIoI tptp.member_THFTYPE_IiioI) tptp.element_THFTYPE_IiioI) (@ _let_103 tptp.lSpatialRelation_THFTYPE_i) (@ (@ _let_46 tptp.n1_THFTYPE_i) tptp.lArgument_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.width_THFTYPE_IiioI) tptp.linearExtent_THFTYPE_IiioI) (@ (@ _let_519 tptp.n1_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i) (@ _let_73 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_442 tptp.n2_THFTYPE_i) tptp.lProposition_THFTYPE_i) (@ _let_407 tptp.lIrreflexiveRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lWhite_THFTYPE_i) tptp.lPrimaryColor_THFTYPE_i) (@ _let_518 tptp.lTemporalRelation_THFTYPE_i) (@ _let_343 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_499 tptp.meetsSpatially_THFTYPE_IiioI) (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.publishes_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lText_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lRankineDegree_THFTYPE_i) tptp.lUnitOfTemperature_THFTYPE_i) (@ (@ _let_517 tptp.n1_THFTYPE_i) tptp.lGraphNode_THFTYPE_i) (@ _let_118 tptp.lRelationExtendedToQuantities_THFTYPE_i) (@ (@ _let_485 tptp.n2_THFTYPE_i) tptp.lNation_THFTYPE_i) (@ (@ _let_253 tptp.n4_THFTYPE_i) tptp.lDirectionalAttribute_THFTYPE_i) (@ (@ _let_515 tptp.n1_THFTYPE_i) tptp.lCorpuscularObject_THFTYPE_i) (@ _let_493 tptp.lVariableArityRelation_THFTYPE_i) (@ _let_516 tptp.lEquivalenceRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lFlammable_THFTYPE_i) tptp.lPhysicalAttribute_THFTYPE_i) (@ _let_241 tptp.lPropositionalAttitude_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lTeraFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i) (@ _let_450 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_224 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.authors_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lAgent_THFTYPE_i) (@ (@ _let_24 tptp.n1_THFTYPE_i) tptp.lContentBearingObject_THFTYPE_i) (@ (@ _let_371 tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ _let_456 tptp.lTernaryPredicate_THFTYPE_i) (@ (@ _let_495 tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ _let_6 tptp.lTransitiveRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.occupiesPosition_THFTYPE_IiiioI) tptp.lTernaryPredicate_THFTYPE_i) (@ _let_19 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lIntervalFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i) (@ _let_338 tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_89 tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_460 tptp.lSymmetricRelation_THFTYPE_i) (@ _let_176 tptp.lUnaryFunction_THFTYPE_i) (@ (@ _let_185 tptp.n2_THFTYPE_i) tptp.lGraphNode_THFTYPE_i) (@ _let_140 tptp.lUnaryFunction_THFTYPE_i) (@ (@ _let_437 tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ _let_451 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_118 tptp.lPartialOrderingRelation_THFTYPE_i) (@ _let_300 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.completelyFills_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_339 tptp.lSystemeInternationalUnit_THFTYPE_i) (@ _let_367 tptp.lProbabilityRelation_THFTYPE_i) (@ _let_30 tptp.lUnaryFunction_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lElectronVolt_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i) (@ (@ _let_378 tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ _let_254 tptp.lIrreflexiveRelation_THFTYPE_i) (@ _let_390 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ _let_471 tptp.n2_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i) (@ _let_272 tptp.lIrreflexiveRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lAdjacent_THFTYPE_i) tptp.lSymmetricPositionalAttribute_THFTYPE_i) (@ _let_459 tptp.lIrreflexiveRelation_THFTYPE_i) (@ (@ _let_405 tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ _let_394 tptp.lUnaryFunction_THFTYPE_i) (@ (@ _let_233 tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i) (@ (@ _let_40 tptp.n2_THFTYPE_i) tptp.lUnitOfAtmosphericPressure_THFTYPE_i) (@ _let_97 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.equivalentContentInstance_THFTYPE_IiioI) tptp.lEquivalenceRelation_THFTYPE_i) (@ (@ _let_57 tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ _let_459 tptp.lTransitiveRelation_THFTYPE_i) (@ (@ _let_512 tptp.n1_THFTYPE_i) tptp.lMonth_THFTYPE_i) (@ (@ tptp.disjointRelation_THFTYPE_IiioI tptp.subsumedExternalConcept_THFTYPE_i) tptp.subsumingExternalConcept_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lMereologicalSumFn_THFTYPE_i) tptp.lMereologicalDifferenceFn_THFTYPE_i) (@ (@ _let_515 tptp.n2_THFTYPE_i) tptp.lCorpuscularObject_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.properlyFills_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ _let_454 tptp.n2_THFTYPE_i) tptp.lProposition_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIioioIioI tptp.deprivesNorm_THFTYPE_IioioI) tptp.lTernaryPredicate_THFTYPE_i) (@ _let_361 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_467 tptp.lBinaryFunction_THFTYPE_i) (@ (@ _let_514 tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ (@ _let_170 tptp.n2_THFTYPE_i) tptp.lEngineeringComponent_THFTYPE_i) (@ _let_308 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.surface_THFTYPE_IiioI) tptp.superficialPart_THFTYPE_IiioI) (@ _let_513 tptp.lIrreflexiveRelation_THFTYPE_i) (@ (@ _let_201 tptp.n2_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i) (@ _let_513 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_491 tptp.lVariableArityRelation_THFTYPE_i) (@ _let_132 tptp.lIrreflexiveRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lWest_THFTYPE_i) tptp.lDirectionalAttribute_THFTYPE_i) (@ _let_501 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lTeraFn_THFTYPE_IiiI) tptp.lUnitOfMeasureMultiplier_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.wife_THFTYPE_IiioI) tptp.spouse_THFTYPE_IiioI) (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lMinute_THFTYPE_i) tptp.lMinuteDuration_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lDayDuration_THFTYPE_i) tptp.lUnitOfDuration_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lRigid_THFTYPE_i) tptp.lInternalAttribute_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPossibility_THFTYPE_i) tptp.lAlethicAttribute_THFTYPE_i) (@ _let_256 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lRationalNumberFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lNumber_THFTYPE_i) (@ _let_487 tptp.familyRelation_THFTYPE_IiioI) (@ (@ _let_318 tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i) (@ _let_223 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiiiIiioI tptp.lMinuteFn_THFTYPE_IiiiI) tptp.n2_THFTYPE_i) tptp.lHour_THFTYPE_i) (@ _let_443 tptp.lBinaryFunction_THFTYPE_i) (@ _let_494 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_386 tptp.lVariableArityRelation_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIioI tptp.spouse_THFTYPE_IiioI) tptp.mutualAcquaintance_THFTYPE_i) (@ (@ _let_363 tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ _let_308 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.fills_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_505 tptp.lSystemeInternationalUnit_THFTYPE_i) (@ _let_72 tptp.lSingleValuedRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lFullyFormed_THFTYPE_i) tptp.lDevelopmentalAttribute_THFTYPE_i) (@ (@ _let_489 tptp.n1_THFTYPE_i) tptp.lAbstract_THFTYPE_i) (@ (@ _let_313 tptp.n1_THFTYPE_i) tptp.lGeometricPoint_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.starts_THFTYPE_IiioI) tptp.temporalPart_THFTYPE_IiioI) (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.boilingPoint_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lPureSubstance_THFTYPE_i) (@ (@ _let_512 tptp.n2_THFTYPE_i) tptp.lYear_THFTYPE_i) (@ _let_22 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_479 tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_217 tptp.lPositionalAttribute_THFTYPE_i) (@ _let_290 tptp.subsumingExternalConcept_THFTYPE_i) (@ (@ _let_435 tptp.n1_THFTYPE_i) tptp.lTimePosition_THFTYPE_i) (@ (@ _let_506 tptp.n1_THFTYPE_i) tptp.lConstantQuantity_THFTYPE_i) (@ (@ _let_466 tptp.n2_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i) (@ _let_511 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ _let_326 tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ (@ _let_151 tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ _let_413 tptp.n2_THFTYPE_i) tptp.lSubstance_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lImmediatePastFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lTimePosition_THFTYPE_i) (@ _let_103 tptp.lIrreflexiveRelation_THFTYPE_i) (@ (@ _let_510 tptp.n1_THFTYPE_i) tptp.lAnimal_THFTYPE_i) (@ _let_288 tptp.lPartialValuedRelation_THFTYPE_i) (@ _let_475 tptp.lPropositionalAttitude_THFTYPE_i) (@ (@ (@ tptp.domainSubclass_THFTYPE_IiiioI tptp.lSeriesVolumeFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lSeries_THFTYPE_i) (@ (@ _let_95 tptp.n1_THFTYPE_i) tptp.lAnimal_THFTYPE_i) (@ (@ _let_154 tptp.n2_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lKiloFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i) (@ _let_509 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ _let_486 tptp.n1_THFTYPE_i) tptp.lFunction_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPi_THFTYPE_i) tptp.lPositiveRealNumber_THFTYPE_i) (@ _let_101 tptp.lCompositeUnitOfMeasure_THFTYPE_i) (@ (@ _let_399 tptp.n2_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i) (@ (@ _let_334 tptp.n2_THFTYPE_i) tptp.lAttribute_THFTYPE_i) (@ (@ _let_324 tptp.n1_THFTYPE_i) tptp.lAttribute_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lUnionFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (@ _let_345 tptp.lPartialValuedRelation_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lIncreasing_THFTYPE_i) tptp.lPutting_THFTYPE_i) (@ _let_360 tptp.lTemporalRelation_THFTYPE_i) (@ _let_239 tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_226 tptp.lPartialOrderingRelation_THFTYPE_i) (@ (@ _let_358 tptp.n2_THFTYPE_i) tptp.lContentBearingObject_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiooIIiioIoI tptp.knows_THFTYPE_IiooI) tptp.inScopeOfInterest_THFTYPE_IiioI) (@ (@ _let_473 tptp.n2_THFTYPE_i) tptp.lList_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lBlack_THFTYPE_i) tptp.lPrimaryColor_THFTYPE_i) (@ _let_508 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_301 tptp.n3_THFTYPE_i) tptp.lAgent_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.top_THFTYPE_IiioI) tptp.superficialPart_THFTYPE_IiioI) (@ _let_289 tptp.lSymmetricRelation_THFTYPE_i) (@ _let_507 tptp.lPartialOrderingRelation_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiiIioI tptp.lMinimalCutSetFn_THFTYPE_IiiI) tptp.lCutSetFn_THFTYPE_i) (@ (@ _let_506 tptp.n2_THFTYPE_i) tptp.lConstantQuantity_THFTYPE_i) (@ _let_240 tptp.lSingleValuedRelation_THFTYPE_i) (@ _let_383 tptp.lPartialOrderingRelation_THFTYPE_i) (@ (@ _let_153 tptp.n2_THFTYPE_i) tptp.lAgent_THFTYPE_i) (@ (@ _let_364 tptp.n1_THFTYPE_i) tptp.lContentBearingPhysical_THFTYPE_i) (@ (@ _let_418 tptp.n1_THFTYPE_i) tptp.lTwoDimensionalAngle_THFTYPE_i) (@ (@ _let_273 tptp.n2_THFTYPE_i) tptp.lHuman_THFTYPE_i) (@ _let_213 tptp.lAssociativeFunction_THFTYPE_i) (@ (@ _let_115 tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i) (@ (@ _let_26 tptp.n1_THFTYPE_i) tptp.lSymbolicString_THFTYPE_i) (@ _let_402 tptp.lSpatialRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.length_THFTYPE_IiioI) tptp.lSingleValuedRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIioioIioI tptp.hasPurposeForAgent_THFTYPE_IioioI) tptp.lTernaryPredicate_THFTYPE_i) (@ _let_239 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_61 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiiIiioI tptp.lMinuteFn_THFTYPE_IiiiI) tptp.n1_THFTYPE_i) tptp.lNonnegativeInteger_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lUnitFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lFootLength_THFTYPE_i) tptp.lUnitOfLength_THFTYPE_i) (@ _let_116 tptp.result_THFTYPE_IiioI) (@ _let_426 tptp.lSymmetricRelation_THFTYPE_i) (@ (@ _let_496 tptp.n1_THFTYPE_i) tptp.lOrganism_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiiioIIiiioIoI tptp.connectsEngineeringComponents_THFTYPE_IiiioI) tptp.connects_THFTYPE_IiiioI) (@ _let_164 tptp.lIrreflexiveRelation_THFTYPE_i) (@ _let_415 tptp.lSystemeInternationalUnit_THFTYPE_i) (@ (@ _let_359 tptp.n1_THFTYPE_i) tptp.lTimePoint_THFTYPE_i) (@ (@ _let_447 tptp.n2_THFTYPE_i) tptp.lPositiveInteger_THFTYPE_i) (@ _let_205 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_505 tptp.lUnitOfTemperature_THFTYPE_i) (@ _let_63 tptp.lProbabilityRelation_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lTemporalCompositionFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ (@ _let_184 tptp.n1_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lInch_THFTYPE_i) tptp.lUnitOfLength_THFTYPE_i) (@ (@ tptp.disjointRelation_THFTYPE_IIiioIIiioIoI tptp.crosses_THFTYPE_IiioI) tptp.connected_THFTYPE_IiioI) (@ _let_302 tptp.lTemporalRelation_THFTYPE_i) (@ _let_189 tptp.lSystemeInternationalUnit_THFTYPE_i) (@ _let_470 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ _let_504 tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ _let_444 tptp.lIntentionalRelation_THFTYPE_i) (@ (@ _let_275 tptp.n2_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ _let_501 tptp.lSingleValuedRelation_THFTYPE_i) (@ _let_36 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.grasps_THFTYPE_IiioI) tptp.meetsSpatially_THFTYPE_IiioI) (@ (@ _let_110 tptp.n1_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i) (@ _let_141 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_429 tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ (@ _let_503 tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ _let_33 tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ (@ _let_502 tptp.n2_THFTYPE_i) tptp.lPhysical_THFTYPE_i) (@ _let_71 tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_333 tptp.lPositionalAttribute_THFTYPE_i) (@ _let_361 tptp.lUnaryFunction_THFTYPE_i) (@ _let_501 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_344 tptp.lPartialValuedRelation_THFTYPE_i) (@ _let_88 tptp.lTemporalRelation_THFTYPE_i) (@ (@ _let_352 tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i) (@ (@ _let_500 tptp.n1_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.graphMeasure_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i) (@ _let_480 tptp.lSymmetricRelation_THFTYPE_i) (@ (@ _let_125 tptp.n1_THFTYPE_i) tptp.lGraphElement_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.familyRelation_THFTYPE_IiioI) tptp.relative_THFTYPE_IiioI) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.mother_THFTYPE_IiioI) tptp.parent_THFTYPE_IiioI) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lWealthFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lListLengthFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lList_THFTYPE_i) (@ _let_163 tptp.lSymmetricRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPolychromatic_THFTYPE_i) tptp.lColorAttribute_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lCup_THFTYPE_i) tptp.lUnitOfVolume_THFTYPE_i) (@ _let_221 tptp.lUnaryFunction_THFTYPE_i) (@ (@ _let_455 tptp.n1_THFTYPE_i) tptp.lHuman_THFTYPE_i) (@ _let_180 tptp.lFunction_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IiIiooIoI tptp.lContentBearingObject_THFTYPE_i) tptp.containsInformation_THFTYPE_IiooI) (@ _let_181 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiooIoI tptp.result_THFTYPE_IiioI) tptp.patient_THFTYPE_IiooI) (@ _let_144 tptp.lSystemeInternationalUnit_THFTYPE_i) (@ _let_499 tptp.traverses_THFTYPE_IiioI) (@ _let_419 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_152 tptp.lRelationExtendedToQuantities_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lPropertyFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lAgent_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSitting_THFTYPE_i) tptp.lBodyPosition_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIioI tptp.geopoliticalSubdivision_THFTYPE_IiioI) tptp.geographicSubregion_THFTYPE_i) (@ _let_394 tptp.lTemporalRelation_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.experiencer_THFTYPE_IiioI) tptp.involvedInEvent_THFTYPE_IiioI) (@ _let_377 tptp.lAntiSymmetricPositionalAttribute_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.greaterThanByQuality_THFTYPE_IiiioI) tptp.lTernaryPredicate_THFTYPE_i) (@ (@ tptp.disjointRelation_THFTYPE_IIiioIIiioIoI tptp.meetsSpatially_THFTYPE_IiioI) tptp.overlapsSpatially_THFTYPE_IiioI) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lEast_THFTYPE_i) tptp.lDirectionalAttribute_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.links_THFTYPE_IiiioI) tptp.lTernaryPredicate_THFTYPE_i) (@ _let_224 tptp.lRelationExtendedToQuantities_THFTYPE_i) (@ (@ _let_321 tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ _let_251 tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_174 tptp.lSingleValuedRelation_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.linearExtent_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lLengthMeasure_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lBackFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lWeekDuration_THFTYPE_i) tptp.lUnitOfDuration_THFTYPE_i) (@ _let_388 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ _let_326 tptp.n3_THFTYPE_i) tptp.lRealNumber_THFTYPE_i) (@ (@ _let_439 tptp.n2_THFTYPE_i) tptp.lPositiveInteger_THFTYPE_i) (@ _let_498 tptp.lSystemeInternationalUnit_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIioioIioI tptp.confersNorm_THFTYPE_IioioI) tptp.lTernaryPredicate_THFTYPE_i) (@ (@ _let_276 tptp.n3_THFTYPE_i) tptp.lObjectiveNorm_THFTYPE_i) (@ (@ _let_497 tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ (@ _let_421 tptp.n2_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (@ _let_342 tptp.lIrreflexiveRelation_THFTYPE_i) (@ _let_345 tptp.lSpatialRelation_THFTYPE_i) (@ (@ _let_330 tptp.n2_THFTYPE_i) tptp.lHumanLanguage_THFTYPE_i) (@ _let_224 tptp.lAssociativeFunction_THFTYPE_i) (@ _let_477 tptp.lProbabilityRelation_THFTYPE_i) (@ _let_461 tptp.lTemporalRelation_THFTYPE_i) (@ _let_472 tptp.lIrreflexiveRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lFemale_THFTYPE_i) tptp.lSexAttribute_THFTYPE_i) (@ _let_152 tptp.lTransitiveRelation_THFTYPE_i) (@ (@ _let_356 tptp.n2_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i) (@ (@ _let_267 tptp.n1_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMegaFn_THFTYPE_i) tptp.lUnitOfMeasureMultiplier_THFTYPE_i) (@ (@ _let_452 tptp.n1_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i) (@ (@ _let_496 tptp.n2_THFTYPE_i) tptp.lOrganism_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.developmentalForm_THFTYPE_IiioI) tptp.attribute_THFTYPE_IiioI) (@ (@ _let_495 tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lBritishThermalUnit_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lAbsoluteValueFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lRealNumber_THFTYPE_i) (@ (@ _let_376 tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ _let_494 tptp.lBinaryFunction_THFTYPE_i) (@ (@ _let_483 tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ _let_303 tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_329 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_99 tptp.lSingleValuedRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.representsInLanguage_THFTYPE_IiiioI) tptp.lTernaryPredicate_THFTYPE_i) (@ _let_488 tptp.lUnitOfFrequency_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lLogFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i) (@ (@ _let_77 tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.property_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lHorizontal_THFTYPE_i) tptp.lPositionalAttribute_THFTYPE_i) (@ _let_493 tptp.lPredicate_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lKiloByte_THFTYPE_i) tptp.lUnitOfInformation_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIIoiIioIoI tptp.member_THFTYPE_IiioI) tptp.instance_THFTYPE_IIoiIioI) (@ (@ _let_458 tptp.n2_THFTYPE_i) tptp.lCaseRole_THFTYPE_i) (@ (@ _let_492 tptp.n2_THFTYPE_i) tptp.lGeopoliticalArea_THFTYPE_i) (@ (@ _let_436 tptp.n2_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ (@ _let_197 tptp.n2_THFTYPE_i) tptp.lPositiveInteger_THFTYPE_i) (@ _let_491 tptp.lFunction_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lAtomGram_THFTYPE_i) tptp.lUnitOfMass_THFTYPE_i) (@ (@ _let_432 tptp.n2_THFTYPE_i) tptp.lPhysical_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.linearExtent_THFTYPE_IiioI) tptp.measure_THFTYPE_IiioI) (@ _let_221 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_369 tptp.lUnaryFunction_THFTYPE_i) (@ _let_490 tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_465 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMountainTimeZone_THFTYPE_i) tptp.lTimeZone_THFTYPE_i) (@ (@ _let_489 tptp.n2_THFTYPE_i) tptp.lPhysical_THFTYPE_i) (@ (@ _let_353 tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ _let_188 tptp.lTernaryPredicate_THFTYPE_i) (@ _let_336 tptp.lSymmetricRelation_THFTYPE_i) (@ _let_375 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ 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tptp.lTemporalRelation_THFTYPE_i) (@ _let_346 tptp.lRelationExtendedToQuantities_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.externalImage_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i) (@ _let_332 tptp.lPartialValuedRelation_THFTYPE_i) (@ (@ _let_484 tptp.n1_THFTYPE_i) tptp.lTimePosition_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.material_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lCorpuscularObject_THFTYPE_i) (@ (@ _let_483 tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lDecreasing_THFTYPE_i) tptp.lRemoving_THFTYPE_i) (@ (@ _let_482 tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ (@ _let_178 tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i) (@ _let_374 tptp.lSystemeInternationalUnit_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.pointOfIntersection_THFTYPE_IiiioI) tptp.lTernaryPredicate_THFTYPE_i) (@ (@ _let_481 tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ (@ _let_70 tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ 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tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiioIoI tptp.prevents_THFTYPE_IiioI) tptp.inhibits_THFTYPE_IiioI) (@ _let_279 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lMilliFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i) (@ _let_469 tptp.lTemporalRelation_THFTYPE_i) (@ (@ _let_219 tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ (@ _let_478 tptp.n1_THFTYPE_i) tptp.lProposition_THFTYPE_i) (@ _let_477 tptp.lTernaryPredicate_THFTYPE_i) (@ _let_35 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_381 tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ (@ _let_68 tptp.n1_THFTYPE_i) tptp.lOrganism_THFTYPE_i) (@ _let_476 tptp.lHourDuration_THFTYPE_i) (@ (@ _let_39 tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ _let_127 tptp.lUnaryFunction_THFTYPE_i) (@ (@ _let_385 tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ _let_475 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_312 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_244 tptp.lSystemeInternationalUnit_THFTYPE_i) (@ _let_393 tptp.lIntentionalRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lCalorie_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lImmediateFutureFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lTimePosition_THFTYPE_i) (@ (@ _let_265 tptp.n2_THFTYPE_i) tptp.lPosition_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lUnitedStatesGallon_THFTYPE_i) tptp.lUnitOfVolume_THFTYPE_i) (@ _let_216 tptp.lIrreflexiveRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.subSystem_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lRationalNumberFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i) (@ (@ _let_169 tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i) (@ (@ _let_13 tptp.n2_THFTYPE_i) tptp.lDirectionalAttribute_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.monetaryValue_THFTYPE_IiioI) tptp.measure_THFTYPE_IiioI) (@ (@ 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tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ _let_471 tptp.n1_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i) (@ _let_470 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_246 tptp.lSymmetricRelation_THFTYPE_i) (@ _let_469 tptp.lBinaryFunction_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IiIiioIoI tptp.weight_THFTYPE_i) tptp.measure_THFTYPE_IiioI) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.superficialPart_THFTYPE_IiioI) tptp.part_THFTYPE_IiioI) (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.realization_THFTYPE_IiooI) tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ _let_395 tptp.n1_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lRealNumberFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lNumber_THFTYPE_i) (@ _let_296 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_53 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_208 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.manner_THFTYPE_IiioI) tptp.property_THFTYPE_IiioI) (@ _let_461 tptp.lUnaryFunction_THFTYPE_i) (@ _let_236 tptp.lEquivalenceRelation_THFTYPE_i) (@ _let_468 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ _let_349 tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lEasternTimeZone_THFTYPE_i) tptp.lTimeZone_THFTYPE_i) (@ _let_255 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lFluid_THFTYPE_i) tptp.lPhysicalState_THFTYPE_i) (@ _let_391 tptp.lCompositeUnitOfMeasure_THFTYPE_i) (@ (@ _let_352 tptp.n2_THFTYPE_i) tptp.lPhysical_THFTYPE_i) (@ _let_365 tptp.lVariableArityRelation_THFTYPE_i) (@ _let_79 tptp.lObjectAttitude_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.subset_THFTYPE_IiioI) tptp.subclass_THFTYPE_IiioI) (@ (@ _let_167 tptp.n2_THFTYPE_i) tptp.lOrganism_THFTYPE_i) (@ _let_467 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ _let_466 tptp.n1_THFTYPE_i) tptp.lOrganization_THFTYPE_i) (@ _let_465 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ _let_464 tptp.n2_THFTYPE_i) tptp.lHole_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.wears_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lDead_THFTYPE_i) tptp.lAnimacyAttribute_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lUnitedKingdomGallon_THFTYPE_i) tptp.lUnitOfVolume_THFTYPE_i) (@ _let_180 tptp.lVariableArityRelation_THFTYPE_i) (@ _let_428 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ _let_438 tptp.n2_THFTYPE_i) tptp.lOneDimensionalFigure_THFTYPE_i) (@ (@ _let_291 tptp.n1_THFTYPE_i) tptp.lLinguisticExpression_THFTYPE_i) (@ (@ _let_417 tptp.n1_THFTYPE_i) tptp.lWoman_THFTYPE_i) (@ _let_119 tptp.lSymmetricRelation_THFTYPE_i) (@ (@ _let_78 tptp.n1_THFTYPE_i) tptp.lGraphNode_THFTYPE_i) (@ (@ _let_112 tptp.n2_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.father_THFTYPE_IiioI) tptp.lSingleValuedRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lStanding_THFTYPE_i) tptp.lBodyPosition_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lOn_THFTYPE_i) tptp.lAntiSymmetricPositionalAttribute_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IiIiiiIoI tptp.lMinute_THFTYPE_i) tptp.lMinuteFn_THFTYPE_IiiiI) (@ _let_407 tptp.lProbabilityRelation_THFTYPE_i) (@ (@ tptp.disjointRelation_THFTYPE_IIiioIIiioIoI tptp.subAttribute_THFTYPE_IiioI) tptp.successorAttribute_THFTYPE_IiioI) (@ _let_354 tptp.lTemporalRelation_THFTYPE_i) (@ _let_335 tptp.lBinaryFunction_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.names_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lSymbolicString_THFTYPE_i) (@ (@ _let_463 tptp.n1_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ _let_402 tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_146 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_462 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_161 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_120 tptp.n3_THFTYPE_i) tptp.lLengthMeasure_THFTYPE_i) (@ (@ _let_441 tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ _let_254 tptp.lSymmetricRelation_THFTYPE_i) (@ _let_461 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_119 tptp.lReflexiveRelation_THFTYPE_i) (@ _let_312 tptp.lRelationExtendedToQuantities_THFTYPE_i) (@ _let_457 tptp.lSystemeInternationalUnit_THFTYPE_i) (@ _let_460 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_268 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_270 tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_325 tptp.lPositionalAttribute_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IoioI false) tptp.lTruthValue_THFTYPE_i) (@ _let_459 tptp.lTemporalRelation_THFTYPE_i) (@ _let_152 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.parallel_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_331 tptp.n2_THFTYPE_i) tptp.lPhysicalSystem_THFTYPE_i) (@ (@ _let_458 tptp.n3_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ _let_440 tptp.n1_THFTYPE_i) tptp.lOrganicObject_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lCommunication_THFTYPE_i) tptp.lContentDevelopment_THFTYPE_i) (@ _let_292 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ _let_258 tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ (@ _let_384 tptp.n2_THFTYPE_i) tptp.lHole_THFTYPE_i) (@ _let_304 tptp.exhaustiveDecomposition_THFTYPE_IiioI) (@ (@ _let_448 tptp.n1_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i) (@ _let_306 tptp.lBinaryRelation_THFTYPE_i) (@ (@ _let_379 tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ _let_340 tptp.lReflexiveRelation_THFTYPE_i) (@ _let_90 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ _let_204 tptp.n2_THFTYPE_i) tptp.lHuman_THFTYPE_i) (@ _let_323 tptp.lSpatialRelation_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiooIIiioIoI tptp.patient_THFTYPE_IiooI) tptp.involvedInEvent_THFTYPE_IiioI) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.monetaryValue_THFTYPE_IiioI) tptp.lSingleValuedRelation_THFTYPE_i) (@ _let_446 tptp.lUnitOfMass_THFTYPE_i) (@ _let_229 tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_213 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_457 tptp.lCompositeUnitOfMeasure_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.daughter_THFTYPE_IiioI) tptp.parent_THFTYPE_IiioI) (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.atomicNumber_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lPositiveInteger_THFTYPE_i) (@ _let_456 tptp.lSpatialRelation_THFTYPE_i) (@ (@ _let_453 tptp.n1_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ (@ _let_455 tptp.n2_THFTYPE_i) tptp.lHuman_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lIntegerSquareRootFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lRealNumber_THFTYPE_i) (@ (@ _let_454 tptp.n1_THFTYPE_i) tptp.lProposition_THFTYPE_i) (@ (@ _let_233 tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IiIiiiIoI tptp.lMereologicalSumFn_THFTYPE_i) tptp.lMereologicalProductFn_THFTYPE_IiiiI) (@ (@ _let_453 tptp.n2_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ _let_341 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_340 tptp.lTransitiveRelation_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.hasSkill_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lAgent_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiioIoI tptp.time_THFTYPE_IiioI) tptp.located_THFTYPE_IiioI) (@ (@ _let_452 tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ _let_287 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lGigaFn_THFTYPE_i) tptp.lUnitOfMeasureMultiplier_THFTYPE_i) (@ _let_451 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lLiquid_THFTYPE_i) tptp.lPhysicalState_THFTYPE_i) (@ _let_89 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_155 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ _let_218 tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ _let_450 tptp.lUnaryFunction_THFTYPE_i) (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.atomicNumber_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lElementalSubstance_THFTYPE_i) (@ (@ _let_449 tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ _let_175 tptp.n1_THFTYPE_i) tptp.lOrganization_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiioIoI tptp.subsumesContentInstance_THFTYPE_IiioI) tptp.subsumesContentClass_THFTYPE_IiioI) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.destination_THFTYPE_IiioI) tptp.lCaseRole_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lIlluminated_THFTYPE_i) tptp.lVisualAttribute_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.equivalentContentClass_THFTYPE_IiioI) tptp.subsumesContentClass_THFTYPE_IiioI) (@ _let_422 tptp.lCompositeUnitOfMeasure_THFTYPE_i) (@ (@ _let_190 tptp.n2_THFTYPE_i) tptp.lOrganism_THFTYPE_i) (@ (@ (@ tptp.domainSubclass_THFTYPE_IiiioI tptp.lGeneralizedIntersectionFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (@ (@ _let_373 tptp.n3_THFTYPE_i) tptp.lLanguage_THFTYPE_i) (@ _let_317 tptp.lCompositeUnitOfMeasure_THFTYPE_i) (@ _let_136 tptp.lPartialOrderingRelation_THFTYPE_i) (@ (@ _let_67 tptp.n2_THFTYPE_i) tptp.lMassMeasure_THFTYPE_i) (@ _let_367 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_397 tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiioIoI tptp.before_THFTYPE_IiioI) tptp.earlier_THFTYPE_IiioI) (@ (@ _let_448 tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ (@ _let_228 tptp.n1_THFTYPE_i) tptp.lList_THFTYPE_i) (@ (@ _let_355 tptp.n1_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i) (@ (@ _let_234 tptp.n3_THFTYPE_i) tptp.lPositionalAttribute_THFTYPE_i) (@ _let_134 tptp.lIrreflexiveRelation_THFTYPE_i) (@ _let_230 tptp.lAntisymmetricRelation_THFTYPE_i) (@ (@ _let_356 tptp.n1_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i) (@ (@ _let_447 tptp.n1_THFTYPE_i) tptp.lRelation_THFTYPE_i) (@ _let_446 tptp.lSystemeInternationalUnit_THFTYPE_i) (@ _let_314 tptp.lBinaryFunction_THFTYPE_i) (@ (@ _let_404 tptp.n2_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.relatedExternalConcept_THFTYPE_i) tptp.lTernaryPredicate_THFTYPE_i) (@ (@ tptp.disjointRelation_THFTYPE_IIiioIIiioIoI tptp.manner_THFTYPE_IiioI) tptp.attribute_THFTYPE_IiioI) (@ (@ _let_368 tptp.n2_THFTYPE_i) tptp.lTimePoint_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IIoiioIIoiioIoI tptp.confersObligation_THFTYPE_IoiioI) tptp.confersRight_THFTYPE_IoiioI) (@ (@ _let_351 tptp.n2_THFTYPE_i) tptp.lRealNumber_THFTYPE_i) (@ (@ _let_253 tptp.n2_THFTYPE_i) tptp.lTimeDuration_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.properlyFills_THFTYPE_IiioI) tptp.partiallyFills_THFTYPE_IiioI) (@ _let_103 tptp.lUnaryFunction_THFTYPE_i) (@ _let_403 tptp.lQuaternaryFunction_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.member_THFTYPE_IiioI) tptp.part_THFTYPE_IiioI) (@ _let_322 tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_361 tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_402 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_445 tptp.lTemporalRelation_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.abstractCounterpart_THFTYPE_IiioI) tptp.represents_THFTYPE_IiioI) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lComplementFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.before_THFTYPE_IiioI) tptp.beforeOrEqual_THFTYPE_IiioI) (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lMinimalCutSetFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i) (@ (@ (@ tptp.domainSubclass_THFTYPE_IiiioI tptp.editor_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lText_THFTYPE_i) (@ (@ _let_337 tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ _let_444 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_23 tptp.n1_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (@ _let_443 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_224 tptp.lBinaryFunction_THFTYPE_i) (@ (@ _let_185 tptp.n1_THFTYPE_i) tptp.lGraphNode_THFTYPE_i) (@ _let_60 tptp.lBinaryFunction_THFTYPE_i) (@ _let_59 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_396 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_32 tptp.n1_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ (@ _let_442 tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ (@ _let_138 tptp.n2_THFTYPE_i) tptp.lPhysicalQuantity_THFTYPE_i) (@ (@ _let_441 tptp.n1_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lAudible_THFTYPE_i) tptp.lSoundAttribute_THFTYPE_i) (@ (@ _let_440 tptp.n2_THFTYPE_i) tptp.lDevelopmentalAttribute_THFTYPE_i) (@ (@ _let_439 tptp.n1_THFTYPE_i) tptp.lRealNumber_THFTYPE_i) (@ (@ _let_438 tptp.n1_THFTYPE_i) tptp.lOneDimensionalFigure_THFTYPE_i) (@ _let_283 tptp.lUnaryFunction_THFTYPE_i) (@ _let_327 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ _let_437 tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ (@ _let_436 tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ (@ _let_262 tptp.n2_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ _let_139 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ _let_373 tptp.n1_THFTYPE_i) tptp.lLinguisticExpression_THFTYPE_i) (@ _let_420 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.crosses_THFTYPE_IiioI) tptp.traverses_THFTYPE_IiioI) (@ (@ _let_435 tptp.n2_THFTYPE_i) tptp.lTimePosition_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lByte_THFTYPE_i) tptp.lUnitOfInformation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lUnconscious_THFTYPE_i) tptp.lConsciousnessAttribute_THFTYPE_i) (@ (@ _let_96 tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ _let_433 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_434 tptp.n1_THFTYPE_i) tptp.lMassMeasure_THFTYPE_i) (@ _let_82 tptp.properlyFills_THFTYPE_IiioI) (@ (@ _let_234 tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.frequency_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ _let_433 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lYear_THFTYPE_i) tptp.lYearDuration_THFTYPE_i) (@ (@ _let_432 tptp.n1_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.material_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMilliFn_THFTYPE_i) tptp.lUnitOfMeasureMultiplier_THFTYPE_i) (@ _let_372 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lCoordinatedUniversalTimeZone_THFTYPE_i) tptp.lTimeZone_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lUnlikely_THFTYPE_i) tptp.lProbabilityAttribute_THFTYPE_i) (@ _let_143 tptp.lSymmetricRelation_THFTYPE_i) (@ _let_183 tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_173 tptp.lIrreflexiveRelation_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.overlapsSpatially_THFTYPE_IiioI) tptp.connected_THFTYPE_IiioI) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lCutSetFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lGraph_THFTYPE_i) (@ _let_431 tptp.lSpatialRelation_THFTYPE_i) (@ (@ _let_430 tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IiIiioIoI tptp.uniqueIdentifier_THFTYPE_i) tptp.names_THFTYPE_IiioI) (@ (@ tptp.subrelation_THFTYPE_IiioI tptp.subsumingExternalConcept_THFTYPE_i) tptp.relatedExternalConcept_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiooIIiioIoI tptp.desires_THFTYPE_IiooI) tptp.wants_THFTYPE_IiioI) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lObligation_THFTYPE_i) tptp.lDeonticAttribute_THFTYPE_i) (@ _let_198 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_429 tptp.n1_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lRepairing_THFTYPE_i) tptp.lMaintaining_THFTYPE_i) (@ _let_428 tptp.lUnaryFunction_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMicroFn_THFTYPE_i) tptp.lUnitOfMeasureMultiplier_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSmooth_THFTYPE_i) tptp.lTextureAttribute_THFTYPE_i) (@ _let_427 tptp.lSpatialRelation_THFTYPE_i) (@ _let_409 tptp.lUnaryFunction_THFTYPE_i) (@ _let_426 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_235 tptp.lSystemeInternationalUnit_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lFloorFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lRealNumber_THFTYPE_i) (@ (@ _let_10 tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ _let_294 tptp.lPartialValuedRelation_THFTYPE_i) (@ (@ _let_238 tptp.n1_THFTYPE_i) tptp.lOneDimensionalFigure_THFTYPE_i) (@ (@ _let_425 tptp.n1_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i) (@ _let_424 tptp.lIrreflexiveRelation_THFTYPE_i) (@ _let_423 tptp.lPartialOrderingRelation_THFTYPE_i) (@ _let_422 tptp.lSystemeInternationalUnit_THFTYPE_i) (@ (@ _let_194 tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ _let_398 tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ (@ _let_421 tptp.n1_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i) (@ _let_420 tptp.lIntransitiveRelation_THFTYPE_i) (@ _let_419 tptp.lPropositionalAttitude_THFTYPE_i) (@ (@ _let_418 tptp.n2_THFTYPE_i) tptp.lGeometricFigure_THFTYPE_i) (@ (@ _let_55 tptp.n1_THFTYPE_i) tptp.lOrganism_THFTYPE_i) (@ _let_343 tptp.lRelationExtendedToQuantities_THFTYPE_i) (@ _let_207 tptp.overlapsTemporally_THFTYPE_IiioI) (@ (@ _let_412 tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.agent_THFTYPE_IiioI) tptp.involvedInEvent_THFTYPE_IiioI) (@ (@ _let_417 tptp.n2_THFTYPE_i) tptp.lMan_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.immediateSubclass_THFTYPE_IiioI) tptp.subclass_THFTYPE_IiioI) (@ _let_61 tptp.lSymmetricRelation_THFTYPE_i) (@ _let_416 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_415 tptp.lCompositeUnitOfMeasure_THFTYPE_i) (@ (@ _let_414 tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lSecond_THFTYPE_i) tptp.lSecondDuration_THFTYPE_i) (@ _let_36 tptp.lRelationExtendedToQuantities_THFTYPE_i) (@ (@ _let_413 tptp.n1_THFTYPE_i) tptp.lSubstance_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiooIIiioIoI tptp.realization_THFTYPE_IiooI) tptp.equivalentContentInstance_THFTYPE_IiioI) (@ (@ _let_412 tptp.n2_THFTYPE_i) tptp.lAgent_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMinuteDuration_THFTYPE_i) tptp.lUnitOfDuration_THFTYPE_i) (@ _let_38 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_411 tptp.lSpatialRelation_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IiioI tptp.subsumedExternalConcept_THFTYPE_i) tptp.relatedExternalConcept_THFTYPE_i) (@ (@ _let_410 tptp.n2_THFTYPE_i) tptp.lPositiveInteger_THFTYPE_i) (@ _let_97 tptp.lUnaryFunction_THFTYPE_i) (@ _let_370 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_277 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lBit_THFTYPE_i) tptp.lUnitOfInformation_THFTYPE_i) (@ _let_409 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.altitude_THFTYPE_IiiioI) tptp.lSingleValuedRelation_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.component_THFTYPE_IiioI) tptp.part_THFTYPE_IiioI) (@ _let_408 tptp.lPartialValuedRelation_THFTYPE_i) (@ _let_407 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_357 tptp.n2_THFTYPE_i) tptp.lLengthMeasure_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.exhaustiveDecomposition_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lClass_THFTYPE_i) (@ (@ tptp.disjointRelation_THFTYPE_IiIiioIoI tptp.stays_THFTYPE_i) tptp.home_THFTYPE_IiioI) (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lCeilingFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lRealNumber_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiooIIiooIoI tptp.realization_THFTYPE_IiooI) tptp.containsInformation_THFTYPE_IiooI) (@ _let_406 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ _let_405 tptp.n1_THFTYPE_i) tptp.lTimePosition_THFTYPE_i) (@ _let_42 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.home_THFTYPE_IiioI) tptp.inhabits_THFTYPE_IiioI) (@ _let_335 tptp.lSpatialRelation_THFTYPE_i) (@ (@ _let_156 tptp.n1_THFTYPE_i) tptp.lRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.employs_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i) (@ _let_316 tptp.lFunction_THFTYPE_i) (@ (@ _let_404 tptp.n1_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i) (@ _let_403 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_402 tptp.lUnaryFunction_THFTYPE_i) (@ _let_401 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.located_THFTYPE_IiioI) tptp.partlyLocated_THFTYPE_IiioI) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lEuroDollar_THFTYPE_i) tptp.lUnitOfCurrency_THFTYPE_i) (@ (@ _let_400 tptp.n1_THFTYPE_i) tptp.lEngineeringComponent_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lInitialNodeFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lGraphArc_THFTYPE_i) (@ (@ _let_399 tptp.n1_THFTYPE_i) tptp.lHole_THFTYPE_i) (@ (@ _let_69 tptp.n1_THFTYPE_i) tptp.lList_THFTYPE_i) (@ (@ _let_398 tptp.n1_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ (@ _let_397 tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ _let_208 tptp.lTemporalRelation_THFTYPE_i) (@ _let_396 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lMegaFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i) (@ (@ _let_395 tptp.n2_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (@ (@ _let_389 tptp.n1_THFTYPE_i) tptp.lSet_THFTYPE_i) (@ (@ _let_157 tptp.n2_THFTYPE_i) tptp.lRelation_THFTYPE_i) (@ _let_223 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_50 tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ _let_394 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_393 tptp.lTernaryPredicate_THFTYPE_i) (@ _let_387 tptp.lBinaryFunction_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lMonth_THFTYPE_i) tptp.lMonthFn_THFTYPE_i) (@ (@ _let_392 tptp.n2_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i) (@ _let_391 tptp.lSystemeInternationalUnit_THFTYPE_i) (@ _let_390 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_389 tptp.n2_THFTYPE_i) tptp.lSet_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lAssignmentFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lFunction_THFTYPE_i) (@ _let_380 tptp.lSystemeInternationalUnit_THFTYPE_i) (@ _let_366 tptp.lSystemeInternationalUnit_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lUnitedStatesCent_THFTYPE_i) tptp.lUnitOfCurrency_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSolid_THFTYPE_i) tptp.lPhysicalState_THFTYPE_i) (@ _let_388 tptp.lUnaryFunction_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIioI tptp.pointOfFigure_THFTYPE_IiioI) tptp.geometricPart_THFTYPE_i) (@ (@ _let_104 tptp.n2_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (@ (@ _let_265 tptp.n3_THFTYPE_i) tptp.lOrganization_THFTYPE_i) (@ (@ _let_252 tptp.n2_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i) (@ _let_121 tptp.lIntransitiveRelation_THFTYPE_i) (@ _let_387 tptp.lPartialValuedRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIIiiIioIioI tptp.relatedInternalConcept_THFTYPE_IIiiIioI) tptp.lBinaryPredicate_THFTYPE_i) (@ _let_113 tptp.lEquivalenceRelation_THFTYPE_i) (@ _let_386 tptp.lFunction_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIoiioIioI tptp.confersObligation_THFTYPE_IoiioI) tptp.lTernaryPredicate_THFTYPE_i) (@ _let_269 tptp.lBinaryFunction_THFTYPE_i) (@ (@ _let_385 tptp.n1_THFTYPE_i) tptp.lGraphArc_THFTYPE_i) (@ (@ _let_384 tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ _let_383 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_382 tptp.n1_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i) (@ (@ _let_280 tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ (@ _let_381 tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ _let_53 tptp.lTemporalRelation_THFTYPE_i) (@ _let_286 tptp.lSpatialRelation_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IiIoooIoI tptp.subPlan_THFTYPE_i) tptp.subProposition_THFTYPE_IoooI) (@ (@ _let_310 tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ _let_370 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IiioI tptp.angleOfFigure_THFTYPE_i) tptp.geometricPart_THFTYPE_i) (@ (@ _let_100 tptp.n1_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i) (@ (@ _let_301 tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.documentation_THFTYPE_i) tptp.lTernaryPredicate_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lMagnitudeFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i) (@ _let_293 tptp.lVariableArityRelation_THFTYPE_i) (@ _let_30 tptp.lTemporalRelation_THFTYPE_i) (@ (@ _let_91 tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.faces_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i) (@ _let_380 tptp.lUnitOfDuration_THFTYPE_i) (@ _let_225 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_315 tptp.decreasesLikelihood_THFTYPE_IoooI) (@ (@ _let_379 tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lAmu_THFTYPE_i) tptp.lUnitOfMass_THFTYPE_i) (@ (@ _let_378 tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ _let_278 tptp.n1_THFTYPE_i) tptp.lContentBearingObject_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lBeginFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ _let_294 tptp.lBinaryFunction_THFTYPE_i) (@ _let_377 tptp.lPositionalAttribute_THFTYPE_i) (@ (@ _let_376 tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lUnitedStatesDollar_THFTYPE_i) tptp.lUnitOfCurrency_THFTYPE_i) (@ _let_375 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.weight_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_8 tptp.n1_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ _let_192 tptp.lSpokenHumanLanguage_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIoiIiioI tptp.lProbabilityFn_THFTYPE_IoiI) tptp.n1_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lAngstrom_THFTYPE_i) tptp.lUnitOfLength_THFTYPE_i) (@ _let_345 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.interiorPart_THFTYPE_IiioI) tptp.part_THFTYPE_IiioI) (@ _let_374 tptp.lCompositeUnitOfMeasure_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.depth_THFTYPE_IiiioI) tptp.lSingleValuedRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lKilometer_THFTYPE_i) tptp.lUnitOfLength_THFTYPE_i) (@ _let_281 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lSeriesVolumeFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lPositiveInteger_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lNonFullyFormed_THFTYPE_i) tptp.lDevelopmentalAttribute_THFTYPE_i) (@ _let_88 tptp.lUnaryFunction_THFTYPE_i) (@ (@ _let_373 tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ _let_372 tptp.lUnaryFunction_THFTYPE_i) (@ _let_309 tptp.lSymmetricRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIIioIIiioIioIioI tptp.capability_THFTYPE_IIioIIiioIioI) tptp.lTernaryPredicate_THFTYPE_i) (@ (@ _let_371 tptp.n1_THFTYPE_i) tptp.lAgent_THFTYPE_i) (@ _let_370 tptp.lSpatialRelation_THFTYPE_i) (@ _let_369 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ _let_368 tptp.n1_THFTYPE_i) tptp.lTimePoint_THFTYPE_i) (@ _let_367 tptp.lIrreflexiveRelation_THFTYPE_i) (@ (@ _let_142 tptp.n1_THFTYPE_i) tptp.lArgument_THFTYPE_i) (@ _let_366 tptp.lCompositeUnitOfMeasure_THFTYPE_i) (@ _let_274 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_145 tptp.lBinaryFunction_THFTYPE_i) (@ _let_164 tptp.lTransitiveRelation_THFTYPE_i) (@ _let_365 tptp.lPredicate_THFTYPE_i) (@ (@ _let_364 tptp.n2_THFTYPE_i) tptp.lProposition_THFTYPE_i) (@ (@ _let_363 tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ _let_362 tptp.lIrreflexiveRelation_THFTYPE_i) (@ _let_361 tptp.lSpatialRelation_THFTYPE_i) (@ _let_147 tptp.lBinaryFunction_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lNanoFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lGovernmentFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lGeopoliticalArea_THFTYPE_i) (@ (@ _let_195 tptp.n1_THFTYPE_i) tptp.lCollection_THFTYPE_i) (@ _let_261 tptp.lPartialValuedRelation_THFTYPE_i) (@ _let_360 tptp.lBinaryFunction_THFTYPE_i) (@ (@ _let_359 tptp.n2_THFTYPE_i) tptp.lTimePoint_THFTYPE_i) (@ (@ _let_348 tptp.n1_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.surface_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ _let_358 tptp.n1_THFTYPE_i) tptp.lContentBearingObject_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lHoleHostFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lHole_THFTYPE_i) (@ (@ _let_357 tptp.n1_THFTYPE_i) tptp.lCircle_THFTYPE_i) (@ _let_63 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_92 tptp.lTernaryPredicate_THFTYPE_i) (@ (@ _let_356 tptp.n3_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiooIoI tptp.instrument_THFTYPE_IiioI) tptp.patient_THFTYPE_IiooI) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lProstrate_THFTYPE_i) tptp.lBodyPosition_THFTYPE_i) (@ _let_346 tptp.lPartialValuedRelation_THFTYPE_i) (@ (@ tptp.disjointRelation_THFTYPE_IIiioIIiioIoI tptp.contains_THFTYPE_IiioI) tptp.part_THFTYPE_IiioI) (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.meltingPoint_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lPureSubstance_THFTYPE_i) (@ _let_56 tptp.lSystemeInternationalUnit_THFTYPE_i) (@ _let_250 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_355 tptp.n2_THFTYPE_i) tptp.lCollection_THFTYPE_i) (@ (@ _let_350 tptp.n1_THFTYPE_i) tptp.lOrganism_THFTYPE_i) (@ _let_354 tptp.lBinaryFunction_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lSquareRootFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i) (@ _let_21 tptp.lObjectAttitude_THFTYPE_i) (@ _let_196 tptp.lUnaryFunction_THFTYPE_i) (@ _let_80 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_299 tptp.lPartialOrderingRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSouth_THFTYPE_i) tptp.lDirectionalAttribute_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMaximalWeightedPathFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i) (@ (@ _let_353 tptp.n2_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ _let_236 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_352 tptp.n3_THFTYPE_i) tptp.lLengthMeasure_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lPicoFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i) (@ (@ _let_351 tptp.n1_THFTYPE_i) tptp.lList_THFTYPE_i) (@ (@ _let_350 tptp.n2_THFTYPE_i) tptp.lOrganism_THFTYPE_i) (@ (@ _let_349 tptp.n3_THFTYPE_i) tptp.lObjectiveNorm_THFTYPE_i) (@ (@ _let_348 tptp.n2_THFTYPE_i) tptp.lTimeDuration_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lVertical_THFTYPE_i) tptp.lPositionalAttribute_THFTYPE_i) (@ _let_347 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IiIiioIoI tptp.brother_THFTYPE_i) tptp.sibling_THFTYPE_IiioI) (@ _let_346 tptp.lBinaryFunction_THFTYPE_i) (@ _let_345 tptp.lIrreflexiveRelation_THFTYPE_i) (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiiiIiioI tptp.lPeriodicalIssueFn_THFTYPE_IiiiI) tptp.n1_THFTYPE_i) tptp.lPeriodical_THFTYPE_i) (@ _let_344 tptp.lBinaryFunction_THFTYPE_i) (@ _let_161 tptp.lPartialOrderingRelation_THFTYPE_i) (@ _let_302 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_343 tptp.lAssociativeFunction_THFTYPE_i) (@ _let_342 tptp.lTransitiveRelation_THFTYPE_i) (@ _let_341 tptp.lBinaryFunction_THFTYPE_i) (@ (@ _let_18 tptp.n1_THFTYPE_i) tptp.lAttribute_THFTYPE_i) (@ _let_340 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_339 tptp.lCompositeUnitOfMeasure_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiioIoI tptp.causes_THFTYPE_IiioI) tptp.causesSubclass_THFTYPE_IiioI) (@ _let_338 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lNear_THFTYPE_i) tptp.lSymmetricPositionalAttribute_THFTYPE_i) (@ (@ _let_337 tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ _let_336 tptp.lIrreflexiveRelation_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lTransportation_THFTYPE_i) tptp.lTransportationDevice_THFTYPE_i) (@ _let_335 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lGovernmentFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i) (@ (@ _let_334 tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.instance_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_182 tptp.n1_THFTYPE_i) tptp.lHuman_THFTYPE_i) (@ _let_333 tptp.lAntiSymmetricPositionalAttribute_THFTYPE_i) (@ (@ _let_160 tptp.n2_THFTYPE_i) tptp.lHuman_THFTYPE_i) (@ _let_332 tptp.lUnaryFunction_THFTYPE_i) (@ (@ _let_328 tptp.n1_THFTYPE_i) tptp.lArtifact_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.meetsSpatially_THFTYPE_IiioI) tptp.connected_THFTYPE_IiioI) (@ (@ _let_331 tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i) (@ (@ _let_330 tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ _let_94 tptp.lTransitiveRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIoooIioI tptp.entails_THFTYPE_IoooI) tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_52 tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPositiveInfinity_THFTYPE_i) tptp.lTimePoint_THFTYPE_i) (@ _let_163 tptp.lProbabilityRelation_THFTYPE_i) (@ (@ _let_129 tptp.n2_THFTYPE_i) tptp.lGeographicArea_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIIioIiIiioI tptp.lCardinalityFn_THFTYPE_IIioIiI) tptp.n1_THFTYPE_i) (@ (@ tptp.lUnionFn_THFTYPE_IiiiI tptp.lSetOrClass_THFTYPE_i) tptp.lCollection_THFTYPE_i)) (@ (@ _let_102 tptp.n1_THFTYPE_i) tptp.lTwoDimensionalAngle_THFTYPE_i) (@ _let_329 tptp.lUnaryFunction_THFTYPE_i) (@ (@ _let_328 tptp.n2_THFTYPE_i) tptp.lArtifact_THFTYPE_i) (@ _let_327 tptp.lBinaryFunction_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiioIoI tptp.successorAttributeClosure_THFTYPE_IiioI) tptp.successorAttribute_THFTYPE_IiioI) (@ (@ _let_326 tptp.n1_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.completelyFills_THFTYPE_IiioI) tptp.partiallyFills_THFTYPE_IiioI) (@ _let_325 tptp.lAntiSymmetricPositionalAttribute_THFTYPE_i) (@ _let_85 tptp.lTransitiveRelation_THFTYPE_i) (@ (@ _let_324 tptp.n2_THFTYPE_i) tptp.lAttribute_THFTYPE_i) (@ _let_323 tptp.lTernaryPredicate_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lFutureFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lTimePosition_THFTYPE_i) (@ (@ _let_232 tptp.n2_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ _let_243 tptp.lIrreflexiveRelation_THFTYPE_i) (@ _let_322 tptp.lTransitiveRelation_THFTYPE_i) (@ (@ _let_212 tptp.n2_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ (@ _let_321 tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ _let_286 tptp.lTernaryPredicate_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.date_THFTYPE_IiioI) tptp.time_THFTYPE_IiioI) (@ (@ _let_186 tptp.n1_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i) (@ (@ _let_320 tptp.n1_THFTYPE_i) tptp.lAttribute_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.contains_THFTYPE_IiioI) tptp.partlyLocated_THFTYPE_IiioI) (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.rangeSubclass_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lFunction_THFTYPE_i) (@ _let_85 tptp.lIrreflexiveRelation_THFTYPE_i) (@ _let_227 tptp.lDayDuration_THFTYPE_i) (@ (@ _let_33 tptp.n1_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i) (@ (@ _let_319 tptp.n1_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.represents_THFTYPE_IiioI) tptp.refers_THFTYPE_IiioI) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lWealthFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lAgent_THFTYPE_i) (@ _let_114 tptp.lPartialOrderingRelation_THFTYPE_i) (@ (@ _let_263 tptp.n2_THFTYPE_i) tptp.lHuman_THFTYPE_i) (@ (@ _let_318 tptp.n2_THFTYPE_i) tptp.lCurrencyMeasure_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lSineFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lPlaneAngleMeasure_THFTYPE_i) (@ _let_131 tptp.lBinaryFunction_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lEndFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMile_THFTYPE_i) tptp.lUnitOfLength_THFTYPE_i) (@ _let_220 tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_317 tptp.lSystemeInternationalUnit_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIoooIIiioIoI tptp.truth_THFTYPE_IoooI) tptp.property_THFTYPE_IiioI) (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lImmediateFamilyFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.length_THFTYPE_IiioI) tptp.linearExtent_THFTYPE_IiioI) (@ _let_213 tptp.lBinaryFunction_THFTYPE_i) (@ _let_316 tptp.lVariableArityRelation_THFTYPE_i) (@ _let_162 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_117 tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ (@ _let_159 tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lReciprocalFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lFrontFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i) (@ _let_315 tptp.independentProbability_THFTYPE_IoooI) (@ _let_314 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lSquareRootFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lRealNumber_THFTYPE_i) (@ _let_45 tptp.lUnaryFunction_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.connectedEngineeringComponents_THFTYPE_IiioI) tptp.connected_THFTYPE_IiioI) (@ (@ _let_313 tptp.n2_THFTYPE_i) tptp.lGeometricFigure_THFTYPE_i) (@ _let_297 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ _let_49 tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ _let_312 tptp.lUnaryFunction_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.names_THFTYPE_IiioI) tptp.refers_THFTYPE_IiioI) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lLiter_THFTYPE_i) tptp.lUnitOfVolume_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IiioI tptp.mutualAcquaintance_THFTYPE_i) tptp.acquaintance_THFTYPE_i) (@ _let_181 tptp.lSpatialRelation_THFTYPE_i) (@ _let_106 tptp.lPredicate_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPlasma_THFTYPE_i) tptp.lPhysicalState_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lPathWeightFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lGraphPath_THFTYPE_i) (@ _let_311 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.systemPart_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.patient_THFTYPE_IiooI) tptp.lCaseRole_THFTYPE_i) (@ (@ _let_310 tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lRoundFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPliable_THFTYPE_i) tptp.lInternalAttribute_THFTYPE_i) (@ _let_309 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_260 tptp.n1_THFTYPE_i) tptp.lHuman_THFTYPE_i) (@ _let_308 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_307 tptp.n1_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lLikely_THFTYPE_i) tptp.lProbabilityAttribute_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lReading_THFTYPE_i) tptp.lInterpreting_THFTYPE_i) (@ (@ _let_120 tptp.n2_THFTYPE_i) tptp.lGeometricPoint_THFTYPE_i) (@ _let_109 tptp.lRelationExtendedToQuantities_THFTYPE_i) (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiiiIiioI tptp.lEditionFn_THFTYPE_IiiiI) tptp.n1_THFTYPE_i) tptp.lContentBearingObject_THFTYPE_i) (@ (@ _let_44 tptp.n1_THFTYPE_i) tptp.lTimePoint_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IIIiioIIiioIoIIiioIoI tptp.disjointRelation_THFTYPE_IIiioIIiioIoI) tptp.disjoint_THFTYPE_IiioI) (@ _let_109 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_306 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_305 tptp.n1_THFTYPE_i) tptp.lGeometricFigure_THFTYPE_i) (@ _let_38 tptp.lSpatialRelation_THFTYPE_i) (@ _let_304 tptp.disjoint_THFTYPE_IiioI) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lOunce_THFTYPE_i) tptp.lUnitOfVolume_THFTYPE_i) (@ _let_206 tptp.relative_THFTYPE_IiioI) (@ (@ _let_203 tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ _let_303 tptp.lSpatialRelation_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.path_THFTYPE_IiioI) tptp.involvedInEvent_THFTYPE_IiioI) (@ _let_240 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lAttaching_THFTYPE_i) tptp.lPutting_THFTYPE_i) (@ _let_302 tptp.lBinaryFunction_THFTYPE_i) (@ (@ _let_301 tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ _let_300 tptp.lSingleValuedRelation_THFTYPE_i) (@ _let_299 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_15 tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIoiioIioI tptp.confersRight_THFTYPE_IoiioI) tptp.lTernaryPredicate_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiiioIIiiioIoI tptp.depth_THFTYPE_IiiioI) tptp.distance_THFTYPE_IiiioI) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMinimalWeightedPathFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i) (@ _let_298 tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_297 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_296 tptp.lIntransitiveRelation_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.attribute_THFTYPE_IiioI) tptp.property_THFTYPE_IiioI) (@ (@ (@ tptp.domainSubclass_THFTYPE_IiiioI tptp.lDayFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lMonth_THFTYPE_i) (@ (@ _let_87 tptp.n1_THFTYPE_i) tptp.lOrganism_THFTYPE_i) (@ _let_295 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_237 tptp.lPartialOrderingRelation_THFTYPE_i) (@ _let_294 tptp.lAssociativeFunction_THFTYPE_i) (@ _let_293 tptp.lPredicate_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMonthDuration_THFTYPE_i) tptp.lUnitOfDuration_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.partiallyFills_THFTYPE_IiioI) tptp.located_THFTYPE_IiioI) (@ _let_214 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_292 tptp.lUnaryFunction_THFTYPE_i) (@ _let_81 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lCenterOfCircleFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lCircle_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiooIIiioIoI tptp.believes_THFTYPE_IiooI) tptp.inScopeOfInterest_THFTYPE_IiioI) (@ _let_198 tptp.lSpatialRelation_THFTYPE_i) (@ (@ _let_291 tptp.n2_THFTYPE_i) tptp.lLanguage_THFTYPE_i) (@ (@ _let_170 tptp.n3_THFTYPE_i) tptp.lEngineeringComponent_THFTYPE_i) (@ _let_290 tptp.subsumedExternalConcept_THFTYPE_i) (@ _let_289 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPermission_THFTYPE_i) tptp.lDeonticAttribute_THFTYPE_i) (@ _let_231 tptp.lSystemeInternationalUnit_THFTYPE_i) (@ _let_245 tptp.lTransitiveRelation_THFTYPE_i) (@ _let_288 tptp.lUnaryFunction_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.exactlyLocated_THFTYPE_IiioI) tptp.located_THFTYPE_IiioI) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.origin_THFTYPE_IiioI) tptp.lCaseRole_THFTYPE_i) (@ _let_287 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_286 tptp.lSingleValuedRelation_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiooIIiioIoI tptp.containsInformation_THFTYPE_IiooI) tptp.represents_THFTYPE_IiioI) (@ _let_285 tptp.lUnaryFunction_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IiIiioIoI tptp.stays_THFTYPE_i) tptp.inhabits_THFTYPE_IiioI) (@ _let_150 tptp.lUnaryFunction_THFTYPE_i) (@ (@ _let_242 tptp.n2_THFTYPE_i) tptp.lEngineeringComponent_THFTYPE_i) (@ (@ _let_51 tptp.n2_THFTYPE_i) tptp.lTruthValue_THFTYPE_i) (@ (@ _let_199 tptp.n2_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (@ _let_284 tptp.lSpatialRelation_THFTYPE_i) (@ _let_283 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_282 tptp.lCompositeUnitOfMeasure_THFTYPE_i) (@ (@ _let_158 tptp.n1_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (@ _let_281 tptp.lUnaryFunction_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lRealNumberFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i) (@ _let_171 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiioIoI tptp.equivalentContentInstance_THFTYPE_IiioI) tptp.equivalentContentClass_THFTYPE_IiioI) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPoundMass_THFTYPE_i) tptp.lUnitOfMass_THFTYPE_i) (@ _let_80 tptp.lSymmetricRelation_THFTYPE_i) (@ _let_37 tptp.lPartialOrderingRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lBlue_THFTYPE_i) tptp.lPrimaryColor_THFTYPE_i) (@ (@ _let_280 tptp.n2_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ _let_279 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_278 tptp.n2_THFTYPE_i) tptp.lContentBearingObject_THFTYPE_i) (@ (@ _let_86 tptp.n2_THFTYPE_i) tptp.lGraphNode_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lUnitFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lPhysicalQuantity_THFTYPE_i) (@ _let_165 tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_277 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiooIIiioIoI tptp.desires_THFTYPE_IiooI) tptp.inScopeOfInterest_THFTYPE_IiioI) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.wants_THFTYPE_IiioI) tptp.inScopeOfInterest_THFTYPE_IiioI) (@ (@ _let_276 tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ (@ _let_275 tptp.n1_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ _let_274 tptp.lEquivalenceRelation_THFTYPE_i) (@ (@ _let_273 tptp.n1_THFTYPE_i) tptp.lWoman_THFTYPE_i) (@ _let_272 tptp.lTransitiveRelation_THFTYPE_i) (@ (@ _let_271 tptp.n1_THFTYPE_i) tptp.lFinancialTransaction_THFTYPE_i) (@ (@ _let_266 tptp.n1_THFTYPE_i) tptp.lAgent_THFTYPE_i) (@ _let_270 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_269 tptp.lPartialValuedRelation_THFTYPE_i) (@ _let_268 tptp.lPartialOrderingRelation_THFTYPE_i) (@ _let_259 tptp.lPropositionalAttitude_THFTYPE_i) (@ _let_181 tptp.lIrreflexiveRelation_THFTYPE_i) (@ _let_83 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ _let_64 tptp.n3_THFTYPE_i) tptp.lTimePoint_THFTYPE_i) (@ _let_166 tptp.lCompositeUnitOfMeasure_THFTYPE_i) (@ (@ _let_267 tptp.n2_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lInchMercury_THFTYPE_i) tptp.lUnitOfAtmosphericPressure_THFTYPE_i) (@ (@ _let_266 tptp.n2_THFTYPE_i) tptp.lHuman_THFTYPE_i) (@ (@ _let_265 tptp.n1_THFTYPE_i) tptp.lHuman_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lNanoFn_THFTYPE_IiiI) tptp.lUnitOfMeasureMultiplier_THFTYPE_i) (@ (@ _let_264 tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ (@ _let_172 tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ (@ _let_263 tptp.n1_THFTYPE_i) tptp.lMan_THFTYPE_i) (@ (@ _let_262 tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ _let_261 tptp.lUnaryFunction_THFTYPE_i) (@ _let_103 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ _let_260 tptp.n2_THFTYPE_i) tptp.lPermanentResidence_THFTYPE_i) (@ _let_259 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_258 tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ (@ _let_12 tptp.n1_THFTYPE_i) tptp.lMotion_THFTYPE_i) (@ (@ _let_257 tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ _let_256 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_255 tptp.lBinaryFunction_THFTYPE_i) (@ _let_254 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.direction_THFTYPE_IiioI) tptp.involvedInEvent_THFTYPE_IiioI) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lYellow_THFTYPE_i) tptp.lPrimaryColor_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lCreation_THFTYPE_i) tptp.lDestruction_THFTYPE_i) (@ (@ _let_253 tptp.n3_THFTYPE_i) tptp.lRegion_THFTYPE_i) (@ _let_210 tptp.lUnitOfMass_THFTYPE_i) (@ (@ _let_252 tptp.n1_THFTYPE_i) tptp.lRealNumber_THFTYPE_i) (@ (@ _let_148 tptp.n2_THFTYPE_i) tptp.lTimePoint_THFTYPE_i) (@ _let_251 tptp.lIrreflexiveRelation_THFTYPE_i) (@ (@ _let_187 tptp.n1_THFTYPE_i) tptp.lHuman_THFTYPE_i) (@ _let_250 tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_61 tptp.lTemporalRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.path_THFTYPE_IiioI) tptp.lCaseRole_THFTYPE_i) (@ _let_249 tptp.lCompositeUnitOfMeasure_THFTYPE_i) (@ _let_14 tptp.lTemporalRelation_THFTYPE_i) (@ _let_62 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.disjointRelation_THFTYPE_IIoooIIoooIoI tptp.decreasesLikelihood_THFTYPE_IoooI) tptp.independentProbability_THFTYPE_IoooI) (@ _let_248 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_247 tptp.n1_THFTYPE_i) tptp.lMan_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.equivalentContentInstance_THFTYPE_IiioI) tptp.subsumesContentInstance_THFTYPE_IiioI) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.father_THFTYPE_IiioI) tptp.parent_THFTYPE_IiioI) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lDensityFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_246 tptp.lReflexiveRelation_THFTYPE_i) (@ (@ _let_25 tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ _let_245 tptp.lIrreflexiveRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lNullList_THFTYPE_i) tptp.lList_THFTYPE_i) (@ _let_123 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_244 tptp.lCompositeUnitOfMeasure_THFTYPE_i) (@ _let_62 tptp.lPartialValuedRelation_THFTYPE_i) (@ _let_243 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lNumeratorFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lRealNumber_THFTYPE_i) (@ (@ _let_242 tptp.n1_THFTYPE_i) tptp.lEngineeringComponent_THFTYPE_i) (@ _let_241 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_240 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_239 tptp.lIrreflexiveRelation_THFTYPE_i) (@ _let_127 tptp.lTemporalRelation_THFTYPE_i) (@ (@ _let_238 tptp.n2_THFTYPE_i) tptp.lLengthMeasure_THFTYPE_i) (@ _let_237 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_236 tptp.lRelationExtendedToQuantities_THFTYPE_i) (@ _let_235 tptp.lCompositeUnitOfMeasure_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.attends_THFTYPE_IiioI) tptp.experiencer_THFTYPE_IiioI) (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.publishes_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lOrganization_THFTYPE_i) (@ (@ _let_234 tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ tptp.disjointRelation_THFTYPE_IIiioIIiioIoI tptp.result_THFTYPE_IiioI) tptp.instrument_THFTYPE_IiioI) (@ _let_137 tptp.lSystemeInternationalUnit_THFTYPE_i) (@ (@ _let_233 tptp.n3_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i) (@ (@ _let_232 tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lCentralTimeZone_THFTYPE_i) tptp.lTimeZone_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lUnitedStatesGallon_THFTYPE_i) tptp.lUnitedKingdomGallon_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lWhenFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.initialList_THFTYPE_IiioI) tptp.subList_THFTYPE_IiioI) (@ _let_193 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.refers_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i) (@ _let_231 tptp.lCompositeUnitOfMeasure_THFTYPE_i) (@ _let_42 tptp.lIrreflexiveRelation_THFTYPE_i) (@ _let_230 tptp.lTransitiveRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lDry_THFTYPE_i) tptp.lSaturationAttribute_THFTYPE_i) (@ _let_229 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_228 tptp.n2_THFTYPE_i) tptp.lList_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.meltingPoint_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lRed_THFTYPE_i) tptp.lPrimaryColor_THFTYPE_i) (@ _let_227 tptp.lDayFn_THFTYPE_i) (@ _let_226 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lTangentFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lPlaneAngleMeasure_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.manner_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ _let_225 tptp.lEquivalenceRelation_THFTYPE_i) (@ _let_224 tptp.lCommutativeFunction_THFTYPE_i) (@ _let_223 tptp.lSingleValuedRelation_THFTYPE_i) (@ (@ _let_222 tptp.n1_THFTYPE_i) tptp.lPhysicalSystem_THFTYPE_i) (@ _let_221 tptp.lRelationExtendedToQuantities_THFTYPE_i) (@ _let_9 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_98 tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ _let_220 tptp.lIntransitiveRelation_THFTYPE_i) (@ (@ _let_219 tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ (@ _let_47 tptp.n3_THFTYPE_i) tptp.lGeometricPoint_THFTYPE_i) (@ (@ _let_218 tptp.n1_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ _let_217 tptp.lAntiSymmetricPositionalAttribute_THFTYPE_i) (@ _let_216 tptp.lTransitiveRelation_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IIoioIIoioIoI tptp.holdsObligation_THFTYPE_IoioI) tptp.holdsRight_THFTYPE_IoioI) (@ _let_215 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiiiiiioIiioI tptp.exhaustiveAttribute_THFTYPE_IiiiiiioI) tptp.n1_THFTYPE_i) tptp.lAttribute_THFTYPE_i) (@ _let_214 tptp.lUnaryFunction_THFTYPE_i) (@ _let_213 tptp.lRelationExtendedToQuantities_THFTYPE_i) (forall ((X $$unsorted)) (@ (@ tptp.instance_THFTYPE_IiioI X) tptp.lRelation_THFTYPE_i)) (forall ((X $$unsorted)) (@ (@ tptp.instance_THFTYPE_IiioI X) tptp.lRelation_THFTYPE_i)) (@ (@ _let_212 tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ (@ (@ tptp.domainSubclass_THFTYPE_IIIioIIiioIioIiioI tptp.capability_THFTYPE_IIioIIiioIioI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ _let_22 tptp.lCommutativeFunction_THFTYPE_i) (@ (@ _let_211 tptp.n1_THFTYPE_i) tptp.lInteger_THFTYPE_i) (@ _let_75 tptp.lCompositeUnitOfMeasure_THFTYPE_i) (@ _let_210 tptp.lSystemeInternationalUnit_THFTYPE_i) (@ _let_209 tptp.lBinaryFunction_THFTYPE_i) (@ _let_208 tptp.lIntransitiveRelation_THFTYPE_i) (@ _let_177 tptp.lPartialValuedRelation_THFTYPE_i) (@ _let_207 tptp.temporalPart_THFTYPE_IiioI) (@ _let_206 tptp.legalRelation_THFTYPE_IiioI) (@ _let_205 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ _let_204 tptp.n1_THFTYPE_i) tptp.lDemonstrating_THFTYPE_i) (@ (@ _let_203 tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ (@ _let_202 tptp.n2_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ (@ _let_201 tptp.n1_THFTYPE_i) tptp.lGraph_THFTYPE_i) (@ _let_99 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIIoiIioIoI tptp.element_THFTYPE_IiioI) tptp.instance_THFTYPE_IIoiIioI) (@ _let_200 tptp.lUnaryFunction_THFTYPE_i) (@ (@ _let_199 tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ _let_135 tptp.lSystemeInternationalUnit_THFTYPE_i) (@ _let_198 tptp.lIrreflexiveRelation_THFTYPE_i) (@ _let_174 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ _let_197 tptp.n1_THFTYPE_i) tptp.lGraphPath_THFTYPE_i) (@ _let_196 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_54 tptp.lSpatialRelation_THFTYPE_i) (@ (@ _let_195 tptp.n2_THFTYPE_i) tptp.lCollection_THFTYPE_i) (@ (@ tptp.disjointRelation_THFTYPE_IIioioIIioioIoI tptp.deprivesNorm_THFTYPE_IioioI) tptp.confersNorm_THFTYPE_IioioI) (@ (@ _let_194 tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ _let_193 tptp.lTransitiveRelation_THFTYPE_i) (@ _let_128 tptp.lPartialOrderingRelation_THFTYPE_i) (@ _let_192 tptp.lNaturalLanguage_THFTYPE_i) (@ _let_28 tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_191 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ _let_190 tptp.n1_THFTYPE_i) tptp.lOrganism_THFTYPE_i) (@ _let_189 tptp.lUnitOfMass_THFTYPE_i) (@ _let_188 tptp.lTemporalRelation_THFTYPE_i) (@ (@ _let_187 tptp.n2_THFTYPE_i) tptp.lHuman_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiiIiioI tptp.lSecondFn_THFTYPE_IiiiI) tptp.n1_THFTYPE_i) tptp.lPositiveRealNumber_THFTYPE_i) (@ (@ _let_186 tptp.n2_THFTYPE_i) tptp.lPhysical_THFTYPE_i) (@ (@ _let_185 tptp.n3_THFTYPE_i) tptp.lGraphArc_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IiIiiIoI tptp.lEndNodeFn_THFTYPE_i) tptp.lTerminalNodeFn_THFTYPE_IiiI) (@ (@ _let_184 tptp.n2_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (@ _let_183 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_182 tptp.n2_THFTYPE_i) tptp.lHuman_THFTYPE_i) (@ (@ (@ tptp.domainSubclass_THFTYPE_IiiioI tptp.lTemporalCompositionFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ _let_181 tptp.lTransitiveRelation_THFTYPE_i) (@ _let_180 tptp.lPartialValuedRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lPicoFn_THFTYPE_IiiI) tptp.lUnitOfMeasureMultiplier_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lHorsepower_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i) (@ (@ _let_179 tptp.n1_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i) (@ _let_132 tptp.lTemporalRelation_THFTYPE_i) (@ (@ _let_178 tptp.n2_THFTYPE_i) tptp.lDay_THFTYPE_i) (@ _let_177 tptp.lUnaryFunction_THFTYPE_i) (@ _let_176 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ _let_175 tptp.n2_THFTYPE_i) tptp.lOrganization_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lNumberE_THFTYPE_i) tptp.lPositiveRealNumber_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.representsForAgent_THFTYPE_IiiioI) tptp.lTernaryPredicate_THFTYPE_i) (@ _let_174 tptp.lTernaryPredicate_THFTYPE_i) (@ _let_173 tptp.lTransitiveRelation_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lImmediateFamilyFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lHuman_THFTYPE_i) (@ (@ _let_16 tptp.n2_THFTYPE_i) tptp.lOrganism_THFTYPE_i) (@ (@ _let_172 tptp.n1_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i) (@ _let_171 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_149 tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ _let_170 tptp.n1_THFTYPE_i) tptp.lEngineeringConnection_THFTYPE_i) (@ (@ _let_169 tptp.n2_THFTYPE_i) tptp.lTimePosition_THFTYPE_i) (@ (@ _let_58 tptp.n1_THFTYPE_i) tptp.lPlan_THFTYPE_i) (@ (@ _let_168 tptp.n2_THFTYPE_i) tptp.lContentBearingObject_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lHourDuration_THFTYPE_i) tptp.lUnitOfDuration_THFTYPE_i) (@ (@ _let_167 tptp.n1_THFTYPE_i) tptp.lOrganism_THFTYPE_i) (@ _let_166 tptp.lSystemeInternationalUnit_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lAbstractionFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lClass_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.agent_THFTYPE_IiioI) tptp.lCaseRole_THFTYPE_i) (@ _let_165 tptp.lIrreflexiveRelation_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lMicroFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i) (@ _let_164 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_163 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_162 tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_161 tptp.lTemporalRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lLiving_THFTYPE_i) tptp.lAnimacyAttribute_THFTYPE_i) (@ _let_35 tptp.lSingleValuedRelation_THFTYPE_i) (@ (@ _let_160 tptp.n1_THFTYPE_i) tptp.lHuman_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lWet_THFTYPE_i) tptp.lSaturationAttribute_THFTYPE_i) (@ (@ _let_159 tptp.n2_THFTYPE_i) tptp.lPhysicalQuantity_THFTYPE_i) (@ (@ _let_158 tptp.n2_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (@ (@ _let_66 tptp.n2_THFTYPE_i) tptp.lPositiveInteger_THFTYPE_i) (@ (@ _let_157 tptp.n1_THFTYPE_i) tptp.lRelation_THFTYPE_i) (@ (@ _let_43 tptp.n1_THFTYPE_i) tptp.lTimePoint_THFTYPE_i) (@ (@ _let_156 tptp.n2_THFTYPE_i) tptp.lRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.direction_THFTYPE_IiioI) tptp.lCaseRole_THFTYPE_i) (@ _let_155 tptp.lUnaryFunction_THFTYPE_i) (@ _let_94 tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_72 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMonochromatic_THFTYPE_i) tptp.lColorAttribute_THFTYPE_i) (@ (@ _let_154 tptp.n1_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.frequency_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lTimeDuration_THFTYPE_i) (@ (@ _let_34 tptp.n2_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (@ (@ (@ tptp.domainSubclass_THFTYPE_IiiioI tptp.lGeneralizedUnionFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (@ (@ _let_153 tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ (@ _let_50 tptp.n3_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ _let_130 tptp.n1_THFTYPE_i) tptp.lRelation_THFTYPE_i) (@ _let_152 tptp.lIrreflexiveRelation_THFTYPE_i) (@ (@ _let_124 tptp.n2_THFTYPE_i) tptp.lTemporaryResidence_THFTYPE_i) (@ (@ _let_151 tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ _let_150 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ _let_149 tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ _let_148 tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i) (@ _let_147 tptp.lTemporalRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMillimeter_THFTYPE_i) tptp.lUnitOfLength_THFTYPE_i) (@ _let_146 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPoundForce_THFTYPE_i) tptp.lCompositeUnitOfMeasure_THFTYPE_i) (@ _let_145 tptp.lTemporalRelation_THFTYPE_i) (@ _let_144 tptp.lUnitOfAngularMeasure_THFTYPE_i) (@ _let_143 tptp.lIrreflexiveRelation_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.ancestor_THFTYPE_IiioI) tptp.familyRelation_THFTYPE_IiioI) (@ (@ _let_142 tptp.n2_THFTYPE_i) tptp.lProposition_THFTYPE_i) (@ _let_141 tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_140 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_139 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lAngularDegree_THFTYPE_i) tptp.lUnitOfAngularMeasure_THFTYPE_i) (@ (@ _let_138 tptp.n1_THFTYPE_i) tptp.lPhysicalQuantity_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.subOrganization_THFTYPE_IiioI) tptp.subCollection_THFTYPE_IiioI) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.bottom_THFTYPE_IiioI) tptp.superficialPart_THFTYPE_IiioI) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lDamp_THFTYPE_i) tptp.lSaturationAttribute_THFTYPE_i) (@ _let_137 tptp.lCompositeUnitOfMeasure_THFTYPE_i) (@ _let_136 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.age_THFTYPE_IiioI) tptp.measure_THFTYPE_IiioI) (@ (@ tptp.relatedInternalConcept_THFTYPE_IiIiiIoI tptp.lYear_THFTYPE_i) tptp.lYearFn_THFTYPE_IiiI) (@ _let_135 tptp.lCompositeUnitOfMeasure_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IiIiioIoI tptp.sister_THFTYPE_i) tptp.sibling_THFTYPE_IiioI) (@ _let_134 tptp.lSymmetricRelation_THFTYPE_i) (@ _let_133 tptp.properPart_THFTYPE_IiioI) (@ (@ _let_74 tptp.n2_THFTYPE_i) tptp.lNormativeAttribute_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiooIIiioIoI tptp.realization_THFTYPE_IiooI) tptp.represents_THFTYPE_IiioI) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lYearDuration_THFTYPE_i) tptp.lUnitOfDuration_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lWhereFn_THFTYPE_i) tptp.lWhenFn_THFTYPE_i) (@ (@ _let_7 tptp.n2_THFTYPE_i) tptp.lGraph_THFTYPE_i) (@ _let_132 tptp.lTransitiveRelation_THFTYPE_i) (@ _let_131 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ _let_130 tptp.n2_THFTYPE_i) tptp.lPositiveInteger_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lAsleep_THFTYPE_i) tptp.lConsciousnessAttribute_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.boilingPoint_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lTemperatureMeasure_THFTYPE_i) (@ (@ _let_66 tptp.n1_THFTYPE_i) tptp.lRelation_THFTYPE_i) (@ (@ _let_129 tptp.n1_THFTYPE_i) tptp.lGeographicArea_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lEndNodeFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lGraphPath_THFTYPE_i) (@ _let_128 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lDayFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lPositiveInteger_THFTYPE_i) (@ _let_127 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ _let_126 tptp.n1_THFTYPE_i) tptp.lLengthMeasure_THFTYPE_i) (@ _let_22 tptp.lRelationExtendedToQuantities_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.age_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lTimeDuration_THFTYPE_i) (@ (@ _let_125 tptp.n2_THFTYPE_i) tptp.lGraph_THFTYPE_i) (@ (@ _let_124 tptp.n1_THFTYPE_i) tptp.lHuman_THFTYPE_i) (@ _let_123 tptp.lUnaryFunction_THFTYPE_i) (@ (@ _let_122 tptp.n1_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ _let_121 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ _let_120 tptp.n1_THFTYPE_i) tptp.lGeometricPoint_THFTYPE_i) (@ _let_107 tptp.lTemporalRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lQuart_THFTYPE_i) tptp.lUnitOfVolume_THFTYPE_i) (@ _let_119 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_118 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lBeginNodeFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lGraphPath_THFTYPE_i) (@ (@ _let_117 tptp.n2_THFTYPE_i) tptp.lSet_THFTYPE_i) (@ _let_116 tptp.instrument_THFTYPE_IiioI) (@ (@ _let_65 tptp.n2_THFTYPE_i) tptp.lLengthMeasure_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lTerminalNodeFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lGraphArc_THFTYPE_i) (@ (@ _let_115 tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ _let_114 tptp.lRelationExtendedToQuantities_THFTYPE_i) (@ _let_113 tptp.lTemporalRelation_THFTYPE_i) (@ (@ _let_112 tptp.n1_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i) (@ (@ _let_111 tptp.n2_THFTYPE_i) tptp.lAgent_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.piece_THFTYPE_IiioI) tptp.part_THFTYPE_IiioI) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.editor_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lAgent_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiiiiioIiioI tptp.disjointDecomposition_THFTYPE_IiiiiiioI) tptp.n1_THFTYPE_i) tptp.lClass_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMegaByte_THFTYPE_i) tptp.lUnitOfInformation_THFTYPE_i) (@ (@ _let_110 tptp.n2_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (@ _let_109 tptp.lBinaryFunction_THFTYPE_i) (@ _let_108 tptp.lVariableArityRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lGas_THFTYPE_i) tptp.lPhysicalState_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lEuroCent_THFTYPE_i) tptp.lUnitOfCurrency_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIioI tptp.fills_THFTYPE_IiioI) tptp.lFillable_THFTYPE_i) (@ _let_107 tptp.lUnaryFunction_THFTYPE_i) (@ _let_71 tptp.lIrreflexiveRelation_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiooIIiioIoI tptp.considers_THFTYPE_IiooI) tptp.inScopeOfInterest_THFTYPE_IiioI) (@ _let_106 tptp.lVariableArityRelation_THFTYPE_i) (@ _let_28 tptp.lUnaryFunction_THFTYPE_i) (@ _let_105 tptp.lPartialValuedRelation_THFTYPE_i) (@ (@ _let_104 tptp.n1_THFTYPE_i) tptp.lFunction_THFTYPE_i) (@ _let_103 tptp.lPartialValuedRelation_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IiioI tptp.lBuying_THFTYPE_i) tptp.lSelling_THFTYPE_i) (@ (@ _let_102 tptp.n2_THFTYPE_i) tptp.lPlaneAngleMeasure_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lDenominatorFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lRealNumber_THFTYPE_i) (@ (@ _let_15 tptp.n1_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ (@ _let_93 tptp.n2_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ (@ _let_77 tptp.n3_THFTYPE_i) tptp.lAttribute_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIooIioI tptp.lPremisesFn_THFTYPE_IooI) tptp.lUnaryFunction_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lUnemployed_THFTYPE_i) tptp.lSocialRole_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lNegativeInfinity_THFTYPE_i) tptp.lTimePoint_THFTYPE_i) (@ _let_101 tptp.lSystemeInternationalUnit_THFTYPE_i) (@ (@ _let_100 tptp.n2_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i) (@ _let_99 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IiIiiIoI tptp.lBeginNodeFn_THFTYPE_i) tptp.lInitialNodeFn_THFTYPE_IiiI) (@ (@ _let_98 tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSpeedFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_97 tptp.lTemporalRelation_THFTYPE_i) (@ _let_84 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_96 tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IoioI true) tptp.lTruthValue_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.uniqueIdentifier_THFTYPE_i) tptp.lSingleValuedRelation_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lYearFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lInteger_THFTYPE_i) (@ (@ _let_95 tptp.n2_THFTYPE_i) tptp.lClothing_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIIioioIiioIioI tptp.domain_THFTYPE_IIioioIiioI) tptp.lTernaryPredicate_THFTYPE_i) (@ _let_94 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_93 tptp.n1_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ _let_92 tptp.lTemporalRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lSlug_THFTYPE_i) tptp.lUnitOfMass_THFTYPE_i) (@ (@ _let_91 tptp.n2_THFTYPE_i) tptp.lDirectionalAttribute_THFTYPE_i) (@ _let_90 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_26 tptp.n3_THFTYPE_i) tptp.lLanguage_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiooIoI tptp.time_THFTYPE_IiioI) tptp.holdsDuring_THFTYPE_IiooI) (@ _let_89 tptp.lSingleValuedRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.acquaintance_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i) (@ _let_11 tptp.lIrreflexiveRelation_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiiIiioI tptp.lUnionFn_THFTYPE_IiiiI) tptp.n2_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (@ _let_88 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ _let_87 tptp.n2_THFTYPE_i) tptp.lOrganism_THFTYPE_i) (@ (@ _let_86 tptp.n1_THFTYPE_i) tptp.lGraphNode_THFTYPE_i) (@ _let_85 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.origin_THFTYPE_IiioI) tptp.involvedInEvent_THFTYPE_IiioI) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lRough_THFTYPE_i) tptp.lTextureAttribute_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMale_THFTYPE_i) tptp.lSexAttribute_THFTYPE_i) (@ _let_84 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ _let_64 tptp.n2_THFTYPE_i) tptp.lTimePoint_THFTYPE_i) (@ _let_36 tptp.lBinaryFunction_THFTYPE_i) (@ _let_83 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_82 tptp.completelyFills_THFTYPE_IiioI) (@ _let_81 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_80 tptp.lIrreflexiveRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lAwake_THFTYPE_i) tptp.lConsciousnessAttribute_THFTYPE_i) (@ _let_31 tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_79 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_78 tptp.n2_THFTYPE_i) tptp.lGraphNode_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.side_THFTYPE_IiioI) tptp.superficialPart_THFTYPE_IiioI) (@ (@ _let_77 tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lPint_THFTYPE_i) tptp.lUnitOfVolume_THFTYPE_i) (@ _let_76 tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_75 tptp.lSystemeInternationalUnit_THFTYPE_i) (@ (@ _let_74 tptp.n1_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ _let_73 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lProhibition_THFTYPE_i) tptp.lDeonticAttribute_THFTYPE_i) (@ _let_72 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_71 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_70 tptp.n2_THFTYPE_i) tptp.lHole_THFTYPE_i) (@ (@ _let_69 tptp.n2_THFTYPE_i) tptp.lList_THFTYPE_i) (@ (@ _let_68 tptp.n2_THFTYPE_i) tptp.lOrganism_THFTYPE_i) (@ (@ _let_67 tptp.n1_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i) (@ (@ _let_66 tptp.n3_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (@ (@ _let_65 tptp.n1_THFTYPE_i) tptp.lCircle_THFTYPE_i) (@ (@ _let_64 tptp.n1_THFTYPE_i) tptp.lTimePoint_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lMinimalCutSetFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lGraph_THFTYPE_i) (@ _let_63 tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_62 tptp.lSingleValuedRelation_THFTYPE_i) (@ _let_61 tptp.lReflexiveRelation_THFTYPE_i) (@ _let_60 tptp.lTemporalRelation_THFTYPE_i) (@ _let_59 tptp.lUnaryFunction_THFTYPE_i) (@ (@ _let_58 tptp.n2_THFTYPE_i) tptp.lPlan_THFTYPE_i) (@ (@ _let_57 tptp.n1_THFTYPE_i) tptp.lSymbolicString_THFTYPE_i) (@ _let_56 tptp.lCompositeUnitOfMeasure_THFTYPE_i) (@ (@ _let_55 tptp.n2_THFTYPE_i) tptp.lOrganism_THFTYPE_i) (@ _let_54 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.height_THFTYPE_IiioI) tptp.linearExtent_THFTYPE_IiioI) (@ _let_53 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ _let_52 tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ _let_41 tptp.lUnitOfLength_THFTYPE_i) (@ (@ _let_51 tptp.n1_THFTYPE_i) tptp.lSentence_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.experiencer_THFTYPE_IiioI) tptp.lCaseRole_THFTYPE_i) (@ _let_22 tptp.lAssociativeFunction_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.abstractCounterpart_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_50 tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ _let_49 tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ _let_8 tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ (@ _let_48 tptp.n2_THFTYPE_i) tptp.lInteger_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.engineeringSubcomponent_THFTYPE_IiioI) tptp.properPart_THFTYPE_IiioI) (@ (@ _let_47 tptp.n1_THFTYPE_i) tptp.lOneDimensionalFigure_THFTYPE_i) (@ _let_14 tptp.lTransitiveRelation_THFTYPE_i) (@ (@ _let_46 tptp.n2_THFTYPE_i) tptp.lProposition_THFTYPE_i) (@ _let_45 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lUnilluminated_THFTYPE_i) tptp.lVisualAttribute_THFTYPE_i) (@ (@ _let_44 tptp.n2_THFTYPE_i) tptp.lTimePoint_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lSuccessorFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lInteger_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.son_THFTYPE_IiioI) tptp.parent_THFTYPE_IiioI) (@ (@ _let_43 tptp.n2_THFTYPE_i) tptp.lTimePoint_THFTYPE_i) (@ _let_42 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lNecessity_THFTYPE_i) tptp.lAlethicAttribute_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lKappaFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i) (@ _let_41 tptp.lSystemeInternationalUnit_THFTYPE_i) (@ (@ _let_40 tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ _let_39 tptp.n1_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i) (@ _let_38 tptp.lBinaryFunction_THFTYPE_i) (@ _let_37 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_36 tptp.lCommutativeFunction_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.overlapsPartially_THFTYPE_IiioI) tptp.overlapsSpatially_THFTYPE_IiioI) (@ _let_35 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiiioIiioI tptp.partition_THFTYPE_IiiiioI) tptp.n1_THFTYPE_i) tptp.lClass_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.destination_THFTYPE_IiioI) tptp.involvedInEvent_THFTYPE_IiioI) (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.hasSkill_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lNorth_THFTYPE_i) tptp.lDirectionalAttribute_THFTYPE_i) (@ (@ _let_34 tptp.n1_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_33 tptp.n3_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lImaginaryPartFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lComplexNumber_THFTYPE_i) (@ (@ _let_32 tptp.n2_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.age_THFTYPE_IiioI) tptp.lSingleValuedRelation_THFTYPE_i) (@ _let_31 tptp.lTransitiveRelation_THFTYPE_i) (@ _let_30 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ (@ tptp.domainSubclass_THFTYPE_IiiioI tptp.lHourFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lDay_THFTYPE_i) (@ (@ _let_29 tptp.n2_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiooIoI tptp.resource_THFTYPE_IiioI) tptp.patient_THFTYPE_IiooI) (@ _let_28 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ _let_20 tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ _let_27 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_26 tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ (@ _let_25 tptp.n2_THFTYPE_i) tptp.lList_THFTYPE_i) (@ (@ _let_24 tptp.n2_THFTYPE_i) tptp.lContentBearingObject_THFTYPE_i) (@ (@ _let_23 tptp.n2_THFTYPE_i) tptp.lSetOrClass_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.boilingPoint_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i) (@ _let_22 tptp.lBinaryFunction_THFTYPE_i) (@ _let_21 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_17 tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ (@ _let_20 tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ _let_19 tptp.lSpatialRelation_THFTYPE_i) (@ (@ _let_18 tptp.n2_THFTYPE_i) tptp.lAttribute_THFTYPE_i) (@ (@ _let_17 tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ (@ _let_16 tptp.n1_THFTYPE_i) tptp.lOrganism_THFTYPE_i) (@ (@ _let_15 tptp.n3_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lPathWeightFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIIIioIIiioIioIiioIioI tptp.domainSubclass_THFTYPE_IIIioIIiioIioIiioI) tptp.lTernaryPredicate_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lHourFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lNonnegativeInteger_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lFillable_THFTYPE_i) tptp.lShapeAttribute_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.diameter_THFTYPE_IiioI) tptp.width_THFTYPE_IiioI) (@ _let_14 tptp.lIrreflexiveRelation_THFTYPE_i) (@ (@ _let_13 tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ (@ _let_12 tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ _let_9 tptp.lTransitiveRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.lCelsiusDegree_THFTYPE_i) tptp.lSystemeInternationalUnit_THFTYPE_i) (@ (@ (@ tptp.domainSubclass_THFTYPE_IIiioIiioI tptp.material_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lSubstance_THFTYPE_i) (@ _let_11 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_10 tptp.n2_THFTYPE_i) tptp.lSymbolicString_THFTYPE_i) (@ _let_9 tptp.lRelationExtendedToQuantities_THFTYPE_i) (@ (@ _let_8 tptp.n3_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.attribute_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ _let_7 tptp.n1_THFTYPE_i) tptp.lGraph_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IiioI tptp.lDensityFn_THFTYPE_i) tptp.lPerFn_THFTYPE_i) (@ _let_6 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIIooIioIoI tptp.immediateInstance_THFTYPE_IiioI) tptp.instance_THFTYPE_IIooIioI) _let_5 _let_4 true))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
% 3.11/3.44  )
% 3.11/3.44  % SZS output end Proof for CSR151^3
% 3.11/3.45  % cvc5---1.0.5 exiting
% 3.11/3.45  % cvc5---1.0.5 exiting
%------------------------------------------------------------------------------