%------------------------------------------------------------------------------
% File     : cvc5---1.0.5
% Problem  : CSR144^2 : TPTP v8.1.2. Released v4.1.0.
% Transfm  : none
% Format   : tptp
% Command  : do_cvc5 %s %d

% Computer : n027.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 21:07:15 EDT 2023

% Result   : Theorem 69.66s 69.85s
% Output   : Proof 69.66s
% Verified : 
% SZS Type : -

% Comments : 
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.15/0.16  % Problem    : CSR144^2 : TPTP v8.1.2. Released v4.1.0.
% 0.15/0.17  % Command    : do_cvc5 %s %d
% 0.17/0.38  % Computer : n027.cluster.edu
% 0.17/0.38  % Model    : x86_64 x86_64
% 0.17/0.38  % CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.17/0.38  % Memory   : 8042.1875MB
% 0.17/0.38  % OS       : Linux 3.10.0-693.el7.x86_64
% 0.17/0.38  % CPULimit   : 300
% 0.17/0.38  % WCLimit    : 300
% 0.17/0.38  % DateTime   : Mon Aug 28 11:39:52 EDT 2023
% 0.17/0.38  % CPUTime    : 
% 0.24/0.54  %----Proving TH0
% 0.24/0.55  %------------------------------------------------------------------------------
% 0.24/0.55  % File     : CSR144^2 : TPTP v8.1.2. Released v4.1.0.
% 0.24/0.55  % Domain   : Commonsense Reasoning
% 0.24/0.55  % Problem  : Does Max think he's single?
% 0.24/0.55  % Version  : Especial.
% 0.24/0.55  % English  : There is no time during which Max considers to have a wife. Is it
% 0.24/0.55  %            true that Max does not believe that he is a husband of somebody?.
% 0.24/0.55  
% 0.24/0.55  % Refs     : [Ben10] Benzmueller (2010), Email to Geoff Sutcliffe
% 0.24/0.55  % Source   : [Ben10]
% 0.24/0.55  % Names    : ex_3.tq_SUMO_sine [Ben10]
% 0.24/0.55  
% 0.24/0.55  % Status   : Theorem
% 0.24/0.55  % Rating   : 0.54 v8.1.0, 0.36 v7.5.0, 0.29 v7.4.0, 0.56 v7.2.0, 0.50 v7.1.0, 0.62 v7.0.0, 0.57 v6.4.0, 0.67 v6.3.0, 0.60 v6.2.0, 0.43 v6.1.0, 0.86 v6.0.0, 0.71 v5.5.0, 0.67 v5.4.0, 1.00 v5.3.0, 0.80 v5.2.0, 1.00 v4.1.0
% 0.24/0.55  % Syntax   : Number of formulae    :  457 (  94 unt; 133 typ;   0 def)
% 0.24/0.55  %            Number of atoms       :  644 (  15 equ;  12 cnn)
% 0.24/0.55  %            Maximal formula atoms :    8 (   1 avg)
% 0.24/0.55  %            Number of connectives : 1174 (  12   ~;   5   |;  47   &;1033   @)
% 0.24/0.55  %                                         (  14 <=>;  63  =>;   0  <=;   0 <~>)
% 0.24/0.55  %            Maximal formula depth :   13 (   4 avg)
% 0.24/0.55  %            Number of types       :    3 (   1 usr)
% 0.24/0.55  %            Number of type conns  :  259 ( 259   >;   0   *;   0   +;   0  <<)
% 0.24/0.55  %            Number of symbols     :  134 ( 132 usr;  56 con; 0-3 aty)
% 0.24/0.55  %            Number of variables   :  180 (   0   ^; 162   !;  18   ?; 180   :)
% 0.24/0.55  % SPC      : TH0_THM_EQU_NAR
% 0.24/0.55  
% 0.24/0.55  % Comments : This is a simple test problem for reasoning in/about SUMO.
% 0.24/0.55  %            Initally the problem has been hand generated in KIF syntax in
% 0.24/0.55  %            SigmaKEE and then automatically translated by Benzmueller's
% 0.24/0.55  %            KIF2TH0 translator into THF syntax.
% 0.24/0.55  %          : The translation has been applied in three modes: handselected,
% 0.24/0.55  %            SInE, and local. The local mode only translates the local
% 0.24/0.55  %            assumptions and the query. The SInE mode additionally translates
% 0.24/0.55  %            the SInE extract of the loaded knowledge base (usually SUMO). The
% 0.24/0.55  %            handselected mode contains a hand-selected relevant axioms.
% 0.24/0.55  %          : The examples are selected to illustrate the benefits of
% 0.24/0.55  %            higher-order reasoning in ontology reasoning.
% 0.24/0.55  %------------------------------------------------------------------------------
% 0.24/0.55  %----The extracted signature
% 0.24/0.55  thf(numbers,type,
% 0.24/0.55      num: $tType ).
% 0.24/0.55  
% 0.24/0.55  thf(agent_THFTYPE_IiioI,type,
% 0.24/0.55      agent_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(attribute_THFTYPE_IiioI,type,
% 0.24/0.55      attribute_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(before_THFTYPE_IiioI,type,
% 0.24/0.55      before_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(believes_THFTYPE_IiooI,type,
% 0.24/0.55      believes_THFTYPE_IiooI: $i > $o > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(connected_THFTYPE_i,type,
% 0.24/0.55      connected_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(considers_THFTYPE_IiooI,type,
% 0.24/0.55      considers_THFTYPE_IiooI: $i > $o > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(contraryAttribute_THFTYPE_IiioI,type,
% 0.24/0.55      contraryAttribute_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(contraryAttribute_THFTYPE_IioI,type,
% 0.24/0.55      contraryAttribute_THFTYPE_IioI: $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(desires_THFTYPE_IiooI,type,
% 0.24/0.55      desires_THFTYPE_IiooI: $i > $o > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(disjoint_THFTYPE_IiioI,type,
% 0.24/0.55      disjoint_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(documentation_THFTYPE_i,type,
% 0.24/0.55      documentation_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(domainSubclass_THFTYPE_IiiioI,type,
% 0.24/0.55      domainSubclass_THFTYPE_IiiioI: $i > $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(domain_THFTYPE_IIIiioIIiioIoIiioI,type,
% 0.24/0.55      domain_THFTYPE_IIIiioIIiioIoIiioI: ( ( $i > $i > $o ) > ( $i > $i > $o ) > $o ) > $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(domain_THFTYPE_IIIiioIIiooIoIiioI,type,
% 0.24/0.55      domain_THFTYPE_IIIiioIIiooIoIiioI: ( ( $i > $i > $o ) > ( $i > $o > $o ) > $o ) > $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(domain_THFTYPE_IIiiIiioI,type,
% 0.24/0.55      domain_THFTYPE_IIiiIiioI: ( $i > $i ) > $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(domain_THFTYPE_IIiiiIiioI,type,
% 0.24/0.55      domain_THFTYPE_IIiiiIiioI: ( $i > $i > $i ) > $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(domain_THFTYPE_IIiiioIiioI,type,
% 0.24/0.55      domain_THFTYPE_IIiiioIiioI: ( $i > $i > $i > $o ) > $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(domain_THFTYPE_IIiioIiioI,type,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI: ( $i > $i > $o ) > $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(domain_THFTYPE_IIioioIiioI,type,
% 0.24/0.55      domain_THFTYPE_IIioioIiioI: ( $i > $o > $i > $o ) > $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(domain_THFTYPE_IIiooIiioI,type,
% 0.24/0.55      domain_THFTYPE_IIiooIiioI: ( $i > $o > $o ) > $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(domain_THFTYPE_IiiioI,type,
% 0.24/0.55      domain_THFTYPE_IiiioI: $i > $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(equal_THFTYPE_i,type,
% 0.24/0.55      equal_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(father_THFTYPE_IiioI,type,
% 0.24/0.55      father_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(greaterThanOrEqualTo_THFTYPE_IiioI,type,
% 0.24/0.55      greaterThanOrEqualTo_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(greaterThan_THFTYPE_IiioI,type,
% 0.24/0.55      greaterThan_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(gt_THFTYPE_IiioI,type,
% 0.24/0.55      gt_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(gtet_THFTYPE_IiioI,type,
% 0.24/0.55      gtet_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(hasPurposeForAgent_THFTYPE_IioioI,type,
% 0.24/0.55      hasPurposeForAgent_THFTYPE_IioioI: $i > $o > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(hasPurpose_THFTYPE_IiooI,type,
% 0.24/0.55      hasPurpose_THFTYPE_IiooI: $i > $o > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(holdsDuring_THFTYPE_IiooI,type,
% 0.24/0.55      holdsDuring_THFTYPE_IiooI: $i > $o > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(husband_THFTYPE_IiioI,type,
% 0.24/0.55      husband_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(inList_THFTYPE_IiioI,type,
% 0.24/0.55      inList_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(inScopeOfInterest_THFTYPE_IiioI,type,
% 0.24/0.55      inScopeOfInterest_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(instance_THFTYPE_IIIiioIIiioIoIioI,type,
% 0.24/0.55      instance_THFTYPE_IIIiioIIiioIoIioI: ( ( $i > $i > $o ) > ( $i > $i > $o ) > $o ) > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(instance_THFTYPE_IIIiioIiioIioI,type,
% 0.24/0.55      instance_THFTYPE_IIIiioIiioIioI: ( ( $i > $i > $o ) > $i > $i > $o ) > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(instance_THFTYPE_IIiiIioI,type,
% 0.24/0.55      instance_THFTYPE_IIiiIioI: ( $i > $i ) > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(instance_THFTYPE_IIiiiIioI,type,
% 0.24/0.55      instance_THFTYPE_IIiiiIioI: ( $i > $i > $i ) > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(instance_THFTYPE_IIiiioIioI,type,
% 0.24/0.55      instance_THFTYPE_IIiiioIioI: ( $i > $i > $i > $o ) > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(instance_THFTYPE_IIiioIioI,type,
% 0.24/0.55      instance_THFTYPE_IIiioIioI: ( $i > $i > $o ) > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(instance_THFTYPE_IIioioIioI,type,
% 0.24/0.55      instance_THFTYPE_IIioioIioI: ( $i > $o > $i > $o ) > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(instance_THFTYPE_IIiooIioI,type,
% 0.24/0.55      instance_THFTYPE_IIiooIioI: ( $i > $o > $o ) > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(instance_THFTYPE_IiioI,type,
% 0.24/0.55      instance_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(inverse_THFTYPE_IIiioIIiioIoI,type,
% 0.24/0.55      inverse_THFTYPE_IIiioIIiioIoI: ( $i > $i > $o ) > ( $i > $i > $o ) > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(knows_THFTYPE_IiooI,type,
% 0.24/0.55      knows_THFTYPE_IiooI: $i > $o > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(lAdditionFn_THFTYPE_i,type,
% 0.24/0.55      lAdditionFn_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lAgent_THFTYPE_i,type,
% 0.24/0.55      lAgent_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lAsymmetricRelation_THFTYPE_i,type,
% 0.24/0.55      lAsymmetricRelation_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lBeginFn_THFTYPE_IiiI,type,
% 0.24/0.55      lBeginFn_THFTYPE_IiiI: $i > $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lBeginFn_THFTYPE_i,type,
% 0.24/0.55      lBeginFn_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lBinaryFunction_THFTYPE_i,type,
% 0.24/0.55      lBinaryFunction_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lBinaryPredicate_THFTYPE_i,type,
% 0.24/0.55      lBinaryPredicate_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lBinaryRelation_THFTYPE_i,type,
% 0.24/0.55      lBinaryRelation_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lBodyPart_THFTYPE_i,type,
% 0.24/0.55      lBodyPart_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lCognitiveAgent_THFTYPE_i,type,
% 0.24/0.55      lCognitiveAgent_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lEndFn_THFTYPE_IiiI,type,
% 0.24/0.55      lEndFn_THFTYPE_IiiI: $i > $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lEndFn_THFTYPE_i,type,
% 0.24/0.55      lEndFn_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lEntity_THFTYPE_i,type,
% 0.24/0.55      lEntity_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lFemale_THFTYPE_i,type,
% 0.24/0.55      lFemale_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lFormula_THFTYPE_i,type,
% 0.24/0.55      lFormula_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lHuman_THFTYPE_i,type,
% 0.24/0.55      lHuman_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lInheritableRelation_THFTYPE_i,type,
% 0.24/0.55      lInheritableRelation_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lIntentionalProcess_THFTYPE_i,type,
% 0.24/0.55      lIntentionalProcess_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lIrreflexiveRelation_THFTYPE_i,type,
% 0.24/0.55      lIrreflexiveRelation_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lListFn_THFTYPE_IiiI,type,
% 0.24/0.55      lListFn_THFTYPE_IiiI: $i > $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lMale_THFTYPE_i,type,
% 0.24/0.55      lMale_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lMan_THFTYPE_i,type,
% 0.24/0.55      lMan_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lMax_THFTYPE_i,type,
% 0.24/0.55      lMax_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lMeasureFn_THFTYPE_IiiiI,type,
% 0.24/0.55      lMeasureFn_THFTYPE_IiiiI: $i > $i > $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lMultiplicationFn_THFTYPE_i,type,
% 0.24/0.55      lMultiplicationFn_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lObject_THFTYPE_i,type,
% 0.24/0.55      lObject_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lOrganism_THFTYPE_i,type,
% 0.24/0.55      lOrganism_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lOrganization_THFTYPE_i,type,
% 0.24/0.55      lOrganization_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lPartialOrderingRelation_THFTYPE_i,type,
% 0.24/0.55      lPartialOrderingRelation_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lPhysical_THFTYPE_i,type,
% 0.24/0.55      lPhysical_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lProcess_THFTYPE_i,type,
% 0.24/0.55      lProcess_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lPropositionalAttitude_THFTYPE_i,type,
% 0.24/0.55      lPropositionalAttitude_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lQuantity_THFTYPE_i,type,
% 0.24/0.55      lQuantity_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lRealNumber_THFTYPE_i,type,
% 0.24/0.55      lRealNumber_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lRelationExtendedToQuantities_THFTYPE_i,type,
% 0.24/0.55      lRelationExtendedToQuantities_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lRelation_THFTYPE_i,type,
% 0.24/0.55      lRelation_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lReproductiveBody_THFTYPE_i,type,
% 0.24/0.55      lReproductiveBody_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lSelfConnectedObject_THFTYPE_i,type,
% 0.24/0.55      lSelfConnectedObject_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lSingleValuedRelation_THFTYPE_i,type,
% 0.24/0.55      lSingleValuedRelation_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lSymmetricRelation_THFTYPE_i,type,
% 0.24/0.55      lSymmetricRelation_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lTemporalRelation_THFTYPE_i,type,
% 0.24/0.55      lTemporalRelation_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lTernaryPredicate_THFTYPE_i,type,
% 0.24/0.55      lTernaryPredicate_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lTimeInterval_THFTYPE_i,type,
% 0.24/0.55      lTimeInterval_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lTimePoint_THFTYPE_i,type,
% 0.24/0.55      lTimePoint_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lTimePosition_THFTYPE_i,type,
% 0.24/0.55      lTimePosition_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lTotalValuedRelation_THFTYPE_i,type,
% 0.24/0.55      lTotalValuedRelation_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lTransitiveRelation_THFTYPE_i,type,
% 0.24/0.55      lTransitiveRelation_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lUnaryFunction_THFTYPE_i,type,
% 0.24/0.55      lUnaryFunction_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lUnitOfMeasure_THFTYPE_i,type,
% 0.24/0.55      lUnitOfMeasure_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lWhenFn_THFTYPE_IiiI,type,
% 0.24/0.55      lWhenFn_THFTYPE_IiiI: $i > $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lWhenFn_THFTYPE_i,type,
% 0.24/0.55      lWhenFn_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lWoman_THFTYPE_i,type,
% 0.24/0.55      lWoman_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(lessThanOrEqualTo_THFTYPE_IiioI,type,
% 0.24/0.55      lessThanOrEqualTo_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(lessThan_THFTYPE_IiioI,type,
% 0.24/0.55      lessThan_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(located_THFTYPE_IiioI,type,
% 0.24/0.55      located_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(lt_THFTYPE_IiioI,type,
% 0.24/0.55      lt_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(ltet_THFTYPE_IiioI,type,
% 0.24/0.55      ltet_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(meetsTemporally_THFTYPE_IiioI,type,
% 0.24/0.55      meetsTemporally_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(member_THFTYPE_IiioI,type,
% 0.24/0.55      member_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(mother_THFTYPE_IiioI,type,
% 0.24/0.55      mother_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(n1_THFTYPE_i,type,
% 0.24/0.55      n1_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(n2_THFTYPE_i,type,
% 0.24/0.55      n2_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(n3_THFTYPE_i,type,
% 0.24/0.55      n3_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(orientation_THFTYPE_IiiioI,type,
% 0.24/0.55      orientation_THFTYPE_IiiioI: $i > $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(parent_THFTYPE_IiioI,type,
% 0.24/0.55      parent_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(part_THFTYPE_IiioI,type,
% 0.24/0.55      part_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(partition_THFTYPE_IiiioI,type,
% 0.24/0.55      partition_THFTYPE_IiiioI: $i > $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(patient_THFTYPE_IiioI,type,
% 0.24/0.55      patient_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(possesses_THFTYPE_IiioI,type,
% 0.24/0.55      possesses_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(range_THFTYPE_IiioI,type,
% 0.24/0.55      range_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(relatedInternalConcept_THFTYPE_IIiioIIiioIoI,type,
% 0.24/0.55      relatedInternalConcept_THFTYPE_IIiioIIiioIoI: ( $i > $i > $o ) > ( $i > $i > $o ) > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(relatedInternalConcept_THFTYPE_IIiioIIiooIoI,type,
% 0.24/0.55      relatedInternalConcept_THFTYPE_IIiioIIiooIoI: ( $i > $i > $o ) > ( $i > $o > $o ) > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(relatedInternalConcept_THFTYPE_IIiooIIiioIoI,type,
% 0.24/0.55      relatedInternalConcept_THFTYPE_IIiooIIiioIoI: ( $i > $o > $o ) > ( $i > $i > $o ) > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(relatedInternalConcept_THFTYPE_i,type,
% 0.24/0.55      relatedInternalConcept_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(result_THFTYPE_IiioI,type,
% 0.24/0.55      result_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(spouse_THFTYPE_i,type,
% 0.24/0.55      spouse_THFTYPE_i: $i ).
% 0.24/0.55  
% 0.24/0.55  thf(subAttribute_THFTYPE_IiioI,type,
% 0.24/0.55      subAttribute_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(subProcess_THFTYPE_IiioI,type,
% 0.24/0.55      subProcess_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(subclass_THFTYPE_IiioI,type,
% 0.24/0.55      subclass_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(subrelation_THFTYPE_IIiioIIiioIoI,type,
% 0.24/0.55      subrelation_THFTYPE_IIiioIIiioIoI: ( $i > $i > $o ) > ( $i > $i > $o ) > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(subrelation_THFTYPE_IIiioIioI,type,
% 0.24/0.55      subrelation_THFTYPE_IIiioIioI: ( $i > $i > $o ) > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(subrelation_THFTYPE_IIioIIioIoI,type,
% 0.24/0.55      subrelation_THFTYPE_IIioIIioIoI: ( $i > $o ) > ( $i > $o ) > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(subrelation_THFTYPE_IIiooIIiioIoI,type,
% 0.24/0.55      subrelation_THFTYPE_IIiooIIiioIoI: ( $i > $o > $o ) > ( $i > $i > $o ) > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(subrelation_THFTYPE_IiioI,type,
% 0.24/0.55      subrelation_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(temporalPart_THFTYPE_IiioI,type,
% 0.24/0.55      temporalPart_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(time_THFTYPE_IiioI,type,
% 0.24/0.55      time_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(wants_THFTYPE_IiioI,type,
% 0.24/0.55      wants_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  thf(wife_THFTYPE_IiioI,type,
% 0.24/0.55      wife_THFTYPE_IiioI: $i > $i > $o ).
% 0.24/0.55  
% 0.24/0.55  %----The translated axioms
% 0.24/0.55  thf(ax,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lPropositionalAttitude_THFTYPE_i @ lAsymmetricRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  %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.")
% 0.24/0.55  %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.")
% 0.24/0.55  thf(ax_001,axiom,
% 0.24/0.55      ! [REL: $i > $i > $o] :
% 0.24/0.55        ( ( instance_THFTYPE_IIiioIioI @ REL @ lSingleValuedRelation_THFTYPE_i )
% 0.24/0.55       => ! [ROW: $i,ITEM1: $i,ITEM2: $i] :
% 0.24/0.55            ( ( ( REL @ ROW @ ITEM1 )
% 0.24/0.55              & ( REL @ ROW @ ITEM2 ) )
% 0.24/0.55           => ( ITEM1 = ITEM2 ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_002,axiom,
% 0.24/0.55      ! [X: $i,Y: $i,Z: $i] :
% 0.24/0.55        ( ( ( subclass_THFTYPE_IiioI @ X @ Y )
% 0.24/0.55          & ( instance_THFTYPE_IiioI @ Z @ X ) )
% 0.24/0.55       => ( instance_THFTYPE_IiioI @ Z @ Y ) ) ).
% 0.24/0.55  
% 0.24/0.55  %KIF documentation:(documentation Agent EnglishLanguage "Something or someone that can act on its own and produce changes in the world.")
% 0.24/0.55  %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.")
% 0.24/0.55  %KIF documentation:(documentation lessThan EnglishLanguage "(&%lessThan ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is less than the &%Quantity ?NUMBER2.")
% 0.24/0.55  thf(ax_003,axiom,
% 0.24/0.55      ! [WOMAN: $i] :
% 0.24/0.55        ( ( instance_THFTYPE_IiioI @ WOMAN @ lWoman_THFTYPE_i )
% 0.24/0.55       => ( attribute_THFTYPE_IiioI @ WOMAN @ lFemale_THFTYPE_i ) ) ).
% 0.24/0.55  
% 0.24/0.55  %KIF documentation:(documentation AsymmetricRelation EnglishLanguage "A &%BinaryRelation is asymmetric if and only if it is both an &%AntisymmetricRelation and an &%IrreflexiveRelation.")
% 0.24/0.55  thf(ax_004,axiom,
% 0.24/0.55      ! [OBJ: $i,PROC: $i] :
% 0.24/0.55        ( ( result_THFTYPE_IiioI @ PROC @ OBJ )
% 0.24/0.55       => ! [TIME: $i] :
% 0.24/0.55            ( ( before_THFTYPE_IiioI @ TIME @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ PROC ) ) )
% 0.24/0.55           => ( (~) @ ( time_THFTYPE_IiioI @ OBJ @ TIME ) ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_005,axiom,
% 0.24/0.55      ! [REL2: $i > $i > $o,REL1: $i > $i > $o] :
% 0.24/0.55        ( ( inverse_THFTYPE_IIiioIIiioIoI @ REL1 @ REL2 )
% 0.24/0.55       => ! [INST1: $i,INST2: $i] :
% 0.24/0.55            ( ( REL1 @ INST1 @ INST2 )
% 0.24/0.55          <=> ( REL2 @ INST2 @ INST1 ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  %KIF documentation:(documentation mother EnglishLanguage "The general relationship of motherhood. (&%mother ?CHILD ?MOTHER) means that ?MOTHER is the biological mother of ?CHILD.")
% 0.24/0.55  thf(ax_006,axiom,
% 0.24/0.55      ! [OBJ1: $i,OBJ2: $i] :
% 0.24/0.55        ( ( located_THFTYPE_IiioI @ OBJ1 @ OBJ2 )
% 0.24/0.55       => ! [SUB: $i] :
% 0.24/0.55            ( ( part_THFTYPE_IiioI @ SUB @ OBJ1 )
% 0.24/0.55           => ( located_THFTYPE_IiioI @ SUB @ OBJ2 ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_007,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i @ lBinaryRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  %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.")
% 0.24/0.55  %KIF documentation:(documentation MultiplicationFn EnglishLanguage "If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%MultiplicationFn ?NUMBER1 ?NUMBER2) is the arithmetical product of these numbers.")
% 0.24/0.55  thf(ax_008,axiom,
% 0.24/0.55      ! [ATTR2: $i,OBJ1: $i,ROW: $i,OBJ2: $i,ATTR1: $i] :
% 0.24/0.55        ( ( ( orientation_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ ATTR1 )
% 0.24/0.55          & ( contraryAttribute_THFTYPE_IioI @ ROW )
% 0.24/0.55          & ( inList_THFTYPE_IiioI @ ATTR1 @ ( lListFn_THFTYPE_IiiI @ ROW ) )
% 0.24/0.55          & ( inList_THFTYPE_IiioI @ ATTR2 @ ( lListFn_THFTYPE_IiiI @ ROW ) )
% 0.24/0.55          & ( (~) @ ( ATTR1 = ATTR2 ) ) )
% 0.24/0.55       => ( (~) @ ( orientation_THFTYPE_IiiioI @ OBJ1 @ OBJ2 @ ATTR2 ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  %KIF documentation:(documentation Man EnglishLanguage "The class of &%Male &%Humans.")
% 0.24/0.55  %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.")
% 0.24/0.55  %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.")
% 0.24/0.55  thf(ax_009,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i @ lIrreflexiveRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_010,axiom,
% 0.24/0.55      ! [CLASS: $i,ATTR2: $i,ATTR1: $i] :
% 0.24/0.55        ( ( ( subAttribute_THFTYPE_IiioI @ ATTR1 @ ATTR2 )
% 0.24/0.55          & ( instance_THFTYPE_IiioI @ ATTR2 @ CLASS ) )
% 0.24/0.55       => ( instance_THFTYPE_IiioI @ ATTR1 @ CLASS ) ) ).
% 0.24/0.55  
% 0.24/0.55  %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.")
% 0.24/0.55  thf(ax_011,axiom,
% 0.24/0.55      ! [CHILD: $i,PARENT: $i] :
% 0.24/0.55        ( ( ( parent_THFTYPE_IiioI @ CHILD @ PARENT )
% 0.24/0.55          & ( attribute_THFTYPE_IiioI @ PARENT @ lFemale_THFTYPE_i ) )
% 0.24/0.55       => ( mother_THFTYPE_IiioI @ CHILD @ PARENT ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_012,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lReproductiveBody_THFTYPE_i @ lBodyPart_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_013,axiom,
% 0.24/0.55      ! [THING: $i,POS: $i] :
% 0.24/0.55        ( ( temporalPart_THFTYPE_IiioI @ POS @ ( lWhenFn_THFTYPE_IiiI @ THING ) )
% 0.24/0.55      <=> ( time_THFTYPE_IiioI @ THING @ POS ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_014,axiom,
% 0.24/0.55      ! [NUMBER: $i,CLASS1: $i,REL: $i,CLASS2: $i] :
% 0.24/0.55        ( ( ( domain_THFTYPE_IiiioI @ REL @ NUMBER @ CLASS1 )
% 0.24/0.55          & ( domain_THFTYPE_IiiioI @ REL @ NUMBER @ CLASS2 ) )
% 0.24/0.55       => ( ( subclass_THFTYPE_IiioI @ CLASS1 @ CLASS2 )
% 0.24/0.55          | ( subclass_THFTYPE_IiioI @ CLASS2 @ CLASS1 ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_015,axiom,
% 0.24/0.55      ! [REL: $i > $i > $o] :
% 0.24/0.55        ( ( instance_THFTYPE_IIiioIioI @ REL @ lTransitiveRelation_THFTYPE_i )
% 0.24/0.55      <=> ! [INST1: $i,INST2: $i,INST3: $i] :
% 0.24/0.55            ( ( ( REL @ INST1 @ INST2 )
% 0.24/0.55              & ( REL @ INST2 @ INST3 ) )
% 0.24/0.55           => ( REL @ INST1 @ INST3 ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_016,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lProcess_THFTYPE_i @ lPhysical_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_017,axiom,
% 0.24/0.55      ! [NUMBER2: $i,NUMBER1: $i] :
% 0.24/0.55        ( ( gtet_THFTYPE_IiioI @ NUMBER1 @ NUMBER2 )
% 0.24/0.55      <=> ( ( NUMBER1 = NUMBER2 )
% 0.24/0.55          | ( gt_THFTYPE_IiioI @ NUMBER1 @ NUMBER2 ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_018,axiom,
% 0.24/0.55      ! [AGENT: $i,PROC: $i] :
% 0.24/0.55        ( ( ( instance_THFTYPE_IiioI @ PROC @ lIntentionalProcess_THFTYPE_i )
% 0.24/0.55          & ( agent_THFTYPE_IiioI @ PROC @ AGENT ) )
% 0.24/0.55       => ? [PURP: $o] : ( hasPurposeForAgent_THFTYPE_IioioI @ PROC @ PURP @ AGENT ) ) ).
% 0.24/0.55  
% 0.24/0.55  %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.")
% 0.24/0.55  %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.")
% 0.24/0.55  thf(ax_019,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lUnaryFunction_THFTYPE_i @ lBinaryRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_020,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lHuman_THFTYPE_i @ lCognitiveAgent_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  %KIF documentation:(documentation BinaryRelation EnglishLanguage "&%BinaryRelations are relations that are true only of pairs of things. &%BinaryRelations are represented as slots in frame systems.")
% 0.24/0.55  thf(ax_021,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lRelationExtendedToQuantities_THFTYPE_i @ lRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_022,axiom,
% 0.24/0.55      ! [OBJ: $i,AGENT: $i] :
% 0.24/0.55        ( ( wants_THFTYPE_IiioI @ AGENT @ OBJ )
% 0.24/0.55       => ? [PURP: $o] : ( hasPurposeForAgent_THFTYPE_IioioI @ OBJ @ PURP @ AGENT ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_023,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lBinaryRelation_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  %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.")
% 0.24/0.55  %KIF documentation:(documentation attribute EnglishLanguage "(&%attribute ?OBJECT ?PROPERTY) means that ?PROPERTY is a &%Attribute of ?OBJECT. For example, (&%attribute &%MyLittleRedWagon &%Red).")
% 0.24/0.55  thf(ax_024,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lSingleValuedRelation_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  %KIF documentation:(documentation greaterThan EnglishLanguage "(&%greaterThan ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is greater than the &%Quantity ?NUMBER2.")
% 0.24/0.55  thf(ax_025,axiom,
% 0.24/0.55      ! [FORMULA: $i,AGENT: $i,REL: $i > $i > $o] :
% 0.24/0.55        ( ( ( instance_THFTYPE_IIiioIioI @ REL @ lPropositionalAttitude_THFTYPE_i )
% 0.24/0.55          & ( REL @ AGENT @ FORMULA ) )
% 0.24/0.55       => ( instance_THFTYPE_IiioI @ FORMULA @ lFormula_THFTYPE_i ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_026,axiom,
% 0.24/0.55      ! [SITUATION: $o,TIME2: $i,TIME1: $i] :
% 0.24/0.55        ( ( ( holdsDuring_THFTYPE_IiooI @ TIME1 @ SITUATION )
% 0.24/0.55          & ( temporalPart_THFTYPE_IiioI @ TIME2 @ TIME1 ) )
% 0.24/0.55       => ( holdsDuring_THFTYPE_IiooI @ TIME2 @ SITUATION ) ) ).
% 0.24/0.55  
% 0.24/0.55  %KIF documentation:(documentation Formula EnglishLanguage "A syntactically well-formed formula in the SUO-KIF knowledge representation language.")
% 0.24/0.55  %KIF documentation:(documentation Woman EnglishLanguage "The class of &%Female &%Humans.")
% 0.24/0.55  thf(ax_027,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lMan_THFTYPE_i @ lHuman_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_028,axiom,
% 0.24/0.55      ! [ORG: $i] :
% 0.24/0.55        ( ( instance_THFTYPE_IiioI @ ORG @ lOrganization_THFTYPE_i )
% 0.24/0.55       => ? [PURP: $o] :
% 0.24/0.55          ! [MEMBER: $i] :
% 0.24/0.55            ( ( member_THFTYPE_IiioI @ MEMBER @ ORG )
% 0.24/0.55           => ( hasPurpose_THFTYPE_IiooI @ MEMBER @ PURP ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_029,axiom,
% 0.24/0.55      ! [REL: $i > $i > $o] :
% 0.24/0.55        ( ( instance_THFTYPE_IIiioIioI @ REL @ lIrreflexiveRelation_THFTYPE_i )
% 0.24/0.55      <=> ! [INST: $i] : ( (~) @ ( REL @ INST @ INST ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_030,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lBinaryFunction_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_031,axiom,
% 0.24/0.55      ! [NUMBER: $i,PRED1: $i,CLASS1: $i,PRED2: $i] :
% 0.24/0.55        ( ( ( subrelation_THFTYPE_IiioI @ PRED1 @ PRED2 )
% 0.24/0.55          & ( domain_THFTYPE_IiiioI @ PRED2 @ NUMBER @ CLASS1 ) )
% 0.24/0.55       => ( domain_THFTYPE_IiiioI @ PRED1 @ NUMBER @ CLASS1 ) ) ).
% 0.24/0.55  
% 0.24/0.55  %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.")
% 0.24/0.55  thf(ax_032,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lTotalValuedRelation_THFTYPE_i @ lRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  %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.")
% 0.24/0.55  thf(ax_033,axiom,
% 0.24/0.55      ! [CHILD: $i,PARENT: $i] :
% 0.24/0.55        ( ( parent_THFTYPE_IiioI @ CHILD @ PARENT )
% 0.24/0.55       => ( before_THFTYPE_IiioI @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ PARENT ) ) @ ( lBeginFn_THFTYPE_IiiI @ ( lWhenFn_THFTYPE_IiiI @ CHILD ) ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_034,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lRelationExtendedToQuantities_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_035,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lObject_THFTYPE_i @ lPhysical_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_036,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lSelfConnectedObject_THFTYPE_i @ lObject_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_037,axiom,
% 0.24/0.55      ! [CLASS1: $i,CLASS2: $i] :
% 0.24/0.55        ( ( CLASS1 = CLASS2 )
% 0.24/0.55       => ! [THING: $i] :
% 0.24/0.55            ( ( instance_THFTYPE_IiioI @ THING @ CLASS1 )
% 0.24/0.55          <=> ( instance_THFTYPE_IiioI @ THING @ CLASS2 ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  %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.")
% 0.24/0.55  thf(ax_038,axiom,
% 0.24/0.55      ! [REL: $i > $i > $o,INTERVAL: $i,INST2: $i,INST1: $i] :
% 0.24/0.55        ( ( ( holdsDuring_THFTYPE_IiooI @ INTERVAL @ ( REL @ INST1 @ INST2 ) )
% 0.24/0.55          & ( instance_THFTYPE_IiioI @ INST1 @ lPhysical_THFTYPE_i )
% 0.24/0.55          & ( instance_THFTYPE_IiioI @ INST2 @ lPhysical_THFTYPE_i ) )
% 0.24/0.55       => ( ( time_THFTYPE_IiioI @ INST1 @ INTERVAL )
% 0.24/0.55          & ( time_THFTYPE_IiioI @ INST2 @ INTERVAL ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  %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.")
% 0.24/0.55  thf(ax_039,axiom,
% 0.24/0.55      partition_THFTYPE_IiiioI @ lHuman_THFTYPE_i @ lMan_THFTYPE_i @ lWoman_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_040,axiom,
% 0.24/0.55      partition_THFTYPE_IiiioI @ lTimePosition_THFTYPE_i @ lTimeInterval_THFTYPE_i @ lTimePoint_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_041,axiom,
% 0.24/0.55      ! [FORMULA: $o,AGENT: $i] :
% 0.24/0.55        ( ( knows_THFTYPE_IiooI @ AGENT @ FORMULA )
% 0.24/0.55       => ( believes_THFTYPE_IiooI @ AGENT @ FORMULA ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_042,axiom,
% 0.24/0.55      ! [ORG: $i,AGENT: $i] :
% 0.24/0.55        ( ( ( instance_THFTYPE_IiioI @ ORG @ lOrganization_THFTYPE_i )
% 0.24/0.55          & ( member_THFTYPE_IiioI @ AGENT @ ORG ) )
% 0.24/0.55       => ( instance_THFTYPE_IiioI @ AGENT @ lAgent_THFTYPE_i ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_043,axiom,
% 0.24/0.55      ! [THING2: $i,THING1: $i] :
% 0.24/0.55        ( ( THING1 = THING2 )
% 0.24/0.55       => ! [CLASS: $i] :
% 0.24/0.55            ( ( instance_THFTYPE_IiioI @ THING1 @ CLASS )
% 0.24/0.55          <=> ( instance_THFTYPE_IiioI @ THING2 @ CLASS ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_044,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lOrganism_THFTYPE_i @ lAgent_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  %KIF documentation:(documentation father EnglishLanguage "The general relationship of fatherhood. (&%father ?CHILD ?FATHER) means that ?FATHER is the biological father of ?CHILD.")
% 0.24/0.55  %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.")
% 0.24/0.55  %KIF documentation:(documentation UnaryFunction EnglishLanguage "The &%Class of &%Functions that require a single argument.")
% 0.24/0.55  thf(ax_045,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i @ lBinaryRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_046,axiom,
% 0.24/0.55      ! [SUBPROC: $i,PROC: $i] :
% 0.24/0.55        ( ( subProcess_THFTYPE_IiioI @ SUBPROC @ PROC )
% 0.24/0.55       => ( temporalPart_THFTYPE_IiioI @ ( lWhenFn_THFTYPE_IiiI @ SUBPROC ) @ ( lWhenFn_THFTYPE_IiiI @ PROC ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  %KIF documentation:(documentation greaterThanOrEqualTo EnglishLanguage "(&%greaterThanOrEqualTo ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is greater than the &%Quantity ?NUMBER2.")
% 0.24/0.55  thf(ax_047,axiom,
% 0.24/0.55      ! [FATHER: $i,CHILD: $i] :
% 0.24/0.55        ( ( father_THFTYPE_IiioI @ CHILD @ FATHER )
% 0.24/0.55       => ( attribute_THFTYPE_IiioI @ FATHER @ lMale_THFTYPE_i ) ) ).
% 0.24/0.55  
% 0.24/0.55  %KIF documentation:(documentation connected EnglishLanguage "(connected ?OBJ1 ?OBJ2) means that ?OBJ1 &%meetsSpatially ?OBJ2 or that ?OBJ1 &%overlapsSpatially ?OBJ2.")
% 0.24/0.55  thf(ax_048,axiom,
% 0.24/0.55      ! [INTERVAL1: $i,INTERVAL2: $i] :
% 0.24/0.55        ( ( ( ( lBeginFn_THFTYPE_IiiI @ INTERVAL1 )
% 0.24/0.55            = ( lBeginFn_THFTYPE_IiiI @ INTERVAL2 ) )
% 0.24/0.55          & ( ( lEndFn_THFTYPE_IiiI @ INTERVAL1 )
% 0.24/0.55            = ( lEndFn_THFTYPE_IiiI @ INTERVAL2 ) ) )
% 0.24/0.55       => ( INTERVAL1 = INTERVAL2 ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_049,axiom,
% 0.24/0.55      ! [REL2: $i,CLASS1: $i,REL1: $i] :
% 0.24/0.55        ( ( ( subrelation_THFTYPE_IiioI @ REL1 @ REL2 )
% 0.24/0.55          & ( range_THFTYPE_IiioI @ REL2 @ CLASS1 ) )
% 0.24/0.55       => ( range_THFTYPE_IiioI @ REL1 @ CLASS1 ) ) ).
% 0.24/0.55  
% 0.24/0.55  %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.")
% 0.24/0.55  %KIF documentation:(documentation BinaryFunction EnglishLanguage "The &%Class of &%Functions that require two arguments.")
% 0.24/0.55  thf(ax_050,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lTimeInterval_THFTYPE_i @ lTimePosition_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  %KIF documentation:(documentation Entity EnglishLanguage "The universal class of individuals. This is the root node of the ontology.")
% 0.24/0.55  %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.")
% 0.24/0.55  thf(ax_051,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lTemporalRelation_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_052,axiom,
% 0.24/0.55      range_THFTYPE_IiioI @ lBeginFn_THFTYPE_i @ lTimePoint_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  %KIF documentation:(documentation TimePosition EnglishLanguage "Any &%TimePoint or &%TimeInterval along the universal timeline from &%NegativeInfinity to &%PositiveInfinity.")
% 0.24/0.55  thf(ax_053,axiom,
% 0.24/0.55      ! [PROC: $i] :
% 0.24/0.55        ( ( instance_THFTYPE_IiioI @ PROC @ lIntentionalProcess_THFTYPE_i )
% 0.24/0.55       => ? [AGENT: $i] :
% 0.24/0.55            ( ( instance_THFTYPE_IiioI @ AGENT @ lCognitiveAgent_THFTYPE_i )
% 0.24/0.55            & ( agent_THFTYPE_IiioI @ PROC @ AGENT ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_054,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lAgent_THFTYPE_i @ lObject_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  %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.")
% 0.24/0.55  thf(ax_055,axiom,
% 0.24/0.55      ! [SUBPROC: $i,PROC: $i] :
% 0.24/0.55        ( ( subProcess_THFTYPE_IiioI @ SUBPROC @ PROC )
% 0.24/0.55       => ! [REGION: $i] :
% 0.24/0.55            ( ( located_THFTYPE_IiioI @ PROC @ REGION )
% 0.24/0.55           => ( located_THFTYPE_IiioI @ SUBPROC @ REGION ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  %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.")
% 0.24/0.55  %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.")
% 0.24/0.55  %KIF documentation:(documentation believes EnglishLanguage "The epistemic predicate of belief. (&%believes ?AGENT ?FORMULA) means that ?AGENT believes the proposition expressed by ?FORMULA.")
% 0.24/0.55  thf(ax_056,axiom,
% 0.24/0.55      ! [SUBPROC: $i,PROC: $i] :
% 0.24/0.55        ( ( ( instance_THFTYPE_IiioI @ PROC @ lProcess_THFTYPE_i )
% 0.24/0.55          & ( subProcess_THFTYPE_IiioI @ SUBPROC @ PROC ) )
% 0.24/0.55       => ? [TIME: $i] : ( time_THFTYPE_IiioI @ SUBPROC @ TIME ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_057,axiom,
% 0.24/0.55      ! [MAN: $i] :
% 0.24/0.55        ( ( instance_THFTYPE_IiioI @ MAN @ lMan_THFTYPE_i )
% 0.24/0.55       => ( attribute_THFTYPE_IiioI @ MAN @ lMale_THFTYPE_i ) ) ).
% 0.24/0.55  
% 0.24/0.55  %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.")
% 0.24/0.55  thf(ax_058,axiom,
% 0.24/0.55      ! [FORMULA: $o,AGENT: $i] :
% 0.24/0.55        ( ( believes_THFTYPE_IiooI @ AGENT @ FORMULA )
% 0.24/0.55       => ? [TIME: $i] : ( holdsDuring_THFTYPE_IiooI @ TIME @ ( considers_THFTYPE_IiooI @ AGENT @ FORMULA ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  %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.")
% 0.24/0.55  thf(ax_059,axiom,
% 0.24/0.55      ! [REL: $i > $i > $o] :
% 0.24/0.55        ( ( instance_THFTYPE_IIiioIioI @ REL @ lSymmetricRelation_THFTYPE_i )
% 0.24/0.55      <=> ! [INST1: $i,INST2: $i] :
% 0.24/0.55            ( ( REL @ INST1 @ INST2 )
% 0.24/0.55           => ( REL @ INST2 @ INST1 ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_060,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lPhysical_THFTYPE_i @ lEntity_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_061,axiom,
% 0.24/0.55      ! [OBJ: $i,AGENT: $i] :
% 0.24/0.55        ( ( wants_THFTYPE_IiioI @ AGENT @ OBJ )
% 0.24/0.55       => ( desires_THFTYPE_IiooI @ AGENT @ ( possesses_THFTYPE_IiioI @ AGENT @ OBJ ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_062,axiom,
% 0.24/0.55      range_THFTYPE_IiioI @ lAdditionFn_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  %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.")
% 0.24/0.55  %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.")
% 0.24/0.55  %KIF documentation:(documentation spouse EnglishLanguage "The relationship of marriage between two &%Humans.")
% 0.24/0.55  %KIF documentation:(documentation EndFn EnglishLanguage "A &%UnaryFunction that maps a &%TimeInterval to the &%TimePoint at which the interval ends.")
% 0.24/0.55  thf(ax_063,axiom,
% 0.24/0.55      ! [BODY: $i,ORG: $i] :
% 0.24/0.55        ( ( ( instance_THFTYPE_IiioI @ BODY @ lReproductiveBody_THFTYPE_i )
% 0.24/0.55          & ( part_THFTYPE_IiioI @ BODY @ ORG )
% 0.24/0.55          & ( instance_THFTYPE_IiioI @ ORG @ lOrganism_THFTYPE_i ) )
% 0.24/0.55       => ( attribute_THFTYPE_IiioI @ ORG @ lFemale_THFTYPE_i ) ) ).
% 0.24/0.55  
% 0.24/0.55  %KIF documentation:(documentation considers EnglishLanguage "(&%considers ?AGENT ?FORMULA) means that ?AGENT considers or wonders about the truth of the proposition expressed by ?FORMULA.")
% 0.24/0.55  thf(ax_064,axiom,
% 0.24/0.55      ! [INTERVAL: $i] :
% 0.24/0.55        ( ( instance_THFTYPE_IiioI @ INTERVAL @ lTimeInterval_THFTYPE_i )
% 0.24/0.55       => ? [POINT: $i] :
% 0.24/0.55            ( ( instance_THFTYPE_IiioI @ POINT @ lTimePoint_THFTYPE_i )
% 0.24/0.55            & ( temporalPart_THFTYPE_IiioI @ POINT @ INTERVAL ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_065,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lUnaryFunction_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  %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.")
% 0.24/0.55  %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.")
% 0.24/0.55  %KIF documentation:(documentation InheritableRelation EnglishLanguage "The class of &%Relations whose properties can be inherited downward in the class hierarchy via the &%subrelation &%Predicate.")
% 0.24/0.55  %KIF documentation:(documentation husband EnglishLanguage "(&%husband ?MAN ?WOMAN) means that ?MAN is the husband of ?WOMAN.")
% 0.24/0.55  %KIF documentation:(documentation IntentionalProcess EnglishLanguage "A &%Process that has a specific purpose for the &%CognitiveAgent who performs it.")
% 0.24/0.55  thf(ax_066,axiom,
% 0.24/0.55      ! [CLASS: $i,PRED1: $i,PRED2: $i] :
% 0.24/0.55        ( ( ( subrelation_THFTYPE_IiioI @ PRED1 @ PRED2 )
% 0.24/0.55          & ( instance_THFTYPE_IiioI @ PRED2 @ CLASS )
% 0.24/0.55          & ( subclass_THFTYPE_IiioI @ CLASS @ lInheritableRelation_THFTYPE_i ) )
% 0.24/0.55       => ( instance_THFTYPE_IiioI @ PRED1 @ CLASS ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_067,axiom,
% 0.24/0.55      ! [PURPOSE: $o,THING: $i] :
% 0.24/0.55        ( ( hasPurpose_THFTYPE_IiooI @ THING @ PURPOSE )
% 0.24/0.55       => ? [AGENT: $i] : ( hasPurposeForAgent_THFTYPE_IioioI @ THING @ PURPOSE @ AGENT ) ) ).
% 0.24/0.55  
% 0.24/0.55  %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.")
% 0.24/0.55  thf(ax_068,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_069,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lInheritableRelation_THFTYPE_i @ lRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_070,axiom,
% 0.24/0.55      ! [NUMBER2: $i,NUMBER1: $i] :
% 0.24/0.55        ( ( ltet_THFTYPE_IiioI @ NUMBER1 @ NUMBER2 )
% 0.24/0.55      <=> ( ( NUMBER1 = NUMBER2 )
% 0.24/0.55          | ( lt_THFTYPE_IiioI @ NUMBER1 @ NUMBER2 ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  %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.")
% 0.24/0.55  %KIF documentation:(documentation TemporalRelation EnglishLanguage "The &%Class of temporal &%Relations. This &%Class includes notions of (temporal) topology of intervals, (temporal) schemata, and (temporal) extension.")
% 0.24/0.55  thf(ax_071,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lTimePoint_THFTYPE_i @ lTimePosition_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  %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.")
% 0.24/0.55  %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.")
% 0.24/0.55  thf(ax_072,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lBinaryRelation_THFTYPE_i @ lRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_073,axiom,
% 0.24/0.55      ! [THING: $i] : ( instance_THFTYPE_IiioI @ THING @ lEntity_THFTYPE_i ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_074,axiom,
% 0.24/0.55      ! [INTERVAL: $i] :
% 0.24/0.55        ( ( instance_THFTYPE_IiioI @ INTERVAL @ lTimeInterval_THFTYPE_i )
% 0.24/0.55       => ( before_THFTYPE_IiioI @ ( lBeginFn_THFTYPE_IiiI @ INTERVAL ) @ ( lEndFn_THFTYPE_IiiI @ INTERVAL ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_075,axiom,
% 0.24/0.55      range_THFTYPE_IiioI @ lEndFn_THFTYPE_i @ lTimePoint_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  %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.")
% 0.24/0.55  thf(ax_076,axiom,
% 0.24/0.55      ! [AGENT: $i] :
% 0.24/0.55        ( ( instance_THFTYPE_IiioI @ AGENT @ lAgent_THFTYPE_i )
% 0.24/0.55      <=> ? [PROC: $i] : ( agent_THFTYPE_IiioI @ PROC @ AGENT ) ) ).
% 0.24/0.55  
% 0.24/0.55  %KIF documentation:(documentation TernaryPredicate EnglishLanguage "The &%Class of &%Predicates that require exactly three arguments.")
% 0.24/0.55  thf(ax_077,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lTotalValuedRelation_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  %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.")
% 0.24/0.55  thf(ax_078,axiom,
% 0.24/0.55      ! [NUMBER: $i,CLASS1: $i,REL: $i,CLASS2: $i] :
% 0.24/0.55        ( ( ( domainSubclass_THFTYPE_IiiioI @ REL @ NUMBER @ CLASS1 )
% 0.24/0.55          & ( domainSubclass_THFTYPE_IiiioI @ REL @ NUMBER @ CLASS2 ) )
% 0.24/0.55       => ( ( subclass_THFTYPE_IiioI @ CLASS1 @ CLASS2 )
% 0.24/0.55          | ( subclass_THFTYPE_IiioI @ CLASS2 @ CLASS1 ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_079,axiom,
% 0.24/0.55      ! [MOTHER: $i,CHILD: $i] :
% 0.24/0.55        ( ( mother_THFTYPE_IiioI @ CHILD @ MOTHER )
% 0.24/0.55       => ( attribute_THFTYPE_IiioI @ MOTHER @ lFemale_THFTYPE_i ) ) ).
% 0.24/0.55  
% 0.24/0.55  %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.")
% 0.24/0.55  %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.")
% 0.24/0.55  thf(ax_080,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lTemporalRelation_THFTYPE_i @ lRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_081,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lIntentionalProcess_THFTYPE_i @ lProcess_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  %KIF documentation:(documentation PartialOrderingRelation EnglishLanguage "A &%BinaryRelation is a partial ordering if it is a &%ReflexiveRelation, an &%AntisymmetricRelation, and a &%TransitiveRelation.")
% 0.24/0.55  %KIF documentation:(documentation SymmetricRelation EnglishLanguage "A &%BinaryRelation ?REL is symmetric just iff (?REL ?INST1 ?INST2) imples (?REL ?INST2 ?INST1), for all ?INST1 and ?INST2.")
% 0.24/0.55  thf(ax_082,axiom,
% 0.24/0.55      ! [POINT: $i,INTERVAL: $i] :
% 0.24/0.55        ( ( ( lBeginFn_THFTYPE_IiiI @ INTERVAL )
% 0.24/0.55          = POINT )
% 0.24/0.55       => ! [OTHERPOINT: $i] :
% 0.24/0.55            ( ( ( temporalPart_THFTYPE_IiioI @ OTHERPOINT @ INTERVAL )
% 0.24/0.55              & ( (~) @ ( OTHERPOINT = POINT ) ) )
% 0.24/0.55           => ( before_THFTYPE_IiioI @ POINT @ OTHERPOINT ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_083,axiom,
% 0.24/0.55      ! [POINT: $i] :
% 0.24/0.55        ( ( instance_THFTYPE_IiioI @ POINT @ lTimePoint_THFTYPE_i )
% 0.24/0.55       => ? [INTERVAL: $i] :
% 0.24/0.55            ( ( instance_THFTYPE_IiioI @ INTERVAL @ lTimeInterval_THFTYPE_i )
% 0.24/0.55            & ( temporalPart_THFTYPE_IiioI @ POINT @ INTERVAL ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_084,axiom,
% 0.24/0.55      contraryAttribute_THFTYPE_IiioI @ lMale_THFTYPE_i @ lFemale_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  %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.")
% 0.24/0.55  thf(ax_085,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lTransitiveRelation_THFTYPE_i @ lBinaryRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  %KIF documentation:(documentation equal EnglishLanguage "(equal ?ENTITY1 ?ENTITY2) is true just in case ?ENTITY1 is identical with ?ENTITY2.")
% 0.24/0.55  %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.")
% 0.24/0.55  %KIF documentation:(documentation Female EnglishLanguage "An &%Attribute indicating that an &%Organism is female in nature.")
% 0.24/0.55  thf(ax_086,axiom,
% 0.24/0.55      ! [ORGANISM: $i] :
% 0.24/0.55        ( ( instance_THFTYPE_IiioI @ ORGANISM @ lOrganism_THFTYPE_i )
% 0.24/0.55       => ? [PARENT: $i] : ( parent_THFTYPE_IiioI @ ORGANISM @ PARENT ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_087,axiom,
% 0.24/0.55      ! [TIME: $i,SITUATION: $o] :
% 0.24/0.55        ( ( holdsDuring_THFTYPE_IiooI @ TIME @ ( (~) @ SITUATION ) )
% 0.24/0.55       => ( (~) @ ( holdsDuring_THFTYPE_IiooI @ TIME @ SITUATION ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_088,axiom,
% 0.24/0.55      ! [X: $i] :
% 0.24/0.55        ( (~)
% 0.24/0.55        @ ? [Z: $i] : ( holdsDuring_THFTYPE_IiooI @ Z @ ( considers_THFTYPE_IiooI @ lMax_THFTYPE_i @ ( wife_THFTYPE_IiioI @ X @ lMax_THFTYPE_i ) ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_089,axiom,
% 0.24/0.55      ! [X: $i] :
% 0.24/0.55        ( (~)
% 0.24/0.55        @ ? [Z: $i] : ( holdsDuring_THFTYPE_IiooI @ Z @ ( considers_THFTYPE_IiooI @ lMax_THFTYPE_i @ ( wife_THFTYPE_IiioI @ X @ lMax_THFTYPE_i ) ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_090,axiom,
% 0.24/0.55      ! [POINT: $i,INTERVAL: $i] :
% 0.24/0.55        ( ( ( lEndFn_THFTYPE_IiiI @ INTERVAL )
% 0.24/0.55          = POINT )
% 0.24/0.55       => ! [OTHERPOINT: $i] :
% 0.24/0.55            ( ( ( temporalPart_THFTYPE_IiioI @ OTHERPOINT @ INTERVAL )
% 0.24/0.55              & ( (~) @ ( OTHERPOINT = POINT ) ) )
% 0.24/0.55           => ( before_THFTYPE_IiioI @ OTHERPOINT @ POINT ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_091,axiom,
% 0.24/0.55      range_THFTYPE_IiioI @ lWhenFn_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_092,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lSingleValuedRelation_THFTYPE_i @ lRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  %KIF documentation:(documentation Organism EnglishLanguage "Generally, a living individual, including all &%Plants and &%Animals.")
% 0.24/0.55  thf(ax_093,axiom,
% 0.24/0.55      ! [INTERVAL1: $i,INTERVAL2: $i] :
% 0.24/0.55        ( ( meetsTemporally_THFTYPE_IiioI @ INTERVAL1 @ INTERVAL2 )
% 0.24/0.55      <=> ( ( lEndFn_THFTYPE_IiiI @ INTERVAL1 )
% 0.24/0.55          = ( lBeginFn_THFTYPE_IiiI @ INTERVAL2 ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  %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.")
% 0.24/0.55  %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.")
% 0.24/0.55  thf(ax_094,axiom,
% 0.24/0.55      range_THFTYPE_IiioI @ lMultiplicationFn_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_095,axiom,
% 0.24/0.55      ? [THING: $i] : ( instance_THFTYPE_IiioI @ THING @ lEntity_THFTYPE_i ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_096,axiom,
% 0.24/0.55      inverse_THFTYPE_IIiioIIiioIoI @ husband_THFTYPE_IiioI @ wife_THFTYPE_IiioI ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_097,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lPartialOrderingRelation_THFTYPE_i @ lTransitiveRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_098,axiom,
% 0.24/0.55      ! [PHYS: $i] :
% 0.24/0.55        ( ( instance_THFTYPE_IiioI @ PHYS @ lPhysical_THFTYPE_i )
% 0.24/0.55      <=> ? [LOC: $i,TIME: $i] :
% 0.24/0.55            ( ( located_THFTYPE_IiioI @ PHYS @ LOC )
% 0.24/0.55            & ( time_THFTYPE_IiioI @ PHYS @ TIME ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_099,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lTernaryPredicate_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  %KIF documentation:(documentation wife EnglishLanguage "(&%wife ?WOMAN ?MAN) means that ?WOMAN is the wife of ?MAN.")
% 0.24/0.55  %KIF documentation:(documentation possesses EnglishLanguage "&%Relation that holds between an &%Agent and an &%Object when the &%Agent has ownership of the &%Object.")
% 0.24/0.55  %KIF documentation:(documentation IrreflexiveRelation EnglishLanguage "&%Relation ?REL is irreflexive iff (?REL ?INST ?INST) holds for no value of ?INST.")
% 0.24/0.55  %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.")
% 0.24/0.55  %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.")
% 0.24/0.55  thf(ax_100,axiom,
% 0.24/0.55      partition_THFTYPE_IiiioI @ lPhysical_THFTYPE_i @ lObject_THFTYPE_i @ lProcess_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  %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).")
% 0.24/0.55  thf(ax_101,axiom,
% 0.24/0.55      ! [REL2: $i > $o,ROW: $i,REL1: $i > $o] :
% 0.24/0.55        ( ( ( subrelation_THFTYPE_IIioIIioIoI @ REL1 @ REL2 )
% 0.24/0.55          & ( REL1 @ ROW ) )
% 0.24/0.55       => ( REL2 @ ROW ) ) ).
% 0.24/0.55  
% 0.24/0.55  %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.")
% 0.24/0.55  %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.")
% 0.24/0.55  thf(ax_102,axiom,
% 0.24/0.55      ! [CLASS1: $i,REL: $i,CLASS2: $i] :
% 0.24/0.55        ( ( ( range_THFTYPE_IiioI @ REL @ CLASS1 )
% 0.24/0.55          & ( range_THFTYPE_IiioI @ REL @ CLASS2 ) )
% 0.24/0.55       => ( ( subclass_THFTYPE_IiioI @ CLASS1 @ CLASS2 )
% 0.24/0.55          | ( subclass_THFTYPE_IiioI @ CLASS2 @ CLASS1 ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_103,axiom,
% 0.24/0.55      ! [CLASS1: $i,CLASS2: $i] :
% 0.24/0.55        ( ( disjoint_THFTYPE_IiioI @ CLASS1 @ CLASS2 )
% 0.24/0.55      <=> ! [INST: $i] :
% 0.24/0.55            ( (~)
% 0.24/0.55            @ ( ( instance_THFTYPE_IiioI @ INST @ CLASS1 )
% 0.24/0.55              & ( instance_THFTYPE_IiioI @ INST @ CLASS2 ) ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  %KIF documentation:(documentation subAttribute EnglishLanguage "Means that the second argument can be ascribed to everything which has the first argument ascribed to it.")
% 0.24/0.55  %KIF documentation:(documentation AdditionFn EnglishLanguage "If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%AdditionFn ?NUMBER1 ?NUMBER2) is the arithmetical sum of these numbers.")
% 0.24/0.55  %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.")
% 0.24/0.55  thf(ax_104,axiom,
% 0.24/0.55      ! [CLASS: $i,CHILD: $i,PARENT: $i] :
% 0.24/0.55        ( ( ( parent_THFTYPE_IiioI @ CHILD @ PARENT )
% 0.24/0.55          & ( subclass_THFTYPE_IiioI @ CLASS @ lOrganism_THFTYPE_i )
% 0.24/0.55          & ( instance_THFTYPE_IiioI @ PARENT @ CLASS ) )
% 0.24/0.55       => ( instance_THFTYPE_IiioI @ CHILD @ CLASS ) ) ).
% 0.24/0.55  
% 0.24/0.55  %KIF documentation:(documentation BinaryPredicate EnglishLanguage "A &%Predicate relating two items - its valence is two.")
% 0.24/0.55  thf(ax_105,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lOrganization_THFTYPE_i @ lCognitiveAgent_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  %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).")
% 0.24/0.55  %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.")
% 0.24/0.55  thf(ax_106,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lWoman_THFTYPE_i @ lHuman_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  %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.")
% 0.24/0.55  thf(ax_107,axiom,
% 0.24/0.55      ! [OBJ: $i,TIME: $i,AGENT2: $i,AGENT1: $i] :
% 0.24/0.55        ( ( ( instance_THFTYPE_IiioI @ TIME @ lTimePosition_THFTYPE_i )
% 0.24/0.55          & ( holdsDuring_THFTYPE_IiooI @ TIME @ ( possesses_THFTYPE_IiioI @ AGENT1 @ OBJ ) )
% 0.24/0.55          & ( holdsDuring_THFTYPE_IiooI @ TIME @ ( possesses_THFTYPE_IiioI @ AGENT2 @ OBJ ) ) )
% 0.24/0.55       => ( AGENT1 = AGENT2 ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_108,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lPropositionalAttitude_THFTYPE_i @ lInheritableRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  %KIF documentation:(documentation parent EnglishLanguage "The general relationship of parenthood. (&%parent ?CHILD ?PARENT) means that ?PARENT is a biological parent of ?CHILD.")
% 0.24/0.55  thf(ax_109,axiom,
% 0.24/0.55      ! [REL2: $i,NUMBER: $i,CLASS1: $i,REL1: $i] :
% 0.24/0.55        ( ( ( subrelation_THFTYPE_IiioI @ REL1 @ REL2 )
% 0.24/0.55          & ( domainSubclass_THFTYPE_IiiioI @ REL2 @ NUMBER @ CLASS1 ) )
% 0.24/0.55       => ( domainSubclass_THFTYPE_IiiioI @ REL1 @ NUMBER @ CLASS1 ) ) ).
% 0.24/0.55  
% 0.24/0.55  %KIF documentation:(documentation BeginFn EnglishLanguage "A &%UnaryFunction that maps a &%TimeInterval to the &%TimePoint at which the interval begins.")
% 0.24/0.55  thf(ax_110,axiom,
% 0.24/0.55      ! [CHILD: $i,PARENT: $i] :
% 0.24/0.55        ( ( ( parent_THFTYPE_IiioI @ CHILD @ PARENT )
% 0.24/0.55          & ( attribute_THFTYPE_IiioI @ PARENT @ lMale_THFTYPE_i ) )
% 0.24/0.55       => ( father_THFTYPE_IiioI @ CHILD @ PARENT ) ) ).
% 0.24/0.55  
% 0.24/0.55  %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.")
% 0.24/0.55  %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.")
% 0.24/0.55  thf(ax_111,axiom,
% 0.24/0.55      ! [OBJECT: $i,AGENT: $i] :
% 0.24/0.55        ( ? [PROCESS: $i] :
% 0.24/0.55            ( ( instance_THFTYPE_IiioI @ PROCESS @ lIntentionalProcess_THFTYPE_i )
% 0.24/0.55            & ( agent_THFTYPE_IiioI @ PROCESS @ AGENT )
% 0.24/0.55            & ( patient_THFTYPE_IiioI @ PROCESS @ OBJECT ) )
% 0.24/0.55      <=> ( inScopeOfInterest_THFTYPE_IiioI @ AGENT @ OBJECT ) ) ).
% 0.24/0.55  
% 0.24/0.55  %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.")
% 0.24/0.55  %KIF documentation:(documentation SelfConnectedObject EnglishLanguage "A &%SelfConnectedObject is any &%Object that does not consist of two or more disconnected parts.")
% 0.24/0.55  %KIF documentation:(documentation PropositionalAttitude EnglishLanguage "The &%Class of &%IntentionalRelations where the &%Agent has awareness of a &%Proposition.")
% 0.24/0.55  %KIF documentation:(documentation before EnglishLanguage "(&%before ?POINT1 ?POINT2) means that ?POINT1 precedes ?POINT2 on the universal timeline.")
% 0.24/0.55  %KIF documentation:(documentation Male EnglishLanguage "An &%Attribute indicating that an &%Organism is male in nature.")
% 0.24/0.55  thf(ax_112,axiom,
% 0.24/0.55      inverse_THFTYPE_IIiioIIiioIoI @ greaterThan_THFTYPE_IiioI @ lessThan_THFTYPE_IiioI ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_113,axiom,
% 0.24/0.55      inverse_THFTYPE_IIiioIIiioIoI @ greaterThanOrEqualTo_THFTYPE_IiioI @ lessThanOrEqualTo_THFTYPE_IiioI ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_114,axiom,
% 0.24/0.55      subclass_THFTYPE_IiioI @ lSymmetricRelation_THFTYPE_i @ lBinaryRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  %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.")
% 0.24/0.55  thf(ax_115,axiom,
% 0.24/0.55      ! [OBJ: $i,PROCESS: $i] :
% 0.24/0.55        ( ( located_THFTYPE_IiioI @ PROCESS @ OBJ )
% 0.24/0.55       => ! [SUB: $i] :
% 0.24/0.55            ( ( subProcess_THFTYPE_IiioI @ SUB @ PROCESS )
% 0.24/0.55           => ( located_THFTYPE_IiioI @ SUB @ OBJ ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  %KIF documentation:(documentation Human EnglishLanguage "Modern man, the only remaining species of the Homo genus.")
% 0.24/0.55  %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.")
% 0.24/0.55  %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.")
% 0.24/0.55  thf(ax_116,axiom,
% 0.24/0.55      ! [REL: $i > $i > $o,NUMBER2: $i,NUMBER1: $i] :
% 0.24/0.55        ( ( ( instance_THFTYPE_IIiioIioI @ REL @ lRelationExtendedToQuantities_THFTYPE_i )
% 0.24/0.55          & ( instance_THFTYPE_IIiioIioI @ REL @ lBinaryRelation_THFTYPE_i )
% 0.24/0.55          & ( instance_THFTYPE_IiioI @ NUMBER1 @ lRealNumber_THFTYPE_i )
% 0.24/0.55          & ( instance_THFTYPE_IiioI @ NUMBER2 @ lRealNumber_THFTYPE_i )
% 0.24/0.55          & ( REL @ NUMBER1 @ NUMBER2 ) )
% 0.24/0.55       => ! [UNIT: $i] :
% 0.24/0.55            ( ( instance_THFTYPE_IiioI @ UNIT @ lUnitOfMeasure_THFTYPE_i )
% 0.24/0.55           => ( REL @ ( lMeasureFn_THFTYPE_IiiiI @ NUMBER1 @ UNIT ) @ ( lMeasureFn_THFTYPE_IiiiI @ NUMBER2 @ UNIT ) ) ) ) ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_117,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ meetsTemporally_THFTYPE_IiioI @ lTemporalRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_118,axiom,
% 0.24/0.55      instance_THFTYPE_IiioI @ connected_THFTYPE_i @ lBinaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_119,axiom,
% 0.24/0.55      instance_THFTYPE_IiioI @ lAdditionFn_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_120,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ range_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_121,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ greaterThanOrEqualTo_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_122,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ subProcess_THFTYPE_IiioI @ n1_THFTYPE_i @ lProcess_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_123,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ lessThan_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_124,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ lessThanOrEqualTo_THFTYPE_IiioI @ lRelationExtendedToQuantities_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_125,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ lessThanOrEqualTo_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_126,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ temporalPart_THFTYPE_IiioI @ n1_THFTYPE_i @ lTimePosition_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_127,axiom,
% 0.24/0.55      subrelation_THFTYPE_IIiioIioI @ husband_THFTYPE_IiioI @ spouse_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_128,axiom,
% 0.24/0.55      domain_THFTYPE_IIiiiIiioI @ lMeasureFn_THFTYPE_IiiiI @ n2_THFTYPE_i @ lUnitOfMeasure_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_129,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ husband_THFTYPE_IiioI @ n2_THFTYPE_i @ lWoman_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_130,axiom,
% 0.24/0.55      instance_THFTYPE_IiioI @ relatedInternalConcept_THFTYPE_i @ lBinaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_131,axiom,
% 0.24/0.55      instance_THFTYPE_IiioI @ lAdditionFn_THFTYPE_i @ lRelationExtendedToQuantities_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_132,axiom,
% 0.24/0.55      instance_THFTYPE_IIiooIioI @ believes_THFTYPE_IiooI @ lPropositionalAttitude_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_133,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ lessThan_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_134,axiom,
% 0.24/0.55      domain_THFTYPE_IIiooIiioI @ desires_THFTYPE_IiooI @ n2_THFTYPE_i @ lFormula_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_135,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ greaterThan_THFTYPE_IiioI @ n2_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_136,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ attribute_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_137,axiom,
% 0.24/0.55      domain_THFTYPE_IIiooIiioI @ hasPurpose_THFTYPE_IiooI @ n1_THFTYPE_i @ lPhysical_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_138,axiom,
% 0.24/0.55      instance_THFTYPE_IIiiIioI @ lWhenFn_THFTYPE_IiiI @ lUnaryFunction_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_139,axiom,
% 0.24/0.55      subrelation_THFTYPE_IIiooIIiioIoI @ considers_THFTYPE_IiooI @ inScopeOfInterest_THFTYPE_IiioI ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_140,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ greaterThanOrEqualTo_THFTYPE_IiioI @ n2_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_141,axiom,
% 0.24/0.55      domain_THFTYPE_IiiioI @ lMultiplicationFn_THFTYPE_i @ n1_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_142,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ patient_THFTYPE_IiioI @ n1_THFTYPE_i @ lProcess_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_143,axiom,
% 0.24/0.55      domain_THFTYPE_IIiooIiioI @ believes_THFTYPE_IiooI @ n2_THFTYPE_i @ lFormula_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_144,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ parent_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_145,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ mother_THFTYPE_IiioI @ n2_THFTYPE_i @ lOrganism_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_146,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ time_THFTYPE_IiioI @ lTemporalRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_147,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ temporalPart_THFTYPE_IiioI @ lPartialOrderingRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_148,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ member_THFTYPE_IiioI @ n1_THFTYPE_i @ lSelfConnectedObject_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_149,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ patient_THFTYPE_IiioI @ n2_THFTYPE_i @ lEntity_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_150,axiom,
% 0.24/0.55      domain_THFTYPE_IIIiioIIiioIoIiioI @ inverse_THFTYPE_IIiioIIiioIoI @ n1_THFTYPE_i @ lBinaryRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_151,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ part_THFTYPE_IiioI @ lPartialOrderingRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_152,axiom,
% 0.24/0.55      instance_THFTYPE_IiioI @ documentation_THFTYPE_i @ lTernaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_153,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ inList_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_154,axiom,
% 0.24/0.55      subrelation_THFTYPE_IIiooIIiioIoI @ knows_THFTYPE_IiooI @ inScopeOfInterest_THFTYPE_IiioI ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_155,axiom,
% 0.24/0.55      instance_THFTYPE_IiioI @ spouse_THFTYPE_i @ lSymmetricRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_156,axiom,
% 0.24/0.55      domain_THFTYPE_IIIiioIIiioIoIiioI @ inverse_THFTYPE_IIiioIIiioIoI @ n2_THFTYPE_i @ lBinaryRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_157,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ greaterThan_THFTYPE_IiioI @ n1_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_158,axiom,
% 0.24/0.55      subrelation_THFTYPE_IIiioIIiioIoI @ member_THFTYPE_IiioI @ part_THFTYPE_IiioI ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_159,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ subclass_THFTYPE_IiioI @ lPartialOrderingRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_160,axiom,
% 0.24/0.55      instance_THFTYPE_IIiiIioI @ lBeginFn_THFTYPE_IiiI @ lTemporalRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_161,axiom,
% 0.24/0.55      domain_THFTYPE_IIiiIiioI @ lBeginFn_THFTYPE_IiiI @ n1_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_162,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ wife_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_163,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ attribute_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_164,axiom,
% 0.24/0.55      instance_THFTYPE_IIiooIioI @ holdsDuring_THFTYPE_IiooI @ lBinaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_165,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ instance_THFTYPE_IiioI @ n1_THFTYPE_i @ lEntity_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_166,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ lessThan_THFTYPE_IiioI @ n1_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_167,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ part_THFTYPE_IiioI @ n2_THFTYPE_i @ lObject_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_168,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ temporalPart_THFTYPE_IiioI @ lTemporalRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_169,axiom,
% 0.24/0.55      instance_THFTYPE_IIIiioIiioIioI @ domain_THFTYPE_IIiioIiioI @ lTernaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_170,axiom,
% 0.24/0.55      instance_THFTYPE_IIioioIioI @ hasPurposeForAgent_THFTYPE_IioioI @ lTernaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_171,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ inList_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_172,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ subAttribute_THFTYPE_IiioI @ lPartialOrderingRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_173,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ inScopeOfInterest_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_174,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ temporalPart_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_175,axiom,
% 0.24/0.55      instance_THFTYPE_IiioI @ lMultiplicationFn_THFTYPE_i @ lBinaryFunction_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_176,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ parent_THFTYPE_IiioI @ n1_THFTYPE_i @ lOrganism_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_177,axiom,
% 0.24/0.55      relatedInternalConcept_THFTYPE_IIiioIIiooIoI @ time_THFTYPE_IiioI @ holdsDuring_THFTYPE_IiooI ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_178,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ parent_THFTYPE_IiioI @ n2_THFTYPE_i @ lOrganism_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_179,axiom,
% 0.24/0.55      subrelation_THFTYPE_IIiooIIiioIoI @ believes_THFTYPE_IiooI @ inScopeOfInterest_THFTYPE_IiioI ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_180,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ before_THFTYPE_IiioI @ n1_THFTYPE_i @ lTimePoint_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_181,axiom,
% 0.24/0.55      domain_THFTYPE_IiiioI @ lMultiplicationFn_THFTYPE_i @ n2_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_182,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ possesses_THFTYPE_IiioI @ n1_THFTYPE_i @ lAgent_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_183,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ meetsTemporally_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_184,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ subclass_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_185,axiom,
% 0.24/0.55      domain_THFTYPE_IIiooIiioI @ considers_THFTYPE_IiooI @ n2_THFTYPE_i @ lFormula_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_186,axiom,
% 0.24/0.55      instance_THFTYPE_IiioI @ lEndFn_THFTYPE_i @ lUnaryFunction_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_187,axiom,
% 0.24/0.55      instance_THFTYPE_IIiooIioI @ believes_THFTYPE_IiooI @ lBinaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_188,axiom,
% 0.24/0.55      instance_THFTYPE_IiioI @ spouse_THFTYPE_i @ lIrreflexiveRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_189,axiom,
% 0.24/0.55      instance_THFTYPE_IIiiiIioI @ lMeasureFn_THFTYPE_IiiiI @ lTotalValuedRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_190,axiom,
% 0.24/0.55      instance_THFTYPE_IIiooIioI @ hasPurpose_THFTYPE_IiooI @ lAsymmetricRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_191,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ time_THFTYPE_IiioI @ n1_THFTYPE_i @ lPhysical_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_192,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ before_THFTYPE_IiioI @ n2_THFTYPE_i @ lTimePoint_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_193,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ member_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_194,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ temporalPart_THFTYPE_IiioI @ n2_THFTYPE_i @ lTimePosition_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_195,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ agent_THFTYPE_IiioI @ n2_THFTYPE_i @ lAgent_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_196,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ meetsTemporally_THFTYPE_IiioI @ n2_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_197,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ lessThan_THFTYPE_IiioI @ n2_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_198,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ mother_THFTYPE_IiioI @ n1_THFTYPE_i @ lOrganism_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_199,axiom,
% 0.24/0.55      instance_THFTYPE_IIiooIioI @ holdsDuring_THFTYPE_IiooI @ lAsymmetricRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_200,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ mother_THFTYPE_IiioI @ lSingleValuedRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_201,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ father_THFTYPE_IiioI @ n2_THFTYPE_i @ lOrganism_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_202,axiom,
% 0.24/0.55      domain_THFTYPE_IIiooIiioI @ knows_THFTYPE_IiooI @ n1_THFTYPE_i @ lCognitiveAgent_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_203,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ possesses_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_204,axiom,
% 0.24/0.55      domain_THFTYPE_IiiioI @ connected_THFTYPE_i @ n1_THFTYPE_i @ lObject_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_205,axiom,
% 0.24/0.55      domain_THFTYPE_IIiiioIiioI @ orientation_THFTYPE_IiiioI @ n1_THFTYPE_i @ lObject_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_206,axiom,
% 0.24/0.55      instance_THFTYPE_IIiiIioI @ lWhenFn_THFTYPE_IiiI @ lTotalValuedRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_207,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ time_THFTYPE_IiioI @ n2_THFTYPE_i @ lTimePosition_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_208,axiom,
% 0.24/0.55      relatedInternalConcept_THFTYPE_IIiioIIiooIoI @ wants_THFTYPE_IiioI @ desires_THFTYPE_IiooI ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_209,axiom,
% 0.24/0.55      domain_THFTYPE_IiiioI @ lAdditionFn_THFTYPE_i @ n2_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_210,axiom,
% 0.24/0.55      instance_THFTYPE_IIiooIioI @ hasPurpose_THFTYPE_IiooI @ lBinaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_211,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ wants_THFTYPE_IiioI @ n1_THFTYPE_i @ lCognitiveAgent_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_212,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ subrelation_THFTYPE_IiioI @ lPartialOrderingRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_213,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ parent_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_214,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ time_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_215,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ meetsTemporally_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_216,axiom,
% 0.24/0.55      subrelation_THFTYPE_IIiooIIiioIoI @ desires_THFTYPE_IiooI @ inScopeOfInterest_THFTYPE_IiioI ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_217,axiom,
% 0.24/0.55      subrelation_THFTYPE_IIiioIIiioIoI @ wants_THFTYPE_IiioI @ inScopeOfInterest_THFTYPE_IiioI ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_218,axiom,
% 0.24/0.55      domain_THFTYPE_IIiooIiioI @ desires_THFTYPE_IiooI @ n1_THFTYPE_i @ lCognitiveAgent_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_219,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ possesses_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_220,axiom,
% 0.24/0.55      subrelation_THFTYPE_IIiioIIiioIoI @ mother_THFTYPE_IiioI @ parent_THFTYPE_IiioI ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_221,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ meetsTemporally_THFTYPE_IiioI @ n1_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_222,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ time_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_223,axiom,
% 0.24/0.55      domain_THFTYPE_IiiioI @ equal_THFTYPE_i @ n2_THFTYPE_i @ lEntity_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_224,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ subProcess_THFTYPE_IiioI @ n2_THFTYPE_i @ lProcess_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_225,axiom,
% 0.24/0.55      domain_THFTYPE_IiiioI @ spouse_THFTYPE_i @ n1_THFTYPE_i @ lHuman_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_226,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ agent_THFTYPE_IiioI @ n1_THFTYPE_i @ lProcess_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_227,axiom,
% 0.24/0.55      instance_THFTYPE_IiioI @ equal_THFTYPE_i @ lBinaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_228,axiom,
% 0.24/0.55      relatedInternalConcept_THFTYPE_IIiooIIiioIoI @ desires_THFTYPE_IiooI @ wants_THFTYPE_IiioI ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_229,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ subProcess_THFTYPE_IiioI @ lPartialOrderingRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_230,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ greaterThanOrEqualTo_THFTYPE_IiioI @ lRelationExtendedToQuantities_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_231,axiom,
% 0.24/0.55      instance_THFTYPE_IIiooIioI @ knows_THFTYPE_IiooI @ lPropositionalAttitude_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_232,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ subrelation_THFTYPE_IiioI @ n2_THFTYPE_i @ lRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_233,axiom,
% 0.24/0.55      subrelation_THFTYPE_IIiioIIiioIoI @ result_THFTYPE_IiioI @ patient_THFTYPE_IiioI ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_234,axiom,
% 0.24/0.55      instance_THFTYPE_IIiooIioI @ considers_THFTYPE_IiooI @ lBinaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_235,axiom,
% 0.24/0.55      instance_THFTYPE_IIiooIioI @ desires_THFTYPE_IiooI @ lPropositionalAttitude_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_236,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ before_THFTYPE_IiioI @ lTransitiveRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_237,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ greaterThan_THFTYPE_IiioI @ lRelationExtendedToQuantities_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_238,axiom,
% 0.24/0.55      instance_THFTYPE_IiioI @ lMultiplicationFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_239,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ wife_THFTYPE_IiioI @ n1_THFTYPE_i @ lWoman_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_240,axiom,
% 0.24/0.55      domain_THFTYPE_IIiooIiioI @ knows_THFTYPE_IiooI @ n2_THFTYPE_i @ lFormula_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_241,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ possesses_THFTYPE_IiioI @ n2_THFTYPE_i @ lObject_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_242,axiom,
% 0.24/0.55      instance_THFTYPE_IIiiioIioI @ orientation_THFTYPE_IiiioI @ lTernaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_243,axiom,
% 0.24/0.55      domain_THFTYPE_IIiiioIiioI @ domain_THFTYPE_IiiioI @ n1_THFTYPE_i @ lRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_244,axiom,
% 0.24/0.55      instance_THFTYPE_IiioI @ connected_THFTYPE_i @ lSymmetricRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_245,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ greaterThan_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_246,axiom,
% 0.24/0.55      domain_THFTYPE_IiiioI @ connected_THFTYPE_i @ n2_THFTYPE_i @ lObject_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_247,axiom,
% 0.24/0.55      instance_THFTYPE_IIiooIioI @ knows_THFTYPE_IiooI @ lBinaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_248,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ lessThanOrEqualTo_THFTYPE_IiioI @ n1_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_249,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ result_THFTYPE_IiioI @ n2_THFTYPE_i @ lEntity_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_250,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ father_THFTYPE_IiioI @ lSingleValuedRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_251,axiom,
% 0.24/0.55      domain_THFTYPE_IIiooIiioI @ considers_THFTYPE_IiooI @ n1_THFTYPE_i @ lCognitiveAgent_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_252,axiom,
% 0.24/0.55      instance_THFTYPE_IiioI @ lMultiplicationFn_THFTYPE_i @ lRelationExtendedToQuantities_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_253,axiom,
% 0.24/0.55      domain_THFTYPE_IIIiioIIiooIoIiioI @ relatedInternalConcept_THFTYPE_IIiioIIiooIoI @ n2_THFTYPE_i @ lEntity_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_254,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ subrelation_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_255,axiom,
% 0.24/0.55      instance_THFTYPE_IIiooIioI @ considers_THFTYPE_IiooI @ lPropositionalAttitude_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_256,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ husband_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_257,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ part_THFTYPE_IiioI @ n1_THFTYPE_i @ lObject_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_258,axiom,
% 0.24/0.55      instance_THFTYPE_IIIiioIIiioIoIioI @ inverse_THFTYPE_IIiioIIiioIoI @ lBinaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_259,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ instance_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_260,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ wife_THFTYPE_IiioI @ n2_THFTYPE_i @ lMan_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_261,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ disjoint_THFTYPE_IiioI @ lSymmetricRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_262,axiom,
% 0.24/0.55      domain_THFTYPE_IiiioI @ lAdditionFn_THFTYPE_i @ n1_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_263,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ range_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_264,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ greaterThanOrEqualTo_THFTYPE_IiioI @ lPartialOrderingRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_265,axiom,
% 0.24/0.55      instance_THFTYPE_IIIiioIIiioIoIioI @ inverse_THFTYPE_IIiioIIiioIoI @ lSymmetricRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_266,axiom,
% 0.24/0.55      domain_THFTYPE_IIiiiIiioI @ lMeasureFn_THFTYPE_IiiiI @ n1_THFTYPE_i @ lRealNumber_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_267,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ husband_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_268,axiom,
% 0.24/0.55      domain_THFTYPE_IiiioI @ documentation_THFTYPE_i @ n1_THFTYPE_i @ lEntity_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_269,axiom,
% 0.24/0.55      domain_THFTYPE_IiiioI @ equal_THFTYPE_i @ n1_THFTYPE_i @ lEntity_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_270,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ disjoint_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_271,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ before_THFTYPE_IiioI @ lTemporalRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_272,axiom,
% 0.24/0.55      instance_THFTYPE_IIIiioIIiioIoIioI @ inverse_THFTYPE_IIiioIIiioIoI @ lIrreflexiveRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_273,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ subProcess_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_274,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ husband_THFTYPE_IiioI @ n1_THFTYPE_i @ lMan_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_275,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ greaterThan_THFTYPE_IiioI @ lTransitiveRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_276,axiom,
% 0.24/0.55      subrelation_THFTYPE_IIiioIIiioIoI @ father_THFTYPE_IiioI @ parent_THFTYPE_IiioI ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_277,axiom,
% 0.24/0.55      domain_THFTYPE_IIiooIiioI @ holdsDuring_THFTYPE_IiooI @ n2_THFTYPE_i @ lFormula_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_278,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ greaterThan_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_279,axiom,
% 0.24/0.55      instance_THFTYPE_IIiiIioI @ lBeginFn_THFTYPE_IiiI @ lUnaryFunction_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_280,axiom,
% 0.24/0.55      instance_THFTYPE_IIiiiIioI @ lMeasureFn_THFTYPE_IiiiI @ lBinaryFunction_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_281,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ inList_THFTYPE_IiioI @ n1_THFTYPE_i @ lEntity_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_282,axiom,
% 0.24/0.55      domain_THFTYPE_IIioioIiioI @ hasPurposeForAgent_THFTYPE_IioioI @ n1_THFTYPE_i @ lPhysical_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_283,axiom,
% 0.24/0.55      instance_THFTYPE_IIiiIioI @ lBeginFn_THFTYPE_IiiI @ lTotalValuedRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_284,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ inScopeOfInterest_THFTYPE_IiioI @ n1_THFTYPE_i @ lCognitiveAgent_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_285,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ result_THFTYPE_IiioI @ n1_THFTYPE_i @ lProcess_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_286,axiom,
% 0.24/0.55      instance_THFTYPE_IIiooIioI @ desires_THFTYPE_IiooI @ lBinaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_287,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ inList_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_288,axiom,
% 0.24/0.55      domain_THFTYPE_IIiooIiioI @ believes_THFTYPE_IiooI @ n1_THFTYPE_i @ lCognitiveAgent_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_289,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ lessThanOrEqualTo_THFTYPE_IiioI @ n2_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_290,axiom,
% 0.24/0.55      instance_THFTYPE_IiioI @ lEndFn_THFTYPE_i @ lTemporalRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_291,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ wants_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_292,axiom,
% 0.24/0.55      domain_THFTYPE_IIIiioIIiooIoIiioI @ relatedInternalConcept_THFTYPE_IIiioIIiooIoI @ n1_THFTYPE_i @ lEntity_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_293,axiom,
% 0.24/0.55      instance_THFTYPE_IiioI @ equal_THFTYPE_i @ lRelationExtendedToQuantities_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_294,axiom,
% 0.24/0.55      domain_THFTYPE_IIiooIiioI @ hasPurpose_THFTYPE_IiooI @ n2_THFTYPE_i @ lFormula_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_295,axiom,
% 0.24/0.55      domain_THFTYPE_IIiiioIiioI @ orientation_THFTYPE_IiiioI @ n2_THFTYPE_i @ lObject_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_296,axiom,
% 0.24/0.55      domain_THFTYPE_IIiiioIiioI @ domainSubclass_THFTYPE_IiiioI @ n1_THFTYPE_i @ lRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_297,axiom,
% 0.24/0.55      instance_THFTYPE_IiioI @ lAdditionFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_298,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ wife_THFTYPE_IiioI @ lAsymmetricRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_299,axiom,
% 0.24/0.55      instance_THFTYPE_IIiioIioI @ subAttribute_THFTYPE_IiioI @ lBinaryPredicate_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_300,axiom,
% 0.24/0.55      domain_THFTYPE_IIiooIiioI @ holdsDuring_THFTYPE_IiooI @ n1_THFTYPE_i @ lTimePosition_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_301,axiom,
% 0.24/0.55      domain_THFTYPE_IIioioIiioI @ hasPurposeForAgent_THFTYPE_IioioI @ n3_THFTYPE_i @ lCognitiveAgent_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_302,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ father_THFTYPE_IiioI @ n1_THFTYPE_i @ lOrganism_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_303,axiom,
% 0.24/0.55      domain_THFTYPE_IIiioIiioI @ subrelation_THFTYPE_IiioI @ n1_THFTYPE_i @ lRelation_THFTYPE_i ).
% 0.24/0.55  
% 0.24/0.55  thf(ax_304,axiom,
% 0.24/0.55      instance_THFTYPE_IIiiioIioI @ domainSubclass_THFTYPE_IiiioI @ lTernaryPredicate_THFTYPE_i ).
% 0.24/0.59  
% 0.24/0.59  thf(ax_305,axiom,
% 0.24/0.59      instance_THFTYPE_IiioI @ lEndFn_THFTYPE_i @ lTotalValuedRelation_THFTYPE_i ).
% 0.24/0.59  
% 0.24/0.59  thf(ax_306,axiom,
% 0.24/0.59      instance_THFTYPE_IIiioIioI @ before_THFTYPE_IiioI @ lIrreflexiveRelation_THFTYPE_i ).
% 0.24/0.59  
% 0.24/0.59  thf(ax_307,axiom,
% 0.24/0.59      instance_THFTYPE_IIiioIioI @ lessThanOrEqualTo_THFTYPE_IiioI @ lPartialOrderingRelation_THFTYPE_i ).
% 0.24/0.59  
% 0.24/0.59  thf(ax_308,axiom,
% 0.24/0.59      domain_THFTYPE_IiiioI @ spouse_THFTYPE_i @ n2_THFTYPE_i @ lHuman_THFTYPE_i ).
% 0.24/0.59  
% 0.24/0.59  thf(ax_309,axiom,
% 0.24/0.59      instance_THFTYPE_IIiioIioI @ lessThan_THFTYPE_IiioI @ lTransitiveRelation_THFTYPE_i ).
% 0.24/0.59  
% 0.24/0.59  thf(ax_310,axiom,
% 0.24/0.59      relatedInternalConcept_THFTYPE_IIiioIIiioIoI @ member_THFTYPE_IiioI @ instance_THFTYPE_IiioI ).
% 0.24/0.59  
% 0.24/0.59  thf(ax_311,axiom,
% 0.24/0.59      domain_THFTYPE_IIiiIiioI @ lWhenFn_THFTYPE_IiiI @ n1_THFTYPE_i @ lPhysical_THFTYPE_i ).
% 0.24/0.59  
% 0.24/0.59  thf(ax_312,axiom,
% 0.24/0.59      domain_THFTYPE_IIioioIiioI @ hasPurposeForAgent_THFTYPE_IioioI @ n2_THFTYPE_i @ lFormula_THFTYPE_i ).
% 0.24/0.59  
% 0.24/0.59  thf(ax_313,axiom,
% 0.24/0.59      domain_THFTYPE_IiiioI @ lEndFn_THFTYPE_i @ n1_THFTYPE_i @ lTimeInterval_THFTYPE_i ).
% 0.24/0.59  
% 0.24/0.59  thf(ax_314,axiom,
% 0.24/0.59      subrelation_THFTYPE_IIiioIioI @ wife_THFTYPE_IiioI @ spouse_THFTYPE_i ).
% 0.24/0.59  
% 0.24/0.59  thf(ax_315,axiom,
% 0.24/0.59      relatedInternalConcept_THFTYPE_IIiioIIiioIoI @ time_THFTYPE_IiioI @ located_THFTYPE_IiioI ).
% 0.24/0.59  
% 0.24/0.59  thf(ax_316,axiom,
% 0.24/0.59      instance_THFTYPE_IIiioIioI @ lessThan_THFTYPE_IiioI @ lRelationExtendedToQuantities_THFTYPE_i ).
% 0.24/0.59  
% 0.24/0.59  thf(ax_317,axiom,
% 0.24/0.59      domain_THFTYPE_IIiioIiioI @ attribute_THFTYPE_IiioI @ n1_THFTYPE_i @ lObject_THFTYPE_i ).
% 0.24/0.59  
% 0.24/0.59  thf(ax_318,axiom,
% 0.24/0.59      domain_THFTYPE_IIiioIiioI @ wants_THFTYPE_IiioI @ n2_THFTYPE_i @ lPhysical_THFTYPE_i ).
% 0.24/0.59  
% 0.24/0.59  thf(ax_319,axiom,
% 0.24/0.59      instance_THFTYPE_IIiioIioI @ located_THFTYPE_IiioI @ lTransitiveRelation_THFTYPE_i ).
% 0.24/0.59  
% 0.24/0.59  thf(ax_320,axiom,
% 0.24/0.59      domain_THFTYPE_IIiioIiioI @ inScopeOfInterest_THFTYPE_IiioI @ n2_THFTYPE_i @ lEntity_THFTYPE_i ).
% 0.24/0.59  
% 0.24/0.59  thf(ax_321,axiom,
% 0.24/0.59      instance_THFTYPE_IIiiIioI @ lWhenFn_THFTYPE_IiiI @ lTemporalRelation_THFTYPE_i ).
% 0.24/0.59  
% 0.24/0.59  thf(ax_322,axiom,
% 0.24/0.59      domain_THFTYPE_IIiioIiioI @ greaterThanOrEqualTo_THFTYPE_IiioI @ n1_THFTYPE_i @ lQuantity_THFTYPE_i ).
% 0.24/0.59  
% 0.24/0.59  %----The translated conjectures
% 0.24/0.59  thf(con,conjecture,
% 0.24/0.59      ? [Z: $i] : ( (~) @ ( believes_THFTYPE_IiooI @ lMax_THFTYPE_i @ ( husband_THFTYPE_IiioI @ lMax_THFTYPE_i @ Z ) ) ) ).
% 0.24/0.59  
% 0.24/0.59  %------------------------------------------------------------------------------
% 0.24/0.59  ------- convert to smt2 : /export/starexec/sandbox2/tmp/tmp.BOPhW7Rqsw/cvc5---1.0.5_28325.p...
% 0.24/0.59  (declare-sort $$unsorted 0)
% 0.24/0.59  (declare-sort tptp.num 0)
% 0.24/0.59  (declare-fun tptp.agent_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.attribute_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.before_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.believes_THFTYPE_IiooI ($$unsorted Bool) Bool)
% 0.24/0.59  (declare-fun tptp.connected_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.considers_THFTYPE_IiooI ($$unsorted Bool) Bool)
% 0.24/0.59  (declare-fun tptp.contraryAttribute_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.contraryAttribute_THFTYPE_IioI ($$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.desires_THFTYPE_IiooI ($$unsorted Bool) Bool)
% 0.24/0.59  (declare-fun tptp.disjoint_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.documentation_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.domainSubclass_THFTYPE_IiiioI ($$unsorted $$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.domain_THFTYPE_IIIiioIIiioIoIiioI ((-> (-> $$unsorted $$unsorted Bool) (-> $$unsorted $$unsorted Bool) Bool) $$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.domain_THFTYPE_IIIiioIIiooIoIiioI ((-> (-> $$unsorted $$unsorted Bool) (-> $$unsorted Bool Bool) Bool) $$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.domain_THFTYPE_IIiiIiioI ((-> $$unsorted $$unsorted) $$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.domain_THFTYPE_IIiiiIiioI ((-> $$unsorted $$unsorted $$unsorted) $$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.domain_THFTYPE_IIiiioIiioI ((-> $$unsorted $$unsorted $$unsorted Bool) $$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.domain_THFTYPE_IIiioIiioI ((-> $$unsorted $$unsorted Bool) $$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.domain_THFTYPE_IIioioIiioI ((-> $$unsorted Bool $$unsorted Bool) $$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.domain_THFTYPE_IIiooIiioI ((-> $$unsorted Bool Bool) $$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.domain_THFTYPE_IiiioI ($$unsorted $$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.equal_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.father_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.greaterThanOrEqualTo_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.greaterThan_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.gt_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.gtet_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.hasPurposeForAgent_THFTYPE_IioioI ($$unsorted Bool $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.hasPurpose_THFTYPE_IiooI ($$unsorted Bool) Bool)
% 0.24/0.59  (declare-fun tptp.holdsDuring_THFTYPE_IiooI ($$unsorted Bool) Bool)
% 0.24/0.59  (declare-fun tptp.husband_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.inList_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.inScopeOfInterest_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.instance_THFTYPE_IIIiioIIiioIoIioI ((-> (-> $$unsorted $$unsorted Bool) (-> $$unsorted $$unsorted Bool) Bool) $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.instance_THFTYPE_IIIiioIiioIioI ((-> (-> $$unsorted $$unsorted Bool) $$unsorted $$unsorted Bool) $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.instance_THFTYPE_IIiiIioI ((-> $$unsorted $$unsorted) $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.instance_THFTYPE_IIiiiIioI ((-> $$unsorted $$unsorted $$unsorted) $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.instance_THFTYPE_IIiiioIioI ((-> $$unsorted $$unsorted $$unsorted Bool) $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.instance_THFTYPE_IIiioIioI ((-> $$unsorted $$unsorted Bool) $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.instance_THFTYPE_IIioioIioI ((-> $$unsorted Bool $$unsorted Bool) $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.instance_THFTYPE_IIiooIioI ((-> $$unsorted Bool Bool) $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.instance_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.inverse_THFTYPE_IIiioIIiioIoI ((-> $$unsorted $$unsorted Bool) (-> $$unsorted $$unsorted Bool)) Bool)
% 0.24/0.59  (declare-fun tptp.knows_THFTYPE_IiooI ($$unsorted Bool) Bool)
% 0.24/0.59  (declare-fun tptp.lAdditionFn_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lAgent_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lAsymmetricRelation_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lBeginFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 0.24/0.59  (declare-fun tptp.lBeginFn_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lBinaryFunction_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lBinaryPredicate_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lBinaryRelation_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lBodyPart_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lCognitiveAgent_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lEndFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 0.24/0.59  (declare-fun tptp.lEndFn_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lEntity_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lFemale_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lFormula_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lHuman_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lInheritableRelation_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lIntentionalProcess_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lIrreflexiveRelation_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lListFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 0.24/0.59  (declare-fun tptp.lMale_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lMan_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lMax_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lMeasureFn_THFTYPE_IiiiI ($$unsorted $$unsorted) $$unsorted)
% 0.24/0.59  (declare-fun tptp.lMultiplicationFn_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lObject_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lOrganism_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lOrganization_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lPartialOrderingRelation_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lPhysical_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lProcess_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lPropositionalAttitude_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lQuantity_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lRealNumber_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lRelationExtendedToQuantities_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lRelation_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lReproductiveBody_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lSelfConnectedObject_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lSingleValuedRelation_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lSymmetricRelation_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lTemporalRelation_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lTernaryPredicate_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lTimeInterval_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lTimePoint_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lTimePosition_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lTotalValuedRelation_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lTransitiveRelation_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lUnaryFunction_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lUnitOfMeasure_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lWhenFn_THFTYPE_IiiI ($$unsorted) $$unsorted)
% 0.24/0.59  (declare-fun tptp.lWhenFn_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lWoman_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.lessThanOrEqualTo_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.lessThan_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.located_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.lt_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.ltet_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.meetsTemporally_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.member_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.mother_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.n1_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.n2_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.n3_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.orientation_THFTYPE_IiiioI ($$unsorted $$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.parent_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.part_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.partition_THFTYPE_IiiioI ($$unsorted $$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.patient_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.possesses_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.range_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.relatedInternalConcept_THFTYPE_IIiioIIiioIoI ((-> $$unsorted $$unsorted Bool) (-> $$unsorted $$unsorted Bool)) Bool)
% 0.24/0.59  (declare-fun tptp.relatedInternalConcept_THFTYPE_IIiioIIiooIoI ((-> $$unsorted $$unsorted Bool) (-> $$unsorted Bool Bool)) Bool)
% 0.24/0.59  (declare-fun tptp.relatedInternalConcept_THFTYPE_IIiooIIiioIoI ((-> $$unsorted Bool Bool) (-> $$unsorted $$unsorted Bool)) Bool)
% 0.24/0.59  (declare-fun tptp.relatedInternalConcept_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.result_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.spouse_THFTYPE_i () $$unsorted)
% 0.24/0.59  (declare-fun tptp.subAttribute_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.subProcess_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.subclass_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.subrelation_THFTYPE_IIiioIIiioIoI ((-> $$unsorted $$unsorted Bool) (-> $$unsorted $$unsorted Bool)) Bool)
% 0.24/0.59  (declare-fun tptp.subrelation_THFTYPE_IIiioIioI ((-> $$unsorted $$unsorted Bool) $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.subrelation_THFTYPE_IIioIIioIoI ((-> $$unsorted Bool) (-> $$unsorted Bool)) Bool)
% 0.24/0.59  (declare-fun tptp.subrelation_THFTYPE_IIiooIIiioIoI ((-> $$unsorted Bool Bool) (-> $$unsorted $$unsorted Bool)) Bool)
% 0.24/0.59  (declare-fun tptp.subrelation_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.temporalPart_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.time_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.wants_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (declare-fun tptp.wife_THFTYPE_IiioI ($$unsorted $$unsorted) Bool)
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPropositionalAttitude_THFTYPE_i) tptp.lAsymmetricRelation_THFTYPE_i))
% 0.24/0.59  (assert (forall ((REL (-> $$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)))))))
% 0.24/0.59  (assert (forall ((X $$unsorted) (Y $$unsorted) (Z $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI Z))) (=> (and (@ (@ tptp.subclass_THFTYPE_IiioI X) Y) (@ _let_1 X)) (@ _let_1 Y)))))
% 0.24/0.59  (assert (forall ((WOMAN $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI WOMAN) tptp.lWoman_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI WOMAN) tptp.lFemale_THFTYPE_i))))
% 0.24/0.59  (assert (forall ((OBJ $$unsorted) (PROC $$unsorted)) (=> (@ (@ tptp.result_THFTYPE_IiioI PROC) OBJ) (forall ((TIME $$unsorted)) (=> (@ (@ tptp.before_THFTYPE_IiioI TIME) (@ tptp.lBeginFn_THFTYPE_IiiI (@ tptp.lWhenFn_THFTYPE_IiiI PROC))) (not (@ (@ tptp.time_THFTYPE_IiioI OBJ) TIME)))))))
% 0.24/0.59  (assert (forall ((REL2 (-> $$unsorted $$unsorted Bool)) (REL1 (-> $$unsorted $$unsorted Bool))) (=> (@ (@ tptp.inverse_THFTYPE_IIiioIIiioIoI REL1) REL2) (forall ((INST1 $$unsorted) (INST2 $$unsorted)) (= (@ (@ REL1 INST1) INST2) (@ (@ REL2 INST2) INST1))))))
% 0.24/0.59  (assert (forall ((OBJ1 $$unsorted) (OBJ2 $$unsorted)) (=> (@ (@ tptp.located_THFTYPE_IiioI OBJ1) OBJ2) (forall ((SUB $$unsorted)) (=> (@ (@ tptp.part_THFTYPE_IiioI SUB) OBJ1) (@ (@ tptp.located_THFTYPE_IiioI SUB) OBJ2))))))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBinaryPredicate_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i))
% 0.24/0.59  (assert (forall ((ATTR2 $$unsorted) (OBJ1 $$unsorted) (ROW $$unsorted) (OBJ2 $$unsorted) (ATTR1 $$unsorted)) (let ((_let_1 (@ (@ tptp.orientation_THFTYPE_IiiioI OBJ1) OBJ2))) (let ((_let_2 (@ tptp.lListFn_THFTYPE_IiiI ROW))) (=> (and (@ _let_1 ATTR1) (@ tptp.contraryAttribute_THFTYPE_IioI ROW) (@ (@ tptp.inList_THFTYPE_IiioI ATTR1) _let_2) (@ (@ tptp.inList_THFTYPE_IiioI ATTR2) _let_2) (not (= ATTR1 ATTR2))) (not (@ _let_1 ATTR2)))))))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAsymmetricRelation_THFTYPE_i) tptp.lIrreflexiveRelation_THFTYPE_i))
% 0.24/0.59  (assert (forall ((CLASS $$unsorted) (ATTR2 $$unsorted) (ATTR1 $$unsorted)) (=> (and (@ (@ tptp.subAttribute_THFTYPE_IiioI ATTR1) ATTR2) (@ (@ tptp.instance_THFTYPE_IiioI ATTR2) CLASS)) (@ (@ tptp.instance_THFTYPE_IiioI ATTR1) CLASS))))
% 0.24/0.59  (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))))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lReproductiveBody_THFTYPE_i) tptp.lBodyPart_THFTYPE_i))
% 0.24/0.59  (assert (forall ((THING $$unsorted) (POS $$unsorted)) (= (@ (@ tptp.temporalPart_THFTYPE_IiioI POS) (@ tptp.lWhenFn_THFTYPE_IiiI THING)) (@ (@ tptp.time_THFTYPE_IiioI THING) POS))))
% 0.24/0.59  (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))))))
% 0.24/0.59  (assert (forall ((REL (-> $$unsorted $$unsorted Bool))) (= (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lTransitiveRelation_THFTYPE_i) (forall ((INST1 $$unsorted) (INST2 $$unsorted) (INST3 $$unsorted)) (let ((_let_1 (@ REL INST1))) (=> (and (@ _let_1 INST2) (@ (@ REL INST2) INST3)) (@ _let_1 INST3)))))))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lProcess_THFTYPE_i) tptp.lPhysical_THFTYPE_i))
% 0.24/0.59  (assert (forall ((NUMBER2 $$unsorted) (NUMBER1 $$unsorted)) (= (@ (@ tptp.gtet_THFTYPE_IiioI NUMBER1) NUMBER2) (or (= NUMBER1 NUMBER2) (@ (@ tptp.gt_THFTYPE_IiioI NUMBER1) NUMBER2)))))
% 0.24/0.59  (assert (forall ((AGENT $$unsorted) (PROC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lIntentionalProcess_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PROC) AGENT)) (exists ((PURP Bool)) (@ (@ (@ tptp.hasPurposeForAgent_THFTYPE_IioioI PROC) PURP) AGENT)))))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnaryFunction_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lHuman_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRelationExtendedToQuantities_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 0.24/0.59  (assert (forall ((OBJ $$unsorted) (AGENT $$unsorted)) (=> (@ (@ tptp.wants_THFTYPE_IiioI AGENT) OBJ) (exists ((PURP Bool)) (@ (@ (@ tptp.hasPurposeForAgent_THFTYPE_IioioI OBJ) PURP) AGENT)))))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBinaryRelation_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSingleValuedRelation_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 0.24/0.59  (assert (forall ((FORMULA $$unsorted) (AGENT $$unsorted) (REL (-> $$unsorted $$unsorted Bool))) (=> (and (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lPropositionalAttitude_THFTYPE_i) (@ (@ REL AGENT) FORMULA)) (@ (@ tptp.instance_THFTYPE_IiioI FORMULA) tptp.lFormula_THFTYPE_i))))
% 0.24/0.59  (assert (forall ((SITUATION Bool) (TIME2 $$unsorted) (TIME1 $$unsorted)) (=> (and (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME1) SITUATION) (@ (@ tptp.temporalPart_THFTYPE_IiioI TIME2) TIME1)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME2) SITUATION))))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lMan_THFTYPE_i) tptp.lHuman_THFTYPE_i))
% 0.24/0.59  (assert (forall ((ORG $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lOrganization_THFTYPE_i) (exists ((PURP Bool)) (forall ((MEMBER $$unsorted)) (=> (@ (@ tptp.member_THFTYPE_IiioI MEMBER) ORG) (@ (@ tptp.hasPurpose_THFTYPE_IiooI MEMBER) PURP)))))))
% 0.24/0.59  (assert (forall ((REL (-> $$unsorted $$unsorted Bool))) (= (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lIrreflexiveRelation_THFTYPE_i) (forall ((INST $$unsorted)) (not (@ (@ REL INST) INST))))))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBinaryFunction_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 0.24/0.59  (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))))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTotalValuedRelation_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 0.24/0.59  (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))))))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lRelationExtendedToQuantities_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lObject_THFTYPE_i) tptp.lPhysical_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSelfConnectedObject_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 0.24/0.59  (assert (forall ((CLASS1 $$unsorted) (CLASS2 $$unsorted)) (=> (= CLASS1 CLASS2) (forall ((THING $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI THING))) (= (@ _let_1 CLASS1) (@ _let_1 CLASS2)))))))
% 0.24/0.59  (assert (forall ((REL (-> $$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)))))
% 0.24/0.59  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lHuman_THFTYPE_i) tptp.lMan_THFTYPE_i) tptp.lWoman_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lTimePosition_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) tptp.lTimePoint_THFTYPE_i))
% 0.24/0.59  (assert (forall ((FORMULA Bool) (AGENT $$unsorted)) (=> (@ (@ tptp.knows_THFTYPE_IiooI AGENT) FORMULA) (@ (@ tptp.believes_THFTYPE_IiooI AGENT) FORMULA))))
% 0.24/0.59  (assert (forall ((ORG $$unsorted) (AGENT $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lOrganization_THFTYPE_i) (@ (@ tptp.member_THFTYPE_IiioI AGENT) ORG)) (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lAgent_THFTYPE_i))))
% 0.24/0.59  (assert (forall ((THING2 $$unsorted) (THING1 $$unsorted)) (=> (= THING1 THING2) (forall ((CLASS $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI THING1) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI THING2) CLASS))))))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOrganism_THFTYPE_i) tptp.lAgent_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lIrreflexiveRelation_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i))
% 0.24/0.59  (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)))))
% 0.24/0.59  (assert (forall ((FATHER $$unsorted) (CHILD $$unsorted)) (=> (@ (@ tptp.father_THFTYPE_IiioI CHILD) FATHER) (@ (@ tptp.attribute_THFTYPE_IiioI FATHER) tptp.lMale_THFTYPE_i))))
% 0.24/0.59  (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))))
% 0.24/0.59  (assert (forall ((REL2 $$unsorted) (CLASS1 $$unsorted) (REL1 $$unsorted)) (=> (and (@ (@ tptp.subrelation_THFTYPE_IiioI REL1) REL2) (@ (@ tptp.range_THFTYPE_IiioI REL2) CLASS1)) (@ (@ tptp.range_THFTYPE_IiioI REL1) CLASS1))))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTimeInterval_THFTYPE_i) tptp.lTimePosition_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTemporalRelation_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lBeginFn_THFTYPE_i) tptp.lTimePoint_THFTYPE_i))
% 0.24/0.59  (assert (forall ((PROC $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lIntentionalProcess_THFTYPE_i) (exists ((AGENT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lCognitiveAgent_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PROC) AGENT))))))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAgent_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 0.24/0.59  (assert (forall ((SUBPROC $$unsorted) (PROC $$unsorted)) (=> (@ (@ tptp.subProcess_THFTYPE_IiioI SUBPROC) PROC) (forall ((REGION $$unsorted)) (=> (@ (@ tptp.located_THFTYPE_IiioI PROC) REGION) (@ (@ tptp.located_THFTYPE_IiioI SUBPROC) REGION))))))
% 0.24/0.59  (assert (forall ((SUBPROC $$unsorted) (PROC $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI PROC) tptp.lProcess_THFTYPE_i) (@ (@ tptp.subProcess_THFTYPE_IiioI SUBPROC) PROC)) (exists ((TIME $$unsorted)) (@ (@ tptp.time_THFTYPE_IiioI SUBPROC) TIME)))))
% 0.24/0.59  (assert (forall ((MAN $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MAN) tptp.lMan_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI MAN) tptp.lMale_THFTYPE_i))))
% 0.24/0.59  (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))))))
% 0.24/0.59  (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))))))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPhysical_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 0.24/0.59  (assert (forall ((OBJ $$unsorted) (AGENT $$unsorted)) (=> (@ (@ tptp.wants_THFTYPE_IiioI AGENT) OBJ) (@ (@ tptp.desires_THFTYPE_IiooI AGENT) (@ (@ tptp.possesses_THFTYPE_IiioI AGENT) OBJ)))))
% 0.24/0.59  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lAdditionFn_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 0.24/0.59  (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))))
% 0.24/0.59  (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))))))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lUnaryFunction_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 0.24/0.59  (assert (forall ((CLASS $$unsorted) (PRED1 $$unsorted) (PRED2 $$unsorted)) (=> (and (@ (@ tptp.subrelation_THFTYPE_IiioI PRED1) PRED2) (@ (@ tptp.instance_THFTYPE_IiioI PRED2) CLASS) (@ (@ tptp.subclass_THFTYPE_IiioI CLASS) tptp.lInheritableRelation_THFTYPE_i)) (@ (@ tptp.instance_THFTYPE_IiioI PRED1) CLASS))))
% 0.24/0.59  (assert (forall ((PURPOSE Bool) (THING $$unsorted)) (=> (@ (@ tptp.hasPurpose_THFTYPE_IiooI THING) PURPOSE) (exists ((AGENT $$unsorted)) (@ (@ (@ tptp.hasPurposeForAgent_THFTYPE_IioioI THING) PURPOSE) AGENT)))))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBinaryPredicate_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInheritableRelation_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 0.24/0.59  (assert (forall ((NUMBER2 $$unsorted) (NUMBER1 $$unsorted)) (= (@ (@ tptp.ltet_THFTYPE_IiioI NUMBER1) NUMBER2) (or (= NUMBER1 NUMBER2) (@ (@ tptp.lt_THFTYPE_IiioI NUMBER1) NUMBER2)))))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTimePoint_THFTYPE_i) tptp.lTimePosition_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBinaryRelation_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 0.24/0.59  (assert (forall ((THING $$unsorted)) (@ (@ tptp.instance_THFTYPE_IiioI THING) tptp.lEntity_THFTYPE_i)))
% 0.24/0.59  (assert (forall ((INTERVAL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.before_THFTYPE_IiioI (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL)) (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL)))))
% 0.24/0.59  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lEndFn_THFTYPE_i) tptp.lTimePoint_THFTYPE_i))
% 0.24/0.59  (assert (forall ((AGENT $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lAgent_THFTYPE_i) (exists ((PROC $$unsorted)) (@ (@ tptp.agent_THFTYPE_IiioI PROC) AGENT)))))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTotalValuedRelation_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 0.24/0.59  (assert (forall ((NUMBER $$unsorted) (CLASS1 $$unsorted) (REL $$unsorted) (CLASS2 $$unsorted)) (let ((_let_1 (@ (@ tptp.domainSubclass_THFTYPE_IiiioI REL) NUMBER))) (=> (and (@ _let_1 CLASS1) (@ _let_1 CLASS2)) (or (@ (@ tptp.subclass_THFTYPE_IiioI CLASS1) CLASS2) (@ (@ tptp.subclass_THFTYPE_IiioI CLASS2) CLASS1))))))
% 0.24/0.59  (assert (forall ((MOTHER $$unsorted) (CHILD $$unsorted)) (=> (@ (@ tptp.mother_THFTYPE_IiioI CHILD) MOTHER) (@ (@ tptp.attribute_THFTYPE_IiioI MOTHER) tptp.lFemale_THFTYPE_i))))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTemporalRelation_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lIntentionalProcess_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 0.24/0.59  (assert (forall ((POINT $$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))))))
% 0.24/0.59  (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))))))
% 0.24/0.59  (assert (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lMale_THFTYPE_i) tptp.lFemale_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTransitiveRelation_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i))
% 0.24/0.59  (assert (forall ((ORGANISM $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ORGANISM) tptp.lOrganism_THFTYPE_i) (exists ((PARENT $$unsorted)) (@ (@ tptp.parent_THFTYPE_IiioI ORGANISM) PARENT)))))
% 0.24/0.59  (assert (forall ((TIME $$unsorted) (SITUATION Bool)) (let ((_let_1 (@ tptp.holdsDuring_THFTYPE_IiooI TIME))) (=> (@ _let_1 (not SITUATION)) (not (@ _let_1 SITUATION))))))
% 0.24/0.59  (assert (forall ((X $$unsorted)) (not (exists ((Z $$unsorted)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI Z) (@ (@ tptp.considers_THFTYPE_IiooI tptp.lMax_THFTYPE_i) (@ (@ tptp.wife_THFTYPE_IiioI X) tptp.lMax_THFTYPE_i)))))))
% 0.24/0.59  (assert (forall ((X $$unsorted)) (not (exists ((Z $$unsorted)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI Z) (@ (@ tptp.considers_THFTYPE_IiooI tptp.lMax_THFTYPE_i) (@ (@ tptp.wife_THFTYPE_IiioI X) tptp.lMax_THFTYPE_i)))))))
% 0.24/0.59  (assert (forall ((POINT $$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))))))
% 0.24/0.59  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lWhenFn_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSingleValuedRelation_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 0.24/0.59  (assert (forall ((INTERVAL1 $$unsorted) (INTERVAL2 $$unsorted)) (= (@ (@ tptp.meetsTemporally_THFTYPE_IiioI INTERVAL1) INTERVAL2) (= (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL1) (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL2)))))
% 0.24/0.59  (assert (@ (@ tptp.range_THFTYPE_IiioI tptp.lMultiplicationFn_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 0.24/0.59  (assert (exists ((THING $$unsorted)) (@ (@ tptp.instance_THFTYPE_IiioI THING) tptp.lEntity_THFTYPE_i)))
% 0.24/0.59  (assert (@ (@ tptp.inverse_THFTYPE_IIiioIIiioIoI tptp.husband_THFTYPE_IiioI) tptp.wife_THFTYPE_IiioI))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPartialOrderingRelation_THFTYPE_i) tptp.lTransitiveRelation_THFTYPE_i))
% 0.24/0.59  (assert (forall ((PHYS $$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))))))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTernaryPredicate_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lPhysical_THFTYPE_i) tptp.lObject_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 0.24/0.59  (assert (forall ((REL2 (-> $$unsorted Bool)) (ROW $$unsorted) (REL1 (-> $$unsorted Bool))) (=> (and (@ (@ tptp.subrelation_THFTYPE_IIioIIioIoI REL1) REL2) (@ REL1 ROW)) (@ REL2 ROW))))
% 0.24/0.59  (assert (forall ((CLASS1 $$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))))))
% 0.24/0.59  (assert (forall ((CLASS1 $$unsorted) (CLASS2 $$unsorted)) (= (@ (@ tptp.disjoint_THFTYPE_IiioI CLASS1) CLASS2) (forall ((INST $$unsorted)) (let ((_let_1 (@ tptp.instance_THFTYPE_IiioI INST))) (not (and (@ _let_1 CLASS1) (@ _let_1 CLASS2))))))))
% 0.24/0.59  (assert (forall ((CLASS $$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))))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOrganization_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWoman_THFTYPE_i) tptp.lHuman_THFTYPE_i))
% 0.24/0.59  (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)))))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPropositionalAttitude_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i))
% 0.24/0.59  (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))))
% 0.24/0.59  (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))))
% 0.24/0.59  (assert (forall ((OBJECT $$unsorted) (AGENT $$unsorted)) (= (exists ((PROCESS $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI PROCESS) tptp.lIntentionalProcess_THFTYPE_i) (@ (@ tptp.agent_THFTYPE_IiioI PROCESS) AGENT) (@ (@ tptp.patient_THFTYPE_IiioI PROCESS) OBJECT))) (@ (@ tptp.inScopeOfInterest_THFTYPE_IiioI AGENT) OBJECT))))
% 0.24/0.59  (assert (@ (@ tptp.inverse_THFTYPE_IIiioIIiioIoI tptp.greaterThan_THFTYPE_IiioI) tptp.lessThan_THFTYPE_IiioI))
% 0.24/0.59  (assert (@ (@ tptp.inverse_THFTYPE_IIiioIIiioIoI tptp.greaterThanOrEqualTo_THFTYPE_IiioI) tptp.lessThanOrEqualTo_THFTYPE_IiioI))
% 0.24/0.59  (assert (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSymmetricRelation_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i))
% 0.24/0.59  (assert (forall ((OBJ $$unsorted) (PROCESS $$unsorted)) (=> (@ (@ tptp.located_THFTYPE_IiioI PROCESS) OBJ) (forall ((SUB $$unsorted)) (=> (@ (@ tptp.subProcess_THFTYPE_IiioI SUB) PROCESS) (@ (@ tptp.located_THFTYPE_IiioI SUB) OBJ))))))
% 0.24/0.59  (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))))))))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.meetsTemporally_THFTYPE_IiioI) tptp.lTemporalRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.connected_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lAdditionFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.range_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.greaterThanOrEqualTo_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.subProcess_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.lessThan_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.lessThanOrEqualTo_THFTYPE_IiioI) tptp.lRelationExtendedToQuantities_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.lessThanOrEqualTo_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.temporalPart_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lTimePosition_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIioI tptp.husband_THFTYPE_IiioI) tptp.spouse_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiiIiioI tptp.lMeasureFn_THFTYPE_IiiiI) tptp.n2_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.husband_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lWoman_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.relatedInternalConcept_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lAdditionFn_THFTYPE_i) tptp.lRelationExtendedToQuantities_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.believes_THFTYPE_IiooI) tptp.lPropositionalAttitude_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.lessThan_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.desires_THFTYPE_IiooI) tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.greaterThan_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.attribute_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.hasPurpose_THFTYPE_IiooI) tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lWhenFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.subrelation_THFTYPE_IIiooIIiioIoI tptp.considers_THFTYPE_IiooI) tptp.inScopeOfInterest_THFTYPE_IiioI))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.greaterThanOrEqualTo_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lMultiplicationFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.patient_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.believes_THFTYPE_IiooI) tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.parent_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.mother_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lOrganism_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.time_THFTYPE_IiioI) tptp.lTemporalRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.temporalPart_THFTYPE_IiioI) tptp.lPartialOrderingRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.member_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.patient_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIiioIIiioIoIiioI tptp.inverse_THFTYPE_IIiioIIiioIoI) tptp.n1_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.part_THFTYPE_IiioI) tptp.lPartialOrderingRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.documentation_THFTYPE_i) tptp.lTernaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.inList_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.subrelation_THFTYPE_IIiooIIiioIoI tptp.knows_THFTYPE_IiooI) tptp.inScopeOfInterest_THFTYPE_IiioI))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.spouse_THFTYPE_i) tptp.lSymmetricRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIiioIIiioIoIiioI tptp.inverse_THFTYPE_IIiioIIiioIoI) tptp.n2_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.greaterThan_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.member_THFTYPE_IiioI) tptp.part_THFTYPE_IiioI))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.subclass_THFTYPE_IiioI) tptp.lPartialOrderingRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lBeginFn_THFTYPE_IiiI) tptp.lTemporalRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lBeginFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.wife_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.attribute_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.holdsDuring_THFTYPE_IiooI) tptp.lBinaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.instance_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.lessThan_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.part_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.temporalPart_THFTYPE_IiioI) tptp.lTemporalRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIIiioIiioIioI tptp.domain_THFTYPE_IIiioIiioI) tptp.lTernaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIioioIioI tptp.hasPurposeForAgent_THFTYPE_IioioI) tptp.lTernaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.inList_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.subAttribute_THFTYPE_IiioI) tptp.lPartialOrderingRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.inScopeOfInterest_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.temporalPart_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMultiplicationFn_THFTYPE_i) tptp.lBinaryFunction_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.parent_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lOrganism_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiooIoI tptp.time_THFTYPE_IiioI) tptp.holdsDuring_THFTYPE_IiooI))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.parent_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lOrganism_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.subrelation_THFTYPE_IIiooIIiioIoI tptp.believes_THFTYPE_IiooI) tptp.inScopeOfInterest_THFTYPE_IiioI))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.before_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lTimePoint_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lMultiplicationFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.possesses_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lAgent_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.meetsTemporally_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.subclass_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.considers_THFTYPE_IiooI) tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lEndFn_THFTYPE_i) tptp.lUnaryFunction_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.believes_THFTYPE_IiooI) tptp.lBinaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.spouse_THFTYPE_i) tptp.lIrreflexiveRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lMeasureFn_THFTYPE_IiiiI) tptp.lTotalValuedRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.hasPurpose_THFTYPE_IiooI) tptp.lAsymmetricRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.time_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.before_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lTimePoint_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.member_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.temporalPart_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lTimePosition_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.agent_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lAgent_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.meetsTemporally_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.lessThan_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.mother_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lOrganism_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.holdsDuring_THFTYPE_IiooI) tptp.lAsymmetricRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.mother_THFTYPE_IiioI) tptp.lSingleValuedRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.father_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lOrganism_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.knows_THFTYPE_IiooI) tptp.n1_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.possesses_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.connected_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.orientation_THFTYPE_IiiioI) tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lWhenFn_THFTYPE_IiiI) tptp.lTotalValuedRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.time_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lTimePosition_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiooIoI tptp.wants_THFTYPE_IiioI) tptp.desires_THFTYPE_IiooI))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lAdditionFn_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.hasPurpose_THFTYPE_IiooI) tptp.lBinaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.wants_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.subrelation_THFTYPE_IiioI) tptp.lPartialOrderingRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.parent_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.time_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.meetsTemporally_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.subrelation_THFTYPE_IIiooIIiioIoI tptp.desires_THFTYPE_IiooI) tptp.inScopeOfInterest_THFTYPE_IiioI))
% 0.24/0.59  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.wants_THFTYPE_IiioI) tptp.inScopeOfInterest_THFTYPE_IiioI))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.desires_THFTYPE_IiooI) tptp.n1_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.possesses_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.mother_THFTYPE_IiioI) tptp.parent_THFTYPE_IiioI))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.meetsTemporally_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.time_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.equal_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.subProcess_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.spouse_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lHuman_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.agent_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.equal_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiooIIiioIoI tptp.desires_THFTYPE_IiooI) tptp.wants_THFTYPE_IiioI))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.subProcess_THFTYPE_IiioI) tptp.lPartialOrderingRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.greaterThanOrEqualTo_THFTYPE_IiioI) tptp.lRelationExtendedToQuantities_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.knows_THFTYPE_IiooI) tptp.lPropositionalAttitude_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.subrelation_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.result_THFTYPE_IiioI) tptp.patient_THFTYPE_IiioI))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.considers_THFTYPE_IiooI) tptp.lBinaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.desires_THFTYPE_IiooI) tptp.lPropositionalAttitude_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.before_THFTYPE_IiioI) tptp.lTransitiveRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.greaterThan_THFTYPE_IiioI) tptp.lRelationExtendedToQuantities_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMultiplicationFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.wife_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lWoman_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.knows_THFTYPE_IiooI) tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.possesses_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.orientation_THFTYPE_IiiioI) tptp.lTernaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.domain_THFTYPE_IiiioI) tptp.n1_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.connected_THFTYPE_i) tptp.lSymmetricRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.greaterThan_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.connected_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.knows_THFTYPE_IiooI) tptp.lBinaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.lessThanOrEqualTo_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.result_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.father_THFTYPE_IiioI) tptp.lSingleValuedRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.considers_THFTYPE_IiooI) tptp.n1_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lMultiplicationFn_THFTYPE_i) tptp.lRelationExtendedToQuantities_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIiioIIiooIoIiioI tptp.relatedInternalConcept_THFTYPE_IIiioIIiooIoI) tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.subrelation_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.considers_THFTYPE_IiooI) tptp.lPropositionalAttitude_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.husband_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.part_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIIiioIIiioIoIioI tptp.inverse_THFTYPE_IIiioIIiioIoI) tptp.lBinaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.instance_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.wife_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lMan_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.disjoint_THFTYPE_IiioI) tptp.lSymmetricRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lAdditionFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.range_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.greaterThanOrEqualTo_THFTYPE_IiioI) tptp.lPartialOrderingRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIIiioIIiioIoIioI tptp.inverse_THFTYPE_IIiioIIiioIoI) tptp.lSymmetricRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiiIiioI tptp.lMeasureFn_THFTYPE_IiiiI) tptp.n1_THFTYPE_i) tptp.lRealNumber_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.husband_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.documentation_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.equal_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.disjoint_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.before_THFTYPE_IiioI) tptp.lTemporalRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIIiioIIiioIoIioI tptp.inverse_THFTYPE_IIiioIIiioIoI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.subProcess_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.husband_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lMan_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.greaterThan_THFTYPE_IiioI) tptp.lTransitiveRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.father_THFTYPE_IiioI) tptp.parent_THFTYPE_IiioI))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.holdsDuring_THFTYPE_IiooI) tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.greaterThan_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lBeginFn_THFTYPE_IiiI) tptp.lUnaryFunction_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lMeasureFn_THFTYPE_IiiiI) tptp.lBinaryFunction_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.inList_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIioioIiioI tptp.hasPurposeForAgent_THFTYPE_IioioI) tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lBeginFn_THFTYPE_IiiI) tptp.lTotalValuedRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.inScopeOfInterest_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.result_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiooIioI tptp.desires_THFTYPE_IiooI) tptp.lBinaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.inList_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.believes_THFTYPE_IiooI) tptp.n1_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.lessThanOrEqualTo_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lEndFn_THFTYPE_i) tptp.lTemporalRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.wants_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIIiioIIiooIoIiioI tptp.relatedInternalConcept_THFTYPE_IIiioIIiooIoI) tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.equal_THFTYPE_i) tptp.lRelationExtendedToQuantities_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.hasPurpose_THFTYPE_IiooI) tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.orientation_THFTYPE_IiiioI) tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.domainSubclass_THFTYPE_IiiioI) tptp.n1_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lAdditionFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.wife_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.subAttribute_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiooIiioI tptp.holdsDuring_THFTYPE_IiooI) tptp.n1_THFTYPE_i) tptp.lTimePosition_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIioioIiioI tptp.hasPurposeForAgent_THFTYPE_IioioI) tptp.n3_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.father_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lOrganism_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.subrelation_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.domainSubclass_THFTYPE_IiiioI) tptp.lTernaryPredicate_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IiioI tptp.lEndFn_THFTYPE_i) tptp.lTotalValuedRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.before_THFTYPE_IiioI) tptp.lIrreflexiveRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.lessThanOrEqualTo_THFTYPE_IiioI) tptp.lPartialOrderingRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.spouse_THFTYPE_i) tptp.n2_THFTYPE_i) tptp.lHuman_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.lessThan_THFTYPE_IiioI) tptp.lTransitiveRelation_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiioIoI tptp.member_THFTYPE_IiioI) tptp.instance_THFTYPE_IiioI))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lWhenFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IIioioIiioI tptp.hasPurposeForAgent_THFTYPE_IioioI) tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i))
% 0.24/0.59  (assert (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lEndFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i))
% 69.66/69.85  (assert (@ (@ tptp.subrelation_THFTYPE_IIiioIioI tptp.wife_THFTYPE_IiioI) tptp.spouse_THFTYPE_i))
% 69.66/69.85  (assert (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiioIoI tptp.time_THFTYPE_IiioI) tptp.located_THFTYPE_IiioI))
% 69.66/69.85  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.lessThan_THFTYPE_IiioI) tptp.lRelationExtendedToQuantities_THFTYPE_i))
% 69.66/69.85  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.attribute_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i))
% 69.66/69.85  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.wants_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lPhysical_THFTYPE_i))
% 69.66/69.85  (assert (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.located_THFTYPE_IiioI) tptp.lTransitiveRelation_THFTYPE_i))
% 69.66/69.85  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.inScopeOfInterest_THFTYPE_IiioI) tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i))
% 69.66/69.85  (assert (@ (@ tptp.instance_THFTYPE_IIiiIioI tptp.lWhenFn_THFTYPE_IiiI) tptp.lTemporalRelation_THFTYPE_i))
% 69.66/69.85  (assert (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.greaterThanOrEqualTo_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i))
% 69.66/69.85  (assert (not (exists ((Z $$unsorted)) (not (@ (@ tptp.believes_THFTYPE_IiooI tptp.lMax_THFTYPE_i) (@ (@ tptp.husband_THFTYPE_IiioI tptp.lMax_THFTYPE_i) Z))))))
% 69.66/69.85  (set-info :filename cvc5---1.0.5_28325)
% 69.66/69.85  (check-sat-assuming ( true ))
% 69.66/69.85  ------- get file name : TPTP file name is CSR144^2
% 69.66/69.85  ------- cvc5-thf : /export/starexec/sandbox2/solver/bin/cvc5---1.0.5_28325.smt2...
% 69.66/69.85  --- Run --ho-elim --full-saturate-quant at 10...
% 69.66/69.85  --- Run --ho-elim --no-e-matching --full-saturate-quant at 10...
% 69.66/69.85  --- Run --ho-elim --no-e-matching --enum-inst-sum --full-saturate-quant at 10...
% 69.66/69.85  --- Run --ho-elim --finite-model-find --uf-ss=no-minimal at 5...
% 69.66/69.85  --- Run --no-ho-matching --finite-model-find --uf-ss=no-minimal at 5...
% 69.66/69.85  --- Run --no-ho-matching --full-saturate-quant --enum-inst-interleave --ho-elim-store-ax at 10...
% 69.66/69.85  --- Run --no-ho-matching --full-saturate-quant --macros-quant-mode=all at 10...
% 69.66/69.85  --- Run --ho-elim --full-saturate-quant --enum-inst-interleave at 10...
% 69.66/69.85  % SZS status Theorem for CSR144^2
% 69.66/69.85  % SZS output start Proof for CSR144^2
% 69.66/69.85  (
% 69.66/69.85  (let ((_let_1 (not (exists ((Z $$unsorted)) (not (@ (@ tptp.believes_THFTYPE_IiooI tptp.lMax_THFTYPE_i) (@ (@ tptp.husband_THFTYPE_IiioI tptp.lMax_THFTYPE_i) Z))))))) (let ((_let_2 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.greaterThanOrEqualTo_THFTYPE_IiioI))) (let ((_let_3 (@ tptp.instance_THFTYPE_IIiiIioI tptp.lWhenFn_THFTYPE_IiiI))) (let ((_let_4 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.inScopeOfInterest_THFTYPE_IiioI))) (let ((_let_5 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.wants_THFTYPE_IiioI))) (let ((_let_6 (@ tptp.instance_THFTYPE_IIiioIioI tptp.lessThan_THFTYPE_IiioI))) (let ((_let_7 (@ tptp.domain_THFTYPE_IIioioIiioI tptp.hasPurposeForAgent_THFTYPE_IioioI))) (let ((_let_8 (@ tptp.domain_THFTYPE_IiiioI tptp.spouse_THFTYPE_i))) (let ((_let_9 (@ tptp.instance_THFTYPE_IIiioIioI tptp.lessThanOrEqualTo_THFTYPE_IiioI))) (let ((_let_10 (@ tptp.instance_THFTYPE_IIiioIioI tptp.before_THFTYPE_IiioI))) (let ((_let_11 (@ tptp.instance_THFTYPE_IiioI tptp.lEndFn_THFTYPE_i))) (let ((_let_12 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.subrelation_THFTYPE_IiioI))) (let ((_let_13 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.father_THFTYPE_IiioI))) (let ((_let_14 (@ tptp.domain_THFTYPE_IIiooIiioI tptp.holdsDuring_THFTYPE_IiooI))) (let ((_let_15 (@ tptp.instance_THFTYPE_IIiioIioI tptp.subAttribute_THFTYPE_IiioI))) (let ((_let_16 (@ tptp.instance_THFTYPE_IIiioIioI tptp.wife_THFTYPE_IiioI))) (let ((_let_17 (@ tptp.instance_THFTYPE_IiioI tptp.lAdditionFn_THFTYPE_i))) (let ((_let_18 (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.orientation_THFTYPE_IiiioI))) (let ((_let_19 (@ tptp.domain_THFTYPE_IIiooIiioI tptp.hasPurpose_THFTYPE_IiooI))) (let ((_let_20 (@ tptp.instance_THFTYPE_IiioI tptp.equal_THFTYPE_i))) (let ((_let_21 (@ tptp.domain_THFTYPE_IIIiioIIiooIoIiioI tptp.relatedInternalConcept_THFTYPE_IIiioIIiooIoI))) (let ((_let_22 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.lessThanOrEqualTo_THFTYPE_IiioI))) (let ((_let_23 (@ tptp.domain_THFTYPE_IIiooIiioI tptp.believes_THFTYPE_IiooI))) (let ((_let_24 (@ tptp.instance_THFTYPE_IIiioIioI tptp.inList_THFTYPE_IiioI))) (let ((_let_25 (@ tptp.instance_THFTYPE_IIiooIioI tptp.desires_THFTYPE_IiooI))) (let ((_let_26 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.result_THFTYPE_IiioI))) (let ((_let_27 (@ tptp.instance_THFTYPE_IIiiIioI tptp.lBeginFn_THFTYPE_IiiI))) (let ((_let_28 (@ tptp.instance_THFTYPE_IIiiiIioI tptp.lMeasureFn_THFTYPE_IiiiI))) (let ((_let_29 (@ tptp.instance_THFTYPE_IIiioIioI tptp.greaterThan_THFTYPE_IiioI))) (let ((_let_30 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.husband_THFTYPE_IiioI))) (let ((_let_31 (@ tptp.instance_THFTYPE_IIiioIioI tptp.subProcess_THFTYPE_IiioI))) (let ((_let_32 (@ tptp.instance_THFTYPE_IIIiioIIiioIoIioI tptp.inverse_THFTYPE_IIiioIIiioIoI))) (let ((_let_33 (@ tptp.instance_THFTYPE_IIiioIioI tptp.disjoint_THFTYPE_IiioI))) (let ((_let_34 (@ tptp.domain_THFTYPE_IiiioI tptp.equal_THFTYPE_i))) (let ((_let_35 (@ tptp.instance_THFTYPE_IIiioIioI tptp.husband_THFTYPE_IiioI))) (let ((_let_36 (@ tptp.domain_THFTYPE_IIiiiIiioI tptp.lMeasureFn_THFTYPE_IiiiI))) (let ((_let_37 (@ tptp.instance_THFTYPE_IIiioIioI tptp.greaterThanOrEqualTo_THFTYPE_IiioI))) (let ((_let_38 (@ tptp.instance_THFTYPE_IIiioIioI tptp.range_THFTYPE_IiioI))) (let ((_let_39 (@ tptp.domain_THFTYPE_IiiioI tptp.lAdditionFn_THFTYPE_i))) (let ((_let_40 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.wife_THFTYPE_IiioI))) (let ((_let_41 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.part_THFTYPE_IiioI))) (let ((_let_42 (@ tptp.instance_THFTYPE_IIiooIioI tptp.considers_THFTYPE_IiooI))) (let ((_let_43 (@ tptp.instance_THFTYPE_IIiioIioI tptp.subrelation_THFTYPE_IiioI))) (let ((_let_44 (@ tptp.instance_THFTYPE_IiioI tptp.lMultiplicationFn_THFTYPE_i))) (let ((_let_45 (@ tptp.domain_THFTYPE_IIiooIiioI tptp.considers_THFTYPE_IiooI))) (let ((_let_46 (@ tptp.instance_THFTYPE_IIiooIioI tptp.knows_THFTYPE_IiooI))) (let ((_let_47 (@ tptp.domain_THFTYPE_IiiioI tptp.connected_THFTYPE_i))) (let ((_let_48 (@ tptp.instance_THFTYPE_IiioI tptp.connected_THFTYPE_i))) (let ((_let_49 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.possesses_THFTYPE_IiioI))) (let ((_let_50 (@ tptp.domain_THFTYPE_IIiooIiioI tptp.knows_THFTYPE_IiooI))) (let ((_let_51 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.agent_THFTYPE_IiioI))) (let ((_let_52 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.subProcess_THFTYPE_IiioI))) (let ((_let_53 (@ tptp.instance_THFTYPE_IIiioIioI tptp.time_THFTYPE_IiioI))) (let ((_let_54 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.meetsTemporally_THFTYPE_IiioI))) (let ((_let_55 (@ tptp.instance_THFTYPE_IIiioIioI tptp.possesses_THFTYPE_IiioI))) (let ((_let_56 (@ tptp.domain_THFTYPE_IIiooIiioI tptp.desires_THFTYPE_IiooI))) (let ((_let_57 (@ tptp.instance_THFTYPE_IIiioIioI tptp.meetsTemporally_THFTYPE_IiioI))) (let ((_let_58 (@ tptp.instance_THFTYPE_IIiioIioI tptp.parent_THFTYPE_IiioI))) (let ((_let_59 (@ tptp.instance_THFTYPE_IIiooIioI tptp.hasPurpose_THFTYPE_IiooI))) (let ((_let_60 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.time_THFTYPE_IiioI))) (let ((_let_61 (@ tptp.instance_THFTYPE_IIiooIioI tptp.holdsDuring_THFTYPE_IiooI))) (let ((_let_62 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.mother_THFTYPE_IiioI))) (let ((_let_63 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.lessThan_THFTYPE_IiioI))) (let ((_let_64 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.temporalPart_THFTYPE_IiioI))) (let ((_let_65 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.before_THFTYPE_IiioI))) (let ((_let_66 (@ tptp.instance_THFTYPE_IiioI tptp.spouse_THFTYPE_i))) (let ((_let_67 (@ tptp.instance_THFTYPE_IIiooIioI tptp.believes_THFTYPE_IiooI))) (let ((_let_68 (@ tptp.instance_THFTYPE_IIiioIioI tptp.subclass_THFTYPE_IiioI))) (let ((_let_69 (@ tptp.domain_THFTYPE_IiiioI tptp.lMultiplicationFn_THFTYPE_i))) (let ((_let_70 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.parent_THFTYPE_IiioI))) (let ((_let_71 (@ tptp.instance_THFTYPE_IIiioIioI tptp.temporalPart_THFTYPE_IiioI))) (let ((_let_72 (@ tptp.instance_THFTYPE_IIiioIioI tptp.attribute_THFTYPE_IiioI))) (let ((_let_73 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.greaterThan_THFTYPE_IiioI))) (let ((_let_74 (@ tptp.domain_THFTYPE_IIIiioIIiioIoIiioI tptp.inverse_THFTYPE_IIiioIIiioIoI))) (let ((_let_75 (@ tptp.domain_THFTYPE_IIiioIiioI tptp.patient_THFTYPE_IiioI))) (let ((_let_76 (@ tptp.subclass_THFTYPE_IiioI tptp.lPropositionalAttitude_THFTYPE_i))) (let ((_let_77 (@ (@ tptp.inverse_THFTYPE_IIiioIIiioIoI tptp.husband_THFTYPE_IiioI) tptp.wife_THFTYPE_IiioI))) (let ((_let_78 (@ tptp.subclass_THFTYPE_IiioI tptp.lSingleValuedRelation_THFTYPE_i))) (let ((_let_79 (forall ((X $$unsorted)) (not (exists ((Z $$unsorted)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI Z) (@ (@ tptp.considers_THFTYPE_IiooI tptp.lMax_THFTYPE_i) (@ (@ tptp.wife_THFTYPE_IiioI X) tptp.lMax_THFTYPE_i)))))))) (let ((_let_80 (@ tptp.subclass_THFTYPE_IiioI tptp.lTemporalRelation_THFTYPE_i))) (let ((_let_81 (@ tptp.subclass_THFTYPE_IiioI tptp.lTotalValuedRelation_THFTYPE_i))) (let ((_let_82 (@ tptp.subclass_THFTYPE_IiioI tptp.lBinaryRelation_THFTYPE_i))) (let ((_let_83 (@ tptp.subclass_THFTYPE_IiioI tptp.lBinaryPredicate_THFTYPE_i))) (let ((_let_84 (@ tptp.subclass_THFTYPE_IiioI tptp.lUnaryFunction_THFTYPE_i))) (let ((_let_85 (forall ((FORMULA Bool) (AGENT $$unsorted)) (=> (@ (@ tptp.believes_THFTYPE_IiooI AGENT) FORMULA) (exists ((TIME $$unsorted)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.considers_THFTYPE_IiooI AGENT) FORMULA))))))) (let ((_let_86 (@ tptp.subclass_THFTYPE_IiioI tptp.lRelationExtendedToQuantities_THFTYPE_i))) (let ((_let_87 (forall ((REL2 (-> $$unsorted $$unsorted Bool)) (REL1 (-> $$unsorted $$unsorted Bool))) (=> (@ (@ tptp.inverse_THFTYPE_IIiioIIiioIoI REL1) REL2) (forall ((INST1 $$unsorted) (INST2 $$unsorted)) (= (@ (@ REL1 INST1) INST2) (@ (@ REL2 INST2) INST1))))))) (let ((_let_88 (ho_38 k_50 tptp.lMax_THFTYPE_i))) (let ((_let_89 (ho_39 _let_88 BOOLEAN_TERM_VARIABLE_20475))) (let ((_let_90 (ho_39 _let_88 BOOLEAN_TERM_VARIABLE_20829))) (let ((_let_91 (not _let_89))) (let ((_let_92 (ho_38 k_37 SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_150))) (let ((_let_93 (ho_39 _let_92 BOOLEAN_TERM_VARIABLE_58295))) (let ((_let_94 (ho_39 _let_92 BOOLEAN_TERM_VARIABLE_20465))) (let ((_let_95 (ho_4 (ho_3 k_59 tptp.lMax_THFTYPE_i) tptp.connected_THFTYPE_i))) (let ((_let_96 (ho_4 (ho_3 k_57 tptp.connected_THFTYPE_i) tptp.lMax_THFTYPE_i))) (let ((_let_97 (= _let_96 _let_95))) (let ((_let_98 (not BOOLEAN_TERM_VARIABLE_20465))) (let ((_let_99 (BOOLEAN_TERM_VARIABLE_20465))) (let ((_let_100 (APPLY_UF ho_39))) (let ((_let_101 (MACRO_SR_PRED_INTRO :args ((= _let_96 BOOLEAN_TERM_VARIABLE_20475))))) (let ((_let_102 (REFL :args (_let_88)))) (let ((_let_103 (ho_39 _let_88 _let_96))) (let ((_let_104 ((= BOOLEAN_TERM_VARIABLE_20465 _let_103)))) (let ((_let_105 (EQ_RESOLVE (MACRO_SR_PRED_INTRO :args _let_104) (TRANS (REWRITE :args _let_104) (TRANS (CONG (CONG _let_102 _let_101 :args _let_100) (REFL :args _let_99) :args (=)) (REWRITE :args ((= _let_89 BOOLEAN_TERM_VARIABLE_20465)))))))) (let ((_let_106 (forall ((TIME $$unsorted)) (not (ho_39 (ho_38 k_37 TIME) (ho_39 (ho_38 k_50 tptp.lMax_THFTYPE_i) BOOLEAN_TERM_VARIABLE_20829)))))) (let ((_let_107 (not _let_106))) (let ((_let_108 (ho_38 k_44 tptp.lMax_THFTYPE_i))) (let ((_let_109 (ho_39 _let_108 BOOLEAN_TERM_VARIABLE_20829))) (let ((_let_110 (not _let_109))) (let ((_let_111 (or _let_110 _let_107))) (let ((_let_112 (forall ((FORMULA Bool) (AGENT $$unsorted)) (or (not (ho_39 (ho_38 k_44 AGENT) FORMULA)) (not (forall ((TIME $$unsorted)) (not (ho_39 (ho_38 k_37 TIME) (ho_39 (ho_38 k_50 AGENT) FORMULA))))))))) (let ((_let_113 (EQ_RESOLVE (ASSUME :args (_let_85)) (TRANS (MACRO_SR_EQ_INTRO :args (_let_85 SB_DEFAULT SBA_FIXPOINT)) (PREPROCESS :args ((= (forall ((FORMULA Bool) (AGENT $$unsorted)) (or (not (@ (@ tptp.believes_THFTYPE_IiooI AGENT) FORMULA)) (not (forall ((TIME $$unsorted)) (not (@ (@ tptp.holdsDuring_THFTYPE_IiooI TIME) (@ (@ tptp.considers_THFTYPE_IiooI AGENT) FORMULA))))))) _let_112))))))) (let ((_let_114 (forall ((Z $$unsorted)) (ho_39 (ho_38 k_44 tptp.lMax_THFTYPE_i) (ho_4 (ho_3 k_59 tptp.lMax_THFTYPE_i) Z))))) (let ((_let_115 (EQ_RESOLVE (ASSUME :args (_let_1)) (TRANS (MACRO_SR_EQ_INTRO :args (_let_1 SB_DEFAULT SBA_FIXPOINT)) (PREPROCESS :args ((= (forall ((Z $$unsorted)) (@ (@ tptp.believes_THFTYPE_IiooI tptp.lMax_THFTYPE_i) (@ (@ tptp.husband_THFTYPE_IiioI tptp.lMax_THFTYPE_i) Z))) _let_114))))))) (let ((_let_116 (=>))) (let ((_let_117 (MACRO_SR_PRED_INTRO :args ((= _let_95 BOOLEAN_TERM_VARIABLE_20829))))) (let ((_let_118 (_let_114))) (let ((_let_119 (or))) (let ((_let_120 (_let_93))) (let ((_let_121 (MACRO_SR_PRED_INTRO :args ((= _let_90 BOOLEAN_TERM_VARIABLE_58295))))) (let ((_let_122 (REFL :args (_let_92)))) (let ((_let_123 (_let_107))) (let ((_let_124 (MACRO_RESOLUTION_TRUST (EQ_RESOLVE (IMPLIES_ELIM (EQ_RESOLVE (SCOPE (SKOLEMIZE (ASSUME :args _let_123)) :args _let_123) (TRANS (REWRITE :args ((=> _let_107 (not (not (ho_39 _let_92 _let_90)))))) (CONG (REFL :args _let_123) (CONG _let_122 _let_121 :args _let_100) :args _let_116)))) (CONG (MACRO_SR_PRED_INTRO :args ((= (not _let_107) _let_106))) (REFL :args _let_120) :args _let_119)) (MACRO_RESOLUTION_TRUST (REORDERING (CNF_OR_POS :args (_let_111)) :args ((or _let_110 _let_107 (not _let_111)))) (MACRO_RESOLUTION_TRUST (IMPLIES_ELIM (EQ_RESOLVE (SCOPE (INSTANTIATE _let_115 :args (tptp.connected_THFTYPE_i QUANTIFIERS_INST_ENUM)) :args _let_118) (CONG (REFL :args _let_118) (CONG (REFL :args (_let_108)) _let_117 :args _let_100) :args _let_116))) _let_115 :args (_let_109 false _let_114)) (MACRO_RESOLUTION_TRUST (IMPLIES_ELIM (SCOPE (INSTANTIATE _let_113 :args (BOOLEAN_TERM_VARIABLE_20829 tptp.lMax_THFTYPE_i QUANTIFIERS_INST_E_MATCHING ((not (= (ho_39 (ho_38 k_44 AGENT) FORMULA) false))))) :args (_let_112))) _let_113 :args (_let_111 false _let_112)) :args (_let_107 false _let_109 false _let_111)) :args (_let_93 true _let_106)))) (let ((_let_125 (forall ((X $$unsorted) (Z $$unsorted)) (not (ho_39 (ho_38 k_37 Z) (ho_39 (ho_38 k_50 tptp.lMax_THFTYPE_i) (ho_4 (ho_3 k_57 X) tptp.lMax_THFTYPE_i))))))) (let ((_let_126 (not _let_94))) (let ((_let_127 (EQ_RESOLVE (ASSUME :args (_let_79)) (TRANS (MACRO_SR_EQ_INTRO :args (_let_79 SB_DEFAULT SBA_FIXPOINT)) (PREPROCESS :args ((= (forall ((X $$unsorted) (Z $$unsorted)) (not (@ (@ tptp.holdsDuring_THFTYPE_IiooI Z) (@ (@ tptp.considers_THFTYPE_IiooI tptp.lMax_THFTYPE_i) (@ (@ tptp.wife_THFTYPE_IiioI X) tptp.lMax_THFTYPE_i))))) _let_125))))))) (let ((_let_128 (_let_125))) (let ((_let_129 (MACRO_RESOLUTION_TRUST (IMPLIES_ELIM (EQ_RESOLVE (SCOPE (INSTANTIATE _let_127 :args (tptp.connected_THFTYPE_i SKOLEM_FUN_QUANTIFIERS_SKOLEMIZE_150 QUANTIFIERS_INST_CBQI_CONFLICT)) :args _let_128) (CONG (REFL :args _let_128) (CONG (CONG _let_122 (MACRO_SR_PRED_INTRO :args ((= _let_103 BOOLEAN_TERM_VARIABLE_20465))) :args _let_100) :args (not)) :args _let_116))) _let_127 :args (_let_126 false _let_125)))) (let ((_let_130 (not BOOLEAN_TERM_VARIABLE_58295))) (let ((_let_131 (not _let_93))) (let ((_let_132 (MACRO_SR_PRED_INTRO :args ((= (not _let_126) _let_94))))) (let ((_let_133 (REFL :args (_let_131)))) (let ((_let_134 (_let_130))) (let ((_let_135 (_let_98))) (let ((_let_136 (ASSUME :args (_let_126)))) (let ((_let_137 (FALSE_INTRO _let_136))) (let ((_let_138 (ASSUME :args _let_99))) (let ((_let_139 (ASSUME :args (BOOLEAN_TERM_VARIABLE_58295)))) (let ((_let_140 (ASSUME :args _let_120))) (let ((_let_141 (SYMM (TRUE_INTRO _let_140)))) (let ((_let_142 (not _let_90))) (let ((_let_143 (not _let_95))) (let ((_let_144 (REORDERING (EQUIV_ELIM1 _let_117) :args ((or BOOLEAN_TERM_VARIABLE_20829 _let_143))))) (let ((_let_145 (ho_17 (ho_16 k_15 k_59) k_57))) (let ((_let_146 (not _let_145))) (let ((_let_147 (or _let_146 _let_97))) (let ((_let_148 (forall ((BOUND_VARIABLE_2934 |u_(-> $$unsorted $$unsorted Bool)|) (BOUND_VARIABLE_2937 |u_(-> $$unsorted $$unsorted Bool)|) (BOUND_VARIABLE_2233 $$unsorted) (BOUND_VARIABLE_2231 $$unsorted)) (or (not (ho_17 (ho_16 k_15 BOUND_VARIABLE_2937) BOUND_VARIABLE_2934)) (= (ho_4 (ho_3 BOUND_VARIABLE_2934 BOUND_VARIABLE_2233) BOUND_VARIABLE_2231) (ho_4 (ho_3 BOUND_VARIABLE_2937 BOUND_VARIABLE_2231) BOUND_VARIABLE_2233)))))) (let ((_let_149 (EQ_RESOLVE (ASSUME :args (_let_87)) (TRANS (MACRO_SR_EQ_INTRO :args (_let_87 SB_DEFAULT SBA_FIXPOINT)) (PREPROCESS :args ((= (forall ((REL2 (-> $$unsorted $$unsorted Bool)) (REL1 (-> $$unsorted $$unsorted Bool)) (BOUND_VARIABLE_2233 $$unsorted) (BOUND_VARIABLE_2231 $$unsorted)) (or (not (@ (@ tptp.inverse_THFTYPE_IIiioIIiioIoI REL1) REL2)) (= (@ (@ REL1 BOUND_VARIABLE_2231) BOUND_VARIABLE_2233) (@ (@ REL2 BOUND_VARIABLE_2233) BOUND_VARIABLE_2231)))) _let_148))))))) (let ((_let_150 (MACRO_RESOLUTION_TRUST (REORDERING (CNF_OR_POS :args (_let_147)) :args ((or _let_146 _let_97 (not _let_147)))) (EQ_RESOLVE (ASSUME :args (_let_77)) (PREPROCESS :args ((= _let_77 _let_145)))) (MACRO_RESOLUTION_TRUST (IMPLIES_ELIM (SCOPE (INSTANTIATE _let_149 :args (k_57 k_59 tptp.connected_THFTYPE_i 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tptp.lMan_THFTYPE_i) tptp.lHuman_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)))))) (forall ((REL (-> $$unsorted $$unsorted Bool))) (= (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lIrreflexiveRelation_THFTYPE_i) (forall ((INST $$unsorted)) (not (@ (@ REL INST) INST))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lBinaryFunction_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i) (forall ((NUMBER $$unsorted) (PRED1 $$unsorted) (CLASS1 $$unsorted) (PRED2 $$unsorted)) (=> (and (@ (@ tptp.subrelation_THFTYPE_IiioI PRED1) PRED2) (@ (@ (@ tptp.domain_THFTYPE_IiiioI PRED2) NUMBER) CLASS1)) (@ (@ (@ tptp.domain_THFTYPE_IiiioI PRED1) NUMBER) CLASS1))) (@ _let_81 tptp.lRelation_THFTYPE_i) (forall ((CHILD $$unsorted) (PARENT $$unsorted)) (=> (@ (@ tptp.parent_THFTYPE_IiioI CHILD) PARENT) 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tptp.time_THFTYPE_IiioI INST2) INTERVAL)))) (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lHuman_THFTYPE_i) tptp.lMan_THFTYPE_i) tptp.lWoman_THFTYPE_i) (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lTimePosition_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) tptp.lTimePoint_THFTYPE_i) (forall ((FORMULA Bool) (AGENT $$unsorted)) (=> (@ (@ tptp.knows_THFTYPE_IiooI AGENT) FORMULA) (@ (@ tptp.believes_THFTYPE_IiooI AGENT) FORMULA))) (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 ((THING2 $$unsorted) (THING1 $$unsorted)) (=> (= THING1 THING2) (forall ((CLASS $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI THING1) CLASS) (@ (@ tptp.instance_THFTYPE_IiioI THING2) CLASS))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOrganism_THFTYPE_i) tptp.lAgent_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lIrreflexiveRelation_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i) (forall ((SUBPROC $$unsorted) (PROC $$unsorted)) (=> (@ (@ tptp.subProcess_THFTYPE_IiioI SUBPROC) PROC) (@ (@ tptp.temporalPart_THFTYPE_IiioI (@ tptp.lWhenFn_THFTYPE_IiiI SUBPROC)) (@ tptp.lWhenFn_THFTYPE_IiiI PROC)))) (forall ((FATHER $$unsorted) (CHILD $$unsorted)) (=> (@ (@ tptp.father_THFTYPE_IiioI CHILD) FATHER) (@ (@ tptp.attribute_THFTYPE_IiioI FATHER) tptp.lMale_THFTYPE_i))) (forall ((INTERVAL1 $$unsorted) (INTERVAL2 $$unsorted)) (=> (and (= (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL1) (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL2)) (= (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL1) (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL2))) (= INTERVAL1 INTERVAL2))) (forall ((REL2 $$unsorted) (CLASS1 $$unsorted) (REL1 $$unsorted)) (=> (and (@ (@ tptp.subrelation_THFTYPE_IiioI REL1) REL2) (@ (@ tptp.range_THFTYPE_IiioI REL2) CLASS1)) (@ (@ tptp.range_THFTYPE_IiioI REL1) CLASS1))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTimeInterval_THFTYPE_i) tptp.lTimePosition_THFTYPE_i) (@ _let_80 tptp.lInheritableRelation_THFTYPE_i) (@ (@ tptp.range_THFTYPE_IiioI tptp.lBeginFn_THFTYPE_i) tptp.lTimePoint_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))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lAgent_THFTYPE_i) tptp.lObject_THFTYPE_i) (forall ((SUBPROC $$unsorted) (PROC $$unsorted)) (=> (@ (@ tptp.subProcess_THFTYPE_IiioI SUBPROC) PROC) (forall ((REGION $$unsorted)) (=> (@ (@ tptp.located_THFTYPE_IiioI PROC) REGION) (@ (@ tptp.located_THFTYPE_IiioI SUBPROC) REGION))))) (forall ((SUBPROC $$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)))) (forall ((MAN $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI MAN) tptp.lMan_THFTYPE_i) (@ (@ tptp.attribute_THFTYPE_IiioI MAN) tptp.lMale_THFTYPE_i))) _let_85 (forall ((REL (-> $$unsorted $$unsorted Bool))) (= (@ (@ tptp.instance_THFTYPE_IIiioIioI REL) tptp.lSymmetricRelation_THFTYPE_i) (forall ((INST1 $$unsorted) (INST2 $$unsorted)) (=> (@ (@ REL INST1) INST2) (@ (@ REL INST2) INST1))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPhysical_THFTYPE_i) tptp.lEntity_THFTYPE_i) (forall ((OBJ $$unsorted) (AGENT $$unsorted)) (=> (@ (@ tptp.wants_THFTYPE_IiioI AGENT) OBJ) (@ (@ tptp.desires_THFTYPE_IiooI AGENT) (@ (@ tptp.possesses_THFTYPE_IiioI AGENT) OBJ)))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lAdditionFn_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (forall ((BODY $$unsorted) (ORG $$unsorted)) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI BODY) tptp.lReproductiveBody_THFTYPE_i) (@ (@ tptp.part_THFTYPE_IiioI BODY) ORG) (@ (@ tptp.instance_THFTYPE_IiioI ORG) tptp.lOrganism_THFTYPE_i)) (@ (@ tptp.attribute_THFTYPE_IiioI ORG) tptp.lFemale_THFTYPE_i))) (forall ((INTERVAL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL) tptp.lTimeInterval_THFTYPE_i) (exists ((POINT $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI POINT) tptp.lTimePoint_THFTYPE_i) (@ (@ tptp.temporalPart_THFTYPE_IiioI POINT) INTERVAL))))) (@ _let_84 tptp.lInheritableRelation_THFTYPE_i) (forall ((CLASS $$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 ((PURPOSE Bool) (THING $$unsorted)) (=> (@ (@ tptp.hasPurpose_THFTYPE_IiooI THING) PURPOSE) (exists ((AGENT $$unsorted)) (@ (@ (@ tptp.hasPurposeForAgent_THFTYPE_IioioI THING) PURPOSE) AGENT)))) (@ _let_83 tptp.lInheritableRelation_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lInheritableRelation_THFTYPE_i) tptp.lRelation_THFTYPE_i) (forall ((NUMBER2 $$unsorted) (NUMBER1 $$unsorted)) (= (@ (@ tptp.ltet_THFTYPE_IiioI NUMBER1) NUMBER2) (or (= NUMBER1 NUMBER2) (@ (@ tptp.lt_THFTYPE_IiioI NUMBER1) NUMBER2)))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTimePoint_THFTYPE_i) tptp.lTimePosition_THFTYPE_i) (@ _let_82 tptp.lRelation_THFTYPE_i) (forall ((THING $$unsorted)) (@ (@ tptp.instance_THFTYPE_IiioI THING) tptp.lEntity_THFTYPE_i)) (forall ((INTERVAL $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.before_THFTYPE_IiioI (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL)) (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL)))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lEndFn_THFTYPE_i) tptp.lTimePoint_THFTYPE_i) (forall ((AGENT $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI AGENT) tptp.lAgent_THFTYPE_i) (exists ((PROC $$unsorted)) (@ (@ tptp.agent_THFTYPE_IiioI PROC) AGENT)))) (@ _let_81 tptp.lInheritableRelation_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))))) (forall ((MOTHER $$unsorted) (CHILD $$unsorted)) (=> (@ (@ tptp.mother_THFTYPE_IiioI CHILD) MOTHER) (@ (@ tptp.attribute_THFTYPE_IiioI MOTHER) tptp.lFemale_THFTYPE_i))) (@ _let_80 tptp.lRelation_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lIntentionalProcess_THFTYPE_i) tptp.lProcess_THFTYPE_i) (forall ((POINT $$unsorted) (INTERVAL $$unsorted)) (=> (= (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL) POINT) (forall ((OTHERPOINT $$unsorted)) (=> (and (@ (@ tptp.temporalPart_THFTYPE_IiioI OTHERPOINT) INTERVAL) (not (= OTHERPOINT POINT))) (@ (@ tptp.before_THFTYPE_IiioI POINT) OTHERPOINT))))) (forall ((POINT $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI POINT) tptp.lTimePoint_THFTYPE_i) (exists ((INTERVAL $$unsorted)) (and (@ (@ tptp.instance_THFTYPE_IiioI INTERVAL) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.temporalPart_THFTYPE_IiioI POINT) INTERVAL))))) (@ (@ tptp.contraryAttribute_THFTYPE_IiioI tptp.lMale_THFTYPE_i) tptp.lFemale_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTransitiveRelation_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i) (forall ((ORGANISM $$unsorted)) (=> (@ (@ tptp.instance_THFTYPE_IiioI ORGANISM) tptp.lOrganism_THFTYPE_i) (exists ((PARENT $$unsorted)) (@ (@ tptp.parent_THFTYPE_IiioI ORGANISM) PARENT)))) (forall ((TIME $$unsorted) (SITUATION Bool)) (let ((_let_1 (@ tptp.holdsDuring_THFTYPE_IiooI TIME))) (=> (@ _let_1 (not SITUATION)) (not (@ _let_1 SITUATION))))) _let_79 (forall ((X $$unsorted)) (not (exists ((Z $$unsorted)) (@ (@ tptp.holdsDuring_THFTYPE_IiooI Z) (@ (@ tptp.considers_THFTYPE_IiooI tptp.lMax_THFTYPE_i) (@ (@ tptp.wife_THFTYPE_IiioI X) tptp.lMax_THFTYPE_i)))))) (forall ((POINT $$unsorted) (INTERVAL $$unsorted)) (=> (= (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL) POINT) (forall ((OTHERPOINT $$unsorted)) (=> (and (@ (@ tptp.temporalPart_THFTYPE_IiioI OTHERPOINT) INTERVAL) (not (= OTHERPOINT POINT))) (@ (@ tptp.before_THFTYPE_IiioI OTHERPOINT) POINT))))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lWhenFn_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ _let_78 tptp.lRelation_THFTYPE_i) (forall ((INTERVAL1 $$unsorted) (INTERVAL2 $$unsorted)) (= (@ (@ tptp.meetsTemporally_THFTYPE_IiioI INTERVAL1) INTERVAL2) (= (@ tptp.lEndFn_THFTYPE_IiiI INTERVAL1) (@ tptp.lBeginFn_THFTYPE_IiiI INTERVAL2)))) (@ (@ tptp.range_THFTYPE_IiioI tptp.lMultiplicationFn_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (exists ((THING $$unsorted)) (@ (@ tptp.instance_THFTYPE_IiioI THING) tptp.lEntity_THFTYPE_i)) _let_77 (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lPartialOrderingRelation_THFTYPE_i) tptp.lTransitiveRelation_THFTYPE_i) (forall ((PHYS $$unsorted)) (= (@ (@ tptp.instance_THFTYPE_IiioI PHYS) tptp.lPhysical_THFTYPE_i) (exists ((LOC $$unsorted) (TIME $$unsorted)) (and (@ (@ tptp.located_THFTYPE_IiioI PHYS) LOC) (@ (@ tptp.time_THFTYPE_IiioI PHYS) TIME))))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lTernaryPredicate_THFTYPE_i) tptp.lInheritableRelation_THFTYPE_i) (@ (@ (@ tptp.partition_THFTYPE_IiiioI tptp.lPhysical_THFTYPE_i) tptp.lObject_THFTYPE_i) tptp.lProcess_THFTYPE_i) (forall ((REL2 (-> $$unsorted Bool)) (ROW $$unsorted) (REL1 (-> $$unsorted Bool))) (=> (and (@ (@ tptp.subrelation_THFTYPE_IIioIIioIoI REL1) REL2) (@ REL1 ROW)) (@ REL2 ROW))) (forall ((CLASS1 $$unsorted) (REL $$unsorted) (CLASS2 $$unsorted)) (let ((_let_1 (@ tptp.range_THFTYPE_IiioI REL))) (=> (and (@ _let_1 CLASS1) (@ _let_1 CLASS2)) (or (@ (@ tptp.subclass_THFTYPE_IiioI CLASS1) CLASS2) (@ (@ tptp.subclass_THFTYPE_IiioI CLASS2) CLASS1))))) (forall ((CLASS1 $$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))))))) (forall ((CLASS $$unsorted) (CHILD $$unsorted) (PARENT $$unsorted)) (=> (and (@ (@ tptp.parent_THFTYPE_IiioI CHILD) PARENT) (@ (@ tptp.subclass_THFTYPE_IiioI CLASS) tptp.lOrganism_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI PARENT) CLASS)) (@ (@ tptp.instance_THFTYPE_IiioI CHILD) CLASS))) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lOrganization_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lWoman_THFTYPE_i) tptp.lHuman_THFTYPE_i) (forall ((OBJ $$unsorted) (TIME $$unsorted) (AGENT2 $$unsorted) (AGENT1 $$unsorted)) (let ((_let_1 (@ tptp.holdsDuring_THFTYPE_IiooI TIME))) (=> (and (@ (@ tptp.instance_THFTYPE_IiioI TIME) tptp.lTimePosition_THFTYPE_i) (@ _let_1 (@ (@ tptp.possesses_THFTYPE_IiioI AGENT1) OBJ)) (@ _let_1 (@ (@ tptp.possesses_THFTYPE_IiioI AGENT2) OBJ))) (= AGENT1 AGENT2)))) (@ _let_76 tptp.lInheritableRelation_THFTYPE_i) (forall ((REL2 $$unsorted) (NUMBER $$unsorted) (CLASS1 $$unsorted) (REL1 $$unsorted)) (=> (and (@ (@ tptp.subrelation_THFTYPE_IiioI REL1) REL2) (@ (@ (@ tptp.domainSubclass_THFTYPE_IiiioI REL2) NUMBER) CLASS1)) (@ (@ (@ tptp.domainSubclass_THFTYPE_IiiioI REL1) NUMBER) CLASS1))) (forall ((CHILD $$unsorted) (PARENT $$unsorted)) (=> (and (@ (@ tptp.parent_THFTYPE_IiioI CHILD) PARENT) (@ (@ tptp.attribute_THFTYPE_IiioI PARENT) tptp.lMale_THFTYPE_i)) (@ (@ tptp.father_THFTYPE_IiioI CHILD) PARENT))) (forall ((OBJECT $$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))) (@ (@ tptp.inverse_THFTYPE_IIiioIIiioIoI tptp.greaterThan_THFTYPE_IiioI) tptp.lessThan_THFTYPE_IiioI) (@ (@ tptp.inverse_THFTYPE_IIiioIIiioIoI tptp.greaterThanOrEqualTo_THFTYPE_IiioI) tptp.lessThanOrEqualTo_THFTYPE_IiioI) (@ (@ tptp.subclass_THFTYPE_IiioI tptp.lSymmetricRelation_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i) (forall ((OBJ $$unsorted) (PROCESS $$unsorted)) (=> (@ (@ tptp.located_THFTYPE_IiioI PROCESS) OBJ) (forall ((SUB $$unsorted)) (=> (@ (@ tptp.subProcess_THFTYPE_IiioI SUB) PROCESS) (@ (@ tptp.located_THFTYPE_IiioI SUB) OBJ))))) (forall ((REL (-> $$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))))))) (@ _let_57 tptp.lTemporalRelation_THFTYPE_i) (@ _let_48 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_17 tptp.lBinaryFunction_THFTYPE_i) (@ _let_38 tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_37 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_52 tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ _let_6 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_9 tptp.lRelationExtendedToQuantities_THFTYPE_i) (@ _let_9 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_64 tptp.n1_THFTYPE_i) tptp.lTimePosition_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIioI tptp.husband_THFTYPE_IiioI) tptp.spouse_THFTYPE_i) (@ (@ _let_36 tptp.n2_THFTYPE_i) tptp.lUnitOfMeasure_THFTYPE_i) (@ (@ _let_30 tptp.n2_THFTYPE_i) tptp.lWoman_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.relatedInternalConcept_THFTYPE_i) tptp.lBinaryPredicate_THFTYPE_i) (@ _let_17 tptp.lRelationExtendedToQuantities_THFTYPE_i) (@ _let_67 tptp.lPropositionalAttitude_THFTYPE_i) (@ _let_6 tptp.lIrreflexiveRelation_THFTYPE_i) (@ (@ _let_56 tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ (@ _let_73 tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ _let_72 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ _let_19 tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i) (@ _let_3 tptp.lUnaryFunction_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiooIIiioIoI tptp.considers_THFTYPE_IiooI) tptp.inScopeOfInterest_THFTYPE_IiioI) (@ (@ _let_2 tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ (@ _let_69 tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ (@ _let_75 tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ (@ _let_23 tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ _let_58 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ _let_62 tptp.n2_THFTYPE_i) tptp.lOrganism_THFTYPE_i) (@ _let_53 tptp.lTemporalRelation_THFTYPE_i) (@ _let_71 tptp.lPartialOrderingRelation_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.member_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lSelfConnectedObject_THFTYPE_i) (@ (@ _let_75 tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ (@ _let_74 tptp.n1_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.part_THFTYPE_IiioI) tptp.lPartialOrderingRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IiioI tptp.documentation_THFTYPE_i) tptp.lTernaryPredicate_THFTYPE_i) (@ _let_24 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiooIIiioIoI tptp.knows_THFTYPE_IiooI) tptp.inScopeOfInterest_THFTYPE_IiioI) (@ _let_66 tptp.lSymmetricRelation_THFTYPE_i) (@ (@ _let_74 tptp.n2_THFTYPE_i) tptp.lBinaryRelation_THFTYPE_i) (@ (@ _let_73 tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.member_THFTYPE_IiioI) tptp.part_THFTYPE_IiioI) (@ _let_68 tptp.lPartialOrderingRelation_THFTYPE_i) (@ _let_27 tptp.lTemporalRelation_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lBeginFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ _let_16 tptp.lIrreflexiveRelation_THFTYPE_i) (@ _let_72 tptp.lIrreflexiveRelation_THFTYPE_i) (@ _let_61 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.instance_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ (@ _let_63 tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ (@ _let_41 tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ _let_71 tptp.lTemporalRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIIiioIiioIioI tptp.domain_THFTYPE_IIiioIiioI) tptp.lTernaryPredicate_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIioioIioI tptp.hasPurposeForAgent_THFTYPE_IioioI) tptp.lTernaryPredicate_THFTYPE_i) (@ _let_24 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_15 tptp.lPartialOrderingRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.inScopeOfInterest_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i) (@ _let_71 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_44 tptp.lBinaryFunction_THFTYPE_i) (@ (@ _let_70 tptp.n1_THFTYPE_i) tptp.lOrganism_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiooIoI tptp.time_THFTYPE_IiioI) tptp.holdsDuring_THFTYPE_IiooI) (@ (@ _let_70 tptp.n2_THFTYPE_i) tptp.lOrganism_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiooIIiioIoI tptp.believes_THFTYPE_IiooI) tptp.inScopeOfInterest_THFTYPE_IiioI) (@ (@ _let_65 tptp.n1_THFTYPE_i) tptp.lTimePoint_THFTYPE_i) (@ (@ _let_69 tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ (@ _let_49 tptp.n1_THFTYPE_i) tptp.lAgent_THFTYPE_i) (@ _let_57 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_68 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_45 tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ _let_11 tptp.lUnaryFunction_THFTYPE_i) (@ _let_67 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_66 tptp.lIrreflexiveRelation_THFTYPE_i) (@ _let_28 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_59 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ _let_60 tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i) (@ (@ _let_65 tptp.n2_THFTYPE_i) tptp.lTimePoint_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.member_THFTYPE_IiioI) tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ _let_64 tptp.n2_THFTYPE_i) tptp.lTimePosition_THFTYPE_i) (@ (@ _let_51 tptp.n2_THFTYPE_i) tptp.lAgent_THFTYPE_i) (@ (@ _let_54 tptp.n2_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ (@ _let_63 tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ (@ _let_62 tptp.n1_THFTYPE_i) tptp.lOrganism_THFTYPE_i) (@ _let_61 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.mother_THFTYPE_IiioI) tptp.lSingleValuedRelation_THFTYPE_i) (@ (@ _let_13 tptp.n2_THFTYPE_i) tptp.lOrganism_THFTYPE_i) (@ (@ _let_50 tptp.n1_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i) (@ _let_55 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ _let_47 tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ _let_18 tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ _let_3 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ _let_60 tptp.n2_THFTYPE_i) tptp.lTimePosition_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiooIoI tptp.wants_THFTYPE_IiioI) tptp.desires_THFTYPE_IiooI) (@ (@ _let_39 tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ _let_59 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_5 tptp.n1_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i) (@ _let_43 tptp.lPartialOrderingRelation_THFTYPE_i) (@ _let_58 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_53 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_57 tptp.lAsymmetricRelation_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_56 tptp.n1_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i) (@ _let_55 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.mother_THFTYPE_IiioI) tptp.parent_THFTYPE_IiioI) (@ (@ _let_54 tptp.n1_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ _let_53 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ _let_34 tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ (@ _let_52 tptp.n2_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ (@ _let_8 tptp.n1_THFTYPE_i) tptp.lHuman_THFTYPE_i) (@ (@ _let_51 tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ _let_20 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiooIIiioIoI tptp.desires_THFTYPE_IiooI) tptp.wants_THFTYPE_IiioI) (@ _let_31 tptp.lPartialOrderingRelation_THFTYPE_i) (@ _let_37 tptp.lRelationExtendedToQuantities_THFTYPE_i) (@ _let_46 tptp.lPropositionalAttitude_THFTYPE_i) (@ (@ _let_12 tptp.n2_THFTYPE_i) tptp.lRelation_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.result_THFTYPE_IiioI) tptp.patient_THFTYPE_IiioI) (@ _let_42 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_25 tptp.lPropositionalAttitude_THFTYPE_i) (@ _let_10 tptp.lTransitiveRelation_THFTYPE_i) (@ _let_29 tptp.lRelationExtendedToQuantities_THFTYPE_i) (@ _let_44 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ _let_40 tptp.n1_THFTYPE_i) tptp.lWoman_THFTYPE_i) (@ (@ _let_50 tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ (@ _let_49 tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.orientation_THFTYPE_IiiioI) tptp.lTernaryPredicate_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.domain_THFTYPE_IiiioI) tptp.n1_THFTYPE_i) tptp.lRelation_THFTYPE_i) (@ _let_48 tptp.lSymmetricRelation_THFTYPE_i) (@ _let_29 tptp.lIrreflexiveRelation_THFTYPE_i) (@ (@ _let_47 tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ _let_46 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_22 tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ (@ _let_26 tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.father_THFTYPE_IiioI) tptp.lSingleValuedRelation_THFTYPE_i) (@ (@ _let_45 tptp.n1_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i) (@ _let_44 tptp.lRelationExtendedToQuantities_THFTYPE_i) (@ (@ _let_21 tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ _let_43 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_42 tptp.lPropositionalAttitude_THFTYPE_i) (@ _let_35 tptp.lAsymmetricRelation_THFTYPE_i) (@ (@ _let_41 tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ _let_32 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.instance_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_40 tptp.n2_THFTYPE_i) tptp.lMan_THFTYPE_i) (@ _let_33 tptp.lSymmetricRelation_THFTYPE_i) (@ (@ _let_39 tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ _let_38 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_37 tptp.lPartialOrderingRelation_THFTYPE_i) (@ _let_32 tptp.lSymmetricRelation_THFTYPE_i) (@ (@ _let_36 tptp.n1_THFTYPE_i) tptp.lRealNumber_THFTYPE_i) (@ _let_35 tptp.lIrreflexiveRelation_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.documentation_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ (@ _let_34 tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ _let_33 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_10 tptp.lTemporalRelation_THFTYPE_i) (@ _let_32 tptp.lIrreflexiveRelation_THFTYPE_i) (@ _let_31 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_30 tptp.n1_THFTYPE_i) tptp.lMan_THFTYPE_i) (@ _let_29 tptp.lTransitiveRelation_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIIiioIoI tptp.father_THFTYPE_IiioI) tptp.parent_THFTYPE_IiioI) (@ (@ _let_14 tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ _let_29 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_27 tptp.lUnaryFunction_THFTYPE_i) (@ _let_28 tptp.lBinaryFunction_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.inList_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ (@ _let_7 tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i) (@ _let_27 tptp.lTotalValuedRelation_THFTYPE_i) (@ (@ _let_4 tptp.n1_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i) (@ (@ _let_26 tptp.n1_THFTYPE_i) tptp.lProcess_THFTYPE_i) (@ _let_25 tptp.lBinaryPredicate_THFTYPE_i) (@ _let_24 tptp.lIrreflexiveRelation_THFTYPE_i) (@ (@ _let_23 tptp.n1_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i) (@ (@ _let_22 tptp.n2_THFTYPE_i) tptp.lQuantity_THFTYPE_i) (@ _let_11 tptp.lTemporalRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.wants_THFTYPE_IiioI) tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_21 tptp.n1_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ _let_20 tptp.lRelationExtendedToQuantities_THFTYPE_i) (@ (@ _let_19 tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ (@ _let_18 tptp.n2_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiiioIiioI tptp.domainSubclass_THFTYPE_IiiioI) tptp.n1_THFTYPE_i) tptp.lRelation_THFTYPE_i) (@ _let_17 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_16 tptp.lAsymmetricRelation_THFTYPE_i) (@ _let_15 tptp.lBinaryPredicate_THFTYPE_i) (@ (@ _let_14 tptp.n1_THFTYPE_i) tptp.lTimePosition_THFTYPE_i) (@ (@ _let_7 tptp.n3_THFTYPE_i) tptp.lCognitiveAgent_THFTYPE_i) (@ (@ _let_13 tptp.n1_THFTYPE_i) tptp.lOrganism_THFTYPE_i) (@ (@ _let_12 tptp.n1_THFTYPE_i) tptp.lRelation_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiiioIioI tptp.domainSubclass_THFTYPE_IiiioI) tptp.lTernaryPredicate_THFTYPE_i) (@ _let_11 tptp.lTotalValuedRelation_THFTYPE_i) (@ _let_10 tptp.lIrreflexiveRelation_THFTYPE_i) (@ _let_9 tptp.lPartialOrderingRelation_THFTYPE_i) (@ (@ _let_8 tptp.n2_THFTYPE_i) tptp.lHuman_THFTYPE_i) (@ _let_6 tptp.lTransitiveRelation_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiioIoI tptp.member_THFTYPE_IiioI) tptp.instance_THFTYPE_IiioI) (@ (@ (@ tptp.domain_THFTYPE_IIiiIiioI tptp.lWhenFn_THFTYPE_IiiI) tptp.n1_THFTYPE_i) tptp.lPhysical_THFTYPE_i) (@ (@ _let_7 tptp.n2_THFTYPE_i) tptp.lFormula_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IiiioI tptp.lEndFn_THFTYPE_i) tptp.n1_THFTYPE_i) tptp.lTimeInterval_THFTYPE_i) (@ (@ tptp.subrelation_THFTYPE_IIiioIioI tptp.wife_THFTYPE_IiioI) tptp.spouse_THFTYPE_i) (@ (@ tptp.relatedInternalConcept_THFTYPE_IIiioIIiioIoI tptp.time_THFTYPE_IiioI) tptp.located_THFTYPE_IiioI) (@ _let_6 tptp.lRelationExtendedToQuantities_THFTYPE_i) (@ (@ (@ tptp.domain_THFTYPE_IIiioIiioI tptp.attribute_THFTYPE_IiioI) tptp.n1_THFTYPE_i) tptp.lObject_THFTYPE_i) (@ (@ _let_5 tptp.n2_THFTYPE_i) tptp.lPhysical_THFTYPE_i) (@ (@ tptp.instance_THFTYPE_IIiioIioI tptp.located_THFTYPE_IiioI) tptp.lTransitiveRelation_THFTYPE_i) (@ (@ _let_4 tptp.n2_THFTYPE_i) tptp.lEntity_THFTYPE_i) (@ _let_3 tptp.lTemporalRelation_THFTYPE_i) (@ (@ _let_2 tptp.n1_THFTYPE_i) tptp.lQuantity_THFTYPE_i) _let_1 true)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))
% 69.66/69.86  )
% 69.66/69.86  % SZS output end Proof for CSR144^2
% 69.66/69.86  % cvc5---1.0.5 exiting
% 69.66/69.86  % cvc5---1.0.5 exiting
%------------------------------------------------------------------------------