TSTP Solution File: CSR085+5 by cvc5---1.0.5

%------------------------------------------------------------------------------
% File     : cvc5---1.0.5
% Problem  : CSR085+5 : TPTP v8.1.2. Bugfixed v7.3.0.
% Transfm  : none
% Format   : tptp
% Command  : do_cvc5 %s %d

% Computer : n019.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 21:05:46 EDT 2023

% Result   : Theorem 135.89s 136.18s
% Output   : Proof 135.97s
% Verified : 
% SZS Type : -

% Comments : 
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 2.85/2.89  % Problem    : CSR085+5 : TPTP v8.1.2. Bugfixed v7.3.0.
% 2.85/2.90  % Command    : do_cvc5 %s %d
% 2.90/3.09  % Computer : n019.cluster.edu
% 2.90/3.09  % Model    : x86_64 x86_64
% 2.90/3.09  % CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 2.90/3.09  % Memory   : 8042.1875MB
% 2.90/3.09  % OS       : Linux 3.10.0-693.el7.x86_64
% 2.90/3.09  % CPULimit   : 300
% 2.90/3.09  % WCLimit    : 300
% 2.90/3.09  % DateTime   : Mon Aug 28 09:13:16 EDT 2023
% 2.90/3.10  % CPUTime    : 
% 5.88/6.19  %----Proving TF0_NAR, FOF, or CNF
% 135.89/136.18  ------- convert to smt2 : /export/starexec/sandbox/tmp/tmp.euqqXNag7W/cvc5---1.0.5_29955.p...
% 135.89/136.18  ------- get file name : TPTP file name is CSR085+5
% 135.89/136.18  ------- cvc5-fof : /export/starexec/sandbox/solver/bin/cvc5---1.0.5_29955.smt2...
% 135.89/136.18  --- Run --decision=internal --simplification=none --no-inst-no-entail --no-cbqi --full-saturate-quant at 10...
% 135.89/136.18  --- Run --no-e-matching --full-saturate-quant at 5...
% 135.89/136.18  --- Run --no-e-matching --enum-inst-sum --full-saturate-quant at 5...
% 135.89/136.18  --- Run --finite-model-find --uf-ss=no-minimal at 5...
% 135.89/136.18  --- Run --multi-trigger-when-single --full-saturate-quant at 5...
% 135.89/136.18  --- Run --trigger-sel=max --full-saturate-quant at 5...
% 135.89/136.18  --- Run --multi-trigger-when-single --multi-trigger-priority --full-saturate-quant at 5...
% 135.89/136.18  --- Run --multi-trigger-cache --full-saturate-quant at 5...
% 135.89/136.18  --- Run --prenex-quant=none --full-saturate-quant at 5...
% 135.89/136.18  --- Run --enum-inst-interleave --decision=internal --full-saturate-quant at 5...
% 135.89/136.18  --- Run --relevant-triggers --full-saturate-quant at 5...
% 135.89/136.18  --- Run --finite-model-find --e-matching --sort-inference --uf-ss-fair at 5...
% 135.89/136.18  --- Run --pre-skolem-quant=on --full-saturate-quant at 10...
% 135.89/136.18  --- Run --cbqi-vo-exp --full-saturate-quant at 10...
% 135.89/136.18  --- Run --no-cbqi --full-saturate-quant at 10...
% 135.89/136.18  --- Run --macros-quant --macros-quant-mode=all --full-saturate-quant...
% 135.89/136.18  % SZS status Theorem for CSR085+5
% 135.89/136.18  % SZS output start Proof for CSR085+5
% 135.89/136.18  (
% 135.89/136.18  (let ((_let_1 (tptp.s__instance tptp.s__Organism12_1 tptp.s__Organism))) (let ((_let_2 (not _let_1))) (let ((_let_3 (forall ((V_X $$unsorted)) (=> (tptp.s__instance V_X tptp.s__Object) (=> (tptp.s__attribute V_X tptp.s__Living) (tptp.s__instance V_X tptp.s__Organism)))))) (let ((_let_4 (tptp.s__attribute tptp.s__Organism12_1 tptp.s__Living))) (let ((_let_5 (tptp.s__instance tptp.s__Organism12_1 tptp.s__Object))) (let ((_let_6 (tptp.s__MeasureFn |"2023"| tptp.s__KelvinDegree))) (let ((_let_7 (tptp.s__MeasureFn |"886"| tptp.s__KelvinDegree))) (let ((_let_8 (tptp.s__FoodForFn tptp.s__Animal))) (let ((_let_9 (tptp.s__MeasureFn |"1"| tptp.s__YardLength))) (let ((_let_10 (tptp.s__MeasureFn |"1"| tptp.s__Mile))) (let ((_let_11 (tptp.s__MeasureFn |"1"| tptp.s__FootLength))) (let ((_let_12 (tptp.s__instance tptp.s__PartialValuedRelation__t tptp.s__SetOrClass))) (let ((_let_13 (tptp.s__instance tptp.s__Function__t tptp.s__SetOrClass))) (let ((_let_14 (tptp.s__instance tptp.s__Predicate__t tptp.s__SetOrClass))) (let ((_let_15 (forall ((V_X $$unsorted)) (or (not (tptp.s__instance V_X tptp.s__Object)) (not (tptp.s__attribute V_X tptp.s__Living)) (tptp.s__instance V_X tptp.s__Organism))))) (let ((_let_16 (not _let_4))) (let ((_let_17 (not _let_5))) (let ((_let_18 (or _let_17 _let_16 _let_1))) (let ((_let_19 (EQ_RESOLVE (ASSUME :args (_let_3)) (MACRO_SR_EQ_INTRO :args (_let_3 SB_DEFAULT SBA_FIXPOINT))))) (let ((_let_20 (not _let_18))) (SCOPE (SCOPE (MACRO_RESOLUTION_TRUST (IMPLIES_ELIM (SCOPE (INSTANTIATE _let_19 :args (tptp.s__Organism12_1 QUANTIFIERS_INST_CBQI_CONFLICT)) :args (_let_15))) (MACRO_RESOLUTION_TRUST (REORDERING (CNF_OR_POS :args (_let_18)) :args ((or _let_1 _let_17 _let_16 _let_20))) (ASSUME :args (_let_2)) (ASSUME :args (_let_5)) (ASSUME :args (_let_4)) :args (_let_20 true _let_1 false _let_5 false _let_4)) _let_19 :args (false true _let_18 false _let_15)) :args ((tptp.s__instance tptp.s__instance__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__instance__m |"1"| tptp.s__Entity) (tptp.s__domain tptp.s__instance__m |"2"| tptp.s__SetOrClass) (tptp.s__documentation tptp.s__instance__m tptp.s__EnglishLanguage |tptp.'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.'|) (tptp.s__subrelation tptp.s__immediateInstance__m tptp.s__instance__m) (tptp.s__instance tptp.s__immediateInstance__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__immediateInstance__m tptp.s__IntransitiveRelation) (tptp.s__documentation tptp.s__immediateInstance__m tptp.s__EnglishLanguage |tptp.'An object is an &%immediateInstance of a &%SetOrClass if it is an instance of the &%SetOrClass and it is not an instance of a proper subclass of &%SetOrClass.'|) (forall ((V__CLASS $$unsorted) (V__ENTITY $$unsorted)) (=> (tptp.s__instance V__CLASS tptp.s__SetOrClass) (=> (tptp.s__immediateInstance V__ENTITY V__CLASS) (not (exists ((V__SUBCLASS $$unsorted)) (and (tptp.s__instance V__SUBCLASS tptp.s__SetOrClass) (tptp.s__subclass V__SUBCLASS V__CLASS) (not (= V__SUBCLASS V__CLASS)) (tptp.s__instance V__ENTITY V__SUBCLASS))))))) (tptp.s__instance tptp.s__inverse__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__inverse__m tptp.s__IrreflexiveRelation) (tptp.s__instance tptp.s__inverse__m tptp.s__IntransitiveRelation) (tptp.s__instance tptp.s__inverse__m tptp.s__SymmetricRelation) (tptp.s__domain tptp.s__inverse__m |"1"| tptp.s__BinaryRelation) (tptp.s__domain tptp.s__inverse__m |"2"| tptp.s__BinaryRelation) (tptp.s__documentation tptp.s__inverse__m tptp.s__EnglishLanguage |tptp.'The inverse of a &%BinaryRelation is a relation in which all the tuples of the original relation are reversed. In other words, one &%BinaryRelation is the inverse of another if they are equivalent when their arguments are swapped.'|) (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Woman) (tptp.s__instance V__INST1 tptp.s__Man)) (= (tptp.s__husband V__INST1 V__INST2) (tptp.s__wife V__INST2 V__INST1)))) (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Quantity) (tptp.s__instance V__INST1 tptp.s__Quantity)) (= (tptp.greater V__INST1 V__INST2) (tptp.less V__INST2 V__INST1)))) (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Quantity) (tptp.s__instance V__INST1 tptp.s__Quantity)) (= (tptp.greatereq V__INST1 V__INST2) (tptp.lesseq V__INST2 V__INST1)))) (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Object) (tptp.s__instance V__INST1 tptp.s__Object)) (= (tptp.s__smaller V__INST1 V__INST2) (tptp.s__larger V__INST2 V__INST1)))) (tptp.s__instance tptp.s__subclass__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__subclass__m tptp.s__PartialOrderingRelation) (tptp.s__domain tptp.s__subclass__m |"1"| tptp.s__SetOrClass) (tptp.s__domain tptp.s__subclass__m |"2"| tptp.s__SetOrClass) (tptp.s__documentation tptp.s__subclass__m tptp.s__EnglishLanguage |tptp.'(&%subclass ?CLASS1 ?CLASS2) means that ?CLASS1 is a subclass of ?CLASS2, i.e. every instance of ?CLASS1 is also an instance of ?CLASS2. A class may have multiple superclasses and subclasses.'|) (forall ((V__X $$unsorted) (V__Y $$unsorted)) (=> (tptp.s__subclass V__X V__Y) (and (tptp.s__instance V__X tptp.s__SetOrClass) (tptp.s__instance V__Y tptp.s__SetOrClass)))) (forall ((V__X $$unsorted) (V__Y $$unsorted) (V__Z $$unsorted)) (=> (and (tptp.s__instance V__Y tptp.s__SetOrClass) (tptp.s__instance V__X tptp.s__SetOrClass)) (=> (and (tptp.s__subclass V__X V__Y) (tptp.s__instance V__Z V__X)) (tptp.s__instance V__Z V__Y)))) (tptp.s__subrelation tptp.s__immediateSubclass__m tptp.s__subclass__m) (tptp.s__instance tptp.s__immediateSubclass__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__immediateSubclass__m tptp.s__IntransitiveRelation) (tptp.s__instance tptp.s__IntransitiveRelation__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__immediateSubclass__m tptp.s__EnglishLanguage |tptp.'A &%SetOrClass ?CLASS1 is an &%immediateSubclass of another &%SetOrClass ?CLASS2 just in case ?CLASS1 is a subclass of ?CLASS2 and there is no other subclass of ?CLASS2 such that ?CLASS1 is also a subclass of it.'|) (forall ((V__CLASS1 $$unsorted) (V__CLASS2 $$unsorted)) (=> (and (tptp.s__instance V__CLASS2 tptp.s__SetOrClass) (tptp.s__instance V__CLASS1 tptp.s__SetOrClass)) (=> (tptp.s__immediateSubclass V__CLASS1 V__CLASS2) (not (exists ((V__CLASS3 $$unsorted)) (and (tptp.s__instance V__CLASS3 tptp.s__SetOrClass) (tptp.s__subclass V__CLASS3 V__CLASS2) (tptp.s__subclass V__CLASS1 V__CLASS3) (not (= V__CLASS2 V__CLASS3)) (not (= V__CLASS1 V__CLASS3)))))))) (tptp.s__instance tptp.s__subrelation__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__subrelation__m tptp.s__PartialOrderingRelation) (tptp.s__domain tptp.s__subrelation__m |"1"| tptp.s__Relation) (tptp.s__domain tptp.s__subrelation__m |"2"| tptp.s__Relation) (tptp.s__documentation tptp.s__subrelation__m tptp.s__EnglishLanguage |tptp.'(&%subrelation ?REL1 ?REL2) means that every tuple of ?REL1 is also a tuple of ?REL2. In other words, if the &%Relation ?REL1 holds for some arguments arg_1, arg_2, ... arg_n, then the &%Relation ?REL2 holds for the same arguments. A consequence of this is that a &%Relation and its subrelations must have the same &%valence.'|) (forall ((V__NUMBER $$unsorted) (V__PRED1 $$unsorted) (V__PRED2 $$unsorted)) (=> (and (tptp.s__instance V__PRED2 tptp.s__Relation) (tptp.s__instance V__PRED1 tptp.s__Relation) (tptp.s__instance V__NUMBER tptp.s__PositiveInteger)) (=> (and (tptp.s__subrelation V__PRED1 V__PRED2) (tptp.s__valence V__PRED1 V__NUMBER)) (tptp.s__valence V__PRED2 V__NUMBER)))) (forall ((V__NUMBER $$unsorted) (V__PRED1 $$unsorted) (V__CLASS1 $$unsorted) (V__PRED2 $$unsorted)) (=> (and (tptp.s__instance V__PRED2 tptp.s__Relation) (tptp.s__instance V__CLASS1 tptp.s__SetOrClass) (tptp.s__instance V__PRED1 tptp.s__Relation) (tptp.s__instance V__NUMBER tptp.s__PositiveInteger)) (=> (and (tptp.s__subrelation V__PRED1 V__PRED2) (tptp.s__domain V__PRED2 V__NUMBER V__CLASS1)) (tptp.s__domain V__PRED1 V__NUMBER V__CLASS1)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__spouse V__ROW1 V__ROW2) (tptp.s__relative V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__overlapsPartially V__ROW1 V__ROW2) (tptp.s__overlapsSpatially V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__Language) (tptp.s__instance V__ROW1 tptp.s__SymbolicString)) (=> (tptp.s__synonymousExternalConcept V__ROW1 V__ROW2 V__ROW3) (tptp.s__relatedExternalConcept V__ROW1 V__ROW2 V__ROW3)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Motion)) (=> (tptp.s__moves V__ROW1 V__ROW2) (tptp.s__involvedInEvent V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__CognitiveAgent)) (=> (tptp.s__dislikes V__ROW1 V__ROW2) (tptp.s__inScopeOfInterest V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__GeographicArea) (tptp.s__instance V__ROW1 tptp.s__GeographicArea)) (=> (tptp.s__geographicSubregion V__ROW1 V__ROW2) (tptp.s__properPart V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__most V__ROW1 V__ROW2) (tptp.s__part V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Man) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__grandfather V__ROW1 V__ROW2) (tptp.s__grandparent V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__SymbolicString) (=> (tptp.s__names V__ROW1 V__ROW2) (tptp.s__refers V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__CognitiveAgent)) (=> (tptp.s__desires V__ROW1 V__ROW2) (tptp.s__inScopeOfInterest V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__third V__ROW1 V__ROW2) (tptp.s__part V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Day) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__date V__ROW1 V__ROW2) (tptp.s__time V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Experimenting)) (=> (tptp.s__experimentalControl V__ROW1 V__ROW2) (tptp.s__patient V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__LengthMeasure) (tptp.s__instance V__ROW1 tptp.s__Radiating) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__wavelength V__ROW1 V__ROW2) (tptp.s__measure V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__PostcodeArea) (tptp.s__instance V__ROW1 tptp.s__PostalPlace)) (=> (tptp.s__postPostcodeArea V__ROW1 V__ROW2) (tptp.s__located V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Agent) (tptp.s__instance V__ROW1 tptp.s__Contest)) (=> (tptp.s__contestParticipant V__ROW1 V__ROW2) (tptp.s__agent V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__immediateSubclass V__ROW1 V__ROW2) (tptp.s__subclass V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Vehicle) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__onboard V__ROW1 V__ROW2) (tptp.s__located V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Agent) (tptp.s__instance V__ROW1 tptp.s__ContentBearingObject)) (=> (tptp.s__deceptiveIdentifier V__ROW1 V__ROW2) (tptp.s__refers V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Hole) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__partiallyFills V__ROW1 V__ROW2) (tptp.s__located V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Agent) (tptp.s__instance V__ROW1 tptp.s__PostalPlace)) (=> (tptp.s__postContactSite V__ROW1 V__ROW2) (tptp.s__siteForContact V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) 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(forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TelecomNumber) (tptp.s__instance V__ROW1 tptp.s__SymbolicString)) (=> (tptp.s__telecomCountryCode V__ROW1 V__ROW2) (tptp.s__subString V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Artifact) (tptp.s__instance V__ROW2 tptp.s__CorpuscularObject) (tptp.s__instance V__ROW1 tptp.s__Device) (tptp.s__instance V__ROW1 tptp.s__CorpuscularObject)) (=> (tptp.s__powerPlant V__ROW1 V__ROW2) (tptp.s__component V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__origin V__ROW1 V__ROW2) (tptp.s__involvedInEvent V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Agent) (tptp.s__instance V__ROW1 tptp.s__SymbolicString)) (=> (tptp.s__alias V__ROW1 V__ROW2) (tptp.s__names V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__TelecomNumber)) (=> (tptp.s__homePhoneNumber V__ROW1 V__ROW2) (tptp.s__telephoneNumber V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimeInterval) (tptp.s__instance V__ROW1 tptp.s__TimeInterval)) (=> (tptp.s__starts V__ROW1 V__ROW2) (tptp.s__temporalPart V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__coworker V__ROW1 V__ROW2) (tptp.s__mutualAcquaintance V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__spouse V__ROW1 V__ROW2) (tptp.s__mutualAcquaintance V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__LengthMeasure) (tptp.s__instance V__ROW2 tptp.s__Physical) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__altitude V__ROW1 V__ROW2 V__ROW3) (tptp.s__distance V__ROW1 V__ROW2 V__ROW3)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__Language) (tptp.s__instance V__ROW1 tptp.s__SymbolicString)) (=> (tptp.s__subsumedExternalConcept V__ROW1 V__ROW2 V__ROW3) (tptp.s__relatedExternalConcept V__ROW1 V__ROW2 V__ROW3)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__Man)) (=> (tptp.s__nephew V__ROW1 V__ROW2) (tptp.s__familyRelation V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__EducationalOrganization) (tptp.s__instance V__ROW1 tptp.s__CognitiveAgent) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__teacher V__ROW1 V__ROW2) (tptp.s__member V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__LengthMeasure) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__width V__ROW1 V__ROW2) (tptp.s__linearExtent V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__penetrates V__ROW1 V__ROW2) (tptp.s__traverses V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__friend V__ROW1 V__ROW2) (tptp.s__mutualAcquaintance V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Organism) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (tptp.s__familyRelation V__ROW1 V__ROW2) (tptp.s__relative V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__cousin V__ROW1 V__ROW2) (tptp.s__familyRelation V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__CognitiveAgent) (tptp.s__instance V__ROW1 tptp.s__LegalAction)) (=> (tptp.s__plaintiff V__ROW1 V__ROW2) (tptp.s__agent V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Woman) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__grandmother V__ROW1 V__ROW2) (tptp.s__familyRelation V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Woman) (tptp.s__instance V__ROW1 tptp.s__Man)) (=> (tptp.s__husband V__ROW1 V__ROW2) (tptp.s__spouse V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__MassMeasure) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__weight V__ROW1 V__ROW2) (tptp.s__measure V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Organism) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (tptp.s__son V__ROW1 V__ROW2) (tptp.s__parent V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__SymbolicString)) (=> (tptp.s__middleName V__ROW1 V__ROW2) (tptp.s__names V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Substance) (tptp.s__instance V__ROW1 tptp.s__ChemicalProcess)) (=> (tptp.s__reagent V__ROW1 V__ROW2) (tptp.s__instrument V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Woman) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__grandmother V__ROW1 V__ROW2) (tptp.s__grandparent V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Process) (=> (tptp.s__destination V__ROW1 V__ROW2) (tptp.s__involvedInEvent V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimeDuration) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__age V__ROW1 V__ROW2) (tptp.s__measure V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Hole) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__properlyFills V__ROW1 V__ROW2) (tptp.s__partiallyFills V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__CognitiveAgent)) (=> (tptp.s__disapproves V__ROW1 V__ROW2) (tptp.s__inScopeOfInterest V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__LengthMeasure) (tptp.s__instance V__ROW1 tptp.s__Circle) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__diameter V__ROW1 V__ROW2) (tptp.s__width V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__AchievingControl)) (=> (tptp.s__controlled V__ROW1 V__ROW2) (tptp.s__patient V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__EngineeringComponent) (tptp.s__instance V__ROW3 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW2 tptp.s__EngineeringComponent) (tptp.s__instance V__ROW2 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW1 tptp.s__EngineeringConnection) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__connectsEngineeringComponents V__ROW1 V__ROW2 V__ROW3) (tptp.s__connects V__ROW1 V__ROW2 V__ROW3)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Plan) (tptp.s__instance V__ROW1 tptp.s__Plan)) (=> (tptp.s__subPlan V__ROW1 V__ROW2) (tptp.s__subProposition V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Physical) (tptp.s__instance V__ROW1 tptp.s__CognitiveAgent)) (=> (tptp.s__needs V__ROW1 V__ROW2) (tptp.s__inScopeOfInterest V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__meetsSpatially V__ROW1 V__ROW2) (tptp.s__connected V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__SymbolicString)) (=> (tptp.s__familyName V__ROW1 V__ROW2) (tptp.s__names V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__eventLocated V__ROW1 V__ROW2) (tptp.s__eventPartlyLocated V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__SymbolicString)) (=> (tptp.s__givenName V__ROW1 V__ROW2) (tptp.s__names V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__subclass V__ROW2 tptp.s__IntentionalProcess) (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__CognitiveAgent)) (=> (tptp.s__enjoys V__ROW1 V__ROW2) (tptp.s__inScopeOfInterest V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__half V__ROW1 V__ROW2) (tptp.s__part V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SymbolicString) (tptp.s__instance V__ROW1 tptp.s__SymbolicString)) (=> (tptp.s__subString V__ROW1 V__ROW2) (tptp.s__part V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Hole) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__fills V__ROW1 V__ROW2) (tptp.s__completelyFills V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__SymbolicString) (=> (tptp.s__localLongName V__ROW1 V__ROW2) (tptp.s__names V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Sentence) (tptp.s__instance V__ROW1 tptp.s__NounPhrase)) (=> (tptp.s__sententialObject V__ROW1 V__ROW2) (tptp.s__grammaticalRelation V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Organism) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (tptp.s__sibling V__ROW1 V__ROW2) (tptp.s__familyRelation V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__GeopoliticalArea) (tptp.s__instance V__ROW1 tptp.s__Organization)) (=> (tptp.s__headquartersOfOrganization V__ROW1 V__ROW2) (tptp.s__located V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__DevelopmentalAttribute) (tptp.s__instance V__ROW1 tptp.s__OrganicObject)) (=> (tptp.s__developmentalForm V__ROW1 V__ROW2) (tptp.s__attribute V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__PermanentResidence)) (=> (tptp.s__homeAddress V__ROW1 V__ROW2) (tptp.s__postContactSite V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__eventPartlyLocated V__ROW1 V__ROW2) (tptp.s__partlyLocated V__ROW1 V__ROW2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Agent) (tptp.s__instance V__ROW1 tptp.s__TelephonyDevice)) (=> (tptp.s__telecomContactDevice V__ROW1 V__ROW2) (tptp.s__siteForContact V__ROW1 V__ROW2)))) (forall ((V__CLASS $$unsorted) (V__PRED1 $$unsorted) (V__PRED2 $$unsorted)) (=> (and (tptp.s__instance V__PRED2 tptp.s__Relation) (tptp.s__instance V__PRED1 tptp.s__Relation) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (and (tptp.s__subrelation V__PRED1 V__PRED2) (tptp.s__instance V__PRED2 V__CLASS) (tptp.s__instance V__CLASS tptp.s__InheritableRelation)) (tptp.s__instance V__PRED1 V__CLASS)))) (tptp.s__instance tptp.s__domain__m tptp.s__TernaryPredicate) (tptp.s__domain tptp.s__domain__m |"1"| tptp.s__Relation) (tptp.s__domain tptp.s__domain__m |"2"| tptp.s__PositiveInteger) (tptp.s__domain tptp.s__domain__m |"3"| tptp.s__SetOrClass) (tptp.s__documentation tptp.s__domain__m tptp.s__EnglishLanguage |tptp.'Provides a computationally and heuristically convenient mechanism for declaring the argument types of a given relation. The formula (&%domain ?REL ?INT ?CLASS) means that the ?INTth element of each tuple in the relation ?REL must be an instance of ?CLASS. Specifying argument types is very helpful in maintaining ontologies. Representation systems can use these specifications to classify terms and check integrity constraints. If the restriction on the argument type of a &%Relation is not captured by a &%SetOrClass already defined in the ontology, one can specify a &%SetOrClass compositionally with the functions &%UnionFn, &%IntersectionFn, etc.'|) (forall ((V__NUMBER $$unsorted) (V__CLASS1 $$unsorted) (V__REL $$unsorted) (V__CLASS2 $$unsorted)) (=> (and (tptp.s__instance V__CLASS2 tptp.s__SetOrClass) (tptp.s__instance V__REL tptp.s__Relation) (tptp.s__instance V__CLASS1 tptp.s__SetOrClass) (tptp.s__instance V__NUMBER tptp.s__PositiveInteger)) (=> (and (tptp.s__domain V__REL V__NUMBER V__CLASS1) (tptp.s__domain V__REL V__NUMBER V__CLASS2)) (or (tptp.s__subclass V__CLASS1 V__CLASS2) (tptp.s__subclass V__CLASS2 V__CLASS1))))) (tptp.s__instance tptp.s__domainSubclass__m tptp.s__TernaryPredicate) (tptp.s__domain tptp.s__domainSubclass__m |"1"| tptp.s__Relation) (tptp.s__domain tptp.s__domainSubclass__m |"2"| tptp.s__PositiveInteger) (tptp.s__domain tptp.s__domainSubclass__m |"3"| tptp.s__SetOrClass) (tptp.s__documentation tptp.s__domainSubclass__m tptp.s__EnglishLanguage |tptp.'&%Predicate used to specify argument type restrictions of &%Predicates. The formula (&%domainSubclass ?REL ?INT ?CLASS) means that the ?INTth element of each tuple in the relation ?REL must be a subclass of ?CLASS.'|) (forall ((V__REL2 $$unsorted) (V__NUMBER $$unsorted) (V__CLASS1 $$unsorted) (V__REL1 $$unsorted)) (=> (and (tptp.s__instance V__REL1 tptp.s__Relation) (tptp.s__instance V__CLASS1 tptp.s__SetOrClass) (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (tptp.s__instance V__REL2 tptp.s__Relation)) (=> (and (tptp.s__subrelation V__REL1 V__REL2) (tptp.s__domainSubclass V__REL2 V__NUMBER V__CLASS1)) (tptp.s__domainSubclass V__REL1 V__NUMBER V__CLASS1)))) (forall ((V__NUMBER $$unsorted) (V__CLASS1 $$unsorted) (V__REL $$unsorted) (V__CLASS2 $$unsorted)) (=> (and (tptp.s__instance V__CLASS2 tptp.s__SetOrClass) (tptp.s__instance V__REL tptp.s__Relation) (tptp.s__instance V__CLASS1 tptp.s__SetOrClass) (tptp.s__instance V__NUMBER tptp.s__PositiveInteger)) (=> (and (tptp.s__domainSubclass V__REL V__NUMBER V__CLASS1) (tptp.s__domainSubclass V__REL V__NUMBER V__CLASS2)) (or (tptp.s__subclass V__CLASS1 V__CLASS2) (tptp.s__subclass V__CLASS2 V__CLASS1))))) (forall ((V__THING2 $$unsorted) (V__THING1 $$unsorted)) (=> (= V__THING1 V__THING2) (forall ((V__ATTR $$unsorted)) (=> (tptp.s__instance V__ATTR tptp.s__Attribute) (= (tptp.s__property V__THING1 V__ATTR) (tptp.s__property V__THING2 V__ATTR)))))) (forall ((V__ATTR2 $$unsorted) (V__ATTR1 $$unsorted)) (=> (= V__ATTR1 V__ATTR2) (forall ((V__THING $$unsorted)) (=> (and (tptp.s__instance V__ATTR1 tptp.s__Attribute) (tptp.s__instance V__ATTR2 tptp.s__Attribute)) (= (tptp.s__property V__THING V__ATTR1) (tptp.s__property V__THING V__ATTR2)))))) (forall ((V__THING2 $$unsorted) (V__THING1 $$unsorted)) (=> (= V__THING1 V__THING2) (forall ((V__CLASS $$unsorted)) (=> (tptp.s__instance V__CLASS tptp.s__SetOrClass) (= (tptp.s__instance V__THING1 V__CLASS) (tptp.s__instance V__THING2 V__CLASS)))))) (forall ((V__CLASS1 $$unsorted) (V__CLASS2 $$unsorted)) (=> (= V__CLASS1 V__CLASS2) (forall ((V__THING $$unsorted)) (=> (and (tptp.s__instance V__CLASS2 tptp.s__SetOrClass) (tptp.s__instance V__CLASS1 tptp.s__SetOrClass)) (= (tptp.s__instance V__THING V__CLASS1) (tptp.s__instance V__THING V__CLASS2)))))) (forall ((V__ROW11 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_1 V__ROW11)) (= V__LIST2 (tptp.s__ListFn_1 V__ROW21))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW11) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW21) V__NUMBER))))))) (forall ((V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_1 V__ROW11)) (= V__LIST2 (tptp.s__ListFn_2 V__ROW21 V__ROW22))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW11) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW21 V__ROW22) V__NUMBER))))))) (forall ((V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted) (V__ROW23 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_1 V__ROW11)) (= V__LIST2 (tptp.s__ListFn_3 V__ROW21 V__ROW22 V__ROW23))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW11) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW21 V__ROW22 V__ROW23) V__NUMBER))))))) (forall ((V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_1 V__ROW11)) (= V__LIST2 (tptp.s__ListFn_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW11) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24) V__NUMBER))))))) (forall ((V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_1 V__ROW11)) (= V__LIST2 (tptp.s__ListFn_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW11) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25) V__NUMBER))))))) (forall ((V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted) (V__ROW26 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_1 V__ROW11)) (= V__LIST2 (tptp.s__ListFn_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW11) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26) V__NUMBER))))))) (forall ((V__ROW27 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted) (V__ROW26 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_1 V__ROW11)) (= V__LIST2 (tptp.s__ListFn_7 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26 V__ROW27))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW11) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_7 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26 V__ROW27) V__NUMBER))))))) (forall ((V__ROW12 $$unsorted) (V__ROW11 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_2 V__ROW11 V__ROW12)) (= V__LIST2 (tptp.s__ListFn_1 V__ROW21))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW11 V__ROW12) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW21) V__NUMBER))))))) (forall ((V__ROW12 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_2 V__ROW11 V__ROW12)) (= V__LIST2 (tptp.s__ListFn_2 V__ROW21 V__ROW22))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW11 V__ROW12) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW21 V__ROW22) V__NUMBER))))))) (forall ((V__ROW12 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted) (V__ROW23 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_2 V__ROW11 V__ROW12)) (= V__LIST2 (tptp.s__ListFn_3 V__ROW21 V__ROW22 V__ROW23))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW11 V__ROW12) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW21 V__ROW22 V__ROW23) V__NUMBER))))))) (forall ((V__ROW12 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_2 V__ROW11 V__ROW12)) (= V__LIST2 (tptp.s__ListFn_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW11 V__ROW12) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24) V__NUMBER))))))) (forall ((V__ROW12 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_2 V__ROW11 V__ROW12)) (= V__LIST2 (tptp.s__ListFn_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW11 V__ROW12) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25) V__NUMBER))))))) (forall ((V__ROW12 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted) (V__ROW26 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_2 V__ROW11 V__ROW12)) (= V__LIST2 (tptp.s__ListFn_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW11 V__ROW12) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26) V__NUMBER))))))) (forall ((V__ROW27 $$unsorted) (V__ROW12 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted) (V__ROW26 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_2 V__ROW11 V__ROW12)) (= V__LIST2 (tptp.s__ListFn_7 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26 V__ROW27))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW11 V__ROW12) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_7 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26 V__ROW27) V__NUMBER))))))) (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW11 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_3 V__ROW11 V__ROW12 V__ROW13)) (= V__LIST2 (tptp.s__ListFn_1 V__ROW21))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW11 V__ROW12 V__ROW13) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW21) V__NUMBER))))))) (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_3 V__ROW11 V__ROW12 V__ROW13)) (= V__LIST2 (tptp.s__ListFn_2 V__ROW21 V__ROW22))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW11 V__ROW12 V__ROW13) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW21 V__ROW22) V__NUMBER))))))) (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted) (V__ROW23 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_3 V__ROW11 V__ROW12 V__ROW13)) (= V__LIST2 (tptp.s__ListFn_3 V__ROW21 V__ROW22 V__ROW23))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW11 V__ROW12 V__ROW13) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW21 V__ROW22 V__ROW23) V__NUMBER))))))) (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_3 V__ROW11 V__ROW12 V__ROW13)) (= V__LIST2 (tptp.s__ListFn_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW11 V__ROW12 V__ROW13) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24) V__NUMBER))))))) (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_3 V__ROW11 V__ROW12 V__ROW13)) (= V__LIST2 (tptp.s__ListFn_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW11 V__ROW12 V__ROW13) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25) V__NUMBER))))))) (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted) (V__ROW26 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_3 V__ROW11 V__ROW12 V__ROW13)) (= V__LIST2 (tptp.s__ListFn_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW11 V__ROW12 V__ROW13) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26) V__NUMBER))))))) (forall ((V__ROW27 $$unsorted) (V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted) (V__ROW26 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_3 V__ROW11 V__ROW12 V__ROW13)) (= V__LIST2 (tptp.s__ListFn_7 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26 V__ROW27))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW11 V__ROW12 V__ROW13) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_7 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26 V__ROW27) V__NUMBER))))))) (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW14 $$unsorted) (V__ROW11 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_4 V__ROW11 V__ROW12 V__ROW13 V__ROW14)) (= V__LIST2 (tptp.s__ListFn_1 V__ROW21))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW11 V__ROW12 V__ROW13 V__ROW14) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW21) V__NUMBER))))))) (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW14 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_4 V__ROW11 V__ROW12 V__ROW13 V__ROW14)) (= V__LIST2 (tptp.s__ListFn_2 V__ROW21 V__ROW22))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW11 V__ROW12 V__ROW13 V__ROW14) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW21 V__ROW22) V__NUMBER))))))) (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW14 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted) (V__ROW23 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_4 V__ROW11 V__ROW12 V__ROW13 V__ROW14)) (= V__LIST2 (tptp.s__ListFn_3 V__ROW21 V__ROW22 V__ROW23))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW11 V__ROW12 V__ROW13 V__ROW14) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW21 V__ROW22 V__ROW23) V__NUMBER))))))) (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW14 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_4 V__ROW11 V__ROW12 V__ROW13 V__ROW14)) (= V__LIST2 (tptp.s__ListFn_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW11 V__ROW12 V__ROW13 V__ROW14) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24) V__NUMBER))))))) (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW14 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_4 V__ROW11 V__ROW12 V__ROW13 V__ROW14)) (= V__LIST2 (tptp.s__ListFn_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW11 V__ROW12 V__ROW13 V__ROW14) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25) V__NUMBER))))))) (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW14 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted) (V__ROW26 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_4 V__ROW11 V__ROW12 V__ROW13 V__ROW14)) (= V__LIST2 (tptp.s__ListFn_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW11 V__ROW12 V__ROW13 V__ROW14) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26) V__NUMBER))))))) (forall ((V__ROW27 $$unsorted) (V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW14 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted) (V__ROW26 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 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$$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_7 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16 V__ROW17)) (= V__LIST2 (tptp.s__ListFn_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_7 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16 V__ROW17) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26) V__NUMBER))))))) (forall ((V__ROW27 $$unsorted) (V__ROW16 $$unsorted) (V__ROW17 $$unsorted) (V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW14 $$unsorted) (V__ROW15 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted) (V__ROW26 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_7 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16 V__ROW17)) (= V__LIST2 (tptp.s__ListFn_7 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26 V__ROW27))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_7 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16 V__ROW17) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_7 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26 V__ROW27) V__NUMBER))))))) (tptp.s__instance tptp.s__range__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__range__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__range__m |"1"| tptp.s__Function) (tptp.s__domain tptp.s__range__m |"2"| tptp.s__SetOrClass) (tptp.s__documentation tptp.s__range__m tptp.s__EnglishLanguage |tptp.'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.'|) (forall ((V__VALUE $$unsorted) (V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__FUNCTION $$unsorted)) (=> (and (tptp.s__instance V__FUNCTION tptp.s__Function) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (and (tptp.s__range V__FUNCTION V__CLASS) (= (tptp.s__AssignmentFn_2 V__FUNCTION V__ROW1) V__VALUE)) (tptp.s__instance V__VALUE V__CLASS)))) (forall ((V__VALUE $$unsorted) (V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__FUNCTION $$unsorted)) (=> (and (tptp.s__instance V__FUNCTION tptp.s__Function) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (and (tptp.s__range V__FUNCTION V__CLASS) (= (tptp.s__AssignmentFn_3 V__FUNCTION V__ROW1 V__ROW2) V__VALUE)) (tptp.s__instance V__VALUE V__CLASS)))) (forall ((V__VALUE $$unsorted) (V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__FUNCTION $$unsorted)) (=> (and (tptp.s__instance V__FUNCTION tptp.s__Function) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (and (tptp.s__range V__FUNCTION V__CLASS) (= (tptp.s__AssignmentFn_4 V__FUNCTION V__ROW1 V__ROW2 V__ROW3) V__VALUE)) (tptp.s__instance V__VALUE V__CLASS)))) (forall ((V__VALUE $$unsorted) (V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__FUNCTION $$unsorted)) (=> (and (tptp.s__instance V__FUNCTION tptp.s__Function) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (and (tptp.s__range V__FUNCTION V__CLASS) (= (tptp.s__AssignmentFn_5 V__FUNCTION V__ROW1 V__ROW2 V__ROW3 V__ROW4) V__VALUE)) (tptp.s__instance V__VALUE V__CLASS)))) (forall ((V__VALUE $$unsorted) (V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__FUNCTION $$unsorted)) (=> (and (tptp.s__instance V__FUNCTION tptp.s__Function) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (and (tptp.s__range V__FUNCTION V__CLASS) (= (tptp.s__AssignmentFn_6 V__FUNCTION V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) V__VALUE)) (tptp.s__instance V__VALUE V__CLASS)))) (forall ((V__VALUE $$unsorted) (V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__FUNCTION $$unsorted)) (=> (and (tptp.s__instance V__FUNCTION tptp.s__Function) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (and (tptp.s__range V__FUNCTION V__CLASS) (= (tptp.s__AssignmentFn_7 V__FUNCTION V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) V__VALUE)) (tptp.s__instance V__VALUE V__CLASS)))) (forall ((V__REL2 $$unsorted) (V__CLASS1 $$unsorted) (V__REL1 $$unsorted)) (=> (and (tptp.s__instance V__REL1 tptp.s__Function) (tptp.s__instance V__CLASS1 tptp.s__SetOrClass) (tptp.s__instance V__REL2 tptp.s__Function)) (=> (and (tptp.s__subrelation V__REL1 V__REL2) (tptp.s__range V__REL2 V__CLASS1)) (tptp.s__range V__REL1 V__CLASS1)))) (forall ((V__CLASS1 $$unsorted) (V__REL $$unsorted) (V__CLASS2 $$unsorted)) (=> (and (tptp.s__instance V__CLASS2 tptp.s__SetOrClass) (tptp.s__instance V__REL tptp.s__Function) (tptp.s__instance V__CLASS1 tptp.s__SetOrClass)) (=> (and (tptp.s__range V__REL V__CLASS1) (tptp.s__range V__REL V__CLASS2)) (or (tptp.s__subclass V__CLASS1 V__CLASS2) (tptp.s__subclass V__CLASS2 V__CLASS1))))) (tptp.s__instance tptp.s__rangeSubclass__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__rangeSubclass__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__rangeSubclass__m |"1"| tptp.s__Function) (tptp.s__domainSubclass tptp.s__rangeSubclass__m |"2"| tptp.s__SetOrClass) (tptp.s__documentation tptp.s__rangeSubclass__m tptp.s__EnglishLanguage |tptp.'(&%rangeSubclass ?FUNCTION ?CLASS) means that all of the values assigned by ?FUNCTION are &%subclasses of ?CLASS.'|) (forall ((V__VALUE $$unsorted) (V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__FUNCTION $$unsorted)) (=> (and (tptp.s__instance V__FUNCTION tptp.s__Function) (tptp.s__subclass V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__VALUE tptp.s__SetOrClass)) (=> (and (tptp.s__rangeSubclass V__FUNCTION V__CLASS) (= (tptp.s__AssignmentFn_2 V__FUNCTION V__ROW1) V__VALUE)) (tptp.s__subclass V__VALUE V__CLASS)))) (forall ((V__VALUE $$unsorted) (V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__FUNCTION $$unsorted)) (=> (and (tptp.s__instance V__FUNCTION tptp.s__Function) (tptp.s__subclass V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__VALUE tptp.s__SetOrClass)) (=> (and (tptp.s__rangeSubclass V__FUNCTION V__CLASS) (= (tptp.s__AssignmentFn_3 V__FUNCTION V__ROW1 V__ROW2) V__VALUE)) (tptp.s__subclass V__VALUE V__CLASS)))) (forall ((V__VALUE $$unsorted) (V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__FUNCTION $$unsorted)) (=> (and (tptp.s__instance V__FUNCTION tptp.s__Function) (tptp.s__subclass V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__VALUE tptp.s__SetOrClass)) (=> (and (tptp.s__rangeSubclass V__FUNCTION V__CLASS) (= (tptp.s__AssignmentFn_4 V__FUNCTION V__ROW1 V__ROW2 V__ROW3) V__VALUE)) (tptp.s__subclass V__VALUE V__CLASS)))) (forall ((V__VALUE $$unsorted) (V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__FUNCTION $$unsorted)) (=> (and (tptp.s__instance V__FUNCTION tptp.s__Function) (tptp.s__subclass V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__VALUE tptp.s__SetOrClass)) (=> (and (tptp.s__rangeSubclass V__FUNCTION V__CLASS) (= (tptp.s__AssignmentFn_5 V__FUNCTION V__ROW1 V__ROW2 V__ROW3 V__ROW4) V__VALUE)) (tptp.s__subclass V__VALUE V__CLASS)))) (forall ((V__VALUE $$unsorted) (V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__FUNCTION $$unsorted)) (=> (and (tptp.s__instance V__FUNCTION tptp.s__Function) (tptp.s__subclass V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__VALUE tptp.s__SetOrClass)) (=> (and (tptp.s__rangeSubclass V__FUNCTION V__CLASS) (= (tptp.s__AssignmentFn_6 V__FUNCTION V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) V__VALUE)) (tptp.s__subclass V__VALUE V__CLASS)))) (forall ((V__VALUE $$unsorted) (V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__FUNCTION $$unsorted)) (=> (and (tptp.s__instance V__FUNCTION tptp.s__Function) (tptp.s__subclass V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__VALUE tptp.s__SetOrClass)) (=> (and (tptp.s__rangeSubclass V__FUNCTION V__CLASS) (= (tptp.s__AssignmentFn_7 V__FUNCTION V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) V__VALUE)) (tptp.s__subclass V__VALUE V__CLASS)))) (forall ((V__REL2 $$unsorted) (V__CLASS1 $$unsorted) (V__REL1 $$unsorted)) (=> (and (tptp.s__instance V__REL1 tptp.s__Function) (tptp.s__subclass V__CLASS1 tptp.s__SetOrClass) (tptp.s__instance V__CLASS1 tptp.s__SetOrClass) (tptp.s__instance V__REL2 tptp.s__Function)) (=> (and (tptp.s__subrelation V__REL1 V__REL2) (tptp.s__rangeSubclass V__REL2 V__CLASS1)) (tptp.s__rangeSubclass V__REL1 V__CLASS1)))) (forall ((V__CLASS1 $$unsorted) (V__REL $$unsorted) (V__CLASS2 $$unsorted)) (=> (and (tptp.s__subclass V__CLASS2 tptp.s__SetOrClass) (tptp.s__instance V__CLASS2 tptp.s__SetOrClass) (tptp.s__instance V__REL tptp.s__Function) (tptp.s__subclass V__CLASS1 tptp.s__SetOrClass) (tptp.s__instance V__CLASS1 tptp.s__SetOrClass)) (=> (and (tptp.s__rangeSubclass V__REL V__CLASS1) (tptp.s__rangeSubclass V__REL V__CLASS2)) (or (tptp.s__subclass V__CLASS1 V__CLASS2) (tptp.s__subclass V__CLASS2 V__CLASS1))))) (tptp.s__instance tptp.s__valence__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__valence__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__valence__m tptp.s__SingleValuedRelation) (tptp.s__domain tptp.s__valence__m |"1"| tptp.s__Relation) (tptp.s__domain tptp.s__valence__m |"2"| tptp.s__PositiveInteger) (tptp.s__documentation tptp.s__valence__m tptp.s__EnglishLanguage |tptp.'Specifies the number of arguments that a relation can take. If a relation does not have a fixed number of arguments, it does not have a valence and it is an instance of &%VariableArityRelation.'|) (tptp.s__instance tptp.s__documentation__m tptp.s__TernaryPredicate) (tptp.s__domain tptp.s__documentation__m |"1"| tptp.s__Entity) (tptp.s__domain tptp.s__documentation__m |"2"| tptp.s__HumanLanguage) (tptp.s__domain tptp.s__documentation__m |"3"| tptp.s__SymbolicString) (tptp.s__documentation tptp.s__documentation__m tptp.s__EnglishLanguage |tptp.'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.'|) (tptp.s__instance tptp.s__format__m tptp.s__TernaryPredicate) (tptp.s__domain tptp.s__format__m |"1"| tptp.s__Language) (tptp.s__domain tptp.s__format__m |"2"| tptp.s__Entity) (tptp.s__domain tptp.s__format__m |"3"| tptp.s__SymbolicString) (tptp.s__documentation tptp.s__format__m tptp.s__EnglishLanguage |tptp.'A relation that specifies how to present an expression in a natural language format.'|) (tptp.s__instance tptp.s__termFormat__m tptp.s__TernaryPredicate) (tptp.s__domain tptp.s__termFormat__m |"1"| tptp.s__Language) (tptp.s__domain tptp.s__termFormat__m |"2"| tptp.s__Entity) (tptp.s__domain tptp.s__termFormat__m |"3"| tptp.s__SymbolicString) (tptp.s__documentation tptp.s__termFormat__m tptp.s__EnglishLanguage |tptp.'A relation that specifies how to present a term in a natural language format.'|) (tptp.s__instance tptp.s__disjoint__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__disjoint__m tptp.s__SymmetricRelation) (tptp.s__domain tptp.s__disjoint__m |"1"| tptp.s__SetOrClass) (tptp.s__domain tptp.s__disjoint__m |"2"| tptp.s__SetOrClass) (tptp.s__documentation tptp.s__disjoint__m tptp.s__EnglishLanguage |tptp.'&%Classes are &%disjoint only if they share no instances, i.e. just in case the result of applying &%IntersectionFn to them is empty.'|) (forall ((V__CLASS1 $$unsorted) (V__CLASS2 $$unsorted)) (= (tptp.s__disjoint V__CLASS1 V__CLASS2) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__CLASS2 tptp.s__SetOrClass) (tptp.s__instance V__CLASS1 tptp.s__SetOrClass)) (not (and (tptp.s__instance V__INST V__CLASS1) (tptp.s__instance V__INST V__CLASS2))))))) (tptp.s__instance tptp.s__disjointRelation__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__disjointRelation__m tptp.s__IrreflexiveRelation) (tptp.s__domain tptp.s__disjointRelation__m |"1"| tptp.s__Relation) (tptp.s__domain tptp.s__disjointRelation__m |"2"| tptp.s__Relation) (tptp.s__relatedInternalConcept tptp.s__disjointRelation__m tptp.s__disjoint__m) (tptp.s__documentation tptp.s__disjointRelation__m tptp.s__EnglishLanguage |tptp.'This predicate relates two &%Relations. (&%disjointRelation ?REL1 ?REL2) means that the two relations have no tuples in common.'|) (forall ((V__REL2 $$unsorted) (V__NUMBER $$unsorted) (V__CLASS1 $$unsorted) (V__CLASS2 $$unsorted) (V__REL1 $$unsorted)) (=> (and (tptp.s__instance V__REL1 tptp.s__Relation) (tptp.s__instance V__CLASS2 tptp.s__SetOrClass) (tptp.s__instance V__CLASS1 tptp.s__SetOrClass) (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (tptp.s__instance V__REL2 tptp.s__Relation)) (=> (and (tptp.s__domain V__REL1 V__NUMBER V__CLASS1) (tptp.s__domain V__REL2 V__NUMBER V__CLASS2) (tptp.s__disjoint V__CLASS1 V__CLASS2)) (tptp.s__disjointRelation V__REL1 V__REL2)))) (forall ((V__REL2 $$unsorted) (V__NUMBER $$unsorted) (V__CLASS1 $$unsorted) (V__CLASS2 $$unsorted) (V__REL1 $$unsorted)) (=> (and (tptp.s__instance V__REL1 tptp.s__Relation) (tptp.s__instance V__CLASS2 tptp.s__SetOrClass) (tptp.s__instance V__CLASS1 tptp.s__SetOrClass) (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (tptp.s__instance V__REL2 tptp.s__Relation)) (=> (and (tptp.s__domainSubclass V__REL1 V__NUMBER V__CLASS1) (tptp.s__domainSubclass V__REL2 V__NUMBER V__CLASS2) (tptp.s__disjoint V__CLASS1 V__CLASS2)) (tptp.s__disjointRelation V__REL1 V__REL2)))) (forall ((V__REL2 $$unsorted) (V__CLASS1 $$unsorted) (V__CLASS2 $$unsorted) (V__REL1 $$unsorted)) (=> (and (tptp.s__instance V__REL1 tptp.s__Function) (tptp.s__instance V__CLASS2 tptp.s__SetOrClass) (tptp.s__instance V__CLASS1 tptp.s__SetOrClass) (tptp.s__instance V__REL2 tptp.s__Function)) (=> (and (tptp.s__range V__REL1 V__CLASS1) (tptp.s__range V__REL2 V__CLASS2) (tptp.s__disjoint V__CLASS1 V__CLASS2)) (tptp.s__disjointRelation V__REL1 V__REL2)))) (forall ((V__REL2 $$unsorted) (V__CLASS1 $$unsorted) (V__CLASS2 $$unsorted) (V__REL1 $$unsorted)) (=> (and (tptp.s__instance V__REL1 tptp.s__Function) (tptp.s__subclass V__CLASS2 tptp.s__SetOrClass) (tptp.s__instance V__CLASS2 tptp.s__SetOrClass) (tptp.s__subclass V__CLASS1 tptp.s__SetOrClass) (tptp.s__instance V__CLASS1 tptp.s__SetOrClass) (tptp.s__instance V__REL2 tptp.s__Function)) (=> (and (tptp.s__rangeSubclass V__REL1 V__CLASS1) (tptp.s__rangeSubclass V__REL2 V__CLASS2) (tptp.s__disjoint V__CLASS1 V__CLASS2)) (tptp.s__disjointRelation V__REL1 V__REL2)))) (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__instance V__ROW21 tptp.s__Human) (tptp.s__instance V__ROW22 tptp.s__Human)) (=> (and (not (= tptp.s__spouse__m tptp.s__domesticPartner__m)) (tptp.s__spouse V__ROW21 V__ROW22)) (not (tptp.s__domesticPartner V__ROW21 V__ROW22))))) (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__instance V__ROW21 tptp.s__CognitiveAgent) (tptp.s__instance V__ROW22 tptp.s__Object)) (=> (and (not (= tptp.s__dislikes__m tptp.s__wants__m)) (tptp.s__dislikes V__ROW21 V__ROW22)) (not (tptp.s__wants V__ROW21 V__ROW22))))) (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__instance V__ROW21 tptp.s__Process) (tptp.s__instance V__ROW22 tptp.s__Object)) (=> (and (not (= tptp.s__resource__m tptp.s__result__m)) (tptp.s__resource V__ROW21 V__ROW22)) (not (tptp.s__result V__ROW21 V__ROW22))))) (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__instance V__ROW23 tptp.s__Language) (tptp.s__instance V__ROW21 tptp.s__SymbolicString)) (=> (and (not (= tptp.s__subsumedExternalConcept__m tptp.s__subsumingExternalConcept__m)) (tptp.s__subsumedExternalConcept V__ROW21 V__ROW22 V__ROW23)) (not (tptp.s__subsumingExternalConcept V__ROW21 V__ROW22 V__ROW23))))) (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__instance V__ROW21 tptp.s__Organization) (tptp.s__instance V__ROW22 tptp.s__Organization)) (=> (and (not (= tptp.s__ancestorOrganization__m tptp.s__subOrganization__m)) (tptp.s__ancestorOrganization V__ROW21 V__ROW22)) (not (tptp.s__subOrganization V__ROW21 V__ROW22))))) (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__instance V__ROW21 tptp.s__Object) (tptp.s__instance V__ROW22 tptp.s__Object)) (=> (and (not (= tptp.s__crosses__m tptp.s__connected__m)) (tptp.s__crosses V__ROW21 V__ROW22)) (not (tptp.s__connected V__ROW21 V__ROW22))))) (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__instance V__ROW23 tptp.s__Language) (tptp.s__instance V__ROW21 tptp.s__SymbolicString)) (=> (and (not (= tptp.s__synonymousExternalConcept__m tptp.s__subsumingExternalConcept__m)) (tptp.s__synonymousExternalConcept V__ROW21 V__ROW22 V__ROW23)) (not (tptp.s__subsumingExternalConcept V__ROW21 V__ROW22 V__ROW23))))) (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__instance V__ROW21 tptp.s__Formula) (tptp.s__instance V__ROW22 tptp.s__Formula)) (=> (and (not (= tptp.s__increasesLikelihood__m tptp.s__independentProbability__m)) (tptp.s__increasesLikelihood V__ROW21 V__ROW22)) (not (tptp.s__independentProbability V__ROW21 V__ROW22))))) (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__instance V__ROW23 tptp.s__Language) (tptp.s__instance V__ROW21 tptp.s__SymbolicString)) (=> (and (not (= tptp.s__synonymousExternalConcept__m tptp.s__subsumedExternalConcept__m)) (tptp.s__synonymousExternalConcept V__ROW21 V__ROW22 V__ROW23)) (not (tptp.s__subsumedExternalConcept V__ROW21 V__ROW22 V__ROW23))))) (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__instance V__ROW21 tptp.s__Process) (tptp.s__instance V__ROW22 tptp.s__Object)) (=> (and (not (= tptp.s__resource__m tptp.s__instrument__m)) (tptp.s__resource V__ROW21 V__ROW22)) (not (tptp.s__instrument V__ROW21 V__ROW22))))) (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__instance V__ROW21 tptp.s__Formula) (tptp.s__instance V__ROW22 tptp.s__Formula)) (=> (and (not (= tptp.s__decreasesLikelihood__m tptp.s__independentProbability__m)) (tptp.s__decreasesLikelihood V__ROW21 V__ROW22)) (not (tptp.s__independentProbability V__ROW21 V__ROW22))))) (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__instance V__ROW21 tptp.s__Process) (tptp.s__instance V__ROW21 tptp.s__Object) (tptp.s__instance V__ROW22 tptp.s__Attribute)) (=> (and (not (= tptp.s__manner__m tptp.s__attribute__m)) (tptp.s__manner V__ROW21 V__ROW22)) (not (tptp.s__attribute V__ROW21 V__ROW22))))) (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__instance V__ROW21 tptp.s__Human) (tptp.s__instance V__ROW22 tptp.s__Human)) (=> (and (not (= tptp.s__stranger__m tptp.s__acquaintance__m)) (tptp.s__stranger V__ROW21 V__ROW22)) (not (tptp.s__acquaintance V__ROW21 V__ROW22))))) (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__instance V__ROW21 tptp.s__Process) (tptp.s__instance V__ROW22 tptp.s__Object)) (=> (and (not (= tptp.s__result__m tptp.s__instrument__m)) (tptp.s__result V__ROW21 V__ROW22)) (not (tptp.s__instrument V__ROW21 V__ROW22))))) (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__instance V__ROW21 tptp.s__Attribute) (tptp.s__instance V__ROW22 tptp.s__Attribute)) (=> (and (not (= tptp.s__subAttribute__m tptp.s__successorAttribute__m)) (tptp.s__subAttribute V__ROW21 V__ROW22)) (not (tptp.s__successorAttribute V__ROW21 V__ROW22))))) (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__instance V__ROW21 tptp.s__Formula) (tptp.s__instance V__ROW22 tptp.s__Formula)) (=> (and (not (= tptp.s__increasesLikelihood__m tptp.s__decreasesLikelihood__m)) (tptp.s__increasesLikelihood V__ROW21 V__ROW22)) (not (tptp.s__decreasesLikelihood V__ROW21 V__ROW22))))) (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__instance V__ROW21 tptp.s__Object) (tptp.s__instance V__ROW22 tptp.s__Object)) (=> (and (not (= tptp.s__meetsSpatially__m tptp.s__overlapsSpatially__m)) (tptp.s__meetsSpatially V__ROW21 V__ROW22)) (not (tptp.s__overlapsSpatially V__ROW21 V__ROW22))))) (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__instance V__ROW21 tptp.s__Human) (tptp.s__instance V__ROW22 tptp.s__Human)) (=> (and (not (= tptp.s__mutualStranger__m tptp.s__mutualAcquaintance__m)) (tptp.s__mutualStranger V__ROW21 V__ROW22)) (not (tptp.s__mutualAcquaintance V__ROW21 V__ROW22))))) (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__instance V__ROW23 tptp.s__ObjectiveNorm) (tptp.s__instance V__ROW22 tptp.s__Formula)) (=> (and (not (= tptp.s__deprivesNorm__m tptp.s__confersNorm__m)) (tptp.s__deprivesNorm V__ROW21 V__ROW22 V__ROW23)) (not (tptp.s__confersNorm V__ROW21 V__ROW22 V__ROW23))))) (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__instance V__ROW21 tptp.s__Human) (tptp.s__instance V__ROW22 tptp.s__TemporaryResidence) (tptp.s__instance V__ROW22 tptp.s__PermanentResidence)) (=> (and (not (= tptp.s__stays__m tptp.s__home__m)) (tptp.s__stays V__ROW21 V__ROW22)) (not (tptp.s__home V__ROW21 V__ROW22))))) (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__instance V__ROW21 tptp.s__CognitiveAgent) (tptp.s__instance V__ROW22 tptp.s__Formula)) (=> (and (not (= tptp.s__disapproves__m tptp.s__desires__m)) (tptp.s__disapproves V__ROW21 V__ROW22)) (not (tptp.s__desires V__ROW21 V__ROW22))))) (tptp.s__instance tptp.s__contraryAttribute__m tptp.s__Predicate) _let_14 (tptp.s__instance tptp.s__contraryAttribute__m tptp.s__VariableArityRelation) (tptp.s__instance tptp.s__VariableArityRelation__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__contraryAttribute__m tptp.s__EnglishLanguage |tptp.'A &%contraryAttribute is a set of &%Attributes such that something can not simultaneously have more than one of these &%Attributes. For example, (&%contraryAttribute &%Pliable &%Rigid) means that nothing can be both &%Pliable and &%Rigid.'|) (forall ((V__ROW1 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__contraryAttribute_1 V__ROW1) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_1 V__ROW1)) (tptp.s__instance V__ELEMENT tptp.s__Attribute)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__contraryAttribute_2 V__ROW1 V__ROW2) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_2 V__ROW1 V__ROW2)) (tptp.s__instance V__ELEMENT tptp.s__Attribute)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__contraryAttribute_3 V__ROW1 V__ROW2 V__ROW3) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) (tptp.s__instance V__ELEMENT tptp.s__Attribute)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__contraryAttribute_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4)) (tptp.s__instance V__ELEMENT tptp.s__Attribute)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__contraryAttribute_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5)) (tptp.s__instance V__ELEMENT tptp.s__Attribute)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__contraryAttribute_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6)) (tptp.s__instance V__ELEMENT tptp.s__Attribute)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ROW7 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__contraryAttribute_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7)) (tptp.s__instance V__ELEMENT tptp.s__Attribute)))) (forall ((V__ROW11 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__contraryAttribute_1 V__ROW11) (tptp.s__identicalListItems (tptp.s__ListFn_1 V__ROW11) (tptp.s__ListFn_1 V__ROW21))) (tptp.s__contraryAttribute_1 V__ROW21))) (forall ((V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__contraryAttribute_1 V__ROW11) (tptp.s__identicalListItems (tptp.s__ListFn_1 V__ROW11) (tptp.s__ListFn_2 V__ROW21 V__ROW22))) (tptp.s__contraryAttribute_2 V__ROW21 V__ROW22))) (forall ((V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_1 V__ROW11) (tptp.s__identicalListItems (tptp.s__ListFn_1 V__ROW11) (tptp.s__ListFn_3 V__ROW21 V__ROW22 V__ROW23))) (tptp.s__contraryAttribute_3 V__ROW21 V__ROW22 V__ROW23))) (forall ((V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_1 V__ROW11) (tptp.s__identicalListItems (tptp.s__ListFn_1 V__ROW11) (tptp.s__ListFn_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24))) (tptp.s__contraryAttribute_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24))) (forall ((V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_1 V__ROW11) (tptp.s__identicalListItems (tptp.s__ListFn_1 V__ROW11) (tptp.s__ListFn_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25))) (tptp.s__contraryAttribute_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25))) (forall ((V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW26 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_1 V__ROW11) (tptp.s__identicalListItems (tptp.s__ListFn_1 V__ROW11) (tptp.s__ListFn_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26))) (tptp.s__contraryAttribute_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26))) (forall ((V__ROW27 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW26 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_1 V__ROW11) (tptp.s__identicalListItems (tptp.s__ListFn_1 V__ROW11) (tptp.s__ListFn_7 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26 V__ROW27))) (tptp.s__contraryAttribute_7 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26 V__ROW27))) (forall ((V__ROW12 $$unsorted) (V__ROW11 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__contraryAttribute_2 V__ROW11 V__ROW12) (tptp.s__identicalListItems (tptp.s__ListFn_2 V__ROW11 V__ROW12) (tptp.s__ListFn_1 V__ROW21))) (tptp.s__contraryAttribute_1 V__ROW21))) (forall ((V__ROW12 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__contraryAttribute_2 V__ROW11 V__ROW12) (tptp.s__identicalListItems (tptp.s__ListFn_2 V__ROW11 V__ROW12) (tptp.s__ListFn_2 V__ROW21 V__ROW22))) (tptp.s__contraryAttribute_2 V__ROW21 V__ROW22))) (forall ((V__ROW12 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_2 V__ROW11 V__ROW12) (tptp.s__identicalListItems (tptp.s__ListFn_2 V__ROW11 V__ROW12) (tptp.s__ListFn_3 V__ROW21 V__ROW22 V__ROW23))) (tptp.s__contraryAttribute_3 V__ROW21 V__ROW22 V__ROW23))) (forall ((V__ROW12 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_2 V__ROW11 V__ROW12) (tptp.s__identicalListItems (tptp.s__ListFn_2 V__ROW11 V__ROW12) (tptp.s__ListFn_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24))) (tptp.s__contraryAttribute_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24))) (forall ((V__ROW12 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_2 V__ROW11 V__ROW12) (tptp.s__identicalListItems (tptp.s__ListFn_2 V__ROW11 V__ROW12) (tptp.s__ListFn_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25))) (tptp.s__contraryAttribute_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25))) (forall ((V__ROW12 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW26 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_2 V__ROW11 V__ROW12) (tptp.s__identicalListItems (tptp.s__ListFn_2 V__ROW11 V__ROW12) (tptp.s__ListFn_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26))) (tptp.s__contraryAttribute_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26))) (forall ((V__ROW27 $$unsorted) (V__ROW12 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW26 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_2 V__ROW11 V__ROW12) (tptp.s__identicalListItems (tptp.s__ListFn_2 V__ROW11 V__ROW12) (tptp.s__ListFn_7 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26 V__ROW27))) (tptp.s__contraryAttribute_7 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26 V__ROW27))) (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW11 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__contraryAttribute_3 V__ROW11 V__ROW12 V__ROW13) (tptp.s__identicalListItems (tptp.s__ListFn_3 V__ROW11 V__ROW12 V__ROW13) (tptp.s__ListFn_1 V__ROW21))) (tptp.s__contraryAttribute_1 V__ROW21))) (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__contraryAttribute_3 V__ROW11 V__ROW12 V__ROW13) (tptp.s__identicalListItems (tptp.s__ListFn_3 V__ROW11 V__ROW12 V__ROW13) (tptp.s__ListFn_2 V__ROW21 V__ROW22))) (tptp.s__contraryAttribute_2 V__ROW21 V__ROW22))) (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_3 V__ROW11 V__ROW12 V__ROW13) (tptp.s__identicalListItems (tptp.s__ListFn_3 V__ROW11 V__ROW12 V__ROW13) (tptp.s__ListFn_3 V__ROW21 V__ROW22 V__ROW23))) (tptp.s__contraryAttribute_3 V__ROW21 V__ROW22 V__ROW23))) (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_3 V__ROW11 V__ROW12 V__ROW13) (tptp.s__identicalListItems (tptp.s__ListFn_3 V__ROW11 V__ROW12 V__ROW13) (tptp.s__ListFn_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24))) (tptp.s__contraryAttribute_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24))) (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_3 V__ROW11 V__ROW12 V__ROW13) (tptp.s__identicalListItems (tptp.s__ListFn_3 V__ROW11 V__ROW12 V__ROW13) (tptp.s__ListFn_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25))) (tptp.s__contraryAttribute_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25))) (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW26 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_3 V__ROW11 V__ROW12 V__ROW13) (tptp.s__identicalListItems (tptp.s__ListFn_3 V__ROW11 V__ROW12 V__ROW13) (tptp.s__ListFn_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26))) (tptp.s__contraryAttribute_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26))) (forall ((V__ROW27 $$unsorted) (V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW26 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_3 V__ROW11 V__ROW12 V__ROW13) (tptp.s__identicalListItems (tptp.s__ListFn_3 V__ROW11 V__ROW12 V__ROW13) (tptp.s__ListFn_7 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26 V__ROW27))) (tptp.s__contraryAttribute_7 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26 V__ROW27))) (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW14 $$unsorted) (V__ROW11 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__contraryAttribute_4 V__ROW11 V__ROW12 V__ROW13 V__ROW14) (tptp.s__identicalListItems (tptp.s__ListFn_4 V__ROW11 V__ROW12 V__ROW13 V__ROW14) (tptp.s__ListFn_1 V__ROW21))) (tptp.s__contraryAttribute_1 V__ROW21))) (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW14 $$unsorted) 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V__NUMBER2)) (not (= V__NUMBER1 V__NUMBER2))) (=> (tptp.s__property V__OBJ V__ATTR1) (not (tptp.s__property V__OBJ V__ATTR2))))))))) (forall ((V__OBJ $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__NUMBER2 $$unsorted) (V__ROW7 $$unsorted) (V__NUMBER1 $$unsorted)) (=> (tptp.s__contraryAttribute_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7) (forall ((V__ATTR1 $$unsorted) (V__ATTR2 $$unsorted)) (let ((_let_1 (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7))) (=> (and (tptp.s__instance V__ATTR2 tptp.s__Attribute) (tptp.s__instance V__ATTR1 tptp.s__Attribute) (tptp.s__instance V__NUMBER1 tptp.s__PositiveInteger) (tptp.s__instance V__NUMBER2 tptp.s__PositiveInteger)) (=> (and (= V__ATTR1 (tptp.s__ListOrderFn _let_1 V__NUMBER1)) (= V__ATTR2 (tptp.s__ListOrderFn _let_1 V__NUMBER2)) (not (= V__NUMBER1 V__NUMBER2))) (=> (tptp.s__property V__OBJ V__ATTR1) (not (tptp.s__property V__OBJ V__ATTR2))))))))) (tptp.s__instance tptp.s__exhaustiveAttribute__m tptp.s__Predicate) (tptp.s__instance tptp.s__exhaustiveAttribute__m tptp.s__VariableArityRelation) (tptp.s__domainSubclass tptp.s__exhaustiveAttribute__m |"1"| tptp.s__Attribute) (tptp.s__documentation tptp.s__exhaustiveAttribute__m tptp.s__EnglishLanguage |tptp.'This predicate relates a &%Class to a set of &%Attributes, and it means that the elements of this set exhaust the instances of the &%Class. For example, (&%exhaustiveAttribute &%PhysicalState &%Solid &%Fluid &%Liquid &%Gas &%Plasma) means that there are only five instances of the class &%PhysicalState, viz. &%Solid, &%Fluid, &%Liquid, &%Gas and &%Plasma.'|) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ATTR $$unsorted)) (=> (and (tptp.s__subclass V__CLASS tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__exhaustiveAttribute_2 V__CLASS V__ROW1) (=> (tptp.s__inList V__ATTR (tptp.s__ListFn_1 V__ROW1)) (tptp.s__instance V__ATTR tptp.s__Attribute))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ATTR $$unsorted)) (=> (and (tptp.s__subclass V__CLASS tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__exhaustiveAttribute_3 V__CLASS V__ROW1 V__ROW2) (=> (tptp.s__inList V__ATTR (tptp.s__ListFn_2 V__ROW1 V__ROW2)) (tptp.s__instance V__ATTR tptp.s__Attribute))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ATTR $$unsorted)) (=> (and (tptp.s__subclass V__CLASS tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__exhaustiveAttribute_4 V__CLASS V__ROW1 V__ROW2 V__ROW3) (=> (tptp.s__inList V__ATTR (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) (tptp.s__instance V__ATTR tptp.s__Attribute))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ATTR $$unsorted) (V__ROW4 $$unsorted)) (=> (and (tptp.s__subclass V__CLASS tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__exhaustiveAttribute_5 V__CLASS V__ROW1 V__ROW2 V__ROW3 V__ROW4) (=> (tptp.s__inList V__ATTR (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4)) (tptp.s__instance V__ATTR tptp.s__Attribute))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ATTR $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted)) (=> (and (tptp.s__subclass V__CLASS tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__exhaustiveAttribute_6 V__CLASS V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) (=> (tptp.s__inList V__ATTR (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5)) (tptp.s__instance V__ATTR tptp.s__Attribute))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ATTR $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted)) (=> (and (tptp.s__subclass V__CLASS tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__exhaustiveAttribute_7 V__CLASS V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) (=> (tptp.s__inList V__ATTR (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6)) (tptp.s__instance V__ATTR tptp.s__Attribute))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ATTR $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ROW7 $$unsorted)) (=> (and (tptp.s__subclass V__CLASS tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__exhaustiveAttribute_8 V__CLASS V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7) (=> (tptp.s__inList V__ATTR (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7)) (tptp.s__instance V__ATTR tptp.s__Attribute))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted)) (=> (tptp.s__exhaustiveAttribute_2 V__CLASS V__ROW1) (forall ((V__ATTR1 $$unsorted)) (=> (and (tptp.s__subclass V__CLASS tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__ATTR1 V__CLASS) (exists ((V__ATTR2 $$unsorted)) (and (tptp.s__inList V__ATTR2 (tptp.s__ListFn_1 V__ROW1)) (= V__ATTR1 V__ATTR2)))))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__exhaustiveAttribute_3 V__CLASS V__ROW1 V__ROW2) (forall ((V__ATTR1 $$unsorted)) (=> (and (tptp.s__subclass V__CLASS tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__ATTR1 V__CLASS) (exists ((V__ATTR2 $$unsorted)) (and (tptp.s__inList V__ATTR2 (tptp.s__ListFn_2 V__ROW1 V__ROW2)) (= V__ATTR1 V__ATTR2)))))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (tptp.s__exhaustiveAttribute_4 V__CLASS V__ROW1 V__ROW2 V__ROW3) (forall ((V__ATTR1 $$unsorted)) (=> (and (tptp.s__subclass V__CLASS tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__ATTR1 V__CLASS) (exists ((V__ATTR2 $$unsorted)) (and (tptp.s__inList V__ATTR2 (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) (= V__ATTR1 V__ATTR2)))))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted)) (=> (tptp.s__exhaustiveAttribute_5 V__CLASS V__ROW1 V__ROW2 V__ROW3 V__ROW4) (forall ((V__ATTR1 $$unsorted)) (=> (and (tptp.s__subclass V__CLASS tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__ATTR1 V__CLASS) (exists ((V__ATTR2 $$unsorted)) (and (tptp.s__inList V__ATTR2 (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4)) (= V__ATTR1 V__ATTR2)))))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted)) (=> (tptp.s__exhaustiveAttribute_6 V__CLASS V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) (forall ((V__ATTR1 $$unsorted)) (=> (and (tptp.s__subclass V__CLASS tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__ATTR1 V__CLASS) (exists ((V__ATTR2 $$unsorted)) (and (tptp.s__inList V__ATTR2 (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5)) (= V__ATTR1 V__ATTR2)))))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted)) (=> (tptp.s__exhaustiveAttribute_7 V__CLASS V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) (forall ((V__ATTR1 $$unsorted)) (=> (and (tptp.s__subclass V__CLASS tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__ATTR1 V__CLASS) (exists ((V__ATTR2 $$unsorted)) (and (tptp.s__inList V__ATTR2 (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6)) (= V__ATTR1 V__ATTR2)))))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ROW7 $$unsorted)) (=> (tptp.s__exhaustiveAttribute_8 V__CLASS V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7) (forall ((V__ATTR1 $$unsorted)) (=> (and (tptp.s__subclass V__CLASS tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__ATTR1 V__CLASS) (exists ((V__ATTR2 $$unsorted)) (and (tptp.s__inList V__ATTR2 (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7)) (= V__ATTR1 V__ATTR2)))))))) (forall ((V__ROW1 $$unsorted) (V__ATTRCLASS $$unsorted)) (=> (and (tptp.s__subclass V__ATTRCLASS tptp.s__Attribute) (tptp.s__instance V__ATTRCLASS tptp.s__SetOrClass)) (=> (tptp.s__exhaustiveAttribute_2 V__ATTRCLASS V__ROW1) (not (exists ((V__EL $$unsorted)) (and (tptp.s__instance V__EL V__ATTRCLASS) (not (exists ((V__ATTR $$unsorted) (V__NUMBER $$unsorted)) (and (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= V__EL V__ATTR) (= V__ATTR (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW1) V__NUMBER))))))))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ATTRCLASS $$unsorted)) (=> (and (tptp.s__subclass V__ATTRCLASS tptp.s__Attribute) (tptp.s__instance V__ATTRCLASS tptp.s__SetOrClass)) (=> (tptp.s__exhaustiveAttribute_3 V__ATTRCLASS V__ROW1 V__ROW2) (not (exists ((V__EL $$unsorted)) (and (tptp.s__instance V__EL V__ATTRCLASS) (not (exists ((V__ATTR $$unsorted) (V__NUMBER $$unsorted)) (and (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= V__EL V__ATTR) (= V__ATTR (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) V__NUMBER))))))))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ATTRCLASS $$unsorted)) (=> (and (tptp.s__subclass V__ATTRCLASS tptp.s__Attribute) (tptp.s__instance V__ATTRCLASS tptp.s__SetOrClass)) (=> (tptp.s__exhaustiveAttribute_4 V__ATTRCLASS V__ROW1 V__ROW2 V__ROW3) (not (exists ((V__EL $$unsorted)) (and (tptp.s__instance V__EL V__ATTRCLASS) (not (exists ((V__ATTR $$unsorted) (V__NUMBER $$unsorted)) (and (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= V__EL V__ATTR) (= V__ATTR (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) V__NUMBER))))))))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ATTRCLASS $$unsorted)) (=> (and (tptp.s__subclass V__ATTRCLASS tptp.s__Attribute) (tptp.s__instance V__ATTRCLASS tptp.s__SetOrClass)) (=> (tptp.s__exhaustiveAttribute_5 V__ATTRCLASS V__ROW1 V__ROW2 V__ROW3 V__ROW4) (not (exists ((V__EL $$unsorted)) (and (tptp.s__instance V__EL V__ATTRCLASS) (not (exists ((V__ATTR $$unsorted) (V__NUMBER $$unsorted)) (and (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= V__EL V__ATTR) (= V__ATTR (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4) V__NUMBER))))))))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ATTRCLASS $$unsorted)) (=> (and (tptp.s__subclass V__ATTRCLASS tptp.s__Attribute) (tptp.s__instance V__ATTRCLASS tptp.s__SetOrClass)) (=> (tptp.s__exhaustiveAttribute_6 V__ATTRCLASS V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) (not (exists ((V__EL $$unsorted)) (and (tptp.s__instance V__EL V__ATTRCLASS) (not (exists ((V__ATTR $$unsorted) (V__NUMBER $$unsorted)) (and (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= V__EL V__ATTR) (= V__ATTR (tptp.s__ListOrderFn (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) V__NUMBER))))))))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ATTRCLASS $$unsorted)) (=> (and (tptp.s__subclass V__ATTRCLASS tptp.s__Attribute) (tptp.s__instance V__ATTRCLASS tptp.s__SetOrClass)) (=> (tptp.s__exhaustiveAttribute_7 V__ATTRCLASS V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) (not (exists ((V__EL $$unsorted)) (and (tptp.s__instance V__EL V__ATTRCLASS) (not (exists ((V__ATTR $$unsorted) (V__NUMBER $$unsorted)) (and (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= V__EL V__ATTR) (= V__ATTR (tptp.s__ListOrderFn (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) V__NUMBER))))))))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ROW7 $$unsorted) (V__ATTRCLASS $$unsorted)) (=> (and (tptp.s__subclass V__ATTRCLASS tptp.s__Attribute) (tptp.s__instance V__ATTRCLASS tptp.s__SetOrClass)) (=> (tptp.s__exhaustiveAttribute_8 V__ATTRCLASS V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7) (not (exists ((V__EL $$unsorted)) (and (tptp.s__instance V__EL V__ATTRCLASS) (not (exists ((V__ATTR $$unsorted) (V__NUMBER $$unsorted)) (and (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= V__EL V__ATTR) (= V__ATTR (tptp.s__ListOrderFn (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7) V__NUMBER))))))))))) (tptp.s__instance tptp.s__exhaustiveDecomposition__m tptp.s__Predicate) (tptp.s__instance tptp.s__exhaustiveDecomposition__m tptp.s__VariableArityRelation) (tptp.s__domain tptp.s__exhaustiveDecomposition__m |"1"| tptp.s__Class) (tptp.s__relatedInternalConcept tptp.s__exhaustiveDecomposition__m tptp.s__partition__m) (tptp.s__documentation tptp.s__exhaustiveDecomposition__m tptp.s__EnglishLanguage |tptp.'An &%exhaustiveDecomposition of a &%Class C is a set of subclasses of C such that every instance of C is an instance of one of the subclasses in the set. Note: this does not necessarily mean that the elements of the set are disjoint (see &%partition - a &%partition is a disjoint exhaustive decomposition).'|) (forall ((V__ROW1 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__exhaustiveDecomposition_1 V__ROW1) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_1 V__ROW1)) (tptp.s__instance V__ELEMENT tptp.s__Class))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__exhaustiveDecomposition_2 V__ROW1 V__ROW2) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_2 V__ROW1 V__ROW2)) (tptp.s__instance V__ELEMENT tptp.s__Class))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__exhaustiveDecomposition_3 V__ROW1 V__ROW2 V__ROW3) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) (tptp.s__instance V__ELEMENT tptp.s__Class))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__exhaustiveDecomposition_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4)) (tptp.s__instance V__ELEMENT tptp.s__Class))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__exhaustiveDecomposition_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5)) (tptp.s__instance V__ELEMENT tptp.s__Class))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__exhaustiveDecomposition_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6)) (tptp.s__instance V__ELEMENT tptp.s__Class))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ROW7 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__exhaustiveDecomposition_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7)) (tptp.s__instance V__ELEMENT tptp.s__Class))))) (tptp.s__instance tptp.s__disjointDecomposition__m tptp.s__Predicate) (tptp.s__instance tptp.s__disjointDecomposition__m tptp.s__VariableArityRelation) (tptp.s__domain tptp.s__disjointDecomposition__m |"1"| tptp.s__Class) (tptp.s__relatedInternalConcept tptp.s__disjointDecomposition__m tptp.s__exhaustiveDecomposition__m) (tptp.s__relatedInternalConcept tptp.s__disjointDecomposition__m tptp.s__disjoint__m) (tptp.s__documentation tptp.s__disjointDecomposition__m tptp.s__EnglishLanguage |tptp.'A &%disjointDecomposition of a &%Class C is a set of subclasses of C that are mutually &%disjoint.'|) (forall ((V__ROW1 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__disjointDecomposition_1 V__ROW1) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_1 V__ROW1)) (tptp.s__instance V__ELEMENT tptp.s__Class))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__disjointDecomposition_2 V__ROW1 V__ROW2) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_2 V__ROW1 V__ROW2)) (tptp.s__instance V__ELEMENT tptp.s__Class))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__disjointDecomposition_3 V__ROW1 V__ROW2 V__ROW3) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) (tptp.s__instance V__ELEMENT tptp.s__Class))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__disjointDecomposition_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4)) (tptp.s__instance V__ELEMENT tptp.s__Class))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__disjointDecomposition_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5)) (tptp.s__instance V__ELEMENT tptp.s__Class))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__disjointDecomposition_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6)) (tptp.s__instance V__ELEMENT tptp.s__Class))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ROW7 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__disjointDecomposition_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7)) (tptp.s__instance V__ELEMENT tptp.s__Class))))) (tptp.s__instance tptp.s__partition__m tptp.s__Predicate) (tptp.s__instance tptp.s__partition__m tptp.s__VariableArityRelation) (tptp.s__domain tptp.s__partition__m |"1"| tptp.s__Class) (tptp.s__documentation tptp.s__partition__m tptp.s__EnglishLanguage |tptp.'A &%partition of a class C is a set of mutually &%disjoint classes (a subclass partition) which covers C. Every instance of C is an instance of exactly one of the subclasses in the partition.'|) (forall ((V__ROW1 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (= (tptp.s__partition_1 V__ROW1) (and (tptp.s__exhaustiveDecomposition_1 V__ROW1) (tptp.s__disjointDecomposition_1 V__ROW1))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (= (tptp.s__partition_2 V__ROW1 V__ROW2) (and (tptp.s__exhaustiveDecomposition_2 V__ROW1 V__ROW2) (tptp.s__disjointDecomposition_2 V__ROW1 V__ROW2))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (= (tptp.s__partition_3 V__ROW1 V__ROW2 V__ROW3) (and (tptp.s__exhaustiveDecomposition_3 V__ROW1 V__ROW2 V__ROW3) (tptp.s__disjointDecomposition_3 V__ROW1 V__ROW2 V__ROW3))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (= (tptp.s__partition_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4) (and (tptp.s__exhaustiveDecomposition_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4) (tptp.s__disjointDecomposition_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (= (tptp.s__partition_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) (and (tptp.s__exhaustiveDecomposition_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) (tptp.s__disjointDecomposition_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (= (tptp.s__partition_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) (and (tptp.s__exhaustiveDecomposition_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) (tptp.s__disjointDecomposition_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ROW7 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (= (tptp.s__partition_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7) (and (tptp.s__exhaustiveDecomposition_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7) (tptp.s__disjointDecomposition_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7))))) (tptp.s__instance tptp.s__relatedInternalConcept__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__relatedInternalConcept__m tptp.s__EquivalenceRelation) (tptp.s__domain tptp.s__relatedInternalConcept__m |"1"| tptp.s__Entity) (tptp.s__domain tptp.s__relatedInternalConcept__m |"2"| tptp.s__Entity) (tptp.s__documentation tptp.s__relatedInternalConcept__m tptp.s__EnglishLanguage |tptp.'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.'|) (tptp.s__instance tptp.s__relatedExternalConcept__m tptp.s__TernaryPredicate) (tptp.s__domain tptp.s__relatedExternalConcept__m |"1"| tptp.s__SymbolicString) (tptp.s__domain tptp.s__relatedExternalConcept__m |"2"| tptp.s__Entity) (tptp.s__domain tptp.s__relatedExternalConcept__m |"3"| tptp.s__Language) (tptp.s__relatedInternalConcept tptp.s__relatedExternalConcept__m tptp.s__relatedInternalConcept__m) (tptp.s__documentation tptp.s__relatedExternalConcept__m tptp.s__EnglishLanguage |tptp.'Used to signify a three-place relation between a concept in an external knowledge source, a concept in the SUMO, and the name of the other knowledge source.'|) (tptp.s__subrelation tptp.s__synonymousExternalConcept__m tptp.s__relatedExternalConcept__m) (tptp.s__disjointRelation tptp.s__synonymousExternalConcept__m tptp.s__subsumedExternalConcept__m) (tptp.s__disjointRelation tptp.s__synonymousExternalConcept__m tptp.s__subsumingExternalConcept__m) (tptp.s__disjointRelation tptp.s__subsumedExternalConcept__m tptp.s__subsumingExternalConcept__m) (tptp.s__documentation tptp.s__synonymousExternalConcept__m tptp.s__EnglishLanguage |tptp.'(&%synonymousExternalConcept ?STRING ?THING ?LANGUAGE) means that the SUMO concept ?THING has the same meaning as ?STRING in ?LANGUAGE.'|) (tptp.s__subrelation tptp.s__subsumingExternalConcept__m tptp.s__relatedExternalConcept__m) (tptp.s__documentation tptp.s__subsumingExternalConcept__m tptp.s__EnglishLanguage |tptp.'(&%subsumingExternalConcept ?STRING ?THING ?LANGUAGE) means that the SUMO concept ?THING subsumes the meaning of ?STRING in ?LANGUAGE, i.e. the concept ?THING is broader in meaning than ?STRING.'|) (tptp.s__subrelation tptp.s__subsumedExternalConcept__m tptp.s__relatedExternalConcept__m) (tptp.s__documentation tptp.s__subsumedExternalConcept__m tptp.s__EnglishLanguage |tptp.'(&%subsumedExternalConcept ?STRING ?THING ?LANGUAGE) means that the SUMO concept ?THING is subsumed by the meaning of ?STRING in ?LANGUAGE, i.e. the concept ?THING is narrower in meaning than ?STRING.'|) (tptp.s__instance tptp.s__externalImage__m tptp.s__BinaryPredicate) (tptp.s__documentation tptp.s__externalImage__m tptp.s__EnglishLanguage |tptp.'A link between an Entity and a URL that represents or exemplifies the term in some way.'|) (tptp.s__domain tptp.s__externalImage__m |"1"| tptp.s__Entity) (tptp.s__domain tptp.s__externalImage__m |"2"| tptp.s__SymbolicString) (tptp.s__instance tptp.s__subAttribute__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__subAttribute__m tptp.s__PartialOrderingRelation) (tptp.s__domain tptp.s__subAttribute__m |"1"| tptp.s__Attribute) (tptp.s__domain tptp.s__subAttribute__m |"2"| tptp.s__Attribute) (tptp.s__disjointRelation tptp.s__subAttribute__m tptp.s__successorAttribute__m) (tptp.s__documentation tptp.s__subAttribute__m tptp.s__EnglishLanguage |tptp.'Means that the second argument can be ascribed to everything which has the first argument ascribed to it.'|) (forall ((V__ATTR2 $$unsorted) (V__ATTR1 $$unsorted)) (=> (tptp.s__subAttribute V__ATTR1 V__ATTR2) (forall ((V__OBJ $$unsorted)) (=> (and (tptp.s__instance V__ATTR1 tptp.s__Attribute) (tptp.s__instance V__ATTR2 tptp.s__Attribute)) (=> (tptp.s__property V__OBJ V__ATTR1) (tptp.s__property V__OBJ V__ATTR2)))))) (forall ((V__CLASS $$unsorted) (V__ATTR2 $$unsorted) (V__ATTR1 $$unsorted)) (=> (and (tptp.s__instance V__ATTR1 tptp.s__Attribute) (tptp.s__instance V__ATTR2 tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (and (tptp.s__subAttribute V__ATTR1 V__ATTR2) (tptp.s__instance V__ATTR2 V__CLASS)) (tptp.s__instance V__ATTR1 V__CLASS)))) (tptp.s__instance tptp.s__successorAttribute__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__successorAttribute__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__successorAttribute__m |"1"| tptp.s__Attribute) (tptp.s__domain tptp.s__successorAttribute__m |"2"| tptp.s__Attribute) (tptp.s__documentation tptp.s__successorAttribute__m tptp.s__EnglishLanguage |tptp.'(&%successorAttribute ?ATTR1 ?ATTR2) means that ?ATTR2 is the &%Attribute that comes immediately after ?ATTR1 on the scale that they share.'|) (tptp.s__instance tptp.s__successorAttributeClosure__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__successorAttributeClosure__m tptp.s__TransitiveRelation) (tptp.s__instance tptp.s__successorAttributeClosure__m tptp.s__IrreflexiveRelation) (tptp.s__domain tptp.s__successorAttributeClosure__m |"1"| tptp.s__Attribute) (tptp.s__domain tptp.s__successorAttributeClosure__m |"2"| tptp.s__Attribute) (tptp.s__relatedInternalConcept tptp.s__successorAttributeClosure__m tptp.s__successorAttribute__m) (tptp.s__documentation tptp.s__successorAttributeClosure__m tptp.s__EnglishLanguage |tptp.'The transitive closure of &%successorAttribute. (&%successorAttributeClosure ?ATTR1 ?ATTR2) means that there is a chain of &%successorAttribute assertions connecting ?ATTR1 and ?ATTR2.'|) (forall ((V__ATTR2 $$unsorted) (V__ATTR1 $$unsorted)) (=> (and (tptp.s__instance V__ATTR1 tptp.s__Attribute) (tptp.s__instance V__ATTR2 tptp.s__Attribute)) (=> (tptp.s__successorAttribute V__ATTR1 V__ATTR2) (tptp.s__successorAttributeClosure V__ATTR1 V__ATTR2)))) (tptp.s__instance tptp.s__greaterThanByQuality__m tptp.s__TernaryPredicate) (tptp.s__documentation tptp.s__greaterThanByQuality__m tptp.s__EnglishLanguage |tptp.'(greaterThanByQuality ?ENTITY1 ?ENTITY2 ?ATT) means that ?ENTITY1 has more of the given quality ?ATT than ?ENTITY2)'|) (tptp.s__domain tptp.s__greaterThanByQuality__m |"1"| tptp.s__Entity) (tptp.s__domain tptp.s__greaterThanByQuality__m |"2"| tptp.s__Entity) (tptp.s__domain tptp.s__greaterThanByQuality__m |"3"| tptp.s__Attribute) (forall ((V__E3 $$unsorted) (V__E2 $$unsorted) (V__ATT $$unsorted) (V__E1 $$unsorted)) (=> (tptp.s__instance V__ATT tptp.s__Attribute) (=> (and (tptp.s__greaterThanByQuality V__E1 V__E2 V__ATT) (tptp.s__greaterThanByQuality V__E2 V__E3 V__ATT)) (tptp.s__greaterThanByQuality V__E1 V__E3 V__ATT)))) (forall ((V__E2 $$unsorted) (V__ATT $$unsorted) (V__E1 $$unsorted)) (=> (tptp.s__instance V__ATT tptp.s__Attribute) (=> (tptp.s__greaterThanByQuality V__E1 V__E2 V__ATT) (not (tptp.s__greaterThanByQuality V__E2 V__E1 V__ATT))))) (forall ((V__E2 $$unsorted) (V__ATT $$unsorted) (V__E1 $$unsorted)) (=> (tptp.s__instance V__ATT tptp.s__Attribute) (=> (tptp.s__greaterThanByQuality V__E1 V__E2 V__ATT) (not (= V__E2 V__E1))))) (tptp.s__instance tptp.s__entails__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__entails__m |"1"| tptp.s__Formula) (tptp.s__domain tptp.s__entails__m |"2"| tptp.s__Formula) (tptp.s__documentation tptp.s__entails__m tptp.s__EnglishLanguage |tptp.'The operator of logical entailment. (&%entails ?FORMULA1 ?FORMULA2) means that ?FORMULA2 can be derived from ?FORMULA1 by means of the proof theory of SUO-KIF.'|) (tptp.s__instance tptp.s__AssignmentFn__m tptp.s__Function) _let_13 (tptp.s__instance tptp.s__AssignmentFn__m tptp.s__VariableArityRelation) (tptp.s__domain tptp.s__AssignmentFn__m |"1"| tptp.s__Function) (tptp.s__range tptp.s__AssignmentFn__m tptp.s__Entity) (tptp.s__documentation tptp.s__AssignmentFn__m tptp.s__EnglishLanguage |tptp.'If F is a &%Function with a value for the objects denoted by N1,..., NK, then (&%AssignmentFn F N1 ... NK) is the value of applying F to the objects denoted by N1,..., NK. Otherwise, the value is undefined.'|) (tptp.s__instance tptp.s__PowerSetFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__PowerSetFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__PowerSetFn__m |"1"| tptp.s__SetOrClass) (tptp.s__rangeSubclass tptp.s__PowerSetFn__m tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PowerSetFn__m tptp.s__EnglishLanguage |tptp.'(&%PowerSetFn ?CLASS) maps the &%SetOrClass ?CLASS to the &%SetOrClass of all &%subclasses of ?CLASS.'|) (tptp.s__partition_3 tptp.s__Entity tptp.s__Physical tptp.s__Abstract) (tptp.s__documentation tptp.s__Entity tptp.s__EnglishLanguage |tptp.'The universal class of individuals. This is the root node of the ontology.'|) (forall ((V__THING $$unsorted)) (tptp.s__instance V__THING tptp.s__Entity)) (exists ((V__THING $$unsorted)) (tptp.s__instance V__THING tptp.s__Entity)) (forall ((V__CLASS $$unsorted)) (=> (tptp.s__instance V__CLASS tptp.s__SetOrClass) (= (tptp.s__instance V__CLASS tptp.s__Class) (tptp.s__subclass V__CLASS tptp.s__Entity)))) (tptp.s__subclass tptp.s__Physical tptp.s__Entity) (tptp.s__instance tptp.s__Physical__t tptp.s__SetOrClass) (tptp.s__partition_3 tptp.s__Physical tptp.s__Object tptp.s__Process) (tptp.s__documentation tptp.s__Physical tptp.s__EnglishLanguage |tptp.'An entity that has a location in space-time. Note that locations are themselves understood to have a location in space-time.'|) (forall ((V__PHYS $$unsorted)) (= (tptp.s__instance V__PHYS tptp.s__Physical) (exists ((V__LOC $$unsorted) (V__TIME $$unsorted)) (and (tptp.s__instance V__TIME tptp.s__TimePosition) (tptp.s__instance V__LOC tptp.s__Object) (tptp.s__located V__PHYS V__LOC) (tptp.s__time V__PHYS V__TIME))))) (tptp.s__subclass tptp.s__Object tptp.s__Physical) (tptp.s__documentation tptp.s__Object tptp.s__EnglishLanguage |tptp.'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.'|) (tptp.s__subclass tptp.s__SelfConnectedObject tptp.s__Object) (tptp.s__instance tptp.s__SelfConnectedObject__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SelfConnectedObject tptp.s__EnglishLanguage |tptp.'A &%SelfConnectedObject is any &%Object that does not consist of two or more disconnected parts.'|) (tptp.s__subclass tptp.s__OrganicThing tptp.s__SelfConnectedObject) (tptp.s__documentation tptp.s__OrganicThing tptp.s__EnglishLanguage |tptp.'A &%SelfConnectedObject that is produced by a non-intentional process from an &%Organism. Note that this refers only to the primary cause. That is, a &%PlantAgriculturalProduct is firstly produced by a &%Plant, and only secondarily by a &%Human that is tending the plant.'|) (tptp.s__instance tptp.s__FrontFn__m tptp.s__SpatialRelation) (tptp.s__instance tptp.s__SpatialRelation__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__FrontFn__m tptp.s__PartialValuedRelation) (tptp.s__instance tptp.s__FrontFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__FrontFn__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__FrontFn__m tptp.s__IrreflexiveRelation) (tptp.s__domain tptp.s__FrontFn__m |"1"| tptp.s__SelfConnectedObject) (tptp.s__range tptp.s__FrontFn__m tptp.s__SelfConnectedObject) (tptp.s__documentation tptp.s__FrontFn__m tptp.s__EnglishLanguage |tptp.'A &%Function that maps an &%Object to the side that generally receives the most attention or that typically faces the direction in which the &%Object moves. Note that this is a partial function, since some &%Objects do not have sides, e.g. apples and spheres. Note too that the &%range of this &%Function is indefinite in much the way that &%ImmediateFutureFn and &%ImmediatePastFn are indefinite. Although this indefiniteness is undesirable from a theoretical standpoint, it does not have significant practical implications, since there is widespread intersubjective agreement about the most common cases.'|) (forall ((V__OBJ $$unsorted)) (=> (tptp.s__instance V__OBJ tptp.s__SelfConnectedObject) (tptp.s__side (tptp.s__FrontFn V__OBJ) V__OBJ))) (tptp.s__instance tptp.s__BackFn__m tptp.s__SpatialRelation) (tptp.s__instance tptp.s__BackFn__m tptp.s__PartialValuedRelation) _let_12 (tptp.s__instance tptp.s__BackFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__BackFn__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__BackFn__m tptp.s__IrreflexiveRelation) (tptp.s__domain tptp.s__BackFn__m |"1"| tptp.s__SelfConnectedObject) (tptp.s__range tptp.s__BackFn__m tptp.s__SelfConnectedObject) (tptp.s__documentation tptp.s__BackFn__m tptp.s__EnglishLanguage |tptp.'A &%Function that maps an &%Object to the side that is opposite the &%FrontFn of the &%Object. Note that this is a partial function, since some &%Objects do not have sides, e.g. apples and spheres. Note too that the &%range of this &%Function is indefinite in much the way that &%ImmediateFutureFn and &%ImmediatePastFn are indefinite. Although this indefiniteness is undesirable from a theoretical standpoint, it does not have significant practical implications, since there is widespread intersubjective agreement about the most common cases.'|) (forall ((V__OBJ $$unsorted)) (=> (tptp.s__instance V__OBJ tptp.s__SelfConnectedObject) (tptp.s__side (tptp.s__BackFn V__OBJ) V__OBJ))) (tptp.s__instance tptp.s__part__m tptp.s__SpatialRelation) (tptp.s__instance tptp.s__part__m tptp.s__PartialOrderingRelation) (tptp.s__domain tptp.s__part__m |"1"| tptp.s__Object) (tptp.s__domain tptp.s__part__m |"2"| tptp.s__Object) (tptp.s__documentation tptp.s__part__m tptp.s__EnglishLanguage |tptp.'The basic mereological relation. All other mereological relations are defined in terms of this one. (&%part ?PART ?WHOLE) simply means that the &%Object ?PART is part of the &%Object ?WHOLE. Note that, since &%part is a &%ReflexiveRelation, every &%Object is a part of itself.'|) (tptp.s__instance tptp.s__properPart__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__properPart__m tptp.s__TransitiveRelation) (tptp.s__subrelation tptp.s__properPart__m tptp.s__part__m) (tptp.s__documentation tptp.s__properPart__m tptp.s__EnglishLanguage |tptp.'(&%properPart ?OBJ1 ?OBJ2) means that ?OBJ1 is a part of ?OBJ2 other than ?OBJ2 itself. This is a &%TransitiveRelation and &%AsymmetricRelation (hence an &%IrreflexiveRelation).'|) (forall ((V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__Object)) (= (tptp.s__properPart V__OBJ1 V__OBJ2) (and (tptp.s__part V__OBJ1 V__OBJ2) (not (tptp.s__part V__OBJ2 V__OBJ1)))))) (tptp.s__subrelation tptp.s__piece__m tptp.s__part__m) (tptp.s__domain tptp.s__piece__m |"1"| tptp.s__Substance) (tptp.s__domain tptp.s__piece__m |"2"| tptp.s__Substance) (tptp.s__documentation tptp.s__piece__m tptp.s__EnglishLanguage |tptp.'A specialized common sense notion of part for arbitrary parts of &%Substances. Quasi-synonyms are: chunk, hunk, bit, etc. Compare &%component, another subrelation of &%part.'|) (forall ((V__SUBSTANCE1 $$unsorted) (V__SUBSTANCE2 $$unsorted)) (=> (tptp.s__piece V__SUBSTANCE1 V__SUBSTANCE2) (forall ((V__CLASS $$unsorted)) (=> (and (tptp.s__instance V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__SUBSTANCE2 tptp.s__Substance) (tptp.s__instance V__SUBSTANCE1 tptp.s__Substance)) (=> (tptp.s__instance V__SUBSTANCE1 V__CLASS) (tptp.s__instance V__SUBSTANCE2 V__CLASS)))))) (tptp.s__subrelation tptp.s__component__m tptp.s__part__m) (tptp.s__domain tptp.s__component__m |"1"| tptp.s__CorpuscularObject) (tptp.s__domain tptp.s__component__m |"2"| tptp.s__CorpuscularObject) (tptp.s__documentation tptp.s__component__m tptp.s__EnglishLanguage |tptp.'A specialized common sense notion of part for heterogeneous parts of complexes. (&%component ?COMPONENT ?WHOLE) means that ?COMPONENT is a component of ?WHOLE. Examples of component include the doors and walls of a house, the states or provinces of a country, or the limbs and organs of an animal. Compare &%piece, which is also a subrelation of &%part.'|) (tptp.s__instance tptp.s__material__m tptp.s__BinaryPredicate) (tptp.s__domainSubclass tptp.s__material__m |"1"| tptp.s__Substance) (tptp.s__domain tptp.s__material__m |"2"| tptp.s__CorpuscularObject) (tptp.s__documentation tptp.s__material__m tptp.s__EnglishLanguage |tptp.'(&%material ?SUBSTANCE ?OBJECT) means that ?OBJECT is structurally made up in part of ?SUBSTANCE. This relation encompasses the concepts of composed of, made of, and formed of. For example, plastic is a &%material of my computer monitor. Compare &%part and its subrelations, viz &%component and &%piece.'|) (tptp.s__subrelation tptp.s__contains__m tptp.s__partlyLocated__m) (tptp.s__instance tptp.s__contains__m tptp.s__SpatialRelation) (tptp.s__instance tptp.s__contains__m tptp.s__AsymmetricRelation) (tptp.s__disjointRelation tptp.s__contains__m tptp.s__part__m) (tptp.s__domain tptp.s__contains__m |"1"| tptp.s__SelfConnectedObject) (tptp.s__domain tptp.s__contains__m |"2"| tptp.s__Object) (tptp.s__documentation tptp.s__contains__m tptp.s__EnglishLanguage |tptp.'The relation of spatial containment for two separable objects. When the two objects are not separable (e.g. an automobile and one of its seats), the relation of &%part should be used. (&%contains ?OBJ1 ?OBJ2) means that the &%SelfConnectedObject ?OBJ1 has a space (i.e. a &%Hole) which is at least partially filled by ?OBJ2.'|) (forall ((V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__SelfConnectedObject)) (= (tptp.s__contains V__OBJ1 V__OBJ2) (exists ((V__HOLE $$unsorted)) (and (tptp.s__instance V__HOLE tptp.s__Hole) (tptp.s__hole V__HOLE V__OBJ1) (tptp.s__properlyFills V__OBJ2 V__HOLE)))))) (tptp.s__subclass tptp.s__Substance tptp.s__SelfConnectedObject) (tptp.s__partition_3 tptp.s__Substance tptp.s__PureSubstance tptp.s__Mixture) (tptp.s__partition_3 tptp.s__Substance tptp.s__SyntheticSubstance tptp.s__NaturalSubstance) (tptp.s__documentation tptp.s__Substance tptp.s__EnglishLanguage |tptp.'An &%Object in which every part is similar to every other in every relevant respect. More precisely, something is a &%Substance when it has only arbitrary pieces as parts - any parts have properties which are similar to those of the whole. Note that a &%Substance may nonetheless have physical properties that vary. For example, the temperature, chemical constitution, density, etc. may change from one part to another. An example would be a body of water.'|) (forall ((V__OBJECT $$unsorted) (V__OBJECTTYPE $$unsorted) (V__PART $$unsorted)) (=> (and (tptp.s__instance V__PART tptp.s__Object) (tptp.s__instance V__OBJECTTYPE tptp.s__SetOrClass) (tptp.s__instance V__OBJECT tptp.s__Object)) (=> (and (tptp.s__subclass V__OBJECTTYPE tptp.s__Substance) (tptp.s__instance V__OBJECT V__OBJECTTYPE) (tptp.s__part V__PART V__OBJECT)) (tptp.s__instance V__PART V__OBJECTTYPE)))) (forall ((V__OBJ $$unsorted) (V__PART $$unsorted) (V__ATTR $$unsorted)) (=> (and (tptp.s__instance V__ATTR tptp.s__Attribute) (tptp.s__instance V__PART tptp.s__Object) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (and (tptp.s__instance V__OBJ tptp.s__Substance) (tptp.s__attribute V__OBJ V__ATTR) (tptp.s__part V__PART V__OBJ)) (tptp.s__attribute V__PART V__ATTR)))) (tptp.s__subclass tptp.s__SyntheticSubstance tptp.s__Substance) (tptp.s__instance tptp.s__SyntheticSubstance__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SyntheticSubstance tptp.s__EnglishLanguage |tptp.'Any &%Substance that is the result of an &%IntentionalProcess, i.e. any substance that is created by &%Humans.'|) (forall ((V__SUBSTANCE $$unsorted)) (= (tptp.s__instance V__SUBSTANCE tptp.s__SyntheticSubstance) (exists ((V__PROCESS $$unsorted)) (and (tptp.s__instance V__PROCESS tptp.s__Process) (tptp.s__instance V__PROCESS tptp.s__IntentionalProcess) (tptp.s__result V__PROCESS V__SUBSTANCE) (tptp.s__instance V__SUBSTANCE tptp.s__Substance))))) (tptp.s__subclass tptp.s__NaturalSubstance tptp.s__Substance) (tptp.s__instance tptp.s__NaturalSubstance__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__NaturalSubstance tptp.s__EnglishLanguage |tptp.'Any &%Substance that is not the result of an &%IntentionalProcess, i.e. any substance that occurs naturally.'|) (tptp.s__subclass tptp.s__PureSubstance tptp.s__Substance) (tptp.s__instance tptp.s__PureSubstance__t tptp.s__SetOrClass) (tptp.s__partition_3 tptp.s__PureSubstance tptp.s__CompoundSubstance tptp.s__ElementalSubstance) (tptp.s__documentation tptp.s__PureSubstance tptp.s__EnglishLanguage |tptp.'The &%Class of &%Substances with constant composition. A &%PureSubstance can be either an element (&%ElementalSubstance) or a compound of elements (&%CompoundSubstance). Examples: Table salt (sodium chloride, NaCl), sugar (sucrose, C_{12}H_{22}O_{11}), water (H_2O), iron (Fe), copper (Cu), and oxygen (O_2).'|) (tptp.s__subclass tptp.s__ElementalSubstance tptp.s__PureSubstance) (tptp.s__documentation tptp.s__ElementalSubstance tptp.s__EnglishLanguage |tptp.'The &%Class of &%PureSubstances that cannot be separated into two or more &%Substances by ordinary chemical (or physical) means. This excludes nuclear reactions. &%ElementalSubstances are composed of only one kind of atom. Examples: Iron (Fe), copper (Cu), and oxygen (O_2). &%ElementalSubstances are the simplest &%PureSubstances.'|) (tptp.s__subclass tptp.s__Metal tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Metal__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Metal tptp.s__EnglishLanguage |tptp.'A &%Metal is an &%ElementalSubstance that conducts heat and electricity, is shiny and reflects many colors of light, and can be hammered into sheets or drawn into wire. About 80% of the known chemical elements (&%ElementalSubstances) are metals.'|) (tptp.s__subclass tptp.s__Atom tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Atom__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__ElementalSubstance__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Atom tptp.s__EnglishLanguage |tptp.'An extremely small unit of matter that retains its identity in Chemical reactions. It consists of an &%AtomicNucleus and &%Electrons surrounding the &%AtomicNucleus.'|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__CorpuscularObject) (=> (tptp.s__instance V__ATOM tptp.s__Atom) (exists ((V__PROTON $$unsorted) (V__ELECTRON $$unsorted)) (and (tptp.s__instance V__ELECTRON tptp.s__CorpuscularObject) (tptp.s__instance V__PROTON tptp.s__CorpuscularObject) (tptp.s__component V__PROTON V__ATOM) (tptp.s__component V__ELECTRON V__ATOM) (tptp.s__instance V__PROTON tptp.s__Proton) (tptp.s__instance V__ELECTRON tptp.s__Electron)))))) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Atom) (forall ((V__NUCLEUS1 $$unsorted) (V__NUCLEUS2 $$unsorted)) (=> (and (tptp.s__instance V__NUCLEUS2 tptp.s__CorpuscularObject) (tptp.s__instance V__NUCLEUS1 tptp.s__CorpuscularObject) (tptp.s__instance V__ATOM tptp.s__CorpuscularObject)) (=> (and (tptp.s__component V__NUCLEUS1 V__ATOM) (tptp.s__component V__NUCLEUS2 V__ATOM) (tptp.s__instance V__NUCLEUS1 tptp.s__AtomicNucleus) (tptp.s__instance V__NUCLEUS2 tptp.s__AtomicNucleus)) (= V__NUCLEUS1 V__NUCLEUS2)))))) (tptp.s__subclass tptp.s__SubatomicParticle tptp.s__ElementalSubstance) (tptp.s__documentation tptp.s__SubatomicParticle tptp.s__EnglishLanguage |tptp.'The class of &%ElementalSubstances that are smaller than &%Atoms and compose &%Atoms.'|) (forall ((V__PARTICLE $$unsorted)) (=> (tptp.s__instance V__PARTICLE tptp.s__Object) (=> (tptp.s__instance V__PARTICLE tptp.s__SubatomicParticle) (exists ((V__ATOM $$unsorted)) (and (tptp.s__instance V__ATOM tptp.s__Object) (tptp.s__instance V__ATOM tptp.s__Atom) (tptp.s__part V__PARTICLE V__ATOM)))))) (tptp.s__subclass tptp.s__AtomicNucleus tptp.s__SubatomicParticle) (tptp.s__instance tptp.s__AtomicNucleus__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AtomicNucleus tptp.s__EnglishLanguage |tptp.'The core of the &%Atom. It is composed of &%Protons and &%Neutrons.'|) (forall ((V__NUCLEUS $$unsorted)) (=> (tptp.s__instance V__NUCLEUS tptp.s__CorpuscularObject) (=> (tptp.s__instance V__NUCLEUS tptp.s__AtomicNucleus) (exists ((V__NEUTRON $$unsorted) (V__PROTON $$unsorted)) (and (tptp.s__instance V__PROTON tptp.s__CorpuscularObject) (tptp.s__instance V__NEUTRON tptp.s__CorpuscularObject) (tptp.s__component V__NEUTRON V__NUCLEUS) (tptp.s__component V__PROTON V__NUCLEUS) (tptp.s__instance V__NEUTRON tptp.s__Neutron) (tptp.s__instance V__PROTON tptp.s__Proton)))))) (tptp.s__subclass tptp.s__Electron tptp.s__SubatomicParticle) (tptp.s__instance tptp.s__Electron__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Electron tptp.s__EnglishLanguage |tptp.'&%SubatomicParticles that surround the &%AtomicNucleus. They have a negative charge.'|) (tptp.s__subclass tptp.s__Proton tptp.s__SubatomicParticle) (tptp.s__instance tptp.s__Proton__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__SubatomicParticle__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Proton tptp.s__EnglishLanguage |tptp.'Components of the &%AtomicNucleus. They have a positive charge.'|) (tptp.s__subclass tptp.s__Neutron tptp.s__SubatomicParticle) (tptp.s__instance tptp.s__Neutron__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Neutron tptp.s__EnglishLanguage |tptp.'Components of the &%AtomicNucleus. They have no charge.'|) (tptp.s__subclass tptp.s__CompoundSubstance tptp.s__PureSubstance) (tptp.s__documentation tptp.s__CompoundSubstance tptp.s__EnglishLanguage |tptp.'The &%Class of &%Substances that contain two or more elements (&%ElementalSubstances), in definite proportion by weight. The composition of a pure compound will be invariant, regardless of the method of preparation. Compounds are composed of more than one kind of atom (element). The term molecule is often used for the smallest unit of a compound that still retains all of the properties of the compound. Examples: Table salt (sodium chloride, NaCl), sugar (sucrose, C_{12}H_{22}O_{11}), and water (H_2O). '|) (tptp.s__subclass tptp.s__Mixture tptp.s__Substance) (tptp.s__documentation tptp.s__Mixture tptp.s__EnglishLanguage |tptp.'A &%Mixture is two or more &%PureSubstances, combined in varying proportions - each retaining its own specific properties. The components of a &%Mixture can be separated by physical means, i.e. without the making and breaking of chemical bonds. Examples: Air, table salt thoroughly dissolved in water, milk, wood, and concrete. '|) (forall ((V__MIXTURE $$unsorted)) (=> (tptp.s__instance V__MIXTURE tptp.s__Object) (=> (tptp.s__instance V__MIXTURE tptp.s__Mixture) (exists ((V__PURE1 $$unsorted) (V__PURE2 $$unsorted)) (and (tptp.s__instance V__PURE2 tptp.s__Object) (tptp.s__instance V__PURE1 tptp.s__Object) (tptp.s__instance V__PURE1 tptp.s__PureSubstance) (tptp.s__instance V__PURE2 tptp.s__PureSubstance) (not (= V__PURE1 V__PURE2)) (tptp.s__part V__PURE1 V__MIXTURE) (tptp.s__part V__PURE2 V__MIXTURE)))))) (forall ((V__SUBSTANCE $$unsorted) (V__MIXTURE $$unsorted)) (=> (and (tptp.s__instance V__MIXTURE tptp.s__Object) (tptp.s__instance V__SUBSTANCE tptp.s__Object)) (=> (and (tptp.s__instance V__MIXTURE tptp.s__Mixture) (tptp.s__part V__SUBSTANCE V__MIXTURE) (not (tptp.s__instance V__SUBSTANCE tptp.s__Mixture))) (tptp.s__instance V__SUBSTANCE tptp.s__PureSubstance)))) (tptp.s__subclass tptp.s__CorpuscularObject tptp.s__SelfConnectedObject) (tptp.s__disjoint tptp.s__CorpuscularObject tptp.s__Substance) (tptp.s__documentation tptp.s__CorpuscularObject tptp.s__EnglishLanguage |tptp.'A &%SelfConnectedObject whose parts have properties that are not shared by the whole.'|) (forall ((V__OBJ $$unsorted)) (=> (tptp.s__instance V__OBJ tptp.s__CorpuscularObject) (exists ((V__SUBSTANCE1 $$unsorted) (V__SUBSTANCE2 $$unsorted)) (and (tptp.s__instance V__SUBSTANCE2 tptp.s__SetOrClass) (tptp.s__instance V__SUBSTANCE1 tptp.s__SetOrClass) (tptp.s__subclass V__SUBSTANCE1 tptp.s__Substance) (tptp.s__subclass V__SUBSTANCE2 tptp.s__Substance) (tptp.s__material V__SUBSTANCE1 V__OBJ) (tptp.s__material V__SUBSTANCE2 V__OBJ) (not (= V__SUBSTANCE1 V__SUBSTANCE2)))))) (tptp.s__subclass tptp.s__Region tptp.s__Object) (tptp.s__documentation tptp.s__Region tptp.s__EnglishLanguage |tptp.'A topographic location. &%Regions encompass surfaces of &%Objects, imaginary places, and &%GeographicAreas. Note that a &%Region is the only kind of &%Object which can be located at itself. Note too that &%Region is not a subclass of &%SelfConnectedObject, because some &%Regions, e.g. archipelagos, have &%parts which are not &%connected with one another.'|) (forall ((V__REGION $$unsorted)) (=> (tptp.s__instance V__REGION tptp.s__Object) (=> (tptp.s__instance V__REGION tptp.s__Region) (exists ((V__PHYS $$unsorted)) (and (tptp.s__instance V__PHYS tptp.s__Physical) (tptp.s__located V__PHYS V__REGION)))))) (tptp.s__subclass tptp.s__Collection tptp.s__Object) (tptp.s__instance tptp.s__Collection__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__Collection tptp.s__SelfConnectedObject) (tptp.s__documentation tptp.s__Collection tptp.s__EnglishLanguage |tptp.'Collections have &%members like &%Classes, but, unlike &%Classes, they have a position in space-time and &%members can be added and subtracted without thereby changing the identity of the &%Collection. Some examples are toolkits, football teams, and flocks of sheep.'|) (forall ((V__COLL $$unsorted)) (=> (tptp.s__instance V__COLL tptp.s__Collection) (exists ((V__OBJ $$unsorted)) (and (tptp.s__instance V__OBJ tptp.s__SelfConnectedObject) (tptp.s__member V__OBJ V__COLL))))) (tptp.s__subrelation tptp.s__member__m tptp.s__part__m) (tptp.s__instance tptp.s__member__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__member__m tptp.s__IntransitiveRelation) (tptp.s__domain tptp.s__member__m |"1"| tptp.s__SelfConnectedObject) (tptp.s__domain tptp.s__member__m |"2"| tptp.s__Collection) (tptp.s__relatedInternalConcept tptp.s__member__m tptp.s__instance__m) (tptp.s__relatedInternalConcept tptp.s__member__m tptp.s__element__m) (tptp.s__documentation tptp.s__member__m tptp.s__EnglishLanguage |tptp.'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.'|) (tptp.s__instance tptp.s__subCollection__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__subCollection__m tptp.s__PartialOrderingRelation) (tptp.s__domain tptp.s__subCollection__m |"1"| tptp.s__Collection) (tptp.s__domain tptp.s__subCollection__m |"2"| tptp.s__Collection) (tptp.s__documentation tptp.s__subCollection__m tptp.s__EnglishLanguage |tptp.'(&%subCollection ?COLL1 ?COLL2) means that the &%Collection ?COLL1 is a proper part of the &%Collection ?COLL2.'|) (tptp.s__subrelation tptp.s__subCollection__m tptp.s__part__m) (forall ((V__COLL1 $$unsorted) (V__COLL2 $$unsorted)) (= (tptp.s__subCollection V__COLL1 V__COLL2) (forall ((V__MEMBER $$unsorted)) (=> (and (tptp.s__instance V__MEMBER tptp.s__SelfConnectedObject) (tptp.s__instance V__COLL2 tptp.s__Collection) (tptp.s__instance V__COLL1 tptp.s__Collection)) (=> (tptp.s__member V__MEMBER V__COLL1) (tptp.s__member V__MEMBER V__COLL2)))))) (tptp.s__subclass tptp.s__ContentBearingPhysical tptp.s__Physical) (tptp.s__documentation tptp.s__ContentBearingPhysical tptp.s__EnglishLanguage |tptp.'Any &%Object or &%Process that expresses content. This covers &%Objects that contain a &%Proposition, such as a book, as well as &%ManualSignLanguage, which may similarly contain a &%Proposition.'|) (forall ((V__OBJ $$unsorted)) (=> (tptp.s__instance V__OBJ tptp.s__ContentBearingPhysical) (exists ((V__THING $$unsorted)) (tptp.s__represents V__OBJ V__THING)))) (tptp.s__subclass tptp.s__ContentBearingProcess tptp.s__ContentBearingPhysical) (tptp.s__subclass tptp.s__ContentBearingProcess tptp.s__Process) (tptp.s__instance tptp.s__ContentBearingProcess__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ContentBearingProcess tptp.s__EnglishLanguage |tptp.'Any &%Process, for example &%ManualHumanLanguage, which may contain a &%Proposition.'|) (tptp.s__subclass tptp.s__ContentBearingObject tptp.s__CorpuscularObject) (tptp.s__subclass tptp.s__ContentBearingObject tptp.s__ContentBearingPhysical) (tptp.s__relatedInternalConcept tptp.s__ContentBearingObject tptp.s__containsInformation__m) (tptp.s__documentation tptp.s__ContentBearingObject tptp.s__EnglishLanguage |tptp.'Any &%SelfConnectedObject that expresses content. This content may be a &%Proposition, e.g. when the &%ContentBearingObject is a &%Sentence or &%Text, or it may be a representation of an abstract or physical object, as with an &%Icon, a &%Word or a &%Phrase.'|) (tptp.s__subclass tptp.s__SymbolicString tptp.s__ContentBearingObject) (tptp.s__documentation tptp.s__SymbolicString tptp.s__EnglishLanguage |tptp.'The &%Class of alphanumeric sequences.'|) (tptp.s__subclass tptp.s__Character tptp.s__SymbolicString) (tptp.s__instance tptp.s__Character__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__SymbolicString__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Character tptp.s__EnglishLanguage |tptp.'An element of an alphabet, a set of numerals, etc. Note that a &%Character may or may not be part of a &%Language. &%Character is a subclass of &%SymbolicString, because every instance of &%Character is an alphanumeric sequence consisting of a single element.'|) (forall ((V__STRING $$unsorted)) (=> (tptp.s__instance V__STRING tptp.s__Object) (=> (tptp.s__instance V__STRING tptp.s__SymbolicString) (exists ((V__PART $$unsorted)) (and (tptp.s__instance V__PART tptp.s__Object) (tptp.s__part V__PART V__STRING) (tptp.s__instance V__PART tptp.s__Character)))))) (tptp.s__instance tptp.s__containsInformation__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__containsInformation__m tptp.s__AsymmetricRelation) (tptp.s__subrelation tptp.s__containsInformation__m tptp.s__represents__m) (tptp.s__domain tptp.s__containsInformation__m |"1"| tptp.s__ContentBearingPhysical) (tptp.s__domain tptp.s__containsInformation__m |"2"| tptp.s__Proposition) (tptp.s__documentation tptp.s__containsInformation__m tptp.s__EnglishLanguage |tptp.'A subrelation of &%represents. This predicate relates a &%ContentBearingPhysical to the &%Proposition that is expressed by the &%ContentBearingPhysical. Examples include the relationships between a physical novel and its story and between a printed score and its musical content.'|) (tptp.s__subclass tptp.s__Icon tptp.s__ContentBearingPhysical) (tptp.s__instance tptp.s__Icon__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__ContentBearingPhysical__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Icon tptp.s__EnglishLanguage |tptp.'This is the subclass of &%ContentBearingPhysical which are not part of a &%Language and which have some sort of similarity with the &%Objects that they represent. This &%Class would include symbolic roadway signs, representational art works, photographs, etc.'|) (tptp.s__subclass tptp.s__MotionPicture tptp.s__Text) (tptp.s__instance tptp.s__MotionPicture__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MotionPicture tptp.s__EnglishLanguage |tptp.'A &%ContentBearingObject which depicts motion (and which may have an audio or text component as well). This &%Class covers films, videos, etc.'|) (tptp.s__subclass tptp.s__LinguisticExpression tptp.s__ContentBearingPhysical) (tptp.s__disjoint tptp.s__LinguisticExpression tptp.s__Icon) (tptp.s__documentation tptp.s__LinguisticExpression tptp.s__EnglishLanguage |tptp.'This is the subclass of &%ContentBearingPhysical which are language-related. Note that this &%Class encompasses both &%Language and the the elements of &%Languages, e.g. &%Words.'|) (tptp.s__subclass tptp.s__Language tptp.s__LinguisticExpression) (tptp.s__disjointDecomposition_4 tptp.s__Language tptp.s__AnimalLanguage tptp.s__HumanLanguage tptp.s__ComputerLanguage) (tptp.s__documentation tptp.s__Language tptp.s__EnglishLanguage |tptp.'A system of signs for expressing thought. The system can be either natural or artificial, i.e. something that emerges gradually as a cultural artifact or something that is intentionally created by a person or group of people.'|) (tptp.s__subclass tptp.s__AnimalLanguage tptp.s__Language) (tptp.s__instance tptp.s__AnimalLanguage__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AnimalLanguage tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Languages used by &%Animals other than &%Humans.'|) (forall ((V__LANG $$unsorted) (V__AGENT $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__LANG tptp.s__Object)) (=> (and (tptp.s__instance V__LANG tptp.s__AnimalLanguage) (tptp.s__agent V__PROC V__AGENT) (tptp.s__instrument V__PROC V__LANG)) (and (tptp.s__instance V__AGENT tptp.s__Animal) (not (tptp.s__instance V__AGENT tptp.s__Human)))))) (tptp.s__subclass tptp.s__ArtificialLanguage tptp.s__Language) (tptp.s__instance tptp.s__ArtificialLanguage__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ArtificialLanguage tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Languages that are designed by &%Humans.'|) (tptp.s__subclass tptp.s__ComputerLanguage tptp.s__ArtificialLanguage) (tptp.s__instance tptp.s__ComputerLanguage__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ComputerLanguage tptp.s__EnglishLanguage |tptp.'The class of &%Languages designed for and interpreted by a computer.'|) (forall ((V__LANG $$unsorted) (V__AGENT $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__LANG tptp.s__Object)) (=> (and (tptp.s__instance V__LANG tptp.s__ComputerLanguage) (tptp.s__agent V__PROC V__AGENT) (tptp.s__instrument V__PROC V__LANG)) (tptp.s__instance V__AGENT tptp.s__Machine)))) (tptp.s__subclass tptp.s__HumanLanguage tptp.s__Language) (tptp.s__instance tptp.s__HumanLanguage__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Language__t tptp.s__SetOrClass) (tptp.s__partition_3 tptp.s__HumanLanguage tptp.s__NaturalLanguage tptp.s__ConstructedLanguage) (tptp.s__partition_3 tptp.s__HumanLanguage tptp.s__SpokenHumanLanguage tptp.s__ManualHumanLanguage) (tptp.s__documentation tptp.s__HumanLanguage tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Languages used by &%Humans.'|) (forall ((V__LANG $$unsorted) (V__AGENT $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__LANG tptp.s__Object)) (=> (and (tptp.s__instance V__LANG tptp.s__HumanLanguage) (tptp.s__agent V__PROC V__AGENT) (tptp.s__instrument V__PROC V__LANG)) (tptp.s__instance V__AGENT tptp.s__Human)))) (tptp.s__subclass tptp.s__ConstructedLanguage tptp.s__HumanLanguage) (tptp.s__instance tptp.s__ConstructedLanguage__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__ConstructedLanguage tptp.s__ArtificialLanguage) (tptp.s__documentation tptp.s__ConstructedLanguage tptp.s__EnglishLanguage |tptp.'An &%ConstructedLanguage is a &%HumanLanguage that did not evolve spontaneously within a language community, but rather had its core grammar and vocabulary invented by one or more language experts, often with an aim to produce a more grammatically regular language than any language that has evolved naturally. This &%Class includes languages like Esperanto that were created to facilitate international communication'|) (forall ((V__LANG $$unsorted)) (=> (tptp.s__instance V__LANG tptp.s__ConstructedLanguage) (exists ((V__PLAN $$unsorted)) (and (tptp.s__instance V__PLAN tptp.s__Process) (tptp.s__instance V__PLAN tptp.s__Planning) (tptp.s__result V__PLAN V__LANG))))) (tptp.s__subclass tptp.s__NaturalLanguage tptp.s__HumanLanguage) (tptp.s__documentation tptp.s__NaturalLanguage tptp.s__EnglishLanguage |tptp.'The &%subclass of &%HumanLanguages which are not designed and which evolve from generation to generation. This &%Class includes all of the national languages, e.g. English, Spanish, Japanese, etc. Note that this class includes dialects of natural languages.'|) (tptp.s__subclass tptp.s__ManualHumanLanguage tptp.s__HumanLanguage) (tptp.s__instance tptp.s__ManualHumanLanguage__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ManualHumanLanguage tptp.s__EnglishLanguage |tptp.'A &%ManualHumanLanguage is a &%HumanLanguage which has as its medium gestures and movement, such as the shape, position, and movement of the hands.'|) (tptp.s__subclass tptp.s__SpokenHumanLanguage tptp.s__HumanLanguage) (tptp.s__documentation tptp.s__SpokenHumanLanguage tptp.s__EnglishLanguage |tptp.'A &%SpokenHumanLanguage is a &%HumanLanguage which has as its medium the human voice. It can also berepresented visually through writing, although not all &%SpokenHumanLanguages have a codified written form.'|) (tptp.s__instance tptp.s__EnglishLanguage tptp.s__NaturalLanguage) (tptp.s__instance tptp.s__NaturalLanguage__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__EnglishLanguage tptp.s__SpokenHumanLanguage) (tptp.s__instance tptp.s__SpokenHumanLanguage__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__EnglishLanguage tptp.s__EnglishLanguage |tptp.'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.'|) (tptp.s__subclass tptp.s__Word tptp.s__LinguisticExpression) (tptp.s__documentation tptp.s__Word tptp.s__EnglishLanguage |tptp.'A term of a &%Language that represents a concept.'|) (tptp.s__subclass tptp.s__Formula tptp.s__Sentence) (tptp.s__instance tptp.s__Formula__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Formula tptp.s__EnglishLanguage |tptp.'A syntactically well-formed formula in the SUO-KIF knowledge representation language.'|) (tptp.s__subclass tptp.s__Agent tptp.s__Object) (tptp.s__documentation tptp.s__Agent tptp.s__EnglishLanguage |tptp.'Something or someone that can act on its own and produce changes in the world.'|) (forall ((V__AGENT $$unsorted)) (= (tptp.s__instance V__AGENT tptp.s__Agent) (exists ((V__PROC $$unsorted)) (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__agent V__PROC V__AGENT))))) (tptp.s__subclass tptp.s__SentientAgent tptp.s__Agent) (tptp.s__documentation tptp.s__SentientAgent tptp.s__EnglishLanguage |tptp.'A &%SentientAgent is an &%Agent that is capable of &%Perception and experiences some level of consciousness (see &%ConsciousnessAttribute). If the &%Agent is able to reason at a comparatively high level (evinced by the ability to learn, plan, and feel emotions), then it is also an instance of &%CognitiveAgent. A &%DomesticAnimal is a &%SentientAgent, but may or may not be a &%CognitiveAgent, depending on the type of &%Animal.'|) (tptp.s__subclass tptp.s__CognitiveAgent tptp.s__SentientAgent) (tptp.s__instance tptp.s__SentientAgent__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__CognitiveAgent tptp.s__EnglishLanguage |tptp.'A &%CognitiveAgent is an &%Agent that has the ability to reason, deliberate, make plans, and experience emotions. Although &%Human is a subclass of &%CognitiveAgent, there may be instances of &%CognitiveAgent which are not also instances of &%Human. For example, &%Primates, dolphins, whales, and some extraterrestrials (if they exist) might be considered &%CognitiveAgents.'|) (tptp.s__subclass tptp.s__LegalAgent tptp.s__Agent) (tptp.s__documentation tptp.s__LegalAgent tptp.s__EnglishLanguage |tptp.'A &%LegalAgent is an &%Agent that is allowed by law to to act and be treated as a legal person for certain purposes, such as being a party to a lawsuit, owning property, and entering into a contract. Typically, a &%LegalAgent is either an adult &%Human or some type of &%Organization. Depending on the prevailing legal system in a given time and location, &%Humans in general, as well as other &%CognitiveAgents, typically will have additional legal rights and obligations beyond those accorded to &%LegalAgents. See the Wikipedia description of <a href=http://en.wikipedia.org/wiki/Juristic_person>Juristic person</a>.'|) (tptp.s__instance tptp.s__leader__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__leader__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__leader__m tptp.s__SingleValuedRelation) (tptp.s__domain tptp.s__leader__m |"1"| tptp.s__Agent) (tptp.s__domain tptp.s__leader__m |"2"| tptp.s__Human) (tptp.s__documentation tptp.s__leader__m tptp.s__EnglishLanguage |tptp.'(&%leader ?INSTITUTION ?PERSON) means that the leader of ?INSTITUTION is ?PERSON.'|) (tptp.s__subclass tptp.s__Process tptp.s__Physical) (tptp.s__documentation tptp.s__Process tptp.s__EnglishLanguage |tptp.'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.'|) (tptp.s__subclass tptp.s__DualObjectProcess tptp.s__Process) (tptp.s__documentation tptp.s__DualObjectProcess tptp.s__EnglishLanguage |tptp.'Any &%Process that requires two, nonidentical &%patients.'|) (forall ((V__PROCESS $$unsorted)) (=> (tptp.s__instance V__PROCESS tptp.s__Process) (=> (tptp.s__instance V__PROCESS tptp.s__DualObjectProcess) (exists ((V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (and (tptp.s__patient V__PROCESS V__OBJ1) (tptp.s__patient V__PROCESS V__OBJ2) (not (= V__OBJ1 V__OBJ2))))))) (tptp.s__subclass tptp.s__SingleAgentProcess tptp.s__Process) (tptp.s__instance tptp.s__SingleAgentProcess__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SingleAgentProcess tptp.s__EnglishLanguage |tptp.'&%SingleAgentProcess is the &%Class of all &%Processes that require exactly one &%agent in order to occur.'|) (forall ((V__PROC $$unsorted)) (=> (tptp.s__instance V__PROC tptp.s__Process) (=> (tptp.s__instance V__PROC tptp.s__SingleAgentProcess) (exists ((V__AGENT $$unsorted)) (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__agent V__PROC V__AGENT)))))) (forall ((V__AGENT_1 $$unsorted) (V__AGENT_2 $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__AGENT_2 tptp.s__Agent) (tptp.s__instance V__AGENT_1 tptp.s__Agent)) (=> (and (tptp.s__instance V__PROC tptp.s__SingleAgentProcess) (tptp.s__agent V__PROC V__AGENT_1) (tptp.s__agent V__PROC V__AGENT_2)) (= V__AGENT_1 V__AGENT_2)))) (tptp.s__subclass tptp.s__Abstract tptp.s__Entity) (tptp.s__instance tptp.s__Abstract__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Entity__t tptp.s__SetOrClass) (tptp.s__disjointDecomposition_6 tptp.s__Abstract tptp.s__Quantity tptp.s__Attribute tptp.s__SetOrClass tptp.s__Relation tptp.s__Proposition) (tptp.s__documentation tptp.s__Abstract tptp.s__EnglishLanguage |tptp.'Properties or qualities as distinguished from any particular embodiment of the properties/qualities in a physical medium. Instances of Abstract can be said to exist in the same sense as mathematical objects such as sets and relations, but they cannot exist at a particular place and time without some physical encoding or embodiment.'|) (forall ((V__ABS $$unsorted)) (=> (tptp.s__instance V__ABS tptp.s__Physical) (= (tptp.s__instance V__ABS tptp.s__Abstract) (not (exists ((V__POINT $$unsorted)) (and (tptp.s__instance V__POINT tptp.s__Object) (tptp.s__instance V__POINT tptp.s__TimePosition) (or (tptp.s__located V__ABS V__POINT) (tptp.s__time V__ABS V__POINT)))))))) (tptp.s__subclass tptp.s__Quantity tptp.s__Abstract) (tptp.s__documentation tptp.s__Quantity tptp.s__EnglishLanguage |tptp.'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).'|) (tptp.s__subclass tptp.s__Attribute tptp.s__Abstract) (tptp.s__partition_3 tptp.s__Attribute tptp.s__InternalAttribute tptp.s__RelationalAttribute) (tptp.s__documentation tptp.s__Attribute tptp.s__EnglishLanguage |tptp.'Qualities which we cannot or choose not to reify into subclasses of &%Object.'|) (tptp.s__instance tptp.s__property__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__property__m |"1"| tptp.s__Entity) (tptp.s__domain tptp.s__property__m |"2"| tptp.s__Attribute) (tptp.s__documentation tptp.s__property__m tptp.s__EnglishLanguage |tptp.'This &%Predicate holds between an instance of &%Entity and an instance of &%Attribute. (&%property ?ENTITY ?ATTR) means that ?ENTITY has the &%Attribute ?ATTR.'|) (tptp.s__instance tptp.s__attribute__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__attribute__m tptp.s__IrreflexiveRelation) (tptp.s__subrelation tptp.s__attribute__m tptp.s__property__m) (tptp.s__domain tptp.s__attribute__m |"1"| tptp.s__Object) (tptp.s__documentation tptp.s__attribute__m tptp.s__EnglishLanguage |tptp.'(&%attribute ?OBJECT ?PROPERTY) means that ?PROPERTY is a &%Attribute of ?OBJECT. For example, (&%attribute &%MyLittleRedWagon &%Red).'|) (tptp.s__instance tptp.s__manner__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__manner__m tptp.s__IrreflexiveRelation) (tptp.s__subrelation tptp.s__manner__m tptp.s__property__m) (tptp.s__domain tptp.s__manner__m |"1"| tptp.s__Process) (tptp.s__disjointRelation tptp.s__manner__m tptp.s__attribute__m) (tptp.s__documentation tptp.s__manner__m tptp.s__EnglishLanguage |tptp.'(&%manner ?PROCESS ?MANNER) means that the &%Process ?PROCESS is qualified by the &%Attribute ?MANNER. The &%Attributes of &%Processes are usually denoted by adverbs and include things like the speed of the wind, the style of a dance, or the intensity of a sports competition.'|) (tptp.s__instance tptp.s__ExtensionFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__ExtensionFn__m tptp.s__PartialValuedRelation) (tptp.s__domain tptp.s__ExtensionFn__m |"1"| tptp.s__Attribute) (tptp.s__range tptp.s__ExtensionFn__m tptp.s__Class) (tptp.s__documentation tptp.s__ExtensionFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps an &%Attribute into the &%Class whose condition for membership is the &%Attribute.'|) (tptp.s__subclass tptp.s__InternalAttribute tptp.s__Attribute) (tptp.s__instance tptp.s__InternalAttribute__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Attribute__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__InternalAttribute tptp.s__EnglishLanguage |tptp.'Any &%Attribute of an &%Entity that is an internal property of the &%Entity, e.g. its shape, its color, its fragility, etc.'|) (tptp.s__documentation tptp.s__PhysicalAttribute tptp.s__EnglishLanguage |tptp.'An &%InternalAttribute given by physical properties of the object.'|) (tptp.s__subclass tptp.s__PhysicalAttribute tptp.s__InternalAttribute) (tptp.s__instance tptp.s__PhysicalAttribute__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__RelationalAttribute tptp.s__Attribute) (tptp.s__documentation tptp.s__RelationalAttribute tptp.s__EnglishLanguage |tptp.'Any &%Attribute that an &%Entity has by virtue of a relationship that it bears to another &%Entity or set of &%Entities, e.g. &%SocialRoles and &%PositionalAttributes.'|) (tptp.s__subclass tptp.s__Number tptp.s__Quantity) (tptp.s__partition_4 tptp.s__Number tptp.s__RealNumber tptp.s__ImaginaryNumber tptp.s__ComplexNumber) (tptp.s__documentation tptp.s__Number tptp.s__EnglishLanguage |tptp.'A measure of how many things there are, or how much there is, of a certain kind. &%Numbers are subclassed into &%RealNumber, &%ComplexNumber, and &%ImaginaryNumber.'|) (tptp.s__instance tptp.less__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.less__m tptp.s__TransitiveRelation) (tptp.s__instance tptp.less__m tptp.s__IrreflexiveRelation) (tptp.s__instance tptp.less__m tptp.s__RelationExtendedToQuantities) (tptp.s__trichotomizingOn tptp.less__m tptp.s__RealNumber) (tptp.s__domain tptp.less__m |"1"| tptp.s__Quantity) (tptp.s__domain tptp.less__m |"2"| tptp.s__Quantity) (tptp.s__documentation tptp.less__m tptp.s__EnglishLanguage |tptp.'(&%lessThan ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is less than the &%Quantity ?NUMBER2.'|) (tptp.s__instance tptp.greater__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.greater__m tptp.s__TransitiveRelation) (tptp.s__instance tptp.greater__m tptp.s__IrreflexiveRelation) (tptp.s__instance tptp.greater__m tptp.s__RelationExtendedToQuantities) (tptp.s__trichotomizingOn tptp.greater__m tptp.s__RealNumber) (tptp.s__domain tptp.greater__m |"1"| tptp.s__Quantity) (tptp.s__domain tptp.greater__m |"2"| tptp.s__Quantity) (tptp.s__inverse tptp.greater__m tptp.less__m) (tptp.s__documentation tptp.greater__m tptp.s__EnglishLanguage |tptp.'(&%greaterThan ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is greater than the &%Quantity ?NUMBER2.'|) (tptp.s__instance tptp.lesseq__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.lesseq__m tptp.s__PartialOrderingRelation) (tptp.s__instance tptp.lesseq__m tptp.s__RelationExtendedToQuantities) (tptp.s__trichotomizingOn tptp.lesseq__m tptp.s__RealNumber) (tptp.s__domain tptp.lesseq__m |"1"| tptp.s__Quantity) (tptp.s__domain tptp.lesseq__m |"2"| tptp.s__Quantity) (tptp.s__documentation tptp.lesseq__m tptp.s__EnglishLanguage |tptp.'(&%lessThanOrEqualTo ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is less than or equal to the &%Quantity ?NUMBER2.'|) (forall ((V__NUMBER2 $$unsorted) (V__NUMBER1 $$unsorted)) (=> (and (tptp.s__instance V__NUMBER1 tptp.s__Quantity) (tptp.s__instance V__NUMBER2 tptp.s__Quantity)) (= (tptp.lesseq V__NUMBER1 V__NUMBER2) (or (= V__NUMBER1 V__NUMBER2) (tptp.less V__NUMBER1 V__NUMBER2))))) (tptp.s__instance tptp.greatereq__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.greatereq__m tptp.s__PartialOrderingRelation) (tptp.s__instance tptp.greatereq__m tptp.s__RelationExtendedToQuantities) (tptp.s__trichotomizingOn tptp.greatereq__m tptp.s__RealNumber) (tptp.s__domain tptp.greatereq__m |"1"| tptp.s__Quantity) (tptp.s__domain tptp.greatereq__m |"2"| tptp.s__Quantity) (tptp.s__inverse tptp.greatereq__m tptp.lesseq__m) (tptp.s__documentation tptp.greatereq__m tptp.s__EnglishLanguage |tptp.'(&%greaterThanOrEqualTo ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is greater than the &%Quantity ?NUMBER2.'|) (forall ((V__NUMBER2 $$unsorted) (V__NUMBER1 $$unsorted)) (=> (and (tptp.s__instance V__NUMBER1 tptp.s__Quantity) (tptp.s__instance V__NUMBER2 tptp.s__Quantity)) (= (tptp.greatereq V__NUMBER1 V__NUMBER2) (or (= V__NUMBER1 V__NUMBER2) (tptp.greater V__NUMBER1 V__NUMBER2))))) (tptp.s__subclass tptp.s__RealNumber tptp.s__Number) (tptp.s__partition_3 tptp.s__RealNumber tptp.s__NegativeRealNumber tptp.s__NonnegativeRealNumber) (tptp.s__partition_3 tptp.s__RealNumber tptp.s__RationalNumber tptp.s__IrrationalNumber) (tptp.s__documentation tptp.s__RealNumber tptp.s__EnglishLanguage |tptp.'Any &%Number that can be expressed as a (possibly infinite) decimal, i.e. any &%Number that has a position on the number line.'|) (tptp.s__subclass tptp.s__ImaginaryNumber tptp.s__Number) (tptp.s__instance tptp.s__ImaginaryNumber__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ImaginaryNumber tptp.s__EnglishLanguage |tptp.'Any &%Number that is the result of multiplying a &%RealNumber by the square root of -1.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__ImaginaryNumber) (exists ((V__REAL $$unsorted)) (and (tptp.s__instance V__REAL tptp.s__Quantity) (tptp.s__instance V__REAL tptp.s__RealNumber) (= V__NUMBER (tptp.times V__REAL (tptp.s__SquareRootFn |"-1"|))))))) (tptp.s__subclass tptp.s__RationalNumber tptp.s__RealNumber) (tptp.s__instance tptp.s__RationalNumber__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__RationalNumber tptp.s__EnglishLanguage |tptp.'Any &%RealNumber that is the product of dividing two &%Integers.'|) (tptp.s__subclass tptp.s__IrrationalNumber tptp.s__RealNumber) (tptp.s__instance tptp.s__IrrationalNumber__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__IrrationalNumber tptp.s__EnglishLanguage |tptp.'Any &%RealNumber that is not also a &%RationalNumber.'|) (tptp.s__subclass tptp.s__NonnegativeRealNumber tptp.s__RealNumber) (tptp.s__instance tptp.s__NonnegativeRealNumber__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__NonnegativeRealNumber tptp.s__EnglishLanguage |tptp.'A &%RealNumber that is greater than or equal to zero.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__Quantity) (= (tptp.s__instance V__NUMBER tptp.s__NonnegativeRealNumber) (and (tptp.greatereq V__NUMBER |"0"|) (tptp.s__instance V__NUMBER tptp.s__RealNumber))))) (tptp.s__subclass tptp.s__PositiveRealNumber tptp.s__NonnegativeRealNumber) (tptp.s__documentation tptp.s__PositiveRealNumber tptp.s__EnglishLanguage |tptp.'A &%RealNumber that is greater than zero.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__Quantity) (= (tptp.s__instance V__NUMBER tptp.s__PositiveRealNumber) (and (tptp.greater V__NUMBER |"0"|) (tptp.s__instance V__NUMBER tptp.s__RealNumber))))) (tptp.s__subclass tptp.s__NegativeRealNumber tptp.s__RealNumber) (tptp.s__instance tptp.s__NegativeRealNumber__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__NegativeRealNumber tptp.s__EnglishLanguage |tptp.'A &%RealNumber that is less than zero.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__Quantity) (= (tptp.s__instance V__NUMBER tptp.s__NegativeRealNumber) (and (tptp.less V__NUMBER |"0"|) (tptp.s__instance V__NUMBER tptp.s__RealNumber))))) (tptp.s__subclass tptp.s__Integer tptp.s__RationalNumber) (tptp.s__partition_3 tptp.s__Integer tptp.s__OddInteger tptp.s__EvenInteger) (tptp.s__partition_3 tptp.s__Integer tptp.s__NegativeInteger tptp.s__NonnegativeInteger) (tptp.s__documentation tptp.s__Integer tptp.s__EnglishLanguage |tptp.'A negative or nonnegative whole number.'|) (tptp.s__subclass tptp.s__EvenInteger tptp.s__Integer) (tptp.s__instance tptp.s__EvenInteger__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__EvenInteger tptp.s__EnglishLanguage |tptp.'An &%Integer that is evenly divisible by 2.'|) (tptp.s__subclass tptp.s__OddInteger tptp.s__Integer) (tptp.s__instance tptp.s__OddInteger__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Integer__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__OddInteger tptp.s__EnglishLanguage |tptp.'An &%Integer that is not evenly divisible by 2.'|) (tptp.s__subclass tptp.s__PrimeNumber tptp.s__Integer) (tptp.s__instance tptp.s__PrimeNumber__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PrimeNumber tptp.s__EnglishLanguage |tptp.'An &%Integer that is evenly divisible only by itself and 1.'|) (tptp.s__subclass tptp.s__NonnegativeInteger tptp.s__Integer) (tptp.s__instance tptp.s__NonnegativeInteger__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__NonnegativeInteger tptp.s__NonnegativeRealNumber) (tptp.s__documentation tptp.s__NonnegativeInteger tptp.s__EnglishLanguage |tptp.'An &%Integer that is greater than or equal to zero.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Quantity) (=> (tptp.s__instance V__X tptp.s__NonnegativeInteger) (tptp.greater V__X |"-1"|)))) (tptp.s__subclass tptp.s__NegativeInteger tptp.s__Integer) (tptp.s__instance tptp.s__NegativeInteger__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__NegativeInteger tptp.s__NegativeRealNumber) (tptp.s__documentation tptp.s__NegativeInteger tptp.s__EnglishLanguage |tptp.'An &%Integer that is less than zero.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Quantity) (=> (tptp.s__instance V__X tptp.s__NegativeInteger) (tptp.greater |"0"| V__X)))) (tptp.s__subclass tptp.s__PositiveInteger tptp.s__NonnegativeInteger) (tptp.s__subclass tptp.s__PositiveInteger tptp.s__PositiveRealNumber) (tptp.s__instance tptp.s__PositiveInteger__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PositiveInteger tptp.s__EnglishLanguage |tptp.'An &%Integer that is greater than zero.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Quantity) (=> (tptp.s__instance V__X tptp.s__PositiveInteger) (tptp.greater V__X |"0"|)))) (tptp.s__subclass tptp.s__BinaryNumber tptp.s__RealNumber) (tptp.s__instance tptp.s__BinaryNumber__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__RealNumber__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__BinaryNumber tptp.s__EnglishLanguage |tptp.'Elements from the number system with base 2. Every &%BinaryNumber is expressed as a sequence of the digits 1 and 0.'|) (tptp.s__subclass tptp.s__ComplexNumber tptp.s__Number) (tptp.s__instance tptp.s__ComplexNumber__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Number__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__ComplexNumber tptp.s__RealNumber) (tptp.s__documentation tptp.s__ComplexNumber tptp.s__EnglishLanguage |tptp.'A &%Number that has the form: x + yi, where x and y are &%RealNumbers and i is the square root of -1.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__ComplexNumber) (exists ((V__REAL1 $$unsorted) (V__REAL2 $$unsorted)) (and (tptp.s__instance V__REAL2 tptp.s__Quantity) (tptp.s__instance V__REAL1 tptp.s__Quantity) (tptp.s__instance V__REAL1 tptp.s__RealNumber) (tptp.s__instance V__REAL2 tptp.s__RealNumber) (= V__NUMBER (tptp.plus V__REAL1 (tptp.times V__REAL2 (tptp.s__SquareRootFn |"-1"|)))))))) (tptp.s__subclass tptp.s__PhysicalQuantity tptp.s__Quantity) (tptp.s__instance tptp.s__PhysicalQuantity__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Quantity__t tptp.s__SetOrClass) (tptp.s__partition_3 tptp.s__PhysicalQuantity tptp.s__ConstantQuantity tptp.s__FunctionQuantity) (tptp.s__documentation tptp.s__PhysicalQuantity tptp.s__EnglishLanguage |tptp.'A &%PhysicalQuantity is a measure of some quantifiable aspect of the modeled world, such as the earths diameter (a constant length) and the stress in a loaded deformable solid (a measure of stress, which is a function of three spatial coordinates). Every &%PhysicalQuantity is either a &%ConstantQuantity or &%FunctionQuantity. Instances of &%ConstantQuantity are dependent on a &%UnitOfMeasure, while instances of &%FunctionQuantity are &%Functions that map instances of &%ConstantQuantity to other instances of &%ConstantQuantity (e.g., a &%TimeDependentQuantity is a &%FunctionQuantity). Although the name and definition of &%PhysicalQuantity is borrowed from physics, a &%PhysicalQuantity need not be material. Aside from the dimensions of length, time, velocity, etc., nonphysical dimensions such as currency are also possible. Accordingly, amounts of money would be instances of &%PhysicalQuantity. A &%PhysicalQuantity is distinguished from a pure &%Number by the fact that the former is associated with a dimension of measurement.'|) (tptp.s__subclass tptp.s__ConstantQuantity tptp.s__PhysicalQuantity) (tptp.s__documentation tptp.s__ConstantQuantity tptp.s__EnglishLanguage |tptp.'A &%ConstantQuantity is a &%PhysicalQuantity that has a constant value, e.g. 3 &%Meters and 5 &%HourDurations. The magnitude (see &%MagnitudeFn) of every &%ConstantQuantity is a &%RealNumber. &%ConstantQuantity is distinguished from &%FunctionQuantity, in that each instance of the latter is formed through the mapping of one &%PhysicalQuantity to another &%PhysicalQuantity. Each instance of &%ConstantQuantity is expressed with the &%BinaryFunction &%MeasureFn, which takes a &%Number and a &%UnitOfMeasure as arguments. For example, 3 &%Meters is expressed as (&%MeasureFn 3 &%Meter). Instances of &%ConstantQuantity form a partial order (see &%PartialOrderingRelation) with the &%lessThan relation, since &%lessThan is a &%RelationExtendedToQuantities and &%lessThan is defined over the &%RealNumbers. The &%lessThan relation is not a total order (see &%TotalOrderingRelation) over the class &%ConstantQuantity since elements of some subclasses of &%ConstantQuantity (such as length quantities) are incomparable to elements of other subclasses of &%ConstantQuantity (such as mass quantities).'|) (tptp.s__subclass tptp.s__TimeMeasure tptp.s__ConstantQuantity) (tptp.s__instance tptp.s__TimeMeasure__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TimeMeasure tptp.s__EnglishLanguage |tptp.'The class of temporal durations (instances of &%TimeDuration) and positions of &%TimePoints and &%TimeIntervals along the universal timeline (instances of &%TimePosition).'|) (tptp.s__subclass tptp.s__TimeDuration tptp.s__TimeMeasure) (tptp.s__instance tptp.s__TimeDuration__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TimeDuration tptp.s__EnglishLanguage |tptp.'Any measure of length of time, with or without respect to the universal timeline.'|) (tptp.s__subclass tptp.s__TimePosition tptp.s__TimeMeasure) (tptp.s__partition_3 tptp.s__TimePosition tptp.s__TimeInterval tptp.s__TimePoint) (tptp.s__documentation tptp.s__TimePosition tptp.s__EnglishLanguage |tptp.'Any &%TimePoint or &%TimeInterval along the universal timeline from &%NegativeInfinity to &%PositiveInfinity.'|) (tptp.s__subclass tptp.s__TimeInterval tptp.s__TimePosition) (tptp.s__instance tptp.s__TimeInterval__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__TimePosition__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TimeInterval tptp.s__EnglishLanguage |tptp.'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.'|) (tptp.s__subclass tptp.s__TimePoint tptp.s__TimePosition) (tptp.s__documentation tptp.s__TimePoint tptp.s__EnglishLanguage |tptp.'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 doesnt make sense to talk about how long a &%TimePoint lasts.'|) (tptp.s__subclass tptp.s__FunctionQuantity tptp.s__PhysicalQuantity) (tptp.s__documentation tptp.s__FunctionQuantity tptp.s__EnglishLanguage |tptp.'A &%FunctionQuantity is a &%PhysicalQuantity that is returned by a &%Function that maps from one or more instances of &%ConstantQuantity to another instance of &%ConstantQuantity. For example, the velocity of a particle would be represented by a &%FunctionQuantity relating values of time (which are instances of &%ConstantQuantity) to values of distance (also instances of &%ConstantQuantity). Note that all elements of the range of the &%Function corresponding to a &%FunctionQuantity have the same physical dimension as the &%FunctionQuantity itself.'|) (tptp.s__subclass tptp.s__UnaryConstantFunctionQuantity tptp.s__FunctionQuantity) (tptp.s__documentation tptp.s__UnaryConstantFunctionQuantity tptp.s__EnglishLanguage |tptp.'A &%subclass of &%FunctionQuantity, instances of which are returned by &%UnaryFunctions that map from one instance of the &%Class &%ConstantQuantity to another instance of the &%Class &%ConstantQuantity.'|) (tptp.s__subclass tptp.s__TimeDependentQuantity tptp.s__UnaryConstantFunctionQuantity) (tptp.s__instance tptp.s__TimeDependentQuantity__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__UnaryConstantFunctionQuantity__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TimeDependentQuantity tptp.s__EnglishLanguage |tptp.'A &%UnaryConstantFunctionQuantity of continuous time. All instances of this &%Class are returned by &%Functions that map a time quantity into another &%ConstantQuantity such as temperature. For example, the temperature at the top of the Empire State Building is a &%TimeDependentQuantity, since its value depends on the time.'|) (tptp.s__subclass tptp.s__SetOrClass tptp.s__Abstract) (tptp.s__partition_3 tptp.s__SetOrClass tptp.s__Set tptp.s__Class) (tptp.s__documentation tptp.s__SetOrClass tptp.s__EnglishLanguage |tptp.'The &%SetOrClass of &%Sets and &%Classes, i.e. any instance of &%Abstract that has &%elements or &%instances.'|) (tptp.s__subclass tptp.s__Class tptp.s__SetOrClass) (tptp.s__instance tptp.s__Class__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Class tptp.s__EnglishLanguage |tptp.'&%Classes differ from &%Sets in three important respects. First, &%Classes are not assumed to be extensional. That is, distinct &%Classes might well have exactly the same instances. Second, &%Classes typically have an associated `condition that determines the instances of the &%Class. So, for example, the condition `human determines the &%Class of &%Humans. Note that some &%Classes might satisfy their own condition (e.g., the &%Class of &%Abstract things is &%Abstract) and hence be instances of themselves. Third, the instances of a class may occur only once within the class, i.e. a class cannot contain duplicate instances.'|) (tptp.s__subclass tptp.s__Set tptp.s__SetOrClass) (tptp.s__instance tptp.s__Set__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Set tptp.s__EnglishLanguage |tptp.'A &%SetOrClass that satisfies extensionality as well as other constraints specified by some choice of set theory. &%Sets differ from &%Classes in two important respects. First, &%Sets are extensional - two &%Sets with the same &%elements are identical. Second, a &%Set can be an arbitrary stock of objects. That is, there is no requirement that &%Sets have an associated condition that determines their membership. Note that &%Sets are not assumed to be unique sets, i.e. &%elements of a &%Set may occur more than once in the &%Set.'|) (tptp.s__subclass tptp.s__Relation tptp.s__Abstract) (tptp.s__disjointDecomposition_6 tptp.s__Relation tptp.s__BinaryRelation tptp.s__TernaryRelation tptp.s__QuaternaryRelation tptp.s__QuintaryRelation tptp.s__VariableArityRelation) (tptp.s__partition_4 tptp.s__Relation tptp.s__Predicate tptp.s__Function tptp.s__List) (tptp.s__partition_3 tptp.s__Relation tptp.s__TotalValuedRelation tptp.s__PartialValuedRelation) (tptp.s__documentation tptp.s__Relation tptp.s__EnglishLanguage |tptp.'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.'|) (tptp.s__subclass tptp.s__SingleValuedRelation tptp.s__Relation) (tptp.s__subclass tptp.s__SingleValuedRelation tptp.s__InheritableRelation) (tptp.s__documentation tptp.s__SingleValuedRelation tptp.s__EnglishLanguage |tptp.'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.'|) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__LengthMeasure) (tptp.s__instance V__ITEM1 tptp.s__LengthMeasure) (tptp.s__instance V__ROW2 tptp.s__Physical) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (and (tptp.s__depth V__ROW1 V__ROW2 V__ITEM1) (tptp.s__depth V__ROW1 V__ROW2 V__ITEM2)) (= V__ITEM1 V__ITEM2)))) (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__Organism) (tptp.s__instance V__ITEM1 tptp.s__Organism) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (and (tptp.s__father V__ROW1 V__ITEM1) (tptp.s__father V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))) (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__LengthMeasure) (tptp.s__instance V__ITEM1 tptp.s__LengthMeasure) (tptp.s__instance V__ROW1 tptp.s__Circle)) (=> (and (tptp.s__diameter V__ROW1 V__ITEM1) (tptp.s__diameter V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))) (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__PositiveInteger) (tptp.s__instance V__ITEM1 tptp.s__PositiveInteger) (tptp.s__instance V__ROW1 tptp.s__PureSubstance)) (=> (and (tptp.s__protonNumber V__ROW1 V__ITEM1) (tptp.s__protonNumber V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))) (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__Quantity) (tptp.s__instance V__ITEM1 tptp.s__Quantity) (tptp.s__instance V__ROW1 tptp.s__GraphArc)) (=> (and (tptp.s__arcWeight V__ROW1 V__ITEM1) (tptp.s__arcWeight V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))) (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__LengthMeasure) (tptp.s__instance V__ITEM1 tptp.s__LengthMeasure) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (and (tptp.s__width V__ROW1 V__ITEM1) (tptp.s__width V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))) (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__TimeDuration) (tptp.s__instance V__ITEM1 tptp.s__TimeDuration) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (and (tptp.s__age V__ROW1 V__ITEM1) (tptp.s__age V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))) (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__Proposition) (tptp.s__instance V__ITEM1 tptp.s__Proposition) (tptp.s__instance V__ROW1 tptp.s__Argument)) (=> (and (tptp.s__conclusion V__ROW1 V__ITEM1) (tptp.s__conclusion V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))) (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__LengthMeasure) (tptp.s__instance V__ITEM1 tptp.s__LengthMeasure) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (and (tptp.s__length V__ROW1 V__ITEM1) (tptp.s__length V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))) (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__PositiveInteger) (tptp.s__instance V__ITEM1 tptp.s__PositiveInteger) (tptp.s__instance V__ROW1 tptp.s__StationaryArtifact)) (=> (and (tptp.s__humanCapacity V__ROW1 V__ITEM1) (tptp.s__humanCapacity V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))) (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__CurrencyMeasure) (tptp.s__instance V__ITEM1 tptp.s__CurrencyMeasure) (tptp.s__instance V__ROW1 tptp.s__FinancialTransaction)) (=> (and (tptp.s__transactionAmount V__ROW1 V__ITEM1) (tptp.s__transactionAmount V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))) (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__SymbolicString) (=> (and (tptp.s__uniqueIdentifier V__ROW1 V__ITEM1) (tptp.s__uniqueIdentifier V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))) (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__LengthMeasure) (tptp.s__instance V__ITEM1 tptp.s__LengthMeasure) (tptp.s__instance V__ROW1 tptp.s__Radiating)) (=> (and (tptp.s__wavelength V__ROW1 V__ITEM1) (tptp.s__wavelength V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))) (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__Human) (tptp.s__instance V__ITEM1 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__Agent)) (=> (and (tptp.s__leader V__ROW1 V__ITEM1) (tptp.s__leader V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))) (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__LengthMeasure) (tptp.s__instance V__ITEM1 tptp.s__LengthMeasure) (tptp.s__instance V__ROW1 tptp.s__Circle)) (=> (and (tptp.s__radius V__ROW1 V__ITEM1) (tptp.s__radius V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__SymbolicString) (tptp.s__instance V__ITEM1 tptp.s__SymbolicString) (tptp.s__instance V__ROW2 tptp.s__SymbolicString) (tptp.s__instance V__ROW1 tptp.s__SymbolicString)) (=> (and (tptp.s__stringConcatenation V__ROW1 V__ROW2 V__ITEM1) (tptp.s__stringConcatenation V__ROW1 V__ROW2 V__ITEM2)) (= V__ITEM1 V__ITEM2)))) (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__PositiveInteger) (tptp.s__instance V__ITEM1 tptp.s__PositiveInteger) (tptp.s__instance V__ROW1 tptp.s__PureSubstance)) (=> (and (tptp.s__electronNumber V__ROW1 V__ITEM1) (tptp.s__electronNumber V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__LengthMeasure) (tptp.s__instance V__ITEM1 tptp.s__LengthMeasure) (tptp.s__instance V__ROW2 tptp.s__GeometricPoint) (tptp.s__instance V__ROW1 tptp.s__GeometricPoint)) (=> (and (tptp.s__geometricDistance V__ROW1 V__ROW2 V__ITEM1) (tptp.s__geometricDistance V__ROW1 V__ROW2 V__ITEM2)) (= V__ITEM1 V__ITEM2)))) (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__CurrencyMeasure) (tptp.s__instance V__ITEM1 tptp.s__CurrencyMeasure) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (and (tptp.s__monetaryValue V__ROW1 V__ITEM1) (tptp.s__monetaryValue V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))) (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__SymbolicString) (tptp.s__instance V__ITEM1 tptp.s__SymbolicString) (tptp.s__instance V__ROW1 tptp.s__NonnegativeInteger)) (=> (and (tptp.s__stringLength V__ROW1 V__ITEM1) (tptp.s__stringLength V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))) (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__Day) (tptp.s__instance V__ITEM1 tptp.s__Day) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (and (tptp.s__date V__ROW1 V__ITEM1) (tptp.s__date V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__LengthMeasure) (tptp.s__instance V__ITEM1 tptp.s__LengthMeasure) (tptp.s__instance V__ROW2 tptp.s__Physical) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (and (tptp.s__altitude V__ROW1 V__ROW2 V__ITEM1) (tptp.s__altitude V__ROW1 V__ROW2 V__ITEM2)) (= V__ITEM1 V__ITEM2)))) (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__PositiveInteger) (tptp.s__instance V__ITEM1 tptp.s__PositiveInteger) (tptp.s__instance V__ROW1 tptp.s__Relation)) (=> (and (tptp.s__valence V__ROW1 V__ITEM1) (tptp.s__valence V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))) (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__LengthMeasure) (tptp.s__instance V__ITEM1 tptp.s__LengthMeasure) (tptp.s__instance V__ROW1 tptp.s__Device)) (=> (and (tptp.s__effectiveRange V__ROW1 V__ITEM1) (tptp.s__effectiveRange V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__LengthMeasure) (tptp.s__instance V__ITEM1 tptp.s__LengthMeasure) (tptp.s__instance V__ROW2 tptp.s__Physical) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (and (tptp.s__distance V__ROW1 V__ROW2 V__ITEM1) (tptp.s__distance V__ROW1 V__ROW2 V__ITEM2)) (= V__ITEM1 V__ITEM2)))) (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__RationalNumber) (tptp.s__instance V__ITEM1 tptp.s__RationalNumber) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (and (tptp.s__intelligenceQuotient V__ROW1 V__ITEM1) (tptp.s__intelligenceQuotient V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))) (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__Organism) (tptp.s__instance V__ITEM1 tptp.s__Organism) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (and (tptp.s__mother V__ROW1 V__ITEM1) (tptp.s__mother V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))) (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__RealNumber) (tptp.s__instance V__ITEM1 tptp.s__RealNumber) (tptp.s__instance V__ROW1 tptp.s__List)) (=> (and (tptp.s__average V__ROW1 V__ITEM1) (tptp.s__average V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))) (tptp.s__subclass tptp.s__TotalValuedRelation tptp.s__Relation) (tptp.s__subclass tptp.s__TotalValuedRelation tptp.s__InheritableRelation) (tptp.s__documentation tptp.s__TotalValuedRelation tptp.s__EnglishLanguage |tptp.'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.'|) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__GeometricPoint) (tptp.s__instance V__ROW1 tptp.s__GeometricPoint)) (exists ((V__VALENCE $$unsorted)) (and (tptp.s__instance tptp.s__geometricDistance__m tptp.s__Relation) (=> (forall ((V__NUMBER $$unsorted) (V__ELEMENT $$unsorted) (V__CLASS $$unsorted)) (=> (and (tptp.s__instance V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__NUMBER tptp.s__PositiveInteger)) (=> (and (tptp.less V__NUMBER V__VALENCE) (= V__ELEMENT (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) V__NUMBER))) (tptp.s__instance V__ELEMENT V__CLASS)))) (exists ((V__ITEM $$unsorted)) (and (tptp.s__instance V__ITEM tptp.s__LengthMeasure) (tptp.s__instance V__VALENCE tptp.s__Quantity) (tptp.s__geometricDistance V__ROW1 V__ROW2 V__ITEM)))))))) (forall ((V__ROW1 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__OneDimensionalFigure) (exists ((V__VALENCE $$unsorted)) (and (tptp.s__instance tptp.s__lineMeasure__m tptp.s__Relation) (=> (forall ((V__NUMBER $$unsorted) (V__ELEMENT $$unsorted) (V__CLASS $$unsorted)) (=> (and (tptp.s__instance V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__NUMBER tptp.s__PositiveInteger)) (=> (and (tptp.less V__NUMBER V__VALENCE) (= V__ELEMENT (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW1) V__NUMBER))) (tptp.s__instance V__ELEMENT V__CLASS)))) (exists ((V__ITEM $$unsorted)) (and (tptp.s__instance V__ITEM tptp.s__LengthMeasure) (tptp.s__instance V__VALENCE tptp.s__Quantity) (tptp.s__lineMeasure V__ROW1 V__ITEM)))))))) (forall ((V__ROW1 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Circle) (exists ((V__VALENCE $$unsorted)) (and (tptp.s__instance tptp.s__diameter__m tptp.s__Relation) (=> (forall ((V__NUMBER $$unsorted) (V__ELEMENT $$unsorted) (V__CLASS $$unsorted)) (=> (and (tptp.s__instance V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__NUMBER tptp.s__PositiveInteger)) (=> (and (tptp.less V__NUMBER V__VALENCE) (= V__ELEMENT (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW1) V__NUMBER))) (tptp.s__instance V__ELEMENT V__CLASS)))) (exists ((V__ITEM $$unsorted)) (and (tptp.s__instance V__ITEM tptp.s__LengthMeasure) (tptp.s__instance V__VALENCE tptp.s__Quantity) (tptp.s__diameter V__ROW1 V__ITEM)))))))) (forall ((V__ROW1 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Argument) (exists ((V__VALENCE $$unsorted)) (and (tptp.s__instance tptp.s__conclusion__m tptp.s__Relation) (=> (forall ((V__NUMBER $$unsorted) (V__ELEMENT $$unsorted) (V__CLASS $$unsorted)) (=> (and (tptp.s__instance V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__NUMBER tptp.s__PositiveInteger)) (=> (and (tptp.less V__NUMBER V__VALENCE) (= V__ELEMENT (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW1) V__NUMBER))) (tptp.s__instance V__ELEMENT V__CLASS)))) (exists ((V__ITEM $$unsorted)) (and (tptp.s__instance V__ITEM tptp.s__Proposition) (tptp.s__instance V__VALENCE tptp.s__Quantity) (tptp.s__conclusion V__ROW1 V__ITEM)))))))) (forall ((V__ROW1 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__TwoDimensionalAngle) (exists ((V__VALENCE $$unsorted)) (and (tptp.s__instance tptp.s__angularMeasure__m tptp.s__Relation) (=> (forall ((V__NUMBER $$unsorted) (V__ELEMENT $$unsorted) (V__CLASS $$unsorted)) (=> (and (tptp.s__instance V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__NUMBER tptp.s__PositiveInteger)) (=> (and (tptp.less V__NUMBER V__VALENCE) (= V__ELEMENT (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW1) V__NUMBER))) (tptp.s__instance V__ELEMENT V__CLASS)))) (exists ((V__ITEM $$unsorted)) (and (tptp.s__instance V__ITEM tptp.s__PlaneAngleMeasure) (tptp.s__instance V__VALENCE tptp.s__Quantity) (tptp.s__angularMeasure V__ROW1 V__ITEM)))))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SymbolicString) (tptp.s__instance V__ROW1 tptp.s__SymbolicString)) (exists ((V__VALENCE $$unsorted)) (and (tptp.s__instance tptp.s__stringConcatenation__m tptp.s__Relation) (=> (forall ((V__NUMBER $$unsorted) (V__ELEMENT $$unsorted) (V__CLASS $$unsorted)) (=> (and (tptp.s__instance V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__NUMBER tptp.s__PositiveInteger)) (=> (and (tptp.less V__NUMBER V__VALENCE) (= V__ELEMENT (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) V__NUMBER))) (tptp.s__instance V__ELEMENT V__CLASS)))) (exists ((V__ITEM $$unsorted)) (and (tptp.s__instance V__ITEM tptp.s__SymbolicString) (tptp.s__instance V__VALENCE tptp.s__Quantity) (tptp.s__stringConcatenation V__ROW1 V__ROW2 V__ITEM)))))))) (forall ((V__ROW1 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__TimeInterval) (exists ((V__VALENCE $$unsorted)) (and (tptp.s__instance tptp.s__duration__m tptp.s__Relation) (=> (forall ((V__NUMBER $$unsorted) (V__ELEMENT $$unsorted) (V__CLASS $$unsorted)) (=> (and (tptp.s__instance V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__NUMBER tptp.s__PositiveInteger)) (=> (and (tptp.less V__NUMBER V__VALENCE) (= V__ELEMENT (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW1) V__NUMBER))) (tptp.s__instance V__ELEMENT V__CLASS)))) (exists ((V__ITEM $$unsorted)) (and (tptp.s__instance V__ITEM tptp.s__TimeDuration) (tptp.s__instance V__VALENCE tptp.s__Quantity) (tptp.s__duration V__ROW1 V__ITEM)))))))) (forall ((V__ROW1 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__PureSubstance) (exists ((V__VALENCE $$unsorted)) (and (tptp.s__instance tptp.s__protonNumber__m tptp.s__Relation) (=> (forall ((V__NUMBER $$unsorted) (V__ELEMENT $$unsorted) (V__CLASS $$unsorted)) (=> (and (tptp.s__instance V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__NUMBER tptp.s__PositiveInteger)) (=> (and (tptp.less V__NUMBER V__VALENCE) (= V__ELEMENT (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW1) V__NUMBER))) (tptp.s__instance V__ELEMENT V__CLASS)))) (exists ((V__ITEM $$unsorted)) (and (tptp.s__instance V__ITEM tptp.s__PositiveInteger) (tptp.s__instance V__VALENCE tptp.s__Quantity) (tptp.s__protonNumber V__ROW1 V__ITEM)))))))) (forall ((V__ROW1 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Argument) (exists ((V__VALENCE $$unsorted)) (and (tptp.s__instance tptp.s__premise__m tptp.s__Relation) (=> (forall ((V__NUMBER $$unsorted) (V__ELEMENT $$unsorted) (V__CLASS $$unsorted)) (=> (and (tptp.s__instance V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__NUMBER tptp.s__PositiveInteger)) (=> (and (tptp.less V__NUMBER V__VALENCE) (= V__ELEMENT (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW1) V__NUMBER))) (tptp.s__instance V__ELEMENT V__CLASS)))) (exists ((V__ITEM $$unsorted)) (and (tptp.s__instance V__ITEM tptp.s__Proposition) (tptp.s__instance V__VALENCE tptp.s__Quantity) (tptp.s__premise V__ROW1 V__ITEM)))))))) (forall ((V__ROW1 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Contest) (exists ((V__VALENCE $$unsorted)) (and (tptp.s__instance tptp.s__contestParticipant__m tptp.s__Relation) (=> (forall ((V__NUMBER $$unsorted) (V__ELEMENT $$unsorted) (V__CLASS $$unsorted)) (=> (and (tptp.s__instance V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__NUMBER tptp.s__PositiveInteger)) (=> (and (tptp.less V__NUMBER V__VALENCE) (= V__ELEMENT (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW1) V__NUMBER))) (tptp.s__instance V__ELEMENT V__CLASS)))) (exists ((V__ITEM $$unsorted)) (and (tptp.s__instance V__ITEM tptp.s__Agent) (tptp.s__instance V__VALENCE tptp.s__Quantity) (tptp.s__contestParticipant V__ROW1 V__ITEM)))))))) (forall ((V__ROW1 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Circle) (exists ((V__VALENCE $$unsorted)) (and (tptp.s__instance tptp.s__radius__m tptp.s__Relation) (=> (forall ((V__NUMBER $$unsorted) (V__ELEMENT $$unsorted) (V__CLASS $$unsorted)) (=> (and (tptp.s__instance V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__NUMBER tptp.s__PositiveInteger)) (=> (and (tptp.less V__NUMBER V__VALENCE) (= V__ELEMENT (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW1) V__NUMBER))) (tptp.s__instance V__ELEMENT 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V__INST1 tptp.s__BinaryRelation)) (=> (and (tptp.s__inverse V__INST1 V__INST2) (tptp.s__inverse V__INST2 V__INST3)) (not (tptp.s__inverse V__INST1 V__INST3))))) (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__TimeInterval) (tptp.s__instance V__INST2 tptp.s__TimeInterval) (tptp.s__instance V__INST1 tptp.s__TimeInterval)) (=> (and (tptp.s__meetsTemporally V__INST1 V__INST2) (tptp.s__meetsTemporally V__INST2 V__INST3)) (not (tptp.s__meetsTemporally V__INST1 V__INST3))))) (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__SetOrClass) (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (and (tptp.s__immediateSubclass V__INST1 V__INST2) (tptp.s__immediateSubclass V__INST2 V__INST3)) (not (tptp.s__immediateSubclass V__INST1 V__INST3))))) (tptp.s__subclass tptp.s__PartialOrderingRelation tptp.s__TransitiveRelation) (tptp.s__subclass tptp.s__PartialOrderingRelation tptp.s__AntisymmetricRelation) (tptp.s__subclass tptp.s__PartialOrderingRelation tptp.s__ReflexiveRelation) (tptp.s__documentation tptp.s__PartialOrderingRelation tptp.s__EnglishLanguage |tptp.'A &%BinaryRelation is a partial ordering if it is a &%ReflexiveRelation, an &%AntisymmetricRelation, and a &%TransitiveRelation.'|) (tptp.s__subclass tptp.s__TotalOrderingRelation tptp.s__PartialOrderingRelation) (tptp.s__instance tptp.s__TotalOrderingRelation__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__TotalOrderingRelation tptp.s__TrichotomizingRelation) (tptp.s__documentation tptp.s__TotalOrderingRelation tptp.s__EnglishLanguage |tptp.'A &%BinaryRelation is a &%TotalOrderingRelation if it is a &%PartialOrderingRelation and a &%TrichotomizingRelation.'|) (tptp.s__subclass tptp.s__EquivalenceRelation tptp.s__TransitiveRelation) (tptp.s__subclass tptp.s__EquivalenceRelation tptp.s__SymmetricRelation) (tptp.s__subclass tptp.s__EquivalenceRelation tptp.s__ReflexiveRelation) (tptp.s__documentation tptp.s__EquivalenceRelation tptp.s__EnglishLanguage |tptp.'A &%BinaryRelation is an equivalence relation if it is a &%ReflexiveRelation, a &%SymmetricRelation, and a &%TransitiveRelation.'|) (tptp.s__subclass tptp.s__CaseRole tptp.s__BinaryPredicate) (tptp.s__subclass tptp.s__CaseRole tptp.s__InheritableRelation) (tptp.s__instance tptp.s__CaseRole__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__CaseRole tptp.s__AsymmetricRelation) (tptp.s__documentation tptp.s__CaseRole tptp.s__EnglishLanguage |tptp.'The &%Class of &%Predicates relating the spatially distinguished parts of a &%Process. &%CaseRoles include, for example, the &%agent, &%patient or &%destination of an action, the flammable substance in a burning process, or the water that falls in rain.'|) (tptp.s__documentation tptp.s__involvedInEvent__m tptp.s__EnglishLanguage |tptp.'(involvedInEvent ?EVENT ?THING) means that in the &%Process ?EVENT, the &%Entity ?THING plays some &%CaseRole.'|) (tptp.s__instance tptp.s__involvedInEvent__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__involvedInEvent__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__involvedInEvent__m |"1"| tptp.s__Process) (tptp.s__domain tptp.s__involvedInEvent__m |"2"| tptp.s__Entity) (forall ((V__R $$unsorted)) (=> (tptp.s__instance V__R tptp.s__Relation) (=> (tptp.s__instance V__R tptp.s__CaseRole) (tptp.s__subrelation V__R tptp.s__involvedInEvent__m)))) (tptp.s__instance tptp.s__agent__m tptp.s__CaseRole) (tptp.s__domain tptp.s__agent__m |"1"| tptp.s__Process) (tptp.s__domain tptp.s__agent__m |"2"| tptp.s__Agent) (tptp.s__subrelation tptp.s__agent__m tptp.s__involvedInEvent__m) (tptp.s__documentation tptp.s__agent__m tptp.s__EnglishLanguage |tptp.'(&%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.'|) (tptp.s__instance tptp.s__destination__m tptp.s__CaseRole) (tptp.s__domain tptp.s__destination__m |"1"| tptp.s__Process) (tptp.s__domain tptp.s__destination__m |"2"| tptp.s__Entity) (tptp.s__subrelation tptp.s__destination__m tptp.s__involvedInEvent__m) (tptp.s__documentation tptp.s__destination__m tptp.s__EnglishLanguage |tptp.'(destination ?PROCESS ?GOAL) means that ?GOAL is the target or goal of the Process ?PROCESS. For example, Danbury would be the destination in the following proposition: Bob went to Danbury. Note that this is a very general &%CaseRole and, in particular, that it covers the concepts of recipient and beneficiary. Thus, John would be the &%destination in the following proposition: Tom gave a book to John.'|) (tptp.s__instance tptp.s__experiencer__m tptp.s__CaseRole) (tptp.s__domain tptp.s__experiencer__m |"1"| tptp.s__Process) (tptp.s__domain tptp.s__experiencer__m |"2"| tptp.s__Agent) (tptp.s__subrelation tptp.s__experiencer__m tptp.s__involvedInEvent__m) (tptp.s__documentation tptp.s__experiencer__m tptp.s__EnglishLanguage |tptp.'(&%experiencer ?PROCESS ?AGENT) means that ?AGENT experiences the &%Process ?PROCESS. For example, Yojo is the &%experiencer of seeing in the following proposition: Yojo sees the fish. Note that &%experiencer, unlike &%agent, does not entail a causal relation between its arguments.'|) (tptp.s__subrelation tptp.s__instrument__m tptp.s__patient__m) (tptp.s__domain tptp.s__instrument__m |"1"| tptp.s__Process) (tptp.s__domain tptp.s__instrument__m |"2"| tptp.s__Object) (tptp.s__documentation tptp.s__instrument__m tptp.s__EnglishLanguage |tptp.'(instrument ?EVENT ?TOOL) means that ?TOOL is used by an agent in bringing about ?EVENT and that ?TOOL is not changed by ?EVENT. For example, the key is an &%instrument in the following proposition: The key opened the door. Note that &%instrument and &%resource cannot be satisfied by the same ordered pair.'|) (tptp.s__instance tptp.s__origin__m tptp.s__CaseRole) (tptp.s__domain tptp.s__origin__m |"1"| tptp.s__Process) (tptp.s__domain tptp.s__origin__m |"2"| tptp.s__Object) (tptp.s__subrelation tptp.s__origin__m tptp.s__involvedInEvent__m) (tptp.s__documentation tptp.s__origin__m tptp.s__EnglishLanguage |tptp.'(&%origin ?PROCESS ?SOURCE) means that ?SOURCE indicates where the ?Process began. Note that this relation implies that ?SOURCE is present at the beginning of the process, but need not participate throughout the process. For example, the submarine is the &%origin in the following proposition: the missile was launched from a submarine.'|) (tptp.s__instance tptp.s__patient__m tptp.s__CaseRole) (tptp.s__domain tptp.s__patient__m |"1"| tptp.s__Process) (tptp.s__domain tptp.s__patient__m |"2"| tptp.s__Entity) (tptp.s__subrelation tptp.s__patient__m tptp.s__involvedInEvent__m) (tptp.s__documentation tptp.s__patient__m tptp.s__EnglishLanguage |tptp.'(&%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.'|) (tptp.s__subrelation tptp.s__resource__m tptp.s__patient__m) (tptp.s__domain tptp.s__resource__m |"1"| tptp.s__Process) (tptp.s__domain tptp.s__resource__m |"2"| tptp.s__Object) (tptp.s__disjointRelation tptp.s__resource__m tptp.s__result__m) (tptp.s__disjointRelation tptp.s__resource__m tptp.s__instrument__m) (tptp.s__disjointRelation tptp.s__result__m tptp.s__instrument__m) (tptp.s__documentation tptp.s__resource__m tptp.s__EnglishLanguage |tptp.'(&%resource ?PROCESS ?RESOURCE) means that ?RESOURCE is present at the beginning of ?PROCESS, is used by ?PROCESS, and as a consequence is changed by ?PROCESS. For example, soap is a &%resource in the following proposition: the gun was carved out of soap. Note that &%resource differs from &%instrument, another subrelation of &%patient, in that its internal or physical properties are altered in some way by the &%Process.'|) (tptp.s__subrelation tptp.s__result__m tptp.s__patient__m) (tptp.s__domain tptp.s__result__m |"1"| tptp.s__Process) (tptp.s__domain tptp.s__result__m |"2"| tptp.s__Entity) (tptp.s__documentation tptp.s__result__m tptp.s__EnglishLanguage |tptp.'(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.'|) (tptp.s__subclass tptp.s__InheritableRelation tptp.s__Relation) (tptp.s__documentation tptp.s__InheritableRelation tptp.s__EnglishLanguage |tptp.'The class of &%Relations whose properties can be inherited downward in the class hierarchy via the &%subrelation &%Predicate.'|) (tptp.s__subclass tptp.s__ProbabilityRelation tptp.s__Relation) (tptp.s__subclass tptp.s__ProbabilityRelation tptp.s__InheritableRelation) (tptp.s__documentation tptp.s__ProbabilityRelation tptp.s__EnglishLanguage |tptp.'The &%Class of &%Relations that permit assessment of the probability of an event or situation.'|) (tptp.s__instance tptp.s__ProbabilityFn__m tptp.s__ProbabilityRelation) (tptp.s__instance tptp.s__ProbabilityFn__m tptp.s__TotalValuedRelation) (tptp.s__instance tptp.s__ProbabilityFn__m tptp.s__UnaryFunction) (tptp.s__domain tptp.s__ProbabilityFn__m |"1"| tptp.s__Formula) (tptp.s__range tptp.s__ProbabilityFn__m tptp.s__RealNumber) (tptp.s__instance tptp.s__ProbabilityFn__m tptp.s__AsymmetricRelation) (tptp.s__documentation tptp.s__ProbabilityFn__m tptp.s__EnglishLanguage |tptp.'One of the basic &%ProbabilityRelations, &%ProbabilityFn is used to state the a priori probability of a state of affairs. (&%ProbabilityFn ?FORMULA) denotes the a priori probability of ?FORMULA.'|) (tptp.s__instance tptp.s__conditionalProbability__m tptp.s__ProbabilityRelation) (tptp.s__instance tptp.s__conditionalProbability__m tptp.s__TernaryPredicate) (tptp.s__domain tptp.s__conditionalProbability__m |"1"| tptp.s__Formula) (tptp.s__domain tptp.s__conditionalProbability__m |"2"| tptp.s__Formula) (tptp.s__domain tptp.s__conditionalProbability__m |"3"| tptp.s__RealNumber) (tptp.s__documentation tptp.s__conditionalProbability__m tptp.s__EnglishLanguage |tptp.'One of the basic &%ProbabilityRelations. &%conditionalProbability is used to state the numeric value of a conditional probability. (&%conditionalProbability ?FORMULA1 ?FORMULA2 ?NUMBER) means that the probability of ?FORMULA2 being true given that ?FORMULA1 is true is ?NUMBER.'|) (tptp.s__instance tptp.s__increasesLikelihood__m tptp.s__ProbabilityRelation) (tptp.s__instance tptp.s__increasesLikelihood__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__increasesLikelihood__m tptp.s__IrreflexiveRelation) (tptp.s__domain tptp.s__increasesLikelihood__m |"1"| tptp.s__Formula) (tptp.s__domain tptp.s__increasesLikelihood__m |"2"| tptp.s__Formula) (tptp.s__disjointRelation tptp.s__increasesLikelihood__m tptp.s__decreasesLikelihood__m) (tptp.s__disjointRelation tptp.s__increasesLikelihood__m tptp.s__independentProbability__m) (tptp.s__disjointRelation tptp.s__decreasesLikelihood__m tptp.s__independentProbability__m) (tptp.s__documentation tptp.s__increasesLikelihood__m tptp.s__EnglishLanguage |tptp.'One of the basic &%ProbabilityRelations. (&%increasesLikelihood ?FORMULA1 ?FORMULA2) means that ?FORMULA2 is more likely to be true if ?FORMULA1 is true.'|) (forall ((V__NUMBER2 $$unsorted) (V__FORMULA1 $$unsorted) (V__NUMBER1 $$unsorted) (V__FORMULA2 $$unsorted)) (=> (and (tptp.s__instance V__FORMULA2 tptp.s__Formula) (tptp.s__instance V__NUMBER1 tptp.s__Quantity) (tptp.s__instance V__FORMULA1 tptp.s__Formula) (tptp.s__instance V__NUMBER2 tptp.s__RealNumber)) (=> (and (tptp.s__increasesLikelihood V__FORMULA1 V__FORMULA2) (= (tptp.s__ProbabilityFn V__FORMULA2) V__NUMBER1) (tptp.s__conditionalProbability V__FORMULA1 V__FORMULA2 V__NUMBER2)) (tptp.greater V__NUMBER2 V__NUMBER1)))) (tptp.s__instance tptp.s__decreasesLikelihood__m tptp.s__ProbabilityRelation) (tptp.s__instance tptp.s__ProbabilityRelation__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__decreasesLikelihood__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__decreasesLikelihood__m tptp.s__IrreflexiveRelation) (tptp.s__domain tptp.s__decreasesLikelihood__m |"1"| tptp.s__Formula) (tptp.s__domain tptp.s__decreasesLikelihood__m |"2"| tptp.s__Formula) (tptp.s__documentation tptp.s__decreasesLikelihood__m tptp.s__EnglishLanguage |tptp.'One of the basic &%ProbabilityRelations. (&%decreasesLikelihood ?FORMULA1 ?FORMULA2) means that ?FORMULA2 is less likely to be true if ?FORMULA1 is true.'|) (forall ((V__NUMBER2 $$unsorted) (V__FORMULA1 $$unsorted) (V__NUMBER1 $$unsorted) (V__FORMULA2 $$unsorted)) (=> (and (tptp.s__instance V__FORMULA2 tptp.s__Formula) (tptp.s__instance V__NUMBER1 tptp.s__Quantity) (tptp.s__instance V__FORMULA1 tptp.s__Formula) (tptp.s__instance V__NUMBER2 tptp.s__RealNumber)) (=> (and (tptp.s__decreasesLikelihood V__FORMULA1 V__FORMULA2) (= (tptp.s__ProbabilityFn V__FORMULA2) V__NUMBER1) (tptp.s__conditionalProbability V__FORMULA1 V__FORMULA2 V__NUMBER2)) (tptp.less V__NUMBER2 V__NUMBER1)))) (tptp.s__instance tptp.s__independentProbability__m tptp.s__ProbabilityRelation) (tptp.s__instance tptp.s__independentProbability__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__independentProbability__m tptp.s__SymmetricRelation) (tptp.s__domain tptp.s__independentProbability__m |"1"| tptp.s__Formula) (tptp.s__domain tptp.s__independentProbability__m |"2"| tptp.s__Formula) (tptp.s__documentation tptp.s__independentProbability__m tptp.s__EnglishLanguage |tptp.'One of the basic &%ProbabilityRelations. (&%independentProbability ?FORMULA1 ?FORMULA2) means that the probabilities of ?FORMULA1 and ?FORMULA2 being true are independent.'|) (forall ((V__NUMBER2 $$unsorted) (V__FORMULA1 $$unsorted) (V__NUMBER1 $$unsorted) (V__FORMULA2 $$unsorted)) (=> (and (tptp.s__instance V__FORMULA2 tptp.s__Formula) (tptp.s__instance V__FORMULA1 tptp.s__Formula) (tptp.s__instance V__NUMBER2 tptp.s__RealNumber)) (=> (and (tptp.s__independentProbability V__FORMULA1 V__FORMULA2) (= (tptp.s__ProbabilityFn V__FORMULA2) V__NUMBER1) (tptp.s__conditionalProbability V__FORMULA1 V__FORMULA2 V__NUMBER2)) (= V__NUMBER2 V__NUMBER1)))) (forall ((V__FORMULA1 $$unsorted) (V__FORMULA2 $$unsorted)) (=> (and (tptp.s__instance V__FORMULA1 tptp.s__Formula) (tptp.s__instance V__FORMULA2 tptp.s__Formula)) (or (tptp.s__increasesLikelihood V__FORMULA1 V__FORMULA2) (tptp.s__decreasesLikelihood V__FORMULA1 V__FORMULA2) (tptp.s__independentProbability V__FORMULA1 V__FORMULA2)))) (tptp.s__subclass tptp.s__SpatialRelation tptp.s__Relation) (tptp.s__subclass tptp.s__SpatialRelation tptp.s__InheritableRelation) (tptp.s__documentation tptp.s__SpatialRelation tptp.s__EnglishLanguage |tptp.'The &%Class of &%Relations that are spatial in a wide sense. This &%Class includes mereological relations and topological relations.'|) (tptp.s__subclass tptp.s__TemporalRelation tptp.s__Relation) (tptp.s__instance tptp.s__Relation__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__TemporalRelation tptp.s__InheritableRelation) (tptp.s__documentation tptp.s__TemporalRelation tptp.s__EnglishLanguage |tptp.'The &%Class of temporal &%Relations. This &%Class includes notions of (temporal) topology of intervals, (temporal) schemata, and (temporal) extension.'|) (tptp.s__subclass tptp.s__IntentionalRelation tptp.s__InheritableRelation) (tptp.s__subclass tptp.s__IntentionalRelation tptp.s__Relation) (tptp.s__documentation tptp.s__IntentionalRelation tptp.s__EnglishLanguage |tptp.'The &%Class of &%Relations between an &%Agent and one or more &%Entities, where the &%Relation requires that the &%Agent have awareness of the &%Entity.'|) (forall ((V__OBJ $$unsorted) (V__ROW1 $$unsorted) (V__AGENT $$unsorted)) (=> (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (=> (and (tptp.s__inScopeOfInterest V__AGENT V__ROW1) (tptp.s__inList V__OBJ (tptp.s__ListFn_1 V__ROW1))) (tptp.s__inScopeOfInterest V__AGENT V__OBJ)))) (forall ((V__OBJ $$unsorted) (V__ROW1 $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__ServiceProcess) (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__ROW1 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(and (tptp.s__knows V__AGENT V__ROW1) (tptp.s__inList V__OBJ (tptp.s__ListFn_1 V__ROW1))) (tptp.s__inScopeOfInterest V__AGENT V__OBJ)))) (forall ((V__OBJ $$unsorted) (V__ROW1 $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (and (tptp.s__desires V__AGENT V__ROW1) (tptp.s__inList V__OBJ (tptp.s__ListFn_1 V__ROW1))) (tptp.s__inScopeOfInterest V__AGENT V__OBJ)))) (forall ((V__OBJ $$unsorted) (V__ROW1 $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (and (tptp.s__domesticPartner V__AGENT V__ROW1) (tptp.s__inList V__OBJ (tptp.s__ListFn_1 V__ROW1))) (tptp.s__inScopeOfInterest V__AGENT V__OBJ)))) (forall ((V__OBJ $$unsorted) (V__ROW1 $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (and (tptp.s__considers V__AGENT V__ROW1) 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$$unsorted)) (=> (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (=> (tptp.s__desires V__AGENT V__FORMULA) (tptp.s__instance V__FORMULA tptp.s__Formula)))) (tptp.s__subclass tptp.s__ObjectAttitude tptp.s__IntentionalRelation) (tptp.s__subclass tptp.s__ObjectAttitude tptp.s__InheritableRelation) (tptp.s__disjoint tptp.s__ObjectAttitude tptp.s__PropositionalAttitude) (tptp.s__documentation tptp.s__ObjectAttitude tptp.s__EnglishLanguage |tptp.'The &%Class of &%IntentionalRelations where the &%Agent has awareness of an instance of &%Physical.'|) (forall ((V__AGENT $$unsorted) (V__THING $$unsorted)) (=> (and (tptp.s__instance V__THING tptp.s__Object) (tptp.s__instance V__AGENT tptp.s__CognitiveAgent)) (=> (tptp.s__dislikes V__AGENT V__THING) (tptp.s__instance V__THING tptp.s__Physical)))) (forall ((V__AGENT $$unsorted) (V__THING $$unsorted)) (=> (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (=> (tptp.s__wants V__AGENT V__THING) (tptp.s__instance V__THING tptp.s__Physical)))) (forall 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(&%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.'|) (forall ((V__OBJECT $$unsorted) (V__AGENT $$unsorted)) (=> (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (= (exists ((V__PROCESS $$unsorted)) (and (tptp.s__instance V__PROCESS tptp.s__Process) (tptp.s__instance V__PROCESS tptp.s__IntentionalProcess) (tptp.s__agent V__PROCESS V__AGENT) (tptp.s__patient V__PROCESS V__OBJECT))) (tptp.s__inScopeOfInterest V__AGENT V__OBJECT)))) (tptp.s__instance tptp.s__needs__m tptp.s__ObjectAttitude) (tptp.s__instance tptp.s__needs__m tptp.s__BinaryPredicate) (tptp.s__subrelation tptp.s__needs__m tptp.s__inScopeOfInterest__m) (tptp.s__domain tptp.s__needs__m |"1"| tptp.s__CognitiveAgent) (tptp.s__domain tptp.s__needs__m |"2"| tptp.s__Physical) (tptp.s__documentation tptp.s__needs__m tptp.s__EnglishLanguage |tptp.'(&%needs ?AGENT ?OBJECT) means that ?OBJECT is physically required for the continued existence of ?AGENT.'|) (forall ((V__OBJECT $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__OBJECT tptp.s__Physical)) (=> (tptp.s__needs V__AGENT V__OBJECT) (tptp.s__wants V__AGENT V__OBJECT)))) (tptp.s__instance tptp.s__wants__m tptp.s__ObjectAttitude) (tptp.s__instance tptp.s__ObjectAttitude__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__wants__m tptp.s__BinaryPredicate) (tptp.s__subrelation tptp.s__wants__m tptp.s__inScopeOfInterest__m) (tptp.s__relatedInternalConcept tptp.s__wants__m tptp.s__desires__m) (tptp.s__domain tptp.s__wants__m |"1"| tptp.s__CognitiveAgent) (tptp.s__domain tptp.s__wants__m |"2"| tptp.s__Physical) (tptp.s__documentation tptp.s__wants__m tptp.s__EnglishLanguage |tptp.'(&%wants ?AGENT ?OBJECT) means that ?OBJECT is desired by ?AGENT, i.e. ?AGENT believes that ?OBJECT will satisfy one of its goals. Note that there is no implication that what is wanted by an agent is not already possessed by the agent.'|) (forall ((V__OBJ $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__OBJ tptp.s__Physical)) (=> (tptp.s__wants V__AGENT V__OBJ) (exists ((V__PURP $$unsorted)) (and (tptp.s__instance V__PURP tptp.s__Formula) (tptp.s__hasPurposeForAgent V__OBJ V__PURP V__AGENT)))))) (tptp.s__instance tptp.s__desires__m tptp.s__PropositionalAttitude) (tptp.s__instance tptp.s__desires__m tptp.s__BinaryPredicate) (tptp.s__subrelation tptp.s__desires__m tptp.s__inScopeOfInterest__m) (tptp.s__relatedInternalConcept tptp.s__desires__m tptp.s__wants__m) (tptp.s__domain tptp.s__desires__m |"1"| tptp.s__CognitiveAgent) (tptp.s__domain tptp.s__desires__m |"2"| tptp.s__Formula) (tptp.s__documentation tptp.s__desires__m tptp.s__EnglishLanguage |tptp.'(&%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.'|) (tptp.s__instance tptp.s__considers__m tptp.s__PropositionalAttitude) (tptp.s__instance tptp.s__considers__m tptp.s__BinaryPredicate) (tptp.s__subrelation tptp.s__considers__m tptp.s__inScopeOfInterest__m) (tptp.s__domain tptp.s__considers__m |"1"| tptp.s__CognitiveAgent) (tptp.s__domain tptp.s__considers__m |"2"| tptp.s__Formula) (tptp.s__documentation tptp.s__considers__m tptp.s__EnglishLanguage |tptp.'(&%considers ?AGENT ?FORMULA) means that ?AGENT considers or wonders about the truth of the proposition expressed by ?FORMULA.'|) (tptp.s__instance tptp.s__believes__m tptp.s__PropositionalAttitude) (tptp.s__instance tptp.s__believes__m tptp.s__BinaryPredicate) (tptp.s__subrelation tptp.s__believes__m tptp.s__inScopeOfInterest__m) (tptp.s__domain tptp.s__believes__m |"1"| tptp.s__CognitiveAgent) (tptp.s__domain tptp.s__believes__m |"2"| tptp.s__Formula) (tptp.s__documentation tptp.s__believes__m tptp.s__EnglishLanguage |tptp.'The epistemic predicate of belief. 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Note that &%knows entails conscious awareness, so this &%Predicate cannot be used to express tacit or subconscious or unconscious knowledge.'|) (forall ((V__FORMULA $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__FORMULA tptp.s__Formula)) (=> (tptp.s__knows V__AGENT V__FORMULA) (tptp.s__believes V__AGENT V__FORMULA)))) (forall ((V__FORMULA $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__FORMULA tptp.s__Formula)) (=> (tptp.s__knows V__AGENT V__FORMULA) (tptp.s__truth V__FORMULA |tptp.'$true__m'|)))) (tptp.s__subclass tptp.s__TernaryRelation tptp.s__Relation) (tptp.s__subclass tptp.s__TernaryRelation tptp.s__InheritableRelation) (tptp.s__documentation tptp.s__TernaryRelation tptp.s__EnglishLanguage |tptp.'&%TernaryRelations relate three items. 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The uniqueness of &%NullList follows from the extensionality of &%Lists, i.e. the fact that two &%Lists with the same items in the same order are identical.'|) (forall ((V__LIST $$unsorted)) (= (= V__LIST tptp.s__NullList__m) (and (tptp.s__instance V__LIST tptp.s__List) (not (exists ((V__ITEM $$unsorted)) (tptp.s__inList V__ITEM V__LIST)))))) (tptp.s__instance tptp.s__ListFn__m tptp.s__Function) (tptp.s__instance tptp.s__ListFn__m tptp.s__VariableArityRelation) (tptp.s__range tptp.s__ListFn__m tptp.s__List) (tptp.s__documentation tptp.s__ListFn__m tptp.s__EnglishLanguage |tptp.'A &%Function that takes any number of arguments and returns the &%List containing those arguments in exactly the same order.'|) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted)) (=> (tptp.s__exhaustiveDecomposition_2 V__CLASS V__ROW1) (forall ((V__OBJ $$unsorted)) (=> (tptp.s__instance V__CLASS tptp.s__Class) (=> (tptp.s__instance V__OBJ V__CLASS) (exists ((V__ITEM $$unsorted)) (and (tptp.s__instance V__ITEM tptp.s__SetOrClass) (tptp.s__inList V__ITEM (tptp.s__ListFn_1 V__ROW1)) (tptp.s__instance V__OBJ V__ITEM)))))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__exhaustiveDecomposition_3 V__CLASS V__ROW1 V__ROW2) (forall ((V__OBJ $$unsorted)) (=> (tptp.s__instance V__CLASS tptp.s__Class) (=> (tptp.s__instance V__OBJ V__CLASS) (exists ((V__ITEM $$unsorted)) (and (tptp.s__instance V__ITEM tptp.s__SetOrClass) (tptp.s__inList V__ITEM (tptp.s__ListFn_2 V__ROW1 V__ROW2)) (tptp.s__instance V__OBJ V__ITEM)))))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (tptp.s__exhaustiveDecomposition_4 V__CLASS V__ROW1 V__ROW2 V__ROW3) (forall ((V__OBJ $$unsorted)) (=> (tptp.s__instance V__CLASS tptp.s__Class) (=> (tptp.s__instance V__OBJ V__CLASS) (exists ((V__ITEM $$unsorted)) (and (tptp.s__instance V__ITEM tptp.s__SetOrClass) (tptp.s__inList V__ITEM (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) (tptp.s__instance V__OBJ V__ITEM)))))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted)) (=> (tptp.s__exhaustiveDecomposition_5 V__CLASS V__ROW1 V__ROW2 V__ROW3 V__ROW4) (forall ((V__OBJ $$unsorted)) (=> (tptp.s__instance V__CLASS tptp.s__Class) (=> (tptp.s__instance V__OBJ V__CLASS) (exists ((V__ITEM $$unsorted)) (and (tptp.s__instance V__ITEM tptp.s__SetOrClass) (tptp.s__inList V__ITEM (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4)) (tptp.s__instance V__OBJ V__ITEM)))))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted)) (=> (tptp.s__exhaustiveDecomposition_6 V__CLASS V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) (forall ((V__OBJ $$unsorted)) (=> (tptp.s__instance V__CLASS tptp.s__Class) (=> (tptp.s__instance V__OBJ V__CLASS) (exists ((V__ITEM $$unsorted)) (and (tptp.s__instance V__ITEM tptp.s__SetOrClass) (tptp.s__inList V__ITEM (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5)) (tptp.s__instance V__OBJ V__ITEM)))))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted)) (=> (tptp.s__exhaustiveDecomposition_7 V__CLASS V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) (forall ((V__OBJ $$unsorted)) (=> (tptp.s__instance V__CLASS tptp.s__Class) (=> (tptp.s__instance V__OBJ V__CLASS) (exists ((V__ITEM $$unsorted)) (and (tptp.s__instance V__ITEM tptp.s__SetOrClass) (tptp.s__inList V__ITEM (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6)) (tptp.s__instance V__OBJ V__ITEM)))))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ROW7 $$unsorted)) (=> (tptp.s__exhaustiveDecomposition_8 V__CLASS V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7) (forall ((V__OBJ $$unsorted)) (=> (tptp.s__instance V__CLASS tptp.s__Class) (=> (tptp.s__instance V__OBJ V__CLASS) (exists ((V__ITEM $$unsorted)) (and (tptp.s__instance V__ITEM tptp.s__SetOrClass) (tptp.s__inList V__ITEM (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7)) (tptp.s__instance V__OBJ V__ITEM)))))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted)) (=> (tptp.s__disjointDecomposition_2 V__CLASS V__ROW1) (forall ((V__ITEM $$unsorted)) (=> (and (tptp.s__instance V__ITEM tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__Class)) (=> (tptp.s__inList V__ITEM (tptp.s__ListFn_1 V__ROW1)) (tptp.s__subclass V__ITEM V__CLASS)))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__disjointDecomposition_3 V__CLASS V__ROW1 V__ROW2) (forall ((V__ITEM $$unsorted)) (=> (and (tptp.s__instance V__ITEM tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__Class)) (=> (tptp.s__inList V__ITEM (tptp.s__ListFn_2 V__ROW1 V__ROW2)) (tptp.s__subclass V__ITEM V__CLASS)))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (tptp.s__disjointDecomposition_4 V__CLASS V__ROW1 V__ROW2 V__ROW3) (forall ((V__ITEM $$unsorted)) (=> (and (tptp.s__instance V__ITEM tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__Class)) (=> (tptp.s__inList V__ITEM (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) (tptp.s__subclass V__ITEM V__CLASS)))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted)) (=> (tptp.s__disjointDecomposition_5 V__CLASS V__ROW1 V__ROW2 V__ROW3 V__ROW4) (forall ((V__ITEM $$unsorted)) (=> (and (tptp.s__instance V__ITEM tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__Class)) (=> (tptp.s__inList V__ITEM (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4)) (tptp.s__subclass V__ITEM V__CLASS)))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted)) (=> (tptp.s__disjointDecomposition_6 V__CLASS V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) (forall ((V__ITEM $$unsorted)) (=> (and (tptp.s__instance V__ITEM tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__Class)) (=> (tptp.s__inList V__ITEM (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5)) (tptp.s__subclass V__ITEM V__CLASS)))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted)) (=> (tptp.s__disjointDecomposition_7 V__CLASS V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) (forall ((V__ITEM $$unsorted)) (=> (and (tptp.s__instance V__ITEM tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__Class)) (=> (tptp.s__inList V__ITEM (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6)) (tptp.s__subclass V__ITEM V__CLASS)))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ROW7 $$unsorted)) (=> (tptp.s__disjointDecomposition_8 V__CLASS V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7) (forall ((V__ITEM $$unsorted)) (=> (and (tptp.s__instance V__ITEM tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__Class)) (=> (tptp.s__inList V__ITEM (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7)) (tptp.s__subclass V__ITEM V__CLASS)))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted)) (=> (tptp.s__disjointDecomposition_2 V__CLASS V__ROW1) (forall ((V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (let ((_let_1 (tptp.s__ListFn_1 V__ROW1))) (=> (and (tptp.s__instance V__ITEM2 tptp.s__SetOrClass) (tptp.s__instance V__ITEM1 tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__Class)) (=> (and (tptp.s__inList V__ITEM1 _let_1) (tptp.s__inList V__ITEM2 _let_1) (not (= V__ITEM1 V__ITEM2))) (tptp.s__disjoint V__ITEM1 V__ITEM2))))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__disjointDecomposition_3 V__CLASS V__ROW1 V__ROW2) (forall ((V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (let ((_let_1 (tptp.s__ListFn_2 V__ROW1 V__ROW2))) (=> (and (tptp.s__instance V__ITEM2 tptp.s__SetOrClass) (tptp.s__instance V__ITEM1 tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__Class)) (=> (and (tptp.s__inList V__ITEM1 _let_1) (tptp.s__inList V__ITEM2 _let_1) (not (= V__ITEM1 V__ITEM2))) (tptp.s__disjoint V__ITEM1 V__ITEM2))))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (tptp.s__disjointDecomposition_4 V__CLASS V__ROW1 V__ROW2 V__ROW3) (forall ((V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (let ((_let_1 (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3))) (=> (and (tptp.s__instance V__ITEM2 tptp.s__SetOrClass) (tptp.s__instance V__ITEM1 tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__Class)) (=> (and (tptp.s__inList V__ITEM1 _let_1) (tptp.s__inList V__ITEM2 _let_1) (not (= V__ITEM1 V__ITEM2))) (tptp.s__disjoint V__ITEM1 V__ITEM2))))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted)) (=> (tptp.s__disjointDecomposition_5 V__CLASS V__ROW1 V__ROW2 V__ROW3 V__ROW4) (forall ((V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (let ((_let_1 (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4))) (=> (and (tptp.s__instance V__ITEM2 tptp.s__SetOrClass) (tptp.s__instance V__ITEM1 tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__Class)) (=> (and (tptp.s__inList V__ITEM1 _let_1) (tptp.s__inList V__ITEM2 _let_1) (not (= V__ITEM1 V__ITEM2))) (tptp.s__disjoint V__ITEM1 V__ITEM2))))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted)) (=> (tptp.s__disjointDecomposition_6 V__CLASS V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) (forall ((V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (let ((_let_1 (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5))) (=> (and (tptp.s__instance V__ITEM2 tptp.s__SetOrClass) (tptp.s__instance V__ITEM1 tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__Class)) (=> (and (tptp.s__inList V__ITEM1 _let_1) (tptp.s__inList V__ITEM2 _let_1) (not (= V__ITEM1 V__ITEM2))) (tptp.s__disjoint V__ITEM1 V__ITEM2))))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted)) (=> (tptp.s__disjointDecomposition_7 V__CLASS V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) (forall ((V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (let ((_let_1 (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6))) (=> (and (tptp.s__instance V__ITEM2 tptp.s__SetOrClass) (tptp.s__instance V__ITEM1 tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__Class)) (=> (and (tptp.s__inList V__ITEM1 _let_1) (tptp.s__inList V__ITEM2 _let_1) (not (= V__ITEM1 V__ITEM2))) (tptp.s__disjoint V__ITEM1 V__ITEM2))))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ROW7 $$unsorted)) (=> (tptp.s__disjointDecomposition_8 V__CLASS V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7) (forall ((V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (let ((_let_1 (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7))) (=> (and (tptp.s__instance V__ITEM2 tptp.s__SetOrClass) (tptp.s__instance V__ITEM1 tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__Class)) (=> (and (tptp.s__inList V__ITEM1 _let_1) (tptp.s__inList V__ITEM2 _let_1) (not (= V__ITEM1 V__ITEM2))) (tptp.s__disjoint V__ITEM1 V__ITEM2))))))) (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__SetOrClass) (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__Class) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (= (tptp.s__disjointDecomposition_4 V__CLASS V__ROW1 V__ROW2 V__ROW3) (and (tptp.s__disjoint V__ROW1 V__ROW2) (tptp.s__disjoint V__ROW2 V__ROW3) (tptp.s__disjoint V__ROW3 V__ROW1))))) (tptp.s__instance tptp.s__ListOrderFn__m tptp.s__BinaryFunction) (tptp.s__instance tptp.s__ListOrderFn__m tptp.s__PartialValuedRelation) (tptp.s__domain tptp.s__ListOrderFn__m |"1"| tptp.s__List) (tptp.s__domain tptp.s__ListOrderFn__m |"2"| tptp.s__PositiveInteger) (tptp.s__range tptp.s__ListOrderFn__m tptp.s__Entity) (tptp.s__documentation tptp.s__ListOrderFn__m tptp.s__EnglishLanguage |tptp.'(&%ListOrderFn ?LIST ?NUMBER) denotes the item that is in the ?NUMBER position in the &%List ?LIST. For example, (&%ListOrderFn (&%ListFn &%Monday &%Tuesday &%Wednesday) 2) would return the value &%Tuesday.'|) (forall ((V__LIST2 $$unsorted) (V__LIST1 $$unsorted)) (=> (and (tptp.s__instance V__LIST1 tptp.s__List) (not (= V__LIST1 tptp.s__NullList__m)) (not (= V__LIST2 tptp.s__NullList__m)) (tptp.s__instance V__LIST2 tptp.s__List) (forall ((V__NUMBER $$unsorted)) (=> (and (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (tptp.s__instance V__LIST1 tptp.s__List) (tptp.s__instance V__LIST2 tptp.s__List)) (= (tptp.s__ListOrderFn V__LIST1 V__NUMBER) (tptp.s__ListOrderFn V__LIST2 V__NUMBER))))) (= V__LIST1 V__LIST2))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Woman) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__grandmother V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Human)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__Function)) (=> (tptp.s__closedOn V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Function)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Organism) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (tptp.s__son V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Organism)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Substance) (tptp.s__instance V__ROW1 tptp.s__Substance)) (=> (tptp.s__piece V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Substance)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Organization) (tptp.s__instance V__ROW1 tptp.s__Organization)) (=> (tptp.s__affiliatedOrganization V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Organization)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__subclass V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__SetOrClass)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__Woman)) (=> (tptp.s__aunt V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Human)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__FieldOfStudy) (tptp.s__instance V__ROW1 tptp.s__FieldOfStudy)) (=> (tptp.s__subField V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__FieldOfStudy)))) (forall 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(tptp.s__subclass V__ROW2 tptp.s__UniformClothing) (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__Group)) (=> (tptp.s__hasUniform V__ROW1 V__ROW2) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__UniformClothing)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__subclass V__ROW2 tptp.s__Text) (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__Organization)) (=> (tptp.s__publishes V__ROW1 V__ROW2) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Text)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__subclass V__ROW2 tptp.s__Process) (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__subclass V__ROW1 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__inhibits V__ROW1 V__ROW2) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Process)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__subclass V__ROW2 tptp.s__Process) (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__subclass V__ROW1 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__precondition V__ROW1 V__ROW2) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Process)))) (forall ((V__ROW1 $$unsorted)) (=> (and (tptp.s__subclass V__ROW1 tptp.s__Attribute) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__exhaustiveAttribute_1 V__ROW1) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW1) |"1"|) tptp.s__Attribute)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__subclass V__ROW1 tptp.s__Attribute) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__exhaustiveAttribute_2 V__ROW1 V__ROW2) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Attribute)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__subclass V__ROW1 tptp.s__Attribute) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__exhaustiveAttribute_3 V__ROW1 V__ROW2 V__ROW3) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__Attribute)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted)) (=> (and (tptp.s__subclass V__ROW1 tptp.s__Attribute) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__exhaustiveAttribute_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4) |"1"|) tptp.s__Attribute)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted)) (=> (and (tptp.s__subclass V__ROW1 tptp.s__Attribute) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__exhaustiveAttribute_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) |"1"|) tptp.s__Attribute)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted)) (=> (and (tptp.s__subclass V__ROW1 tptp.s__Attribute) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__exhaustiveAttribute_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) |"1"|) tptp.s__Attribute)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ROW7 $$unsorted)) (=> (and (tptp.s__subclass V__ROW1 tptp.s__Attribute) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__exhaustiveAttribute_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7) |"1"|) tptp.s__Attribute)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__subclass V__ROW2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__subclass V__ROW1 tptp.s__ContentBearingPhysical) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__subsumesContentClass V__ROW1 V__ROW2) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__ContentBearingPhysical)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__Quantity) (tptp.s__subclass V__ROW2 tptp.s__Device) (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__equipmentCount V__ROW1 V__ROW2 V__ROW3) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__Device)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__PositiveInteger) (tptp.s__subclass V__ROW1 tptp.s__ElementalSubstance) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__atomicNumber V__ROW1 V__ROW2) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__ElementalSubstance)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TemperatureMeasure) (tptp.s__subclass V__ROW1 tptp.s__PureSubstance) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__meltingPoint V__ROW1 V__ROW2) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__PureSubstance)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__GeographicArea) (tptp.s__subclass V__ROW2 tptp.s__Process) (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__Agent)) (=> (tptp.s__areaOfResponsibility V__ROW1 V__ROW2 V__ROW3) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__Process)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__subclass V__ROW2 tptp.s__TimePosition) (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__dateEstablished V__ROW1 V__ROW2) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__TimePosition)))) (tptp.s__instance tptp.s__ListLengthFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__ListLengthFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__ListLengthFn__m |"1"| tptp.s__List) (tptp.s__range tptp.s__ListLengthFn__m tptp.s__NonnegativeInteger) (tptp.s__documentation tptp.s__ListLengthFn__m tptp.s__EnglishLanguage |tptp.'A &%Function that takes a &%List as its sole argument and returns the number of items in the &%List. For example, (&%ListLengthFn (&%ListFn &%Monday &%Tuesday &%Wednesday)) would return the value 3.'|) (forall ((V__NUMBER1 $$unsorted) (V__LIST $$unsorted)) (=> (and (= (tptp.s__ListLengthFn V__LIST) V__NUMBER1) (tptp.s__instance V__LIST tptp.s__List) (not (= V__LIST tptp.s__NullList__m)) (tptp.s__instance V__NUMBER1 tptp.s__PositiveInteger)) (forall ((V__NUMBER2 $$unsorted)) (=> (and (tptp.s__instance V__NUMBER2 tptp.s__PositiveInteger) (tptp.s__instance V__LIST tptp.s__List) (tptp.s__instance V__NUMBER1 tptp.s__Quantity)) (= (exists ((V__ITEM $$unsorted)) (and (= (tptp.s__ListOrderFn V__LIST V__NUMBER2) V__ITEM) (tptp.s__inList V__ITEM V__LIST))) (tptp.lesseq V__NUMBER2 V__NUMBER1)))))) (forall ((V__ROW1 $$unsorted) (V__ITEM $$unsorted)) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ITEM)) (tptp.s__SuccessorFn (tptp.s__ListLengthFn (tptp.s__ListFn_1 V__ROW1))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ITEM $$unsorted)) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ITEM)) (tptp.s__SuccessorFn (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ITEM $$unsorted)) (= (tptp.s__ListLengthFn (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ITEM)) (tptp.s__SuccessorFn (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ITEM $$unsorted)) (= (tptp.s__ListLengthFn (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ITEM)) (tptp.s__SuccessorFn (tptp.s__ListLengthFn (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ITEM $$unsorted)) (= (tptp.s__ListLengthFn (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ITEM)) (tptp.s__SuccessorFn (tptp.s__ListLengthFn (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ITEM $$unsorted)) (= (tptp.s__ListLengthFn (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ITEM)) (tptp.s__SuccessorFn (tptp.s__ListLengthFn (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6))))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ROW7 $$unsorted) (V__ITEM $$unsorted)) (= (tptp.s__ListLengthFn (tptp.s__ListFn_8 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7 V__ITEM)) (tptp.s__SuccessorFn (tptp.s__ListLengthFn (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7))))) (forall ((V__ROW1 $$unsorted) (V__ITEM $$unsorted)) (let ((_let_1 (tptp.s__ListFn_2 V__ROW1 V__ITEM))) (= (tptp.s__ListOrderFn _let_1 (tptp.s__ListLengthFn _let_1)) V__ITEM))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ITEM $$unsorted)) (let ((_let_1 (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ITEM))) (= (tptp.s__ListOrderFn _let_1 (tptp.s__ListLengthFn _let_1)) V__ITEM))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ITEM $$unsorted)) (let ((_let_1 (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ITEM))) (= (tptp.s__ListOrderFn _let_1 (tptp.s__ListLengthFn _let_1)) V__ITEM))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ITEM $$unsorted)) (let ((_let_1 (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ITEM))) (= (tptp.s__ListOrderFn _let_1 (tptp.s__ListLengthFn _let_1)) V__ITEM))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ITEM $$unsorted)) (let ((_let_1 (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ITEM))) (= (tptp.s__ListOrderFn _let_1 (tptp.s__ListLengthFn _let_1)) V__ITEM))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ITEM $$unsorted)) (let ((_let_1 (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ITEM))) (= (tptp.s__ListOrderFn _let_1 (tptp.s__ListLengthFn _let_1)) V__ITEM))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__subclass V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__Function)) (=> (tptp.s__rangeSubclass V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__LengthMeasure) (tptp.s__instance V__ROW1 tptp.s__Circle)) (=> (tptp.s__radius V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TwoDimensionalObject) (tptp.s__instance V__ROW1 tptp.s__OneDimensionalFigure)) (=> (tptp.s__tangent V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW2 tptp.s__Set) (=> (tptp.s__element V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__CognitiveAgent)) (=> (tptp.s__disapproves V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__Function)) (=> (tptp.s__closedOn V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__legalGuardian V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__CurrencyMeasure) (tptp.s__instance V__ROW1 tptp.s__FinancialTransaction)) (=> (tptp.s__transactionAmount V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__causesProposition V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimeDuration) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__age V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))) (forall ((V__ROW1 $$unsorted) 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_let_1 (tptp.s__ListLengthFn V__LIST2)) (= (tptp.s__ListOrderFn V__LIST2 _let_1) V__ITEM))))))) (tptp.s__instance tptp.s__ListConcatenateFn__m tptp.s__BinaryFunction) (tptp.s__instance tptp.s__ListConcatenateFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__ListConcatenateFn__m |"1"| tptp.s__List) (tptp.s__domain tptp.s__ListConcatenateFn__m |"2"| tptp.s__List) (tptp.s__range tptp.s__ListConcatenateFn__m tptp.s__List) (tptp.s__documentation tptp.s__ListConcatenateFn__m tptp.s__EnglishLanguage |tptp.'A &%Function that returns the concatenation of the two &%Lists that are given as arguments. For example, the value of (&%ListConcatenateFn (&%ListFn &%Monday &%Tuesday) (&%ListFn &%Wednesday &%Thursday)) would be (&%ListFn &%Monday &%Tuesday &%Wednesday &%Thursday).'|) (tptp.s__instance tptp.s__inList__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__inList__m tptp.s__IrreflexiveRelation) (tptp.s__instance tptp.s__inList__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__inList__m |"1"| tptp.s__Entity) (tptp.s__domain tptp.s__inList__m |"2"| tptp.s__List) (tptp.s__documentation tptp.s__inList__m tptp.s__EnglishLanguage |tptp.'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.'|) (forall ((V__ITEM $$unsorted) (V__LIST $$unsorted)) (=> (tptp.s__instance V__LIST tptp.s__List) (=> (tptp.s__inList V__ITEM V__LIST) (exists ((V__NUMBER $$unsorted)) (and (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn V__LIST V__NUMBER) V__ITEM)))))) (tptp.s__instance tptp.s__subList__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__subList__m tptp.s__PartialOrderingRelation) (tptp.s__domain tptp.s__subList__m |"1"| tptp.s__List) (tptp.s__domain tptp.s__subList__m |"2"| tptp.s__List) (tptp.s__documentation tptp.s__subList__m tptp.s__EnglishLanguage |tptp.'(&%subList ?LIST1 ?LIST2) means that ?LIST1 is a sublist of ?LIST2, i.e. every element of ?LIST1 is an element of ?LIST2 and the elements that are common to both &%Lists have the same order in both &%Lists. Elements that are common to both Lists and are consecutive in one list must also be consecutive in the other list. (Therefore - the list of prime numbers smaller than 10 [1 2 3 5 7] is not a subList of the natural numbers smaller than 10 [1 2 3 4 5 6 7 8 9]).'|) (forall ((V__LIST2 $$unsorted) (V__LIST1 $$unsorted)) (=> (and (tptp.s__subList V__LIST1 V__LIST2) (not (tptp.s__equals V__LIST1 tptp.s__NullList__m)) (not (tptp.s__equals V__LIST2 tptp.s__NullList__m))) (forall ((V__ITEM $$unsorted)) (=> (and (tptp.s__instance V__LIST1 tptp.s__List) (tptp.s__instance V__LIST2 tptp.s__List)) (=> (tptp.s__inList V__ITEM V__LIST1) (tptp.s__inList V__ITEM V__LIST2)))))) (forall ((V__LIST2 $$unsorted) (V__LIST1 $$unsorted)) (=> (and (tptp.s__subList V__LIST1 V__LIST2) (not (tptp.s__equals V__LIST1 tptp.s__NullList__m)) (not (tptp.s__equals V__LIST2 tptp.s__NullList__m))) (exists ((V__NUMBER3 $$unsorted)) (forall ((V__ITEM $$unsorted)) (=> (and (tptp.s__instance V__LIST1 tptp.s__List) (tptp.s__instance V__LIST2 tptp.s__List)) (=> (tptp.s__inList V__ITEM V__LIST1) (exists ((V__NUMBER1 $$unsorted) (V__NUMBER2 $$unsorted)) (and (tptp.s__instance V__NUMBER2 tptp.s__PositiveInteger) (tptp.s__instance V__NUMBER1 tptp.s__PositiveInteger) (tptp.s__instance V__NUMBER3 tptp.s__Quantity) (= (tptp.s__ListOrderFn V__LIST1 V__NUMBER1) V__ITEM) (= (tptp.s__ListOrderFn V__LIST2 V__NUMBER2) V__ITEM) (= V__NUMBER2 (tptp.plus V__NUMBER1 V__NUMBER3)))))))))) (tptp.s__instance tptp.s__initialList__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__initialList__m tptp.s__PartialOrderingRelation) (tptp.s__subrelation tptp.s__initialList__m tptp.s__subList__m) (tptp.s__documentation tptp.s__initialList__m tptp.s__EnglishLanguage |tptp.'(&%initialList ?LIST1 ?LIST2) means that ?LIST1 is a &%subList of ?LIST2 and (&%ListOrderFn ?LIST1 ?NUMBER) returns the same value as (&%ListOrderFn ?LIST2 ?NUMBER) for all of the values of ?NUMBER over which (&%ListOrderFn ?LIST1 ?NUMBER) is defined.'|) (forall ((V__LIST2 $$unsorted) (V__LIST1 $$unsorted)) (=> (and (tptp.s__initialList V__LIST1 V__LIST2) (not (tptp.s__equals V__LIST1 tptp.s__NullList__m)) (not (tptp.s__equals V__LIST2 tptp.s__NullList__m))) (forall ((V__NUMBER1 $$unsorted) (V__NUMBER2 $$unsorted)) (=> (and (tptp.s__instance V__NUMBER2 tptp.s__PositiveInteger) (tptp.s__instance V__NUMBER1 tptp.s__Quantity) (tptp.s__instance V__LIST1 tptp.s__List) (tptp.s__instance V__LIST2 tptp.s__List)) (=> (and (= (tptp.s__ListLengthFn V__LIST1) V__NUMBER1) (tptp.lesseq V__NUMBER2 V__NUMBER1)) (= (tptp.s__ListOrderFn V__LIST1 V__NUMBER2) (tptp.s__ListOrderFn V__LIST2 V__NUMBER2))))))) (forall ((V__ROW1 $$unsorted) (V__ITEM $$unsorted)) (tptp.s__initialList (tptp.s__ListFn_1 V__ROW1) (tptp.s__ListFn_2 V__ROW1 V__ITEM))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ITEM $$unsorted)) (tptp.s__initialList (tptp.s__ListFn_2 V__ROW1 V__ROW2) (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ITEM))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ITEM $$unsorted)) (tptp.s__initialList (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ITEM))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ITEM $$unsorted)) (tptp.s__initialList (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4) (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ITEM))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ITEM $$unsorted)) (tptp.s__initialList (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ITEM))) (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ITEM $$unsorted)) (tptp.s__initialList (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ITEM))) (tptp.s__instance tptp.s__identicalListItems__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__identicalListItems__m tptp.s__EquivalenceRelation) (tptp.s__domain tptp.s__identicalListItems__m |"1"| tptp.s__List) (tptp.s__domain tptp.s__identicalListItems__m |"2"| tptp.s__List) (tptp.s__documentation tptp.s__identicalListItems__m tptp.s__EnglishLanguage |tptp.'(&%identicalListItems ?LIST1 ?LIST2) means that ?LIST1 and ?LIST2 have exactly the same items in their respective lists. Although ?LIST1 and ?LIST2 are required to share exactly the same items, they may order these items differently.'|) (forall ((V__ITEM $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted)) (=> (and (tptp.s__instance V__LIST1 tptp.s__List) (tptp.s__instance V__LIST2 tptp.s__List)) (=> (and (tptp.s__identicalListItems V__LIST1 V__LIST2) (not (tptp.s__equals V__LIST1 tptp.s__NullList__m)) (not (tptp.s__equals V__LIST2 tptp.s__NullList__m))) (= (tptp.s__inList V__ITEM V__LIST1) (tptp.s__inList V__ITEM V__LIST2))))) (tptp.s__subclass tptp.s__Predicate tptp.s__Relation) (tptp.s__subclass tptp.s__Predicate tptp.s__InheritableRelation) _let_14 (tptp.s__instance tptp.s__InheritableRelation__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Predicate tptp.s__EnglishLanguage |tptp.'A &%Predicate is a sentence-forming &%Relation. Each tuple in the &%Relation is a finite, ordered sequence of objects. The fact that a particular tuple is an element of a &%Predicate is denoted by (*predicate* arg_1 arg_2 .. arg_n), where the arg_i are the objects so related. In the case of &%BinaryPredicates, the fact can be read as `arg_1 is *predicate* arg_2 or `a *predicate* of arg_1 is arg_2.'|) (tptp.s__subclass tptp.s__Function tptp.s__SingleValuedRelation) (tptp.s__subclass tptp.s__Function tptp.s__InheritableRelation) (tptp.s__documentation tptp.s__Function tptp.s__EnglishLanguage |tptp.'A &%Function is a term-forming &%Relation that maps from a n-tuple of arguments to a range and that associates this n-tuple with at most one range element. Note that the range is a &%SetOrClass, and each element of the range is an instance of the &%SetOrClass.'|) (tptp.s__subclass tptp.s__UnaryFunction tptp.s__Function) (tptp.s__subclass tptp.s__UnaryFunction tptp.s__BinaryRelation) (tptp.s__subclass tptp.s__UnaryFunction tptp.s__InheritableRelation) (tptp.s__documentation tptp.s__UnaryFunction tptp.s__EnglishLanguage |tptp.'The &%Class of &%Functions that require a single argument.'|) (forall ((V__FUNCTION $$unsorted)) (=> (tptp.s__instance V__FUNCTION tptp.s__Relation) (=> (tptp.s__instance V__FUNCTION tptp.s__UnaryFunction) (tptp.s__valence V__FUNCTION |"1"|)))) (tptp.s__subclass tptp.s__OneToOneFunction tptp.s__UnaryFunction) (tptp.s__instance tptp.s__OneToOneFunction__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__OneToOneFunction tptp.s__EnglishLanguage |tptp.'The &%Class of &%UnaryFunctions which are one to one. A function F is one to one just in case for all X, Y in the domain of F, if X is not identical to Y, then F(X) is not identical to F(Y).'|) (forall ((V__FUN $$unsorted) (V__CLASS $$unsorted)) (=> (tptp.s__instance V__FUN tptp.s__OneToOneFunction) (forall ((V__ARG1 $$unsorted) (V__ARG2 $$unsorted)) (=> (and (tptp.s__instance V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__FUN tptp.s__Function)) (=> (and (tptp.s__domain V__FUN |"1"| V__CLASS) (tptp.s__instance V__ARG1 V__CLASS) (tptp.s__instance V__ARG2 V__CLASS) (not (= V__ARG1 V__ARG2))) (not (= (tptp.s__AssignmentFn_2 V__FUN V__ARG1) (tptp.s__AssignmentFn_2 V__FUN V__ARG2)))))))) (tptp.s__subclass tptp.s__SequenceFunction tptp.s__OneToOneFunction) (tptp.s__instance tptp.s__SequenceFunction__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SequenceFunction tptp.s__EnglishLanguage |tptp.'The &%Class of &%OneToOneFunctions whose range is a subclass of the &%PositiveIntegers.'|) (forall ((V__CLASS $$unsorted) (V__SEQ $$unsorted)) (=> (and (tptp.s__instance V__SEQ tptp.s__Function) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (and (tptp.s__instance V__SEQ tptp.s__SequenceFunction) (tptp.s__range V__SEQ V__CLASS)) (tptp.s__subclass V__CLASS tptp.s__Integer)))) (tptp.s__subclass tptp.s__BinaryFunction tptp.s__Function) (tptp.s__subclass tptp.s__BinaryFunction tptp.s__TernaryRelation) (tptp.s__subclass tptp.s__BinaryFunction tptp.s__InheritableRelation) (tptp.s__documentation tptp.s__BinaryFunction tptp.s__EnglishLanguage |tptp.'The &%Class of &%Functions that require two arguments.'|) (forall ((V__FUNCTION $$unsorted)) (=> (tptp.s__instance V__FUNCTION tptp.s__Relation) (=> (tptp.s__instance V__FUNCTION tptp.s__BinaryFunction) (tptp.s__valence V__FUNCTION |"2"|)))) (tptp.s__subclass tptp.s__AssociativeFunction tptp.s__BinaryFunction) (tptp.s__instance tptp.s__AssociativeFunction__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AssociativeFunction tptp.s__EnglishLanguage |tptp.'A &%BinaryFunction is associative if bracketing has no effect on the value returned by the &%Function. More precisely, a &%Function ?FUNCTION is associative just in case (?FUNCTION ?INST1 (?FUNCTION ?INST2 ?INST3)) is equal to (?FUNCTION (?FUNCTION ?INST1 ?INST2) ?INST3), for all ?INST1, ?INST2, and ?INST3.'|) (forall ((V__CLASS $$unsorted) (V__FUNCTION $$unsorted)) (=> (tptp.s__instance V__FUNCTION tptp.s__AssociativeFunction) (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__FUNCTION tptp.s__Function) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (and (tptp.s__domain V__FUNCTION |"1"| V__CLASS) (tptp.s__instance V__INST1 V__CLASS) (tptp.s__instance V__INST2 V__CLASS) (tptp.s__instance V__INST3 V__CLASS)) (= (tptp.s__AssignmentFn_3 V__FUNCTION V__INST1 (tptp.s__AssignmentFn_3 V__FUNCTION V__INST2 V__INST3)) (tptp.s__AssignmentFn_3 V__FUNCTION (tptp.s__AssignmentFn_3 V__FUNCTION V__INST1 V__INST2) V__INST3))))))) (tptp.s__subclass tptp.s__CommutativeFunction tptp.s__BinaryFunction) (tptp.s__documentation tptp.s__CommutativeFunction tptp.s__EnglishLanguage |tptp.'A &%BinaryFunction is commutative if the ordering of the arguments of the function has no effect on the value returned by the function. More precisely, a function ?FUNCTION is commutative just in case (?FUNCTION ?INST1 ?INST2) is equal to (?FUNCTION ?INST2 ?INST1), for all ?INST1 and ?INST2.'|) (forall ((V__CLASS $$unsorted) (V__FUNCTION $$unsorted)) (=> (tptp.s__instance V__FUNCTION tptp.s__CommutativeFunction) (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__FUNCTION tptp.s__Function) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (and (tptp.s__domain V__FUNCTION |"1"| V__CLASS) (tptp.s__instance V__INST1 V__CLASS) (tptp.s__instance V__INST2 V__CLASS)) (= (tptp.s__AssignmentFn_3 V__FUNCTION V__INST1 V__INST2) (tptp.s__AssignmentFn_3 V__FUNCTION V__INST2 V__INST1))))))) (tptp.s__subclass tptp.s__TernaryFunction tptp.s__Function) (tptp.s__instance tptp.s__TernaryFunction__t tptp.s__SetOrClass) _let_13 (tptp.s__subclass tptp.s__TernaryFunction tptp.s__QuaternaryRelation) (tptp.s__instance tptp.s__QuaternaryRelation__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__TernaryFunction tptp.s__InheritableRelation) (tptp.s__documentation tptp.s__TernaryFunction tptp.s__EnglishLanguage |tptp.'The &%Class of &%Functions that require exactly three arguments.'|) (forall ((V__FUNCTION $$unsorted)) (=> (tptp.s__instance V__FUNCTION tptp.s__Relation) (=> (tptp.s__instance V__FUNCTION tptp.s__TernaryFunction) (tptp.s__valence V__FUNCTION |"3"|)))) (tptp.s__subclass tptp.s__QuaternaryFunction tptp.s__Function) (tptp.s__subclass tptp.s__QuaternaryFunction tptp.s__QuintaryRelation) (tptp.s__subclass tptp.s__QuaternaryFunction tptp.s__InheritableRelation) (tptp.s__documentation tptp.s__QuaternaryFunction tptp.s__EnglishLanguage |tptp.'The &%Class of &%Functions that require exactly four arguments.'|) (forall ((V__FUNCTION $$unsorted)) (=> (tptp.s__instance V__FUNCTION tptp.s__Relation) (=> (tptp.s__instance V__FUNCTION tptp.s__QuaternaryFunction) (tptp.s__valence V__FUNCTION |"4"|)))) (tptp.s__subclass tptp.s__ContinuousFunction tptp.s__Function) (tptp.s__instance tptp.s__ContinuousFunction__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ContinuousFunction tptp.s__EnglishLanguage |tptp.'&%Functions which are continuous. This concept is taken as primitive until representations for limits are devised.'|) (tptp.s__subclass tptp.s__BinaryPredicate tptp.s__Predicate) (tptp.s__subclass tptp.s__BinaryPredicate tptp.s__BinaryRelation) (tptp.s__instance tptp.s__BinaryRelation__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__BinaryPredicate tptp.s__InheritableRelation) (tptp.s__documentation tptp.s__BinaryPredicate tptp.s__EnglishLanguage |tptp.'A &%Predicate relating two items - its valence is two.'|) (forall ((V__REL $$unsorted)) (=> (tptp.s__instance V__REL tptp.s__Relation) (=> (tptp.s__instance V__REL tptp.s__BinaryPredicate) (tptp.s__valence V__REL |"2"|)))) (tptp.s__subclass tptp.s__TernaryPredicate tptp.s__Predicate) (tptp.s__subclass tptp.s__TernaryPredicate tptp.s__TernaryRelation) (tptp.s__instance tptp.s__TernaryRelation__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__TernaryPredicate tptp.s__InheritableRelation) (tptp.s__documentation tptp.s__TernaryPredicate tptp.s__EnglishLanguage |tptp.'The &%Class of &%Predicates that require exactly three arguments.'|) (forall ((V__REL $$unsorted)) (=> (tptp.s__instance V__REL tptp.s__Relation) (=> (tptp.s__instance V__REL tptp.s__TernaryPredicate) (tptp.s__valence V__REL |"3"|)))) (tptp.s__subclass tptp.s__QuaternaryPredicate tptp.s__Predicate) (tptp.s__subclass tptp.s__QuaternaryPredicate tptp.s__QuaternaryRelation) (tptp.s__subclass tptp.s__QuaternaryPredicate tptp.s__InheritableRelation) (tptp.s__instance tptp.s__QuaternaryPredicate__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__QuaternaryPredicate tptp.s__EnglishLanguage |tptp.'The &%Class of &%Predicates that require four arguments.'|) (forall ((V__REL $$unsorted)) (=> (tptp.s__instance V__REL tptp.s__Relation) (=> (tptp.s__instance V__REL tptp.s__QuaternaryPredicate) (tptp.s__valence V__REL |"4"|)))) (tptp.s__subclass tptp.s__QuintaryPredicate tptp.s__Predicate) (tptp.s__subclass tptp.s__QuintaryPredicate tptp.s__QuintaryRelation) (tptp.s__subclass tptp.s__QuintaryPredicate tptp.s__InheritableRelation) (tptp.s__instance tptp.s__QuintaryPredicate__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__QuintaryPredicate tptp.s__EnglishLanguage |tptp.'The &%Class of &%Predicates that require five arguments.'|) (forall ((V__REL $$unsorted)) (=> (tptp.s__instance V__REL tptp.s__Relation) (=> (tptp.s__instance V__REL tptp.s__QuintaryPredicate) (tptp.s__valence V__REL |"5"|)))) (tptp.s__subclass tptp.s__VariableArityRelation tptp.s__Relation) (tptp.s__documentation tptp.s__VariableArityRelation tptp.s__EnglishLanguage |tptp.'The &%Class of &%Relations that do not have a fixed number of arguments.'|) (forall ((V__REL $$unsorted)) (=> (tptp.s__instance V__REL tptp.s__Relation) (=> (tptp.s__instance V__REL tptp.s__VariableArityRelation) (not (exists ((V__INT $$unsorted)) (and (tptp.s__instance V__INT tptp.s__PositiveInteger) (tptp.s__valence V__REL V__INT))))))) (tptp.s__subclass tptp.s__RelationExtendedToQuantities tptp.s__Relation) (tptp.s__subclass tptp.s__RelationExtendedToQuantities tptp.s__InheritableRelation) (tptp.s__documentation tptp.s__RelationExtendedToQuantities tptp.s__EnglishLanguage |tptp.'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.'|) (tptp.s__subclass tptp.s__LogicalOperator tptp.s__Predicate) (tptp.s__instance tptp.s__LogicalOperator__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__LogicalOperator tptp.s__EnglishLanguage |tptp.'This &%Class comprises all of the logical operators (viz. and, or, not, =>, and <=>).'|) (tptp.s__subclass tptp.s__Proposition tptp.s__Abstract) (tptp.s__documentation tptp.s__Proposition tptp.s__EnglishLanguage |tptp.'&%Propositions are &%Abstract entities that express a complete thought or a set of such thoughts. As an example, the formula (instance Yojo Cat) expresses the &%Proposition that the entity named Yojo is an element of the &%Class of Cats. Note that propositions are not restricted to the content expressed by individual sentences of a &%Language. They may encompass the content expressed by theories, books, and even whole libraries. It is important to distinguish &%Propositions from the &%ContentBearingObjects that express them. A &%Proposition is a piece of information, e.g. that the cat is on the mat, but a &%ContentBearingObject is an &%Object that represents this information. A &%Proposition is an abstraction that may have multiple representations: strings, sounds, icons, etc. For example, the &%Proposition that the cat is on the mat is represented here as a string of graphical characters displayed on a monitor and/or printed on paper, but it can be represented by a sequence of sounds or by some non-latin alphabet or by some cryptographic form'|) (tptp.s__instance tptp.s__closedOn__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__closedOn__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__closedOn__m |"1"| tptp.s__Function) (tptp.s__domain tptp.s__closedOn__m |"2"| tptp.s__SetOrClass) (tptp.s__documentation tptp.s__closedOn__m tptp.s__EnglishLanguage |tptp.'A &%BinaryFunction is closed on a &%SetOrClass if it is defined for all instances of the &%SetOrClass and its value is always an instance of the &%SetOrClass.'|) (forall ((V__CLASS $$unsorted) (V__FUNCTION $$unsorted)) (=> (and (tptp.s__closedOn V__FUNCTION V__CLASS) (tptp.s__instance V__FUNCTION tptp.s__UnaryFunction)) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__FUNCTION tptp.s__Function) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__instance (tptp.s__AssignmentFn_2 V__FUNCTION V__INST) V__CLASS)))))) (forall ((V__CLASS $$unsorted) (V__FUNCTION $$unsorted)) (=> (and (tptp.s__closedOn V__FUNCTION V__CLASS) (tptp.s__instance V__FUNCTION tptp.s__BinaryFunction)) (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__FUNCTION tptp.s__Function) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (and (tptp.s__instance V__INST1 V__CLASS) (tptp.s__instance V__INST2 V__CLASS)) (tptp.s__instance (tptp.s__AssignmentFn_3 V__FUNCTION V__INST1 V__INST2) V__CLASS)))))) (tptp.s__instance tptp.s__reflexiveOn__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__reflexiveOn__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__reflexiveOn__m |"1"| tptp.s__BinaryRelation) (tptp.s__domain tptp.s__reflexiveOn__m |"2"| tptp.s__SetOrClass) (tptp.s__documentation tptp.s__reflexiveOn__m tptp.s__EnglishLanguage |tptp.'A &%BinaryRelation is reflexive on a &%SetOrClass only if every instance of the &%SetOrClass bears the relation to itself.'|) (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__telephoneNumber__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__TelecomNumber) (tptp.s__instance V__INST tptp.s__Agent) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__telephoneNumber V__INST V__INST)))))) (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__cargo__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Shipping) (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__cargo V__INST V__INST)))))) (forall ((V__CLASS $$unsorted)) (=> 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tptp.s__TransitiveRelation) (tptp.s__instance V__RELATION tptp.s__AntisymmetricRelation))))) (tptp.s__instance tptp.s__totalOrderingOn__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__totalOrderingOn__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__totalOrderingOn__m |"1"| tptp.s__BinaryRelation) (tptp.s__domain tptp.s__totalOrderingOn__m |"2"| tptp.s__SetOrClass) (tptp.s__documentation tptp.s__totalOrderingOn__m tptp.s__EnglishLanguage |tptp.'A &%BinaryRelation ?REL is a total ordering on a &%SetOrClass only if it is a partial ordering for which either (?REL ?INST1 ?INST2) or (?REL ?INST2 ?INST1) for every ?INST1 and ?INST2 in the &%SetOrClass.'|) (forall ((V__CLASS $$unsorted) (V__RELATION $$unsorted)) (=> (and (tptp.s__instance V__RELATION tptp.s__BinaryRelation) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (= (tptp.s__totalOrderingOn V__RELATION V__CLASS) (and (tptp.s__partialOrderingOn V__RELATION V__CLASS) (tptp.s__trichotomizingOn V__RELATION V__CLASS))))) (tptp.s__instance tptp.s__trichotomizingOn__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__trichotomizingOn__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__trichotomizingOn__m |"1"| tptp.s__BinaryRelation) (tptp.s__domain tptp.s__trichotomizingOn__m |"2"| tptp.s__SetOrClass) (tptp.s__documentation tptp.s__trichotomizingOn__m tptp.s__EnglishLanguage |tptp.'A &%BinaryRelation ?REL is trichotomizing on a &%SetOrClass only if, for all instances ?INST1 and ?INST2 of the &%SetOrClass, at least one of the following holds: (?REL ?INST1 ?INST2), (?REL ?INST2 ?INST1) or (equal ?INST1 ?INST2).'|) (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Quantity) (tptp.s__instance V__INST1 tptp.s__Quantity)) (=> (and (tptp.s__instance V__INST1 tptp.s__RealNumber) (tptp.s__instance V__INST2 tptp.s__RealNumber)) (or (tptp.greatereq V__INST1 V__INST2) (tptp.greatereq V__INST2 V__INST1) (= V__INST1 V__INST2))))) (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Quantity) (tptp.s__instance V__INST1 tptp.s__Quantity)) (=> (and (tptp.s__instance V__INST1 tptp.s__RealNumber) (tptp.s__instance V__INST2 tptp.s__RealNumber)) (or (tptp.lesseq V__INST1 V__INST2) (tptp.lesseq V__INST2 V__INST1) (= V__INST1 V__INST2))))) (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Quantity) (tptp.s__instance V__INST1 tptp.s__Quantity)) (=> (and (tptp.s__instance V__INST1 tptp.s__RealNumber) (tptp.s__instance V__INST2 tptp.s__RealNumber)) (or (tptp.greater V__INST1 V__INST2) (tptp.greater V__INST2 V__INST1) (= V__INST1 V__INST2))))) (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Quantity) (tptp.s__instance V__INST1 tptp.s__Quantity)) (=> (and (tptp.s__instance V__INST1 tptp.s__RealNumber) (tptp.s__instance V__INST2 tptp.s__RealNumber)) (or (tptp.less V__INST1 V__INST2) (tptp.less V__INST2 V__INST1) (= V__INST1 V__INST2))))) (tptp.s__instance tptp.s__equivalenceRelationOn__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__equivalenceRelationOn__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__equivalenceRelationOn__m |"1"| tptp.s__BinaryRelation) (tptp.s__domain tptp.s__equivalenceRelationOn__m |"2"| tptp.s__SetOrClass) (tptp.s__documentation tptp.s__equivalenceRelationOn__m tptp.s__EnglishLanguage |tptp.'A &%BinaryRelation is an &%equivalenceRelationOn a &%SetOrClass only if the relation is &%reflexiveOn the &%SetOrClass and it is both a &%TransitiveRelation and a &%SymmetricRelation.'|) (forall ((V__CLASS $$unsorted) (V__RELATION $$unsorted)) (=> (and (tptp.s__instance V__RELATION tptp.s__BinaryRelation) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__equivalenceRelationOn V__RELATION V__CLASS) (and (tptp.s__instance V__RELATION tptp.s__TransitiveRelation) (tptp.s__instance V__RELATION tptp.s__SymmetricRelation) (tptp.s__reflexiveOn V__RELATION V__CLASS))))) (tptp.s__instance tptp.s__distributes__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__distributes__m tptp.s__BinaryRelation) (tptp.s__domain tptp.s__distributes__m |"1"| tptp.s__BinaryFunction) (tptp.s__domain tptp.s__distributes__m |"2"| tptp.s__BinaryFunction) (tptp.s__documentation tptp.s__distributes__m tptp.s__EnglishLanguage |tptp.'A &%BinaryFunction ?FUNCTION1 is distributive over another &%BinaryFunction ?FUNCTION2 just in case (?FUNCTION1 ?INST1 (?FUNCTION2 ?INST2 ?INST3)) is equal to (?FUNCTION2 (?FUNCTION1 ?INST1 ?INST2) (?FUNCTION1 ?INST1 ?INST3)), for all ?INST1, ?INST2, and ?INST3.'|) (forall ((V__FUNCTION1 $$unsorted) (V__FUNCTION2 $$unsorted) (V__CLASS1 $$unsorted) (V__CLASS2 $$unsorted)) (=> (tptp.s__distributes V__FUNCTION1 V__FUNCTION2) (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__CLASS2 tptp.s__SetOrClass) (tptp.s__instance V__CLASS1 tptp.s__SetOrClass) (tptp.s__instance V__FUNCTION2 tptp.s__BinaryFunction) (tptp.s__instance V__FUNCTION1 tptp.s__BinaryFunction)) (=> (and (tptp.s__domain V__FUNCTION1 |"1"| V__CLASS1) (tptp.s__instance V__INST1 V__CLASS1) (tptp.s__instance V__INST2 V__CLASS1) (tptp.s__instance V__INST3 V__CLASS1) (tptp.s__domain V__FUNCTION2 |"1"| V__CLASS2) (tptp.s__instance V__INST1 V__CLASS2) (tptp.s__instance V__INST2 V__CLASS2) (tptp.s__instance V__INST3 V__CLASS2)) (= (tptp.s__AssignmentFn_3 V__FUNCTION1 V__INST1 (tptp.s__AssignmentFn_3 V__FUNCTION2 V__INST2 V__INST3)) (tptp.s__AssignmentFn_3 V__FUNCTION2 (tptp.s__AssignmentFn_3 V__FUNCTION1 V__INST1 V__INST2) (tptp.s__AssignmentFn_3 V__FUNCTION1 V__INST1 V__INST3)))))))) (tptp.s__documentation tptp.s__relatedEvent__m tptp.s__EnglishLanguage |tptp.'(relatedEvent ?EVENT1 ?EVENT2) means that the &%Process ?EVENT1 is related to the Process ?EVENT2. The relationship is between separate individual events, not events and their subprocesses. On the other hand, two &%subProcesses of the same overarching event may be &%relatedEvents. The argument order does not imply temporal ordering.'|) (tptp.s__instance tptp.s__relatedEvent__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__relatedEvent__m tptp.s__SymmetricRelation) (tptp.s__domain tptp.s__relatedEvent__m |"1"| tptp.s__Process) (tptp.s__domain tptp.s__relatedEvent__m |"2"| tptp.s__Process) (forall ((V__P $$unsorted) (V__S1 $$unsorted) (V__S2 $$unsorted)) (=> (and (tptp.s__instance V__S2 tptp.s__Process) (tptp.s__instance V__S1 tptp.s__Process) (tptp.s__instance V__P tptp.s__Process)) (=> (and (tptp.s__subProcess V__S1 V__P) (tptp.s__subProcess V__S2 V__P)) (tptp.s__relatedEvent V__S1 V__S2)))) (tptp.s__instance tptp.s__causes__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__causes__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__causes__m |"1"| tptp.s__Process) (tptp.s__domain tptp.s__causes__m |"2"| tptp.s__Process) (tptp.s__relatedInternalConcept tptp.s__causes__m tptp.s__causesSubclass__m) (tptp.s__subrelation tptp.s__causes__m tptp.s__relatedEvent__m) (tptp.s__documentation tptp.s__causes__m tptp.s__EnglishLanguage |tptp.'The causation relation between instances of &%Process. (&%causes ?PROCESS1 ?PROCESS2) means that the instance of &%Process ?PROCESS1 brings about the instance of &%Process ?PROCESS2.'|) (forall ((V__PROC1 $$unsorted)) (=> (tptp.s__instance V__PROC1 tptp.s__Process) (exists ((V__PROC2 $$unsorted)) (and (tptp.s__instance V__PROC2 tptp.s__Process) (tptp.s__causes V__PROC2 V__PROC1))))) (forall ((V__P2 $$unsorted) (V__P1 $$unsorted)) (=> (and (tptp.s__instance V__P1 tptp.s__Process) (tptp.s__instance V__P2 tptp.s__Process)) (=> (tptp.s__causes V__P1 V__P2) (tptp.s__earlier (tptp.s__WhenFn V__P1) (tptp.s__WhenFn V__P2))))) (tptp.s__instance tptp.s__causesSubclass__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__causesSubclass__m tptp.s__AsymmetricRelation) (tptp.s__domainSubclass tptp.s__causesSubclass__m |"1"| tptp.s__Process) (tptp.s__domainSubclass tptp.s__causesSubclass__m |"2"| tptp.s__Process) (tptp.s__documentation tptp.s__causesSubclass__m tptp.s__EnglishLanguage |tptp.'The causation relation between subclasses of &%Process. (&%causesSubclass ?PROCESS1 ?PROCESS2) means that the subclass of &%Process ?PROCESS1 brings about the subclass of &%Process ?PROCESS2, e.g. (&%causesSubclass &%Killing &%Death).'|) (forall ((V__PROC2 $$unsorted) (V__PROC1 $$unsorted)) (=> (tptp.s__causesSubclass V__PROC1 V__PROC2) (forall ((V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Process) (tptp.s__subclass V__PROC1 tptp.s__Process) (tptp.s__instance V__PROC1 tptp.s__SetOrClass) (tptp.s__subclass V__PROC2 tptp.s__Process) (tptp.s__instance V__PROC2 tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST2 V__PROC2) (exists ((V__INST1 $$unsorted)) (and (tptp.s__instance V__INST1 tptp.s__Process) (tptp.s__instance V__INST1 V__PROC1) (tptp.s__causes V__INST1 V__INST2)))))))) (tptp.s__instance tptp.s__causesProposition__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__causesProposition__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__causesProposition__m |"1"| tptp.s__Formula) (tptp.s__domain tptp.s__causesProposition__m |"2"| tptp.s__Formula) (tptp.s__documentation tptp.s__causesProposition__m tptp.s__EnglishLanguage |tptp.'(&%causesProposition ?FORMULA1 ?FORMULA2) means that the state of affairs described by ?FORMULA1 causes, or mechanistically brings about, the state of affairs described by ?FORMULA2. Note that unlike &%entails, the time during which ?FORMULA2 holds cannot precede the time during which ?FORMULA1 holds, although ?FORMULA1 and ?FORMULA2 can hold simultaneously. Note, also, that &%causesProposition is a predicate, not a truth function. The following rule (contraposition) does not hold: (=> (causesProp ?FORMULA1 ?FORMULA2) (causesProp (not ?FORMULA2) (not ?FORMULA1))).'|) (forall ((V__T2 $$unsorted) (V__T1 $$unsorted) (V__SIT1 $$unsorted) (V__SIT2 $$unsorted)) (=> (and (tptp.s__instance V__SIT2 tptp.s__Formula) (tptp.s__instance V__SIT1 tptp.s__Formula)) (=> (and (tptp.s__holdsDuring V__T2 V__SIT2) (tptp.s__holdsDuring V__T1 V__SIT1) (tptp.s__instance V__T1 tptp.s__TimeInterval) (tptp.s__instance V__T2 tptp.s__TimeInterval) (tptp.s__causesProposition V__SIT1 V__SIT2)) (tptp.s__beforeOrEqual (tptp.s__BeginFn V__T1) (tptp.s__BeginFn V__T2))))) (tptp.s__instance tptp.s__copy__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__copy__m tptp.s__EquivalenceRelation) (tptp.s__domain tptp.s__copy__m |"1"| tptp.s__Object) (tptp.s__domain tptp.s__copy__m |"2"| tptp.s__Object) (tptp.s__documentation tptp.s__copy__m tptp.s__EnglishLanguage |tptp.'relates an &%Object to an exact copy of the &%Object, where an exact copy is indistinguishable from the original with regard to every property except (possibly) spatial and/or temporal location.'|) (forall ((V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (tptp.s__copy V__OBJ1 V__OBJ2) (forall ((V__ATTR $$unsorted)) (=> (and (tptp.s__instance V__ATTR tptp.s__Attribute) (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__Object)) (=> (tptp.s__attribute V__OBJ1 V__ATTR) (tptp.s__attribute V__OBJ2 V__ATTR)))))) (tptp.s__instance tptp.s__time__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__time__m tptp.s__TemporalRelation) (tptp.s__instance tptp.s__time__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__time__m |"1"| tptp.s__Physical) (tptp.s__domain tptp.s__time__m |"2"| tptp.s__TimePosition) (tptp.s__relatedInternalConcept tptp.s__time__m tptp.s__located__m) (tptp.s__relatedInternalConcept tptp.s__time__m tptp.s__holdsDuring__m) (tptp.s__documentation tptp.s__time__m tptp.s__EnglishLanguage |tptp.'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.'|) (tptp.s__instance tptp.s__holdsDuring__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__holdsDuring__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__holdsDuring__m |"1"| tptp.s__TimePosition) (tptp.s__domain tptp.s__holdsDuring__m |"2"| tptp.s__Formula) (tptp.s__documentation tptp.s__holdsDuring__m tptp.s__EnglishLanguage |tptp.'(&%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.'|) (forall ((V__SITUATION1 $$unsorted) (V__SITUATION2 $$unsorted) (V__TIME $$unsorted)) (=> (and (tptp.s__instance V__TIME tptp.s__TimePosition) (tptp.s__instance V__SITUATION2 tptp.s__Formula) (tptp.s__instance V__SITUATION1 tptp.s__Formula)) (=> (and (tptp.s__holdsDuring V__TIME V__SITUATION1) (tptp.s__entails V__SITUATION1 V__SITUATION2)) (tptp.s__holdsDuring V__TIME V__SITUATION2)))) (forall ((V__TIME $$unsorted) (V__SITUATION $$unsorted)) (=> (and (tptp.s__instance V__SITUATION tptp.s__Formula) (tptp.s__instance V__TIME tptp.s__TimePosition)) (=> (tptp.s__holdsDuring V__TIME |tptp.'(~ V__SITUATION)'|) (not (tptp.s__holdsDuring V__TIME V__SITUATION))))) (tptp.s__instance tptp.s__capability__m tptp.s__TernaryPredicate) (tptp.s__domainSubclass tptp.s__capability__m |"1"| tptp.s__Process) (tptp.s__domain tptp.s__capability__m |"2"| tptp.s__CaseRole) (tptp.s__domain tptp.s__capability__m |"3"| tptp.s__Object) (tptp.s__documentation tptp.s__capability__m tptp.s__EnglishLanguage |tptp.'(&%capability ?PROCESS ?ROLE ?OBJ) means that ?OBJ has the ability to play the role of ?ROLE in &%Processes of type ?PROCESS.'|) (forall ((V__ARG1 $$unsorted) (V__ARG2 $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__SetOrClass) (tptp.s__instance V__ARG2 tptp.s__Agent) (tptp.s__instance V__ARG1 tptp.s__ChangeOfControl)) (=> (and (tptp.s__losesControl V__ARG1 V__ARG2) (tptp.s__instance V__ARG1 V__PROC) (tptp.s__subclass V__PROC tptp.s__Process)) (tptp.s__capability V__PROC tptp.s__losesControl__m V__ARG2)))) (forall ((V__ARG1 $$unsorted) (V__ARG2 $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__SetOrClass) (tptp.s__instance V__ARG2 tptp.s__Object) (tptp.s__instance V__ARG1 tptp.s__Process)) (=> (and (tptp.s__eventPartlyLocated V__ARG1 V__ARG2) (tptp.s__instance V__ARG1 V__PROC) (tptp.s__subclass V__PROC tptp.s__Process)) (tptp.s__capability V__PROC tptp.s__eventPartlyLocated__m V__ARG2)))) (forall ((V__ARG1 $$unsorted) (V__ARG2 $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__SetOrClass) (tptp.s__instance V__ARG2 tptp.s__Agent) (tptp.s__instance V__ARG1 tptp.s__Process)) (=> (and (tptp.s__agent V__ARG1 V__ARG2) (tptp.s__instance V__ARG1 V__PROC) (tptp.s__subclass V__PROC tptp.s__Process)) (tptp.s__capability V__PROC tptp.s__agent__m V__ARG2)))) (forall ((V__ARG1 $$unsorted) (V__ARG2 $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__SetOrClass) (tptp.s__instance V__ARG2 tptp.s__Object) (tptp.s__instance V__ARG1 tptp.s__Translocation)) (=> (and (tptp.s__changesLocation V__ARG1 V__ARG2) (tptp.s__instance V__ARG1 V__PROC) (tptp.s__subclass V__PROC tptp.s__Process)) (tptp.s__capability V__PROC tptp.s__changesLocation__m V__ARG2)))) (forall ((V__ARG1 $$unsorted) (V__ARG2 $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__SetOrClass) (tptp.s__instance V__ARG2 tptp.s__DirectionalAttribute) (tptp.s__instance V__ARG2 tptp.s__Object) (tptp.s__instance V__ARG1 tptp.s__Process)) (=> (and (tptp.s__direction V__ARG1 V__ARG2) (tptp.s__instance V__ARG1 V__PROC) (tptp.s__subclass V__PROC tptp.s__Process)) (tptp.s__capability V__PROC tptp.s__direction__m V__ARG2)))) (forall ((V__ARG1 $$unsorted) (V__ARG2 $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__SetOrClass) (tptp.s__instance V__ARG2 tptp.s__Object) (tptp.s__instance V__ARG1 tptp.s__Process)) (=> (and (tptp.s__targetInAttack V__ARG1 V__ARG2) (tptp.s__instance V__ARG1 V__PROC) (tptp.s__subclass V__PROC tptp.s__Process)) (tptp.s__capability V__PROC tptp.s__targetInAttack__m V__ARG2)))) (forall ((V__ARG1 $$unsorted) (V__ARG2 $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__SetOrClass) (tptp.s__instance V__ARG2 tptp.s__Agent) (tptp.s__instance V__ARG1 tptp.s__AchievingControl)) (=> (and (tptp.s__gainsControl V__ARG1 V__ARG2) (tptp.s__instance V__ARG1 V__PROC) (tptp.s__subclass V__PROC tptp.s__Process)) (tptp.s__capability V__PROC tptp.s__gainsControl__m V__ARG2)))) (forall ((V__ARG1 $$unsorted) (V__ARG2 $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__SetOrClass) (tptp.s__instance V__ARG2 tptp.s__Object) (tptp.s__instance V__ARG1 tptp.s__Process)) (=> (and (tptp.s__patient V__ARG1 V__ARG2) (tptp.s__instance V__ARG1 V__PROC) (tptp.s__subclass V__PROC tptp.s__Process)) (tptp.s__capability V__PROC tptp.s__patient__m V__ARG2)))) (forall ((V__ARG1 $$unsorted) (V__ARG2 $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__SetOrClass) (tptp.s__instance V__ARG2 tptp.s__Object) (tptp.s__instance V__ARG1 tptp.s__Process)) (=> (and (tptp.s__origin V__ARG1 V__ARG2) (tptp.s__instance V__ARG1 V__PROC) (tptp.s__subclass V__PROC tptp.s__Process)) (tptp.s__capability V__PROC tptp.s__origin__m V__ARG2)))) (forall ((V__ARG1 $$unsorted) (V__ARG2 $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__SetOrClass) (tptp.s__instance V__ARG2 tptp.s__Agent) (tptp.s__instance V__ARG1 tptp.s__PlacingUnderArrest)) (=> (and (tptp.s__arrested V__ARG1 V__ARG2) (tptp.s__instance V__ARG1 V__PROC) (tptp.s__subclass V__PROC tptp.s__Process)) (tptp.s__capability V__PROC tptp.s__arrested__m V__ARG2)))) (forall ((V__ARG1 $$unsorted) (V__ARG2 $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__SetOrClass) (tptp.s__instance V__ARG2 tptp.s__Object) (tptp.s__instance V__ARG1 tptp.s__AchievingControl)) (=> (and (tptp.s__controlled V__ARG1 V__ARG2) (tptp.s__instance V__ARG1 V__PROC) (tptp.s__subclass V__PROC tptp.s__Process)) (tptp.s__capability V__PROC tptp.s__controlled__m V__ARG2)))) (forall ((V__ARG1 $$unsorted) (V__ARG2 $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__SetOrClass) (tptp.s__instance V__ARG2 tptp.s__TransportationDevice) (tptp.s__instance V__ARG1 tptp.s__Transportation)) (=> (and (tptp.s__conveyance V__ARG1 V__ARG2) (tptp.s__instance V__ARG1 V__PROC) (tptp.s__subclass V__PROC tptp.s__Process)) (tptp.s__capability V__PROC tptp.s__conveyance__m V__ARG2)))) (forall ((V__ARG1 $$unsorted) (V__ARG2 $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__SetOrClass) (tptp.s__instance V__ARG2 tptp.s__Object) (tptp.s__instance V__ARG1 tptp.s__Process)) (=> (and (tptp.s__destination V__ARG1 V__ARG2) (tptp.s__instance V__ARG1 V__PROC) (tptp.s__subclass V__PROC tptp.s__Process)) (tptp.s__capability V__PROC tptp.s__destination__m V__ARG2)))) (forall ((V__ARG1 $$unsorted) (V__ARG2 $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__SetOrClass) (tptp.s__instance V__ARG2 tptp.s__Object) (tptp.s__instance V__ARG1 tptp.s__Experimenting)) (=> (and (tptp.s__experimentalControl V__ARG1 V__ARG2) (tptp.s__instance V__ARG1 V__PROC) (tptp.s__subclass V__PROC tptp.s__Process)) (tptp.s__capability V__PROC tptp.s__experimentalControl__m V__ARG2)))) (forall ((V__ARG1 $$unsorted) (V__ARG2 $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__SetOrClass) (tptp.s__instance V__ARG2 tptp.s__Animal) (tptp.s__instance V__ARG1 tptp.s__Confining)) (=> (and (tptp.s__detainee V__ARG1 V__ARG2) (tptp.s__instance V__ARG1 V__PROC) (tptp.s__subclass V__PROC tptp.s__Process)) (tptp.s__capability V__PROC tptp.s__detainee__m V__ARG2)))) (forall ((V__ARG1 $$unsorted) (V__ARG2 $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__SetOrClass) (tptp.s__instance V__ARG2 tptp.s__Agent) (tptp.s__instance V__ARG1 tptp.s__Process)) (=> (and (tptp.s__experiencer V__ARG1 V__ARG2) (tptp.s__instance V__ARG1 V__PROC) (tptp.s__subclass V__PROC tptp.s__Process)) (tptp.s__capability V__PROC tptp.s__experiencer__m V__ARG2)))) (forall ((V__ARG1 $$unsorted) (V__ARG2 $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__SetOrClass) (tptp.s__instance V__ARG2 tptp.s__Object) (tptp.s__instance V__ARG1 tptp.s__Motion)) (=> (and (tptp.s__moves V__ARG1 V__ARG2) (tptp.s__instance V__ARG1 V__PROC) (tptp.s__subclass V__PROC tptp.s__Process)) (tptp.s__capability V__PROC tptp.s__moves__m V__ARG2)))) (forall ((V__ARG1 $$unsorted) (V__ARG2 $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__SetOrClass) (tptp.s__instance V__ARG2 tptp.s__Object) (tptp.s__instance V__ARG1 tptp.s__Motion)) (=> (and (tptp.s__path V__ARG1 V__ARG2) (tptp.s__instance V__ARG1 V__PROC) (tptp.s__subclass V__PROC tptp.s__Process)) (tptp.s__capability V__PROC tptp.s__path__m V__ARG2)))) (tptp.s__instance tptp.s__exploits__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__exploits__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__exploits__m |"1"| tptp.s__Object) (tptp.s__domain tptp.s__exploits__m |"2"| tptp.s__Agent) (tptp.s__documentation tptp.s__exploits__m tptp.s__EnglishLanguage |tptp.'(&%exploits ?OBJ ?AGENT) means that ?OBJ is used by ?AGENT as a &%resource in an unspecified instance of &%Process. This &%Predicate, as its corresponding axiom indicates, is a composition of the relations &%agent and &%resource.'|) (forall ((V__OBJ $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (tptp.s__exploits V__OBJ V__AGENT) (exists ((V__PROCESS $$unsorted)) (and (tptp.s__instance V__PROCESS tptp.s__Process) (tptp.s__agent V__PROCESS V__AGENT) (tptp.s__resource V__PROCESS V__OBJ)))))) (tptp.s__instance tptp.s__hasPurpose__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__hasPurpose__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__hasPurpose__m |"1"| tptp.s__Physical) (tptp.s__domain tptp.s__hasPurpose__m |"2"| tptp.s__Formula) (tptp.s__documentation tptp.s__hasPurpose__m tptp.s__EnglishLanguage |tptp.'This &%Predicate expresses the concept of a conventional goal, i.e. a goal with a neutralized agents 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.'|) (tptp.s__instance tptp.s__hasPurposeForAgent__m tptp.s__TernaryPredicate) (tptp.s__domain tptp.s__hasPurposeForAgent__m |"1"| tptp.s__Physical) (tptp.s__domain tptp.s__hasPurposeForAgent__m |"2"| tptp.s__Formula) (tptp.s__domain tptp.s__hasPurposeForAgent__m |"3"| tptp.s__CognitiveAgent) (tptp.s__documentation tptp.s__hasPurposeForAgent__m tptp.s__EnglishLanguage |tptp.'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. 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Note that this is a more specialized relation of between since any object that is between others with respect to a particular path is also simply between them.'|) (tptp.s__instance tptp.s__betweenOnPath__m tptp.s__SpatialRelation) (tptp.s__instance tptp.s__betweenOnPath__m tptp.s__QuaternaryPredicate) (tptp.s__domain tptp.s__betweenOnPath__m |"1"| tptp.s__Object) (tptp.s__domain tptp.s__betweenOnPath__m |"2"| tptp.s__Object) (tptp.s__domain tptp.s__betweenOnPath__m |"3"| tptp.s__Object) (tptp.s__domain tptp.s__betweenOnPath__m |"4"| tptp.s__Object) (forall ((V__PATH $$unsorted) (V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted) (V__OBJ3 $$unsorted)) (=> (and (tptp.s__instance V__OBJ3 tptp.s__Object) (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__Object) (tptp.s__instance V__PATH tptp.s__Object)) (=> (tptp.s__betweenOnPath V__OBJ1 V__OBJ2 V__OBJ3 V__PATH) (tptp.s__between V__OBJ1 V__OBJ2 V__OBJ3)))) (tptp.s__instance tptp.s__traverses__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__traverses__m tptp.s__SpatialRelation) (tptp.s__domain tptp.s__traverses__m |"1"| tptp.s__Object) (tptp.s__domain tptp.s__traverses__m |"2"| tptp.s__Object) (tptp.s__documentation tptp.s__traverses__m tptp.s__EnglishLanguage |tptp.'(&%traverses ?OBJ1 ?OBJ2) means that ?OBJ1 crosses or extends across ?OBJ2. Note that &%crosses and &%penetrates are subrelations of &%traverses.'|) (forall ((V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__Object)) (=> (tptp.s__traverses V__OBJ1 V__OBJ2) (or (tptp.s__crosses V__OBJ1 V__OBJ2) (tptp.s__penetrates V__OBJ1 V__OBJ2))))) (tptp.s__subrelation tptp.s__crosses__m tptp.s__traverses__m) (tptp.s__instance tptp.s__crosses__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__crosses__m tptp.s__TransitiveRelation) (tptp.s__disjointRelation tptp.s__crosses__m tptp.s__connected__m) (tptp.s__documentation tptp.s__crosses__m tptp.s__EnglishLanguage |tptp.'(crosses ?OBJ1 ?OBJ2) means that &%Object ?OBJ1 &%traverses Object ?OBJ2, without being &%connected to it.'|) (tptp.s__subrelation tptp.s__penetrates__m tptp.s__traverses__m) (tptp.s__subrelation tptp.s__penetrates__m tptp.s__meetsSpatially__m) (tptp.s__instance tptp.s__penetrates__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__penetrates__m tptp.s__IntransitiveRelation) (tptp.s__documentation tptp.s__penetrates__m tptp.s__EnglishLanguage |tptp.'(penetrates ?OBJ1 ?OBJ2) means that ?OBJ1 is &%connected to ?OBJ2 along at least one whole dimension (length, width or depth).'|) (tptp.s__instance tptp.s__WhereFn__m tptp.s__BinaryFunction) (tptp.s__instance tptp.s__WhereFn__m tptp.s__SpatialRelation) (tptp.s__instance tptp.s__WhereFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__WhereFn__m |"1"| tptp.s__Physical) (tptp.s__domain tptp.s__WhereFn__m |"2"| tptp.s__TimePoint) (tptp.s__range tptp.s__WhereFn__m tptp.s__Region) (tptp.s__relatedInternalConcept tptp.s__WhereFn__m tptp.s__WhenFn__m) (tptp.s__documentation tptp.s__WhereFn__m tptp.s__EnglishLanguage |tptp.'Maps an &%Object and a &%TimePoint at which the &%Object exists to the &%Region where the &%Object existed at that &%TimePoint.'|) (tptp.s__instance tptp.s__possesses__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__possesses__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__possesses__m |"1"| tptp.s__Agent) (tptp.s__domain tptp.s__possesses__m |"2"| tptp.s__Object) (tptp.s__documentation tptp.s__possesses__m tptp.s__EnglishLanguage |tptp.'&%Relation that holds between an &%Agent and an &%Object when the &%Agent has ownership of the &%Object.'|) (tptp.s__instance tptp.s__PropertyFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__PropertyFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__PropertyFn__m |"1"| tptp.s__Agent) (tptp.s__range tptp.s__PropertyFn__m tptp.s__Set) (tptp.s__documentation tptp.s__PropertyFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps an &%Agent to the &%Set of &%Objects owned by the &%Agent.'|) (forall ((V__OBJ $$unsorted) (V__PERSON $$unsorted)) (=> (and (tptp.s__instance V__PERSON tptp.s__Agent) (tptp.s__instance V__OBJ tptp.s__Object)) (= (tptp.s__instance V__OBJ (tptp.s__PropertyFn V__PERSON)) (tptp.s__possesses V__PERSON V__OBJ)))) (tptp.s__instance tptp.s__precondition__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__precondition__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__precondition__m tptp.s__TransitiveRelation) (tptp.s__domainSubclass tptp.s__precondition__m |"1"| tptp.s__Process) (tptp.s__domainSubclass tptp.s__precondition__m |"2"| tptp.s__Process) (tptp.s__documentation tptp.s__precondition__m tptp.s__EnglishLanguage |tptp.'A very general &%Predicate. (&%precondition ?PROC1 ?PROC2) means that an instance of ?PROC2 can exist only if an instance of ?PROC1 also exists.'|) (forall ((V__PROC2 $$unsorted) (V__PROC1 $$unsorted)) (=> (and (tptp.s__subclass V__PROC1 tptp.s__Process) (tptp.s__instance V__PROC1 tptp.s__SetOrClass) (tptp.s__subclass V__PROC2 tptp.s__Process) (tptp.s__instance V__PROC2 tptp.s__SetOrClass)) (=> (tptp.s__precondition V__PROC1 V__PROC2) (=> (exists ((V__INST2 $$unsorted)) (tptp.s__instance V__INST2 V__PROC2)) (exists ((V__INST1 $$unsorted)) (tptp.s__instance V__INST1 V__PROC1)))))) (tptp.s__instance tptp.s__inhibits__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__inhibits__m tptp.s__IrreflexiveRelation) (tptp.s__domainSubclass tptp.s__inhibits__m |"1"| tptp.s__Process) (tptp.s__domainSubclass tptp.s__inhibits__m |"2"| tptp.s__Process) (tptp.s__documentation tptp.s__inhibits__m tptp.s__EnglishLanguage |tptp.'A very general &%Predicate. (&%inhibits ?PROC1 ?PROC2) means that the &%Process ?PROC1 inhibits or hinders the occurrence of the &%Process ?PROC2. For example, obstructing an object inhibits moving it. Note that this is a relation between types of &%Processes, not between instances.'|) (tptp.s__instance tptp.s__prevents__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__prevents__m tptp.s__IrreflexiveRelation) (tptp.s__domainSubclass tptp.s__prevents__m |"1"| tptp.s__Process) (tptp.s__domainSubclass tptp.s__prevents__m |"2"| tptp.s__Process) (tptp.s__relatedInternalConcept tptp.s__prevents__m tptp.s__inhibits__m) (tptp.s__documentation tptp.s__prevents__m tptp.s__EnglishLanguage |tptp.'A very general &%Predicate. (&%prevents ?PROC1 ?PROC2) means that ?PROC1 prevents the occurrence of ?PROC2. In other words, if ?PROC1 is occurring in a particular time and place, ?PROC2 cannot occur at the same time and place. For example, innoculating prevents contracting disease. Note that this is a relation between types of &%Processes, not between instances.'|) (forall ((V__PROC2 $$unsorted) (V__PROC1 $$unsorted)) (=> (tptp.s__prevents V__PROC1 V__PROC2) (forall ((V__TIME $$unsorted) (V__PLACE $$unsorted)) (=> (and (tptp.s__instance V__PLACE tptp.s__Object) (tptp.s__instance V__TIME tptp.s__TimePosition) (tptp.s__subclass V__PROC1 tptp.s__Process) (tptp.s__instance V__PROC1 tptp.s__SetOrClass) (tptp.s__subclass V__PROC2 tptp.s__Process) (tptp.s__instance V__PROC2 tptp.s__SetOrClass)) (=> (tptp.s__holdsDuring V__TIME |tptp.'(? [V__INST1] : (s__instance(V__INST1,s__Process) & s__instance(V__INST1,V__PROC1) & s__eventLocated(V__INST1,V__PLACE)))'|) (not (tptp.s__holdsDuring V__TIME |tptp.'(? [V__INST2] : (s__instance(V__INST2,s__Process) & s__instance(V__INST2,V__PROC2) & s__eventLocated(V__INST2,V__PLACE)))'|))))))) (tptp.s__instance tptp.s__refers__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__refers__m |"1"| tptp.s__Entity) (tptp.s__domain tptp.s__refers__m |"2"| tptp.s__Entity) (tptp.s__documentation tptp.s__refers__m tptp.s__EnglishLanguage |tptp.'(&%refers ?OBJ1 ?OBJ2) means that ?OBJ1 mentions or includes a reference to ?OBJ2. Note that &%refers is more general in meaning than &%represents, because presumably something can represent something else only if it refers to this other thing. For example, an article whose topic is a recent change in the price of oil may refer to many other things, e.g. the general state of the economy, the weather in California, the prospect of global warming, the options for alternative energy sources, the stock prices of various oil companies, etc.'|) (tptp.s__subrelation tptp.s__names__m tptp.s__refers__m) (tptp.s__domain tptp.s__names__m |"1"| tptp.s__SymbolicString) (tptp.s__documentation tptp.s__names__m tptp.s__EnglishLanguage |tptp.'(&%names ?STRING ?ENTITY) means that the thing ?ENTITY has the &%SymbolicString ?STRING as its name. Note that &%names and &%represents are the two immediate &%subrelations of &%refers. The predicate &%names is used when the referring item is merely a tag without connotative content, while the predicate &%represents is used for referring items that have such content.'|) (tptp.s__subrelation tptp.s__uniqueIdentifier__m tptp.s__names__m) (tptp.s__instance tptp.s__uniqueIdentifier__m tptp.s__SingleValuedRelation) (tptp.s__documentation tptp.s__uniqueIdentifier__m tptp.s__EnglishLanguage |tptp.'The class of &%names that uniquely identify an instance of &%Entity. Some examples of &%uniqueIdentifiers are the keys of tables in database applications and the ISBN (International Standard Book Number).'|) (tptp.s__subrelation tptp.s__represents__m tptp.s__refers__m) (tptp.s__documentation tptp.s__represents__m tptp.s__EnglishLanguage |tptp.'A very general semiotics &%Predicate. (&%represents ?THING ?ENTITY) means that ?THING in some way indicates, expresses, connotes, pictures, describes, etc. ?ENTITY. The &%Predicates &%containsInformation and &%realization are subrelations of &%represents. Note that &%represents is a subrelation of &%refers, since something can represent something else only if it refers to this other thing. See the documentation string for &%names.'|) (tptp.s__instance tptp.s__representsForAgent__m tptp.s__TernaryPredicate) (tptp.s__domain tptp.s__representsForAgent__m |"1"| tptp.s__Entity) (tptp.s__domain tptp.s__representsForAgent__m |"2"| tptp.s__Entity) (tptp.s__domain tptp.s__representsForAgent__m |"3"| tptp.s__Agent) (tptp.s__documentation tptp.s__representsForAgent__m tptp.s__EnglishLanguage |tptp.'A very general predicate. (&%representsForAgent ?ENTITY1 ?ENTITY2 ?AGENT) means that the ?AGENT chooses to use ?ENTITY1 to stand for ?ENTITY2.'|) (forall ((V__AGENT $$unsorted) (V__ENTITY $$unsorted) (V__REP $$unsorted)) (=> (tptp.s__instance V__AGENT tptp.s__Agent) (=> (tptp.s__representsForAgent V__REP V__ENTITY V__AGENT) (tptp.s__represents V__REP V__ENTITY)))) (tptp.s__instance tptp.s__representsInLanguage__m tptp.s__TernaryPredicate) (tptp.s__domain tptp.s__representsInLanguage__m |"1"| tptp.s__LinguisticExpression) (tptp.s__domain tptp.s__representsInLanguage__m |"2"| tptp.s__Entity) (tptp.s__domain tptp.s__representsInLanguage__m |"3"| tptp.s__Language) (tptp.s__documentation tptp.s__representsInLanguage__m tptp.s__EnglishLanguage |tptp.'A very general predicate. (&%representsInLanguage ?THING ?ENTITY ?LANGUAGE) means that the &%LinguisticExpression ?THING stands for ?ENTITY in the &%Language ?LANGUAGE.'|) (forall ((V__LANGUAGE $$unsorted) (V__ENTITY $$unsorted) (V__REP $$unsorted)) (=> (and (tptp.s__instance V__REP tptp.s__LinguisticExpression) (tptp.s__instance V__LANGUAGE tptp.s__Language)) (=> (tptp.s__representsInLanguage V__REP V__ENTITY V__LANGUAGE) (exists ((V__AGENT $$unsorted)) (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__representsForAgent V__REP V__ENTITY V__AGENT)))))) (tptp.s__subrelation tptp.s__equivalentContentClass__m tptp.s__subsumesContentClass__m) (tptp.s__instance tptp.s__equivalentContentClass__m tptp.s__EquivalenceRelation) (tptp.s__instance tptp.s__EquivalenceRelation__t tptp.s__SetOrClass) (tptp.s__domainSubclass tptp.s__equivalentContentClass__m |"1"| tptp.s__ContentBearingPhysical) (tptp.s__domainSubclass tptp.s__equivalentContentClass__m |"2"| tptp.s__ContentBearingPhysical) (tptp.s__documentation tptp.s__equivalentContentClass__m tptp.s__EnglishLanguage |tptp.'A &%BinaryPredicate that relates two subclasses of &%ContentBearingPhysical. (&%equivalentContentClass ?CLASS1 ?CLASS2) means that the content expressed by each instance of ?CLASS1 is also expressed by each instance of ?CLASS2, and vice versa. An example would be the relationship between English and Russian editions of Agatha Christies Murder on the Orient Express. Note that (&%equivalentContentClass ?CLASS1 ?CLASS2) implies (&%subsumesContentClass ?CLASS1 ?CLASS2) and (&%subsumesContentClass ?CLASS2 ?CLASS1).'|) (forall ((V__CLASS1 $$unsorted) (V__CLASS2 $$unsorted)) (=> (and (tptp.s__subclass V__CLASS2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__CLASS2 tptp.s__SetOrClass) (tptp.s__subclass V__CLASS1 tptp.s__ContentBearingPhysical) (tptp.s__instance V__CLASS1 tptp.s__SetOrClass)) (= (and (tptp.s__subsumesContentClass V__CLASS1 V__CLASS2) (tptp.s__subsumesContentClass V__CLASS2 V__CLASS1)) (tptp.s__equivalentContentClass V__CLASS1 V__CLASS2)))) (tptp.s__instance tptp.s__subsumesContentClass__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__subsumesContentClass__m tptp.s__PartialOrderingRelation) (tptp.s__domainSubclass tptp.s__subsumesContentClass__m |"1"| tptp.s__ContentBearingPhysical) (tptp.s__domainSubclass tptp.s__subsumesContentClass__m |"2"| tptp.s__ContentBearingPhysical) (tptp.s__documentation tptp.s__subsumesContentClass__m tptp.s__EnglishLanguage |tptp.'A &%BinaryPredicate that relates two subclasses of &%ContentBearingPhysical. (&%subsumesContentClass ?CLASS1 ?CLASS2) means that the content expressed by each instance of ?CLASS2 is also expressed by each instance of ?CLASS1. Examples include the relationship between a poem and one of its stanzas or between a book and one of its chapters. Note that this is a relation between subclasses of &%ContentBearingObject, rather than instances. If one wants to relate instances, the &%Predicate &%subsumesContentInstance can be used. Note that &%subsumesContentClass is needed in many cases. Consider, for example, the relation between the King James edition of the Bible and its Book of Genesis. This relation holds for every copy of this edition and not just for a single instance.'|) (forall ((V__CLASS1 $$unsorted) (V__CLASS2 $$unsorted)) (=> (tptp.s__subsumesContentClass V__CLASS1 V__CLASS2) (forall ((V__OBJ2 $$unsorted) (V__INFO $$unsorted)) (=> (and (tptp.s__instance V__INFO tptp.s__Proposition) (tptp.s__instance V__OBJ2 tptp.s__ContentBearingPhysical) (tptp.s__subclass V__CLASS2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__CLASS2 tptp.s__SetOrClass) (tptp.s__subclass V__CLASS1 tptp.s__ContentBearingPhysical) (tptp.s__instance V__CLASS1 tptp.s__SetOrClass)) (=> (and (tptp.s__instance V__OBJ2 V__CLASS2) (tptp.s__containsInformation V__OBJ2 V__INFO)) (exists ((V__OBJ1 $$unsorted)) (and (tptp.s__instance V__OBJ1 tptp.s__ContentBearingPhysical) (tptp.s__instance V__OBJ1 V__CLASS1) (tptp.s__containsInformation V__OBJ1 V__INFO)))))))) (tptp.s__subrelation tptp.s__equivalentContentInstance__m tptp.s__subsumesContentInstance__m) (tptp.s__instance tptp.s__equivalentContentInstance__m tptp.s__EquivalenceRelation) (tptp.s__domain tptp.s__equivalentContentInstance__m |"1"| tptp.s__ContentBearingPhysical) (tptp.s__domain tptp.s__equivalentContentInstance__m |"2"| tptp.s__ContentBearingPhysical) (tptp.s__relatedInternalConcept tptp.s__equivalentContentInstance__m tptp.s__equivalentContentClass__m) (tptp.s__documentation tptp.s__equivalentContentInstance__m tptp.s__EnglishLanguage |tptp.'A &%BinaryPredicate relating two instances of &%ContentBearingPhysical. (&%equivalentContentInstance ?OBJ1 ?OBJ2) means that the content expressed by ?OBJ1 is identical to the content expressed by ?OBJ2. An example would be the relationship between a handwritten draft of a letter to ones lawyer and a typed copy of the same letter. Note that (&%equivalentContentInstance ?OBJ1 ?OBJ2) implies (&%subsumesContentInstance ?OBJ1 ?OBJ2) and (&%subsumesContentInstance ?OBJ2 ?OBJ2).'|) (forall ((V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__OBJ1 tptp.s__ContentBearingPhysical)) (= (and (tptp.s__subsumesContentInstance V__OBJ1 V__OBJ2) (tptp.s__subsumesContentInstance V__OBJ2 V__OBJ1)) (tptp.s__equivalentContentInstance V__OBJ1 V__OBJ2)))) (tptp.s__instance tptp.s__subsumesContentInstance__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__subsumesContentInstance__m tptp.s__PartialOrderingRelation) (tptp.s__domain tptp.s__subsumesContentInstance__m |"1"| tptp.s__ContentBearingPhysical) (tptp.s__domain tptp.s__subsumesContentInstance__m |"2"| tptp.s__ContentBearingPhysical) (tptp.s__relatedInternalConcept tptp.s__subsumesContentInstance__m tptp.s__subsumesContentClass__m) (tptp.s__documentation tptp.s__subsumesContentInstance__m tptp.s__EnglishLanguage |tptp.'A &%BinaryPredicate relating two instances of &%ContentBearingPhysical. (&%subsumesContentInstance ?OBJ1 ?OBJ2) means that the content expressed by ?OBJ2 is part of the content expressed by ?OBJ1. An example is the relationship between a handwritten poem and one of its stanzas. Note that this is a relation between instances, rather than &%Classes. If one wants to assert a content relationship between &%Classes, e.g. between the version of an intellectual work and a part of that work, the relation &%subsumesContentClass should be used.'|) (forall ((V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (tptp.s__subsumesContentInstance V__OBJ1 V__OBJ2) (forall ((V__INFO $$unsorted)) (=> (and (tptp.s__instance V__INFO tptp.s__Proposition) (tptp.s__instance V__OBJ2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__OBJ1 tptp.s__ContentBearingPhysical)) (=> (tptp.s__containsInformation V__OBJ2 V__INFO) (tptp.s__containsInformation V__OBJ1 V__INFO)))))) (tptp.s__subrelation tptp.s__realization__m tptp.s__represents__m) (tptp.s__instance tptp.s__realization__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__realization__m |"1"| tptp.s__Process) (tptp.s__domain tptp.s__realization__m |"2"| tptp.s__Proposition) (tptp.s__relatedInternalConcept tptp.s__realization__m tptp.s__equivalentContentInstance__m) (tptp.s__relatedInternalConcept tptp.s__realization__m tptp.s__containsInformation__m) (tptp.s__documentation tptp.s__realization__m tptp.s__EnglishLanguage |tptp.'A subrelation of &%represents. (&%realization ?PROCESS ?PROP) means that ?PROCESS is a Process which expresses the content of ?PROP. Examples include a particular musical performance, which realizes the content of a musical score, or the reading of a poem.'|) (forall ((V__PROCESS $$unsorted) (V__PROP $$unsorted)) (=> (and (tptp.s__instance V__PROP tptp.s__Proposition) (tptp.s__instance V__PROCESS tptp.s__Process)) (=> (tptp.s__realization V__PROCESS V__PROP) (exists ((V__OBJ $$unsorted)) (and (tptp.s__instance V__OBJ tptp.s__ContentBearingPhysical) (tptp.s__instance V__OBJ tptp.s__ContentBearingObject) (tptp.s__containsInformation V__OBJ V__PROP)))))) (tptp.s__instance tptp.s__expressedInLanguage__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__expressedInLanguage__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__expressedInLanguage__m |"1"| tptp.s__LinguisticExpression) (tptp.s__domain tptp.s__expressedInLanguage__m |"2"| tptp.s__Language) (tptp.s__documentation tptp.s__expressedInLanguage__m tptp.s__EnglishLanguage |tptp.'(&%expressedInLanguage ?EXPRESS ?LANG) means that the &%LinguisticExpression ?EXPRESS is part of the &%Language ?LANG.'|) (forall ((V__EXPRESS $$unsorted) (V__LANGUAGE $$unsorted)) (=> (and (tptp.s__instance V__LANGUAGE tptp.s__Language) (tptp.s__instance V__EXPRESS tptp.s__LinguisticExpression)) (= (tptp.s__expressedInLanguage V__EXPRESS V__LANGUAGE) (exists ((V__PROP $$unsorted)) (tptp.s__representsInLanguage V__EXPRESS V__PROP V__LANGUAGE))))) (tptp.s__instance tptp.s__subProposition__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__subProposition__m tptp.s__TransitiveRelation) (tptp.s__instance tptp.s__subProposition__m tptp.s__IrreflexiveRelation) (tptp.s__domain tptp.s__subProposition__m |"1"| tptp.s__Proposition) (tptp.s__domain tptp.s__subProposition__m |"2"| tptp.s__Proposition) (tptp.s__documentation tptp.s__subProposition__m tptp.s__EnglishLanguage |tptp.'(&%subProposition ?PROP1 ?PROP2) means that ?PROP1 is a &%Proposition which is a proper part of the &%Proposition ?PROP2. In other words, &%subProposition is the analogue of &%properPart for chunks of abstract content.'|) (forall ((V__PROP2 $$unsorted) (V__PROP1 $$unsorted)) (=> (tptp.s__subProposition V__PROP1 V__PROP2) (forall ((V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__OBJ1 tptp.s__ContentBearingPhysical) (tptp.s__instance V__PROP1 tptp.s__Proposition) (tptp.s__instance V__PROP2 tptp.s__Proposition)) (=> (and (tptp.s__containsInformation V__OBJ1 V__PROP1) (tptp.s__containsInformation V__OBJ2 V__PROP2)) (tptp.s__subsumesContentInstance V__OBJ2 V__OBJ1)))))) (tptp.s__subrelation tptp.s__subPlan__m tptp.s__subProposition__m) (tptp.s__instance tptp.s__subPlan__m tptp.s__TransitiveRelation) (tptp.s__instance tptp.s__subPlan__m tptp.s__IrreflexiveRelation) (tptp.s__domain tptp.s__subPlan__m |"1"| tptp.s__Plan) (tptp.s__domain tptp.s__subPlan__m |"2"| tptp.s__Plan) (tptp.s__documentation tptp.s__subPlan__m tptp.s__EnglishLanguage |tptp.'(&%subPlan ?PLAN1 ?PLAN2) means that ?PLAN1 is a &%Plan which is a proper part of ?PLAN2. This relation is generally used to relate a supporting &%Plan to the overall &%Plan in a particular context.'|) (tptp.s__instance tptp.s__uses__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__BinaryPredicate__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__uses__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__uses__m |"1"| tptp.s__Object) (tptp.s__domain tptp.s__uses__m |"2"| tptp.s__Agent) (tptp.s__documentation tptp.s__uses__m tptp.s__EnglishLanguage |tptp.'(&%uses ?OBJECT AGENT) means that ?OBJECT is used by ?AGENT as an instrument in an unspecified &%Process. This &%Predicate, as its corresponding axiom indicates, is a composition of the &%CaseRoles &%agent and &%instrument.'|) (forall ((V__OBJ $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (tptp.s__uses V__OBJ V__AGENT) (exists ((V__PROC $$unsorted)) (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__agent V__PROC V__AGENT) (tptp.s__instrument V__PROC V__OBJ)))))) (tptp.s__instance tptp.times__m tptp.s__BinaryFunction) (tptp.s__instance tptp.times__m tptp.s__AssociativeFunction) (tptp.s__instance tptp.times__m tptp.s__CommutativeFunction) (tptp.s__instance tptp.s__CommutativeFunction__t tptp.s__SetOrClass) (tptp.s__instance tptp.times__m tptp.s__RelationExtendedToQuantities) (tptp.s__instance tptp.times__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.times__m |"1"| tptp.s__Quantity) (tptp.s__domain tptp.times__m |"2"| tptp.s__Quantity) (tptp.s__range tptp.times__m tptp.s__Quantity) (tptp.s__documentation tptp.times__m tptp.s__EnglishLanguage |tptp.'If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%MultiplicationFn ?NUMBER1 ?NUMBER2) is the arithmetical product of these numbers.'|) (tptp.s__instance tptp.plus__m tptp.s__BinaryFunction) (tptp.s__instance tptp.plus__m tptp.s__AssociativeFunction) (tptp.s__instance tptp.plus__m tptp.s__CommutativeFunction) (tptp.s__instance tptp.plus__m tptp.s__RelationExtendedToQuantities) (tptp.s__instance tptp.plus__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.plus__m |"1"| tptp.s__Quantity) (tptp.s__domain tptp.plus__m |"2"| tptp.s__Quantity) (tptp.s__range tptp.plus__m tptp.s__Quantity) (tptp.s__documentation tptp.plus__m tptp.s__EnglishLanguage |tptp.'If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%AdditionFn ?NUMBER1 ?NUMBER2) is the arithmetical sum of these numbers.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__Integer) (= (tptp.s__SuccessorFn V__NUMBER) (tptp.plus V__NUMBER |"1"|)))) (tptp.s__instance tptp.minus__m tptp.s__BinaryFunction) (tptp.s__instance tptp.minus__m tptp.s__AssociativeFunction) (tptp.s__instance tptp.minus__m tptp.s__RelationExtendedToQuantities) (tptp.s__instance tptp.minus__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.minus__m |"1"| tptp.s__Quantity) (tptp.s__domain tptp.minus__m |"2"| tptp.s__Quantity) (tptp.s__range tptp.minus__m tptp.s__Quantity) (tptp.s__documentation tptp.minus__m tptp.s__EnglishLanguage |tptp.'If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%SubtractionFn ?NUMBER1 ?NUMBER2) is the arithmetical difference between ?NUMBER1 and ?NUMBER2, i.e. ?NUMBER1 minus ?NUMBER2. An exception occurs when ?NUMBER1 is equal to 0, in which case (&%SubtractionFn ?NUMBER1 ?NUMBER2) is the negation of ?NUMBER2.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__Integer) (= (tptp.s__PredecessorFn V__NUMBER) (tptp.minus V__NUMBER |"1"|)))) (tptp.s__instance tptp.divide__m tptp.s__BinaryFunction) (tptp.s__instance tptp.divide__m tptp.s__AssociativeFunction) (tptp.s__instance tptp.divide__m tptp.s__RelationExtendedToQuantities) (tptp.s__instance tptp.divide__m tptp.s__PartialValuedRelation) (tptp.s__domain tptp.divide__m |"1"| tptp.s__Quantity) (tptp.s__domain tptp.divide__m |"2"| tptp.s__Quantity) (tptp.s__range tptp.divide__m tptp.s__Quantity) (tptp.s__documentation tptp.divide__m tptp.s__EnglishLanguage |tptp.'If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%DivisionFn ?NUMBER1 ?NUMBER2) is the result of dividing ?NUMBER1 by ?NUMBER2. Note that when ?NUMBER1 = 1 (&%DivisionFn ?NUMBER1 ?NUMBER2) is the reciprocal of ?NUMBER2. Note too that (&%DivisionFn ?NUMBER1 ?NUMBER2) is undefined when ?NUMBER2 = 0.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RationalNumber) (exists ((V__INT1 $$unsorted) (V__INT2 $$unsorted)) (and (tptp.s__instance V__INT2 tptp.s__Quantity) (tptp.s__instance V__INT1 tptp.s__Quantity) (tptp.s__instance V__INT1 tptp.s__Integer) (tptp.s__instance V__INT2 tptp.s__Integer) (= V__NUMBER (tptp.divide V__INT1 V__INT2)))))) (tptp.s__instance tptp.s__AbsoluteValueFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__AbsoluteValueFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__AbsoluteValueFn__m |"1"| tptp.s__RealNumber) (tptp.s__range tptp.s__AbsoluteValueFn__m tptp.s__NonnegativeRealNumber) (tptp.s__documentation tptp.s__AbsoluteValueFn__m tptp.s__EnglishLanguage |tptp.'The value of (&%AbsoluteValueFn ?NUMBER) is the absolute value of the &%RealNumber ?NUMBER.'|) (forall ((V__NUMBER2 $$unsorted) (V__NUMBER1 $$unsorted)) (= (and (= (tptp.s__AbsoluteValueFn V__NUMBER1) V__NUMBER2) (tptp.s__instance V__NUMBER1 tptp.s__RealNumber) (tptp.s__instance V__NUMBER2 tptp.s__RealNumber)) (or (and (tptp.s__instance V__NUMBER1 tptp.s__NonnegativeRealNumber) (= V__NUMBER1 V__NUMBER2)) (and (tptp.s__instance V__NUMBER1 tptp.s__NegativeRealNumber) (= V__NUMBER2 (tptp.minus |"0"| V__NUMBER1)))))) (tptp.s__instance tptp.s__CeilingFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__UnaryFunction__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__CeilingFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__CeilingFn__m |"1"| tptp.s__RealNumber) (tptp.s__range tptp.s__CeilingFn__m tptp.s__Integer) (tptp.s__documentation tptp.s__CeilingFn__m tptp.s__EnglishLanguage |tptp.'(&%CeilingFn ?NUMBER) returns the smallest &%Integer greater than or equal to the &%RealNumber ?NUMBER.'|) (forall ((V__NUMBER $$unsorted) (V__INT $$unsorted)) (=> (and (tptp.s__instance V__INT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__RealNumber)) (=> (= (tptp.s__CeilingFn V__NUMBER) V__INT) (not (exists ((V__OTHERINT $$unsorted)) (and (tptp.s__instance V__OTHERINT tptp.s__Quantity) (tptp.s__instance V__OTHERINT tptp.s__Integer) (tptp.greatereq V__OTHERINT V__NUMBER) (tptp.less V__OTHERINT V__INT))))))) (tptp.s__instance tptp.s__CosineFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__CosineFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__CosineFn__m |"1"| tptp.s__PlaneAngleMeasure) (tptp.s__range tptp.s__CosineFn__m tptp.s__RealNumber) (tptp.s__documentation tptp.s__CosineFn__m tptp.s__EnglishLanguage |tptp.'(&%CosineFn ?DEGREE) returns the cosine of the &%PlaneAngleMeasure ?DEGREE. The cosine of ?DEGREE is the ratio of the side next to ?DEGREE to the hypotenuse in a right-angled triangle.'|) (tptp.s__instance tptp.s__DenominatorFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__DenominatorFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__DenominatorFn__m |"1"| tptp.s__RealNumber) (tptp.s__range tptp.s__DenominatorFn__m tptp.s__Integer) (tptp.s__documentation tptp.s__DenominatorFn__m tptp.s__EnglishLanguage |tptp.'(&%DenominatorFn ?NUMBER) returns the denominator of the canonical reduced form of the &%RealNumber ?NUMBER.'|) (tptp.s__instance tptp.s__ExponentiationFn__m tptp.s__BinaryFunction) (tptp.s__instance tptp.s__ExponentiationFn__m tptp.s__RelationExtendedToQuantities) (tptp.s__instance tptp.s__RelationExtendedToQuantities__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__ExponentiationFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__ExponentiationFn__m |"1"| tptp.s__Quantity) (tptp.s__domain tptp.s__ExponentiationFn__m |"2"| tptp.s__Integer) (tptp.s__range tptp.s__ExponentiationFn__m tptp.s__Quantity) (tptp.s__documentation tptp.s__ExponentiationFn__m tptp.s__EnglishLanguage |tptp.'(&%ExponentiationFn ?NUMBER ?INT) returns the &%RealNumber ?NUMBER raised to the power of the &%Integer ?INT.'|) (tptp.s__instance tptp.s__FloorFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__FloorFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__FloorFn__m |"1"| tptp.s__RealNumber) (tptp.s__range tptp.s__FloorFn__m tptp.s__Integer) (tptp.s__documentation tptp.s__FloorFn__m tptp.s__EnglishLanguage |tptp.'(&%FloorFn ?NUMBER) returns the largest &%Integer less than or equal to the &%RealNumber ?NUMBER.'|) (forall ((V__NUMBER $$unsorted) (V__INT $$unsorted)) (=> (and (tptp.s__instance V__INT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__RealNumber)) (=> (= (tptp.s__FloorFn V__NUMBER) V__INT) (not (exists ((V__OTHERINT $$unsorted)) (and (tptp.s__instance V__OTHERINT tptp.s__Quantity) (tptp.s__instance V__OTHERINT tptp.s__Integer) (tptp.lesseq V__OTHERINT V__NUMBER) (tptp.greater V__OTHERINT V__INT))))))) (tptp.s__instance tptp.s__GreatestCommonDivisorFn__m tptp.s__Function) (tptp.s__instance tptp.s__GreatestCommonDivisorFn__m tptp.s__VariableArityRelation) (tptp.s__instance tptp.s__GreatestCommonDivisorFn__m tptp.s__PartialValuedRelation) _let_12 (tptp.s__range tptp.s__GreatestCommonDivisorFn__m tptp.s__Integer) (tptp.s__documentation tptp.s__GreatestCommonDivisorFn__m tptp.s__EnglishLanguage |tptp.'(&%GreatestCommonDivisorFn ?NUMBER1 ?NUMBER2 ... ?NUMBER) returns the greatest common divisor of ?NUMBER1 through ?NUMBER.'|) (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted)) (=> (= (tptp.s__GreatestCommonDivisorFn_1 V__ROW1) V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_1 V__ROW1)) (= (tptp.s__RemainderFn V__ELEMENT V__NUMBER) |"0"|)))))) (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (= (tptp.s__GreatestCommonDivisorFn_2 V__ROW1 V__ROW2) V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_2 V__ROW1 V__ROW2)) (= (tptp.s__RemainderFn V__ELEMENT V__NUMBER) |"0"|)))))) (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (= (tptp.s__GreatestCommonDivisorFn_3 V__ROW1 V__ROW2 V__ROW3) V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) (= (tptp.s__RemainderFn V__ELEMENT V__NUMBER) |"0"|)))))) (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted)) (=> (= (tptp.s__GreatestCommonDivisorFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4) V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4)) (= (tptp.s__RemainderFn V__ELEMENT V__NUMBER) |"0"|)))))) (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted)) (=> (= (tptp.s__GreatestCommonDivisorFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5)) (= (tptp.s__RemainderFn V__ELEMENT V__NUMBER) |"0"|)))))) (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted)) (=> (= (tptp.s__GreatestCommonDivisorFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6)) (= (tptp.s__RemainderFn V__ELEMENT V__NUMBER) |"0"|)))))) (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ROW7 $$unsorted)) (=> (= (tptp.s__GreatestCommonDivisorFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7) V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7)) (= (tptp.s__RemainderFn V__ELEMENT V__NUMBER) |"0"|)))))) (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted)) (=> (= (tptp.s__GreatestCommonDivisorFn_1 V__ROW1) V__NUMBER) (not (exists ((V__GREATER $$unsorted)) (and (tptp.s__instance V__GREATER tptp.s__Quantity) (tptp.greater V__GREATER V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_1 V__ROW1)) (= (tptp.s__RemainderFn V__ELEMENT V__GREATER) |"0"|))))))))) (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (= (tptp.s__GreatestCommonDivisorFn_2 V__ROW1 V__ROW2) V__NUMBER) (not (exists ((V__GREATER $$unsorted)) (and (tptp.s__instance V__GREATER tptp.s__Quantity) (tptp.greater V__GREATER V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_2 V__ROW1 V__ROW2)) (= (tptp.s__RemainderFn V__ELEMENT V__GREATER) |"0"|))))))))) (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (= (tptp.s__GreatestCommonDivisorFn_3 V__ROW1 V__ROW2 V__ROW3) V__NUMBER) (not (exists ((V__GREATER $$unsorted)) (and (tptp.s__instance V__GREATER tptp.s__Quantity) (tptp.greater V__GREATER V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) (= (tptp.s__RemainderFn V__ELEMENT V__GREATER) |"0"|))))))))) (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted)) (=> (= (tptp.s__GreatestCommonDivisorFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4) V__NUMBER) (not (exists ((V__GREATER $$unsorted)) (and (tptp.s__instance V__GREATER tptp.s__Quantity) (tptp.greater V__GREATER V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4)) (= (tptp.s__RemainderFn V__ELEMENT V__GREATER) |"0"|))))))))) (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted)) (=> (= (tptp.s__GreatestCommonDivisorFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) V__NUMBER) (not (exists ((V__GREATER $$unsorted)) (and (tptp.s__instance V__GREATER tptp.s__Quantity) (tptp.greater V__GREATER V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5)) (= (tptp.s__RemainderFn V__ELEMENT V__GREATER) |"0"|))))))))) (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted)) (=> (= (tptp.s__GreatestCommonDivisorFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) V__NUMBER) (not (exists ((V__GREATER $$unsorted)) (and (tptp.s__instance V__GREATER tptp.s__Quantity) (tptp.greater V__GREATER V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6)) (= (tptp.s__RemainderFn V__ELEMENT V__GREATER) |"0"|))))))))) (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ROW7 $$unsorted)) (=> (= (tptp.s__GreatestCommonDivisorFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7) V__NUMBER) (not (exists ((V__GREATER $$unsorted)) (and (tptp.s__instance V__GREATER tptp.s__Quantity) (tptp.greater V__GREATER V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7)) (= (tptp.s__RemainderFn V__ELEMENT V__GREATER) |"0"|))))))))) (tptp.s__documentation tptp.s__multiplicativeFactor__m tptp.s__EnglishLanguage |tptp.'(multiplicativeFactor ?NUMBER1 ?NUMBER2) means that ?NUMBER1 is a factor of ?NUMBER2, i.e. ?NUMBER1 can be multiplied by some &%Integer to give ?NUMBER2 as a result.'|) (tptp.s__instance tptp.s__multiplicativeFactor__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__multiplicativeFactor__m tptp.s__TransitiveRelation) (tptp.s__domain tptp.s__multiplicativeFactor__m |"1"| tptp.s__Integer) (tptp.s__domain tptp.s__multiplicativeFactor__m |"2"| tptp.s__Integer) (forall ((V__N2 $$unsorted) (V__N1 $$unsorted)) (=> (and (tptp.s__instance V__N1 tptp.s__Integer) (tptp.s__instance V__N2 tptp.s__Integer)) (=> (tptp.s__multiplicativeFactor V__N1 V__N2) (exists ((V__I $$unsorted)) (and (tptp.s__instance V__I tptp.s__Quantity) (tptp.s__instance V__I tptp.s__Integer) (= V__N2 (tptp.times V__N1 V__I))))))) (tptp.s__instance tptp.s__ImaginaryPartFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__ImaginaryPartFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__ImaginaryPartFn__m |"1"| tptp.s__ComplexNumber) (tptp.s__range tptp.s__ImaginaryPartFn__m tptp.s__ImaginaryNumber) (tptp.s__documentation tptp.s__ImaginaryPartFn__m tptp.s__EnglishLanguage |tptp.'(&%ImaginaryPartFn ?NUMBER) returns the part of ?NUMBER that has the square root of -1 as its factor.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__ComplexNumber) (exists ((V__PART1 $$unsorted) (V__PART2 $$unsorted)) (and (= V__PART1 (tptp.s__RealNumberFn V__NUMBER)) (= V__PART2 (tptp.s__ImaginaryPartFn V__NUMBER)))))) (tptp.s__instance tptp.s__IntegerSquareRootFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__IntegerSquareRootFn__m tptp.s__PartialValuedRelation) (tptp.s__domain tptp.s__IntegerSquareRootFn__m |"1"| tptp.s__RealNumber) (tptp.s__range tptp.s__IntegerSquareRootFn__m tptp.s__NonnegativeInteger) (tptp.s__documentation tptp.s__IntegerSquareRootFn__m tptp.s__EnglishLanguage |tptp.'(&%IntegerSquareRootFn ?NUMBER) returns the integer square root of ?NUMBER.'|) (tptp.s__instance tptp.s__LeastCommonMultipleFn__m tptp.s__Function) (tptp.s__instance tptp.s__LeastCommonMultipleFn__m tptp.s__PartialValuedRelation) (tptp.s__instance tptp.s__LeastCommonMultipleFn__m tptp.s__VariableArityRelation) (tptp.s__range tptp.s__LeastCommonMultipleFn__m tptp.s__Integer) (tptp.s__documentation tptp.s__LeastCommonMultipleFn__m tptp.s__EnglishLanguage |tptp.'(&%LeastCommonMultipleFn ?NUMBER1 ?NUMBER2 ... ?NUMBER) returns the least common multiple of ?NUMBER1 through ?NUMBER.'|) (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted)) (=> (= (tptp.s__LeastCommonMultipleFn_1 V__ROW1) V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_1 V__ROW1)) (= (tptp.s__RemainderFn V__NUMBER V__ELEMENT) |"0"|)))))) (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (= (tptp.s__LeastCommonMultipleFn_2 V__ROW1 V__ROW2) V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_2 V__ROW1 V__ROW2)) (= (tptp.s__RemainderFn V__NUMBER V__ELEMENT) |"0"|)))))) (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (= (tptp.s__LeastCommonMultipleFn_3 V__ROW1 V__ROW2 V__ROW3) V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) (= (tptp.s__RemainderFn V__NUMBER V__ELEMENT) |"0"|)))))) (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted)) (=> (= (tptp.s__LeastCommonMultipleFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4) V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4)) (= (tptp.s__RemainderFn V__NUMBER V__ELEMENT) |"0"|)))))) (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted)) (=> (= (tptp.s__LeastCommonMultipleFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5)) (= (tptp.s__RemainderFn V__NUMBER V__ELEMENT) |"0"|)))))) (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted)) (=> (= (tptp.s__LeastCommonMultipleFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6)) (= (tptp.s__RemainderFn V__NUMBER V__ELEMENT) |"0"|)))))) (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ROW7 $$unsorted)) (=> (= (tptp.s__LeastCommonMultipleFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7) V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7)) (= (tptp.s__RemainderFn V__NUMBER V__ELEMENT) |"0"|)))))) (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted)) (=> (= (tptp.s__LeastCommonMultipleFn_1 V__ROW1) V__NUMBER) (not (exists ((V__LESS $$unsorted)) (and (tptp.s__instance V__LESS tptp.s__Quantity) (tptp.less V__LESS V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_1 V__ROW1)) (= (tptp.s__RemainderFn V__LESS V__ELEMENT) |"0"|))))))))) (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (= (tptp.s__LeastCommonMultipleFn_2 V__ROW1 V__ROW2) V__NUMBER) (not (exists ((V__LESS $$unsorted)) (and (tptp.s__instance V__LESS tptp.s__Quantity) (tptp.less V__LESS V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_2 V__ROW1 V__ROW2)) (= (tptp.s__RemainderFn V__LESS V__ELEMENT) |"0"|))))))))) (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (= (tptp.s__LeastCommonMultipleFn_3 V__ROW1 V__ROW2 V__ROW3) V__NUMBER) (not (exists ((V__LESS $$unsorted)) (and (tptp.s__instance V__LESS tptp.s__Quantity) (tptp.less V__LESS V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) (= (tptp.s__RemainderFn V__LESS V__ELEMENT) |"0"|))))))))) (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted)) (=> (= (tptp.s__LeastCommonMultipleFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4) V__NUMBER) (not (exists ((V__LESS $$unsorted)) (and (tptp.s__instance V__LESS tptp.s__Quantity) (tptp.less V__LESS V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4)) (= (tptp.s__RemainderFn V__LESS V__ELEMENT) |"0"|))))))))) (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted)) (=> (= (tptp.s__LeastCommonMultipleFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) V__NUMBER) (not (exists ((V__LESS $$unsorted)) (and (tptp.s__instance V__LESS tptp.s__Quantity) (tptp.less V__LESS V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5)) (= (tptp.s__RemainderFn V__LESS V__ELEMENT) |"0"|))))))))) (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted)) (=> (= (tptp.s__LeastCommonMultipleFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) V__NUMBER) (not (exists ((V__LESS $$unsorted)) (and (tptp.s__instance V__LESS tptp.s__Quantity) (tptp.less V__LESS V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6)) (= (tptp.s__RemainderFn V__LESS V__ELEMENT) |"0"|))))))))) (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ROW7 $$unsorted)) (=> (= (tptp.s__LeastCommonMultipleFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7) V__NUMBER) (not (exists ((V__LESS $$unsorted)) (and (tptp.s__instance V__LESS tptp.s__Quantity) (tptp.less V__LESS V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7)) (= (tptp.s__RemainderFn V__LESS V__ELEMENT) |"0"|))))))))) (tptp.s__instance tptp.s__LogFn__m tptp.s__BinaryFunction) (tptp.s__domain tptp.s__LogFn__m |"1"| tptp.s__RealNumber) (tptp.s__domain tptp.s__LogFn__m |"2"| tptp.s__PositiveInteger) (tptp.s__range tptp.s__LogFn__m tptp.s__RealNumber) (tptp.s__documentation tptp.s__LogFn__m tptp.s__EnglishLanguage |tptp.'(LogFn ?NUMBER ?INT) returns the logarithm of the &%RealNumber ?NUMBER in the base denoted by the &%Integer ?INT.'|) (tptp.s__instance tptp.s__MaxFn__m tptp.s__BinaryFunction) (tptp.s__instance tptp.s__MaxFn__m tptp.s__AssociativeFunction) (tptp.s__instance tptp.s__MaxFn__m tptp.s__CommutativeFunction) (tptp.s__instance tptp.s__MaxFn__m tptp.s__RelationExtendedToQuantities) (tptp.s__instance tptp.s__MaxFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__MaxFn__m |"1"| tptp.s__Quantity) (tptp.s__domain tptp.s__MaxFn__m |"2"| tptp.s__Quantity) (tptp.s__range tptp.s__MaxFn__m tptp.s__Quantity) (tptp.s__documentation tptp.s__MaxFn__m tptp.s__EnglishLanguage |tptp.'(&%MaxFn ?NUMBER1 ?NUMBER2) is the largest of ?NUMBER1 and ?NUMBER2. In cases where ?NUMBER1 is equal to ?NUMBER2, &%MaxFn returns one of its arguments.'|) (forall ((V__NUMBER $$unsorted) (V__NUMBER2 $$unsorted) (V__NUMBER1 $$unsorted)) (let ((_let_1 (= V__NUMBER V__NUMBER2))) (let ((_let_2 (= V__NUMBER V__NUMBER1))) (=> (and (tptp.s__instance V__NUMBER1 tptp.s__Quantity) (tptp.s__instance V__NUMBER2 tptp.s__Quantity)) (=> (= (tptp.s__MaxFn V__NUMBER1 V__NUMBER2) V__NUMBER) (or (and _let_2 (tptp.greater V__NUMBER1 V__NUMBER2)) (and _let_1 (tptp.greater V__NUMBER2 V__NUMBER1)) (and _let_2 _let_1))))))) (tptp.s__instance tptp.s__MinFn__m tptp.s__BinaryFunction) (tptp.s__instance tptp.s__MinFn__m tptp.s__AssociativeFunction) (tptp.s__instance tptp.s__MinFn__m tptp.s__CommutativeFunction) (tptp.s__instance tptp.s__MinFn__m tptp.s__RelationExtendedToQuantities) (tptp.s__instance tptp.s__MinFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__MinFn__m |"1"| tptp.s__Quantity) (tptp.s__domain tptp.s__MinFn__m |"2"| tptp.s__Quantity) (tptp.s__range tptp.s__MinFn__m tptp.s__Quantity) (tptp.s__documentation tptp.s__MinFn__m tptp.s__EnglishLanguage |tptp.'(&%MinFn ?NUMBER1 ?NUMBER2) is the smallest of ?NUMBER1 and ?NUMBER2. In cases where ?NUMBER1 is equal to ?NUMBER2, &%MinFn returns one of its arguments.'|) (forall ((V__NUMBER $$unsorted) (V__NUMBER2 $$unsorted) (V__NUMBER1 $$unsorted)) (let ((_let_1 (= V__NUMBER V__NUMBER2))) (let ((_let_2 (= V__NUMBER V__NUMBER1))) (=> (and (tptp.s__instance V__NUMBER1 tptp.s__Quantity) (tptp.s__instance V__NUMBER2 tptp.s__Quantity)) (=> (= (tptp.s__MinFn V__NUMBER1 V__NUMBER2) V__NUMBER) (or (and _let_2 (tptp.less V__NUMBER1 V__NUMBER2)) (and _let_1 (tptp.less V__NUMBER2 V__NUMBER1)) (and _let_2 _let_1))))))) (tptp.s__instance tptp.s__NumeratorFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__NumeratorFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__NumeratorFn__m |"1"| tptp.s__RealNumber) (tptp.s__range tptp.s__NumeratorFn__m tptp.s__Integer) (tptp.s__documentation tptp.s__NumeratorFn__m tptp.s__EnglishLanguage |tptp.'(&%NumeratorFn ?NUMBER) returns the numerator of the canonical reduced form ?NUMBER.'|) (tptp.s__instance tptp.s__Pi tptp.s__PositiveRealNumber) (tptp.s__instance tptp.s__PositiveRealNumber__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Pi tptp.s__EnglishLanguage |tptp.'&%Pi is the &%RealNumber that is the ratio of the perimeter of a circle to its diameter. It is approximately equal to 3.141592653589793.'|) (tptp.s__instance tptp.s__NumberE tptp.s__PositiveRealNumber) (tptp.s__documentation tptp.s__NumberE tptp.s__EnglishLanguage |tptp.'&%NumberE is the &%RealNumber that is the base for natural logarithms. It is approximately equal to 2.718282.'|) (tptp.s__instance tptp.s__RationalNumberFn__m tptp.s__UnaryFunction) (tptp.s__domain tptp.s__RationalNumberFn__m |"1"| tptp.s__Number) (tptp.s__range tptp.s__RationalNumberFn__m tptp.s__RationalNumber) (tptp.s__documentation tptp.s__RationalNumberFn__m tptp.s__EnglishLanguage |tptp.'(&%RationalNumberFn ?NUMBER) returns the rational representation of ?NUMBER.'|) (tptp.s__instance tptp.s__RealNumberFn__m tptp.s__UnaryFunction) (tptp.s__domain tptp.s__RealNumberFn__m |"1"| tptp.s__Number) (tptp.s__range tptp.s__RealNumberFn__m tptp.s__RealNumber) (tptp.s__documentation tptp.s__RealNumberFn__m tptp.s__EnglishLanguage |tptp.'(RealNumberFn ?NUMBER) returns the part of ?NUMBER that is a &%RealNumber.'|) (tptp.s__instance tptp.s__ReciprocalFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__ReciprocalFn__m tptp.s__RelationExtendedToQuantities) (tptp.s__instance tptp.s__ReciprocalFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__ReciprocalFn__m |"1"| tptp.s__Quantity) (tptp.s__range tptp.s__ReciprocalFn__m tptp.s__Quantity) (tptp.s__documentation tptp.s__ReciprocalFn__m tptp.s__EnglishLanguage |tptp.'(ReciprocalFn ?NUMBER) is the reciprocal element of ?NUMBER with respect to the multiplication operator (&%MultiplicationFn), i.e. 1/?NUMBER. Not all numbers have a reciprocal element. For example the number 0 does not. If a number ?NUMBER has a reciprocal ?RECIP, then the product of ?NUMBER and ?RECIP will be 1, e.g. 3*1/3 = 1. The reciprocal of an element is &%equal to applying the &%ExponentiationFn function to the element to the power -1.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__Quantity) (= (tptp.s__ReciprocalFn V__NUMBER) (tptp.s__ExponentiationFn V__NUMBER |"-1"|)))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__Quantity) (= |"1"| (tptp.times V__NUMBER (tptp.s__ReciprocalFn V__NUMBER))))) (tptp.s__instance tptp.s__RemainderFn__m tptp.s__BinaryFunction) (tptp.s__instance tptp.s__RemainderFn__m tptp.s__RelationExtendedToQuantities) (tptp.s__instance tptp.s__RemainderFn__m tptp.s__PartialValuedRelation) (tptp.s__domain tptp.s__RemainderFn__m |"1"| tptp.s__Quantity) (tptp.s__domain tptp.s__RemainderFn__m |"2"| tptp.s__Quantity) (tptp.s__range tptp.s__RemainderFn__m tptp.s__Quantity) (tptp.s__documentation tptp.s__RemainderFn__m tptp.s__EnglishLanguage |tptp.'(RemainderFn ?NUMBER ?DIVISOR) is the remainder of the number ?NUMBER divided by the number ?DIVISOR. The result has the same sign as ?DIVISOR.'|) (forall ((V__NUMBER $$unsorted) (V__NUMBER2 $$unsorted) (V__NUMBER1 $$unsorted)) (=> (and (tptp.s__instance V__NUMBER1 tptp.s__Quantity) (tptp.s__instance V__NUMBER2 tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (= (= (tptp.s__RemainderFn V__NUMBER1 V__NUMBER2) V__NUMBER) (= (tptp.plus (tptp.times (tptp.s__FloorFn (tptp.divide V__NUMBER1 V__NUMBER2)) V__NUMBER2) V__NUMBER) V__NUMBER1)))) (forall ((V__NUMBER $$unsorted) (V__NUMBER2 $$unsorted) (V__NUMBER1 $$unsorted)) (=> (and (tptp.s__instance V__NUMBER1 tptp.s__Quantity) (tptp.s__instance V__NUMBER2 tptp.s__RealNumber) (tptp.s__instance V__NUMBER tptp.s__RealNumber)) (=> (= (tptp.s__RemainderFn V__NUMBER1 V__NUMBER2) V__NUMBER) (= (tptp.s__SignumFn V__NUMBER2) (tptp.s__SignumFn V__NUMBER))))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__Quantity) (=> (tptp.s__instance V__NUMBER tptp.s__EvenInteger) (= (tptp.s__RemainderFn V__NUMBER |"2"|) |"0"|)))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__Quantity) (=> (tptp.s__instance V__NUMBER tptp.s__OddInteger) (= (tptp.s__RemainderFn V__NUMBER |"2"|) |"1"|)))) (forall ((V__PRIME $$unsorted)) (=> (tptp.s__instance V__PRIME tptp.s__PrimeNumber) (forall ((V__NUMBER $$unsorted)) (=> (and (tptp.s__instance V__NUMBER tptp.s__Quantity) (tptp.s__instance V__PRIME tptp.s__Quantity)) (=> (= (tptp.s__RemainderFn V__PRIME V__NUMBER) |"0"|) (or (= V__NUMBER |"1"|) (= V__NUMBER V__PRIME))))))) (tptp.s__instance tptp.s__RoundFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__RoundFn__m tptp.s__RelationExtendedToQuantities) (tptp.s__instance tptp.s__RoundFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__RoundFn__m |"1"| tptp.s__Quantity) (tptp.s__range tptp.s__RoundFn__m tptp.s__Quantity) (tptp.s__documentation tptp.s__RoundFn__m tptp.s__EnglishLanguage |tptp.'(&%RoundFn ?NUMBER) is the &%Integer closest to ?NUMBER on the number line. If ?NUMBER is halfway between two &%Integers (for example 3.5), it denotes the larger &%Integer.'|) (forall ((V__NUMBER2 $$unsorted) (V__NUMBER1 $$unsorted)) (let ((_let_1 (tptp.s__FloorFn V__NUMBER1))) (let ((_let_2 (tptp.minus V__NUMBER1 _let_1))) (=> (tptp.s__instance V__NUMBER1 tptp.s__RealNumber) (=> (= (tptp.s__RoundFn V__NUMBER1) V__NUMBER2) (or (=> (tptp.less _let_2 |"0.5"|) (= V__NUMBER2 _let_1)) (=> (tptp.greatereq _let_2 |"0.5"|) (= V__NUMBER2 (tptp.s__CeilingFn V__NUMBER1))))))))) (tptp.s__instance tptp.s__SignumFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__SignumFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__SignumFn__m |"1"| tptp.s__RealNumber) (tptp.s__range tptp.s__SignumFn__m tptp.s__Integer) (tptp.s__documentation tptp.s__SignumFn__m tptp.s__EnglishLanguage |tptp.'(SignumFn ?NUMBER) denotes the sign of ?NUMBER. This is one of the following values: -1, 1, or 0.'|) (forall ((V__NUMBER $$unsorted)) (let ((_let_1 (tptp.s__SignumFn V__NUMBER))) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (tptp.s__instance V__NUMBER tptp.s__NonnegativeRealNumber) (or (= _let_1 |"1"|) (= _let_1 |"0"|)))))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveRealNumber) (= (tptp.s__SignumFn V__NUMBER) |"1"|)))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (tptp.s__instance V__NUMBER tptp.s__NegativeRealNumber) (= (tptp.s__SignumFn V__NUMBER) |"-1"|)))) (tptp.s__instance tptp.s__SineFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__SineFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__SineFn__m |"1"| tptp.s__PlaneAngleMeasure) (tptp.s__range tptp.s__SineFn__m tptp.s__RealNumber) (tptp.s__documentation tptp.s__SineFn__m tptp.s__EnglishLanguage |tptp.'(&%SineFn ?DEGREE) is the sine of the &%PlaneAngleMeasure ?DEGREE. The sine of ?DEGREE is the ratio of the side opposite ?DEGREE to the hypotenuse in a right-angled triangle.'|) (tptp.s__instance tptp.s__SquareRootFn__m tptp.s__UnaryFunction) (tptp.s__domain tptp.s__SquareRootFn__m |"1"| tptp.s__RealNumber) (tptp.s__range tptp.s__SquareRootFn__m tptp.s__Number) (tptp.s__documentation tptp.s__SquareRootFn__m tptp.s__EnglishLanguage |tptp.'(SquareRootFn ?NUMBER) is the principal square root of ?NUMBER.'|) (forall ((V__NUMBER2 $$unsorted) (V__NUMBER1 $$unsorted)) (=> (and (tptp.s__instance V__NUMBER1 tptp.s__RealNumber) (tptp.s__instance V__NUMBER2 tptp.s__Quantity)) (=> (= (tptp.s__SquareRootFn V__NUMBER1) V__NUMBER2) (= (tptp.times V__NUMBER2 V__NUMBER2) V__NUMBER1)))) (tptp.s__instance tptp.s__TangentFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__TangentFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__TangentFn__m |"1"| tptp.s__PlaneAngleMeasure) (tptp.s__range tptp.s__TangentFn__m tptp.s__RealNumber) (tptp.s__documentation tptp.s__TangentFn__m tptp.s__EnglishLanguage |tptp.'(&%TangentFn ?DEGREE) is the tangent of the &%PlaneAngleMeasure ?DEGREE. The tangent of ?DEGREE is the ratio of the side opposite ?DEGREE to the side next to ?DEGREE in a right-angled triangle.'|) (forall ((V__DEGREE $$unsorted)) (=> (tptp.s__instance V__DEGREE tptp.s__PlaneAngleMeasure) (= (tptp.s__TangentFn V__DEGREE) (tptp.divide (tptp.s__SineFn V__DEGREE) (tptp.s__CosineFn V__DEGREE))))) (tptp.s__instance tptp.s__identityElement__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__identityElement__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__identityElement__m |"1"| tptp.s__BinaryFunction) (tptp.s__domain tptp.s__identityElement__m |"2"| tptp.s__Entity) (tptp.s__documentation tptp.s__identityElement__m tptp.s__EnglishLanguage |tptp.'An object ?ID is the identity element for BinaryFunction ?FUNCTION just in case, for every instance ?INST, applying ?FUNCTION to ?INST and ?ID results in ?INST.'|) (forall ((V__CLASS $$unsorted) (V__ID $$unsorted) (V__FUNCTION $$unsorted)) (=> (tptp.s__identityElement V__FUNCTION V__ID) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__FUNCTION tptp.s__BinaryFunction) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (and (tptp.s__domain V__FUNCTION |"1"| V__CLASS) (tptp.s__instance V__INST V__CLASS)) (= (tptp.s__AssignmentFn_3 V__FUNCTION V__ID V__INST) V__INST)))))) (tptp.s__identityElement tptp.times__m |"1"|) (tptp.s__identityElement tptp.plus__m |"0"|) (tptp.s__identityElement tptp.minus__m |"0"|) (tptp.s__identityElement tptp.divide__m |"1"|) (tptp.s__instance tptp.s__SuccessorFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__SuccessorFn__m tptp.s__TotalValuedRelation) (tptp.s__instance tptp.s__TotalValuedRelation__t tptp.s__SetOrClass) (tptp.s__domain tptp.s__SuccessorFn__m |"1"| tptp.s__Integer) (tptp.s__range tptp.s__SuccessorFn__m tptp.s__Integer) (tptp.s__documentation tptp.s__SuccessorFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps an &%Integer to its successor, e.g. the successor of 5 is 6.'|) (forall ((V__INT2 $$unsorted) (V__INT1 $$unsorted)) (=> (and (tptp.s__instance V__INT1 tptp.s__Integer) (tptp.s__instance V__INT2 tptp.s__Integer)) (=> (= (tptp.s__SuccessorFn V__INT1) (tptp.s__SuccessorFn V__INT2)) (= V__INT1 V__INT2)))) (forall ((V__INT $$unsorted)) (=> (tptp.s__instance V__INT tptp.s__Integer) (tptp.less V__INT (tptp.s__SuccessorFn V__INT)))) (forall ((V__INT2 $$unsorted) (V__INT1 $$unsorted)) (=> (tptp.s__instance V__INT2 tptp.s__Quantity) (=> (and (tptp.s__instance V__INT1 tptp.s__Integer) (tptp.s__instance V__INT2 tptp.s__Integer)) (not (and (tptp.less V__INT1 V__INT2) (tptp.less V__INT2 (tptp.s__SuccessorFn V__INT1))))))) (forall ((V__INT $$unsorted)) (=> (tptp.s__instance V__INT tptp.s__Integer) (= V__INT (tptp.s__SuccessorFn (tptp.s__PredecessorFn V__INT))))) (forall ((V__INT $$unsorted)) (=> (tptp.s__instance V__INT tptp.s__Integer) (= V__INT (tptp.s__PredecessorFn (tptp.s__SuccessorFn V__INT))))) (tptp.s__instance tptp.s__PredecessorFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__PredecessorFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__PredecessorFn__m |"1"| tptp.s__Integer) (tptp.s__range tptp.s__PredecessorFn__m tptp.s__Integer) (tptp.s__documentation tptp.s__PredecessorFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps an &%Integer to its predecessor, e.g. the predecessor of 5 is 4.'|) (forall ((V__INT2 $$unsorted) (V__INT1 $$unsorted)) (=> (and (tptp.s__instance V__INT1 tptp.s__Integer) (tptp.s__instance V__INT2 tptp.s__Integer)) (=> (= (tptp.s__PredecessorFn V__INT1) (tptp.s__PredecessorFn V__INT2)) (= V__INT1 V__INT2)))) (forall ((V__INT $$unsorted)) (=> (tptp.s__instance V__INT tptp.s__Integer) (tptp.greater V__INT (tptp.s__PredecessorFn V__INT)))) (forall ((V__INT2 $$unsorted) (V__INT1 $$unsorted)) (=> (tptp.s__instance V__INT2 tptp.s__Quantity) (=> (and (tptp.s__instance V__INT1 tptp.s__Integer) (tptp.s__instance V__INT2 tptp.s__Integer)) (not (and (tptp.less V__INT2 V__INT1) (tptp.less (tptp.s__PredecessorFn V__INT1) V__INT2)))))) (tptp.s__instance tptp.s__average__m tptp.s__PartialValuedRelation) (tptp.s__instance tptp.s__average__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__average__m tptp.s__SingleValuedRelation) (tptp.s__domain tptp.s__average__m |"1"| tptp.s__List) (tptp.s__domain tptp.s__average__m |"2"| tptp.s__RealNumber) (tptp.s__synonymousExternalConcept tptp.average tptp.s__average__m tptp.s__EnglishLanguage) (tptp.s__documentation tptp.s__average__m tptp.s__EnglishLanguage |tptp.'A partial function that relates a &%List to a &%RealNumber, provided that the &%List only has list elements that are &%RealNumbers. The &%RealNumber associated with the &%List is equal to the mathematical average of the &%RealNumbers in the &%List divided by the total number of list elements.'|) (forall ((V__AVERAGE $$unsorted) (V__LIST $$unsorted)) (=> (tptp.s__average V__LIST V__AVERAGE) (forall ((V__LISTITEM $$unsorted)) (=> (and (tptp.s__instance V__LIST tptp.s__List) (tptp.s__instance V__AVERAGE tptp.s__RealNumber)) (=> (tptp.s__inList V__LISTITEM V__LIST) (tptp.s__instance V__LISTITEM tptp.s__RealNumber)))))) (tptp.s__subrelation tptp.s__subset__m tptp.s__subclass__m) (tptp.s__domain tptp.s__subset__m |"1"| tptp.s__Set) (tptp.s__domain tptp.s__subset__m |"2"| tptp.s__Set) (tptp.s__documentation tptp.s__subset__m tptp.s__EnglishLanguage |tptp.'(subset ?SET1 ?SET2) is true just in case the &%elements of the &%Set ?SET1 are also &%elements of the &%Set ?SET2.'|) (forall ((V__SUBSET $$unsorted) (V__SET $$unsorted)) (=> (tptp.s__subset V__SUBSET V__SET) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__SET tptp.s__Set) (tptp.s__instance V__SUBSET tptp.s__Set)) (=> (tptp.s__element V__ELEMENT V__SUBSET) (tptp.s__element V__ELEMENT V__SET)))))) (tptp.s__instance tptp.s__element__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__element__m tptp.s__AsymmetricRelation) (tptp.s__subrelation tptp.s__element__m tptp.s__instance__m) (tptp.s__domain tptp.s__element__m |"1"| tptp.s__Entity) (tptp.s__domain tptp.s__element__m |"2"| tptp.s__Set) (tptp.s__documentation tptp.s__element__m tptp.s__EnglishLanguage |tptp.'(element ?ENTITY ?SET) is true just in case ?ENTITY is contained in the &%Set ?SET. An &%Entity can be an &%element of another &%Entity only if the latter is a &%Set.'|) (forall ((V__SET2 $$unsorted) (V__SET1 $$unsorted)) (=> (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__SET1 tptp.s__Set) (tptp.s__instance V__SET2 tptp.s__Set)) (= (tptp.s__element V__ELEMENT V__SET1) (tptp.s__element V__ELEMENT V__SET2)))) (= V__SET1 V__SET2))) (tptp.s__instance tptp.s__UnionFn__m tptp.s__BinaryFunction) (tptp.s__instance tptp.s__UnionFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__UnionFn__m |"1"| tptp.s__SetOrClass) (tptp.s__domain tptp.s__UnionFn__m |"2"| tptp.s__SetOrClass) (tptp.s__range tptp.s__UnionFn__m tptp.s__SetOrClass) (tptp.s__documentation tptp.s__UnionFn__m tptp.s__EnglishLanguage |tptp.'A &%BinaryFunction that maps two &%SetOrClasses to the union of these &%SetOrClasses. An object is an &%element of the union of two &%SetOrClasses just in case it is an &%instance of either &%SetOrClass.'|) (forall ((V__C2 $$unsorted) (V__U $$unsorted) (V__C1 $$unsorted)) (= (= V__U (tptp.s__UnionFn V__C1 V__C2)) (forall ((V__I1 $$unsorted) (V__I2 $$unsorted) (V__I3 $$unsorted)) (=> (and (tptp.s__instance V__C1 tptp.s__SetOrClass) (tptp.s__instance V__U tptp.s__SetOrClass) (tptp.s__instance V__C2 tptp.s__SetOrClass)) (=> (and (tptp.s__instance V__I1 V__C1) (tptp.s__instance V__I2 V__C2) (tptp.s__instance V__I3 V__U)) (and (tptp.s__instance V__I1 V__U) (tptp.s__instance V__I2 V__U) (or (tptp.s__instance V__I3 V__C1) (tptp.s__instance V__I3 V__C2)))))))) (tptp.s__instance tptp.s__IntersectionFn__m tptp.s__BinaryFunction) (tptp.s__instance tptp.s__IntersectionFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__IntersectionFn__m |"1"| tptp.s__SetOrClass) (tptp.s__domain tptp.s__IntersectionFn__m |"2"| tptp.s__SetOrClass) (tptp.s__range tptp.s__IntersectionFn__m tptp.s__SetOrClass) (tptp.s__documentation tptp.s__IntersectionFn__m tptp.s__EnglishLanguage |tptp.'A &%BinaryFunction that maps two &%SetOrClasses to the intersection of these &%SetOrClasses. An object is an instance of the intersection of two &%SetOrClasses just in case it is an instance of both of those &%SetOrClasses.'|) (tptp.s__instance tptp.s__RelativeComplementFn__m tptp.s__BinaryFunction) (tptp.s__instance tptp.s__RelativeComplementFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__RelativeComplementFn__m |"1"| tptp.s__SetOrClass) (tptp.s__domain tptp.s__RelativeComplementFn__m |"2"| tptp.s__SetOrClass) (tptp.s__range tptp.s__RelativeComplementFn__m tptp.s__SetOrClass) (tptp.s__documentation tptp.s__RelativeComplementFn__m tptp.s__EnglishLanguage |tptp.'A &%BinaryFunction that maps two &%SetOrClasses to the difference between these &%SetOrClasses. More precisely, (&%RelativeComplementFn ?CLASS1 ?CLASS2) denotes the instances of ?CLASS1 that are not also instances of ?CLASS2.'|) (tptp.s__instance tptp.s__ComplementFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__ComplementFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__ComplementFn__m |"1"| tptp.s__SetOrClass) (tptp.s__range tptp.s__ComplementFn__m tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ComplementFn__m tptp.s__EnglishLanguage |tptp.'The complement of a given &%SetOrClass C is the &%SetOrClass of all things that are not instances of C. In other words, an object is an instance of the complement of a &%SetOrClass C just in case it is not an instance of C.'|) (tptp.s__instance tptp.s__GeneralizedUnionFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__GeneralizedUnionFn__m tptp.s__TotalValuedRelation) (tptp.s__domainSubclass tptp.s__GeneralizedUnionFn__m |"1"| tptp.s__SetOrClass) (tptp.s__range tptp.s__GeneralizedUnionFn__m tptp.s__SetOrClass) (tptp.s__documentation tptp.s__GeneralizedUnionFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that takes a &%SetOrClass of &%Classes as its single argument and returns a &%SetOrClass which is the merge of all of the &%Classes in the original &%SetOrClass, i.e. the &%SetOrClass containing just those instances which are instances of an instance of the original &%SetOrClass.'|) (tptp.s__instance tptp.s__GeneralizedIntersectionFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__GeneralizedIntersectionFn__m tptp.s__TotalValuedRelation) (tptp.s__domainSubclass tptp.s__GeneralizedIntersectionFn__m |"1"| tptp.s__SetOrClass) (tptp.s__range tptp.s__GeneralizedIntersectionFn__m tptp.s__SetOrClass) (tptp.s__documentation tptp.s__GeneralizedIntersectionFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that takes a &%SetOrClass of &%Classes as its single argument and returns a &%SetOrClass which is the intersection of all of the &%Classes in the original &%SetOrClass, i.e. the &%SetOrClass containing just those instances which are instances of all instances of the original &%SetOrClass.'|) (tptp.s__instance tptp.s__CardinalityFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__CardinalityFn__m tptp.s__TotalValuedRelation) (tptp.s__instance tptp.s__CardinalityFn__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__CardinalityFn__m |"1"| (tptp.s__UnionFn tptp.s__SetOrClass tptp.s__Collection)) (tptp.s__range tptp.s__CardinalityFn__m tptp.s__Number) (tptp.s__documentation tptp.s__CardinalityFn__m tptp.s__EnglishLanguage |tptp.'(CardinalityFn ?CLASS) returns the number of instances in the &%SetOrClass ?CLASS or the number of members in the ?CLASS &%Collection.'|) (tptp.s__instance tptp.s__NullSet__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__NullSet tptp.s__EnglishLanguage |tptp.'Any &%SetOrClass that contains no instances.'|) (forall ((V__SET $$unsorted)) (=> (tptp.s__instance V__SET tptp.s__SetOrClass) (=> (tptp.s__instance V__SET tptp.s__NullSet) (not (exists ((V__INST $$unsorted)) (tptp.s__instance V__INST V__SET)))))) (tptp.s__subclass tptp.s__NonNullSet tptp.s__SetOrClass) (tptp.s__instance tptp.s__NonNullSet__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__NonNullSet tptp.s__EnglishLanguage |tptp.'Any &%SetOrClass that contains at least one instance.'|) (forall ((V__SET $$unsorted)) (=> (tptp.s__instance V__SET tptp.s__SetOrClass) (=> (tptp.s__instance V__SET tptp.s__NonNullSet) (exists ((V__INST $$unsorted)) (tptp.s__instance V__INST V__SET))))) (tptp.s__subclass tptp.s__FiniteSet tptp.s__Set) (tptp.s__instance tptp.s__FiniteSet__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FiniteSet tptp.s__EnglishLanguage |tptp.'A &%Set containing a finite number of elements.'|) (forall ((V__SET $$unsorted)) (=> (tptp.s__instance V__SET (tptp.s__UnionFn tptp.s__SetOrClass tptp.s__Collection)) (=> (tptp.s__instance V__SET tptp.s__FiniteSet) (exists ((V__NUMBER $$unsorted)) (and (tptp.s__instance V__NUMBER tptp.s__NonnegativeInteger) (= V__NUMBER (tptp.s__CardinalityFn V__SET))))))) (tptp.s__subclass tptp.s__PairwiseDisjointClass tptp.s__SetOrClass) (tptp.s__instance tptp.s__PairwiseDisjointClass__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PairwiseDisjointClass tptp.s__EnglishLanguage |tptp.'A &%SetOrClass is a &%PairwiseDisjointClass just in case every instance of the &%SetOrClass is either &%equal to or &%disjoint from every other instance of the &%SetOrClass.'|) (forall ((V__SUPERCLASS $$unsorted)) (=> (tptp.s__instance V__SUPERCLASS tptp.s__PairwiseDisjointClass) (forall ((V__CLASS1 $$unsorted) (V__CLASS2 $$unsorted)) (=> (and (tptp.s__instance V__CLASS2 tptp.s__SetOrClass) (tptp.s__instance V__CLASS1 tptp.s__SetOrClass) (tptp.s__instance V__SUPERCLASS tptp.s__SetOrClass)) (=> (and (tptp.s__instance V__CLASS1 V__SUPERCLASS) (tptp.s__instance V__CLASS2 V__SUPERCLASS)) (or (= V__CLASS1 V__CLASS2) (tptp.s__disjoint V__CLASS1 V__CLASS2))))))) (tptp.s__subclass tptp.s__MutuallyDisjointClass tptp.s__SetOrClass) (tptp.s__instance tptp.s__MutuallyDisjointClass__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MutuallyDisjointClass tptp.s__EnglishLanguage |tptp.'A &%SetOrClass is a &%MutuallyDisjointClass just in case there exists nothing which is an instance of all of the instances of the original &%SetOrClass.'|) (forall ((V__CLASS $$unsorted)) (=> (tptp.s__instance V__CLASS tptp.s__MutuallyDisjointClass) (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST1 tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (and (tptp.s__instance V__INST1 V__CLASS) (tptp.s__instance V__INST2 V__INST1)) (exists ((V__INST3 $$unsorted)) (and (tptp.s__instance V__INST3 tptp.s__SetOrClass) (tptp.s__instance V__INST3 V__CLASS) (not (tptp.s__instance V__INST2 V__INST3))))))))) (tptp.s__instance tptp.s__KappaFn__m tptp.s__BinaryFunction) (tptp.s__domain tptp.s__KappaFn__m |"1"| tptp.s__SymbolicString) (tptp.s__domain tptp.s__KappaFn__m |"2"| tptp.s__Formula) (tptp.s__range tptp.s__KappaFn__m tptp.s__Class) (tptp.s__documentation tptp.s__KappaFn__m tptp.s__EnglishLanguage |tptp.'A class-forming operator that takes two arguments: a variable and a formula containing at least one unbound occurrence of the variable. The result of applying &%KappaFn to a variable and a formula is the &%SetOrClass of things that satisfy the formula. For example, we can denote the &%SetOrClass of prime numbers that are less than 100 with the following expression: (KappaFn ?NUMBER (and (instance ?NUMBER PrimeNumber) (lessThan ?NUMBER 100))). Note that the use of this function is discouraged, since there is currently no axiomatic support for it.'|) (tptp.s__subclass tptp.s__Graph tptp.s__Abstract) (tptp.s__documentation tptp.s__Graph tptp.s__EnglishLanguage |tptp.'The &%Class of graphs, where a graph is understood to be a set of &%GraphNodes connected by &%GraphArcs. Note that this &%Class includes only connected graphs, i.e. graphs in which there is a &%GraphPath between any two &%GraphNodes. Note too that every &%Graph is required to contain at least two &%GraphArcs and three &%GraphNodes.'|) (forall ((V__GRAPH $$unsorted) (V__NODE1 $$unsorted) (V__NODE2 $$unsorted)) (=> (and (tptp.s__instance V__GRAPH tptp.s__Graph) (tptp.s__instance V__NODE1 tptp.s__GraphNode) (tptp.s__instance V__NODE2 tptp.s__GraphNode) (tptp.s__graphPart V__NODE1 V__GRAPH) (tptp.s__graphPart V__NODE2 V__GRAPH) (not (= V__NODE1 V__NODE2))) (exists ((V__ARC $$unsorted) (V__PATH $$unsorted)) (let ((_let_1 (tptp.s__EndNodeFn V__PATH))) (let ((_let_2 (tptp.s__BeginNodeFn V__PATH))) (and (tptp.s__instance V__ARC tptp.s__GraphArc) (or (tptp.s__links V__NODE1 V__NODE2 V__ARC) (and (tptp.s__subGraph V__PATH V__GRAPH) (tptp.s__instance V__PATH tptp.s__GraphPath) (or (and (= _let_2 V__NODE1) (= _let_1 V__NODE2)) (and (= _let_2 V__NODE2) (= _let_1 V__NODE1))))))))))) (forall ((V__GRAPH $$unsorted)) (=> (tptp.s__instance V__GRAPH tptp.s__Graph) (exists ((V__NODE1 $$unsorted) (V__NODE2 $$unsorted) (V__NODE3 $$unsorted) (V__ARC1 $$unsorted) (V__ARC2 $$unsorted)) (and (tptp.s__instance V__ARC2 tptp.s__GraphArc) (tptp.s__instance V__ARC1 tptp.s__GraphArc) (tptp.s__instance V__NODE3 tptp.s__GraphNode) (tptp.s__instance V__NODE2 tptp.s__GraphNode) (tptp.s__instance V__NODE1 tptp.s__GraphNode) (tptp.s__graphPart V__NODE1 V__GRAPH) (tptp.s__graphPart V__NODE2 V__GRAPH) (tptp.s__graphPart V__NODE3 V__GRAPH) (tptp.s__graphPart V__ARC1 V__GRAPH) (tptp.s__graphPart V__ARC2 V__GRAPH) (tptp.s__links V__NODE1 V__NODE2 V__ARC1) (tptp.s__links V__NODE2 V__NODE3 V__ARC2) (not (= V__NODE1 V__NODE2)) (not (= V__NODE2 V__NODE3)) (not (= V__NODE1 V__NODE3)) (not (= V__ARC1 V__ARC2)))))) (tptp.s__subclass tptp.s__DirectedGraph tptp.s__Graph) (tptp.s__documentation tptp.s__DirectedGraph tptp.s__EnglishLanguage |tptp.'The &%Class of directed graphs. A directed graph is a &%Graph in which all &%GraphArcs have direction, i.e. every &%GraphArc has an initial node (see &%InitialNodeFn) and a terminal node (see &%TerminalNodeFn).'|) (forall ((V__GRAPH $$unsorted) (V__ARC $$unsorted)) (=> (tptp.s__instance V__GRAPH tptp.s__Graph) (=> (and (tptp.s__instance V__GRAPH tptp.s__DirectedGraph) (tptp.s__instance V__ARC tptp.s__GraphArc) (tptp.s__graphPart V__ARC V__GRAPH)) (exists ((V__NODE1 $$unsorted) (V__NODE2 $$unsorted)) (and (= (tptp.s__InitialNodeFn V__ARC) V__NODE1) (= (tptp.s__TerminalNodeFn V__ARC) V__NODE2)))))) (tptp.s__subclass tptp.s__Tree tptp.s__DirectedGraph) (tptp.s__instance tptp.s__Tree__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__DirectedGraph__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Tree tptp.s__EnglishLanguage |tptp.'A Tree is a &%DirectedGraph that has no &%GraphLoops.'|) (forall ((V__GRAPH $$unsorted)) (=> (tptp.s__instance V__GRAPH tptp.s__Graph) (=> (tptp.s__instance V__GRAPH tptp.s__Tree) (not (exists ((V__LOOP $$unsorted)) (and (tptp.s__instance V__LOOP tptp.s__GraphElement) (tptp.s__instance V__LOOP tptp.s__GraphLoop) (tptp.s__graphPart V__LOOP V__GRAPH))))))) (forall ((V__GRAPH $$unsorted)) (=> (tptp.s__instance V__GRAPH tptp.s__Graph) (=> (tptp.s__instance V__GRAPH tptp.s__Tree) (not (exists ((V__LOOP $$unsorted)) (and (tptp.s__instance V__LOOP tptp.s__GraphElement) (tptp.s__instance V__LOOP tptp.s__GraphCircuit) (tptp.s__graphPart V__LOOP V__GRAPH))))))) (forall ((V__GRAPH $$unsorted)) (=> (tptp.s__instance V__GRAPH tptp.s__Graph) (=> (tptp.s__instance V__GRAPH tptp.s__Tree) (not (exists ((V__ARC1 $$unsorted) (V__ARC2 $$unsorted) (V__NODE $$unsorted)) (and (tptp.s__instance V__NODE tptp.s__GraphElement) (tptp.s__instance V__ARC2 tptp.s__GraphArc) (tptp.s__instance V__ARC1 tptp.s__GraphArc) (tptp.s__graphPart V__ARC1 V__GRAPH) (tptp.s__graphPart V__ARC2 V__GRAPH) (tptp.s__graphPart V__NODE V__GRAPH) (= (tptp.s__TerminalNodeFn V__ARC1) V__NODE) (= (tptp.s__TerminalNodeFn V__ARC2) V__NODE) (not (= V__ARC1 V__ARC2)))))))) (tptp.s__subclass tptp.s__GraphPath tptp.s__DirectedGraph) (tptp.s__documentation tptp.s__GraphPath tptp.s__EnglishLanguage |tptp.'Informally, a single, directed route between two &%GraphNodes in a &%Graph. Formally, a &%DirectedGraph that is a &%subGraph of the original &%Graph and such that no two &%GraphArcs in the &%DirectedGraph have the same intial node (see &%InitialNodeFn) or the same terminal node (see &%TerminalNodeFn).'|) (forall ((V__NODE $$unsorted) (V__GRAPH $$unsorted) (V__ARC $$unsorted)) (=> (tptp.s__instance V__GRAPH tptp.s__Graph) (=> (and (tptp.s__instance V__GRAPH tptp.s__GraphPath) (tptp.s__instance V__ARC tptp.s__GraphArc) (tptp.s__graphPart V__ARC V__GRAPH)) (=> (= (tptp.s__InitialNodeFn V__ARC) V__NODE) (not (exists ((V__OTHER $$unsorted)) (and (tptp.s__instance V__OTHER tptp.s__GraphArc) (= (tptp.s__InitialNodeFn V__OTHER) V__NODE) (not (= V__OTHER V__ARC))))))))) (forall ((V__NODE $$unsorted) (V__GRAPH $$unsorted) (V__ARC $$unsorted)) (=> (tptp.s__instance V__GRAPH tptp.s__Graph) (=> (and (tptp.s__instance V__GRAPH tptp.s__GraphPath) (tptp.s__instance V__ARC tptp.s__GraphArc) (tptp.s__graphPart V__ARC V__GRAPH)) (=> (= (tptp.s__TerminalNodeFn V__ARC) V__NODE) (not (exists ((V__OTHER $$unsorted)) (and (tptp.s__instance V__OTHER tptp.s__GraphArc) (= (tptp.s__TerminalNodeFn V__OTHER) V__NODE) (not (= V__OTHER V__ARC))))))))) (tptp.s__subclass tptp.s__GraphCircuit tptp.s__GraphPath) (tptp.s__instance tptp.s__GraphCircuit__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__GraphPath__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__GraphCircuit tptp.s__EnglishLanguage |tptp.'A &%GraphPath that begins (see &%BeginNodeFn) and ends (see &%EndNodeFn) at the same &%GraphNode.'|) (forall ((V__GRAPH $$unsorted)) (=> (tptp.s__instance V__GRAPH tptp.s__GraphPath) (= (tptp.s__instance V__GRAPH tptp.s__GraphCircuit) (exists ((V__NODE $$unsorted)) (and (= (tptp.s__BeginNodeFn V__GRAPH) V__NODE) (= (tptp.s__EndNodeFn V__GRAPH) V__NODE)))))) (tptp.s__subclass tptp.s__MultiGraph tptp.s__Graph) (tptp.s__instance tptp.s__MultiGraph__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MultiGraph tptp.s__EnglishLanguage |tptp.'The &%Class of multigraphs. A multigraph is a &%Graph containing at least one pair of &%GraphNodes that are connected by more than one &%GraphArc.'|) (forall ((V__GRAPH $$unsorted)) (=> (tptp.s__instance V__GRAPH tptp.s__Graph) (= (tptp.s__instance V__GRAPH tptp.s__MultiGraph) (exists ((V__ARC1 $$unsorted) (V__ARC2 $$unsorted) (V__NODE1 $$unsorted) (V__NODE2 $$unsorted)) (and (tptp.s__instance V__NODE2 tptp.s__GraphNode) (tptp.s__instance V__NODE1 tptp.s__GraphNode) (tptp.s__instance V__ARC2 tptp.s__GraphArc) (tptp.s__instance V__ARC1 tptp.s__GraphArc) (tptp.s__graphPart V__ARC1 V__GRAPH) (tptp.s__graphPart V__ARC2 V__GRAPH) (tptp.s__graphPart V__NODE1 V__GRAPH) (tptp.s__graphPart V__NODE2 V__GRAPH) (tptp.s__links V__NODE1 V__NODE2 V__ARC1) (tptp.s__links V__NODE1 V__NODE2 V__ARC2) (not (= V__ARC1 V__ARC2))))))) (tptp.s__subclass tptp.s__PseudoGraph tptp.s__Graph) (tptp.s__instance tptp.s__PseudoGraph__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Graph__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PseudoGraph tptp.s__EnglishLanguage |tptp.'The &%Class of pseudographs. A pseudograph is a &%Graph containing at least one &%GraphLoop.'|) (forall ((V__GRAPH $$unsorted)) (=> (tptp.s__instance V__GRAPH tptp.s__Graph) (= (tptp.s__instance V__GRAPH tptp.s__PseudoGraph) (exists ((V__LOOP $$unsorted)) (and (tptp.s__instance V__LOOP tptp.s__GraphElement) (tptp.s__instance V__LOOP tptp.s__GraphLoop) (tptp.s__graphPart V__LOOP V__GRAPH)))))) (tptp.s__subclass tptp.s__GraphElement tptp.s__Abstract) (tptp.s__instance tptp.s__GraphElement__t tptp.s__SetOrClass) (tptp.s__partition_3 tptp.s__GraphElement tptp.s__GraphNode tptp.s__GraphArc) (tptp.s__documentation tptp.s__GraphElement tptp.s__EnglishLanguage |tptp.'Noncompositional parts of &%Graphs. These parts are restricted to &%GraphNodes and &%GraphArcs.'|) (forall ((V__PART $$unsorted)) (=> (tptp.s__instance V__PART tptp.s__GraphElement) (exists ((V__GRAPH $$unsorted)) (and (tptp.s__instance V__GRAPH tptp.s__Graph) (tptp.s__graphPart V__PART V__GRAPH))))) (tptp.s__subclass tptp.s__GraphNode tptp.s__GraphElement) (tptp.s__instance tptp.s__GraphNode__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__GraphNode tptp.s__EnglishLanguage |tptp.'&%Graphs are comprised of &%GraphNodes and &%GraphArcs. Every &%GraphNode is linked by a &%GraphArc.'|) (forall ((V__NODE $$unsorted)) (=> (tptp.s__instance V__NODE tptp.s__GraphNode) (exists ((V__OTHER $$unsorted) (V__ARC $$unsorted)) (and (tptp.s__instance V__ARC tptp.s__GraphArc) (tptp.s__instance V__OTHER tptp.s__GraphNode) (tptp.s__links V__NODE V__OTHER V__ARC))))) (tptp.s__subclass tptp.s__GraphArc tptp.s__GraphElement) (tptp.s__instance tptp.s__GraphArc__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__GraphArc tptp.s__EnglishLanguage |tptp.'&%Graphs are comprised of &%GraphNodes and &%GraphArcs. Every &%GraphArc links two &%GraphNodes.'|) (forall ((V__ARC $$unsorted)) (=> (tptp.s__instance V__ARC tptp.s__GraphArc) (exists ((V__NODE1 $$unsorted) (V__NODE2 $$unsorted)) (and (tptp.s__instance V__NODE2 tptp.s__GraphNode) (tptp.s__instance V__NODE1 tptp.s__GraphNode) (tptp.s__links V__NODE1 V__NODE2 V__ARC))))) (tptp.s__subclass tptp.s__GraphLoop tptp.s__GraphArc) (tptp.s__instance tptp.s__GraphLoop__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__GraphLoop tptp.s__EnglishLanguage |tptp.'A &%GraphArc in which a &%GraphNode is linked to itself.'|) (forall ((V__LOOP $$unsorted)) (=> (tptp.s__instance V__LOOP tptp.s__GraphArc) (= (tptp.s__instance V__LOOP tptp.s__GraphLoop) (exists ((V__NODE $$unsorted)) (and (tptp.s__instance V__NODE tptp.s__GraphNode) (tptp.s__links V__NODE V__NODE V__LOOP)))))) (forall ((V__NODE $$unsorted) (V__ARC $$unsorted)) (=> (tptp.s__instance V__ARC tptp.s__GraphArc) (=> (and (= (tptp.s__InitialNodeFn V__ARC) V__NODE) (= (tptp.s__TerminalNodeFn V__ARC) V__NODE)) (tptp.s__instance V__ARC tptp.s__GraphLoop)))) (tptp.s__instance tptp.s__links__m tptp.s__TernaryPredicate) (tptp.s__domain tptp.s__links__m |"1"| tptp.s__GraphNode) (tptp.s__domain tptp.s__links__m |"2"| tptp.s__GraphNode) (tptp.s__domain tptp.s__links__m |"3"| tptp.s__GraphArc) (tptp.s__documentation tptp.s__links__m tptp.s__EnglishLanguage |tptp.'a &%TernaryPredicate that specifies the &%GraphArc connecting two &%GraphNodes.'|) (forall ((V__ARC $$unsorted) (V__NODE1 $$unsorted) (V__NODE2 $$unsorted)) (=> (and (tptp.s__instance V__NODE2 tptp.s__GraphNode) (tptp.s__instance V__NODE1 tptp.s__GraphNode) (tptp.s__instance V__ARC tptp.s__GraphArc)) (=> (tptp.s__links V__NODE1 V__NODE2 V__ARC) (tptp.s__links V__NODE2 V__NODE1 V__ARC)))) (tptp.s__instance tptp.s__graphPart__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__graphPart__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__graphPart__m tptp.s__IrreflexiveRelation) (tptp.s__domain tptp.s__graphPart__m |"1"| tptp.s__GraphElement) (tptp.s__domain tptp.s__graphPart__m |"2"| tptp.s__Graph) (tptp.s__documentation tptp.s__graphPart__m tptp.s__EnglishLanguage |tptp.'A basic relation for &%Graphs and their parts. (&%graphPart ?PART ?GRAPH) means that ?PART is a &%GraphArc or &%GraphNode of the &%Graph ?GRAPH.'|) (tptp.s__instance tptp.s__subGraph__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__subGraph__m tptp.s__ReflexiveRelation) (tptp.s__instance tptp.s__subGraph__m tptp.s__TransitiveRelation) (tptp.s__domain tptp.s__subGraph__m |"1"| tptp.s__Graph) (tptp.s__domain tptp.s__subGraph__m |"2"| tptp.s__Graph) (tptp.s__documentation tptp.s__subGraph__m tptp.s__EnglishLanguage |tptp.'The relation between two &%Graphs when one &%Graph is a part of the other. (&%subGraph ?GRAPH1 ?GRAPH2) means that ?GRAPH1 is a part of ?GRAPH2.'|) (forall ((V__GRAPH2 $$unsorted) (V__GRAPH1 $$unsorted) (V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__GraphElement) (tptp.s__instance V__GRAPH1 tptp.s__Graph) (tptp.s__instance V__GRAPH2 tptp.s__Graph)) (=> (and (tptp.s__subGraph V__GRAPH1 V__GRAPH2) (tptp.s__graphPart V__ELEMENT V__GRAPH1)) (tptp.s__graphPart V__ELEMENT V__GRAPH2)))) (tptp.s__instance tptp.s__pathLength__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__pathLength__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__pathLength__m tptp.s__IrreflexiveRelation) (tptp.s__domain tptp.s__pathLength__m |"1"| tptp.s__GraphPath) (tptp.s__domain tptp.s__pathLength__m |"2"| tptp.s__PositiveInteger) (tptp.s__documentation tptp.s__pathLength__m tptp.s__EnglishLanguage |tptp.'A &%BinaryPredicate that specifies the length (in number of &%GraphNodes) of a &%GraphPath. (&%pathLength ?PATH ?NUMBER) means that there are ?NUMBER nodes in the &%GraphPath ?PATH.'|) (tptp.s__instance tptp.s__InitialNodeFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__InitialNodeFn__m tptp.s__PartialValuedRelation) (tptp.s__domain tptp.s__InitialNodeFn__m |"1"| tptp.s__GraphArc) (tptp.s__range tptp.s__InitialNodeFn__m tptp.s__GraphNode) (tptp.s__documentation tptp.s__InitialNodeFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps a &%GraphArc to the initial node of the &%GraphArc. Note that this is a partial function. In particular, the function is undefined for &%GraphArcs that are not part of a &%DirectedGraph.'|) (tptp.s__instance tptp.s__TerminalNodeFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__TerminalNodeFn__m tptp.s__PartialValuedRelation) (tptp.s__domain tptp.s__TerminalNodeFn__m |"1"| tptp.s__GraphArc) (tptp.s__range tptp.s__TerminalNodeFn__m tptp.s__GraphNode) (tptp.s__documentation tptp.s__TerminalNodeFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps a &%GraphArc to the terminal node of the &%GraphArc. Note that this is a partial function. In particular, the function is undefined for &%GraphArcs that are not part of a &%DirectedGraph.'|) (tptp.s__instance tptp.s__BeginNodeFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__BeginNodeFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__BeginNodeFn__m |"1"| tptp.s__GraphPath) (tptp.s__range tptp.s__BeginNodeFn__m tptp.s__GraphNode) (tptp.s__relatedInternalConcept tptp.s__BeginNodeFn__m tptp.s__InitialNodeFn__m) (tptp.s__documentation tptp.s__BeginNodeFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps a &%GraphPath to the &%GraphNode that is the beginning of the &%GraphPath. Note that, unlike &%InitialNodeFn (which relates a &%GraphArc to a &%GraphNode), &%BeginNodeFn is a total function - every &%GraphPath has a beginning.'|) (tptp.s__instance tptp.s__EndNodeFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__EndNodeFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__EndNodeFn__m |"1"| tptp.s__GraphPath) (tptp.s__range tptp.s__EndNodeFn__m tptp.s__GraphNode) (tptp.s__relatedInternalConcept tptp.s__EndNodeFn__m tptp.s__TerminalNodeFn__m) (tptp.s__documentation tptp.s__EndNodeFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps a &%GraphPath to the &%GraphNode that is the end of the &%GraphPath. Note that, unlike &%TerminalNodeFn (which relates a &%GraphArc to a &%GraphNode), &%EndNodeFn is a total function - every &%GraphPath has a end.'|) (tptp.s__instance tptp.s__arcWeight__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__arcWeight__m tptp.s__SingleValuedRelation) (tptp.s__domain tptp.s__arcWeight__m |"1"| tptp.s__GraphArc) (tptp.s__domain tptp.s__arcWeight__m |"2"| tptp.s__Quantity) (tptp.s__documentation tptp.s__arcWeight__m tptp.s__EnglishLanguage |tptp.'This predicate indicates the value of a &%GraphArc in a &%Graph. This could map to the length of a road in a road network or the flow rate of a pipe in a plumbing system.'|) (tptp.s__instance tptp.s__PathWeightFn__m tptp.s__UnaryFunction) (tptp.s__domain tptp.s__PathWeightFn__m |"1"| tptp.s__GraphPath) (tptp.s__range tptp.s__PathWeightFn__m tptp.s__Quantity) (tptp.s__documentation tptp.s__PathWeightFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps a &%GraphPath to the sum of the &%arcWeights on the &%GraphArcs in the &%GraphPath.'|) (forall ((V__PATH $$unsorted) (V__ARC1 $$unsorted) (V__SUBPATH $$unsorted) (V__SUM $$unsorted) (V__NUMBER1 $$unsorted)) (=> (tptp.s__instance V__SUBPATH tptp.s__GraphPath) (=> (and (= (tptp.s__PathWeightFn V__PATH) V__SUM) (tptp.s__subGraph V__SUBPATH V__PATH) (tptp.s__graphPart V__ARC1 V__PATH) (tptp.s__arcWeight V__ARC1 V__NUMBER1) (forall ((V__ARC2 $$unsorted)) (=> (and (tptp.s__instance V__ARC2 tptp.s__GraphElement) (tptp.s__instance V__NUMBER1 tptp.s__Quantity) (tptp.s__instance V__SUBPATH tptp.s__Graph) (tptp.s__instance V__ARC1 tptp.s__GraphArc) (tptp.s__instance V__PATH tptp.s__GraphPath)) (=> (tptp.s__graphPart V__ARC2 V__PATH) (or (tptp.s__graphPart V__ARC2 V__SUBPATH) (= V__ARC2 V__ARC1)))))) (= V__SUM (tptp.plus (tptp.s__PathWeightFn V__SUBPATH) V__NUMBER1))))) (forall ((V__PATH $$unsorted) (V__ARC2 $$unsorted) (V__ARC1 $$unsorted) (V__NUMBER2 $$unsorted) (V__SUM $$unsorted) (V__NUMBER1 $$unsorted)) (let ((_let_1 (tptp.s__PathWeightFn V__PATH))) (=> (and (= _let_1 V__SUM) (tptp.s__graphPart V__ARC1 V__PATH) (tptp.s__graphPart V__ARC2 V__PATH) (tptp.s__arcWeight V__ARC1 V__NUMBER1) (tptp.s__arcWeight V__ARC2 V__NUMBER2) (forall ((V__ARC3 $$unsorted)) (=> (and (tptp.s__instance V__ARC3 tptp.s__GraphElement) (tptp.s__instance V__NUMBER1 tptp.s__Quantity) (tptp.s__instance V__NUMBER2 tptp.s__Quantity) (tptp.s__instance V__ARC1 tptp.s__GraphArc) (tptp.s__instance V__ARC2 tptp.s__GraphArc) (tptp.s__instance V__PATH tptp.s__GraphPath)) (=> (tptp.s__graphPart V__ARC3 V__PATH) (or (= V__ARC3 V__ARC1) (= V__ARC3 V__ARC2)))))) (= _let_1 (tptp.plus V__NUMBER1 V__NUMBER2))))) (tptp.s__instance tptp.s__MinimalWeightedPathFn__m tptp.s__BinaryFunction) (tptp.s__domain tptp.s__MinimalWeightedPathFn__m |"1"| tptp.s__GraphNode) (tptp.s__domain tptp.s__MinimalWeightedPathFn__m |"2"| tptp.s__GraphNode) (tptp.s__range tptp.s__MinimalWeightedPathFn__m tptp.s__GraphPath) (tptp.s__documentation tptp.s__MinimalWeightedPathFn__m tptp.s__EnglishLanguage |tptp.'This &%BinaryFunction assigns two &%GraphNodes to the &%GraphPath with the smallest sum of weighted arcs between the two &%GraphNodes.'|) (forall ((V__PATH $$unsorted) (V__NODE1 $$unsorted) (V__NODE2 $$unsorted)) (=> (and (tptp.s__instance V__NODE2 tptp.s__GraphNode) (tptp.s__instance V__NODE1 tptp.s__GraphNode)) (=> (= (tptp.s__MinimalWeightedPathFn V__NODE1 V__NODE2) V__PATH) (tptp.s__instance V__PATH (tptp.s__GraphPathFn V__NODE1 V__NODE2))))) (forall ((V__NUMBER $$unsorted) (V__PATH $$unsorted) (V__NUMBER2 $$unsorted) (V__NODE1 $$unsorted) (V__NUMBER1 $$unsorted) (V__NODE2 $$unsorted)) (=> (and (= (tptp.s__MinimalWeightedPathFn V__NODE1 V__NODE2) V__PATH) (= (tptp.s__PathWeightFn V__PATH) V__NUMBER)) (forall ((V__PATH2 $$unsorted)) (=> (and (tptp.s__instance V__PATH2 tptp.s__GraphPath) (tptp.s__instance V__NODE2 tptp.s__GraphNode) (tptp.s__instance V__NUMBER1 tptp.s__Quantity) (tptp.s__instance V__NODE1 tptp.s__GraphNode) (tptp.s__instance V__NUMBER2 tptp.s__Quantity) (tptp.s__instance V__PATH tptp.s__GraphPath)) (=> (and (tptp.s__instance V__PATH2 (tptp.s__GraphPathFn V__NODE1 V__NODE2)) (= (tptp.s__PathWeightFn V__PATH2) V__NUMBER2)) (tptp.greatereq V__NUMBER2 V__NUMBER1)))))) (tptp.s__instance tptp.s__MaximalWeightedPathFn__m tptp.s__BinaryFunction) (tptp.s__domain tptp.s__MaximalWeightedPathFn__m |"1"| tptp.s__GraphNode) (tptp.s__domain tptp.s__MaximalWeightedPathFn__m |"2"| tptp.s__GraphNode) (tptp.s__range tptp.s__MaximalWeightedPathFn__m tptp.s__GraphPath) (tptp.s__documentation tptp.s__MaximalWeightedPathFn__m tptp.s__EnglishLanguage |tptp.'This &%BinaryFunction assigns two &%GraphNodes to the &%GraphPath with the largest sum of weighted arcs between the two &%GraphNodes.'|) (forall ((V__PATH $$unsorted) (V__NODE1 $$unsorted) (V__NODE2 $$unsorted)) (=> (and (tptp.s__instance V__NODE2 tptp.s__GraphNode) (tptp.s__instance V__NODE1 tptp.s__GraphNode)) (=> (= (tptp.s__MaximalWeightedPathFn V__NODE1 V__NODE2) V__PATH) (tptp.s__instance V__PATH (tptp.s__GraphPathFn V__NODE1 V__NODE2))))) (forall ((V__NUMBER $$unsorted) (V__PATH $$unsorted) (V__NUMBER2 $$unsorted) (V__NODE1 $$unsorted) (V__NUMBER1 $$unsorted) (V__NODE2 $$unsorted)) (=> (and (= (tptp.s__MaximalWeightedPathFn V__NODE1 V__NODE2) V__PATH) (= (tptp.s__PathWeightFn V__PATH) V__NUMBER)) (forall ((V__PATH2 $$unsorted)) (=> (and (tptp.s__instance V__PATH2 tptp.s__GraphPath) (tptp.s__instance V__NODE2 tptp.s__GraphNode) (tptp.s__instance V__NUMBER1 tptp.s__Quantity) (tptp.s__instance V__NODE1 tptp.s__GraphNode) (tptp.s__instance V__NUMBER2 tptp.s__Quantity) (tptp.s__instance V__PATH tptp.s__GraphPath)) (=> (and (tptp.s__instance V__PATH2 (tptp.s__GraphPathFn V__NODE1 V__NODE2)) (= (tptp.s__PathWeightFn V__PATH2) V__NUMBER2)) (tptp.lesseq V__NUMBER2 V__NUMBER1)))))) (tptp.s__instance tptp.s__GraphPathFn__m tptp.s__BinaryFunction) (tptp.s__instance tptp.s__GraphPathFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__GraphPathFn__m |"1"| tptp.s__GraphNode) (tptp.s__domain tptp.s__GraphPathFn__m |"2"| tptp.s__GraphNode) (tptp.s__rangeSubclass tptp.s__GraphPathFn__m tptp.s__GraphPath) (tptp.s__documentation tptp.s__GraphPathFn__m tptp.s__EnglishLanguage |tptp.'A &%BinaryFunction that maps two &%GraphNodes to the &%Class of &%GraphPaths between those two nodes. Note that the two &%GraphNodes must belong to the same &%Graph.'|) (forall ((V__GRAPH $$unsorted) (V__PATH $$unsorted) (V__NODE1 $$unsorted) (V__NODE2 $$unsorted)) (=> (and (tptp.s__instance V__NODE2 tptp.s__GraphNode) (tptp.s__instance V__NODE1 tptp.s__GraphNode) (tptp.s__instance V__PATH tptp.s__GraphElement) (tptp.s__instance V__GRAPH tptp.s__Graph)) (=> (and (tptp.s__graphPart V__PATH V__GRAPH) (not (tptp.s__instance V__GRAPH tptp.s__DirectedGraph))) (= (= (tptp.s__GraphPathFn V__NODE1 V__NODE2) V__PATH) (= (tptp.s__GraphPathFn V__NODE2 V__NODE1) V__PATH))))) (tptp.s__instance tptp.s__CutSetFn__m tptp.s__UnaryFunction) (tptp.s__domain tptp.s__CutSetFn__m |"1"| tptp.s__Graph) (tptp.s__rangeSubclass tptp.s__CutSetFn__m tptp.s__GraphPath) (tptp.s__documentation tptp.s__CutSetFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that assigns a &%Graph the &%Class of &%GraphPaths that partition the graph into two separate graphs if cut. There may be more than one cutset for a given graph.'|) (tptp.s__instance tptp.s__MinimalCutSetFn__m tptp.s__UnaryFunction) (tptp.s__domain tptp.s__MinimalCutSetFn__m |"1"| tptp.s__Graph) (tptp.s__rangeSubclass tptp.s__MinimalCutSetFn__m tptp.s__GraphPath) (tptp.s__relatedInternalConcept tptp.s__MinimalCutSetFn__m tptp.s__CutSetFn__m) (tptp.s__documentation tptp.s__MinimalCutSetFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that assigns a &%Graph the &%Class of &%GraphPaths which comprise cutsets for the &%Graph and which have the least number of &%GraphArcs.'|) (forall ((V__GRAPH $$unsorted)) (=> (tptp.s__instance V__GRAPH tptp.s__Graph) (tptp.s__subclass (tptp.s__MinimalCutSetFn V__GRAPH) (tptp.s__CutSetFn V__GRAPH)))) (forall ((V__PATHCLASS $$unsorted) (V__GRAPH $$unsorted)) (=> (= (tptp.s__MinimalCutSetFn V__GRAPH) V__PATHCLASS) (exists ((V__NUMBER $$unsorted)) (and (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (forall ((V__PATH $$unsorted)) (=> (and (tptp.s__instance V__PATH tptp.s__GraphPath) (tptp.s__instance V__GRAPH tptp.s__Graph) (tptp.s__instance V__PATHCLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__PATH V__PATHCLASS) (tptp.s__pathLength V__PATH V__NUMBER)))))))) (forall ((V__GRAPH $$unsorted) (V__NUMBER2 $$unsorted) (V__NUMBER1 $$unsorted)) (=> (and (tptp.s__instance V__NUMBER1 tptp.s__PositiveInteger) (tptp.s__instance V__NUMBER2 tptp.s__PositiveInteger) (tptp.s__instance V__GRAPH tptp.s__Graph)) (not (exists ((V__PATH1 $$unsorted) (V__PATH2 $$unsorted)) (and (tptp.s__instance V__PATH2 tptp.s__GraphPath) (tptp.s__instance V__PATH1 tptp.s__GraphPath) (tptp.s__instance V__PATH1 (tptp.s__CutSetFn V__GRAPH)) (tptp.s__instance V__PATH2 (tptp.s__MinimalCutSetFn V__GRAPH)) (tptp.s__pathLength V__PATH1 V__NUMBER1) (tptp.s__pathLength V__PATH2 V__NUMBER2) (tptp.less V__NUMBER1 V__NUMBER2)))))) (tptp.s__instance tptp.s__abstractCounterpart__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__abstractCounterpart__m |"1"| tptp.s__Abstract) (tptp.s__domain tptp.s__abstractCounterpart__m |"2"| tptp.s__Physical) (tptp.s__subrelation tptp.s__abstractCounterpart__m tptp.s__represents__m) (tptp.s__documentation tptp.s__abstractCounterpart__m tptp.s__EnglishLanguage |tptp.'(abstractCounterpart ?AB ?PHYS relates a &%Physical entity to an &%Abstract one which is an idealized model in some dimension of the &%Physical entity. For example, an &%Abstract &%GraphNode could be stated to be the counterpart of an actual &%Computer in a &%ComputerNetwork.'|) (tptp.s__subclass tptp.s__PhysicalSystem tptp.s__Physical) (tptp.s__instance tptp.s__PhysicalSystem__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PhysicalSystem tptp.s__EnglishLanguage |tptp.'&%PhysicalSystem is the class of complex &%Physical things. A &%PhysicalSystem may have one or more corresponding abstract &%Graph representations.'|) (tptp.s__instance tptp.s__subSystem__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__subSystem__m |"1"| tptp.s__PhysicalSystem) (tptp.s__domain tptp.s__subSystem__m |"2"| tptp.s__PhysicalSystem) (tptp.s__documentation tptp.s__subSystem__m tptp.s__EnglishLanguage |tptp.'(&%subSystem ?SUB ?SYSTEM) means that the &%PhysicalSystem ?SUB is a part of the &%PhysicalSystem ?SYSTEM.'|) (tptp.s__instance tptp.s__systemPart__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__systemPart__m |"1"| tptp.s__Physical) (tptp.s__domain tptp.s__systemPart__m |"2"| tptp.s__PhysicalSystem) (tptp.s__documentation tptp.s__systemPart__m tptp.s__EnglishLanguage |tptp.'(&%systemPart ?PART ?SYSTEM) means that the &%Physical thing ?PART is a &%SystemElement in the &%PhysicalSystem ?SYSTEM.'|) (forall ((V__SUB $$unsorted) (V__PART $$unsorted) (V__SYSTEM $$unsorted)) (=> (and (tptp.s__instance V__SYSTEM tptp.s__PhysicalSystem) (tptp.s__instance V__PART tptp.s__Physical) (tptp.s__instance V__SUB tptp.s__PhysicalSystem)) (=> (and (tptp.s__subSystem V__SUB V__SYSTEM) (tptp.s__systemPart V__PART V__SUB)) (tptp.s__systemPart V__PART V__SYSTEM)))) (tptp.s__instance tptp.s__graphMeasure__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__graphMeasure__m |"1"| tptp.s__Graph) (tptp.s__domain tptp.s__graphMeasure__m |"2"| tptp.s__UnitOfMeasure) (tptp.s__documentation tptp.s__graphMeasure__m tptp.s__EnglishLanguage |tptp.'(graphMeasure ?GRAPH ?MEAS) fixes a &%UnitOfMeasure that is used for the &%arcWeight of a given &%Graph. Stating such a relationship entails that the components of given graph are the &%abstractCounterparts of sets of &%Physical &%Entity(ies).'|) (forall ((V__G $$unsorted) (V__M $$unsorted)) (=> (tptp.s__graphMeasure V__G V__M) (forall ((V__AC $$unsorted)) (=> (and (tptp.s__instance V__AC tptp.s__GraphElement) (tptp.s__instance V__M tptp.s__UnitOfMeasure) (tptp.s__instance V__G tptp.s__Graph)) (and (tptp.s__graphPart V__AC V__G) (exists ((V__PC $$unsorted)) (and (tptp.s__instance V__PC tptp.s__Physical) (tptp.s__abstractCounterpart V__AC V__PC)))))))) (forall ((V__AA $$unsorted) (V__AN $$unsorted) (V__PA $$unsorted) (V__PN $$unsorted) (V__G $$unsorted) (V__N $$unsorted) (V__M $$unsorted)) (let ((_let_1 (tptp.s__MeasureFn V__N V__M))) (=> (and (tptp.s__instance V__M tptp.s__UnitOfMeasure) (tptp.s__instance V__N tptp.s__RealNumber) (tptp.s__instance V__G tptp.s__Graph) (tptp.s__instance V__PN tptp.s__Physical) (tptp.s__instance V__PA tptp.s__Object) (tptp.s__instance V__AN tptp.s__Abstract)) (=> (and (tptp.s__graphMeasure V__G V__M) (tptp.s__instance V__AN tptp.s__GraphNode) (tptp.s__instance V__AA tptp.s__GraphArc) (tptp.s__abstractCounterpart V__AN V__PN) (tptp.s__abstractCounterpart V__AA V__PA) (tptp.s__arcWeight V__AA _let_1)) (tptp.s__measure V__PA _let_1))))) (tptp.s__subclass tptp.s__UnitOfMeasure tptp.s__PhysicalQuantity) (tptp.s__documentation tptp.s__UnitOfMeasure tptp.s__EnglishLanguage |tptp.'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.'|) (tptp.s__subclass tptp.s__CompositeUnitOfMeasure tptp.s__UnitOfMeasure) (tptp.s__documentation tptp.s__CompositeUnitOfMeasure tptp.s__EnglishLanguage |tptp.'Instances of this &%Class are &%UnitsOfMeasure defined by the functional composition of other units, each of which might be a &%CompositeUnitOfMeasure or a &%NonCompositeUnitOfMeasure.'|) (tptp.s__subclass tptp.s__NonCompositeUnitOfMeasure tptp.s__UnitOfMeasure) (tptp.s__instance tptp.s__UnitOfMeasure__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__NonCompositeUnitOfMeasure tptp.s__EnglishLanguage |tptp.'Instances of this &%Class are &%UnitsOfMeasure that are applied to a single dimension, and so are not intrinsically defined by the functional composition of other units.'|) (tptp.s__partition_3 tptp.s__UnitOfMeasure tptp.s__CompositeUnitOfMeasure tptp.s__NonCompositeUnitOfMeasure) (forall ((V__QUANT $$unsorted) (V__UNIT $$unsorted) (V__N $$unsorted)) (=> (and (tptp.s__instance V__N tptp.s__RealNumber) (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure)) (=> (and (tptp.s__instance V__QUANT (tptp.s__MeasureFn V__N V__UNIT)) (tptp.s__instance V__UNIT tptp.s__CompositeUnitOfMeasure)) (tptp.s__instance V__QUANT tptp.s__FunctionQuantity)))) (forall ((V__QUANT $$unsorted) (V__UNIT $$unsorted) (V__N $$unsorted)) (=> (and (tptp.s__instance V__N tptp.s__RealNumber) (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure)) (=> (and (tptp.s__instance V__QUANT (tptp.s__MeasureFn V__N V__UNIT)) (tptp.s__instance V__UNIT tptp.s__NonCompositeUnitOfMeasure)) (tptp.s__instance V__QUANT tptp.s__ConstantQuantity)))) (tptp.s__subclass tptp.s__SystemeInternationalUnit tptp.s__UnitOfMeasure) (tptp.s__documentation tptp.s__SystemeInternationalUnit tptp.s__EnglishLanguage |tptp.'The &%Class of Systeme International (SI) units.'|) (tptp.s__subclass tptp.s__LengthMeasure tptp.s__ConstantQuantity) (tptp.s__instance tptp.s__LengthMeasure__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__ConstantQuantity__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__LengthMeasure tptp.s__EnglishLanguage |tptp.'A &%subclass of &%ConstantQuantity, instances of which are measures of length.'|) (tptp.s__subclass tptp.s__UnitOfLength tptp.s__NonCompositeUnitOfMeasure) (tptp.s__instance tptp.s__UnitOfLength__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__UnitOfLength tptp.s__EnglishLanguage |tptp.'Every instance of this &%Class is a &%UnitOfMeasure that can be used with &%MeasureFn to form instances of &%LengthMeasure.'|) (tptp.s__subclass tptp.s__MassMeasure tptp.s__ConstantQuantity) (tptp.s__instance tptp.s__MassMeasure__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MassMeasure tptp.s__EnglishLanguage |tptp.'A &%subclass of &%ConstantQuantity, instances of which are measures of the amount of matter in an &%Object.'|) (tptp.s__subclass tptp.s__UnitOfMass tptp.s__NonCompositeUnitOfMeasure) (tptp.s__documentation tptp.s__UnitOfMass tptp.s__EnglishLanguage |tptp.'Every instance of this &%Class is a &%UnitOfMeasure that can be used with &%MeasureFn to form instances of &%MassMeasure, which denote the amount of matter in &%PhysicalObjects.'|) (tptp.s__subclass tptp.s__AreaMeasure tptp.s__FunctionQuantity) (tptp.s__instance tptp.s__AreaMeasure__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AreaMeasure tptp.s__EnglishLanguage |tptp.'Measures of the amount of space in two dimensions.'|) (tptp.s__subclass tptp.s__UnitOfArea tptp.s__CompositeUnitOfMeasure) (tptp.s__instance tptp.s__UnitOfArea__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__UnitOfArea tptp.s__EnglishLanguage |tptp.'Every instance of this &%Class is a &%UnitOfMeasure that can be used with &%MeasureFn to form instances of &%AreaMeasure.'|) (tptp.s__subclass tptp.s__VolumeMeasure tptp.s__FunctionQuantity) (tptp.s__instance tptp.s__VolumeMeasure__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__FunctionQuantity__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__VolumeMeasure tptp.s__EnglishLanguage |tptp.'Measures of the amount of space in three dimensions.'|) (tptp.s__subclass tptp.s__UnitOfVolume tptp.s__CompositeUnitOfMeasure) (tptp.s__documentation tptp.s__UnitOfVolume tptp.s__EnglishLanguage |tptp.'Every instance of this &%Class is a &%UnitOfMeasure that can be used with &%MeasureFn to form instances of &%VolumeMeasure.'|) (tptp.s__subclass tptp.s__TemperatureMeasure tptp.s__ConstantQuantity) (tptp.s__instance tptp.s__TemperatureMeasure__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TemperatureMeasure tptp.s__EnglishLanguage |tptp.'Measures of temperature. In scientific circles, the temperature of something is understood as the average velocity of the atoms or molecules that make up the thing.'|) (tptp.s__subclass tptp.s__UnitOfTemperature tptp.s__NonCompositeUnitOfMeasure) (tptp.s__documentation tptp.s__UnitOfTemperature tptp.s__EnglishLanguage |tptp.'Every instance of this &%Class is a &%UnitOfMeasure that can be used with &%MeasureFn to form instances of &%TemperatureMeasure.'|) (tptp.s__subclass tptp.s__CurrencyMeasure tptp.s__ConstantQuantity) (tptp.s__instance tptp.s__CurrencyMeasure__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__CurrencyMeasure tptp.s__EnglishLanguage |tptp.'Instances of this &%subclass of &%ConstantQuantity are measures of &%monetaryValue stated in terms of some &%UnitOfCurrency such as &%UnitedStatesDollar, &%UnitedStatesCent, Lire, Yen, etc.'|) (tptp.s__subclass tptp.s__UnitOfCurrency tptp.s__NonCompositeUnitOfMeasure) (tptp.s__documentation tptp.s__UnitOfCurrency tptp.s__EnglishLanguage |tptp.'Every instance of this &%Class is a &%UnitOfMeasure that can be used with &%MeasureFn to form instances of &%CurrencyMeasure.'|) (tptp.s__subclass tptp.s__AngleMeasure tptp.s__ConstantQuantity) (tptp.s__documentation tptp.s__AngleMeasure tptp.s__EnglishLanguage |tptp.'The value of an angle in a plane or in a solid.'|) (tptp.s__subclass tptp.s__UnitOfAngularMeasure tptp.s__NonCompositeUnitOfMeasure) (tptp.s__instance tptp.s__UnitOfAngularMeasure__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__UnitOfAngularMeasure tptp.s__EnglishLanguage |tptp.'Every instance of this &%Class is a &%UnitOfMeasure that can be used with &%MeasureFn to form instances of &%AngleMeasure.'|) (tptp.s__subclass tptp.s__PlaneAngleMeasure tptp.s__AngleMeasure) (tptp.s__instance tptp.s__PlaneAngleMeasure__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__AngleMeasure__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PlaneAngleMeasure tptp.s__EnglishLanguage |tptp.'The value of an angle in a plane.'|) (tptp.s__subclass tptp.s__SolidAngleMeasure tptp.s__AngleMeasure) (tptp.s__instance tptp.s__SolidAngleMeasure__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__SolidAngleMeasure tptp.s__PlaneAngleMeasure) (tptp.s__documentation tptp.s__SolidAngleMeasure tptp.s__EnglishLanguage |tptp.'The value of an angle in a solid.'|) (tptp.s__subclass tptp.s__UnitOfInformation tptp.s__NonCompositeUnitOfMeasure) (tptp.s__instance tptp.s__UnitOfInformation__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__NonCompositeUnitOfMeasure__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__UnitOfInformation tptp.s__EnglishLanguage |tptp.'Every instance of this &%Class is a &%UnitOfMeasure that can be used with &%MeasureFn to form instances of &%InformationMeasure.'|) (tptp.s__subclass tptp.s__UnitOfDuration tptp.s__NonCompositeUnitOfMeasure) (tptp.s__instance tptp.s__UnitOfDuration__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__UnitOfDuration tptp.s__EnglishLanguage |tptp.'Every instance of this &%Class is a &%UnitOfMeasure that can be used with &%MeasureFn to form instances of &%TimeDuration. Note that &%TimeDuration is a &%subclass of &%TimeMeasure.'|) (tptp.s__instance tptp.s__MeasureFn__m tptp.s__BinaryFunction) (tptp.s__instance tptp.s__MeasureFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__MeasureFn__m |"1"| tptp.s__RealNumber) (tptp.s__domain tptp.s__MeasureFn__m |"2"| tptp.s__UnitOfMeasure) (tptp.s__range tptp.s__MeasureFn__m tptp.s__PhysicalQuantity) (tptp.s__documentation tptp.s__MeasureFn__m tptp.s__EnglishLanguage |tptp.'This &%BinaryFunction maps a &%RealNumber and a &%UnitOfMeasure to that &%Number of units. It is used to express `measured instances of &%PhysicalQuantity. 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For example, (&%MicroFn &%SecondDuration) is .000000001 &%SecondDurations.'|) (forall ((V__NANOUNIT $$unsorted) (V__UNIT $$unsorted)) (=> (tptp.s__instance V__NANOUNIT tptp.s__UnitOfMeasure) (=> (and (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (= V__NANOUNIT (tptp.s__NanoFn V__UNIT))) (= (tptp.s__MeasureFn |"1"| V__NANOUNIT) (tptp.s__MeasureFn |"0.000000001"| V__UNIT))))) (tptp.s__instance tptp.s__PicoFn__m tptp.s__UnitOfMeasureMultiplier) (tptp.s__domain tptp.s__PicoFn__m |"1"| tptp.s__UnitOfMeasure) (tptp.s__range tptp.s__PicoFn__m tptp.s__UnitOfMeasure) (tptp.s__documentation tptp.s__PicoFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to .000000000001 units of the original &%UnitOfMeasure. For example, (&%PicoFn &%SecondDuration) is .000000000001 &%SecondDurations.'|) (forall ((V__PICOUNIT $$unsorted) (V__UNIT $$unsorted)) (=> (tptp.s__instance V__PICOUNIT tptp.s__UnitOfMeasure) (=> (and (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (= V__PICOUNIT (tptp.s__PicoFn V__UNIT))) (= (tptp.s__MeasureFn |"1"| V__PICOUNIT) (tptp.s__MeasureFn |"0.000000000001"| V__UNIT))))) (tptp.s__instance tptp.s__IntervalFn__m tptp.s__BinaryFunction) (tptp.s__domain tptp.s__IntervalFn__m |"1"| tptp.s__ConstantQuantity) (tptp.s__domain tptp.s__IntervalFn__m |"2"| tptp.s__ConstantQuantity) (tptp.s__rangeSubclass tptp.s__IntervalFn__m tptp.s__ConstantQuantity) (tptp.s__relatedInternalConcept tptp.s__IntervalFn__m tptp.s__RecurrentTimeIntervalFn__m) (tptp.s__documentation tptp.s__IntervalFn__m tptp.s__EnglishLanguage |tptp.'A &%BinaryFunction that maps two instances of &%ConstantQuantity to the &%subclass of &%ConstantQuantity that comprises the interval from the first &%ConstantQuantity to the second &%ConstantQuantity. For example, (&%IntervalFn (&%MeasureFn 8 &%Meter) (&%MeasureFn 14 &%Meter)) would return the &%subclass of &%ConstantQuantity comprising quantities between 8 and 14 meters in length.'|) (forall ((V__FROM $$unsorted) (V__QUANTITY $$unsorted) (V__CLASS $$unsorted) (V__TO $$unsorted)) (=> (and (tptp.s__instance V__TO tptp.s__ConstantQuantity) (tptp.s__instance V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__FROM tptp.s__ConstantQuantity)) (=> (and (tptp.s__instance V__QUANTITY (tptp.s__IntervalFn V__FROM V__TO)) (tptp.s__instance V__FROM V__CLASS) (tptp.s__instance V__TO V__CLASS)) (tptp.s__instance V__QUANTITY V__CLASS)))) (forall ((V__FROM $$unsorted) (V__QUANTITY $$unsorted) (V__TO $$unsorted)) (=> (and (tptp.s__instance V__TO tptp.s__ConstantQuantity) (tptp.s__instance V__QUANTITY tptp.s__Quantity) (tptp.s__instance V__FROM tptp.s__ConstantQuantity)) (= (tptp.s__instance V__QUANTITY (tptp.s__IntervalFn V__FROM V__TO)) (and (tptp.greatereq V__QUANTITY V__FROM) (tptp.lesseq V__QUANTITY V__TO))))) (tptp.s__instance tptp.s__MagnitudeFn__m tptp.s__UnaryFunction) (tptp.s__domain tptp.s__MagnitudeFn__m |"1"| tptp.s__PhysicalQuantity) (tptp.s__range tptp.s__MagnitudeFn__m tptp.s__RealNumber) (tptp.s__documentation tptp.s__MagnitudeFn__m tptp.s__EnglishLanguage |tptp.'The magnitude of a &%PhysicalQuantity is the numeric value for the quantity. In other words, &%MagnitudeFn converts a &%PhysicalQuantity with an associated &%UnitOfMeasure into an ordinary &%RealNumber. For example, the magnitude of the &%ConstantQuantity 2 &%Kilometers is the &%RealNumber 2. Note that the magnitude of a quantity in a given unit times that unit is equal to the original quantity.'|) (forall ((V__NUMBER $$unsorted) (V__QUANT $$unsorted) (V__UNIT $$unsorted)) (=> (and (tptp.s__instance V__QUANT tptp.s__PhysicalQuantity) (tptp.s__instance V__NUMBER tptp.s__RealNumber)) (=> (and (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (= V__QUANT (tptp.s__MeasureFn V__NUMBER V__UNIT))) (= (tptp.s__MagnitudeFn V__QUANT) V__NUMBER)))) (tptp.s__instance tptp.s__UnitFn__m tptp.s__UnaryFunction) (tptp.s__domain tptp.s__UnitFn__m |"1"| tptp.s__PhysicalQuantity) (tptp.s__range tptp.s__UnitFn__m tptp.s__UnitOfMeasure) (tptp.s__documentation tptp.s__UnitFn__m tptp.s__EnglishLanguage |tptp.'&%UnitFn returns just the &%UnitOfMeasure of a &%PhysicalQuantity with an associated &%UnitOfMeasure and &%RealNumber magnitude. For example, the unit of the &%ConstantQuantity (&%MeasureFn 2 &%Kilometer) is the &%UnitOfMeasure &%Kilometer.'|) (forall ((V__NUMBER $$unsorted) (V__QUANT $$unsorted) (V__UNIT $$unsorted)) (=> (and (tptp.s__instance V__QUANT tptp.s__PhysicalQuantity) (tptp.s__instance V__NUMBER tptp.s__RealNumber)) (=> (and (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (= V__QUANT (tptp.s__MeasureFn V__NUMBER V__UNIT))) (= (tptp.s__UnitFn V__QUANT) V__UNIT)))) (tptp.s__instance tptp.s__PerFn__m tptp.s__BinaryFunction) (tptp.s__instance tptp.s__PerFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__PerFn__m |"1"| tptp.s__PhysicalQuantity) (tptp.s__domain tptp.s__PerFn__m |"2"| tptp.s__PhysicalQuantity) (tptp.s__range tptp.s__PerFn__m tptp.s__FunctionQuantity) (tptp.s__documentation tptp.s__PerFn__m tptp.s__EnglishLanguage |tptp.'&%PerFn maps two instances of &%PhysicalQuantity to the &%FunctionQuantity composed of these two instances. For example, (&%PerFn (&%MeasureFn 2 (&%MicroFn &%Gram)) (&%MeasureFn 1 (&%KiloFn &%Gram))) denotes the &%FunctionQuantity of 2 micrograms per kiogram. This function is useful, because it allows the knowledge engineer to dynamically generate instances of &%FunctionQuantity.'|) (tptp.s__subrelation tptp.s__DensityFn__m tptp.s__PerFn__m) (tptp.s__instance tptp.s__DensityFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__DensityFn__m |"1"| tptp.s__MassMeasure) (tptp.s__domain tptp.s__DensityFn__m |"2"| tptp.s__VolumeMeasure) (tptp.s__range tptp.s__DensityFn__m tptp.s__FunctionQuantity) (tptp.s__documentation tptp.s__DensityFn__m tptp.s__EnglishLanguage |tptp.'&%DensityFn maps an instance of &%MassMeasure and an instance of &%VolumeMeasure to the density represented by this proportion of mass and volume. For example, (&%DensityFn (&%MeasureFn 3 &%Gram) (&%MeasureFn 1 &%Liter)) represents the density of 3 grams per liter.'|) (tptp.s__subrelation tptp.s__SpeedFn__m tptp.s__PerFn__m) (tptp.s__instance tptp.s__SpeedFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__SpeedFn__m |"1"| tptp.s__LengthMeasure) (tptp.s__domain tptp.s__SpeedFn__m |"2"| tptp.s__TimeDuration) (tptp.s__range tptp.s__SpeedFn__m tptp.s__FunctionQuantity) (tptp.s__documentation tptp.s__SpeedFn__m tptp.s__EnglishLanguage |tptp.'Maps an instance of &%LengthMeasure and an instance of &%TimeDuration to the speed represented by this proportion of distance and time. For example, (&%SpeedFn (&%MeasureFn 55 &%Mile)(&%MeasureFn 1 &%HourDuration)) represents the velocity of 55 miles per hour.'|) (tptp.s__instance tptp.s__VelocityFn__m tptp.s__QuaternaryFunction) (tptp.s__instance tptp.s__QuaternaryFunction__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__VelocityFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__VelocityFn__m |"1"| tptp.s__LengthMeasure) (tptp.s__domain tptp.s__VelocityFn__m |"2"| tptp.s__TimeDuration) (tptp.s__domain tptp.s__VelocityFn__m |"3"| tptp.s__Region) (tptp.s__domain tptp.s__VelocityFn__m |"4"| tptp.s__DirectionalAttribute) (tptp.s__range tptp.s__VelocityFn__m tptp.s__FunctionQuantity) (tptp.s__documentation tptp.s__VelocityFn__m tptp.s__EnglishLanguage |tptp.'Specifies the velocity of an object, i.e. the speed and the direction of the speed. For example (&%VelocityFn (&%MeasureFn 55 &%Mile) (&%MeasureFn 2 &%HourDuration) ?REFERENCE &%North) denotes the velocity of 55 miles per hour North of the given reference point ?REFERENCE.'|) (forall ((V__OBJECT $$unsorted) (V__REF $$unsorted) (V__TIME $$unsorted) (V__DIRECTION $$unsorted) (V__DISTANCE $$unsorted)) (=> (and (tptp.s__instance V__DISTANCE tptp.s__LengthMeasure) (tptp.s__instance V__DIRECTION tptp.s__DirectionalAttribute) (tptp.s__instance V__TIME tptp.s__TimeDuration) (tptp.s__instance V__REF tptp.s__Region) (tptp.s__instance V__OBJECT tptp.s__Object)) (=> (tptp.s__measure V__OBJECT (tptp.s__VelocityFn V__DISTANCE V__TIME V__REF V__DIRECTION)) (tptp.s__measure V__OBJECT (tptp.s__SpeedFn V__DISTANCE V__TIME))))) (tptp.s__instance tptp.s__Meter tptp.s__UnitOfLength) (tptp.s__instance tptp.s__Meter tptp.s__SystemeInternationalUnit) (tptp.s__documentation tptp.s__Meter tptp.s__EnglishLanguage |tptp.'SI &%UnitOfLength. Symbol: m. It is one of the base units in SI, and it is currently defined as follows: the &%Meter is the length of the path traveled by light in a vacuum during a time interval of 1/299792458 of a &%SecondDuration.'|) (tptp.s__instance tptp.s__Gram tptp.s__UnitOfMass) (tptp.s__instance tptp.s__Gram tptp.s__SystemeInternationalUnit) (tptp.s__documentation tptp.s__Gram tptp.s__EnglishLanguage |tptp.'Submultiple of kilogram. Symbol: g. 1 kilogram = 1000 &%Grams.'|) (tptp.s__instance tptp.s__SecondDuration tptp.s__UnitOfDuration) (tptp.s__instance tptp.s__SecondDuration tptp.s__SystemeInternationalUnit) (tptp.s__documentation tptp.s__SecondDuration tptp.s__EnglishLanguage |tptp.'SI &%UnitOfDuration. Symbol: s. It is one of the base units in SI, and it is currently defined as follows: the &%SecondDuration is the duration of 9192631770 periods of the radiation corresponding to the transition between the two hyperfine levels of the ground state of the cesium 133 atom.'|) (tptp.s__instance tptp.s__Ampere tptp.s__CompositeUnitOfMeasure) (tptp.s__instance tptp.s__Ampere tptp.s__SystemeInternationalUnit) (tptp.s__documentation tptp.s__Ampere tptp.s__EnglishLanguage |tptp.'SI electric current measure. Symbol: A. It is one of the base units in SI. It is defined as follows: the &%Ampere is that constant current which, if maintained in two straight parallel conductors of infinite length, of negligible circular cross-section, and placed 1 &%Meter apart in a vacuum, would produce between these conductors a force equal to 2*10^(-7) &%Newton per &%Meter of length.'|) (tptp.s__instance tptp.s__KelvinDegree tptp.s__UnitOfTemperature) (tptp.s__instance tptp.s__KelvinDegree tptp.s__SystemeInternationalUnit) (tptp.s__instance tptp.s__SystemeInternationalUnit__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__KelvinDegree tptp.s__EnglishLanguage |tptp.'SI &%UnitOfMeasure used with &%MeasureFn to produce terms denoting instances of &%TemperatureMeasure. Symbol: K. It is one of the base units in SI (it is also a unit in the ITS system). Kelvin differs from the Celsius scale in that the triple point of water is defined to be 273.16 &%KelvinDegrees while it is 0 &%CelsiusDegrees. The magnitudes of intervals in the two scales are the same. By definition the conversion constant is 273.15.'|) (tptp.s__instance tptp.s__Mole tptp.s__UnitOfMass) (tptp.s__instance tptp.s__Mole tptp.s__SystemeInternationalUnit) (tptp.s__documentation tptp.s__Mole tptp.s__EnglishLanguage |tptp.'SI amount of substance unit. symbol: mol. It is one of the base units in SI. It is defined as follows: the &%Mole is the amount of substance of a system which contains as many elementary entities as there are atoms in 0.012 &%Kilograms of carbon 12. Note that, when this &%UnitOfMeasure is used, the elementary entities must be specified - they may be atoms, molecules, ions, electrons, etc. or groups of such particles.'|) (tptp.s__instance tptp.s__Candela tptp.s__CompositeUnitOfMeasure) (tptp.s__instance tptp.s__Candela tptp.s__SystemeInternationalUnit) (tptp.s__documentation tptp.s__Candela tptp.s__EnglishLanguage |tptp.'SI luminosity intensity measure. Symbol: cd. It is one of the base units in SI, and it is currently defined as follows: the &%Candela is the luminous intensity, in a given direction, of a source that emits monochromatic radiation of frequency 540*10^12 &%Hertz and that has a radiant intensity in that direction of 1/683 &%Watt per &%Steradian.'|) (tptp.s__instance tptp.s__Liter tptp.s__UnitOfVolume) (tptp.s__documentation tptp.s__Liter tptp.s__EnglishLanguage |tptp.'Unit of volume in the metric system. It is currently defined to be equal to one cubic decimeter (0.001 cubic meter). Symbol: l.'|) (tptp.s__instance tptp.s__Centimeter tptp.s__UnitOfLength) (tptp.s__documentation tptp.s__Centimeter tptp.s__EnglishLanguage |tptp.'Submultiple of &%Meter. Symbol: cm. It is the 100th part of a &%Meter'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__Centimeter) (tptp.s__MeasureFn (tptp.times V__NUMBER |"0.01"|) tptp.s__Meter))))) (tptp.s__documentation tptp.s__Millimeter tptp.s__EnglishLanguage |tptp.'Submultiple of Meter. Symbol: mm. A millimeter is the 1000th part of a meter'|) (tptp.s__instance tptp.s__Millimeter tptp.s__UnitOfLength) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__Millimeter) (tptp.s__MeasureFn (tptp.times V__NUMBER |"0.001"|) tptp.s__Meter))))) (tptp.s__instance tptp.s__Kilometer tptp.s__UnitOfLength) (tptp.s__documentation tptp.s__Kilometer tptp.s__EnglishLanguage |tptp.'Supermultiple of &%Meter. Symbol: km. A &%Meter is the 1000th part of a &%Kilometer'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__Kilometer) (tptp.s__MeasureFn (tptp.times V__NUMBER |"1000"|) tptp.s__Meter))))) (tptp.s__instance tptp.s__Radian tptp.s__UnitOfAngularMeasure) (tptp.s__instance tptp.s__Radian tptp.s__SystemeInternationalUnit) (tptp.s__documentation tptp.s__Radian tptp.s__EnglishLanguage |tptp.'SI plane angle measure. Symbol: rad. It is the angle of a circle subtended by an arc equal in length to the circles radius. Another definition is: the plane angle between two radii of a circle which cut off on the circumference an arc equal in length to the radius. &%Radian = m/m = 1.'|) (tptp.s__instance tptp.s__Steradian tptp.s__UnitOfAngularMeasure) (tptp.s__instance tptp.s__Steradian tptp.s__SystemeInternationalUnit) (tptp.s__documentation tptp.s__Steradian tptp.s__EnglishLanguage |tptp.'SI solid angle measure. Symbol: sr. It is the solid angle of a sphere subtended by a portion of the surface whose area is equal to the square of the spheres radius. Another definition is: the solid angle which, having its vertex in the center of the sphere, cuts off an area of the surface of the sphere equal to that of a square with sides of length equal to the radius of the sphere. &%Steradian = m^2/m^2 = 1.'|) (tptp.s__subclass tptp.s__FrequencyMeasure tptp.s__TimeDependentQuantity) (tptp.s__instance tptp.s__FrequencyMeasure__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FrequencyMeasure tptp.s__EnglishLanguage |tptp.'A &%subclass of &%TimeDependentQuantity, instances of which are measures of the frequency with which some &%Process occurs.'|) (tptp.s__subclass tptp.s__UnitOfFrequency tptp.s__CompositeUnitOfMeasure) (tptp.s__instance tptp.s__UnitOfFrequency__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__UnitOfFrequency tptp.s__EnglishLanguage |tptp.'Every instance of this &%Class is a &%UnitOfMeasure that can be used with &%MeasureFn to form instances of &%FrequencyMeasure.'|) (forall ((V__NUMBER $$unsorted) (V__QUANT $$unsorted) (V__UNIT $$unsorted)) (=> (and (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (tptp.s__instance V__NUMBER tptp.s__RealNumber)) (=> (and (= (tptp.s__MeasureFn V__NUMBER V__UNIT) V__QUANT) (tptp.s__instance V__UNIT tptp.s__UnitOfFrequency)) (tptp.s__instance V__QUANT tptp.s__FrequencyMeasure)))) (tptp.s__instance tptp.s__Hertz tptp.s__UnitOfFrequency) (tptp.s__instance tptp.s__Hertz tptp.s__SystemeInternationalUnit) (tptp.s__documentation tptp.s__Hertz tptp.s__EnglishLanguage |tptp.'SI frequency measure. Symbol: Hz. It is the number of cycles per second. &%Hertz = s^(-1). Note that &%Hertz does not have a conversion function.'|) (tptp.s__instance tptp.s__Newton tptp.s__CompositeUnitOfMeasure) (tptp.s__instance tptp.s__Newton tptp.s__SystemeInternationalUnit) (tptp.s__documentation tptp.s__Newton tptp.s__EnglishLanguage |tptp.'SI force measure. Symbol: N. It is that force which gives to a mass of 1 kilogram an acceleration of 1 &%Meter per &%SecondDuration. &%Newton = m*kg*s^(-2).'|) (tptp.s__instance tptp.s__Pascal tptp.s__CompositeUnitOfMeasure) (tptp.s__instance tptp.s__Pascal tptp.s__SystemeInternationalUnit) (tptp.s__documentation tptp.s__Pascal tptp.s__EnglishLanguage |tptp.'SI pressure measure. Symbol:Pa. It is the pressure of one &%Newton per square &%Meter. &%Pascal = N/m^2 = m^(-1)*kg*s^(-2).'|) (tptp.s__instance tptp.s__Joule tptp.s__CompositeUnitOfMeasure) (tptp.s__instance tptp.s__Joule tptp.s__SystemeInternationalUnit) (tptp.s__documentation tptp.s__Joule tptp.s__EnglishLanguage |tptp.'SI energy measure. Symbol: J. It is the work done when the point of application of 1 &%Newton is displaced a distance of 1 &%Meter in the direction of the force. &%Joule = N*m = m^2*kg*s^(-2).'|) (tptp.s__instance tptp.s__Watt tptp.s__CompositeUnitOfMeasure) (tptp.s__instance tptp.s__Watt tptp.s__SystemeInternationalUnit) (tptp.s__documentation tptp.s__Watt tptp.s__EnglishLanguage |tptp.'SI power measure. Symbol: W. A &%UnitOfMeasure that measures power, i.e. energy produced or expended divided by &%TimeDuration. It is the power which gives rise to the production of energy (or work) at the rate of one &%Joule per &%SecondDuration. &%Watt = J/s = m^2*kg*s^(-3).'|) (tptp.s__instance tptp.s__Horsepower tptp.s__CompositeUnitOfMeasure) (tptp.s__documentation tptp.s__Horsepower tptp.s__EnglishLanguage |tptp.'A power measure that is equal to 746 &%Watts.'|) (forall ((V__N $$unsorted)) (=> (tptp.s__instance V__N tptp.s__RealNumber) (= (tptp.s__MeasureFn V__N tptp.s__Horsepower) (tptp.s__MeasureFn (tptp.times V__N |"746"|) tptp.s__Watt)))) (tptp.s__instance tptp.s__Coulomb tptp.s__CompositeUnitOfMeasure) (tptp.s__instance tptp.s__Coulomb tptp.s__SystemeInternationalUnit) (tptp.s__documentation tptp.s__Coulomb tptp.s__EnglishLanguage |tptp.'SI electric charge measure. Symbol: C. It is the quantity of electric charge transported through a cross section of a conductor in an electric circuit during each &%SecondDuration by a current of 1 &%Ampere. Coulomb = s*A.'|) (forall ((V__NUMBER $$unsorted) (V__QUANTITY $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__QUANTITY (tptp.s__MeasureFn V__NUMBER tptp.s__Coulomb)) (tptp.s__instance V__QUANTITY tptp.s__TimeDependentQuantity)))) (tptp.s__instance tptp.s__Volt tptp.s__CompositeUnitOfMeasure) (tptp.s__instance tptp.s__Volt tptp.s__SystemeInternationalUnit) (tptp.s__documentation tptp.s__Volt tptp.s__EnglishLanguage |tptp.'SI electric potential measure. Symbol: V. It is the difference of electric potential between two points of a conducting wire carrying a constant current of 1 &%Ampere, when the power dissipated between these points is equal to 1 &%Watt. &%Volt = W/A = m^2*kg*s^(-3)*A^(-1).'|) (tptp.s__instance tptp.s__Farad tptp.s__CompositeUnitOfMeasure) (tptp.s__instance tptp.s__Farad tptp.s__SystemeInternationalUnit) (tptp.s__documentation tptp.s__Farad tptp.s__EnglishLanguage |tptp.'SI capacitance measure. Symbol: F. It is the capacitance of a capacitator between the plates of which there appears a difference of potential of 1 &%Volt when it is charged by a quantity of electricity equal to 1 Coulomb. &%Farad = C/V = m^(-2)*kg(-1)*s^4*A^2.'|) (tptp.s__instance tptp.s__Ohm tptp.s__CompositeUnitOfMeasure) (tptp.s__instance tptp.s__Ohm tptp.s__SystemeInternationalUnit) (tptp.s__documentation tptp.s__Ohm tptp.s__EnglishLanguage |tptp.'SI electric resistance measure. It is the electric resistance between two points of a conductor when a constant difference of potential of 1 &%Volt, applied between these two points, produces in this conductor a current of 1 &%Ampere, this conductor not being the force of any electromotive force. &%Ohm = V/A = m^2*kg*s^(-3)*A^(-2).'|) (tptp.s__instance tptp.s__Siemens tptp.s__CompositeUnitOfMeasure) (tptp.s__instance tptp.s__Siemens tptp.s__SystemeInternationalUnit) (tptp.s__documentation tptp.s__Siemens tptp.s__EnglishLanguage |tptp.'SI electric conductance measure. Symbol: S. In the case of direct current, the conductance in &%Siemens is the reciprocal of the resistance in &%Ohms, in the case of alternating current, it is the reciprocal of the impedance in ohms. siemens = A/V = m^(-2)*kg(-1)*s^(3)*A^2.'|) (tptp.s__instance tptp.s__Weber tptp.s__CompositeUnitOfMeasure) (tptp.s__instance tptp.s__Weber tptp.s__SystemeInternationalUnit) (tptp.s__documentation tptp.s__Weber tptp.s__EnglishLanguage |tptp.'SI magnetic flux measure. Symbol: Wb. It is the magnetic flux which, linking a circuit of one turn, produces in it an electromotive force of 1 &%Volt as it is reduced to zero at a uniform rate in 1 &%SecondDuration. &%Weber = V*s = m^2*kg*s^(-2)*A^(-1).'|) (tptp.s__instance tptp.s__Tesla tptp.s__CompositeUnitOfMeasure) (tptp.s__instance tptp.s__Tesla tptp.s__SystemeInternationalUnit) (tptp.s__documentation tptp.s__Tesla tptp.s__EnglishLanguage |tptp.'SI magnetic flux density measure. Symbol: T. One &%Tesla equals one &%Weber per square &%Meter. &%Tesla = Wb/m^2 = kg*s^(-2)*A^(-1).'|) (tptp.s__instance tptp.s__Henry tptp.s__CompositeUnitOfMeasure) (tptp.s__instance tptp.s__Henry tptp.s__SystemeInternationalUnit) (tptp.s__documentation tptp.s__Henry tptp.s__EnglishLanguage |tptp.'SI inductance measure. Symbol: H. One &%Henry is equivalent to one &%Volt divided by one &%Ampere per &%SecondDuration. If a current changing at the rate of one &%Ampere per &%SecondDuration induces an electromotive force of one &%Volt, the circuit has an inductance of one &%Henry. &%Henry = Wb/A = m^2*kg*s^(-2)*A^(-2).'|) (tptp.s__subclass tptp.s__CelsiusDegree tptp.s__UnitOfTemperature) (tptp.s__instance tptp.s__CelsiusDegree__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__UnitOfTemperature__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__CelsiusDegree tptp.s__SystemeInternationalUnit) (tptp.s__documentation tptp.s__CelsiusDegree tptp.s__EnglishLanguage |tptp.'A &%TemperatureMeasure. The freezing point and the boiling point of water are, respectively, 0 &%CelsiusDegrees and 100 &%CelsiusDegrees.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__CelsiusDegree) (tptp.s__MeasureFn (tptp.minus V__NUMBER |"273.15"|) tptp.s__KelvinDegree))))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__CelsiusDegree) (tptp.s__MeasureFn (tptp.divide (tptp.minus V__NUMBER |"32"|) |"1.8"|) tptp.s__FahrenheitDegree))))) (tptp.s__instance tptp.s__Lumen tptp.s__CompositeUnitOfMeasure) (tptp.s__instance tptp.s__Lumen tptp.s__SystemeInternationalUnit) (tptp.s__documentation tptp.s__Lumen tptp.s__EnglishLanguage |tptp.'SI luminous flux measure. Symbol: lm. It is the amount streaming outward through one solid angle of 1 &%Steradian from a uniform point source having an intensity of one &%Candela. &%Lumen = cd*sr = cd * 1.'|) (tptp.s__instance tptp.s__Lux tptp.s__CompositeUnitOfMeasure) (tptp.s__instance tptp.s__Lux tptp.s__SystemeInternationalUnit) (tptp.s__documentation tptp.s__Lux tptp.s__EnglishLanguage |tptp.'SI illuminance measure. Symbol: lx. It is the amount of illumination provided when one &%Lumen is evenly distributed over an area of 1 square &%Meter. This is also equivalent to the illumination that would exist on a surface all points of which are one &%Meter from a point source of one &%Candela. &%Lux = lm/m^2 = m^(-2)*cd.'|) (tptp.s__instance tptp.s__Becquerel tptp.s__CompositeUnitOfMeasure) (tptp.s__instance tptp.s__Becquerel tptp.s__SystemeInternationalUnit) (tptp.s__documentation tptp.s__Becquerel tptp.s__EnglishLanguage |tptp.'SI activity measure. Symbol: Bq. It measures the amount of radioactivity contained in a given sample of matter. It is that quantity of a radioactive element in which there is one atomic disintegration per &%SecondDuration. &%Becquerel = s^(-1).'|) (forall ((V__NUMBER $$unsorted) (V__QUANTITY $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__QUANTITY (tptp.s__MeasureFn V__NUMBER tptp.s__Becquerel)) (tptp.s__instance V__QUANTITY tptp.s__TimeDependentQuantity)))) (tptp.s__instance tptp.s__Gray tptp.s__CompositeUnitOfMeasure) (tptp.s__instance tptp.s__Gray tptp.s__SystemeInternationalUnit) (tptp.s__documentation tptp.s__Gray tptp.s__EnglishLanguage |tptp.'SI absorbed dose measure. Symbol: Gy. It measures the dose of radiation absorbed in living tissue. It is equal approximately to the absorbed dose delivered when the energy per unit mass imparted to matter by ionizing radiation is 1 &%Joule per kilogram. &%Gray = J/kg = m^2*s^(-2).'|) (tptp.s__instance tptp.s__Sievert tptp.s__CompositeUnitOfMeasure) (tptp.s__instance tptp.s__Sievert tptp.s__SystemeInternationalUnit) (tptp.s__documentation tptp.s__Sievert tptp.s__EnglishLanguage |tptp.'SI dose equivalent measure. Symbol: Sv. It is a unit of biologic dose of ionizing radiation. The &%Sievert makes it possible to normalize doses of different types of radiation. It takes into account the relative biologic effectiveness of ionizing radiation, since each form of such radiation--e.g., X rays, gamma rays, neutrons-- has a slightly different effect on living tissue for a given absorbed dose. The dose equivalent of a given type of radiation (in &%Sievert) is the dose of the radiation in &%Gray multiplied by a quality factor that is based on the relative biologic effectiveness of the radiation. Accordingly, one &%Sievert is generally defined as the amount of radiation roughly equivalent in biologic effectiveness to one &%Gray of gamma radiation. &%Sievert = J/kg = m^2*s^(-2)'|) (tptp.s__instance tptp.s__DayDuration tptp.s__UnitOfDuration) (tptp.s__documentation tptp.s__DayDuration tptp.s__EnglishLanguage |tptp.'Time unit. 1 day = 24 hours.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__DayDuration) (tptp.s__MeasureFn (tptp.times V__NUMBER |"24"|) tptp.s__HourDuration))))) (tptp.s__instance tptp.s__HourDuration tptp.s__UnitOfDuration) (tptp.s__documentation tptp.s__HourDuration tptp.s__EnglishLanguage |tptp.'Time unit. 1 hour = 60 minutes.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__HourDuration) (tptp.s__MeasureFn (tptp.times V__NUMBER |"60"|) tptp.s__MinuteDuration))))) (tptp.s__instance tptp.s__MinuteDuration tptp.s__UnitOfDuration) (tptp.s__documentation tptp.s__MinuteDuration tptp.s__EnglishLanguage |tptp.'Time unit. 1 minute = 60 seconds. '|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__MinuteDuration) (tptp.s__MeasureFn (tptp.times V__NUMBER |"60"|) tptp.s__SecondDuration))))) (tptp.s__instance tptp.s__WeekDuration tptp.s__UnitOfDuration) (tptp.s__documentation tptp.s__WeekDuration tptp.s__EnglishLanguage |tptp.'Time unit. A weeks duration is seven days.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__WeekDuration) (tptp.s__MeasureFn (tptp.times V__NUMBER |"7"|) tptp.s__DayDuration))))) (tptp.s__instance tptp.s__MonthDuration tptp.s__UnitOfDuration) (tptp.s__documentation tptp.s__MonthDuration tptp.s__EnglishLanguage |tptp.'Time unit. A months duration is at least 28 days, and no more than 31 days. Note that this unit is a range, rather than an exact amount, unlike most other units.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (tptp.greatereq (tptp.s__MeasureFn V__NUMBER tptp.s__MonthDuration) (tptp.s__MeasureFn (tptp.times V__NUMBER |"28"|) tptp.s__DayDuration))))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (tptp.lesseq (tptp.s__MeasureFn V__NUMBER tptp.s__MonthDuration) (tptp.s__MeasureFn (tptp.times V__NUMBER |"31"|) tptp.s__DayDuration))))) (tptp.s__instance tptp.s__YearDuration tptp.s__UnitOfDuration) (tptp.s__documentation tptp.s__YearDuration tptp.s__EnglishLanguage |tptp.'Time unit. one calendar year. 1 year = 365 days = 31536000 seconds.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__YearDuration) (tptp.s__MeasureFn (tptp.times V__NUMBER |"365"|) tptp.s__DayDuration))))) (tptp.s__instance tptp.s__Amu tptp.s__UnitOfMass) (tptp.s__documentation tptp.s__Amu tptp.s__EnglishLanguage |tptp.'Atomic mass unit. Symbol: u. It is the mass of the twelfth part of an atom of the Carbon 12 isotope.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__Amu) (tptp.s__MeasureFn (tptp.times V__NUMBER |"1.6605402E-24"|) tptp.s__Gram))))) (tptp.s__instance tptp.s__ElectronVolt tptp.s__CompositeUnitOfMeasure) (tptp.s__documentation tptp.s__ElectronVolt tptp.s__EnglishLanguage |tptp.'The &%ElectronVolt is an energy measure. Symbol: eV. It is the kinetic energy acquired by an electron in passing through a potential difference of 1 &%Volt in a vacuum.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__ElectronVolt) (tptp.s__MeasureFn (tptp.times V__NUMBER |"1.60217733E-19"|) tptp.s__Joule))))) (tptp.s__instance tptp.s__Angstrom tptp.s__UnitOfLength) (tptp.s__documentation tptp.s__Angstrom tptp.s__EnglishLanguage |tptp.'The &%Angstrom is a &%LengthMeasure. 1 &%Angstrom = 10^(-10) m'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__Angstrom) (tptp.s__MeasureFn (tptp.times V__NUMBER |"1.0E-10"|) tptp.s__Meter))))) (tptp.s__instance tptp.s__FootLength tptp.s__UnitOfLength) (tptp.s__documentation tptp.s__FootLength tptp.s__EnglishLanguage |tptp.'English length unit of feet.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__FootLength) (tptp.s__MeasureFn (tptp.times V__NUMBER |"0.3048"|) tptp.s__Meter))))) (tptp.s__instance tptp.s__Inch tptp.s__UnitOfLength) (tptp.s__documentation tptp.s__Inch tptp.s__EnglishLanguage |tptp.'English length unit of inches.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__Inch) (tptp.s__MeasureFn (tptp.times V__NUMBER |"0.0254"|) tptp.s__Meter))))) (tptp.s__instance tptp.s__Mile tptp.s__UnitOfLength) (tptp.s__documentation tptp.s__Mile tptp.s__EnglishLanguage |tptp.'English length unit of miles.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__Mile) (tptp.s__MeasureFn (tptp.times V__NUMBER |"1609.344"|) tptp.s__Meter))))) (tptp.s__instance tptp.s__UnitedStatesGallon tptp.s__UnitOfVolume) (tptp.s__relatedInternalConcept tptp.s__UnitedStatesGallon tptp.s__UnitedKingdomGallon) (tptp.s__documentation tptp.s__UnitedStatesGallon tptp.s__EnglishLanguage |tptp.'Unit of volume commonly used in the United States.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__UnitedStatesGallon) (tptp.s__MeasureFn (tptp.times V__NUMBER |"3.785411784"|) tptp.s__Liter))))) (tptp.s__instance tptp.s__Quart tptp.s__UnitOfVolume) (tptp.s__documentation tptp.s__Quart tptp.s__EnglishLanguage |tptp.'English unit of volume equal to 1/4 of a &%UnitedStatesGallon.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__Quart) (tptp.s__MeasureFn (tptp.divide V__NUMBER |"4"|) tptp.s__UnitedStatesGallon))))) (tptp.s__instance tptp.s__Pint tptp.s__UnitOfVolume) (tptp.s__documentation tptp.s__Pint tptp.s__EnglishLanguage |tptp.'English unit of volume equal to 1/2 of a &%Quart.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__Pint) (tptp.s__MeasureFn (tptp.divide V__NUMBER |"2"|) tptp.s__Quart))))) (tptp.s__instance tptp.s__Cup tptp.s__UnitOfVolume) (tptp.s__documentation tptp.s__Cup tptp.s__EnglishLanguage |tptp.'English unit of volume equal to 1/2 of a &%Pint.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__Cup) (tptp.s__MeasureFn (tptp.divide V__NUMBER |"2"|) tptp.s__Pint))))) (tptp.s__instance tptp.s__Ounce tptp.s__UnitOfVolume) (tptp.s__documentation tptp.s__Ounce tptp.s__EnglishLanguage |tptp.'English unit of volume equal to 1/8 of a &%Cup.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__Ounce) (tptp.s__MeasureFn (tptp.divide V__NUMBER |"8"|) tptp.s__Cup))))) (tptp.s__instance tptp.s__UnitedKingdomGallon tptp.s__UnitOfVolume) (tptp.s__instance tptp.s__UnitOfVolume__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__UnitedKingdomGallon tptp.s__EnglishLanguage |tptp.'Unit of volume commonly used in the United Kingdom.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__UnitedKingdomGallon) (tptp.s__MeasureFn (tptp.times V__NUMBER |"4.54609"|) tptp.s__Liter))))) (tptp.s__instance tptp.s__AtomGram tptp.s__UnitOfMass) (tptp.s__instance tptp.s__UnitOfMass__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AtomGram tptp.s__EnglishLanguage |tptp.'&%MassMeasure that is also known as the gram-atom. Defined as the mass in grams of 1 &%Mole of pure substance. For example, 1 &%AtomGram of Carbon 12 will be 12 &%Grams of pure Carbon 12. 2 &%AtomGrams of the same substance will be 24 &%Grams of it. This is an unusual unit in that it is essentially 1 &%Mole of stuff measured in grams, so that the actual value (i.e. mass) depends on the type of substance.'|) (tptp.s__documentation tptp.s__Kilogram tptp.s__EnglishLanguage |tptp.'Supermultiple of &%Gramm. Symbol: kg. 1 &%Kilogram = 1000 Grams.'|) (tptp.s__instance tptp.s__Kilogram tptp.s__SystemeInternationalUnit) (tptp.s__instance tptp.s__Kilogram tptp.s__UnitOfMass) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__Kilogram) (tptp.s__MeasureFn (tptp.times V__NUMBER |"1000"|) tptp.s__Gram))))) (tptp.s__domain tptp.s__weight__m |"1"| tptp.s__SelfConnectedObject) (tptp.s__domain tptp.s__weight__m |"2"| tptp.s__MassMeasure) (tptp.s__instance tptp.s__weight__m tptp.s__BinaryPredicate) (tptp.s__subrelation tptp.s__weight__m tptp.s__measure__m) (tptp.s__documentation tptp.s__weight__m tptp.s__EnglishLanguage |tptp.'(&%weight ?O ?MM) means that on planet earth the &%SelfConnectedObject ?O has the weight ?MM.'|) (tptp.s__instance tptp.s__PoundMass tptp.s__UnitOfMass) (tptp.s__documentation tptp.s__PoundMass tptp.s__EnglishLanguage |tptp.'English mass unit of pounds.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__PoundMass) (tptp.s__MeasureFn (tptp.times V__NUMBER |"453.59237"|) tptp.s__Gram))))) (tptp.s__instance tptp.s__Slug tptp.s__UnitOfMass) (tptp.s__documentation tptp.s__Slug tptp.s__EnglishLanguage |tptp.'English mass unit of slugs.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__Slug) (tptp.s__MeasureFn (tptp.times V__NUMBER |"14593.90"|) tptp.s__Gram))))) (tptp.s__instance tptp.s__RankineDegree tptp.s__UnitOfTemperature) (tptp.s__documentation tptp.s__RankineDegree tptp.s__EnglishLanguage |tptp.'A &%TemperatureMeasure. Note that 0 &%RankineDegrees is the same as the absolute zero (i.e. 0 &%KelvinDegrees).'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__RankineDegree) (tptp.s__MeasureFn (tptp.times V__NUMBER |"1.8"|) tptp.s__KelvinDegree))))) (tptp.s__instance tptp.s__FahrenheitDegree tptp.s__UnitOfTemperature) (tptp.s__documentation tptp.s__FahrenheitDegree tptp.s__EnglishLanguage |tptp.'A &%UnitOfTemperature that is commonly used in the United States. On the Fahrenheit scale, the freezing point of water is 32 &%FahrenheitDegrees, and the boiling point of water is 212 &%FahrenheitDegrees.'|) (tptp.s__instance tptp.s__PoundForce tptp.s__CompositeUnitOfMeasure) (tptp.s__documentation tptp.s__PoundForce tptp.s__EnglishLanguage |tptp.'English pound of force. The conversion factor depends on the local value of the acceleration of free fall. 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Note that this &%Predicate can be used to specify, for example, the depth of marine life or submarines, for example.'|) (forall ((V__DEPTH $$unsorted) (V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__Object) (tptp.s__instance V__DEPTH tptp.s__LengthMeasure)) (=> (tptp.s__depth V__OBJ1 V__OBJ2 V__DEPTH) (tptp.s__orientation V__OBJ1 V__OBJ2 tptp.s__Below)))) (forall ((V__DEPTH $$unsorted) (V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__Physical) (tptp.s__instance V__OBJ1 tptp.s__SelfConnectedObject) (tptp.s__instance V__DEPTH tptp.s__LengthMeasure)) (=> (tptp.s__depth V__OBJ1 V__OBJ2 V__DEPTH) (exists ((V__BOTTOM $$unsorted)) (and (tptp.s__instance V__BOTTOM tptp.s__SelfConnectedObject) (tptp.s__bottom V__BOTTOM V__OBJ1) (tptp.s__distance V__BOTTOM V__OBJ2 V__DEPTH)))))) (tptp.s__instance tptp.s__larger__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__larger__m tptp.s__SpatialRelation) (tptp.s__instance tptp.s__larger__m tptp.s__TransitiveRelation) (tptp.s__instance tptp.s__larger__m tptp.s__IrreflexiveRelation) (tptp.s__domain tptp.s__larger__m |"1"| tptp.s__Object) (tptp.s__domain tptp.s__larger__m |"2"| tptp.s__Object) (tptp.s__documentation tptp.s__larger__m tptp.s__EnglishLanguage |tptp.'(&%larger ?OBJ1 ?OBJ2) means that ?OBJ1 is larger, with respect to all &%LengthMeasures, than ?OBJ2.'|) (forall ((V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (= (tptp.s__larger V__OBJ1 V__OBJ2) (forall ((V__QUANT1 $$unsorted) (V__QUANT2 $$unsorted) (V__UNIT $$unsorted)) (=> (and (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (tptp.s__instance V__QUANT2 tptp.s__RealNumber) (tptp.s__instance V__QUANT1 tptp.s__RealNumber) (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__Object)) (=> (and (tptp.s__measure V__OBJ1 (tptp.s__MeasureFn V__QUANT1 V__UNIT)) (tptp.s__measure V__OBJ2 (tptp.s__MeasureFn V__QUANT2 V__UNIT)) (tptp.s__instance V__UNIT tptp.s__UnitOfLength)) (tptp.greater V__QUANT1 V__QUANT2)))))) (tptp.s__instance tptp.s__smaller__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__smaller__m tptp.s__SpatialRelation) (tptp.s__instance tptp.s__smaller__m tptp.s__TransitiveRelation) (tptp.s__instance tptp.s__smaller__m tptp.s__IrreflexiveRelation) (tptp.s__domain tptp.s__smaller__m |"1"| tptp.s__Object) (tptp.s__domain tptp.s__smaller__m |"2"| tptp.s__Object) (tptp.s__inverse tptp.s__smaller__m tptp.s__larger__m) (tptp.s__documentation tptp.s__smaller__m tptp.s__EnglishLanguage |tptp.'(&%smaller ?OBJ1 ?OBJ2) means that ?OBJ1 is smaller, with respect to all &%LengthMeasures, than ?OBJ2.'|) (tptp.s__instance tptp.s__monetaryValue__m tptp.s__SingleValuedRelation) (tptp.s__subrelation tptp.s__monetaryValue__m tptp.s__measure__m) (tptp.s__domain tptp.s__monetaryValue__m |"1"| tptp.s__Physical) (tptp.s__domain tptp.s__monetaryValue__m |"2"| tptp.s__CurrencyMeasure) (tptp.s__documentation tptp.s__monetaryValue__m tptp.s__EnglishLanguage |tptp.'A &%BinaryPredicate that associates an &%Object or &%Process with its value expressed as an instance of &%CurrencyMeasure.'|) (tptp.s__instance tptp.s__WealthFn__m tptp.s__UnaryFunction) (tptp.s__domain tptp.s__WealthFn__m |"1"| tptp.s__Agent) (tptp.s__range tptp.s__WealthFn__m tptp.s__CurrencyMeasure) (tptp.s__documentation tptp.s__WealthFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps an &%Agent to a &%CurrencyMeasure specifying the value of the property owned by the &%Agent. Note that this &%Function is generally used in conjunction with the &%Function &%PropertyFn, e.g. (&%WealthFn (&%PropertyFn BillGates)) would return the monetary value of the sum of Bill Gates holdings.'|) (forall ((V__AMOUNT $$unsorted) (V__PERSON $$unsorted)) (=> (and (tptp.s__instance V__PERSON tptp.s__Agent) (tptp.s__instance V__AMOUNT tptp.s__CurrencyMeasure)) (= (= (tptp.s__WealthFn V__PERSON) V__AMOUNT) (tptp.s__monetaryValue (tptp.s__PropertyFn V__PERSON) V__AMOUNT)))) (tptp.s__instance tptp.s__barometricPressure__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__barometricPressure__m tptp.s__AsymmetricRelation) (tptp.s__subrelation tptp.s__barometricPressure__m tptp.s__measure__m) (tptp.s__domain tptp.s__barometricPressure__m |"1"| tptp.s__Object) (tptp.s__domain tptp.s__barometricPressure__m |"2"| tptp.s__UnitOfAtmosphericPressure) (tptp.s__documentation tptp.s__barometricPressure__m tptp.s__EnglishLanguage |tptp.'(&%barometricPressure ?AREA ?PRESSURE) means that the atmospheric pressure measured at ?AREA is ?PRESSURE. 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(V__POINT1 $$unsorted)) (=> (and (tptp.s__instance V__POINT1 tptp.s__TimePoint) (tptp.s__instance V__POINT2 tptp.s__TimePoint) (tptp.s__instance V__POINT3 tptp.s__TimePoint)) (= (tptp.s__temporallyBetweenOrEqual V__POINT1 V__POINT2 V__POINT3) (and (tptp.s__beforeOrEqual V__POINT1 V__POINT2) (tptp.s__beforeOrEqual V__POINT2 V__POINT3))))) (forall ((V__TIME $$unsorted) (V__PHYS $$unsorted)) (let ((_let_1 (tptp.s__WhenFn V__PHYS))) (=> (tptp.s__instance V__PHYS tptp.s__Physical) (= (and (tptp.s__time V__PHYS V__TIME) (tptp.s__instance V__TIME tptp.s__TimePoint)) (tptp.s__temporallyBetweenOrEqual (tptp.s__BeginFn _let_1) V__TIME (tptp.s__EndFn _let_1)))))) (tptp.s__instance tptp.s__overlapsTemporally__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__overlapsTemporally__m tptp.s__TemporalRelation) (tptp.s__instance tptp.s__overlapsTemporally__m tptp.s__ReflexiveRelation) (tptp.s__instance tptp.s__overlapsTemporally__m tptp.s__SymmetricRelation) (tptp.s__domain tptp.s__overlapsTemporally__m |"1"| tptp.s__TimeInterval) (tptp.s__domain tptp.s__overlapsTemporally__m |"2"| tptp.s__TimeInterval) (tptp.s__documentation tptp.s__overlapsTemporally__m tptp.s__EnglishLanguage |tptp.'(&%overlapsTemporally ?INTERVAL1 ?INTERVAL2) means that the &%TimeIntervals ?INTERVAL1 and ?INTERVAL2 have a &%TimeInterval as a common part.'|) (forall ((V__INTERVAL1 $$unsorted) (V__INTERVAL2 $$unsorted)) (=> (and (tptp.s__instance V__INTERVAL2 tptp.s__TimeInterval) (tptp.s__instance V__INTERVAL1 tptp.s__TimeInterval)) (= (tptp.s__overlapsTemporally V__INTERVAL1 V__INTERVAL2) (exists ((V__INTERVAL3 $$unsorted)) (and (tptp.s__instance V__INTERVAL3 tptp.s__TimePosition) (tptp.s__instance V__INTERVAL3 tptp.s__TimeInterval) (tptp.s__temporalPart V__INTERVAL3 V__INTERVAL1) (tptp.s__temporalPart V__INTERVAL3 V__INTERVAL2)))))) (forall ((V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__Object)) (=> 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(tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__Object)) (=> (tptp.s__smaller V__OBJ1 V__OBJ2) (tptp.s__overlapsTemporally (tptp.s__WhenFn V__OBJ1) (tptp.s__WhenFn V__OBJ2))))) (forall ((V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__Object)) (=> (tptp.s__traverses V__OBJ1 V__OBJ2) (tptp.s__overlapsTemporally (tptp.s__WhenFn V__OBJ1) (tptp.s__WhenFn V__OBJ2))))) (tptp.s__subrelation tptp.s__during__m tptp.s__temporalPart__m) (tptp.s__instance tptp.s__during__m tptp.s__TransitiveRelation) (tptp.s__instance tptp.s__during__m tptp.s__IrreflexiveRelation) (tptp.s__subrelation tptp.s__during__m tptp.s__overlapsTemporally__m) (tptp.s__domain tptp.s__during__m |"1"| tptp.s__TimeInterval) (tptp.s__domain tptp.s__during__m |"2"| tptp.s__TimeInterval) (tptp.s__documentation tptp.s__during__m tptp.s__EnglishLanguage |tptp.'(&%during ?INTERVAL1 ?INTERVAL2) means that ?INTERVAL1 starts after and ends before ?INTERVAL2.'|) (forall ((V__INTERVAL1 $$unsorted) (V__INTERVAL2 $$unsorted)) (=> (and (tptp.s__instance V__INTERVAL2 tptp.s__TimeInterval) (tptp.s__instance V__INTERVAL1 tptp.s__TimeInterval)) (=> (tptp.s__during V__INTERVAL1 V__INTERVAL2) (and (tptp.s__before (tptp.s__EndFn V__INTERVAL1) (tptp.s__EndFn V__INTERVAL2)) (tptp.s__before (tptp.s__BeginFn V__INTERVAL2) (tptp.s__BeginFn V__INTERVAL1)))))) (tptp.s__instance tptp.s__meetsTemporally__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__meetsTemporally__m tptp.s__TemporalRelation) (tptp.s__instance tptp.s__meetsTemporally__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__meetsTemporally__m tptp.s__IntransitiveRelation) (tptp.s__domain tptp.s__meetsTemporally__m |"1"| tptp.s__TimeInterval) (tptp.s__domain tptp.s__meetsTemporally__m |"2"| tptp.s__TimeInterval) (tptp.s__documentation tptp.s__meetsTemporally__m tptp.s__EnglishLanguage |tptp.'(&%meetsTemporally ?INTERVAL1 ?INTERVAL2) means that the terminal point of the &%TimeInterval ?INTERVAL1 is the initial point of the &%TimeInterval ?INTERVAL2.'|) (forall ((V__INTERVAL1 $$unsorted) (V__INTERVAL2 $$unsorted)) (=> (and (tptp.s__instance V__INTERVAL2 tptp.s__TimeInterval) (tptp.s__instance V__INTERVAL1 tptp.s__TimeInterval)) (= (tptp.s__meetsTemporally V__INTERVAL1 V__INTERVAL2) (= (tptp.s__EndFn V__INTERVAL1) (tptp.s__BeginFn V__INTERVAL2))))) (forall ((V__INTERVAL1 $$unsorted) (V__INTERVAL2 $$unsorted)) (=> (and (tptp.s__instance V__INTERVAL2 tptp.s__TimeInterval) (tptp.s__instance V__INTERVAL1 tptp.s__TimeInterval)) (=> (and (= (tptp.s__BeginFn V__INTERVAL1) (tptp.s__BeginFn V__INTERVAL2)) (= (tptp.s__EndFn V__INTERVAL1) (tptp.s__EndFn V__INTERVAL2))) (= V__INTERVAL1 V__INTERVAL2)))) (tptp.s__instance tptp.s__earlier__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__earlier__m tptp.s__TemporalRelation) (tptp.s__instance tptp.s__TemporalRelation__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__earlier__m tptp.s__TransitiveRelation) (tptp.s__instance tptp.s__earlier__m tptp.s__IrreflexiveRelation) (tptp.s__domain tptp.s__earlier__m |"1"| tptp.s__TimeInterval) (tptp.s__domain tptp.s__earlier__m |"2"| tptp.s__TimeInterval) (tptp.s__documentation tptp.s__earlier__m tptp.s__EnglishLanguage |tptp.'(&%earlier ?INTERVAL1 ?INTERVAL2) means that the &%TimeInterval ?INTERVAL1 ends before the &%TimeInterval ?INTERVAL2 begins.'|) (forall ((V__INTERVAL1 $$unsorted) (V__INTERVAL2 $$unsorted)) (=> (and (tptp.s__instance V__INTERVAL2 tptp.s__TimeInterval) (tptp.s__instance V__INTERVAL1 tptp.s__TimeInterval)) (= (tptp.s__earlier V__INTERVAL1 V__INTERVAL2) (tptp.s__before (tptp.s__EndFn V__INTERVAL1) (tptp.s__BeginFn V__INTERVAL2))))) (tptp.s__instance tptp.s__cooccur__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__cooccur__m tptp.s__TemporalRelation) (tptp.s__instance tptp.s__cooccur__m tptp.s__EquivalenceRelation) (tptp.s__domain tptp.s__cooccur__m |"1"| tptp.s__Physical) (tptp.s__domain tptp.s__cooccur__m |"2"| tptp.s__Physical) (tptp.s__documentation tptp.s__cooccur__m tptp.s__EnglishLanguage |tptp.'(&%cooccur ?THING1 ?THING2) means that the &%Object or &%Process ?THING1 occurs at the same time as, together with, or jointly with the &%Object or &%Process ?THING2. This covers the following temporal relations: is co-incident with, is concurrent with, is contemporaneous with, and is concomitant with.'|) (forall ((V__PHYS2 $$unsorted) (V__PHYS1 $$unsorted)) (=> (and (tptp.s__instance V__PHYS1 tptp.s__Physical) (tptp.s__instance V__PHYS2 tptp.s__Physical)) (= (tptp.s__cooccur V__PHYS1 V__PHYS2) (= (tptp.s__WhenFn V__PHYS1) (tptp.s__WhenFn V__PHYS2))))) (tptp.s__instance tptp.s__TimeIntervalFn__m tptp.s__BinaryFunction) (tptp.s__instance tptp.s__TimeIntervalFn__m tptp.s__TemporalRelation) (tptp.s__domain tptp.s__TimeIntervalFn__m |"1"| tptp.s__TimePoint) (tptp.s__domain tptp.s__TimeIntervalFn__m |"2"| tptp.s__TimePoint) (tptp.s__range tptp.s__TimeIntervalFn__m tptp.s__TimeInterval) (tptp.s__documentation tptp.s__TimeIntervalFn__m tptp.s__EnglishLanguage |tptp.'A &%BinaryFunction that takes two &%TimePoints as arguments and returns the &%TimeInterval defined by these two &%TimePoints. Note that the first &%TimePoint must occur earlier than the second &%TimePoint.'|) (forall ((V__POINT2 $$unsorted) (V__POINT1 $$unsorted) (V__INTERVAL $$unsorted)) (=> (and (tptp.s__instance V__POINT1 tptp.s__TimePoint) (tptp.s__instance V__POINT2 tptp.s__TimePoint) (tptp.s__instance V__INTERVAL tptp.s__TimeInterval) (= (tptp.s__TimeIntervalFn V__POINT1 V__POINT2) V__INTERVAL)) (and (= (tptp.s__BeginFn V__INTERVAL) V__POINT1) (= (tptp.s__EndFn V__INTERVAL) V__POINT2)))) (forall ((V__POINT2 $$unsorted) (V__POINT1 $$unsorted) (V__INTERVAL $$unsorted)) (=> (and (tptp.s__instance V__POINT1 tptp.s__TimePoint) (tptp.s__instance V__POINT2 tptp.s__TimePoint) (tptp.s__instance V__INTERVAL tptp.s__TimeInterval) (= (tptp.s__TimeIntervalFn V__POINT1 V__POINT2) V__INTERVAL)) (forall ((V__POINT $$unsorted)) (=> (and (tptp.s__instance V__POINT tptp.s__TimePoint) (tptp.s__instance V__INTERVAL tptp.s__TimePosition) (tptp.s__instance V__POINT1 tptp.s__TimePoint) (tptp.s__instance V__POINT2 tptp.s__TimePoint)) (= (tptp.s__temporallyBetweenOrEqual V__POINT1 V__POINT V__POINT2) (tptp.s__temporalPart V__POINT V__INTERVAL)))))) (tptp.s__instance tptp.s__RecurrentTimeIntervalFn__m tptp.s__TemporalRelation) (tptp.s__instance tptp.s__RecurrentTimeIntervalFn__m tptp.s__BinaryFunction) (tptp.s__domainSubclass tptp.s__RecurrentTimeIntervalFn__m |"1"| tptp.s__TimeInterval) (tptp.s__domainSubclass tptp.s__RecurrentTimeIntervalFn__m |"2"| tptp.s__TimeInterval) (tptp.s__rangeSubclass tptp.s__RecurrentTimeIntervalFn__m tptp.s__TimeInterval) (tptp.s__documentation tptp.s__RecurrentTimeIntervalFn__m tptp.s__EnglishLanguage |tptp.'A function that is useful for generating recurring time intervals. For example, (&%RecurrentTimeIntervalFn (&%HourFn 6 &%Day) (&%HourFn 12 &%Day)) returns the &%Class of &%TimeIntervals beginning at 6 in the morning and ending at 12 noon. For another example, (&%RecurrentTimeInterval &%Saturday &%Sunday) returns the &%Class of all weekends. For still another example, (&%RecurrentTimeInterval &%June &%August) returns the &%Class containing the academic summer period.'|) (forall ((V__TIMECLASS1 $$unsorted) (V__TIMECLASS2 $$unsorted) (V__INTERVAL $$unsorted)) (=> (and (tptp.s__instance V__INTERVAL tptp.s__TimeInterval) (tptp.s__subclass V__TIMECLASS2 tptp.s__TimeInterval) (tptp.s__instance V__TIMECLASS2 tptp.s__SetOrClass) (tptp.s__subclass V__TIMECLASS1 tptp.s__TimeInterval) (tptp.s__instance V__TIMECLASS1 tptp.s__SetOrClass)) (=> (tptp.s__instance V__INTERVAL (tptp.s__RecurrentTimeIntervalFn V__TIMECLASS1 V__TIMECLASS2)) (exists ((V__TIME1 $$unsorted) (V__TIME2 $$unsorted)) (and (tptp.s__instance V__TIME2 tptp.s__TimeInterval) (tptp.s__instance V__TIME1 tptp.s__TimeInterval) (tptp.s__instance V__TIME1 V__TIMECLASS1) (tptp.s__instance V__TIME2 V__TIMECLASS2) (tptp.s__starts V__TIME1 V__INTERVAL) (tptp.s__finishes V__TIME2 V__INTERVAL)))))) (tptp.s__instance tptp.s__WhenFn__m tptp.s__TemporalRelation) (tptp.s__instance tptp.s__WhenFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__WhenFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__WhenFn__m |"1"| tptp.s__Physical) (tptp.s__range tptp.s__WhenFn__m tptp.s__TimeInterval) (tptp.s__documentation tptp.s__WhenFn__m tptp.s__EnglishLanguage |tptp.'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.'|) (tptp.s__instance tptp.s__PastFn__m tptp.s__TemporalRelation) (tptp.s__instance tptp.s__PastFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__PastFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__PastFn__m |"1"| tptp.s__TimePosition) (tptp.s__range tptp.s__PastFn__m tptp.s__TimeInterval) (tptp.s__documentation tptp.s__PastFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps a &%TimePosition to the &%TimeInterval that meets it and that begins at &%NegativeInfinity.'|) (forall ((V__INTERVAL $$unsorted)) (=> (tptp.s__instance V__INTERVAL tptp.s__TimeInterval) (tptp.s__meetsTemporally (tptp.s__PastFn V__INTERVAL) V__INTERVAL))) (forall ((V__INTERVAL $$unsorted)) (=> (tptp.s__instance V__INTERVAL tptp.s__TimeInterval) (= (tptp.s__PastFn V__INTERVAL) (tptp.s__TimeIntervalFn tptp.s__NegativeInfinity (tptp.s__BeginFn V__INTERVAL))))) (tptp.s__instance tptp.s__ImmediatePastFn__m tptp.s__TemporalRelation) (tptp.s__instance tptp.s__ImmediatePastFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__ImmediatePastFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__ImmediatePastFn__m |"1"| tptp.s__TimePosition) (tptp.s__range tptp.s__ImmediatePastFn__m tptp.s__TimeInterval) (tptp.s__documentation tptp.s__ImmediatePastFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps a &%TimePosition to a short, indeterminate &%TimeInterval that immediately precedes the &%TimePosition.'|) (forall ((V__INTERVAL $$unsorted)) (=> (tptp.s__instance V__INTERVAL tptp.s__TimePosition) (=> (tptp.s__instance V__INTERVAL tptp.s__TimeInterval) (tptp.s__finishes (tptp.s__ImmediatePastFn V__INTERVAL) (tptp.s__PastFn V__INTERVAL))))) (tptp.s__instance tptp.s__FutureFn__m tptp.s__TemporalRelation) (tptp.s__instance tptp.s__FutureFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__FutureFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__FutureFn__m |"1"| tptp.s__TimePosition) (tptp.s__range tptp.s__FutureFn__m tptp.s__TimeInterval) (tptp.s__documentation tptp.s__FutureFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps a &%TimePosition to the &%TimeInterval which it meets and which ends at &%PositiveInfinity.'|) (forall ((V__INTERVAL $$unsorted)) (=> (tptp.s__instance V__INTERVAL tptp.s__TimeInterval) (tptp.s__meetsTemporally V__INTERVAL (tptp.s__FutureFn V__INTERVAL)))) (forall ((V__INTERVAL $$unsorted)) (=> (tptp.s__instance V__INTERVAL tptp.s__TimeInterval) (= (tptp.s__FutureFn V__INTERVAL) (tptp.s__TimeIntervalFn (tptp.s__EndFn V__INTERVAL) tptp.s__PositiveInfinity)))) (tptp.s__instance tptp.s__ImmediateFutureFn__m tptp.s__TemporalRelation) (tptp.s__instance tptp.s__ImmediateFutureFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__ImmediateFutureFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__ImmediateFutureFn__m |"1"| tptp.s__TimePosition) (tptp.s__range tptp.s__ImmediateFutureFn__m tptp.s__TimeInterval) (tptp.s__documentation tptp.s__ImmediateFutureFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps a &%TimePosition to a short, indeterminate &%TimeInterval that immediately follows the &%TimePosition.'|) (forall ((V__INTERVAL $$unsorted)) (=> (tptp.s__instance V__INTERVAL tptp.s__TimePosition) (=> (tptp.s__instance V__INTERVAL tptp.s__TimeInterval) (tptp.s__starts (tptp.s__ImmediateFutureFn V__INTERVAL) (tptp.s__FutureFn V__INTERVAL))))) (tptp.s__instance tptp.s__date__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__date__m tptp.s__SingleValuedRelation) (tptp.s__instance tptp.s__date__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__date__m |"1"| tptp.s__Physical) (tptp.s__domain tptp.s__date__m |"2"| tptp.s__Day) (tptp.s__subrelation tptp.s__date__m tptp.s__time__m) (tptp.s__documentation tptp.s__date__m tptp.s__EnglishLanguage |tptp.'A &%BinaryPredicate that specifies a &%TimePosition in absolute calendar time, at the resolution of one day, for a particular &%Object or &%Process.'|) (tptp.s__instance tptp.s__YearFn__m tptp.s__TemporalRelation) (tptp.s__instance tptp.s__YearFn__m tptp.s__UnaryFunction) (tptp.s__domain tptp.s__YearFn__m |"1"| tptp.s__Integer) (tptp.s__rangeSubclass tptp.s__YearFn__m tptp.s__Year) (tptp.s__documentation tptp.s__YearFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps a number to the corresponding calendar &%Year. For example, (&%YearFn 1912) returns the &%Class containing just one instance, the year of 1912. As might be expected, positive integers return years in the Common Era, while negative integers return years in B.C.E. Note that this function returns a &%Class as a value. The reason for this is that the related functions, viz. &%MonthFn, &%DayFn, &%HourFn, &%MinuteFn, and &%SecondFn, are used to generate both specific &%TimeIntervals and recurrent intervals, and the only way to do this is to make the domains and ranges of these functions classes rather than individuals.'|) (tptp.s__instance tptp.s__MonthFn__m tptp.s__TemporalRelation) (tptp.s__instance tptp.s__MonthFn__m tptp.s__BinaryFunction) (tptp.s__domainSubclass tptp.s__MonthFn__m |"1"| tptp.s__Month) (tptp.s__domainSubclass tptp.s__MonthFn__m |"2"| tptp.s__Year) (tptp.s__rangeSubclass tptp.s__MonthFn__m tptp.s__Month) (tptp.s__documentation tptp.s__MonthFn__m tptp.s__EnglishLanguage |tptp.'A &%BinaryFunction that maps a subclass of &%Month and a subclass of &%Year to the class containing the &%Months corresponding to thos &%Years. For example (&%MonthFn &%January (&%YearFn 1912)) is the class containing the eighth &%Month, i.e. August, of the &%Year 1912. For another example, (&%MonthFn &%August &%Year) is equal to &%August, the class of all months of August. Note that this function returns a &%Class as a value. The reason for this is that the related functions, viz. DayFn, HourFn, MinuteFn, and SecondFn, are used to generate both specific &%TimeIntervals and recurrent intervals, and the only way to do this is to make the domains and ranges of these functions classes rather than individuals.'|) (tptp.s__instance tptp.s__DayFn__m tptp.s__TemporalRelation) (tptp.s__instance tptp.s__DayFn__m tptp.s__BinaryFunction) (tptp.s__domain tptp.s__DayFn__m |"1"| tptp.s__PositiveInteger) (tptp.s__domainSubclass tptp.s__DayFn__m |"2"| tptp.s__Month) (tptp.s__rangeSubclass tptp.s__DayFn__m tptp.s__Day) (tptp.s__documentation tptp.s__DayFn__m tptp.s__EnglishLanguage |tptp.'A &%BinaryFunction that assigns a &%PositiveRealNumber and a subclass of &%Months to the &%Days within each &%Month corresponding to that &%PositiveRealNumber. For example, (&%DayFn 16 &%August) is the &%Class of all sixteenth days of August. For another example, (&%DayFn 9 &%Month) would return the class of all ninth days of any month. For still another example, (&%DayFn 18 (&%MonthFn &%August (&%YearFn 1912))) denotes the 18th day of August 1912.'|) (forall ((V__DAY $$unsorted) (V__NUMBER $$unsorted) (V__MONTH $$unsorted)) (=> (and (tptp.s__subclass V__MONTH tptp.s__Month) (tptp.s__instance V__MONTH tptp.s__SetOrClass) (tptp.s__instance V__NUMBER tptp.s__PositiveInteger)) (=> (tptp.s__instance V__DAY (tptp.s__DayFn V__NUMBER V__MONTH)) (tptp.lesseq V__NUMBER |"31"|)))) (forall ((V__NUMBER2 $$unsorted) (V__MONTH $$unsorted) (V__DAY1 $$unsorted) (V__DAY2 $$unsorted) (V__NUMBER1 $$unsorted)) (=> (and (tptp.s__instance V__NUMBER1 tptp.s__PositiveInteger) (tptp.s__instance V__DAY2 tptp.s__TimeInterval) (tptp.s__instance V__DAY1 tptp.s__TimeInterval) (tptp.s__subclass V__MONTH tptp.s__Month) (tptp.s__instance V__MONTH tptp.s__SetOrClass) (tptp.s__instance V__NUMBER2 tptp.s__PositiveInteger)) (=> (and (tptp.s__instance V__DAY1 (tptp.s__DayFn V__NUMBER1 V__MONTH)) (tptp.s__instance V__DAY2 (tptp.s__DayFn V__NUMBER2 V__MONTH)) (= (tptp.minus V__NUMBER2 V__NUMBER1) |"1"|)) (tptp.s__meetsTemporally V__DAY1 V__DAY2)))) (tptp.s__instance tptp.s__HourFn__m tptp.s__TemporalRelation) (tptp.s__instance tptp.s__HourFn__m tptp.s__BinaryFunction) (tptp.s__domain tptp.s__HourFn__m |"1"| tptp.s__NonnegativeInteger) (tptp.s__domainSubclass tptp.s__HourFn__m |"2"| tptp.s__Day) (tptp.s__rangeSubclass tptp.s__HourFn__m tptp.s__Hour) (tptp.s__documentation tptp.s__HourFn__m tptp.s__EnglishLanguage |tptp.'A &%BinaryFunction that assigns a &%PositiveRealNumber and a subclass of &%Days to the &%Hours within each &%Day corresponding to that &%NonnegativeInteger. For example, (&%HourFn 12 &%Thursday) is the &%Class of all instances of noon Thursday. For another example, (&%HourFn 0 &%Day) would return the class of all instances of midnight. For still another example, (&%HourFn 14 (&%DayFn 18 (&%MonthFn &%August (&%YearFn 1912)))) denotes 2 PM on the 18th day of August 1912.'|) (forall ((V__DAY $$unsorted) (V__NUMBER $$unsorted) (V__HOUR $$unsorted)) (=> (and (tptp.s__instance V__NUMBER tptp.s__NonnegativeInteger) (tptp.s__subclass V__DAY tptp.s__Day) (tptp.s__instance V__DAY tptp.s__SetOrClass)) (=> (tptp.s__instance V__HOUR (tptp.s__HourFn V__NUMBER V__DAY)) (tptp.less V__NUMBER |"24"|)))) (forall ((V__DAY $$unsorted) (V__NUMBER2 $$unsorted) (V__HOUR2 $$unsorted) (V__NUMBER1 $$unsorted) (V__HOUR1 $$unsorted)) (=> (and (tptp.s__instance V__HOUR1 tptp.s__TimeInterval) (tptp.s__instance V__NUMBER1 tptp.s__NonnegativeInteger) (tptp.s__instance V__HOUR2 tptp.s__TimeInterval) (tptp.s__instance V__NUMBER2 tptp.s__NonnegativeInteger) (tptp.s__subclass V__DAY tptp.s__Day) (tptp.s__instance V__DAY tptp.s__SetOrClass)) (=> (and (tptp.s__instance V__HOUR1 (tptp.s__HourFn V__NUMBER1 V__DAY)) (tptp.s__instance V__HOUR2 (tptp.s__HourFn V__NUMBER2 V__DAY)) (= (tptp.minus V__NUMBER2 V__NUMBER1) |"1"|)) (tptp.s__meetsTemporally V__HOUR1 V__HOUR2)))) (tptp.s__instance tptp.s__MinuteFn__m tptp.s__TemporalRelation) (tptp.s__instance tptp.s__MinuteFn__m tptp.s__BinaryFunction) (tptp.s__domain tptp.s__MinuteFn__m |"1"| tptp.s__NonnegativeInteger) (tptp.s__domainSubclass tptp.s__MinuteFn__m |"2"| tptp.s__Hour) (tptp.s__rangeSubclass tptp.s__MinuteFn__m tptp.s__Minute) (tptp.s__documentation tptp.s__MinuteFn__m tptp.s__EnglishLanguage |tptp.'A &%BinaryFunction that assigns a &%PositiveRealNumber and a subclass of &%Hours to the &%Minutes within each &%Hour corresponding to that &%NonnegativeInteger. For example, (&%MinuteFn 30 (&%HourFn 17 &%Day)) is the &%Class of all 5:30s in the afternoon. For another example, (&%MinuteFn 15 &%Hour) would return the class of all instances of quarter past the hour. For still another example, (&%MinuteFn 15 (&%HourFn 14 (&%DayFn 18 (&%MonthFn &%August (&%YearFn 1912))))) denotes 15 minutes after 2 PM on the 18th day of August 1912.'|) (forall ((V__MINUTE $$unsorted) (V__NUMBER $$unsorted) (V__HOUR $$unsorted)) (=> (and (tptp.s__subclass V__HOUR tptp.s__Hour) (tptp.s__instance V__HOUR tptp.s__SetOrClass) (tptp.s__instance V__NUMBER tptp.s__NonnegativeInteger)) (=> (tptp.s__instance V__MINUTE (tptp.s__MinuteFn V__NUMBER V__HOUR)) (tptp.less V__NUMBER |"60"|)))) (forall ((V__MINUTE1 $$unsorted) (V__MINUTE2 $$unsorted) (V__NUMBER2 $$unsorted) (V__HOUR $$unsorted) (V__NUMBER1 $$unsorted)) (=> (and (tptp.s__instance V__NUMBER1 tptp.s__NonnegativeInteger) (tptp.s__subclass V__HOUR tptp.s__Hour) (tptp.s__instance V__HOUR tptp.s__SetOrClass) (tptp.s__instance V__NUMBER2 tptp.s__NonnegativeInteger) (tptp.s__instance V__MINUTE2 tptp.s__TimeInterval) (tptp.s__instance V__MINUTE1 tptp.s__TimeInterval)) (=> (and (tptp.s__instance V__MINUTE1 (tptp.s__MinuteFn V__NUMBER1 V__HOUR)) (tptp.s__instance V__MINUTE2 (tptp.s__MinuteFn V__NUMBER2 V__HOUR)) (= (tptp.minus V__NUMBER2 V__NUMBER1) |"1"|)) (tptp.s__meetsTemporally V__MINUTE1 V__MINUTE2)))) (tptp.s__instance tptp.s__SecondFn__m tptp.s__TemporalRelation) (tptp.s__instance tptp.s__SecondFn__m tptp.s__BinaryFunction) (tptp.s__domain tptp.s__SecondFn__m |"1"| tptp.s__PositiveRealNumber) (tptp.s__domainSubclass tptp.s__SecondFn__m |"2"| tptp.s__Minute) (tptp.s__rangeSubclass tptp.s__SecondFn__m tptp.s__Second) (tptp.s__documentation tptp.s__SecondFn__m tptp.s__EnglishLanguage |tptp.'A &%BinaryFunction that assigns a &%PositiveRealNumber and a subclass of &%Minutes to the &%Seconds within each &%Minute corresponding to that &%PositiveRealNumber. For example, (&%SecondFn 4 (&%MinuteFn 5 &%Hour)) is the &%Class of all fourth &%Seconds of every fifth &%Minute of every hour. For another example, (&%SecondFn 8 &%Minute) would return the eighth second of every minute. For still another example, (&%SecondFn 9 (&%MinuteFn 15 (&%HourFn 14 (&%DayFn 18 (&%MonthFn &%August (&%YearFn 1912)))))) denotes 9 seconds and 15 minutes after 2 PM on the 18th day of August 1912.'|) (forall ((V__MINUTE $$unsorted) (V__NUMBER $$unsorted) (V__SECOND $$unsorted)) (=> (and (tptp.s__instance V__NUMBER tptp.s__PositiveRealNumber) (tptp.s__subclass V__MINUTE tptp.s__Minute) (tptp.s__instance V__MINUTE tptp.s__SetOrClass)) (=> (tptp.s__instance V__SECOND (tptp.s__SecondFn V__NUMBER V__MINUTE)) (tptp.less V__NUMBER |"60"|)))) (forall ((V__MINUTE $$unsorted) (V__SECOND2 $$unsorted) (V__SECOND1 $$unsorted) (V__NUMBER2 $$unsorted) (V__NUMBER1 $$unsorted)) (=> (and (tptp.s__instance V__NUMBER1 tptp.s__PositiveRealNumber) (tptp.s__instance V__NUMBER2 tptp.s__PositiveRealNumber) (tptp.s__instance V__SECOND1 tptp.s__TimeInterval) (tptp.s__instance V__SECOND2 tptp.s__TimeInterval) (tptp.s__subclass V__MINUTE tptp.s__Minute) (tptp.s__instance V__MINUTE tptp.s__SetOrClass)) (=> (and (tptp.s__instance V__SECOND1 (tptp.s__SecondFn V__NUMBER1 V__MINUTE)) (tptp.s__instance V__SECOND2 (tptp.s__SecondFn V__NUMBER2 V__MINUTE)) (= (tptp.minus V__NUMBER2 V__NUMBER1) |"1"|)) (tptp.s__meetsTemporally V__SECOND1 V__SECOND2)))) (tptp.s__subclass tptp.s__Year tptp.s__TimeInterval) (tptp.s__instance tptp.s__Year__t tptp.s__SetOrClass) (tptp.s__relatedInternalConcept tptp.s__Year tptp.s__YearFn__m) (tptp.s__relatedInternalConcept tptp.s__Year tptp.s__YearDuration) (tptp.s__documentation tptp.s__Year tptp.s__EnglishLanguage |tptp.'The &%Class of all calendar &%Years.'|) (forall ((V__YEAR $$unsorted)) (=> (tptp.s__instance V__YEAR tptp.s__TimeInterval) (=> (tptp.s__instance V__YEAR tptp.s__Year) (tptp.s__duration V__YEAR (tptp.s__MeasureFn |"1"| tptp.s__YearDuration))))) (forall ((V__YEAR2 $$unsorted) (V__YEAR1 $$unsorted)) (=> (and (tptp.s__instance V__YEAR1 tptp.s__TimeInterval) (tptp.s__instance V__YEAR2 tptp.s__TimeInterval)) (=> (and (tptp.s__instance V__YEAR1 tptp.s__Year) (tptp.s__instance V__YEAR2 tptp.s__Year) (= (tptp.minus V__YEAR2 V__YEAR1) |"1"|)) (tptp.s__meetsTemporally V__YEAR1 V__YEAR2)))) (tptp.s__subclass tptp.s__LeapYear tptp.s__Year) (tptp.s__instance tptp.s__LeapYear__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__LeapYear tptp.s__EnglishLanguage |tptp.'The &%Class of all leap years. These are years which are either (i.) evenly divisible by 4 and not by 100 or (ii.) evenly divisible by 400 (this latter case is known as a leap century).'|) (forall ((V__LEAP $$unsorted) (V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__Integer) (=> (and (tptp.s__instance V__LEAP tptp.s__LeapYear) (tptp.s__instance V__LEAP (tptp.s__YearFn V__NUMBER))) (or (and (= (tptp.s__RemainderFn V__NUMBER |"4"|) |"0"|) (not (= (tptp.s__RemainderFn V__NUMBER |"100"|) |"0"|))) (= (tptp.s__RemainderFn V__NUMBER |"400"|) |"0"|))))) (tptp.s__subclass tptp.s__Month tptp.s__TimeInterval) (tptp.s__relatedInternalConcept tptp.s__Month tptp.s__MonthFn__m) (tptp.s__documentation tptp.s__Month tptp.s__EnglishLanguage |tptp.'The &%Class of all calendar &%Months.'|) (tptp.s__subclass tptp.s__January tptp.s__Month) (tptp.s__instance tptp.s__January__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__January tptp.s__EnglishLanguage |tptp.'The &%Class of all &%Months which are January.'|) (forall ((V__MONTH $$unsorted)) (=> (tptp.s__instance V__MONTH tptp.s__TimeInterval) (=> (tptp.s__instance V__MONTH tptp.s__January) (tptp.s__duration V__MONTH (tptp.s__MeasureFn |"31"| tptp.s__DayDuration))))) (forall ((V__MONTH1 $$unsorted) (V__MONTH2 $$unsorted) (V__YEAR $$unsorted)) (=> (and (tptp.s__subclass V__YEAR tptp.s__Year) (tptp.s__instance V__YEAR tptp.s__SetOrClass) (tptp.s__instance V__MONTH2 tptp.s__TimeInterval) (tptp.s__instance V__MONTH1 tptp.s__TimeInterval)) (=> (and (tptp.s__instance V__MONTH1 (tptp.s__MonthFn tptp.s__January V__YEAR)) (tptp.s__instance V__MONTH2 (tptp.s__MonthFn tptp.s__February V__YEAR))) (tptp.s__meetsTemporally V__MONTH1 V__MONTH2)))) (tptp.s__subclass tptp.s__February tptp.s__Month) (tptp.s__instance tptp.s__February__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__February tptp.s__EnglishLanguage |tptp.'The &%Class of all &%Months which are February.'|) (forall ((V__Y $$unsorted) (V__YEAR $$unsorted) (V__MONTH $$unsorted)) (=> (and (tptp.s__instance V__MONTH tptp.s__TimeInterval) (tptp.s__subclass V__YEAR tptp.s__Year) (tptp.s__instance V__YEAR tptp.s__SetOrClass)) (=> (and (tptp.s__instance V__MONTH (tptp.s__MonthFn tptp.s__February V__YEAR)) (tptp.s__instance V__Y V__YEAR) (not (tptp.s__instance V__Y tptp.s__LeapYear))) (tptp.s__duration V__MONTH (tptp.s__MeasureFn |"28"| tptp.s__DayDuration))))) (forall ((V__Y $$unsorted) (V__YEAR $$unsorted) (V__MONTH $$unsorted)) (=> (and (tptp.s__instance V__MONTH tptp.s__TimeInterval) (tptp.s__subclass V__YEAR tptp.s__Year) (tptp.s__instance V__YEAR tptp.s__SetOrClass)) (=> (and (tptp.s__instance V__MONTH (tptp.s__MonthFn tptp.s__February V__YEAR)) (tptp.s__instance V__Y V__YEAR) (tptp.s__instance V__Y tptp.s__LeapYear)) (tptp.s__duration V__MONTH (tptp.s__MeasureFn |"29"| tptp.s__DayDuration))))) (forall ((V__MONTH1 $$unsorted) (V__MONTH2 $$unsorted) (V__YEAR $$unsorted)) (=> (and (tptp.s__subclass V__YEAR tptp.s__Year) (tptp.s__instance V__YEAR tptp.s__SetOrClass) (tptp.s__instance V__MONTH2 tptp.s__TimeInterval) (tptp.s__instance V__MONTH1 tptp.s__TimeInterval)) (=> (and (tptp.s__instance V__MONTH1 (tptp.s__MonthFn tptp.s__February V__YEAR)) (tptp.s__instance V__MONTH2 (tptp.s__MonthFn tptp.s__March V__YEAR))) (tptp.s__meetsTemporally V__MONTH1 V__MONTH2)))) (tptp.s__subclass tptp.s__March tptp.s__Month) (tptp.s__instance tptp.s__March__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__March tptp.s__EnglishLanguage |tptp.'The &%Class of all &%Months which are March.'|) (forall ((V__MONTH $$unsorted)) (=> (tptp.s__instance V__MONTH tptp.s__TimeInterval) (=> (tptp.s__instance V__MONTH tptp.s__March) (tptp.s__duration V__MONTH (tptp.s__MeasureFn |"31"| tptp.s__DayDuration))))) (forall ((V__MONTH1 $$unsorted) (V__MONTH2 $$unsorted) (V__YEAR $$unsorted)) (=> (and (tptp.s__subclass V__YEAR tptp.s__Year) (tptp.s__instance V__YEAR tptp.s__SetOrClass) (tptp.s__instance V__MONTH2 tptp.s__TimeInterval) (tptp.s__instance V__MONTH1 tptp.s__TimeInterval)) (=> (and (tptp.s__instance V__MONTH1 (tptp.s__MonthFn tptp.s__March V__YEAR)) (tptp.s__instance V__MONTH2 (tptp.s__MonthFn tptp.s__April V__YEAR))) (tptp.s__meetsTemporally V__MONTH1 V__MONTH2)))) (tptp.s__subclass tptp.s__April tptp.s__Month) (tptp.s__instance tptp.s__April__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__April tptp.s__EnglishLanguage |tptp.'The &%Class of all &%Months which are April.'|) (forall ((V__MONTH $$unsorted)) (=> (tptp.s__instance V__MONTH tptp.s__TimeInterval) (=> (tptp.s__instance V__MONTH tptp.s__April) (tptp.s__duration V__MONTH (tptp.s__MeasureFn |"30"| tptp.s__DayDuration))))) (forall ((V__MONTH1 $$unsorted) (V__MONTH2 $$unsorted) (V__YEAR $$unsorted)) (=> (and (tptp.s__subclass V__YEAR tptp.s__Year) (tptp.s__instance V__YEAR tptp.s__SetOrClass) (tptp.s__instance V__MONTH2 tptp.s__TimeInterval) (tptp.s__instance V__MONTH1 tptp.s__TimeInterval)) (=> (and (= V__MONTH1 (tptp.s__MonthFn tptp.s__April V__YEAR)) (= V__MONTH2 (tptp.s__MonthFn tptp.s__May V__YEAR))) (tptp.s__meetsTemporally V__MONTH1 V__MONTH2)))) (tptp.s__subclass tptp.s__May tptp.s__Month) (tptp.s__instance tptp.s__May__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__May tptp.s__EnglishLanguage |tptp.'The &%Class of all &%Months which are May.'|) (forall ((V__MONTH $$unsorted)) (=> (tptp.s__instance V__MONTH tptp.s__TimeInterval) (=> (tptp.s__instance V__MONTH tptp.s__May) (tptp.s__duration V__MONTH (tptp.s__MeasureFn |"31"| tptp.s__DayDuration))))) (forall ((V__MONTH1 $$unsorted) (V__MONTH2 $$unsorted) (V__YEAR $$unsorted)) (=> (and (tptp.s__subclass V__YEAR tptp.s__Year) (tptp.s__instance V__YEAR tptp.s__SetOrClass) (tptp.s__instance V__MONTH2 tptp.s__TimeInterval) (tptp.s__instance V__MONTH1 tptp.s__TimeInterval)) (=> (and (tptp.s__instance V__MONTH1 (tptp.s__MonthFn tptp.s__May V__YEAR)) (tptp.s__instance V__MONTH2 (tptp.s__MonthFn tptp.s__June V__YEAR))) (tptp.s__meetsTemporally V__MONTH1 V__MONTH2)))) (tptp.s__subclass tptp.s__June tptp.s__Month) (tptp.s__instance tptp.s__June__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Month__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__June tptp.s__EnglishLanguage |tptp.'The &%Class of all &%Months which are June.'|) (forall ((V__MONTH $$unsorted)) (=> (tptp.s__instance V__MONTH tptp.s__TimeInterval) (=> (tptp.s__instance V__MONTH tptp.s__June) (tptp.s__duration V__MONTH (tptp.s__MeasureFn |"30"| tptp.s__DayDuration))))) (forall ((V__MONTH1 $$unsorted) (V__MONTH2 $$unsorted) (V__YEAR $$unsorted)) (=> (and (tptp.s__subclass V__YEAR tptp.s__Year) (tptp.s__instance V__YEAR tptp.s__SetOrClass) (tptp.s__instance V__MONTH2 tptp.s__TimeInterval) (tptp.s__instance V__MONTH1 tptp.s__TimeInterval)) (=> (and (tptp.s__instance V__MONTH1 (tptp.s__MonthFn tptp.s__June V__YEAR)) (tptp.s__instance V__MONTH2 (tptp.s__MonthFn tptp.s__July V__YEAR))) (tptp.s__meetsTemporally V__MONTH1 V__MONTH2)))) (tptp.s__subclass tptp.s__July tptp.s__Month) (tptp.s__instance tptp.s__July__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__July tptp.s__EnglishLanguage |tptp.'The &%Class of all &%Months which are July.'|) (forall ((V__MONTH $$unsorted)) (=> (tptp.s__instance V__MONTH tptp.s__TimeInterval) (=> (tptp.s__instance V__MONTH tptp.s__July) (tptp.s__duration V__MONTH (tptp.s__MeasureFn |"31"| tptp.s__DayDuration))))) (forall ((V__MONTH1 $$unsorted) (V__MONTH2 $$unsorted) (V__YEAR $$unsorted)) (=> (and (tptp.s__subclass V__YEAR tptp.s__Year) (tptp.s__instance V__YEAR tptp.s__SetOrClass) (tptp.s__instance V__MONTH2 tptp.s__TimeInterval) (tptp.s__instance V__MONTH1 tptp.s__TimeInterval)) (=> (and (tptp.s__instance V__MONTH1 (tptp.s__MonthFn tptp.s__July V__YEAR)) (tptp.s__instance V__MONTH2 (tptp.s__MonthFn tptp.s__August V__YEAR))) (tptp.s__meetsTemporally V__MONTH1 V__MONTH2)))) (tptp.s__subclass tptp.s__August tptp.s__Month) (tptp.s__instance tptp.s__August__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__August tptp.s__EnglishLanguage |tptp.'The &%Class of all &%Months which are August.'|) (forall ((V__MONTH $$unsorted)) (=> (tptp.s__instance V__MONTH tptp.s__TimeInterval) (=> (tptp.s__instance V__MONTH tptp.s__August) (tptp.s__duration V__MONTH (tptp.s__MeasureFn |"31"| tptp.s__DayDuration))))) (forall ((V__MONTH1 $$unsorted) (V__MONTH2 $$unsorted) (V__YEAR $$unsorted)) (=> (and (tptp.s__subclass V__YEAR tptp.s__Year) (tptp.s__instance V__YEAR tptp.s__SetOrClass) (tptp.s__instance V__MONTH2 tptp.s__TimeInterval) (tptp.s__instance V__MONTH1 tptp.s__TimeInterval)) (=> (and (tptp.s__instance V__MONTH1 (tptp.s__MonthFn tptp.s__August V__YEAR)) (tptp.s__instance V__MONTH2 (tptp.s__MonthFn tptp.s__September V__YEAR))) (tptp.s__meetsTemporally V__MONTH1 V__MONTH2)))) (tptp.s__subclass tptp.s__September tptp.s__Month) (tptp.s__instance tptp.s__September__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__September tptp.s__EnglishLanguage |tptp.'The &%Class of all &%Months which are September.'|) (forall ((V__MONTH $$unsorted)) (=> (tptp.s__instance V__MONTH tptp.s__TimeInterval) (=> (tptp.s__instance V__MONTH tptp.s__September) (tptp.s__duration V__MONTH (tptp.s__MeasureFn |"30"| tptp.s__DayDuration))))) (forall ((V__MONTH1 $$unsorted) (V__MONTH2 $$unsorted) (V__YEAR $$unsorted)) (=> (and (tptp.s__subclass V__YEAR tptp.s__Year) (tptp.s__instance V__YEAR tptp.s__SetOrClass) (tptp.s__instance V__MONTH2 tptp.s__TimeInterval) (tptp.s__instance V__MONTH1 tptp.s__TimeInterval)) (=> (and (tptp.s__instance V__MONTH1 (tptp.s__MonthFn tptp.s__September V__YEAR)) (tptp.s__instance V__MONTH2 (tptp.s__MonthFn tptp.s__October V__YEAR))) (tptp.s__meetsTemporally V__MONTH1 V__MONTH2)))) (tptp.s__subclass tptp.s__October tptp.s__Month) (tptp.s__instance tptp.s__October__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__October tptp.s__EnglishLanguage |tptp.'The &%Class of all &%Months which are October.'|) (forall ((V__MONTH $$unsorted)) (=> (tptp.s__instance V__MONTH tptp.s__TimeInterval) (=> (tptp.s__instance V__MONTH tptp.s__October) (tptp.s__duration V__MONTH (tptp.s__MeasureFn |"31"| tptp.s__DayDuration))))) (forall ((V__MONTH1 $$unsorted) (V__MONTH2 $$unsorted) (V__YEAR $$unsorted)) (=> (and (tptp.s__subclass V__YEAR tptp.s__Year) (tptp.s__instance V__YEAR tptp.s__SetOrClass) (tptp.s__instance V__MONTH2 tptp.s__TimeInterval) (tptp.s__instance V__MONTH1 tptp.s__TimeInterval)) (=> (and (tptp.s__instance V__MONTH1 (tptp.s__MonthFn tptp.s__October V__YEAR)) (tptp.s__instance V__MONTH2 (tptp.s__MonthFn tptp.s__November V__YEAR))) (tptp.s__meetsTemporally V__MONTH1 V__MONTH2)))) (tptp.s__subclass tptp.s__November tptp.s__Month) (tptp.s__instance tptp.s__November__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__November tptp.s__EnglishLanguage |tptp.'The &%Class of all &%Months which are November.'|) (forall ((V__MONTH $$unsorted)) (=> (tptp.s__instance V__MONTH tptp.s__TimeInterval) (=> (tptp.s__instance V__MONTH tptp.s__November) (tptp.s__duration V__MONTH (tptp.s__MeasureFn |"30"| tptp.s__DayDuration))))) (forall ((V__MONTH1 $$unsorted) (V__MONTH2 $$unsorted) (V__YEAR $$unsorted)) (=> (and (tptp.s__subclass V__YEAR tptp.s__Year) (tptp.s__instance V__YEAR tptp.s__SetOrClass) (tptp.s__instance V__MONTH2 tptp.s__TimeInterval) (tptp.s__instance V__MONTH1 tptp.s__TimeInterval)) (=> (and (tptp.s__instance V__MONTH1 (tptp.s__MonthFn tptp.s__November V__YEAR)) (tptp.s__instance V__MONTH2 (tptp.s__MonthFn tptp.s__December V__YEAR))) (tptp.s__meetsTemporally V__MONTH1 V__MONTH2)))) (tptp.s__subclass tptp.s__December tptp.s__Month) (tptp.s__instance tptp.s__December__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__December tptp.s__EnglishLanguage |tptp.'The &%Class of all &%Months which are December.'|) (forall ((V__MONTH $$unsorted)) (=> (tptp.s__instance V__MONTH tptp.s__TimeInterval) (=> (tptp.s__instance V__MONTH tptp.s__December) (tptp.s__duration V__MONTH (tptp.s__MeasureFn |"31"| tptp.s__DayDuration))))) (forall ((V__Y1 $$unsorted) (V__MONTH1 $$unsorted) (V__MONTH2 $$unsorted) (V__YEAR2 $$unsorted) (V__Y2 $$unsorted) (V__YEAR1 $$unsorted)) (=> (and (tptp.s__subclass V__YEAR1 tptp.s__Year) (tptp.s__instance V__YEAR1 tptp.s__SetOrClass) (tptp.s__instance V__Y2 tptp.s__TimeInterval) (tptp.s__subclass V__YEAR2 tptp.s__Year) (tptp.s__instance V__YEAR2 tptp.s__SetOrClass) (tptp.s__instance V__MONTH2 tptp.s__TimeInterval) (tptp.s__instance V__MONTH1 tptp.s__TimeInterval) (tptp.s__instance V__Y1 tptp.s__TimeInterval)) (=> (and (tptp.s__instance V__MONTH1 (tptp.s__MonthFn tptp.s__December V__YEAR1)) (tptp.s__instance V__MONTH2 (tptp.s__MonthFn tptp.s__January V__YEAR2)) (tptp.s__instance V__Y1 V__YEAR1) (tptp.s__instance V__Y2 V__YEAR2) (tptp.s__meetsTemporally V__Y1 V__Y2)) (tptp.s__meetsTemporally V__MONTH1 V__MONTH2)))) (tptp.s__subclass tptp.s__Day tptp.s__TimeInterval) (tptp.s__relatedInternalConcept tptp.s__Day tptp.s__DayFn__m) (tptp.s__relatedInternalConcept tptp.s__Day tptp.s__DayDuration) (tptp.s__documentation tptp.s__Day tptp.s__EnglishLanguage |tptp.'The &%Class of all calendar &%Days.'|) (forall ((V__DAY $$unsorted)) (=> (tptp.s__instance V__DAY tptp.s__TimeInterval) (=> (tptp.s__instance V__DAY tptp.s__Day) (tptp.s__duration V__DAY (tptp.s__MeasureFn |"1"| tptp.s__DayDuration))))) (tptp.s__subclass tptp.s__Monday tptp.s__Day) (tptp.s__instance tptp.s__Monday__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Monday tptp.s__EnglishLanguage |tptp.'The &%Class of all calendar Mondays.'|) (tptp.s__subclass tptp.s__Tuesday tptp.s__Day) (tptp.s__instance tptp.s__Tuesday__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Tuesday tptp.s__EnglishLanguage |tptp.'The &%Class of all calendar Tuesdays.'|) (forall ((V__WEEK $$unsorted) (V__DAY1 $$unsorted) (V__DAY2 $$unsorted)) (=> (and (tptp.s__instance V__DAY2 tptp.s__TimeInterval) (tptp.s__instance V__DAY1 tptp.s__TimeInterval) (tptp.s__instance V__WEEK tptp.s__TimePosition)) (=> (and (tptp.s__instance V__DAY1 tptp.s__Monday) (tptp.s__instance V__DAY2 tptp.s__Tuesday) (tptp.s__instance V__WEEK tptp.s__Week) (tptp.s__temporalPart V__DAY1 V__WEEK) (tptp.s__temporalPart V__DAY2 V__WEEK)) (tptp.s__meetsTemporally V__DAY1 V__DAY2)))) (tptp.s__subclass tptp.s__Wednesday tptp.s__Day) (tptp.s__instance tptp.s__Wednesday__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Wednesday tptp.s__EnglishLanguage |tptp.'The &%Class of all calendar Wednesdays.'|) (forall ((V__WEEK $$unsorted) (V__DAY1 $$unsorted) (V__DAY2 $$unsorted)) (=> (and (tptp.s__instance V__DAY2 tptp.s__TimeInterval) (tptp.s__instance V__DAY1 tptp.s__TimeInterval) (tptp.s__instance V__WEEK tptp.s__TimePosition)) (=> (and (tptp.s__instance V__DAY1 tptp.s__Tuesday) (tptp.s__instance V__DAY2 tptp.s__Wednesday) (tptp.s__instance V__WEEK tptp.s__Week) (tptp.s__temporalPart V__DAY1 V__WEEK) (tptp.s__temporalPart V__DAY2 V__WEEK)) (tptp.s__meetsTemporally V__DAY1 V__DAY2)))) (tptp.s__subclass tptp.s__Thursday tptp.s__Day) (tptp.s__instance tptp.s__Thursday__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Thursday tptp.s__EnglishLanguage |tptp.'The &%Class of all calendar Thursdays.'|) (forall ((V__WEEK $$unsorted) (V__DAY1 $$unsorted) (V__DAY2 $$unsorted)) (=> (and (tptp.s__instance V__DAY2 tptp.s__TimeInterval) (tptp.s__instance V__DAY1 tptp.s__TimeInterval) (tptp.s__instance V__WEEK tptp.s__TimePosition)) (=> (and (tptp.s__instance V__DAY1 tptp.s__Wednesday) (tptp.s__instance V__DAY2 tptp.s__Thursday) (tptp.s__instance V__WEEK tptp.s__Week) (tptp.s__temporalPart V__DAY1 V__WEEK) (tptp.s__temporalPart V__DAY2 V__WEEK)) (tptp.s__meetsTemporally V__DAY1 V__DAY2)))) (tptp.s__subclass tptp.s__Friday tptp.s__Day) (tptp.s__instance tptp.s__Friday__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Friday tptp.s__EnglishLanguage |tptp.'The &%Class of all calendar Fridays.'|) (forall ((V__WEEK $$unsorted) (V__DAY1 $$unsorted) (V__DAY2 $$unsorted)) (=> (and (tptp.s__instance V__DAY2 tptp.s__TimeInterval) (tptp.s__instance V__DAY1 tptp.s__TimeInterval) (tptp.s__instance V__WEEK tptp.s__TimePosition)) (=> (and (tptp.s__instance V__DAY1 tptp.s__Thursday) (tptp.s__instance V__DAY2 tptp.s__Friday) (tptp.s__instance V__WEEK tptp.s__Week) (tptp.s__temporalPart V__DAY1 V__WEEK) (tptp.s__temporalPart V__DAY2 V__WEEK)) (tptp.s__meetsTemporally V__DAY1 V__DAY2)))) (tptp.s__subclass tptp.s__Saturday tptp.s__Day) (tptp.s__instance tptp.s__Saturday__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Saturday tptp.s__EnglishLanguage |tptp.'The &%Class of all calendar Saturdays.'|) (forall ((V__WEEK $$unsorted) (V__DAY1 $$unsorted) (V__DAY2 $$unsorted)) (=> (and (tptp.s__instance V__DAY2 tptp.s__TimeInterval) (tptp.s__instance V__DAY1 tptp.s__TimeInterval) (tptp.s__instance V__WEEK tptp.s__TimePosition)) (=> (and (tptp.s__instance V__DAY1 tptp.s__Friday) (tptp.s__instance V__DAY2 tptp.s__Saturday) (tptp.s__instance V__WEEK tptp.s__Week) (tptp.s__temporalPart V__DAY1 V__WEEK) (tptp.s__temporalPart V__DAY2 V__WEEK)) (tptp.s__meetsTemporally V__DAY1 V__DAY2)))) (tptp.s__subclass tptp.s__Sunday tptp.s__Day) (tptp.s__instance tptp.s__Sunday__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Day__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sunday tptp.s__EnglishLanguage |tptp.'The &%Class of all calendar Sundays.'|) (forall ((V__WEEK $$unsorted) (V__DAY1 $$unsorted) (V__DAY2 $$unsorted)) (=> (and (tptp.s__instance V__DAY2 tptp.s__TimeInterval) (tptp.s__instance V__DAY1 tptp.s__TimeInterval) (tptp.s__instance V__WEEK tptp.s__TimePosition)) (=> (and (tptp.s__instance V__DAY1 tptp.s__Saturday) (tptp.s__instance V__DAY2 tptp.s__Sunday) (tptp.s__instance V__WEEK tptp.s__Week) (tptp.s__temporalPart V__DAY1 V__WEEK) (tptp.s__temporalPart V__DAY2 V__WEEK)) (tptp.s__meetsTemporally V__DAY1 V__DAY2)))) (forall ((V__WEEK2 $$unsorted) (V__WEEK1 $$unsorted) (V__DAY1 $$unsorted) (V__DAY2 $$unsorted)) (=> (and (tptp.s__instance V__DAY2 tptp.s__TimeInterval) (tptp.s__instance V__DAY1 tptp.s__TimeInterval) (tptp.s__instance V__WEEK1 tptp.s__TimeInterval) (tptp.s__instance V__WEEK2 tptp.s__TimeInterval)) (=> (and (tptp.s__instance V__DAY1 tptp.s__Sunday) (tptp.s__instance V__DAY2 tptp.s__Monday) (tptp.s__instance V__WEEK1 tptp.s__Week) (tptp.s__instance V__WEEK2 tptp.s__Week) (tptp.s__temporalPart V__DAY1 V__WEEK1) (tptp.s__temporalPart V__DAY2 V__WEEK2) (tptp.s__meetsTemporally V__WEEK1 V__WEEK2)) (tptp.s__meetsTemporally V__DAY1 V__DAY2)))) (tptp.s__subclass tptp.s__Week tptp.s__TimeInterval) (tptp.s__instance tptp.s__Week__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Week tptp.s__EnglishLanguage |tptp.'The &%Class of all calendar weeks.'|) (forall ((V__WEEK $$unsorted)) (=> (tptp.s__instance V__WEEK tptp.s__TimeInterval) (=> (tptp.s__instance V__WEEK tptp.s__Week) (tptp.s__duration V__WEEK (tptp.s__MeasureFn |"1"| tptp.s__WeekDuration))))) (tptp.s__subclass tptp.s__Hour tptp.s__TimeInterval) (tptp.s__instance tptp.s__Hour__t tptp.s__SetOrClass) (tptp.s__relatedInternalConcept tptp.s__Hour 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No hole can have a proper part that is externally connected with exactly the same things as the hole itself.'|) (forall ((V__HOLE $$unsorted)) (= (tptp.s__instance V__HOLE tptp.s__Hole) (exists ((V__OBJ $$unsorted)) (and (tptp.s__instance V__OBJ tptp.s__SelfConnectedObject) (tptp.s__hole V__HOLE V__OBJ))))) (forall ((V__OBJ $$unsorted) (V__HOLE $$unsorted)) (=> (and (tptp.s__instance V__HOLE tptp.s__Hole) (tptp.s__instance V__OBJ tptp.s__SelfConnectedObject)) (=> (tptp.s__hole V__HOLE V__OBJ) (not (tptp.s__instance V__OBJ tptp.s__Hole))))) (forall ((V__OBJ $$unsorted) (V__HOLE $$unsorted)) (=> (and (tptp.s__instance V__HOLE tptp.s__Hole) (tptp.s__instance V__OBJ tptp.s__SelfConnectedObject)) (=> (tptp.s__hole V__HOLE V__OBJ) (not (tptp.s__overlapsSpatially V__HOLE V__OBJ))))) (forall ((V__HOLE $$unsorted) (V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__SelfConnectedObject) (tptp.s__instance V__OBJ1 tptp.s__SelfConnectedObject) (tptp.s__instance V__HOLE tptp.s__Hole)) (=> (and (tptp.s__hole V__HOLE V__OBJ1) (tptp.s__hole V__HOLE V__OBJ2)) (exists ((V__OBJ3 $$unsorted)) (and (tptp.s__instance V__OBJ3 tptp.s__SelfConnectedObject) (tptp.s__properPart V__OBJ3 (tptp.s__MereologicalProductFn V__OBJ1 V__OBJ2)) (tptp.s__hole V__HOLE V__OBJ3)))))) (forall ((V__OBJ $$unsorted) (V__HOLE2 $$unsorted) (V__HOLE1 $$unsorted)) (=> (and (tptp.s__hole V__HOLE1 V__OBJ) (tptp.s__hole V__HOLE2 V__OBJ)) (forall ((V__HOLE3 $$unsorted)) (=> (and (tptp.s__instance V__HOLE3 tptp.s__Hole) (tptp.s__instance V__HOLE1 tptp.s__Hole) (tptp.s__instance V__HOLE2 tptp.s__Hole) (tptp.s__instance V__OBJ tptp.s__SelfConnectedObject)) (=> (tptp.s__part V__HOLE3 (tptp.s__MereologicalSumFn V__HOLE1 V__HOLE2)) (tptp.s__hole V__HOLE3 V__OBJ)))))) (forall ((V__HOLE $$unsorted) (V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__SelfConnectedObject) (tptp.s__instance V__OBJ1 tptp.s__SelfConnectedObject) (tptp.s__instance V__HOLE tptp.s__Hole)) (=> (and (tptp.s__hole V__HOLE V__OBJ1) (tptp.s__part V__OBJ1 V__OBJ2)) (or (tptp.s__overlapsSpatially V__HOLE V__OBJ2) (tptp.s__hole V__HOLE V__OBJ2))))) (forall ((V__HOLE2 $$unsorted) (V__HOLE1 $$unsorted) (V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__SelfConnectedObject) (tptp.s__instance V__OBJ1 tptp.s__SelfConnectedObject) (tptp.s__instance V__HOLE1 tptp.s__Hole) (tptp.s__instance V__HOLE2 tptp.s__Hole)) (=> (and (tptp.s__hole V__HOLE1 V__OBJ1) (tptp.s__hole V__HOLE2 V__OBJ2) (tptp.s__overlapsSpatially V__HOLE1 V__HOLE2)) (tptp.s__overlapsSpatially V__OBJ1 V__OBJ2)))) (forall ((V__HOLE1 $$unsorted)) (=> (tptp.s__instance V__HOLE1 tptp.s__Object) (=> (tptp.s__instance V__HOLE1 tptp.s__Hole) (exists ((V__HOLE2 $$unsorted)) (and (tptp.s__instance V__HOLE2 tptp.s__Object) (tptp.s__properPart V__HOLE2 V__HOLE1)))))) (tptp.s__instance tptp.s__HoleHostFn__m tptp.s__SpatialRelation) (tptp.s__instance tptp.s__HoleHostFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__HoleHostFn__m tptp.s__TotalValuedRelation) (tptp.s__instance tptp.s__HoleHostFn__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__HoleHostFn__m |"1"| tptp.s__Hole) (tptp.s__range tptp.s__HoleHostFn__m tptp.s__Object) (tptp.s__documentation tptp.s__HoleHostFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps a &%Hole to the &%Object which is its principal host. The principle host of a &%Hole is its maximally connected host (a notion taken here to be defined only when the argument is a hole).'|) (forall ((V__OBJ $$unsorted) (V__HOLE $$unsorted)) (=> (and (tptp.s__instance V__HOLE tptp.s__Hole) (tptp.s__instance V__OBJ tptp.s__SelfConnectedObject)) (=> (tptp.s__hole V__HOLE V__OBJ) (tptp.s__connected V__HOLE V__OBJ)))) (forall ((V__HOLE2 $$unsorted) (V__HOLE1 $$unsorted)) (=> (and (tptp.s__instance V__HOLE1 tptp.s__Object) (tptp.s__instance V__HOLE2 tptp.s__Object)) (=> (and (tptp.s__instance V__HOLE1 tptp.s__Hole) (tptp.s__properPart V__HOLE2 V__HOLE1)) (exists ((V__OBJ $$unsorted)) (and (tptp.s__instance V__OBJ tptp.s__Object) (tptp.s__meetsSpatially V__HOLE1 V__OBJ) (not (tptp.s__meetsSpatially V__HOLE2 V__OBJ))))))) (tptp.s__instance tptp.s__Fillable tptp.s__ShapeAttribute) (tptp.s__documentation tptp.s__Fillable tptp.s__EnglishLanguage |tptp.'Something is &%Fillable if it can be filled by something else. Note that filled here means perfectly filled. Something is fillable just in case it is part of a hole, i.e., fillability is an exclusive property of holes and their parts.'|) (forall ((V__HOLE1 $$unsorted)) (=> (tptp.s__instance V__HOLE1 tptp.s__Object) (= (tptp.s__attribute V__HOLE1 tptp.s__Fillable) (exists ((V__HOLE2 $$unsorted)) (and (tptp.s__instance V__HOLE2 tptp.s__Object) (tptp.s__instance V__HOLE2 tptp.s__Hole) (tptp.s__part V__HOLE1 V__HOLE2)))))) (tptp.s__subrelation tptp.s__partiallyFills__m tptp.s__located__m) (tptp.s__instance tptp.s__partiallyFills__m tptp.s__SpatialRelation) (tptp.s__instance tptp.s__partiallyFills__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__AsymmetricRelation__t tptp.s__SetOrClass) (tptp.s__domain tptp.s__partiallyFills__m |"1"| tptp.s__Object) (tptp.s__domain tptp.s__partiallyFills__m |"2"| tptp.s__Hole) (tptp.s__documentation tptp.s__partiallyFills__m tptp.s__EnglishLanguage |tptp.'(&%partiallyFills ?OBJ ?HOLE) means that ?OBJ &%completelyFills some part of ?HOLE. Note that if (&%partiallyFills ?OBJ1 ?HOLE) and (&%part ?OBJ1 ?OBJ2), then (&%partiallyFills ?OBJ2 ?HOLE). Note too that a partial filler need not be wholly inside a hole (it may stick out), which means that every complete filler also qualifies as (is a limit case of) a partial one.'|) (forall ((V__OBJ $$unsorted) (V__HOLE1 $$unsorted)) (=> (and (tptp.s__instance V__HOLE1 tptp.s__Hole) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (tptp.s__partiallyFills V__OBJ V__HOLE1) (exists ((V__HOLE2 $$unsorted)) (and (tptp.s__instance V__HOLE2 tptp.s__Hole) (tptp.s__part V__HOLE2 V__HOLE1) (tptp.s__completelyFills V__OBJ V__HOLE2)))))) (tptp.s__instance tptp.s__properlyFills__m tptp.s__AsymmetricRelation) (tptp.s__subrelation tptp.s__properlyFills__m tptp.s__partiallyFills__m) (tptp.s__domain tptp.s__properlyFills__m |"1"| tptp.s__Object) (tptp.s__domain tptp.s__properlyFills__m |"2"| tptp.s__Hole) (tptp.s__documentation tptp.s__properlyFills__m tptp.s__EnglishLanguage |tptp.'(&%properlyFills ?OBJ ?HOLE) means that ?HOLE is properly (though perhaps incompletely) filled by ?OBJ, i.e. some part of ?HOLE is perfectly filled by ?OBJ. Note that &%properlyFills is the dual of &%completelyFills, and is so related to &%partiallyFills that ?OBJ &%properlyFills ?HOLE just in case ?OBJ &%partiallyFills every part of ?HOLE. (Thus, every perfect filler is both complete and proper in this sense). Every hole is connected with everything with which a proper filler of the hole is connected. Every proper part of a perfect filler of (a part of) a hole properly fills (that part of) that hole.'|) (forall ((V__OBJ $$unsorted) (V__HOLE1 $$unsorted)) (=> (and (tptp.s__instance V__HOLE1 tptp.s__Hole) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (tptp.s__properlyFills V__OBJ V__HOLE1) (exists ((V__HOLE2 $$unsorted)) (and (tptp.s__instance V__HOLE2 tptp.s__Hole) (tptp.s__part V__HOLE2 V__HOLE1) (tptp.s__fills V__OBJ V__HOLE2)))))) (tptp.s__instance tptp.s__completelyFills__m tptp.s__AsymmetricRelation) (tptp.s__subrelation tptp.s__completelyFills__m tptp.s__partiallyFills__m) (tptp.s__documentation tptp.s__completelyFills__m tptp.s__EnglishLanguage |tptp.'(&%completelyFills ?OBJ ?HOLE) means that some &%part of the &%Object ?OBJ fills the &%Hole ?HOLE. Note that if (&%completelyFills ?OBJ1 ?HOLE) and (&%part ?OBJ1 ?OBJ2), then (&%completelyFills ?OBJ2 ?HOLE). A complete filler of (a part of) a hole is connected with everything with which (that part of) the hole itself is connected. A perfect filler of (a part of) a hole completely fills every proper part of (that part of) that hole.'|) (forall ((V__HOLE $$unsorted) (V__OBJ1 $$unsorted)) (=> (and (tptp.s__instance V__OBJ1 tptp.s__Object) (tptp.s__instance V__HOLE tptp.s__Hole)) (=> (tptp.s__completelyFills V__OBJ1 V__HOLE) (exists ((V__OBJ2 $$unsorted)) (and (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__part V__OBJ2 V__OBJ1) (tptp.s__fills V__OBJ2 V__HOLE)))))) (tptp.s__instance tptp.s__fills__m tptp.s__AsymmetricRelation) (tptp.s__subrelation tptp.s__fills__m tptp.s__completelyFills__m) (tptp.s__subrelation tptp.s__fills__m tptp.s__properlyFills__m) (tptp.s__domain tptp.s__fills__m |"1"| tptp.s__Object) (tptp.s__domain tptp.s__fills__m |"2"| tptp.s__Hole) (tptp.s__relatedInternalConcept tptp.s__fills__m tptp.s__Fillable) (tptp.s__documentation tptp.s__fills__m tptp.s__EnglishLanguage |tptp.'Holes can be filled. (&%fills ?OBJ ?HOLE) means that the &%Object ?OBJ fills the &%Hole ?HOLE. Note that &%fills here means perfectly filled. Perfect fillers and fillable entities have no parts in common (rather, they may occupy the same spatial region).'|) (forall ((V__HOLE $$unsorted) (V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__Object) (tptp.s__instance V__HOLE tptp.s__Hole)) (=> (and (tptp.s__fills V__OBJ1 V__HOLE) (tptp.s__attribute V__OBJ2 tptp.s__Fillable)) (not (tptp.s__overlapsSpatially V__OBJ1 V__OBJ2))))) (forall ((V__HOLE $$unsorted) (V__OBJ1 $$unsorted)) (=> (tptp.s__completelyFills V__OBJ1 V__HOLE) (forall ((V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__Object) (tptp.s__instance V__HOLE tptp.s__Hole)) (=> (tptp.s__connected V__OBJ2 V__HOLE) (tptp.s__connected V__OBJ2 V__OBJ1)))))) (forall ((V__HOLE $$unsorted) (V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__Object) (tptp.s__instance V__HOLE tptp.s__Hole)) (=> (and (tptp.s__properlyFills V__OBJ1 V__HOLE) (tptp.s__connected V__OBJ2 V__OBJ1)) (tptp.s__connected V__HOLE V__OBJ2)))) (forall ((V__OBJ $$unsorted) (V__HOLE2 $$unsorted) (V__HOLE1 $$unsorted)) (=> (and (tptp.s__instance V__HOLE1 tptp.s__Hole) (tptp.s__instance V__HOLE2 tptp.s__Hole) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (and (tptp.s__fills V__OBJ V__HOLE1) (tptp.s__properPart V__HOLE2 V__HOLE1)) (tptp.s__completelyFills V__OBJ V__HOLE2)))) (forall ((V__HOLE $$unsorted) (V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__Object) (tptp.s__instance V__HOLE tptp.s__Hole)) (=> (and (tptp.s__fills V__OBJ1 V__HOLE) (tptp.s__properPart V__OBJ2 V__OBJ1)) (tptp.s__properlyFills V__OBJ2 V__HOLE)))) (tptp.s__instance tptp.s__HoleSkinFn__m tptp.s__SpatialRelation) (tptp.s__instance tptp.s__HoleSkinFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__HoleSkinFn__m tptp.s__TotalValuedRelation) (tptp.s__instance tptp.s__HoleSkinFn__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__HoleSkinFn__m |"1"| tptp.s__Hole) (tptp.s__range tptp.s__HoleSkinFn__m tptp.s__Object) (tptp.s__documentation tptp.s__HoleSkinFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps a &%Hole to the skin of the &%Hole. The skin of a &%Hole is the fusion of those superficial parts (see &%superficialPart) of the &%Holes principal host (see &%HoleHostFn) with which the &%Hole is externally connected.'|) (forall ((V__HOLE $$unsorted) (V__OBJ1 $$unsorted)) (=> (= V__OBJ1 (tptp.s__HoleSkinFn V__HOLE)) (forall ((V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__Object) (tptp.s__instance V__HOLE tptp.s__Hole)) (= (tptp.s__overlapsSpatially V__OBJ2 V__OBJ1) (exists ((V__OBJ3 $$unsorted)) (and (tptp.s__instance V__OBJ3 tptp.s__Object) (tptp.s__superficialPart V__OBJ3 (tptp.s__HoleHostFn V__HOLE)) (tptp.s__meetsSpatially V__HOLE V__OBJ3) (tptp.s__overlapsSpatially V__OBJ2 V__OBJ3)))))))) (tptp.s__instance tptp.s__subProcess__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__subProcess__m tptp.s__PartialOrderingRelation) (tptp.s__domain tptp.s__subProcess__m |"1"| tptp.s__Process) (tptp.s__domain tptp.s__subProcess__m |"2"| tptp.s__Process) (tptp.s__documentation tptp.s__subProcess__m tptp.s__EnglishLanguage |tptp.'(&%subProcess ?SUBPROC ?PROC) means that ?SUBPROC is a subprocess of ?PROC. A subprocess is here understood as a temporally distinguished part (proper or not) of a &%Process.'|) (forall ((V__SUBPROC $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__SUBPROC tptp.s__Process)) (=> (tptp.s__subProcess V__SUBPROC V__PROC) (tptp.s__temporalPart (tptp.s__WhenFn V__SUBPROC) (tptp.s__WhenFn V__PROC))))) (tptp.s__subclass tptp.s__BiologicalProcess tptp.s__InternalChange) (tptp.s__documentation tptp.s__BiologicalProcess tptp.s__EnglishLanguage |tptp.'A &%Process embodied in an &%Organism.'|) (forall ((V__PROC $$unsorted)) (=> (tptp.s__instance V__PROC tptp.s__Process) (=> (tptp.s__instance V__PROC tptp.s__BiologicalProcess) (exists ((V__OBJ $$unsorted)) (and (tptp.s__instance V__OBJ tptp.s__Object) (tptp.s__instance V__OBJ tptp.s__Organism) (tptp.s__eventLocated V__PROC V__OBJ)))))) (forall ((V__ORG $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__ORG tptp.s__Agent)) (=> (and (tptp.s__instance V__PROC tptp.s__BiologicalProcess) (tptp.s__experiencer V__PROC V__ORG)) (tptp.s__instance V__ORG tptp.s__Organism)))) (tptp.s__subclass tptp.s__PhysiologicProcess tptp.s__BiologicalProcess) (tptp.s__instance tptp.s__PhysiologicProcess__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PhysiologicProcess tptp.s__EnglishLanguage |tptp.'A normal process of an &%Organism or part of an &%Organism.'|) (tptp.s__subclass tptp.s__AutonomicProcess tptp.s__PhysiologicProcess) (tptp.s__disjoint tptp.s__AutonomicProcess tptp.s__IntentionalProcess) (tptp.s__documentation tptp.s__AutonomicProcess tptp.s__EnglishLanguage |tptp.'The class of &%PhysiologicProcesses of which there is not conscious awareness and control.'|) (tptp.s__subclass tptp.s__OrganOrTissueProcess tptp.s__AutonomicProcess) (tptp.s__instance tptp.s__OrganOrTissueProcess__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__OrganOrTissueProcess tptp.s__OrganismProcess) (tptp.s__documentation tptp.s__OrganOrTissueProcess tptp.s__EnglishLanguage |tptp.'A &%PhysiologicProcess of a particular &%Organ or &%Tissue.'|) (forall ((V__PROC $$unsorted)) (=> (tptp.s__instance V__PROC tptp.s__Process) (=> (tptp.s__instance V__PROC tptp.s__OrganOrTissueProcess) (exists ((V__THING $$unsorted)) (and (tptp.s__instance V__THING tptp.s__Object) (tptp.s__eventLocated V__PROC V__THING) (or (tptp.s__instance V__THING tptp.s__Organ) (tptp.s__instance V__THING tptp.s__Tissue))))))) (tptp.s__subclass tptp.s__OrganismProcess tptp.s__PhysiologicProcess) (tptp.s__documentation tptp.s__OrganismProcess tptp.s__EnglishLanguage |tptp.'A physiologic function of the &%Organism as a whole, of multiple organ systems or of multiple &%Organs or &%Tissues.'|) (tptp.s__subclass tptp.s__Birth tptp.s__OrganismProcess) (tptp.s__instance tptp.s__Birth__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__OrganismProcess__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Birth tptp.s__EnglishLanguage |tptp.'The &%Process of being born.'|) (forall ((V__AGENT $$unsorted) (V__BIRTH $$unsorted)) (=> (and (tptp.s__instance V__BIRTH tptp.s__Process) (tptp.s__instance V__AGENT tptp.s__Agent)) (=> (and (tptp.s__instance V__BIRTH tptp.s__Birth) (tptp.s__experiencer V__BIRTH V__AGENT)) (exists ((V__DEATH $$unsorted)) (and (tptp.s__instance V__DEATH tptp.s__Process) (tptp.s__instance V__DEATH tptp.s__Death) (tptp.s__experiencer V__DEATH V__AGENT)))))) (tptp.s__subclass tptp.s__Death tptp.s__OrganismProcess) (tptp.s__instance tptp.s__Death__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Death tptp.s__EnglishLanguage |tptp.'The &%Process of dying.'|) (tptp.s__subclass tptp.s__Breathing tptp.s__OrganismProcess) (tptp.s__subclass tptp.s__Breathing tptp.s__AutonomicProcess) (tptp.s__instance tptp.s__Breathing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Breathing tptp.s__EnglishLanguage |tptp.'The &%Process of respiration, by which oxygen is made available to an &%Animal. This covers processes of inhalation, exhalation, and alternations between the two.'|) (tptp.s__subclass tptp.s__Ingesting tptp.s__OrganismProcess) (tptp.s__documentation tptp.s__Ingesting tptp.s__EnglishLanguage |tptp.'The &%Process by which food is taken into an &%Animal.'|) (forall ((V__ACT $$unsorted) (V__FOOD $$unsorted)) (=> (and (tptp.s__instance V__FOOD tptp.s__Object) (tptp.s__instance V__ACT tptp.s__Process)) (=> (and (tptp.s__instance V__ACT tptp.s__Ingesting) (tptp.s__resource V__ACT V__FOOD)) (tptp.s__instance V__FOOD (tptp.s__FoodForFn tptp.s__Organism))))) (tptp.s__subclass tptp.s__Eating tptp.s__Ingesting) (tptp.s__instance tptp.s__Eating__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Eating tptp.s__EnglishLanguage |tptp.'The &%Process by which solid food is incorporated into an &%Animal.'|) (forall ((V__ACT $$unsorted) (V__FOOD $$unsorted)) (=> (and (tptp.s__instance V__FOOD tptp.s__Object) (tptp.s__instance V__ACT tptp.s__Process)) (=> (and (tptp.s__instance V__ACT tptp.s__Eating) (tptp.s__resource V__ACT V__FOOD)) (tptp.s__attribute V__FOOD tptp.s__Solid)))) (tptp.s__subclass tptp.s__Drinking tptp.s__Ingesting) (tptp.s__instance tptp.s__Drinking__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Ingesting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Drinking tptp.s__EnglishLanguage |tptp.'The &%Process by which liquid food, i.e. &%Beverages, are incorporated into an &%Animal.'|) (forall ((V__ACT $$unsorted) (V__FOOD $$unsorted)) (=> (and (tptp.s__instance V__FOOD tptp.s__Object) (tptp.s__instance V__ACT tptp.s__Process)) (=> (and (tptp.s__instance V__ACT tptp.s__Drinking) (tptp.s__resource V__ACT V__FOOD)) (tptp.s__attribute V__FOOD tptp.s__Liquid)))) (tptp.s__subclass tptp.s__Digesting tptp.s__OrganismProcess) (tptp.s__instance tptp.s__Digesting__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Digesting tptp.s__AutonomicProcess) (tptp.s__documentation tptp.s__Digesting tptp.s__EnglishLanguage |tptp.'The &%Process by which &%Food that has been ingested is broken down into simpler chemical compounds and absorbed by the &%Organism.'|) (forall ((V__ORGANISM $$unsorted) (V__DIGEST $$unsorted)) (=> (and (tptp.s__instance V__DIGEST tptp.s__Process) (tptp.s__instance V__ORGANISM tptp.s__Agent)) (=> (and (tptp.s__instance V__DIGEST tptp.s__Digesting) (tptp.s__agent V__DIGEST V__ORGANISM)) (exists ((V__INGEST $$unsorted)) (and (tptp.s__instance V__INGEST tptp.s__Process) (tptp.s__instance V__INGEST tptp.s__Ingesting) (tptp.s__agent V__INGEST V__ORGANISM) (tptp.s__overlapsTemporally (tptp.s__WhenFn V__INGEST) (tptp.s__WhenFn V__DIGEST))))))) (forall ((V__DIGEST $$unsorted)) (=> (tptp.s__instance V__DIGEST tptp.s__Process) (=> (tptp.s__instance V__DIGEST tptp.s__Digesting) (exists ((V__DECOMP $$unsorted)) (and (tptp.s__instance V__DECOMP tptp.s__Process) (tptp.s__instance V__DECOMP tptp.s__ChemicalDecomposition) (tptp.s__subProcess V__DECOMP V__DIGEST)))))) (tptp.s__subclass tptp.s__Growth tptp.s__AutonomicProcess) (tptp.s__instance tptp.s__Growth__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__AutonomicProcess__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Growth tptp.s__EnglishLanguage |tptp.'The &%Process of biological development in which an &%Organism or part of an &%Organism changes its form or its size.'|) (tptp.s__subclass tptp.s__Replication tptp.s__OrganismProcess) (tptp.s__documentation tptp.s__Replication tptp.s__EnglishLanguage |tptp.'The &%Process of biological reproduction. This can be either a sexual or an asexual process.'|) (forall ((V__CHILD $$unsorted) (V__REP $$unsorted) (V__PARENT $$unsorted)) (=> (and (tptp.s__instance V__PARENT tptp.s__Organism) (tptp.s__instance V__REP tptp.s__Process) (tptp.s__instance V__CHILD tptp.s__Organism)) (=> (and (tptp.s__instance V__REP tptp.s__Replication) (tptp.s__agent V__REP V__PARENT) (tptp.s__result V__REP V__CHILD)) (tptp.s__parent V__CHILD V__PARENT)))) (forall ((V__REP $$unsorted)) (=> (tptp.s__instance V__REP tptp.s__Process) (=> (tptp.s__instance V__REP tptp.s__Replication) (exists ((V__BODY $$unsorted)) (and (tptp.s__instance V__BODY tptp.s__ReproductiveBody) (tptp.s__result V__REP V__BODY)))))) (tptp.s__subclass tptp.s__SexualReproduction tptp.s__Replication) (tptp.s__instance tptp.s__SexualReproduction__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Replication__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__SexualReproduction tptp.s__AsexualReproduction) (tptp.s__documentation tptp.s__SexualReproduction tptp.s__EnglishLanguage |tptp.'Sexual &%Processes of biological reproduction.'|) (forall ((V__ORGANISM $$unsorted) (V__REP $$unsorted)) (=> (and (tptp.s__instance V__REP tptp.s__Process) (tptp.s__instance V__ORGANISM tptp.s__Organism)) (=> (and (tptp.s__instance V__REP tptp.s__SexualReproduction) (tptp.s__result V__REP V__ORGANISM)) (exists ((V__MOTHER $$unsorted) (V__FATHER $$unsorted)) (and (tptp.s__instance V__FATHER tptp.s__Organism) (tptp.s__instance V__MOTHER tptp.s__Organism) (tptp.s__mother V__ORGANISM V__MOTHER) (tptp.s__father V__ORGANISM V__FATHER)))))) (tptp.s__subclass tptp.s__AsexualReproduction tptp.s__Replication) (tptp.s__instance tptp.s__AsexualReproduction__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AsexualReproduction tptp.s__EnglishLanguage |tptp.'Asexual &%Processes of biological reproduction.'|) (forall ((V__PARENT2 $$unsorted) (V__ORGANISM $$unsorted) (V__PARENT1 $$unsorted) (V__REP $$unsorted)) (=> (and (tptp.s__instance V__REP tptp.s__Process) (tptp.s__instance V__PARENT1 tptp.s__Organism) (tptp.s__instance V__ORGANISM tptp.s__Organism) (tptp.s__instance V__PARENT2 tptp.s__Organism)) (=> (and (tptp.s__instance V__REP tptp.s__AsexualReproduction) (tptp.s__result V__REP V__ORGANISM) (tptp.s__parent V__ORGANISM V__PARENT1) (tptp.s__parent V__ORGANISM V__PARENT2)) (= V__PARENT1 V__PARENT2)))) (tptp.s__subclass tptp.s__PsychologicalProcess tptp.s__BiologicalProcess) (tptp.s__documentation tptp.s__PsychologicalProcess tptp.s__EnglishLanguage |tptp.'A &%BiologicalProcess which takes place in the mind or brain of an &%Organism and which may be manifested in the behavior of the &%Organism.'|) (forall ((V__PROCESS $$unsorted)) (=> (tptp.s__instance V__PROCESS tptp.s__Process) (=> (tptp.s__instance V__PROCESS tptp.s__PsychologicalProcess) (exists ((V__ANIMAL $$unsorted)) (and (tptp.s__instance V__ANIMAL tptp.s__Agent) (tptp.s__instance V__ANIMAL tptp.s__Animal) (tptp.s__experiencer V__PROCESS V__ANIMAL)))))) (tptp.s__subclass tptp.s__PathologicProcess tptp.s__BiologicalProcess) (tptp.s__instance tptp.s__PathologicProcess__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__BiologicalProcess__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__PathologicProcess tptp.s__PhysiologicProcess) (tptp.s__documentation tptp.s__PathologicProcess tptp.s__EnglishLanguage |tptp.'A disordered process, activity, or state of the &%Organism as a whole, of a body system or systems, or of multiple &%Organs or &%Tissues. Included here are normal responses to a negative stimulus as well as patholologic conditions or states that are less specific than a disease. Pathologic functions frequently have systemic effects.'|) (forall ((V__PATH $$unsorted) (V__ORG $$unsorted)) (=> (and (tptp.s__instance V__ORG tptp.s__Agent) (tptp.s__instance V__PATH tptp.s__Process)) (=> (and (tptp.s__instance V__PATH tptp.s__PathologicProcess) (tptp.s__experiencer V__PATH V__ORG)) (exists ((V__PART $$unsorted) (V__DISEASE $$unsorted)) (and (tptp.s__instance V__DISEASE tptp.s__Attribute) (tptp.s__instance V__PART tptp.s__Object) (tptp.s__part V__PART V__ORG) (tptp.s__instance V__DISEASE tptp.s__DiseaseOrSyndrome) (tptp.s__attribute V__PART V__DISEASE)))))) (tptp.s__subclass tptp.s__Injuring tptp.s__PathologicProcess) (tptp.s__subclass tptp.s__Injuring tptp.s__Damaging) (tptp.s__instance tptp.s__Injuring__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Damaging__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Injuring tptp.s__EnglishLanguage |tptp.'The process of creating a traumatic wound or injury. Since &%Injuring is not possible without some biologic function of the organism being injured, it is a subclass of &%BiologicalProcess.'|) (forall ((V__INJ $$unsorted)) (=> (tptp.s__instance V__INJ tptp.s__Process) (=> (tptp.s__instance V__INJ tptp.s__Injuring) (exists ((V__STRUCT $$unsorted)) (and (tptp.s__instance V__STRUCT tptp.s__AnatomicalStructure) (tptp.s__patient V__INJ V__STRUCT)))))) (forall ((V__INJ $$unsorted)) (=> (tptp.s__instance V__INJ tptp.s__Process) (= (tptp.s__instance V__INJ tptp.s__Injuring) (and (tptp.s__instance V__INJ tptp.s__Damaging) (exists ((V__ORGANISM $$unsorted)) (and (tptp.s__instance V__ORGANISM tptp.s__Organism) (tptp.s__patient V__INJ V__ORGANISM))))))) (tptp.s__subclass tptp.s__Poisoning tptp.s__Injuring) (tptp.s__instance tptp.s__Poisoning__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Poisoning tptp.s__EnglishLanguage |tptp.'A &%Poisoning is caused by an external substance. Since &%Poisoning is not possible without some biologic function which affects the &%Organism being injured, it is a subclass of &%BiologicalProcess.'|) (forall ((V__POISON $$unsorted)) (=> (tptp.s__instance V__POISON tptp.s__Process) (=> (tptp.s__instance V__POISON tptp.s__Poisoning) (exists ((V__THING $$unsorted)) (and (tptp.s__patient V__POISON V__THING) (or (tptp.s__instance V__THING tptp.s__Organism) (tptp.s__instance V__THING tptp.s__AnatomicalStructure))))))) (forall ((V__POISON $$unsorted)) (=> (tptp.s__instance V__POISON tptp.s__Process) (=> (tptp.s__instance V__POISON tptp.s__Poisoning) (exists ((V__SUBSTANCE $$unsorted)) (and (tptp.s__instance V__SUBSTANCE tptp.s__Object) (tptp.s__instance V__SUBSTANCE tptp.s__BiologicallyActiveSubstance) (tptp.s__instrument V__POISON V__SUBSTANCE)))))) (tptp.s__documentation tptp.s__NaturalProcess tptp.s__EnglishLanguage |tptp.'A &%Process that take place in nature spontanously.'|) (tptp.s__subclass tptp.s__NaturalProcess tptp.s__Process) (tptp.s__instance tptp.s__NaturalProcess__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__NaturalProcess tptp.s__IntentionalProcess) (tptp.s__subclass tptp.s__IntentionalProcess tptp.s__Process) (tptp.s__documentation tptp.s__IntentionalProcess tptp.s__EnglishLanguage |tptp.'A &%Process that has a specific purpose for the &%CognitiveAgent who performs it.'|) (forall ((V__AGENT $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__AGENT tptp.s__CognitiveAgent)) (=> (and (tptp.s__instance V__PROC tptp.s__IntentionalProcess) (tptp.s__agent V__PROC V__AGENT)) (exists ((V__PURP $$unsorted)) (and (tptp.s__instance V__PURP tptp.s__Formula) (tptp.s__hasPurposeForAgent V__PROC V__PURP V__AGENT)))))) (forall ((V__PROC $$unsorted)) (=> (tptp.s__instance V__PROC tptp.s__Process) (=> (tptp.s__instance V__PROC tptp.s__IntentionalProcess) (exists ((V__AGENT $$unsorted)) (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__agent V__PROC V__AGENT)))))) (tptp.s__subclass tptp.s__IntentionalPsychologicalProcess tptp.s__IntentionalProcess) (tptp.s__subclass tptp.s__IntentionalPsychologicalProcess tptp.s__PsychologicalProcess) (tptp.s__instance tptp.s__PsychologicalProcess__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__IntentionalPsychologicalProcess tptp.s__EnglishLanguage |tptp.'An &%IntentionalProcess that can be realized entirely within the mind or brain of an &%Organism. Thus, for example, &%Reasoning is a subclass of &%IntentionalPsychologicalProcess, because one can reason simply by exercising ones mind/brain. On the other hand, &%RecreationOrExercise is not a subclass of &%IntentionalPsychologicalProcess, because many instances of &%RecreationOrExercise necessarily have &%subProcesses of &%BodyMotion.'|) (tptp.s__subclass tptp.s__RecreationOrExercise tptp.s__IntentionalProcess) (tptp.s__instance tptp.s__RecreationOrExercise__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__RecreationOrExercise tptp.s__EnglishLanguage |tptp.'A &%Process that is carried out for the purpose of recreation or exercise. Since &%RecreationOrExercise is a subclass of &%IntentionalProcess, the intent of a process determines whether or not it is an instance of the class. Hence, if John and Bill watch the same program on television, and John watches it to relax while Bill watches it solely to satisfy an educational requirement, then Johns watching the movie is an instance of &%RecreationOrExercise, while Bills is not (both cases of watching the television program would however be in the class of &%Seeing, since being an instance of this latter class is not determined by intention).'|) (tptp.s__subclass tptp.s__OrganizationalProcess tptp.s__IntentionalProcess) (tptp.s__documentation tptp.s__OrganizationalProcess tptp.s__EnglishLanguage |tptp.'An &%IntentionalProcess that involves an &%Organization.'|) (forall ((V__ACT $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__AGENT tptp.s__SelfConnectedObject) (tptp.s__instance V__ACT tptp.s__Process)) (=> (and (tptp.s__instance V__ACT tptp.s__OrganizationalProcess) (tptp.s__agent V__ACT V__AGENT)) (or (tptp.s__instance V__AGENT tptp.s__Organization) (exists ((V__ORG $$unsorted)) (and (tptp.s__instance V__ORG tptp.s__Collection) (tptp.s__instance V__ORG tptp.s__Organization) (tptp.s__member V__AGENT V__ORG))))))) (tptp.s__subclass tptp.s__Election tptp.s__OrganizationalProcess) (tptp.s__instance tptp.s__Election__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Election tptp.s__EnglishLanguage |tptp.'&%Election is the class of events conducted by an organization, in which qualified participants vote for officers, adopt resolutions, or settle other issues in that &%Organization.'|) (tptp.s__subclass tptp.s__ReligiousProcess tptp.s__OrganizationalProcess) (tptp.s__instance tptp.s__ReligiousProcess__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ReligiousProcess tptp.s__EnglishLanguage |tptp.'An &%OrganizationalProcess that is carried out within or by a &%ReligiousOrganization.'|) (forall ((V__ACT $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__AGENT tptp.s__SelfConnectedObject) (tptp.s__instance V__ACT tptp.s__Process)) (=> (and (tptp.s__instance V__ACT tptp.s__ReligiousProcess) (tptp.s__agent V__ACT V__AGENT)) (or (tptp.s__instance V__AGENT tptp.s__ReligiousOrganization) (exists ((V__ORG $$unsorted)) (and (tptp.s__instance V__ORG tptp.s__Collection) (tptp.s__member V__AGENT V__ORG) (tptp.s__instance V__ORG tptp.s__ReligiousOrganization))))))) (tptp.s__subclass tptp.s__JoiningAnOrganization tptp.s__OrganizationalProcess) (tptp.s__instance tptp.s__JoiningAnOrganization__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__JoiningAnOrganization tptp.s__EnglishLanguage |tptp.'The &%OrganizationalProcess of becoming a &%member of an &%Organization.'|) (tptp.s__subclass tptp.s__LeavingAnOrganization tptp.s__OrganizationalProcess) (tptp.s__disjoint tptp.s__LeavingAnOrganization tptp.s__JoiningAnOrganization) (tptp.s__documentation tptp.s__LeavingAnOrganization tptp.s__EnglishLanguage |tptp.'The &%OrganizationalProcess of leaving an &%Organization, whether voluntarily or involuntarily.'|) (tptp.s__subclass tptp.s__Graduation tptp.s__LeavingAnOrganization) (tptp.s__instance tptp.s__Graduation__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__LeavingAnOrganization__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Graduation tptp.s__EnglishLanguage |tptp.'The &%OrganizationalProcess of graduating from an &%EducationalOrganization.'|) (forall ((V__ORG $$unsorted) (V__GRAD $$unsorted)) (=> (and (tptp.s__instance V__GRAD tptp.s__Process) (tptp.s__instance V__ORG tptp.s__Agent)) (=> (and (tptp.s__instance V__GRAD tptp.s__Graduation) (tptp.s__agent V__GRAD V__ORG)) (tptp.s__instance V__ORG tptp.s__EducationalOrganization)))) (tptp.s__subclass tptp.s__Matriculation tptp.s__JoiningAnOrganization) (tptp.s__instance tptp.s__Matriculation__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Matriculation tptp.s__EnglishLanguage |tptp.'The &%OrganizationalProcess of joining an &%EducationalOrganization as a student.'|) (forall ((V__MAT $$unsorted) (V__ORG $$unsorted)) (=> (and (tptp.s__instance V__ORG tptp.s__Agent) (tptp.s__instance V__MAT tptp.s__Process)) (=> (and (tptp.s__instance V__MAT tptp.s__Matriculation) (tptp.s__agent V__MAT V__ORG)) (tptp.s__instance V__ORG tptp.s__EducationalOrganization)))) (tptp.s__subclass tptp.s__Hiring tptp.s__JoiningAnOrganization) (tptp.s__instance tptp.s__Hiring__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Hiring tptp.s__EnglishLanguage |tptp.'&%OrganizationalProcesses where someone is made an employee of an &%Organization.'|) (tptp.s__subclass tptp.s__TerminatingEmployment tptp.s__LeavingAnOrganization) (tptp.s__instance tptp.s__TerminatingEmployment__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TerminatingEmployment tptp.s__EnglishLanguage |tptp.'&%OrganizationalProcesses where someone ceases to be an employee of an &%Organization. Note that this covers being laid off, being fired, and voluntarily leaving a job.'|) (tptp.s__subclass tptp.s__PoliticalProcess tptp.s__OrganizationalProcess) (tptp.s__instance tptp.s__PoliticalProcess__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__OrganizationalProcess__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PoliticalProcess tptp.s__EnglishLanguage |tptp.'An &%OrganizationalProcess carried out by, for or against officially constituted governments. Some examples would be voting on proposed legislation, electing a government representative, or even overthrowing a government in a revolution.'|) (forall ((V__PROC $$unsorted)) (=> (tptp.s__instance V__PROC tptp.s__Process) (=> (tptp.s__instance V__PROC tptp.s__PoliticalProcess) (exists ((V__POL $$unsorted)) (and (tptp.s__instance V__POL tptp.s__Agent) (or (tptp.s__instance V__POL tptp.s__Government) (exists ((V__GOV $$unsorted)) (and (tptp.s__instance V__GOV tptp.s__Collection) (tptp.s__instance V__POL tptp.s__SelfConnectedObject) (tptp.s__instance V__GOV tptp.s__Government) (tptp.s__member V__POL V__GOV)))) (or (tptp.s__agent V__PROC V__POL) (tptp.s__patient V__PROC V__POL))))))) (tptp.s__subclass tptp.s__JudicialProcess tptp.s__PoliticalProcess) (tptp.s__documentation tptp.s__JudicialProcess tptp.s__EnglishLanguage |tptp.'Any legal proceeding which is conducted by a &%JudicialOrganization. Note that there is an important difference between the concepts &%LegalAction and &%JudicialProcess. The former refers to legal claims that are brought by a plaintiff, e.g. law suits, while the second refers to trials and other sorts of judicial hearings where the merits of a &%LegalAction are decided.'|) (forall ((V__ORG $$unsorted) (V__PROCESS $$unsorted)) (=> (and (tptp.s__instance V__PROCESS tptp.s__Process) (tptp.s__instance V__ORG tptp.s__Agent)) (=> (and (tptp.s__instance V__PROCESS tptp.s__JudicialProcess) (tptp.s__agent V__PROCESS V__ORG) (tptp.s__instance V__ORG tptp.s__Organization)) (tptp.s__instance V__ORG tptp.s__JudicialOrganization)))) (tptp.s__subclass tptp.s__LegalDecision tptp.s__JudicialProcess) (tptp.s__instance tptp.s__LegalDecision__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__JudicialProcess__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__LegalDecision tptp.s__Declaring) (tptp.s__documentation tptp.s__LegalDecision tptp.s__EnglishLanguage |tptp.'A decision issued by a court with respect to a &%LegalAction. Note that a &%LegalDecision is the act of &%Declaring a decision of a court, it is not the act of judge or jury &%Deciding the merits of a particular &%LegalAction.'|) (forall ((V__DECISION $$unsorted)) (=> (tptp.s__instance V__DECISION tptp.s__LegalDecision) (exists ((V__ACTION $$unsorted)) (and (tptp.s__instance V__ACTION tptp.s__LegalAction) (tptp.s__refers V__DECISION V__ACTION))))) (forall ((V__DECISION $$unsorted)) (=> (tptp.s__instance V__DECISION tptp.s__Physical) (=> (tptp.s__instance V__DECISION tptp.s__LegalDecision) (exists ((V__DECIDE $$unsorted)) (and (tptp.s__instance V__DECIDE tptp.s__Physical) (tptp.s__instance V__DECIDE tptp.s__Deciding) (tptp.s__earlier (tptp.s__WhenFn V__DECIDE) (tptp.s__WhenFn V__DECISION))))))) (tptp.s__subclass tptp.s__MilitaryProcess tptp.s__PoliticalProcess) (tptp.s__instance tptp.s__MilitaryProcess__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__MilitaryProcess tptp.s__OrganizationalProcess) (tptp.s__documentation tptp.s__MilitaryProcess tptp.s__EnglishLanguage |tptp.'Any &%Process that is carried out by a military organization. Note that this class covers &%Processes, e.g. military operations, that are the result of careful planning, as well as those which are unscripted.'|) (tptp.s__subclass tptp.s__RegulatoryProcess tptp.s__Guiding) (tptp.s__instance tptp.s__RegulatoryProcess__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__RegulatoryProcess tptp.s__EnglishLanguage |tptp.'an &%Guiding whose aim is the enforcement of rules or regulations. Note the key differences between &%RegulatoryProcess and the related concept &%Managing. The latter implies a long-term relationship between a single manager and limited number of agents who are managed, while the former implies a normative standard to which the activities of the regulated are referred.'|) (tptp.s__subclass tptp.s__Managing tptp.s__OrganizationalProcess) (tptp.s__subclass tptp.s__Managing tptp.s__Guiding) (tptp.s__instance tptp.s__Managing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Managing tptp.s__EnglishLanguage |tptp.'&%OrganizationalProcesses that involve overseeing the activities of others. Note the key differences between &%RegulatoryProcess and its sibling &%Managing. The latter implies a long-term relationship between the manager and the managed, while the former implies a normative standard to which the activities of the regulated are referred.'|) (tptp.s__subclass tptp.s__Planning tptp.s__IntentionalPsychologicalProcess) (tptp.s__instance tptp.s__Planning__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Planning tptp.s__EnglishLanguage |tptp.'Specifying a set of actions in order to meet a set of goals or objectives.'|) (forall ((V__EVENT $$unsorted) (V__CBO $$unsorted)) (=> (and (tptp.s__instance V__CBO tptp.s__ContentBearingPhysical) (tptp.s__instance V__EVENT tptp.s__Process)) (=> (and (tptp.s__instance V__EVENT tptp.s__Planning) (tptp.s__result V__EVENT V__CBO) (tptp.s__instance V__CBO tptp.s__ContentBearingObject)) (exists ((V__PLAN $$unsorted)) (and (tptp.s__instance V__PLAN tptp.s__Proposition) (tptp.s__instance V__PLAN tptp.s__Plan) (tptp.s__containsInformation V__CBO V__PLAN)))))) (tptp.s__subclass tptp.s__Designing tptp.s__IntentionalPsychologicalProcess) (tptp.s__instance tptp.s__Designing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Designing tptp.s__EnglishLanguage |tptp.'The spatial analogue of &%Planning. &%Designing a &%Collection of &%Objects involves determining a placement of the &%Objects with respect to one another and perhaps other &%Objects as well, in order to satisfy a particular purpose.'|) (tptp.s__subclass tptp.s__Interpreting tptp.s__IntentionalPsychologicalProcess) (tptp.s__instance tptp.s__Interpreting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Interpreting tptp.s__EnglishLanguage |tptp.'Any &%Process of assigning a &%Proposition to a &%Text, i.e. understanding the &%Text.'|) (tptp.s__subclass tptp.s__QuantityChange tptp.s__InternalChange) (tptp.s__partition_3 tptp.s__QuantityChange tptp.s__Increasing tptp.s__Decreasing) (tptp.s__documentation tptp.s__QuantityChange tptp.s__EnglishLanguage |tptp.'Any &%InternalChange where a &%PhysicalQuantity associated with the &%patient is altered.'|) (tptp.s__subclass tptp.s__Increasing tptp.s__QuantityChange) (tptp.s__relatedInternalConcept tptp.s__Increasing tptp.s__Putting) (tptp.s__documentation tptp.s__Increasing tptp.s__EnglishLanguage |tptp.'Any &%QuantityChange where the &%PhysicalQuantity is increased.'|) (forall ((V__OBJ $$unsorted) (V__INCREASE $$unsorted)) (=> (and (tptp.s__instance V__INCREASE tptp.s__Process) (tptp.s__instance V__OBJ tptp.s__RealNumber)) (=> (and (tptp.s__instance V__INCREASE tptp.s__Increasing) (tptp.s__patient V__INCREASE V__OBJ)) (exists ((V__UNIT $$unsorted) (V__QUANT1 $$unsorted) (V__QUANT2 $$unsorted)) (let ((_let_1 (tptp.s__WhenFn V__INCREASE))) (and (tptp.s__instance V__QUANT2 tptp.s__Quantity) (tptp.s__instance V__QUANT1 tptp.s__Quantity) (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (tptp.s__holdsDuring (tptp.s__BeginFn _let_1) |tptp.'(s__MeasureFn(V__OBJ,V__UNIT) = V__QUANT1)'|) (tptp.s__holdsDuring (tptp.s__EndFn _let_1) |tptp.'(s__MeasureFn(V__OBJ,V__UNIT) = V__QUANT2)'|) (tptp.greater V__QUANT2 V__QUANT1))))))) (tptp.s__subclass tptp.s__Heating tptp.s__Increasing) (tptp.s__instance tptp.s__Heating__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Increasing__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__Heating tptp.s__Cooling) (tptp.s__documentation tptp.s__Heating tptp.s__EnglishLanguage |tptp.'Any &%Increasing &%Process where the &%PhysicalQuantity increased is a &%TemperatureMeasure.'|) (forall ((V__HEAT $$unsorted) (V__OBJ $$unsorted)) (=> (and (tptp.s__instance V__OBJ tptp.s__RealNumber) (tptp.s__instance V__HEAT tptp.s__Process)) (=> (and (tptp.s__instance V__HEAT tptp.s__Heating) (tptp.s__patient V__HEAT V__OBJ)) (exists ((V__UNIT $$unsorted) (V__QUANT1 $$unsorted) (V__QUANT2 $$unsorted)) (let ((_let_1 (tptp.s__WhenFn V__HEAT))) (and (tptp.s__instance V__QUANT2 tptp.s__Quantity) (tptp.s__instance V__QUANT1 tptp.s__Quantity) (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (tptp.s__instance V__UNIT tptp.s__TemperatureMeasure) (tptp.s__holdsDuring (tptp.s__BeginFn _let_1) |tptp.'(s__MeasureFn(V__OBJ,V__UNIT) = V__QUANT1)'|) (tptp.s__holdsDuring (tptp.s__EndFn _let_1) |tptp.'(s__MeasureFn(V__OBJ,V__UNIT) = V__QUANT2)'|) (tptp.greater V__QUANT2 V__QUANT1))))))) (tptp.s__subclass tptp.s__Decreasing tptp.s__QuantityChange) (tptp.s__instance tptp.s__QuantityChange__t tptp.s__SetOrClass) (tptp.s__relatedInternalConcept tptp.s__Decreasing tptp.s__Removing) (tptp.s__documentation tptp.s__Decreasing tptp.s__EnglishLanguage |tptp.'Any &%QuantityChange where the &%PhysicalQuantity is decreased.'|) (forall ((V__OBJ $$unsorted) (V__DECREASE $$unsorted)) (=> (and (tptp.s__instance V__DECREASE tptp.s__Process) (tptp.s__instance V__OBJ tptp.s__RealNumber)) (=> (and (tptp.s__instance V__DECREASE tptp.s__Decreasing) (tptp.s__patient V__DECREASE V__OBJ)) (exists ((V__UNIT $$unsorted) (V__QUANT1 $$unsorted) (V__QUANT2 $$unsorted)) (let ((_let_1 (tptp.s__WhenFn V__DECREASE))) (and (tptp.s__instance V__QUANT2 tptp.s__Quantity) (tptp.s__instance V__QUANT1 tptp.s__Quantity) (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (tptp.s__holdsDuring (tptp.s__BeginFn _let_1) |tptp.'(s__MeasureFn(V__OBJ,V__UNIT) = V__QUANT1)'|) (tptp.s__holdsDuring (tptp.s__EndFn _let_1) |tptp.'(s__MeasureFn(V__OBJ,V__UNIT) = V__QUANT2)'|) (tptp.less V__QUANT2 V__QUANT1))))))) (tptp.s__subclass tptp.s__Cooling tptp.s__Decreasing) (tptp.s__instance tptp.s__Cooling__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Decreasing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Cooling tptp.s__EnglishLanguage |tptp.'Any &%Decreasing &%Process where the &%PhysicalQuantity decreased is a &%TemperatureMeasure.'|) (forall ((V__COOL $$unsorted) (V__OBJ $$unsorted)) (=> (and (tptp.s__instance V__OBJ tptp.s__RealNumber) (tptp.s__instance V__COOL tptp.s__Process)) (=> (and (tptp.s__instance V__COOL tptp.s__Cooling) (tptp.s__patient V__COOL V__OBJ)) (exists ((V__UNIT $$unsorted) (V__QUANT1 $$unsorted) (V__QUANT2 $$unsorted)) (let ((_let_1 (tptp.s__WhenFn V__COOL))) (and (tptp.s__instance V__QUANT2 tptp.s__Quantity) (tptp.s__instance V__QUANT1 tptp.s__Quantity) (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (tptp.s__instance V__UNIT tptp.s__TemperatureMeasure) (tptp.s__holdsDuring (tptp.s__BeginFn _let_1) |tptp.'(s__MeasureFn(V__OBJ,V__UNIT) = V__QUANT1)'|) (tptp.s__holdsDuring (tptp.s__EndFn _let_1) |tptp.'(s__MeasureFn(V__OBJ,V__UNIT) = V__QUANT2)'|) (tptp.less V__QUANT2 V__QUANT1))))))) (tptp.s__instance tptp.s__moves__m tptp.s__CaseRole) (tptp.s__domain tptp.s__moves__m |"1"| tptp.s__Motion) (tptp.s__domain tptp.s__moves__m |"2"| tptp.s__Object) (tptp.s__documentation tptp.s__moves__m tptp.s__EnglishLanguage |tptp.'(&%moves ?MOTION ?OBJECT) means that during the &%Motion event ?MOTION, ?OBJECT moves. This does not necessarily imply that the location of ?OBJECT changes during ?MOTION. See also &%changesLocation and &%Translocation.'|) (tptp.s__subrelation tptp.s__moves__m tptp.s__involvedInEvent__m) (tptp.s__instance tptp.s__changesLocation__m tptp.s__CaseRole) (tptp.s__domain tptp.s__changesLocation__m |"1"| tptp.s__Translocation) (tptp.s__domain tptp.s__changesLocation__m |"2"| tptp.s__Object) (tptp.s__documentation tptp.s__changesLocation__m tptp.s__EnglishLanguage |tptp.'(&%changesLocation ?EVENT ?OBJECT) means that during the &%Translocation event ?EVENT, ?OBJECTs location changes. ?OBJECT might also be the &%agent, &%patient, or &%experiencer of ?EVENT.'|) (tptp.s__subrelation tptp.s__changesLocation__m tptp.s__moves__m) (tptp.s__subclass tptp.s__Motion tptp.s__Process) (tptp.s__instance tptp.s__Motion__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Process__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Motion tptp.s__EnglishLanguage |tptp.'Any &%Process of movement.'|) (forall ((V__MOTION $$unsorted)) (=> (tptp.s__instance V__MOTION tptp.s__Motion) (exists ((V__OBJ $$unsorted)) (and (tptp.s__instance V__OBJ tptp.s__Object) (tptp.s__moves V__MOTION V__OBJ))))) (tptp.s__subclass tptp.s__MotionUpward tptp.s__Motion) (tptp.s__instance tptp.s__MotionUpward__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__MotionUpward tptp.s__MotionDownward) (tptp.s__documentation tptp.s__MotionUpward tptp.s__EnglishLanguage |tptp.'&%Motion where an &%Object is moving away from the ground.'|) (tptp.s__subclass tptp.s__MotionDownward tptp.s__Motion) (tptp.s__instance tptp.s__MotionDownward__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MotionDownward tptp.s__EnglishLanguage |tptp.'&%Motion where an &%Object is moving toward the ground.'|) (tptp.s__instance tptp.s__path__m tptp.s__CaseRole) (tptp.s__subrelation tptp.s__path__m tptp.s__eventPartlyLocated__m) (tptp.s__domain tptp.s__path__m |"1"| tptp.s__Motion) (tptp.s__domain tptp.s__path__m |"2"| tptp.s__Object) (tptp.s__documentation tptp.s__path__m tptp.s__EnglishLanguage |tptp.'(&%path ?MOTION ?PATH) means that ?PATH is a route along which ?MOTION occurs. For example, Highway 101 is the path in the following proposition: the car drove up Highway 101.'|) (forall ((V__PATH1 $$unsorted) (V__MEASURE1 $$unsorted) (V__PROCESS $$unsorted) (V__DISTANCE $$unsorted) (V__SOURCE $$unsorted) (V__DEST $$unsorted)) (=> (and (tptp.s__path V__PROCESS V__PATH1) (tptp.s__origin V__PROCESS V__SOURCE) (tptp.s__destination V__PROCESS V__DEST) (tptp.s__length V__PATH1 V__MEASURE1) (tptp.s__distance V__SOURCE V__DEST V__DISTANCE) (not (tptp.greater V__MEASURE1 V__DISTANCE))) (forall ((V__OBJ $$unsorted)) (=> (and (tptp.s__instance V__OBJ tptp.s__Object) (tptp.s__instance V__DEST tptp.s__Object) (tptp.s__instance V__SOURCE tptp.s__Object) (tptp.s__instance V__DISTANCE tptp.s__LengthMeasure) (tptp.s__instance V__PROCESS tptp.s__Motion) (tptp.s__instance V__MEASURE1 tptp.s__LengthMeasure) (tptp.s__instance V__PATH1 tptp.s__Object)) (=> (tptp.s__part V__OBJ V__PATH1) (tptp.s__between V__SOURCE V__OBJ V__DEST)))))) (tptp.s__subclass tptp.s__BodyMotion tptp.s__Motion) (tptp.s__documentation tptp.s__BodyMotion tptp.s__EnglishLanguage |tptp.'Any &%Motion where the &%agent is an &%Organism and the &%patient is a &%BodyPart.'|) (forall ((V__OBJ $$unsorted) (V__MOTION $$unsorted)) (=> (and (tptp.s__instance V__MOTION tptp.s__Motion) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (and (tptp.s__instance V__MOTION tptp.s__BodyMotion) (tptp.s__moves V__MOTION V__OBJ)) (and (tptp.s__instance V__OBJ tptp.s__BodyPart) (tptp.s__patient V__MOTION V__OBJ))))) (forall ((V__MOTION $$unsorted)) (=> (tptp.s__instance V__MOTION tptp.s__Process) (=> (tptp.s__instance V__MOTION tptp.s__BodyMotion) (exists ((V__AGENT $$unsorted)) (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__AGENT tptp.s__Organism) (tptp.s__agent V__MOTION V__AGENT)))))) (tptp.s__subclass tptp.s__VocalCords tptp.s__Organ) (tptp.s__instance tptp.s__VocalCords__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__VocalCords tptp.s__EnglishLanguage |tptp.'The vocal cords, are composed of two folds of mucous membrane stretched horizontally across the larynx. They vibrate, modulating the flow of air being expelled from the lungs during &%Vocalizing. '|) (tptp.s__typicalPart tptp.s__VocalCords tptp.s__Human) (tptp.s__typicallyContainsPart tptp.s__VocalCords tptp.s__Human) (tptp.s__initialPart tptp.s__VocalCords tptp.s__Human) (tptp.s__subclass tptp.s__Vocalizing tptp.s__RadiatingSound) (tptp.s__instance tptp.s__Vocalizing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Vocalizing tptp.s__EnglishLanguage |tptp.'Any instance of &%RadiatingSound where the instrument is the vocal cord. This covers grunts, screams, raors, as well as &%Speaking.'|) (forall ((V__VOCAL $$unsorted)) (=> (and (tptp.s__instance V__VOCAL tptp.s__Process) (tptp.s__instance V__VOCAL tptp.s__Object)) (=> (tptp.s__instance V__VOCAL tptp.s__Vocalizing) (exists ((V__CORD $$unsorted) (V__ORGANISM $$unsorted)) (and (tptp.s__instance V__ORGANISM tptp.s__Object) (tptp.s__instance V__CORD tptp.s__Object) (tptp.s__instance V__CORD tptp.s__VocalCords) (tptp.s__instrument V__VOCAL V__CORD) (tptp.s__part V__VOCAL V__ORGANISM) (tptp.s__instance V__ORGANISM tptp.s__Organism)))))) (tptp.s__subclass tptp.s__Speaking tptp.s__LinguisticCommunication) (tptp.s__instance tptp.s__Speaking__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Speaking tptp.s__Vocalizing) (tptp.s__documentation tptp.s__Speaking tptp.s__EnglishLanguage |tptp.'Any &%LinguisticCommunication by a &%Human which involves his/her vocal cords.'|) (tptp.s__subclass tptp.s__Ambulating tptp.s__BodyMotion) (tptp.s__instance tptp.s__BodyMotion__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Ambulating tptp.s__Translocation) (tptp.s__partition_3 tptp.s__Ambulating tptp.s__Walking tptp.s__Running) (tptp.s__documentation tptp.s__Ambulating tptp.s__EnglishLanguage |tptp.'Any &%BodyMotion which is accomplished by means of the legs of an &%Animal for the purpose of moving from one point to another.'|) (tptp.s__subclass tptp.s__Walking tptp.s__Ambulating) (tptp.s__instance tptp.s__Walking__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Walking tptp.s__EnglishLanguage |tptp.'&%Ambulating relatively slowly, i.e. moving in such a way that at least one foot is always in contact with the ground.'|) (tptp.s__subclass tptp.s__Running tptp.s__Ambulating) (tptp.s__instance tptp.s__Running__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Ambulating__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Running tptp.s__EnglishLanguage |tptp.'&%Ambulating relatively quickly, i.e. moving in such a way that, with each step, neither foot is in contact with the ground for a period of time.'|) (tptp.s__subclass tptp.s__Swimming tptp.s__BodyMotion) (tptp.s__instance tptp.s__Swimming__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Swimming tptp.s__EnglishLanguage |tptp.'Any deliberate and controlled &%BodyMotion through water that is accomplished by an &%Organism.'|) (forall ((V__AGENT $$unsorted) (V__SWIM $$unsorted)) (=> (and (tptp.s__instance V__SWIM tptp.s__Process) (tptp.s__instance V__AGENT tptp.s__Agent)) (=> (and (tptp.s__instance V__SWIM tptp.s__Swimming) (tptp.s__agent V__SWIM V__AGENT)) (exists ((V__AREA $$unsorted)) (and (tptp.s__instance V__AREA tptp.s__Object) (tptp.s__instance V__AREA tptp.s__WaterArea) (tptp.s__located V__AGENT V__AREA)))))) (tptp.s__subclass tptp.s__Dancing tptp.s__BodyMotion) (tptp.s__instance tptp.s__Dancing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Dancing tptp.s__EnglishLanguage |tptp.'Any &%BodyMotion of &%Humans which is deliberately coordinated with music.'|) (tptp.s__subclass tptp.s__GeologicalProcess tptp.s__Motion) (tptp.s__instance tptp.s__GeologicalProcess__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__GeologicalProcess tptp.s__InternalChange) (tptp.s__disjoint tptp.s__GeologicalProcess tptp.s__IntentionalProcess) (tptp.s__documentation tptp.s__GeologicalProcess tptp.s__EnglishLanguage |tptp.'The class of activities that are caused by geological forces and affect geological features, and which may affect the biosphere as well.'|) (tptp.s__subclass tptp.s__WeatherProcess tptp.s__Motion) (tptp.s__disjoint tptp.s__WeatherProcess tptp.s__IntentionalProcess) (tptp.s__documentation tptp.s__WeatherProcess tptp.s__EnglishLanguage |tptp.'&%WeatherProcess is the broadest class of processes that involve weather, including weather seasons (not to be confused with instances of &%SeasonOfYear), weather systems, and short-term weather events.'|) (tptp.s__subclass tptp.s__Precipitation tptp.s__WeatherProcess) (tptp.s__instance tptp.s__Precipitation__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__WeatherProcess__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Precipitation tptp.s__WaterMotion) (tptp.s__subclass tptp.s__Precipitation tptp.s__Falling) (tptp.s__documentation tptp.s__Precipitation tptp.s__EnglishLanguage |tptp.'&%Precipitation is the process of water molecules falling from the air to the ground, in either a liquid or frozen state.'|) (forall ((V__PROCESS $$unsorted)) (=> (tptp.s__instance V__PROCESS tptp.s__Process) (=> (tptp.s__instance V__PROCESS tptp.s__Precipitation) (exists ((V__STUFF $$unsorted)) (and (tptp.s__instance V__STUFF tptp.s__Water) (tptp.s__patient V__PROCESS V__STUFF)))))) (tptp.s__subclass tptp.s__LiquidMotion tptp.s__Motion) (tptp.s__documentation tptp.s__LiquidMotion tptp.s__EnglishLanguage |tptp.'Any &%Motion where the &%patient is a &%Liquid. This class would cover, in particular, the flow of &%Water.'|) (forall ((V__OBJ $$unsorted) (V__MOTION $$unsorted)) (=> (and (tptp.s__instance V__MOTION tptp.s__Process) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (and (tptp.s__instance V__MOTION tptp.s__LiquidMotion) (tptp.s__patient V__MOTION V__OBJ)) (tptp.s__attribute V__OBJ tptp.s__Liquid)))) (tptp.s__subclass tptp.s__WaterMotion tptp.s__LiquidMotion) (tptp.s__instance tptp.s__WaterMotion__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__LiquidMotion__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__WaterMotion tptp.s__EnglishLanguage |tptp.'Any &%LiquidMotion where the &%Liquid is &%Water.'|) (forall ((V__MOTION $$unsorted)) (=> (tptp.s__instance V__MOTION tptp.s__Process) (=> (tptp.s__instance V__MOTION tptp.s__WaterMotion) (exists ((V__WATER $$unsorted)) (and (tptp.s__patient V__MOTION V__WATER) (tptp.s__instance V__WATER tptp.s__Water)))))) (tptp.s__subclass tptp.s__GasMotion tptp.s__Motion) (tptp.s__instance tptp.s__GasMotion__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__GasMotion tptp.s__EnglishLanguage |tptp.'Any &%Motion where the &%patient is a &%Gas. This class would cover, in particular, the motion of &%Air, e.g. a breeze or wind.'|) (forall ((V__OBJ $$unsorted) (V__MOTION $$unsorted)) (=> (and (tptp.s__instance V__MOTION tptp.s__Process) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (and (tptp.s__instance V__MOTION tptp.s__GasMotion) (tptp.s__patient V__MOTION V__OBJ)) (tptp.s__attribute V__OBJ tptp.s__Gas)))) (tptp.s__subclass tptp.s__Wind tptp.s__GasMotion) (tptp.s__instance tptp.s__Wind__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Wind tptp.s__EnglishLanguage |tptp.'Any &%Motion of &%Air.'|) (tptp.s__subclass tptp.s__DirectionChange tptp.s__Motion) (tptp.s__instance tptp.s__DirectionChange__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__DirectionChange tptp.s__EnglishLanguage |tptp.'The act of changing the direction in which the &%patient of the act is oriented.'|) (tptp.s__subclass tptp.s__Transfer tptp.s__Translocation) (tptp.s__instance tptp.s__Translocation__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Transfer tptp.s__EnglishLanguage |tptp.'Any &%instance of &%Translocation where the &%agent and the &%patient are not the same thing.'|) (forall ((V__PATIENT $$unsorted) (V__AGENT $$unsorted) (V__TRANSFER $$unsorted)) (=> (and (tptp.s__instance V__TRANSFER tptp.s__Process) (tptp.s__instance V__AGENT tptp.s__Agent)) (=> (and (tptp.s__instance V__TRANSFER tptp.s__Transfer) (tptp.s__agent V__TRANSFER V__AGENT) (tptp.s__patient V__TRANSFER V__PATIENT)) (not (= V__AGENT V__PATIENT))))) (forall ((V__P $$unsorted) (V__T2 $$unsorted) (V__T1 $$unsorted) (V__D1 $$unsorted) (V__D2 $$unsorted) (V__O1 $$unsorted)) (=> (and (tptp.s__instance V__O1 tptp.s__Object) (tptp.s__instance V__D1 tptp.s__Object) (tptp.s__instance V__T1 tptp.s__Process) (tptp.s__instance V__T2 tptp.s__Process) (tptp.s__instance V__P tptp.s__Agent)) (=> (and (tptp.s__instance V__T1 tptp.s__Translocation) (tptp.s__instance V__T2 tptp.s__Translocation) (tptp.s__origin V__T1 V__O1) (tptp.s__origin V__T2 V__D1) (tptp.s__destination V__T1 V__D1) (tptp.s__destination V__T2 V__D2) (tptp.s__experiencer V__T1 V__P) (tptp.s__experiencer V__T2 V__P)) (exists ((V__T $$unsorted)) (let ((_let_1 (tptp.s__WhenFn V__T))) (and (tptp.s__instance V__T tptp.s__Process) (tptp.s__instance V__T tptp.s__Translocation) (tptp.s__origin V__T V__O1) (tptp.s__destination V__T V__D2) (tptp.s__subProcess V__T1 V__T) (tptp.s__subProcess V__T2 V__T) (tptp.s__experiencer V__T V__P) (tptp.s__starts (tptp.s__WhenFn V__T1) _let_1) (tptp.s__finishes (tptp.s__WhenFn V__T2) _let_1))))))) (tptp.s__subclass tptp.s__Carrying tptp.s__Transfer) (tptp.s__instance tptp.s__Carrying__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Transfer__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Carrying tptp.s__EnglishLanguage |tptp.'&%Transfer from one point to another by means of an &%Animal or &%Human.'|) (forall ((V__CARRY $$unsorted)) (=> (tptp.s__instance V__CARRY tptp.s__Process) (=> (tptp.s__instance V__CARRY tptp.s__Carrying) (exists ((V__ANIMAL $$unsorted)) (and (tptp.s__instance V__ANIMAL tptp.s__Object) (tptp.s__instance V__ANIMAL tptp.s__Animal) (tptp.s__instrument V__CARRY V__ANIMAL)))))) (tptp.s__subclass tptp.s__Removing tptp.s__Transfer) (tptp.s__documentation tptp.s__Removing tptp.s__EnglishLanguage |tptp.'The &%Class of &%Processes where something is taken away from a location. Note that the thing removed and the location are specified with the &%CaseRoles &%patient and &%origin, respectively.'|) (tptp.s__subclass tptp.s__Uncovering tptp.s__Removing) (tptp.s__instance tptp.s__Uncovering__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__Uncovering tptp.s__Covering) (tptp.s__documentation tptp.s__Uncovering tptp.s__EnglishLanguage |tptp.'The &%Class of &%Removing processes where the &%agent uncovers the &%patient, either completely or only partially.'|) (tptp.s__subclass tptp.s__Putting tptp.s__Transfer) (tptp.s__instance tptp.s__Putting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Putting tptp.s__EnglishLanguage |tptp.'The &%Class of &%Processes where something is put in a location. Note that the location is specified with the &%CaseRole &%destination.'|) (tptp.s__subclass tptp.s__Covering tptp.s__Putting) (tptp.s__instance tptp.s__Covering__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Covering tptp.s__EnglishLanguage |tptp.'The &%Class of &%Putting processes where the &%agent covers the &%patient, either completely or only partially, with something else.'|) (tptp.s__subclass tptp.s__Inserting tptp.s__Putting) (tptp.s__instance tptp.s__Inserting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Inserting tptp.s__EnglishLanguage |tptp.'&%Putting one thing inside of another thing.'|) (tptp.s__subclass tptp.s__Injecting tptp.s__Inserting) (tptp.s__instance tptp.s__Injecting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Injecting tptp.s__EnglishLanguage |tptp.'&%Inserting a &%BiologicallyActiveSubstance into an &%Animal or a &%Human with a syringe.'|) (forall ((V__INJECT $$unsorted)) (=> (tptp.s__instance V__INJECT tptp.s__Process) (=> (tptp.s__instance V__INJECT tptp.s__Injecting) (exists ((V__SUBSTANCE $$unsorted) (V__ANIMAL $$unsorted)) (and (tptp.s__instance V__SUBSTANCE tptp.s__Object) (tptp.s__patient V__INJECT V__SUBSTANCE) (tptp.s__instance V__SUBSTANCE tptp.s__BiologicallyActiveSubstance) (tptp.s__attribute V__SUBSTANCE tptp.s__Liquid) (tptp.s__destination V__INJECT V__ANIMAL) (tptp.s__instance V__ANIMAL tptp.s__Animal)))))) (tptp.s__subclass tptp.s__Substituting tptp.s__Transfer) (tptp.s__subclass tptp.s__Substituting tptp.s__DualObjectProcess) (tptp.s__instance tptp.s__Substituting__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__DualObjectProcess__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Substituting tptp.s__EnglishLanguage |tptp.'The &%Class of &%Transfers where one thing is replaced with something else.'|) (forall ((V__SUB $$unsorted)) (=> (tptp.s__instance V__SUB tptp.s__Process) (=> (tptp.s__instance V__SUB tptp.s__Substituting) (exists ((V__PUT $$unsorted) (V__REMOVE $$unsorted) (V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted) (V__PLACE $$unsorted)) (and (tptp.s__instance V__PLACE tptp.s__Object) (tptp.s__instance V__REMOVE tptp.s__Process) (tptp.s__instance V__PUT tptp.s__Process) (tptp.s__instance V__PUT tptp.s__Putting) (tptp.s__instance V__REMOVE tptp.s__Removing) (tptp.s__subProcess V__PUT V__SUB) (tptp.s__subProcess V__REMOVE V__SUB) (tptp.s__patient V__REMOVE V__OBJ1) (tptp.s__origin V__REMOVE V__PLACE) (tptp.s__patient V__PUT V__OBJ2) (tptp.s__destination V__PUT V__PLACE) (not (= V__OBJ1 V__OBJ2))))))) (tptp.s__subclass tptp.s__Impelling tptp.s__Transfer) (tptp.s__instance tptp.s__Impelling__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Impelling tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Transfer where the &%patient travels through space by means of a sudden, forceful event. Some examples would be shooting, throwing, tossing, etc.'|) (tptp.s__subclass tptp.s__Shooting tptp.s__Impelling) (tptp.s__instance tptp.s__Shooting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Shooting tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Impelling where the &%patient is a projectile that is fired through the air by means of some sort of &%Device.'|) (tptp.s__subclass tptp.s__Touching tptp.s__Transfer) (tptp.s__instance tptp.s__Touching__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Touching tptp.s__EnglishLanguage |tptp.'Any &%Transfer where two &%Objects are brought into immediate physical contact with one another.'|) (tptp.s__subrelation tptp.s__grasps__m tptp.s__meetsSpatially__m) (tptp.s__domain tptp.s__grasps__m |"1"| tptp.s__Animal) (tptp.s__domain tptp.s__grasps__m |"2"| tptp.s__Object) (tptp.s__documentation tptp.s__grasps__m tptp.s__EnglishLanguage |tptp.'The state of grasping an &%Object. (&%grasps ?ANIMAL ?OBJ) means that the &%Animal ?ANIMAL is intentionally holding on to the &%Object ?OBJ.'|) (tptp.s__subclass tptp.s__Grabbing tptp.s__Touching) (tptp.s__subclass tptp.s__Grabbing tptp.s__Attaching) (tptp.s__instance tptp.s__Grabbing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Grabbing tptp.s__EnglishLanguage |tptp.'Any instance of &%Touching which results in a situation where the &%agent &%grasps the &%patient of the &%Touching.'|) (tptp.s__subclass tptp.s__Releasing tptp.s__Transfer) (tptp.s__instance tptp.s__Releasing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Releasing tptp.s__EnglishLanguage |tptp.'Any instance of &%Transfer which results in a situation where it is not the case that the &%agent &%grasps something which he/she &%grasps previously.'|) (tptp.s__subclass tptp.s__Impacting tptp.s__Touching) (tptp.s__instance tptp.s__Impacting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Impacting tptp.s__EnglishLanguage |tptp.'Any &%Touching where something comes into sudden, forceful, physical contact with something else. Some examples would be striking, knocking, whipping etc.'|) (forall ((V__OBJ $$unsorted) (V__IMPACT $$unsorted)) (=> (tptp.s__instance V__IMPACT tptp.s__Process) (=> (and (tptp.s__instance V__IMPACT tptp.s__Impacting) (tptp.s__patient V__IMPACT V__OBJ)) (exists ((V__IMPEL $$unsorted)) (and (tptp.s__instance V__IMPEL tptp.s__Process) (tptp.s__instance V__IMPEL tptp.s__Impelling) (tptp.s__patient V__IMPEL V__OBJ) (tptp.s__earlier (tptp.s__WhenFn V__IMPEL) (tptp.s__WhenFn V__IMPACT))))))) (tptp.s__subclass tptp.s__Translocation tptp.s__Motion) (tptp.s__documentation tptp.s__Translocation tptp.s__EnglishLanguage |tptp.'&%Translocation is that class of &%Motions in which an object moves from one place to another. In the case of round trips, the &%origin and &%destination are the same, but the intervening motion passes through other locations. &%Translocation represents linear motion, in contrast to rotation or other movement in place. A vehicle is not necessary, &%Ambulating is a kind of &%Translocation.'|) (forall ((V__MOVEMENT $$unsorted) (V__PLACE1 $$unsorted)) (=> (and (tptp.s__instance V__PLACE1 tptp.s__Object) (tptp.s__instance V__MOVEMENT tptp.s__Process)) (=> (and (tptp.s__instance V__MOVEMENT tptp.s__Translocation) (tptp.s__origin V__MOVEMENT V__PLACE1)) (exists ((V__PLACE2 $$unsorted) (V__STAGE $$unsorted)) (and (tptp.s__instance V__STAGE tptp.s__Process) (tptp.s__instance V__PLACE2 tptp.s__Object) (tptp.s__instance V__PLACE2 tptp.s__Region) (not (= V__PLACE1 V__PLACE2)) (tptp.s__subProcess V__STAGE V__MOVEMENT) (tptp.s__located V__STAGE V__PLACE2)))))) (forall ((V__T $$unsorted)) (=> (tptp.s__instance V__T tptp.s__Motion) (=> (tptp.s__instance V__T tptp.s__Translocation) (exists ((V__O $$unsorted) (V__D $$unsorted) (V__P $$unsorted)) (and (tptp.s__instance V__O tptp.s__Object) (tptp.s__instance V__D tptp.s__Object) (tptp.s__instance V__P tptp.s__Object) (tptp.s__path V__T V__P) (tptp.s__origin V__T V__O) (tptp.s__destination V__T V__D)))))) (tptp.s__subclass tptp.s__Falling tptp.s__Translocation) (tptp.s__subclass tptp.s__Falling tptp.s__MotionDownward) (tptp.s__instance tptp.s__Falling__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Falling tptp.s__EnglishLanguage |tptp.'&%Falling is the class of events in which something moves from a higher location to a lower location under the force of gravity.'|) (forall ((V__START $$unsorted) (V__FINISH $$unsorted) (V__DROP $$unsorted)) (=> (and (tptp.s__instance V__DROP tptp.s__Process) (tptp.s__instance V__FINISH tptp.s__Object) (tptp.s__instance V__START tptp.s__Object)) (=> (and (tptp.s__instance V__DROP tptp.s__Falling) (tptp.s__origin V__DROP V__START) (tptp.s__destination V__DROP V__FINISH)) (tptp.s__orientation V__FINISH V__START tptp.s__Below)))) (tptp.s__subclass tptp.s__Transportation tptp.s__Translocation) (tptp.s__instance tptp.s__Transportation__t tptp.s__SetOrClass) (tptp.s__relatedInternalConcept tptp.s__Transportation tptp.s__TransportationDevice) (tptp.s__documentation tptp.s__Transportation tptp.s__EnglishLanguage |tptp.'&%Motion from one point to another by means of a &%TransportationDevice.'|) (forall ((V__TRANS $$unsorted)) (=> (tptp.s__instance V__TRANS tptp.s__Process) (=> (tptp.s__instance V__TRANS tptp.s__Transportation) (exists ((V__DEVICE $$unsorted)) (and (tptp.s__instance V__DEVICE tptp.s__Object) (tptp.s__instance V__DEVICE tptp.s__TransportationDevice) (tptp.s__instrument V__TRANS V__DEVICE)))))) (tptp.s__subclass tptp.s__Guiding tptp.s__IntentionalProcess) (tptp.s__instance tptp.s__Guiding__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__IntentionalProcess__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Guiding tptp.s__EnglishLanguage |tptp.'Any &%IntentionalProcess where the &%agent tries to direct the behavior of another &%Object, whether an &%Agent or not.'|) (tptp.s__subclass tptp.s__Driving tptp.s__Guiding) (tptp.s__instance tptp.s__Driving__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Driving tptp.s__EnglishLanguage |tptp.'Controlling the direction and/or speed of a &%Vehicle. This includes navigating a ship, driving a car or truck, operating a train, etc.'|) (forall ((V__DRIVE $$unsorted)) (=> (tptp.s__instance V__DRIVE tptp.s__Process) (=> (tptp.s__instance V__DRIVE tptp.s__Driving) (exists ((V__VEHICLE $$unsorted)) (and (tptp.s__instance V__VEHICLE tptp.s__Vehicle) (tptp.s__patient V__DRIVE V__VEHICLE)))))) (tptp.s__subclass tptp.s__EducationalProcess tptp.s__Guiding) (tptp.s__instance tptp.s__EducationalProcess__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__EducationalProcess tptp.s__EnglishLanguage |tptp.'Any &%Process which is intended to result in &%Learning.'|) (forall ((V__PERSON $$unsorted) (V__EDUCATION $$unsorted)) (=> (tptp.s__instance V__EDUCATION tptp.s__Process) (=> (and (tptp.s__instance V__EDUCATION tptp.s__EducationalProcess) (tptp.s__patient V__EDUCATION V__PERSON)) (tptp.s__hasPurpose V__EDUCATION |tptp.'(? [V__LEARN] : (s__instance(V__LEARN,s__Process) & s__instance(V__LEARN,s__Learning) & s__patient(V__LEARN,V__PERSON)))'|)))) (tptp.s__subclass tptp.s__ChangeOfPossession tptp.s__SocialInteraction) (tptp.s__relatedInternalConcept tptp.s__ChangeOfPossession tptp.s__possesses__m) (tptp.s__documentation tptp.s__ChangeOfPossession tptp.s__EnglishLanguage |tptp.'The &%Class of &%Processes where ownership of something is transferred from one &%Agent to another.'|) (tptp.s__subclass tptp.s__Giving tptp.s__ChangeOfPossession) (tptp.s__documentation tptp.s__Giving tptp.s__EnglishLanguage |tptp.'The &%subclass of &%ChangeOfPossession where the &%agent gives the &%destination something.'|) (forall ((V__OBJ $$unsorted) (V__GIVE $$unsorted) (V__AGENT2 $$unsorted) (V__AGENT1 $$unsorted)) (=> (and (tptp.s__instance V__AGENT1 tptp.s__Agent) (tptp.s__instance V__GIVE tptp.s__Process)) (=> (and (tptp.s__instance V__GIVE tptp.s__Giving) (tptp.s__agent V__GIVE V__AGENT1) (tptp.s__destination V__GIVE V__AGENT2) (tptp.s__instance V__AGENT2 tptp.s__Agent) (tptp.s__patient V__GIVE V__OBJ)) (exists ((V__GET $$unsorted)) (and (tptp.s__instance V__GET tptp.s__Process) (tptp.s__instance V__GET tptp.s__Getting) (tptp.s__agent V__GET V__AGENT2) (tptp.s__origin V__GET V__AGENT1) (tptp.s__patient V__GET V__OBJ)))))) (forall ((V__GIVE $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__GIVE tptp.s__Process)) (=> (and (tptp.s__instance V__GIVE tptp.s__Giving) (tptp.s__agent V__GIVE V__AGENT)) (tptp.s__origin V__GIVE V__AGENT)))) (tptp.s__subclass tptp.s__Funding tptp.s__Giving) (tptp.s__instance tptp.s__Funding__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Funding tptp.s__EnglishLanguage |tptp.'Any instance of &%Giving where the &%patient is an instance of &%Currency. Note that this class covers both financing, e.g. where a firm funds a software company with venture capital with the agreement that a certain percentage of the profits on the investment will be returned to the firm, and instances of &%UnilateralGiving, e.g. providing a tuition waiver and/or a stipend to a student as part of scholarship or fellowship.'|) (forall ((V__FUND $$unsorted)) (=> (tptp.s__instance V__FUND tptp.s__Process) (=> (tptp.s__instance V__FUND tptp.s__Funding) (exists ((V__MONEY $$unsorted)) (and (tptp.s__instance V__MONEY tptp.s__Currency) (tptp.s__patient V__FUND V__MONEY)))))) (tptp.s__subclass tptp.s__UnilateralGiving tptp.s__Giving) (tptp.s__instance tptp.s__UnilateralGiving__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__UnilateralGiving tptp.s__EnglishLanguage |tptp.'Any instance of &%Giving that is not part of a &%Transaction. In other words, any instance of &%Giving where nothing is received in return. Some examples of &%UnilateralGiving are: honorary awards, gifts, and financial grants.'|) (forall ((V__GIVE $$unsorted)) (=> (tptp.s__instance V__GIVE tptp.s__Process) (=> (tptp.s__instance V__GIVE tptp.s__UnilateralGiving) (not (exists ((V__TRANS $$unsorted)) (and (tptp.s__instance V__TRANS tptp.s__Process) (tptp.s__instance V__TRANS tptp.s__Transaction) (tptp.s__subProcess V__GIVE V__TRANS))))))) (tptp.s__subclass tptp.s__Lending tptp.s__Giving) (tptp.s__instance tptp.s__Lending__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Giving__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Lending tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Giving &%Processes where the &%agent gives the &%destination something for a limited period of time with the expectation that it will be returned later (perhaps with interest).'|) (forall ((V__OBJECT $$unsorted) (V__AGENT2 $$unsorted) (V__AGENT1 $$unsorted)) (=> (and (tptp.s__instance V__AGENT1 tptp.s__Agent) (tptp.s__instance V__AGENT2 tptp.s__Agent)) (= (exists ((V__BORROW $$unsorted)) (and (tptp.s__instance V__BORROW tptp.s__Process) (tptp.s__instance V__BORROW tptp.s__Borrowing) (tptp.s__agent V__BORROW V__AGENT1) (tptp.s__origin V__BORROW V__AGENT2) (tptp.s__patient V__BORROW V__OBJECT))) (exists ((V__LEND $$unsorted)) (and (tptp.s__instance V__LEND tptp.s__Process) (tptp.s__instance V__LEND tptp.s__Lending) (tptp.s__agent V__LEND V__AGENT2) (tptp.s__destination V__LEND V__AGENT1) (tptp.s__patient V__LEND V__OBJECT)))))) (tptp.s__subclass tptp.s__GivingBack tptp.s__Giving) (tptp.s__instance tptp.s__GivingBack__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__GivingBack tptp.s__EnglishLanguage |tptp.'Any instance of &%Giving where the &%agent gives something to the &%destination which was previously given to the &%agent by the &%destination, e.g. returing a book that was borrowed from someone.'|) (forall ((V__AGENT $$unsorted) (V__RETURN $$unsorted) (V__DEST $$unsorted)) (=> (and (tptp.s__instance V__DEST tptp.s__Agent) (tptp.s__instance V__RETURN tptp.s__Process) (tptp.s__instance V__AGENT tptp.s__Agent)) (=> (and (tptp.s__instance V__RETURN tptp.s__GivingBack) (tptp.s__agent V__RETURN V__AGENT) (tptp.s__destination V__RETURN V__DEST)) (exists ((V__GIVE $$unsorted)) (and (tptp.s__instance V__GIVE tptp.s__Process) (tptp.s__instance V__GIVE tptp.s__Giving) (tptp.s__agent V__GIVE V__DEST) (tptp.s__destination V__GIVE V__AGENT) (tptp.s__earlier (tptp.s__WhenFn V__GIVE) (tptp.s__WhenFn V__RETURN))))))) (tptp.s__subclass tptp.s__Getting tptp.s__ChangeOfPossession) (tptp.s__instance tptp.s__Getting__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__ChangeOfPossession__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Getting tptp.s__EnglishLanguage |tptp.'The &%subclass of &%ChangeOfPossession where the &%agent gets something. Note that the source from which something is obtained is specified with the &%origin &%CaseRole.'|) (forall ((V__GET $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__GET tptp.s__Process)) (=> (and (tptp.s__instance V__GET tptp.s__Getting) (tptp.s__agent V__GET V__AGENT)) (tptp.s__destination V__GET V__AGENT)))) (tptp.s__subclass tptp.s__UnilateralGetting tptp.s__Getting) (tptp.s__instance tptp.s__UnilateralGetting__t tptp.s__SetOrClass) (tptp.s__relatedInternalConcept tptp.s__UnilateralGetting tptp.s__UnilateralGiving) (tptp.s__documentation tptp.s__UnilateralGetting tptp.s__EnglishLanguage |tptp.'Any instance of &%Getting that is not part of a &%Transaction. In other words, any instance of &%Getting where nothing is given in return. Some examples of &%UnilateralGetting are: appropriating, commandeering, stealing, etc.'|) (forall ((V__GET $$unsorted)) (=> (tptp.s__instance V__GET tptp.s__Process) (=> (tptp.s__instance V__GET tptp.s__UnilateralGetting) (not (exists ((V__TRANS $$unsorted)) (and (tptp.s__instance V__TRANS tptp.s__Process) (tptp.s__instance V__TRANS tptp.s__Transaction) (tptp.s__subProcess V__GET V__TRANS))))))) (tptp.s__subclass tptp.s__Borrowing tptp.s__Getting) (tptp.s__instance tptp.s__Borrowing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Borrowing tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Getting &%Processes where the &%agent gets something for a limited period of time with the expectation that it will be returned later (perhaps with interest).'|) (tptp.s__subclass tptp.s__Transaction tptp.s__ChangeOfPossession) (tptp.s__subclass tptp.s__Transaction tptp.s__DualObjectProcess) (tptp.s__instance tptp.s__Transaction__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Transaction tptp.s__EnglishLanguage |tptp.'The &%subclass of &%ChangeOfPossession where something is exchanged for something else.'|) (forall ((V__TRANS $$unsorted)) (=> (tptp.s__instance V__TRANS tptp.s__Process) (=> (tptp.s__instance V__TRANS tptp.s__Transaction) (exists ((V__AGENT1 $$unsorted) (V__AGENT2 $$unsorted) (V__GIVE1 $$unsorted) (V__GIVE2 $$unsorted) (V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (and (tptp.s__instance V__GIVE2 tptp.s__Process) (tptp.s__instance V__GIVE1 tptp.s__Process) (tptp.s__instance V__AGENT2 tptp.s__Agent) (tptp.s__instance V__AGENT1 tptp.s__Agent) (tptp.s__instance V__GIVE1 tptp.s__Giving) (tptp.s__instance V__GIVE2 tptp.s__Giving) (tptp.s__subProcess V__GIVE1 V__TRANS) (tptp.s__subProcess V__GIVE2 V__TRANS) (tptp.s__agent V__GIVE1 V__AGENT1) (tptp.s__agent V__GIVE2 V__AGENT2) (tptp.s__patient V__GIVE1 V__OBJ1) (tptp.s__patient V__GIVE2 V__OBJ2) (tptp.s__destination V__GIVE1 V__AGENT2) (tptp.s__destination V__GIVE2 V__AGENT1) (not (= V__AGENT1 V__AGENT2)) (not (= V__OBJ1 V__OBJ2))))))) (tptp.s__subclass tptp.s__FinancialTransaction tptp.s__Transaction) (tptp.s__documentation tptp.s__FinancialTransaction tptp.s__EnglishLanguage |tptp.'A &%Transaction where an instance of &%FinancialInstrument is the subject of the action, and often is exchanged for something else.'|) (forall ((V__TRANS $$unsorted)) (=> (tptp.s__instance V__TRANS tptp.s__Process) (=> (tptp.s__instance V__TRANS tptp.s__FinancialTransaction) (exists ((V__OBJ $$unsorted)) (and (tptp.s__patient V__TRANS V__OBJ) (tptp.s__instance V__OBJ tptp.s__FinancialInstrument)))))) (tptp.s__instance tptp.s__transactionAmount__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__transactionAmount__m tptp.s__SingleValuedRelation) (tptp.s__instance tptp.s__transactionAmount__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__transactionAmount__m |"1"| tptp.s__FinancialTransaction) (tptp.s__domain tptp.s__transactionAmount__m |"2"| tptp.s__CurrencyMeasure) (tptp.s__documentation tptp.s__transactionAmount__m tptp.s__EnglishLanguage |tptp.'(&%transactionAmount ?TRANSACTION ?AMOUNT) means that ?AMOUNT is an instance of &%CurrencyMeasure being exhanged in the &%FinancialTransaction ?TRANSACTION.'|) (forall ((V__AMOUNT $$unsorted) (V__TRANS $$unsorted)) (=> (and (tptp.s__instance V__TRANS tptp.s__FinancialTransaction) (tptp.s__instance V__AMOUNT tptp.s__CurrencyMeasure)) (=> (tptp.s__transactionAmount V__TRANS V__AMOUNT) (exists ((V__OBJ $$unsorted)) (and (tptp.s__instance V__OBJ tptp.s__Physical) (tptp.s__patient V__TRANS V__OBJ) (tptp.s__monetaryValue V__OBJ V__AMOUNT)))))) (tptp.s__subclass tptp.s__ServiceProcess tptp.s__SocialInteraction) (tptp.s__documentation tptp.s__ServiceProcess tptp.s__EnglishLanguage |tptp.'&%ServiceProcess denotes the class of events in which one agent performs a service for another. The service need not be commercial, and it need not be the case that the &%serviceRecipient pays or recompenses the &%serviceProvider for the service.'|) (tptp.s__subclass tptp.s__CommercialService tptp.s__FinancialTransaction) (tptp.s__instance tptp.s__CommercialService__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__FinancialTransaction__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__CommercialService tptp.s__EnglishLanguage |tptp.'Any &%FinancialTransaction by a &%CommercialAgent where the aim is to produce a profit.'|) (tptp.s__subclass tptp.s__CommercialService tptp.s__ServiceProcess) (tptp.s__instance tptp.s__ServiceProcess__t tptp.s__SetOrClass) (forall ((V__BUSINESS $$unsorted)) (=> (tptp.s__instance V__BUSINESS tptp.s__Process) (=> (tptp.s__instance V__BUSINESS tptp.s__CommercialService) (exists ((V__AGENT $$unsorted)) (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__AGENT tptp.s__CommercialAgent) (tptp.s__agent V__BUSINESS V__AGENT)))))) (tptp.s__subclass tptp.s__Betting tptp.s__FinancialTransaction) (tptp.s__instance tptp.s__Betting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Betting tptp.s__EnglishLanguage |tptp.'A &%FinancialTransaction where an instance of &%CurrencyMeasure is exchanged for the possibility of winning a larger instance of &%CurrencyMeasure within the context of some sort of &%Game.'|) (tptp.s__subclass tptp.s__Buying tptp.s__FinancialTransaction) (tptp.s__instance tptp.s__Buying__t tptp.s__SetOrClass) (tptp.s__relatedInternalConcept tptp.s__Buying tptp.s__Selling) (tptp.s__documentation tptp.s__Buying tptp.s__EnglishLanguage |tptp.'A &%FinancialTransaction in which an instance of &%CurrencyMeasure is exchanged for an instance of &%Physical.'|) (forall ((V__BUY $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__BUY tptp.s__Process)) (=> (and (tptp.s__instance V__BUY tptp.s__Buying) (tptp.s__agent V__BUY V__AGENT)) (tptp.s__destination V__BUY V__AGENT)))) (tptp.s__subclass tptp.s__Selling tptp.s__FinancialTransaction) (tptp.s__instance tptp.s__Selling__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Selling tptp.s__EnglishLanguage |tptp.'A &%FinancialTransaction in which an instance of &%Physical is exchanged for an instance of &%CurrencyMeasure.'|) (forall ((V__OBJECT $$unsorted) (V__AGENT2 $$unsorted) (V__AGENT1 $$unsorted)) (=> (and (tptp.s__instance V__AGENT1 tptp.s__Agent) (tptp.s__instance V__AGENT2 tptp.s__Agent)) (= (exists ((V__BUY $$unsorted)) (and (tptp.s__instance V__BUY tptp.s__Process) (tptp.s__instance V__BUY tptp.s__Buying) (tptp.s__agent V__BUY V__AGENT1) (tptp.s__origin V__BUY V__AGENT2) (tptp.s__patient V__BUY V__OBJECT))) (exists ((V__SELL $$unsorted)) (and (tptp.s__instance V__SELL tptp.s__Process) (tptp.s__instance V__SELL tptp.s__Selling) (tptp.s__agent V__SELL V__AGENT2) (tptp.s__destination V__SELL V__AGENT1) (tptp.s__patient V__SELL V__OBJECT)))))) (forall ((V__AGENT $$unsorted) (V__SELL $$unsorted)) (=> (and (tptp.s__instance V__SELL tptp.s__Process) (tptp.s__instance V__AGENT tptp.s__Agent)) (=> (and (tptp.s__instance V__SELL tptp.s__Selling) (tptp.s__agent V__SELL V__AGENT)) (tptp.s__origin V__SELL V__AGENT)))) (tptp.s__subclass tptp.s__Learning tptp.s__IntentionalPsychologicalProcess) (tptp.s__instance tptp.s__Learning__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Learning tptp.s__EnglishLanguage |tptp.'The &%Class of &%Processes which relate to the acquisition of information.'|) (forall ((V__LEARN $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__LEARN tptp.s__Process)) (=> (and (tptp.s__instance V__LEARN tptp.s__Learning) (tptp.s__agent V__LEARN V__AGENT)) (tptp.s__instance V__AGENT tptp.s__CognitiveAgent)))) (tptp.s__subclass tptp.s__Discovering tptp.s__IntentionalPsychologicalProcess) (tptp.s__instance tptp.s__Discovering__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Discovering tptp.s__EnglishLanguage |tptp.'Finding something that was sought. Note that this class is restricted to cases of discovering something &%Physical. For cases involving the acquisition of knowledge, the class &%Learning should be used.'|) (forall ((V__OBJ $$unsorted) (V__DISCOVER $$unsorted)) (=> (tptp.s__instance V__DISCOVER tptp.s__Process) (=> (and (tptp.s__instance V__DISCOVER tptp.s__Discovering) (tptp.s__patient V__DISCOVER V__OBJ)) (exists ((V__PURSUE $$unsorted)) (and (tptp.s__instance V__PURSUE tptp.s__Physical) (tptp.s__instance V__PURSUE tptp.s__Pursuing) (tptp.s__meetsTemporally (tptp.s__WhenFn V__PURSUE) (tptp.s__WhenFn V__DISCOVER))))))) (tptp.s__subclass tptp.s__Classifying tptp.s__IntentionalPsychologicalProcess) (tptp.s__instance tptp.s__Classifying__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Classifying tptp.s__EnglishLanguage |tptp.'The &%Class of &%IntentionalPsychologicalProcesses which involve attaching a name or category to a thing or set of things. Note that &%Classifying is distinguished from &%Learning by the fact that the latter covers the acquisition by a &%CognitiveAgent of any &%Proposition, while the former involves the assignment of a label or category.'|) (tptp.s__subclass tptp.s__Reasoning tptp.s__IntentionalPsychologicalProcess) (tptp.s__instance tptp.s__Reasoning__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Reasoning tptp.s__EnglishLanguage |tptp.'The &%Class of &%IntentionalPsychologicalProcesses which involve concluding, on the basis of either deductive or inductive evidence, that a particular &%Proposition or &%Sentence is true.'|) (forall ((V__AGENT $$unsorted)) (=> (tptp.s__instance V__AGENT tptp.s__Object) (=> (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__capability tptp.s__Reasoning tptp.s__agent__m V__AGENT)))) (tptp.s__subclass tptp.s__Selecting tptp.s__IntentionalPsychologicalProcess) (tptp.s__documentation tptp.s__Selecting tptp.s__EnglishLanguage |tptp.'The &%Class of &%IntentionalPsychologicalProcesses which involve opting for one or more &%Entity out of a larger set of &%Entities. Note that this covers all cases of judging or evaluating.'|) (tptp.s__subclass tptp.s__Deciding tptp.s__Selecting) (tptp.s__instance tptp.s__Selecting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Deciding tptp.s__EnglishLanguage |tptp.'The subclass of &%Selecting where the &%agent opts for one course of action out of a set of multiple possibilities that are open to him/her.'|) (forall ((V__PROCESS $$unsorted) (V__AGENT $$unsorted) (V__DECIDE $$unsorted)) (=> (and (tptp.s__instance V__DECIDE tptp.s__Process) (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__PROCESS tptp.s__Process)) (=> (and (tptp.s__instance V__DECIDE tptp.s__Deciding) (tptp.s__agent V__DECIDE V__AGENT) (tptp.s__patient V__DECIDE V__PROCESS)) (and (tptp.s__instance V__PROCESS tptp.s__IntentionalProcess) (tptp.s__agent V__PROCESS V__AGENT))))) (tptp.s__subclass tptp.s__Voting tptp.s__Deciding) (tptp.s__instance tptp.s__Voting__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Deciding__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Voting tptp.s__EnglishLanguage |tptp.'&%Voting is the activity of voting in an &%Election. Voting is typically done by individuals, while &%Elections are conducted by &%Organizations. The voting process by an individual voter is part of an &%Election process.'|) (forall ((V__VOTE $$unsorted)) (=> (tptp.s__instance V__VOTE tptp.s__Process) (=> (tptp.s__instance V__VOTE tptp.s__Voting) (exists ((V__ELECT $$unsorted)) (and (tptp.s__instance V__ELECT tptp.s__Process) (tptp.s__instance V__ELECT tptp.s__Election) (tptp.s__subProcess V__VOTE V__ELECT)))))) (tptp.s__subclass tptp.s__Judging tptp.s__Selecting) (tptp.s__instance tptp.s__Judging__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Judging tptp.s__EnglishLanguage |tptp.'The subclass of &%Selecting where the &%agent opts for one belief out of a set of multiple possibilities that are available to him/her.'|) (tptp.s__subclass tptp.s__Comparing tptp.s__IntentionalPsychologicalProcess) (tptp.s__subclass tptp.s__Comparing tptp.s__DualObjectProcess) (tptp.s__instance tptp.s__Comparing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Comparing tptp.s__EnglishLanguage |tptp.'The &%Class of &%IntentionalPsychologicalProcesses which involve comparing, relating, contrasting, etc. the properties of two or more &%Entities.'|) (tptp.s__subclass tptp.s__Calculating tptp.s__IntentionalPsychologicalProcess) (tptp.s__instance tptp.s__Calculating__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Calculating tptp.s__EnglishLanguage |tptp.'&%IntentionalPsychologicalProcesses which involve the consideration and/or manipulation of instances of &%Quantity.'|) (tptp.s__subclass tptp.s__Measuring tptp.s__Calculating) (tptp.s__instance tptp.s__Measuring__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Measuring tptp.s__EnglishLanguage |tptp.'The &%Class of &%Calculating &%Processes where the aim is to determine the &%PhysicalQuantity of some aspect of the &%patient.'|) (tptp.s__subclass tptp.s__Counting tptp.s__Calculating) (tptp.s__instance tptp.s__Counting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Counting tptp.s__EnglishLanguage |tptp.'Enumerating something. The &%Class of &%Calculating &%Processes where the aim is to determine the &%Number corresponding to the &%patient.'|) (forall ((V__COUNT $$unsorted) (V__AGENT $$unsorted) (V__ENTITY $$unsorted)) (=> (and (tptp.s__instance V__ENTITY (tptp.s__UnionFn tptp.s__SetOrClass tptp.s__Collection)) (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__COUNT tptp.s__Process)) (=> (and (tptp.s__instance V__COUNT tptp.s__Counting) (tptp.s__agent V__COUNT V__AGENT) (tptp.s__patient V__COUNT V__ENTITY)) (exists ((V__NUMBER $$unsorted)) (tptp.s__knows V__AGENT |tptp.'(s__CardinalityFn(V__ENTITY) = V__NUMBER)'|))))) (tptp.s__subclass tptp.s__Predicting tptp.s__IntentionalPsychologicalProcess) (tptp.s__instance tptp.s__Predicting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Predicting tptp.s__EnglishLanguage |tptp.'The &%Class of &%IntentionalPsychologicalProcesses which involve the formulation of a &%Proposition about a state of affairs which might be realized in the future.'|) (forall ((V__FORMULA $$unsorted) (V__PREDICT $$unsorted)) (=> (and (tptp.s__instance V__PREDICT tptp.s__Process) (tptp.s__instance V__FORMULA tptp.s__Formula)) (=> (and (tptp.s__instance V__PREDICT tptp.s__Predicting) (tptp.s__patient V__PREDICT V__FORMULA)) (exists ((V__TIME $$unsorted)) (let ((_let_1 (tptp.s__WhenFn V__PREDICT))) (and (tptp.s__instance V__TIME tptp.s__TimePoint) (tptp.s__instance V__TIME tptp.s__TimeInterval) (tptp.s__holdsDuring V__TIME V__FORMULA) (or (tptp.s__before V__TIME _let_1) (tptp.s__earlier V__TIME _let_1)))))))) (tptp.s__subclass tptp.s__Remembering tptp.s__PsychologicalProcess) (tptp.s__instance tptp.s__Remembering__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Remembering tptp.s__EnglishLanguage |tptp.'The &%Class of &%PsychologicalProcesses which involve the recollection of prior experiences and/or of knowledge which was previously acquired.'|) (forall ((V__REMEMBER $$unsorted) (V__FORMULA $$unsorted)) (=> (and (tptp.s__instance V__FORMULA tptp.s__Formula) (tptp.s__instance V__REMEMBER tptp.s__Process)) (=> (and (tptp.s__instance V__REMEMBER tptp.s__Remembering) (tptp.s__patient V__REMEMBER V__FORMULA)) (exists ((V__TIME $$unsorted)) (let ((_let_1 (tptp.s__WhenFn V__REMEMBER))) (and (tptp.s__instance V__TIME tptp.s__TimePoint) (tptp.s__instance V__TIME tptp.s__TimeInterval) (tptp.s__holdsDuring V__TIME V__FORMULA) (or (tptp.s__before V__TIME _let_1) (tptp.s__earlier V__TIME _let_1)))))))) (tptp.s__subclass tptp.s__Keeping tptp.s__IntentionalProcess) (tptp.s__instance tptp.s__Keeping__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Keeping tptp.s__EnglishLanguage |tptp.'The &%Class of &%Processes where the &%agent keeps something in a particular location for an extended period of time.'|) (forall ((V__OBJ $$unsorted) (V__KEEP $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__KEEP tptp.s__Process)) (=> (and (tptp.s__instance V__KEEP tptp.s__Keeping) (tptp.s__agent V__KEEP V__AGENT) (tptp.s__patient V__KEEP V__OBJ)) (exists ((V__PUT $$unsorted)) (and (tptp.s__instance V__PUT tptp.s__Process) (tptp.s__instance V__PUT tptp.s__Putting) (tptp.s__agent V__PUT V__AGENT) (tptp.s__patient V__PUT V__OBJ) (tptp.s__earlier (tptp.s__WhenFn V__PUT) (tptp.s__WhenFn V__KEEP))))))) (tptp.s__subclass tptp.s__Confining tptp.s__Keeping) (tptp.s__instance tptp.s__Confining__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Confining tptp.s__EnglishLanguage |tptp.'The &%Class of &%Keeping &%Processes where the &%patient is a &%Human or an &%Animal and is kept involuntarily. This covers caging, imprisonment, jailing, etc.'|) (forall ((V__CONFINE $$unsorted)) (=> (tptp.s__instance V__CONFINE tptp.s__Process) (=> (tptp.s__instance V__CONFINE tptp.s__Confining) (exists ((V__AGENT $$unsorted)) (and (tptp.s__instance V__AGENT tptp.s__Animal) (tptp.s__patient V__CONFINE V__AGENT)))))) (tptp.s__subclass tptp.s__Maintaining tptp.s__IntentionalProcess) (tptp.s__instance tptp.s__Maintaining__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Maintaining tptp.s__EnglishLanguage |tptp.'The &%Class of &%Processes where the &%agent cares for or maintains the &%Object.'|) (tptp.s__subclass tptp.s__Repairing tptp.s__IntentionalProcess) (tptp.s__instance tptp.s__Repairing__t tptp.s__SetOrClass) (tptp.s__relatedInternalConcept tptp.s__Repairing tptp.s__Maintaining) (tptp.s__documentation tptp.s__Repairing tptp.s__EnglishLanguage |tptp.'The &%Class of &%Processes where the &%agent makes a modification or series of modifications to an &%Object that is not functioning as intended so that it works properly.'|) (forall ((V__OBJ $$unsorted) (V__REPAIR $$unsorted)) (=> (tptp.s__instance V__REPAIR tptp.s__Process) (=> (and (tptp.s__instance V__REPAIR tptp.s__Repairing) (tptp.s__patient V__REPAIR V__OBJ)) (exists ((V__DAMAGE $$unsorted)) (and (tptp.s__instance V__DAMAGE tptp.s__Process) (tptp.s__instance V__DAMAGE tptp.s__Damaging) (tptp.s__patient V__DAMAGE V__OBJ) (tptp.s__earlier (tptp.s__WhenFn V__DAMAGE) (tptp.s__WhenFn V__REPAIR))))))) (tptp.s__subclass tptp.s__TherapeuticProcess tptp.s__Repairing) (tptp.s__documentation tptp.s__TherapeuticProcess tptp.s__EnglishLanguage |tptp.'A &%Process that is carried out for the purpose of curing, improving or reducing the pain associated with a &%DiseaseOrSyndrome.'|) (forall ((V__BIO $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__BIO tptp.s__Object)) (=> (and (tptp.s__instance V__PROC tptp.s__TherapeuticProcess) (tptp.s__patient V__PROC V__BIO)) (or (tptp.s__instance V__BIO tptp.s__Organism) (exists ((V__ORG $$unsorted)) (and (tptp.s__instance V__ORG tptp.s__Object) (tptp.s__instance V__ORG tptp.s__Organism) (tptp.s__part V__BIO V__ORG))))))) (tptp.s__subclass tptp.s__Surgery tptp.s__TherapeuticProcess) (tptp.s__instance tptp.s__Surgery__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__TherapeuticProcess__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Surgery tptp.s__EnglishLanguage |tptp.'Any &%TherapeuticProcess that involves making an incision in the &%Animal that is the &%patient of the &%TherapeuticProcess.'|) (forall ((V__ACT $$unsorted) (V__ANIMAL $$unsorted)) (=> (tptp.s__instance V__ACT tptp.s__Process) (=> (and (tptp.s__instance V__ACT tptp.s__Surgery) (tptp.s__patient V__ACT V__ANIMAL)) (exists ((V__SUBACT $$unsorted)) (and (tptp.s__instance V__SUBACT tptp.s__Process) (tptp.s__instance V__SUBACT tptp.s__Cutting) (tptp.s__instance V__ANIMAL tptp.s__Animal) (tptp.s__patient V__SUBACT V__ANIMAL) (tptp.s__subProcess V__SUBACT V__ACT)))))) (tptp.s__subclass tptp.s__Damaging tptp.s__InternalChange) (tptp.s__disjoint tptp.s__Damaging tptp.s__Repairing) (tptp.s__documentation tptp.s__Damaging tptp.s__EnglishLanguage |tptp.'The &%Class of &%Processes where the &%agent brings about a situation where the &%patient no longer functions normally or as intended.'|) (tptp.s__subclass tptp.s__Destruction tptp.s__Damaging) (tptp.s__documentation tptp.s__Destruction tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Damagings in which the &%patient (or an essential element of the &%patient) is destroyed. Note that the difference between this concept and its superclass is solely one of extent.'|) (forall ((V__PROCESS $$unsorted)) (=> (tptp.s__instance V__PROCESS tptp.s__Process) (= (tptp.s__instance V__PROCESS tptp.s__Destruction) (exists ((V__PATIENT $$unsorted)) (let ((_let_1 (tptp.s__WhenFn V__PROCESS))) (and (tptp.s__instance V__PATIENT tptp.s__Physical) (tptp.s__patient V__PROCESS V__PATIENT) (tptp.s__time V__PATIENT (tptp.s__BeginFn _let_1)) (not (tptp.s__time V__PATIENT (tptp.s__EndFn _let_1))))))))) (tptp.s__subclass tptp.s__Killing tptp.s__Destruction) (tptp.s__instance tptp.s__Killing__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Destruction__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Killing tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Destruction in which the death of an &%Organism is caused by an &%Organism. Note that in cases of suicide the &%Organism would be the same in both cases.'|) (forall ((V__PATIENT $$unsorted) (V__KILL $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__KILL tptp.s__Process)) (=> (and (tptp.s__instance V__KILL tptp.s__Killing) (tptp.s__agent V__KILL V__AGENT) (tptp.s__patient V__KILL V__PATIENT)) (and (tptp.s__instance V__AGENT tptp.s__Organism) (tptp.s__instance V__PATIENT tptp.s__Organism))))) (forall ((V__OBJ $$unsorted) (V__KILL $$unsorted)) (=> (and (tptp.s__instance V__KILL tptp.s__Process) (tptp.s__instance V__OBJ tptp.s__Agent)) (=> (and (tptp.s__instance V__KILL tptp.s__Killing) (tptp.s__patient V__KILL V__OBJ)) (exists ((V__DEATH $$unsorted)) (and (tptp.s__instance V__DEATH tptp.s__Process) (tptp.s__instance V__DEATH tptp.s__Death) (tptp.s__experiencer V__DEATH V__OBJ) (tptp.s__causes V__KILL V__DEATH)))))) (tptp.s__subclass tptp.s__Poking tptp.s__IntentionalProcess) (tptp.s__instance tptp.s__Poking__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Poking tptp.s__EnglishLanguage |tptp.'The &%Class of &%Processes where the &%agent pierces the surface of the &%Object with an &%instrument.'|) (tptp.s__subclass tptp.s__Cutting tptp.s__Poking) (tptp.s__instance tptp.s__Cutting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Cutting tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Poking &%Processes which involve a sharp &%instrument.'|) (tptp.s__subclass tptp.s__Attaching tptp.s__DualObjectProcess) (tptp.s__instance tptp.s__Attaching__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__Attaching tptp.s__Detaching) (tptp.s__relatedInternalConcept tptp.s__Attaching tptp.s__Putting) (tptp.s__documentation tptp.s__Attaching tptp.s__EnglishLanguage |tptp.'A &%Process where one &%Object becomes attached to another &%Object. Note that this differs from &%Putting in that two things which are attached may already be in the same location. Note that &%Combining is different from &%Attaching in that the former applies to &%Substances, while the latter applies to &%CorpuscularObjects. Note too that &%Attaching is different from &%Putting in that one or both of the two things which are attached may or may not be moved from the location where they were combined.'|) (forall ((V__ATTACH $$unsorted)) (=> (tptp.s__instance V__ATTACH tptp.s__Process) (=> (tptp.s__instance V__ATTACH tptp.s__Attaching) (exists ((V__OBJ $$unsorted)) (and (tptp.s__instance V__OBJ tptp.s__CorpuscularObject) (tptp.s__patient V__ATTACH V__OBJ)))))) (tptp.s__subclass tptp.s__Detaching tptp.s__DualObjectProcess) (tptp.s__instance tptp.s__Detaching__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Detaching tptp.s__EnglishLanguage |tptp.'A &%Process where the &%agent detaches one thing from something else. Note that &%Detaching is different from &%Separating in that the latter applies to &%Substances, while the former applies to &%CorpuscularObjects. Note too that &%Detaching is different from &%Removing in that one or both of the two things which are detached may or may not be moved from the location where they were attached.'|) (forall ((V__DETACH $$unsorted)) (=> (tptp.s__instance V__DETACH tptp.s__Process) (=> (tptp.s__instance V__DETACH tptp.s__Detaching) (exists ((V__OBJ $$unsorted)) (and (tptp.s__instance V__OBJ tptp.s__CorpuscularObject) (tptp.s__patient V__DETACH V__OBJ)))))) (tptp.s__subclass tptp.s__Ungrasping tptp.s__Detaching) (tptp.s__instance tptp.s__Ungrasping__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Ungrasping tptp.s__EnglishLanguage |tptp.'Any instance of &%Detaching which results in a situation where it is not the case that the &%agent &%grasps something which he/she &%grasps previously.'|) (tptp.s__subclass tptp.s__Combining tptp.s__DualObjectProcess) (tptp.s__instance tptp.s__Combining__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Combining tptp.s__EnglishLanguage |tptp.'A &%Process where two or more &%SelfConnectedObjects are incorporated into a single &%SelfConnectedObject. Note that &%Combining is different from &%Attaching in that the former results in one of the objects being &%part of the other, while &%Attaching only results in the two objects being &%connected with one another. Note too that &%Combining is different from &%Putting in that one or both of the two things which are combined may or may not be moved from the location where they were combined.'|) (forall ((V__COMBINE $$unsorted)) (=> (tptp.s__instance V__COMBINE tptp.s__Process) (=> (tptp.s__instance V__COMBINE tptp.s__Combining) (exists ((V__OBJ $$unsorted)) (and (tptp.s__instance V__OBJ tptp.s__SelfConnectedObject) (tptp.s__patient V__COMBINE V__OBJ)))))) (tptp.s__subclass tptp.s__Separating tptp.s__DualObjectProcess) (tptp.s__disjoint tptp.s__Separating tptp.s__Combining) (tptp.s__documentation tptp.s__Separating tptp.s__EnglishLanguage |tptp.'A &%Process where a &%SelfConnectedObject is separated into (some of) its &%parts. Note that &%Separating is different from &%Detaching in that the latter only results in the two objects not being &%connected. Note too that &%Separating is different from &%Removing in that one or both of the two things which are separated may or may not be moved from the location where they were separated.'|) (forall ((V__SEPARATE $$unsorted)) (=> (tptp.s__instance V__SEPARATE tptp.s__Process) (=> (tptp.s__instance V__SEPARATE tptp.s__Separating) (exists ((V__OBJ $$unsorted)) (and (tptp.s__instance V__OBJ tptp.s__SelfConnectedObject) (tptp.s__patient V__SEPARATE V__OBJ)))))) (tptp.s__subclass tptp.s__ChemicalProcess tptp.s__InternalChange) (tptp.s__partition_3 tptp.s__ChemicalProcess tptp.s__ChemicalSynthesis tptp.s__ChemicalDecomposition) (tptp.s__documentation tptp.s__ChemicalProcess tptp.s__EnglishLanguage |tptp.'A &%ChemicalProcess occurs whenever chemical compounds (&%CompoundSubstances) are formed or decomposed. For example, reactants disappear as chemical change occurs, and products appear as chemical change occurs. In a chemical change a chemical reaction takes place. Catalysts in a &%ChemicalProcess may speed up the reaction, but arent themselves produced or consumed. Examples: rusting of iron and the decomposition of water, induced by an electric current, to gaseous hydrogen and gaseous oxygen.'|) (forall ((V__STUFF $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__STUFF tptp.s__Object)) (=> (and (tptp.s__instance V__PROC tptp.s__ChemicalProcess) (or (tptp.s__resource V__PROC V__STUFF) (tptp.s__result V__PROC V__STUFF))) (tptp.s__instance V__STUFF tptp.s__PureSubstance)))) (tptp.s__subclass tptp.s__ChemicalSynthesis tptp.s__ChemicalProcess) (tptp.s__instance tptp.s__ChemicalSynthesis__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__ChemicalSynthesis tptp.s__Combining) (tptp.s__documentation tptp.s__ChemicalSynthesis tptp.s__EnglishLanguage |tptp.'The &%Class of &%ChemicalProcesses in which a &%CompoundSubstance is formed from simpler reactants.'|) (forall ((V__SUBSTANCE1 $$unsorted) (V__SUBSTANCE2 $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__SUBSTANCE1 tptp.s__Object)) (=> (and (tptp.s__resource V__PROC V__SUBSTANCE1) (tptp.s__result V__PROC V__SUBSTANCE2) (tptp.s__instance V__SUBSTANCE1 tptp.s__ElementalSubstance) (tptp.s__instance V__SUBSTANCE2 tptp.s__CompoundSubstance)) (tptp.s__instance V__PROC tptp.s__ChemicalSynthesis)))) (forall ((V__COMPOUND $$unsorted)) (= (tptp.s__instance V__COMPOUND tptp.s__CompoundSubstance) (exists ((V__ELEMENT1 $$unsorted) (V__ELEMENT2 $$unsorted) (V__PROCESS $$unsorted)) (and (tptp.s__instance V__PROCESS tptp.s__Process) (tptp.s__instance V__ELEMENT2 tptp.s__Object) (tptp.s__instance V__ELEMENT1 tptp.s__Object) (tptp.s__instance V__ELEMENT1 tptp.s__ElementalSubstance) (tptp.s__instance V__ELEMENT2 tptp.s__ElementalSubstance) (not (= V__ELEMENT1 V__ELEMENT2)) (tptp.s__instance V__PROCESS tptp.s__ChemicalSynthesis) (tptp.s__resource V__PROCESS V__ELEMENT1) (tptp.s__resource V__PROCESS V__ELEMENT2) (tptp.s__result V__PROCESS V__COMPOUND))))) (tptp.s__subclass tptp.s__ChemicalDecomposition tptp.s__ChemicalProcess) (tptp.s__instance tptp.s__ChemicalProcess__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__ChemicalDecomposition tptp.s__Separating) (tptp.s__instance tptp.s__ChemicalDecomposition__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Separating__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ChemicalDecomposition tptp.s__EnglishLanguage |tptp.'The &%Class of &%ChemicalProcesses in which a &%CompoundSubstance breaks down into simpler products.'|) (forall ((V__SUBSTANCE1 $$unsorted) (V__SUBSTANCE2 $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__SUBSTANCE1 tptp.s__Object)) (=> (and (tptp.s__resource V__PROC V__SUBSTANCE1) (tptp.s__result V__PROC V__SUBSTANCE2) (tptp.s__instance V__SUBSTANCE1 tptp.s__CompoundSubstance) (tptp.s__instance V__SUBSTANCE2 tptp.s__ElementalSubstance)) (tptp.s__instance V__PROC tptp.s__ChemicalDecomposition)))) (tptp.s__subclass tptp.s__Combustion tptp.s__ChemicalDecomposition) (tptp.s__instance tptp.s__Combustion__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Combustion tptp.s__EnglishLanguage |tptp.'The &%Class of &%ChemicalProcesses in which an &%Object reacts with oxygen and gives off heat. This includes all &%Processes in which something is burning.'|) (forall ((V__COMBUSTION $$unsorted)) (=> (tptp.s__instance V__COMBUSTION tptp.s__Process) (=> (tptp.s__instance V__COMBUSTION tptp.s__Combustion) (exists ((V__HEAT $$unsorted) (V__LIGHT $$unsorted)) (and (tptp.s__instance V__LIGHT tptp.s__Process) (tptp.s__instance V__HEAT tptp.s__Process) (tptp.s__instance V__HEAT tptp.s__Heating) (tptp.s__instance V__LIGHT tptp.s__RadiatingLight) (tptp.s__subProcess V__HEAT V__COMBUSTION) (tptp.s__subProcess V__LIGHT V__COMBUSTION)))))) (tptp.s__instance tptp.s__Flammable tptp.s__PhysicalAttribute) (tptp.s__documentation tptp.s__Flammable tptp.s__EnglishLanguage |tptp.'The &%Attribute of being flammable at normal temperatures (i.e. not while a &%Plasma).'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__attribute V__X tptp.s__Flammable) (tptp.s__capability tptp.s__Combustion tptp.s__patient__m V__X)))) (tptp.s__subclass tptp.s__InternalChange tptp.s__Process) (tptp.s__documentation tptp.s__InternalChange tptp.s__EnglishLanguage |tptp.'&%Processes which involve altering an internal property of an &%Object, e.g. the shape of the &%Object, its coloring, its structure, etc. &%Processes that are not instances of this class include changes that only affect the relationship to other objects, e.g. changes in spatial or temporal location.'|) (tptp.s__subclass tptp.s__SurfaceChange tptp.s__InternalChange) (tptp.s__instance tptp.s__SurfaceChange__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__InternalChange__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SurfaceChange tptp.s__EnglishLanguage |tptp.'&%Processes which involve altering the properties that apply to the surface of an &%Object.'|) (tptp.s__subclass tptp.s__Coloring tptp.s__SurfaceChange) (tptp.s__instance tptp.s__Coloring__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Coloring tptp.s__EnglishLanguage |tptp.'The &%subclass of &%SurfaceChange where a &%ColorAttribute of the &%patient is altered. Note that the change in color may apply to just part of the object.'|) (tptp.s__subclass tptp.s__ShapeChange tptp.s__InternalChange) (tptp.s__instance tptp.s__ShapeChange__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ShapeChange tptp.s__EnglishLanguage |tptp.'The &%Process of changing the shape of an &%Object.'|) (tptp.s__subclass tptp.s__ContentDevelopment tptp.s__IntentionalProcess) (tptp.s__documentation tptp.s__ContentDevelopment tptp.s__EnglishLanguage |tptp.'A &%subclass of &%IntentionalProcess in which content is modified, its form is altered or it is created anew.'|) (forall ((V__DEVELOP $$unsorted)) (=> (tptp.s__instance V__DEVELOP tptp.s__Process) (=> (tptp.s__instance V__DEVELOP tptp.s__ContentDevelopment) (exists ((V__OBJ $$unsorted)) (and (tptp.s__instance V__OBJ tptp.s__ContentBearingObject) (tptp.s__result V__DEVELOP V__OBJ)))))) (tptp.s__subclass tptp.s__Reading tptp.s__ContentDevelopment) (tptp.s__instance tptp.s__Reading__t tptp.s__SetOrClass) (tptp.s__relatedInternalConcept tptp.s__Reading tptp.s__Interpreting) (tptp.s__documentation tptp.s__Reading tptp.s__EnglishLanguage |tptp.'A &%subclass of &%ContentDevelopment in which content is converted from a written form into a spoken representation. Note that the class &%Interpreting should be used in cases where a &%Text is read silently.'|) (forall ((V__READ $$unsorted)) (=> (tptp.s__instance V__READ tptp.s__Process) (=> (tptp.s__instance V__READ tptp.s__Reading) (exists ((V__TEXT $$unsorted) (V__PROP $$unsorted)) (and (tptp.s__instance V__PROP tptp.s__Proposition) (tptp.s__instance V__TEXT tptp.s__ContentBearingPhysical) (tptp.s__instance V__TEXT tptp.s__Text) (tptp.s__containsInformation V__TEXT V__PROP) (tptp.s__realization V__READ V__PROP)))))) (tptp.s__subclass tptp.s__Writing tptp.s__ContentDevelopment) (tptp.s__instance tptp.s__Writing__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__ContentDevelopment__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Writing tptp.s__EnglishLanguage |tptp.'A &%subclass of &%ContentDevelopment in which content is converted from one form (e.g. uttered, written or represented mentally) into a written form. Note that this class covers both transcription and original creation of written &%Texts.'|) (tptp.s__subclass tptp.s__Encoding tptp.s__Writing) (tptp.s__instance tptp.s__Encoding__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Encoding tptp.s__EnglishLanguage |tptp.'Converting a document or message into a formal language or into a code that can be understood only by a relatively small body of &%Agents. Generally speaking, this hinders wide dissemination of the content in the original document or message.'|) (tptp.s__subclass tptp.s__Decoding tptp.s__Writing) (tptp.s__instance tptp.s__Decoding__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__Decoding tptp.s__Encoding) (tptp.s__documentation tptp.s__Decoding tptp.s__EnglishLanguage |tptp.'Converting a document or message that has previously been encoded (see &%Encoding) into a &%Language that can be understood by a relatively large number of speakers.'|) (forall ((V__DECODE $$unsorted) (V__DOC1 $$unsorted) (V__PROP $$unsorted)) (=> (and (tptp.s__instance V__PROP tptp.s__Proposition) (tptp.s__instance V__DOC1 tptp.s__ContentBearingPhysical) (tptp.s__instance V__DECODE tptp.s__Process)) (=> (and (tptp.s__instance V__DECODE tptp.s__Decoding) (tptp.s__patient V__DECODE V__DOC1)) (exists ((V__ENCODE $$unsorted) (V__DOC2 $$unsorted) (V__TIME $$unsorted)) (and (tptp.s__instance V__TIME tptp.s__TimePosition) (tptp.s__instance V__DOC2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__ENCODE tptp.s__Process) (tptp.s__containsInformation V__DOC2 V__PROP) (tptp.s__containsInformation V__DOC1 V__PROP) (tptp.s__temporalPart V__TIME (tptp.s__PastFn (tptp.s__WhenFn V__DECODE))) (tptp.s__holdsDuring V__TIME |tptp.'(s__instance(V__ENCODE,s__Encoding) & s__patient(V__ENCODE,V__DOC2))'|)))))) (tptp.s__subclass tptp.s__Translating tptp.s__ContentDevelopment) (tptp.s__subclass tptp.s__Translating tptp.s__DualObjectProcess) (tptp.s__instance tptp.s__Translating__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Translating tptp.s__EnglishLanguage |tptp.'Converting content from one &%Language into another. This covers oral translation (i.e. interpreting) as well as written translation.'|) (forall ((V__EXPRESSION1 $$unsorted) (V__EXPRESSION2 $$unsorted) (V__TRANSLATE $$unsorted)) (=> (and (tptp.s__instance V__TRANSLATE tptp.s__Process) (tptp.s__instance V__EXPRESSION2 tptp.s__LinguisticExpression) (tptp.s__instance V__EXPRESSION1 tptp.s__LinguisticExpression)) (=> (and (tptp.s__instance V__TRANSLATE tptp.s__Translating) (tptp.s__patient V__TRANSLATE V__EXPRESSION1) (tptp.s__result V__TRANSLATE V__EXPRESSION2)) (exists ((V__LANGUAGE1 $$unsorted) (V__LANGUAGE2 $$unsorted) (V__ENTITY $$unsorted)) (and (tptp.s__instance V__LANGUAGE2 tptp.s__Language) (tptp.s__instance V__LANGUAGE1 tptp.s__Language) (tptp.s__representsInLanguage V__EXPRESSION1 V__ENTITY V__LANGUAGE1) (tptp.s__representsInLanguage V__EXPRESSION2 V__ENTITY V__LANGUAGE2) (not (= V__LANGUAGE1 V__LANGUAGE2))))))) (tptp.s__subclass tptp.s__Wetting tptp.s__Putting) (tptp.s__instance tptp.s__Wetting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Wetting tptp.s__EnglishLanguage |tptp.'The &%Class of &%Processes where a &%Liquid is added to an &%Object.'|) (forall ((V__WET $$unsorted)) (=> (tptp.s__instance V__WET tptp.s__Process) (=> (tptp.s__instance V__WET tptp.s__Wetting) (exists ((V__OBJ $$unsorted)) (and (tptp.s__instance V__OBJ tptp.s__Object) (tptp.s__attribute V__OBJ tptp.s__Liquid) (tptp.s__patient V__WET V__OBJ)))))) (tptp.s__subclass tptp.s__Drying tptp.s__Removing) (tptp.s__instance tptp.s__Drying__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Removing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Drying tptp.s__EnglishLanguage |tptp.'The &%Class of &%Processes where a &%Liquid is removed from an &%Object.'|) (tptp.s__subclass tptp.s__Creation tptp.s__InternalChange) (tptp.s__relatedInternalConcept tptp.s__Creation tptp.s__Destruction) (tptp.s__documentation tptp.s__Creation tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Process in which something is created. Note that the thing created is specified with the &%result &%CaseRole.'|) (forall ((V__ACTION $$unsorted)) (=> (tptp.s__instance V__ACTION tptp.s__Process) (=> (tptp.s__instance V__ACTION tptp.s__Creation) (exists ((V__RESULT $$unsorted)) (tptp.s__result V__ACTION V__RESULT))))) (forall ((V__PROCESS $$unsorted)) (=> (tptp.s__instance V__PROCESS tptp.s__Process) (= (tptp.s__instance V__PROCESS tptp.s__Creation) (exists ((V__PATIENT $$unsorted)) (let ((_let_1 (tptp.s__WhenFn V__PROCESS))) (and (tptp.s__instance V__PATIENT tptp.s__Physical) (tptp.s__patient V__PROCESS V__PATIENT) (tptp.s__time V__PATIENT (tptp.s__EndFn _let_1)) (not (tptp.s__time V__PATIENT (tptp.s__BeginFn _let_1))))))))) (tptp.s__subclass tptp.s__Making tptp.s__Creation) (tptp.s__instance tptp.s__Creation__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Making tptp.s__IntentionalProcess) (tptp.s__documentation tptp.s__Making tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Creation in which an individual &%Artifact or a type of &%Artifact is made.'|) (tptp.s__subclass tptp.s__Constructing tptp.s__Making) (tptp.s__instance tptp.s__Constructing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Constructing tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Making in which a &%StationaryArtifact is built.'|) (forall ((V__ARTIFACT $$unsorted)) (= (exists ((V__BUILD $$unsorted)) (and (tptp.s__instance V__BUILD tptp.s__Process) (tptp.s__instance V__BUILD tptp.s__Constructing) (tptp.s__result V__BUILD V__ARTIFACT))) (tptp.s__instance V__ARTIFACT tptp.s__StationaryArtifact))) (tptp.s__subclass tptp.s__Manufacture tptp.s__Making) (tptp.s__instance tptp.s__Manufacture__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Manufacture tptp.s__EnglishLanguage |tptp.'The &%Making of &%Artifacts on a mass scale.'|) (tptp.s__subclass tptp.s__Publication tptp.s__Manufacture) (tptp.s__instance tptp.s__Publication__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Publication tptp.s__ContentDevelopment) (tptp.s__documentation tptp.s__Publication tptp.s__EnglishLanguage |tptp.'The &%Manufacture of &%Texts. Note that there is no implication that the &%Texts are distributed. Such distribution, when it occurs, is an instance of &%Dissemination.'|) (forall ((V__PUB $$unsorted) (V__TEXT $$unsorted)) (=> (and (tptp.s__instance V__TEXT tptp.s__SetOrClass) (tptp.s__instance V__PUB tptp.s__Process)) (=> (and (tptp.s__instance V__PUB tptp.s__Publication) (tptp.s__patient V__PUB V__TEXT)) (tptp.s__subclass V__TEXT tptp.s__Text)))) (tptp.s__subclass tptp.s__Cooking tptp.s__Making) (tptp.s__instance tptp.s__Cooking__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Making__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Cooking tptp.s__EnglishLanguage |tptp.'The &%Making of an &%instance of &%Food. Note that this can cover any preparation of &%Food, e.g. making a salad, cutting up fruit, etc. It does not necessarily involve the application of heat.'|) (forall ((V__COOK $$unsorted)) (=> (tptp.s__instance V__COOK tptp.s__Process) (=> (tptp.s__instance V__COOK tptp.s__Cooking) (exists ((V__FOOD $$unsorted)) (and (tptp.s__instance V__FOOD (tptp.s__FoodForFn tptp.s__Organism)) (tptp.s__result V__COOK V__FOOD)))))) (tptp.s__subclass tptp.s__Pursuing tptp.s__IntentionalProcess) (tptp.s__instance tptp.s__Pursuing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Pursuing tptp.s__EnglishLanguage |tptp.'The class of &%IntentionalProcesses where something is sought. Some examples would be hunting, shopping, trawling, and stalking.'|) (forall ((V__PURSUE $$unsorted)) (=> (tptp.s__instance V__PURSUE tptp.s__Process) (=> (tptp.s__instance V__PURSUE tptp.s__Pursuing) (exists ((V__OBJ $$unsorted)) (and (tptp.s__instance V__OBJ tptp.s__Object) (tptp.s__patient V__PURSUE V__OBJ)))))) (forall ((V__OBJ $$unsorted) (V__PURSUE $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__PURSUE tptp.s__Process) (tptp.s__instance V__PURSUE tptp.s__TimePosition) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (and (tptp.s__instance V__PURSUE tptp.s__Pursuing) (tptp.s__agent V__PURSUE V__AGENT) (tptp.s__patient V__PURSUE V__OBJ)) (tptp.s__holdsDuring V__PURSUE |tptp.'(~ s__possesses(V__AGENT,V__OBJ))'|)))) (tptp.s__subclass tptp.s__Hunting tptp.s__Pursuing) (tptp.s__instance tptp.s__Hunting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Hunting tptp.s__EnglishLanguage |tptp.'Hunting is the class of &%Processes in which an animal or animals are pursued and sometimes captured and/or killed.'|) (forall ((V__H $$unsorted)) (=> (tptp.s__instance V__H tptp.s__Process) (=> (tptp.s__instance V__H tptp.s__Hunting) (exists ((V__T $$unsorted)) (and (tptp.s__instance V__T tptp.s__Animal) (tptp.s__patient V__H V__T)))))) (forall ((V__P $$unsorted) (V__H $$unsorted)) (=> (tptp.s__instance V__H tptp.s__Process) (=> (and (tptp.s__instance V__H tptp.s__Hunting) (tptp.s__patient V__H V__P)) (tptp.s__hasPurpose V__H |tptp.'(? [V__PROC] : (s__instance(V__PROC,s__Process) & s__patient(V__PROC,V__P) & (s__instance(V__PROC,s__Confining) _ s__instance(V__PROC,s__Killing))))'|)))) (tptp.s__subclass tptp.s__Investigating tptp.s__IntentionalPsychologicalProcess) (tptp.s__instance tptp.s__Investigating__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__IntentionalPsychologicalProcess__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Investigating tptp.s__EnglishLanguage |tptp.'The class of &%IntentionalPsychologicalProcesses where the &%agent attempts to obtaina information (i.e. a &%Proposition denoted by a &%Formula).'|) (forall ((V__INVESTIGATE $$unsorted) (V__PROP $$unsorted)) (=> (tptp.s__instance V__INVESTIGATE tptp.s__Process) (=> (and (tptp.s__instance V__INVESTIGATE tptp.s__Investigating) (tptp.s__patient V__INVESTIGATE V__PROP)) (tptp.s__instance V__PROP tptp.s__Formula)))) (forall ((V__INVESTIGATE $$unsorted) (V__PROP $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__PROP tptp.s__Formula) (tptp.s__instance V__INVESTIGATE tptp.s__Process)) (=> (and (tptp.s__instance V__INVESTIGATE tptp.s__Investigating) (tptp.s__agent V__INVESTIGATE V__AGENT) (tptp.s__patient V__INVESTIGATE V__PROP)) (tptp.s__holdsDuring (tptp.s__WhenFn V__INVESTIGATE) |tptp.'(~ s__knows(V__AGENT,V__PROP))'|)))) (tptp.s__subclass tptp.s__Experimenting tptp.s__Investigating) (tptp.s__instance tptp.s__Experimenting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Experimenting tptp.s__EnglishLanguage |tptp.'&%Investigating the truth of a &%Proposition by constructing and observing a trial. Note that the trial may be either controlled or uncontrolled, blind or not blind.'|) (tptp.s__subclass tptp.s__DiagnosticProcess tptp.s__Investigating) (tptp.s__instance tptp.s__DiagnosticProcess__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__DiagnosticProcess tptp.s__EnglishLanguage |tptp.'A &%Process that is carried out for the purpose of determining the nature of a &%DiseaseOrSyndrome.'|) (tptp.s__subclass tptp.s__SocialInteraction tptp.s__IntentionalProcess) (tptp.s__documentation tptp.s__SocialInteraction tptp.s__EnglishLanguage |tptp.'The &%subclass of &%IntentionalProcess that involves interactions between &%CognitiveAgents.'|) (forall ((V__INTERACTION $$unsorted)) (=> (tptp.s__instance V__INTERACTION tptp.s__Process) (=> (tptp.s__instance V__INTERACTION tptp.s__SocialInteraction) (exists ((V__AGENT1 $$unsorted) (V__AGENT2 $$unsorted)) (and (tptp.s__involvedInEvent V__INTERACTION V__AGENT1) (tptp.s__involvedInEvent V__INTERACTION V__AGENT2) (tptp.s__instance V__AGENT1 tptp.s__Agent) (tptp.s__instance V__AGENT2 tptp.s__Agent) (not (= V__AGENT1 V__AGENT2))))))) (tptp.s__subclass tptp.s__Pretending tptp.s__SocialInteraction) (tptp.s__instance tptp.s__Pretending__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Pretending tptp.s__EnglishLanguage |tptp.'Any &%SocialInteraction where a &%CognitiveAgent or &%Group of &%CognitiveAgents attempts to make another &%CognitiveAgent or &%Group of &%CognitiveAgents believe something that is false. This covers deceit, affectation, impersonation, and entertainment productions, to give just a few examples.'|) (tptp.s__subclass tptp.s__Communication tptp.s__SocialInteraction) (tptp.s__subclass tptp.s__Communication tptp.s__ContentBearingProcess) (tptp.s__partition_7 tptp.s__Communication tptp.s__Stating tptp.s__Supposing tptp.s__Directing tptp.s__Committing tptp.s__Expressing tptp.s__Declaring) (tptp.s__relatedInternalConcept tptp.s__Communication tptp.s__ContentDevelopment) (tptp.s__documentation tptp.s__Communication tptp.s__EnglishLanguage |tptp.'A &%SocialInteraction that involves the transfer of information between two or more &%CognitiveAgents. Note that &%Communication is closely related to, but essentially different from, &%ContentDevelopment. The latter involves the creation or modification of a &%ContentBearingObject, while &%Communication is the transfer of information for the purpose of conveying a message.'|) (forall ((V__COMMUNICATE $$unsorted)) (=> (tptp.s__instance V__COMMUNICATE tptp.s__Process) (=> (tptp.s__instance V__COMMUNICATE tptp.s__Communication) (exists ((V__PHYS $$unsorted) (V__ENTITY $$unsorted) (V__AGENT1 $$unsorted) (V__AGENT2 $$unsorted)) (and (tptp.s__instance V__AGENT1 tptp.s__Agent) (tptp.s__refers V__PHYS V__ENTITY) (tptp.s__patient V__COMMUNICATE V__PHYS) (tptp.s__instance V__AGENT1 tptp.s__CognitiveAgent) (tptp.s__agent V__COMMUNICATE V__AGENT1) (tptp.s__instance V__AGENT2 tptp.s__CognitiveAgent) (tptp.s__destination V__COMMUNICATE V__AGENT2)))))) (tptp.s__subclass tptp.s__Disseminating tptp.s__Communication) (tptp.s__instance tptp.s__Disseminating__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Disseminating tptp.s__EnglishLanguage |tptp.'Any &%Communication that involves a single &%agent and many &%destinations. This covers the release of a published book, broadcasting, a theatrical performance, giving orders to assembled troops, delivering a public lecture, etc.'|) (forall ((V__DISSEMINATE $$unsorted)) (=> (tptp.s__instance V__DISSEMINATE tptp.s__Process) (=> (tptp.s__instance V__DISSEMINATE tptp.s__Disseminating) (exists ((V__AGENT1 $$unsorted) (V__AGENT2 $$unsorted)) (and (tptp.s__destination V__DISSEMINATE V__AGENT1) (tptp.s__instance V__AGENT1 tptp.s__CognitiveAgent) (tptp.s__destination V__DISSEMINATE V__AGENT2) (tptp.s__instance V__AGENT2 tptp.s__CognitiveAgent) (not (= V__AGENT1 V__AGENT2))))))) (tptp.s__subclass tptp.s__Demonstrating tptp.s__Disseminating) (tptp.s__instance tptp.s__Demonstrating__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Demonstrating tptp.s__EnglishLanguage |tptp.'Exhibiting something or a range of things before the public in a particular location. This would cover software demos, theatrical plays, lectures, dance and music recitals, museum exhibitions, etc.'|) (forall ((V__DEMO $$unsorted)) (=> (tptp.s__instance V__DEMO tptp.s__Demonstrating) (exists ((V__PERSON $$unsorted)) (and (tptp.s__instance V__PERSON tptp.s__Human) (tptp.s__attends V__DEMO V__PERSON))))) (tptp.s__subrelation tptp.s__attends__m tptp.s__experiencer__m) (tptp.s__domain tptp.s__attends__m |"1"| tptp.s__Demonstrating) (tptp.s__domain tptp.s__attends__m |"2"| tptp.s__Human) (tptp.s__documentation tptp.s__attends__m tptp.s__EnglishLanguage |tptp.'(&%attends ?DEMO ?PERSON) means that ?PERSON attends, i.e. is a member of the audience, of the performance event ?DEMO.'|) (tptp.s__subclass tptp.s__Gesture tptp.s__Communication) (tptp.s__subclass tptp.s__Gesture tptp.s__BodyMotion) (tptp.s__instance tptp.s__Gesture__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Gesture tptp.s__EnglishLanguage |tptp.'Any &%BodyMotion, e.g. a hand wave, a nod of the head, a smile, which is also an instance of &%Communication.'|) (tptp.s__subclass tptp.s__Advertising tptp.s__Disseminating) (tptp.s__instance tptp.s__Advertising__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Advertising tptp.s__EnglishLanguage |tptp.'A &%Disseminating whose purpose is to promote the sale of an &%Object represented in a &%Text or &%Icon (the advertisement).'|) (forall ((V__ADVERT $$unsorted)) (=> (tptp.s__instance V__ADVERT tptp.s__Physical) (=> (tptp.s__instance V__ADVERT tptp.s__Advertising) (exists ((V__OBJ $$unsorted)) (and (tptp.s__refers V__ADVERT V__OBJ) (tptp.s__hasPurpose V__ADVERT |tptp.'(? [V__SALE] : (s__instance(V__SALE,s__Process) & s__instance(V__SALE,s__Selling) & s__patient(V__SALE,V__OBJ)))'|)))))) (tptp.s__subclass tptp.s__Expressing tptp.s__Communication) (tptp.s__instance tptp.s__Expressing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Expressing tptp.s__EnglishLanguage |tptp.'Instances of this &%Class express a state of the &%agent. For example, Jane thanked Barbara for the present she had given her. The thanking in this case expresses the gratitude of Jane towards Barbara. Note that &%Expressing, unlike the other speech act types, is not a subclass of &%LinguisticCommunication. This is because emotions, for example, can be expressed without language, e.g. by smiling.'|) (forall ((V__EXPRESS $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__EXPRESS tptp.s__Process)) (=> (and (tptp.s__instance V__EXPRESS tptp.s__Expressing) (tptp.s__agent V__EXPRESS V__AGENT)) (exists ((V__STATE $$unsorted)) (and (tptp.s__instance V__STATE tptp.s__Attribute) (tptp.s__instance V__STATE tptp.s__StateOfMind) (tptp.s__attribute V__AGENT V__STATE) (tptp.s__represents V__EXPRESS V__STATE)))))) (tptp.s__subclass tptp.s__LinguisticCommunication tptp.s__Communication) (tptp.s__instance tptp.s__LinguisticCommunication__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Communication__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__LinguisticCommunication tptp.s__EnglishLanguage |tptp.'A &%Communication that involves the transfer of information via a &%LinguisticExpression.'|) (forall ((V__COMMUNICATE $$unsorted)) (=> (tptp.s__instance V__COMMUNICATE tptp.s__Process) (=> (tptp.s__instance V__COMMUNICATE tptp.s__LinguisticCommunication) (exists ((V__OBJ $$unsorted)) (and (tptp.s__represents V__COMMUNICATE V__OBJ) (tptp.s__instance V__OBJ tptp.s__LinguisticExpression) (tptp.s__patient V__COMMUNICATE V__OBJ)))))) (tptp.s__subclass tptp.s__Stating tptp.s__LinguisticCommunication) (tptp.s__instance tptp.s__Stating__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Stating tptp.s__EnglishLanguage |tptp.'Instances of this &%Class commit the &%agent to some truth. For example, John claimed that the moon is made of green cheese.'|) (tptp.s__subclass tptp.s__Disagreeing tptp.s__Stating) (tptp.s__instance tptp.s__Disagreeing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Disagreeing tptp.s__EnglishLanguage |tptp.'A &%Stating in which two &%Agents have contradictory statements. This is distinguished from &%Arguing in that the statement in dispute may be a simple assertion, rather than a chain of deduction, and that two entities must be disagreeing with each other, whereas a single entity may craft an argument for a given point of view, without the need for another agent to disagree with.'|) (forall ((V__DIS $$unsorted)) (=> (tptp.s__instance V__DIS tptp.s__Process) (=> (tptp.s__instance V__DIS tptp.s__Disagreeing) (exists ((V__A1 $$unsorted) (V__A2 $$unsorted) (V__STATE1 $$unsorted) (V__STATE2 $$unsorted) (V__STMT1 $$unsorted) (V__STMT2 $$unsorted)) (and (tptp.s__instance V__STMT2 tptp.s__Proposition) (tptp.s__instance V__STMT1 tptp.s__Proposition) (tptp.s__instance V__STATE2 tptp.s__Process) (tptp.s__instance V__STATE2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__STATE1 tptp.s__Process) (tptp.s__instance V__STATE1 tptp.s__ContentBearingPhysical) (tptp.s__instance V__A2 tptp.s__Agent) (tptp.s__instance V__A1 tptp.s__Agent) (tptp.s__subProcess V__STATE1 V__DIS) (tptp.s__subProcess V__STATE2 V__DIS) (tptp.s__agent V__STATE1 V__A1) (tptp.s__agent V__STATE2 V__A2) (tptp.s__containsInformation V__STATE1 V__STMT1) (tptp.s__containsInformation V__STATE2 V__STMT2) (not (tptp.s__consistent V__STMT1 V__STMT2))))))) (tptp.s__subclass tptp.s__Supposing tptp.s__LinguisticCommunication) (tptp.s__instance tptp.s__Supposing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Supposing tptp.s__EnglishLanguage |tptp.'Instances of this &%Class suppose, for the sake of argument, that a proposition is true. For example, John considered what he would do if he won the lottery.'|) (tptp.s__subclass tptp.s__Directing tptp.s__LinguisticCommunication) (tptp.s__instance tptp.s__Directing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Directing tptp.s__EnglishLanguage |tptp.'Instances of this &%Class urge some further action among the receivers. A &%Directing can be an &%Ordering, a &%Requesting or a &%Questioning.'|) (tptp.s__subclass tptp.s__Ordering tptp.s__Directing) (tptp.s__instance tptp.s__Ordering__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Ordering tptp.s__EnglishLanguage |tptp.'A &%Directing in which the receiver is commanded to realize the content of a &%ContentBearingObject. Orders are injunctions, the disobedience of which involves sanctions, or which express an obligation upon the part of the orderee.'|) (forall ((V__ORDER $$unsorted) (V__FORMULA $$unsorted)) (=> (and (tptp.s__instance V__FORMULA tptp.s__Formula) (tptp.s__instance V__ORDER tptp.s__Process)) (=> (and (tptp.s__instance V__ORDER tptp.s__Ordering) (tptp.s__patient V__ORDER V__FORMULA)) (tptp.s__modalAttribute V__FORMULA tptp.s__Obligation)))) (tptp.s__subclass tptp.s__Requesting tptp.s__Directing) (tptp.s__instance tptp.s__Requesting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Requesting tptp.s__EnglishLanguage |tptp.'A request expresses a desire that some future action be performed. For example, the 5th Battalion requested air support from the 3rd Bomber Group. Note that this class covers proposals, recommendations, suggestions, etc.'|) (forall ((V__REQUEST $$unsorted) (V__FORMULA $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__REQUEST tptp.s__Process)) (=> (and (tptp.s__instance V__REQUEST tptp.s__Requesting) (tptp.s__agent V__REQUEST V__AGENT) (tptp.s__patient V__REQUEST V__FORMULA) (tptp.s__instance V__FORMULA tptp.s__Formula)) (tptp.s__desires V__AGENT V__FORMULA)))) (tptp.s__subclass tptp.s__Questioning tptp.s__Directing) (tptp.s__instance tptp.s__Questioning__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Questioning tptp.s__EnglishLanguage |tptp.'A request for information. For example, John asked Bill if the President had said anything about taxes in his State of the Union address.'|) (forall ((V__FORMULA $$unsorted) (V__AGENT $$unsorted) (V__QUESTION $$unsorted)) (=> (and (tptp.s__instance V__QUESTION tptp.s__Process) (tptp.s__instance V__AGENT tptp.s__CognitiveAgent)) (=> (and (tptp.s__instance V__QUESTION tptp.s__Questioning) (tptp.s__agent V__QUESTION V__AGENT) (tptp.s__patient V__QUESTION V__FORMULA) (tptp.s__instance V__FORMULA tptp.s__Formula)) (tptp.s__holdsDuring (tptp.s__WhenFn V__QUESTION) |tptp.'(~ s__knows(V__AGENT,V__FORMULA))'|)))) (tptp.s__subclass tptp.s__Committing tptp.s__LinguisticCommunication) (tptp.s__documentation tptp.s__Committing tptp.s__EnglishLanguage |tptp.'Instances of this &%Class commit the &%agent to some future course. For example, Bob promised Susan that he would be home by 11pm.'|) (forall ((V__FORMULA $$unsorted) (V__COMMIT $$unsorted)) (=> (tptp.s__instance V__COMMIT tptp.s__Process) (=> (and (tptp.s__instance V__COMMIT tptp.s__Committing) (tptp.s__patient V__COMMIT V__FORMULA) (tptp.s__instance V__FORMULA tptp.s__Formula)) (tptp.s__modalAttribute V__FORMULA tptp.s__Promise)))) (tptp.s__subclass tptp.s__Offering tptp.s__Committing) (tptp.s__instance tptp.s__Offering__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Committing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Offering tptp.s__EnglishLanguage |tptp.'The subclass of &%Committing in which a &%CognitiveAgent offers something &%Physical to another agent. Offerings may be unconditional (in which case they are a promise to effect a &%UnilateralGiving) or conditional (in which case they are a promise to effect a &%Transaction of some sort).'|) (tptp.s__subclass tptp.s__Declaring tptp.s__LinguisticCommunication) (tptp.s__instance tptp.s__Declaring__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Declaring tptp.s__EnglishLanguage |tptp.'The &%Class of &%LinguisticCommunications that effect an institutional alteration when performed by competent authority. Some examples are nominating, marrying, and excommunicating.'|) (forall ((V__DECLARE $$unsorted)) (=> (tptp.s__instance V__DECLARE tptp.s__Declaring) (exists ((V__PROP $$unsorted) (V__NORM $$unsorted)) (and (tptp.s__instance V__NORM tptp.s__ObjectiveNorm) (tptp.s__instance V__PROP tptp.s__Formula) (or (tptp.s__confersNorm V__DECLARE V__PROP V__NORM) (tptp.s__deprivesNorm V__DECLARE V__PROP V__NORM)))))) (tptp.s__subclass tptp.s__Naming tptp.s__Declaring) (tptp.s__instance tptp.s__Naming__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Naming tptp.s__EnglishLanguage |tptp.'The &%Process of assigning a name to someone or something.'|) (tptp.s__subclass tptp.s__Cooperation tptp.s__SocialInteraction) (tptp.s__instance tptp.s__Cooperation__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Cooperation tptp.s__EnglishLanguage |tptp.'The &%subclass of &%SocialInteraction where the participants involved work together for the achievement of a common goal.'|) (forall ((V__COOPERATE $$unsorted)) (=> (tptp.s__instance V__COOPERATE tptp.s__Cooperation) (exists ((V__PURP $$unsorted)) (and (tptp.s__instance V__PURP tptp.s__Formula) (forall ((V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__COOPERATE tptp.s__Process)) (=> (tptp.s__agent V__COOPERATE V__AGENT) (tptp.s__hasPurposeForAgent V__COOPERATE V__PURP V__AGENT)))))))) (tptp.s__subclass tptp.s__Meeting tptp.s__SocialInteraction) (tptp.s__instance tptp.s__Meeting__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__SocialInteraction__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Meeting tptp.s__EnglishLanguage |tptp.'The coming together of two or more &%CognitiveAgents for the purpose of &%Communication. This covers informal meetings, e.g. visits with family members, and formal meetings, e.g. a board of directors meeting.'|) (forall ((V__MEET $$unsorted)) (=> (tptp.s__instance V__MEET tptp.s__Process) (=> (tptp.s__instance V__MEET tptp.s__Meeting) (exists ((V__AGENT1 $$unsorted) (V__AGENT2 $$unsorted)) (and (tptp.s__agent V__MEET V__AGENT1) (tptp.s__agent V__MEET V__AGENT2) (tptp.s__hasPurpose V__MEET |tptp.'(? [V__COMM] : (s__instance(V__COMM,s__Process) & s__instance(V__AGENT2,s__Agent) & s__instance(V__AGENT1,s__Agent) & s__instance(V__COMM,s__Communication) & s__agent(V__COMM,V__AGENT1) & s__agent(V__COMM,V__AGENT2)))'|)))))) (tptp.s__subclass tptp.s__Contest tptp.s__SocialInteraction) (tptp.s__documentation tptp.s__Contest tptp.s__EnglishLanguage |tptp.'A &%SocialInteraction where the &%agent and &%patient are &%CognitiveAgents who are trying to defeat one another. Note that this concept is often applied in a metaphorical sense in natural language, when we speak, e.g., of the struggle of plants for space or sunlight, or of bacteria for food resources in some environment.'|) (forall ((V__CONTEST $$unsorted)) (=> (tptp.s__instance V__CONTEST tptp.s__Process) (=> (tptp.s__instance V__CONTEST tptp.s__Contest) (exists ((V__AGENT1 $$unsorted) (V__AGENT2 $$unsorted) (V__PURP1 $$unsorted) (V__PURP2 $$unsorted)) (and (tptp.s__instance V__PURP2 tptp.s__Formula) (tptp.s__instance V__PURP1 tptp.s__Formula) (tptp.s__instance V__AGENT2 tptp.s__CognitiveAgent) (tptp.s__instance V__AGENT1 tptp.s__CognitiveAgent) (tptp.s__agent V__CONTEST V__AGENT1) (tptp.s__agent V__CONTEST V__AGENT2) (tptp.s__hasPurposeForAgent V__CONTEST V__PURP1 V__AGENT1) (tptp.s__hasPurposeForAgent V__CONTEST V__PURP2 V__AGENT2) (not (= V__AGENT1 V__AGENT2)) (not (= V__PURP1 V__PURP2))))))) (tptp.s__subclass tptp.s__ViolentContest tptp.s__Contest) (tptp.s__instance tptp.s__Contest__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ViolentContest tptp.s__EnglishLanguage |tptp.'A &%Contest where one participant attempts to physically injure another participant.'|) (tptp.s__subclass tptp.s__War tptp.s__ViolentContest) (tptp.s__instance tptp.s__War__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__ViolentContest__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__War tptp.s__EnglishLanguage |tptp.'A military confrontation between two or more &%GeopoliticalAreas or &%Organizations whose members are &%GeopoliticalAreas. As the corresponding axiom specifies, a &%War is made up of &%Battles.'|) (forall ((V__WAR $$unsorted)) (=> (tptp.s__instance V__WAR tptp.s__Process) (=> (tptp.s__instance V__WAR tptp.s__War) (exists ((V__BATTLE $$unsorted)) (and (tptp.s__instance V__BATTLE tptp.s__Process) (tptp.s__instance V__BATTLE tptp.s__Battle) (tptp.s__subProcess V__BATTLE V__WAR)))))) (forall ((V__AGENT $$unsorted) (V__WAR $$unsorted)) (=> (and (tptp.s__instance V__WAR tptp.s__War) (tptp.s__agent V__WAR V__AGENT)) (or (tptp.s__instance V__AGENT tptp.s__GeopoliticalArea) (and (tptp.s__instance V__AGENT tptp.s__Organization) (forall ((V__MEMBER $$unsorted)) (=> (and (tptp.s__instance V__MEMBER tptp.s__SelfConnectedObject) (tptp.s__instance V__WAR tptp.s__Process) (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__AGENT tptp.s__Collection)) (=> (tptp.s__member V__MEMBER V__AGENT) (tptp.s__instance V__MEMBER tptp.s__GeopoliticalArea)))))))) (tptp.s__subclass tptp.s__Battle tptp.s__ViolentContest) (tptp.s__instance tptp.s__Battle__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Battle tptp.s__EnglishLanguage |tptp.'A &%ViolentContest between two or more military units within the context of a war. Note that this does not cover the metaphorical sense of battle, which simply means a struggle of some sort. This sense should be represented with the more general concept of &%Contest.'|) (forall ((V__BATTLE $$unsorted)) (=> (tptp.s__instance V__BATTLE tptp.s__Process) (=> (tptp.s__instance V__BATTLE tptp.s__Battle) (exists ((V__WAR $$unsorted)) (and (tptp.s__instance V__WAR tptp.s__Process) (tptp.s__instance V__WAR tptp.s__War) (tptp.s__subProcess V__BATTLE V__WAR)))))) (forall ((V__BATTLE $$unsorted)) (=> (tptp.s__instance V__BATTLE tptp.s__Process) (=> (tptp.s__instance V__BATTLE tptp.s__Battle) (exists ((V__ATTACK $$unsorted)) (and (tptp.s__instance V__ATTACK tptp.s__Process) (tptp.s__instance V__ATTACK tptp.s__ViolentContest) (tptp.s__subProcess V__ATTACK V__BATTLE)))))) (tptp.s__subclass tptp.s__Game tptp.s__Contest) (tptp.s__instance tptp.s__Game__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Game tptp.s__RecreationOrExercise) (tptp.s__documentation tptp.s__Game tptp.s__EnglishLanguage |tptp.'A &%Contest whose purpose is the enjoyment/stimulation of the participants or spectators of the &%Game.'|) (tptp.s__subclass tptp.s__Sport tptp.s__Game) (tptp.s__instance tptp.s__Sport__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sport tptp.s__EnglishLanguage |tptp.'A &%Game which requires some degree of physical exercion from the participants of the game.'|) (tptp.s__subclass tptp.s__LegalAction tptp.s__Contest) (tptp.s__instance tptp.s__LegalAction__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__LegalAction tptp.s__EnglishLanguage |tptp.'Any &%Process where a &%CognitiveAgent seeks to obtain something through a court of law.'|) (tptp.s__subclass tptp.s__Maneuver tptp.s__IntentionalProcess) (tptp.s__documentation tptp.s__Maneuver tptp.s__EnglishLanguage |tptp.'An intentional move or play within a &%Contest. In many cases, a &%Maneuver is a realization of part of a strategy for winning the &%Contest, but it also may be just an arbitrary or semi-arbitrary division of the overarching &%Contest, e.g. innings in a baseball game.'|) (forall ((V__MOVE $$unsorted)) (=> (tptp.s__instance V__MOVE tptp.s__Process) (=> (tptp.s__instance V__MOVE tptp.s__Maneuver) (exists ((V__CONTEST $$unsorted)) (and (tptp.s__instance V__CONTEST tptp.s__Process) (tptp.s__instance V__CONTEST tptp.s__Contest) (tptp.s__subProcess V__MOVE V__CONTEST)))))) (tptp.s__subclass tptp.s__Attack tptp.s__Maneuver) (tptp.s__instance tptp.s__Attack__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Attack tptp.s__EnglishLanguage |tptp.'A &%Maneuver in a &%ViolentContest where the &%agent attempts to inflict damage on the &%patient.'|) (forall ((V__ATTACK $$unsorted)) (=> (tptp.s__instance V__ATTACK tptp.s__Process) (=> (tptp.s__instance V__ATTACK tptp.s__Attack) (exists ((V__CONTEST $$unsorted)) (and (tptp.s__instance V__CONTEST tptp.s__Process) (tptp.s__instance V__CONTEST tptp.s__ViolentContest) (tptp.s__subProcess V__ATTACK V__CONTEST)))))) (forall ((V__OBJ $$unsorted) (V__ATTACK $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__ATTACK tptp.s__Process)) (=> (and (tptp.s__instance V__ATTACK tptp.s__Attack) (tptp.s__agent V__ATTACK V__AGENT) (tptp.s__patient V__ATTACK V__OBJ)) (tptp.s__hasPurposeForAgent V__ATTACK |tptp.'(? [V__DAMAGE] : (s__instance(V__DAMAGE,s__Process) & s__instance(V__DAMAGE,s__Damaging) & s__patient(V__DAMAGE,V__OBJ)))'| V__AGENT)))) (tptp.s__subclass tptp.s__DefensiveManeuver tptp.s__Maneuver) (tptp.s__instance tptp.s__DefensiveManeuver__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Maneuver__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__DefensiveManeuver tptp.s__EnglishLanguage |tptp.'A &%Maneuver in a &%ViolentContest where the &%agent attempts to avoid being damaged.'|) (forall ((V__DEFENSE $$unsorted)) (=> (tptp.s__instance V__DEFENSE tptp.s__Process) (=> (tptp.s__instance V__DEFENSE tptp.s__DefensiveManeuver) (exists ((V__CONTEST $$unsorted)) (and (tptp.s__instance V__CONTEST tptp.s__Process) (tptp.s__instance V__CONTEST tptp.s__ViolentContest) (tptp.s__subProcess V__DEFENSE V__CONTEST)))))) (forall ((V__AGENT $$unsorted) (V__DEFENSE $$unsorted)) (=> (and (tptp.s__instance V__DEFENSE tptp.s__Process) (tptp.s__instance V__AGENT tptp.s__CognitiveAgent)) (=> (and (tptp.s__instance V__DEFENSE tptp.s__DefensiveManeuver) (tptp.s__agent V__DEFENSE V__AGENT)) (tptp.s__hasPurposeForAgent V__DEFENSE |tptp.'(~ (? [V__DAMAGE] : (s__instance(V__DAMAGE,s__Process) & s__instance(V__DAMAGE,s__Damaging) & s__patient(V__DAMAGE,V__AGENT))))'| V__AGENT)))) (forall ((V__CONTEST $$unsorted) (V__MANEUVER $$unsorted)) (=> (and (tptp.s__instance V__MANEUVER tptp.s__Process) (tptp.s__instance V__CONTEST tptp.s__Process)) (=> (and (tptp.s__instance V__MANEUVER tptp.s__Maneuver) (tptp.s__instance V__CONTEST tptp.s__ViolentContest) (tptp.s__subProcess V__MANEUVER V__CONTEST)) (or (tptp.s__instance V__MANEUVER tptp.s__Attack) (tptp.s__instance V__MANEUVER tptp.s__DefensiveManeuver))))) (tptp.s__subclass tptp.s__Perception tptp.s__PsychologicalProcess) (tptp.s__documentation tptp.s__Perception tptp.s__EnglishLanguage |tptp.'Sensing some aspect of the material world. Note that the &%agent of this sensing is assumed to be an &%Animal.'|) (forall ((V__PERCEPT $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__PERCEPT tptp.s__Process)) (=> (and (tptp.s__instance V__PERCEPT tptp.s__Perception) (tptp.s__agent V__PERCEPT V__AGENT)) (tptp.s__instance V__AGENT tptp.s__Animal)))) (forall ((V__AGENT $$unsorted)) (=> (tptp.s__instance V__AGENT tptp.s__Object) (=> (tptp.s__instance V__AGENT tptp.s__SentientAgent) (tptp.s__capability tptp.s__Perception tptp.s__experiencer__m V__AGENT)))) (tptp.s__subclass tptp.s__Seeing tptp.s__Perception) (tptp.s__documentation tptp.s__Seeing tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Perception in which the sensing is done by an ocular &%Organ.'|) (tptp.s__subclass tptp.s__Looking tptp.s__Seeing) (tptp.s__instance tptp.s__Looking__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Seeing__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Looking tptp.s__IntentionalProcess) (tptp.s__documentation tptp.s__Looking tptp.s__EnglishLanguage |tptp.'Any instance of &%Seeing which is intentional.'|) (tptp.s__subclass tptp.s__Smelling tptp.s__Perception) (tptp.s__instance tptp.s__Smelling__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Perception__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Smelling tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Perception in which the sensing is done by an olefactory &%Organ.'|) (forall ((V__OBJ $$unsorted) (V__SMELL $$unsorted)) (=> (and (tptp.s__instance V__SMELL tptp.s__Process) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (and (tptp.s__instance V__SMELL tptp.s__Smelling) (tptp.s__patient V__SMELL V__OBJ)) (exists ((V__ATTR $$unsorted)) (and (tptp.s__instance V__ATTR tptp.s__Attribute) (tptp.s__instance V__ATTR tptp.s__OlfactoryAttribute) (tptp.s__attribute V__OBJ V__ATTR)))))) (tptp.s__subclass tptp.s__Tasting tptp.s__Perception) (tptp.s__instance tptp.s__Tasting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Tasting tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Perception in which the sensing is done by of an &%Organ which can discriminate various tastes.'|) (forall ((V__OBJ $$unsorted) (V__TASTE $$unsorted)) (=> (and (tptp.s__instance V__TASTE tptp.s__Process) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (and (tptp.s__instance V__TASTE tptp.s__Tasting) (tptp.s__patient V__TASTE V__OBJ)) (exists ((V__ATTR $$unsorted)) (and (tptp.s__instance V__ATTR tptp.s__Attribute) (tptp.s__instance V__ATTR tptp.s__TasteAttribute) (tptp.s__attribute V__OBJ V__ATTR)))))) (tptp.s__subclass tptp.s__Hearing tptp.s__Perception) (tptp.s__documentation tptp.s__Hearing tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Perception in which the sensing is done by an auditory &%Organ.'|) (forall ((V__OBJ $$unsorted) (V__HEAR $$unsorted)) (=> (and (tptp.s__instance V__HEAR tptp.s__Process) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (and (tptp.s__instance V__HEAR tptp.s__Hearing) (tptp.s__patient V__HEAR V__OBJ)) (exists ((V__ATTR $$unsorted)) (and (tptp.s__instance V__ATTR tptp.s__Attribute) (tptp.s__instance V__ATTR tptp.s__SoundAttribute) (tptp.s__attribute V__OBJ V__ATTR)))))) (tptp.s__subclass tptp.s__SoundAttribute tptp.s__PerceptualAttribute) (tptp.s__instance tptp.s__SoundAttribute__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__PerceptualAttribute__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__SoundAttribute tptp.s__RelationalAttribute) (tptp.s__documentation tptp.s__SoundAttribute tptp.s__EnglishLanguage |tptp.'The volume of sound relative to a listener.'|) (tptp.s__instance tptp.s__Audible tptp.s__SoundAttribute) (tptp.s__documentation tptp.s__Audible tptp.s__EnglishLanguage |tptp.'A sound level capable of being heard by a &%Human.'|) (forall ((V__HEAR $$unsorted) (V__OBJ $$unsorted) (V__SOUND $$unsorted)) (=> (and (tptp.s__instance V__SOUND tptp.s__Process) (tptp.s__instance V__SOUND tptp.s__Object) (tptp.s__instance V__OBJ tptp.s__Agent)) (=> (and (tptp.s__instance V__SOUND tptp.s__RadiatingSound) (tptp.s__agent V__SOUND V__OBJ) (tptp.s__attribute V__SOUND tptp.s__Audible)) (exists ((V__HUMAN $$unsorted)) (and (tptp.s__instance V__HUMAN tptp.s__Agent) (tptp.s__instance V__HUMAN tptp.s__Human) (tptp.s__capability (tptp.s__KappaFn V__HEAR |tptp.'(s__instance(V__HEAR,s__Hearing) & s__agent(V__HEAR,V__HUMAN) & s__destination(V__HEAR,V__HUMAN) & s__origin(V__HEAR,V__OBJ))'|) tptp.s__agent__m V__HUMAN)))))) (tptp.s__subclass tptp.s__Listening tptp.s__Hearing) (tptp.s__instance tptp.s__Hearing__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Listening tptp.s__IntentionalProcess) (tptp.s__instance tptp.s__Listening__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Listening tptp.s__EnglishLanguage |tptp.'Any instance of &%Hearing which is intentional.'|) (tptp.s__subclass tptp.s__TactilePerception tptp.s__Perception) (tptp.s__instance tptp.s__TactilePerception__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TactilePerception tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Perception in which the sensing is done by &%Touching. Note that &%Touching need not involve &%TactilePerception. For example, a person who has lost all sensation in both of his legs would have no &%TactilePerception of anything his legs were &%Touching.'|) (forall ((V__TACTILE $$unsorted)) (=> (tptp.s__instance V__TACTILE tptp.s__Process) (=> (tptp.s__instance V__TACTILE tptp.s__TactilePerception) (exists ((V__TOUCH $$unsorted)) (and (tptp.s__instance V__TOUCH tptp.s__Process) (tptp.s__instance V__TOUCH tptp.s__Touching) (tptp.s__subProcess V__TOUCH V__TACTILE)))))) (tptp.s__subclass tptp.s__Radiating tptp.s__Motion) (tptp.s__documentation tptp.s__Radiating tptp.s__EnglishLanguage |tptp.'Processes in which some form of electromagnetic radiation, e.g. radio waves, light waves, electrical energy, etc., is given off or absorbed by something else.'|) (tptp.s__subclass tptp.s__RadiatingLight tptp.s__RadiatingElectromagnetic) (tptp.s__instance tptp.s__RadiatingLight__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__RadiatingLight tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Radiating in which light is given off or absorbed. Some examples include blinking, flashing, and glittering.'|) (forall ((V__REGION $$unsorted)) (=> (tptp.s__instance V__REGION tptp.s__Object) (= (exists ((V__EMIT $$unsorted)) (and (tptp.s__instance V__EMIT tptp.s__Process) (tptp.s__instance V__EMIT tptp.s__RadiatingLight) (tptp.s__patient V__EMIT V__REGION) (tptp.s__instance V__REGION tptp.s__Region))) (tptp.s__attribute V__REGION tptp.s__Illuminated)))) (tptp.s__subclass tptp.s__RadiatingInfrared tptp.s__RadiatingElectromagnetic) (tptp.s__instance tptp.s__RadiatingInfrared__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__RadiatingElectromagnetic__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__RadiatingXRay tptp.s__RadiatingElectromagnetic) (tptp.s__instance tptp.s__RadiatingXRay__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__RadiatingSound tptp.s__Radiating) (tptp.s__documentation tptp.s__RadiatingSound tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Radiating in which sound waves are given off or absorbed. Some examples include creaking, roaring, and whistling.'|) (forall ((V__SOUND $$unsorted) (V__EMIT $$unsorted)) (=> (and (tptp.s__instance V__EMIT tptp.s__Process) (tptp.s__instance V__SOUND tptp.s__Agent)) (=> (and (tptp.s__instance V__EMIT tptp.s__RadiatingSound) (tptp.s__agent V__EMIT V__SOUND)) (exists ((V__ATTR $$unsorted)) (and (tptp.s__instance V__ATTR tptp.s__Attribute) (tptp.s__instance V__ATTR tptp.s__SoundAttribute) (tptp.s__attribute V__SOUND V__ATTR)))))) (tptp.s__subclass tptp.s__MakingMusic tptp.s__RadiatingSound) (tptp.s__instance tptp.s__RadiatingSound__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MakingMusic tptp.s__EnglishLanguage |tptp.'&%MakingMusic is a type of &%RadiatingSound where the &%result is intended to be melodic and is produced delibrately'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__MakingMusic |tptp.'making music'|) (tptp.s__comment tptp.s__MakingMusic |tptp.'Changing the old Music to &%MakingMusic to be more consistent with the verb-form that &%Process seem to take. (09-14-2011)'| |tptp.'KJN'|) (tptp.s__partition_3 tptp.s__MakingMusic tptp.s__MakingInstrumentalMusic tptp.s__MakingVocalMusic) (tptp.s__subclass tptp.s__MakingInstrumentalMusic tptp.s__MakingMusic) (tptp.s__instance tptp.s__MakingInstrumentalMusic__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__MakingMusic__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MakingInstrumentalMusic tptp.s__EnglishLanguage |tptp.'&%MakingInstrumentalMusic is a type of &%MakingMusic which is produced using some kind of &%MusicalInstrument'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__MakingInstrumentalMusic |tptp.'instrumental music'|) (forall ((V__M $$unsorted)) (=> (tptp.s__instance V__M tptp.s__Process) (=> (tptp.s__instance V__M tptp.s__MakingInstrumentalMusic) (exists ((V__I $$unsorted)) (and (tptp.s__instance V__I tptp.s__Object) (tptp.s__instance V__I tptp.s__MusicalInstrument) (tptp.s__instrument V__M V__I)))))) (tptp.s__subclass tptp.s__MakingVocalMusic tptp.s__MakingMusic) (tptp.s__instance tptp.s__MakingVocalMusic__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__MakingVocalMusic tptp.s__Vocalizing) (tptp.s__documentation tptp.s__MakingVocalMusic tptp.s__EnglishLanguage |tptp.'&%MakingVocalMusic is a type of &%MakingMusic which is produced by using the vocal cords'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__MakingVocalMusic tptp.singing) (tptp.s__comment tptp.s__MakingVocalMusic |tptp.'Currently, &%VocalMusic also inherits from &%Speaking. Changing this to more general &%Vocalizing. Acapella groups today use their &%VocalCord to create music in ways that are more than just speaking. (09-14-2011)'| |tptp.'KJN'|) (tptp.s__subclass tptp.s__Singing tptp.s__MakingVocalMusic) (tptp.s__instance tptp.s__Singing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Singing tptp.s__EnglishLanguage |tptp.'&%Singing is a type of &%MakingVocalMusic wherein words are produced by the singer. This is different from other forms of &%MakingVocalMusic such as humming or scatting or beatboxing , where the vocal cords are used to create the music but no words are formed.'|) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Process) (=> (tptp.s__instance V__S tptp.s__Singing) (exists ((V__W $$unsorted)) (and (tptp.s__patient V__S V__W) (tptp.s__instance V__W tptp.s__Word)))))) (tptp.s__subclass tptp.s__RadiatingElectromagnetic tptp.s__Radiating) (tptp.s__documentation tptp.s__RadiatingElectromagnetic tptp.s__EnglishLanguage |tptp.'&%RadiatingElectromagnetic is the subclass of &%Radiating processes in which electromagnetic radiation is transmitted or absorbed.'|) (tptp.s__subclass tptp.s__RadiatingNuclear tptp.s__Radiating) (tptp.s__instance tptp.s__RadiatingNuclear__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Radiating__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__RadiatingNuclear tptp.s__EnglishLanguage |tptp.'Releasing atomic energy, i.e. energy from a nuclear reaction.'|) (tptp.s__subclass tptp.s__StateChange tptp.s__InternalChange) (tptp.s__documentation tptp.s__StateChange tptp.s__EnglishLanguage |tptp.'Any &%Process where the &%PhysicalState of &%part of the &%patient of the &%Process changes.'|) (tptp.s__instance tptp.s__atomicNumber__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__atomicNumber__m tptp.s__AsymmetricRelation) (tptp.s__domainSubclass tptp.s__atomicNumber__m |"1"| tptp.s__ElementalSubstance) (tptp.s__domain tptp.s__atomicNumber__m |"2"| tptp.s__PositiveInteger) (tptp.s__documentation tptp.s__atomicNumber__m tptp.s__EnglishLanguage |tptp.'(&%atomicNumber ?ELEMENT ?NUMBER) means that the &%ElementalSubstance ?ELEMENT has the atomic number ?NUMBER. The atomic number is the number of &%Protons in the nucleus of an &%Atom.'|) (forall ((V__PROTON $$unsorted) (V__ATOM $$unsorted) (V__NUMBER $$unsorted) (V__SUBSTANCE $$unsorted) (V__TYPE $$unsorted)) (=> (and (tptp.s__subclass V__TYPE tptp.s__ElementalSubstance) (tptp.s__instance V__TYPE tptp.s__SetOrClass) (tptp.s__instance V__SUBSTANCE tptp.s__Object) (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (tptp.s__instance V__ATOM tptp.s__Object)) (=> (tptp.s__atomicNumber V__TYPE V__NUMBER) (=> (and (tptp.s__instance V__SUBSTANCE V__TYPE) (tptp.s__part V__ATOM V__SUBSTANCE) (tptp.s__instance V__ATOM tptp.s__Atom)) (= V__NUMBER (tptp.s__CardinalityFn (tptp.s__KappaFn V__PROTON |tptp.'(s__part(V__PROTON,V__ATOM) & s__instance(V__PROTON,s__Proton))'|))))))) (tptp.s__instance tptp.s__boilingPoint__m tptp.s__BinaryPredicate) (tptp.s__domainSubclass tptp.s__boilingPoint__m |"1"| tptp.s__PureSubstance) (tptp.s__domain tptp.s__boilingPoint__m |"2"| tptp.s__TemperatureMeasure) (tptp.s__documentation tptp.s__boilingPoint__m tptp.s__EnglishLanguage |tptp.'The temperature at which a &%PureSubstance changes state from a &%Liquid to a &%Gas.'|) (forall ((V__TEMP $$unsorted) (V__BOIL $$unsorted) (V__PRES $$unsorted) (V__X $$unsorted) (V__Y $$unsorted)) (=> (and (tptp.s__instance V__Y tptp.s__SetOrClass) (tptp.s__instance V__X tptp.s__Object) (tptp.s__instance V__PRES tptp.s__RealNumber) (tptp.s__instance V__BOIL tptp.s__RealNumber) (tptp.s__instance V__TEMP tptp.s__RealNumber)) (=> (and (tptp.s__instance V__X V__Y) (tptp.s__subclass V__Y tptp.s__PureSubstance) (tptp.s__barometricPressure V__X (tptp.s__MeasureFn V__PRES tptp.s__InchMercury)) (tptp.greater |"29.92"| V__PRES) (tptp.s__boilingPoint V__Y (tptp.s__MeasureFn V__BOIL tptp.s__KelvinDegree)) (tptp.s__measure V__X (tptp.s__MeasureFn V__TEMP tptp.s__KelvinDegree)) (tptp.greater V__TEMP V__BOIL)) (tptp.s__attribute V__X tptp.s__Gas)))) (forall ((V__TEMP $$unsorted) (V__BOIL $$unsorted) (V__MELT $$unsorted) (V__X $$unsorted) (V__Y $$unsorted)) (=> (and (tptp.s__instance V__Y tptp.s__SetOrClass) (tptp.s__instance V__X tptp.s__Object) (tptp.s__instance V__MELT tptp.s__RealNumber) (tptp.s__instance V__BOIL tptp.s__RealNumber) (tptp.s__instance V__TEMP tptp.s__RealNumber)) (=> (and (tptp.s__instance V__X V__Y) (tptp.s__subclass V__Y tptp.s__PureSubstance) (tptp.s__boilingPoint V__Y (tptp.s__MeasureFn V__BOIL tptp.s__KelvinDegree)) (tptp.s__meltingPoint V__Y (tptp.s__MeasureFn V__MELT tptp.s__KelvinDegree)) (tptp.s__measure V__X (tptp.s__MeasureFn V__TEMP tptp.s__KelvinDegree)) (tptp.greater V__TEMP V__MELT) (tptp.less V__TEMP V__BOIL)) (tptp.s__attribute V__X tptp.s__Liquid)))) (forall ((V__TEMP $$unsorted) (V__PRES $$unsorted) (V__MELT $$unsorted) (V__X $$unsorted) (V__Y $$unsorted)) (=> (and (tptp.s__instance V__Y tptp.s__SetOrClass) (tptp.s__instance V__X tptp.s__Object) (tptp.s__instance V__MELT tptp.s__RealNumber) (tptp.s__instance V__PRES tptp.s__RealNumber) (tptp.s__instance V__TEMP tptp.s__RealNumber)) (=> (and (tptp.s__instance V__X V__Y) (tptp.s__subclass V__Y tptp.s__PureSubstance) (tptp.s__meltingPoint V__Y (tptp.s__MeasureFn V__MELT tptp.s__KelvinDegree)) (tptp.s__barometricPressure V__X (tptp.s__MeasureFn V__PRES tptp.s__InchMercury)) (tptp.greater V__PRES |"29.92"|) (tptp.s__measure V__X (tptp.s__MeasureFn V__TEMP tptp.s__KelvinDegree)) (tptp.less V__TEMP V__MELT)) (tptp.s__attribute V__X tptp.s__Solid)))) (tptp.s__instance tptp.s__meltingPoint__m tptp.s__BinaryPredicate) (tptp.s__domainSubclass tptp.s__meltingPoint__m |"1"| tptp.s__PureSubstance) (tptp.s__domain tptp.s__meltingPoint__m |"2"| tptp.s__TemperatureMeasure) (tptp.s__documentation tptp.s__meltingPoint__m tptp.s__EnglishLanguage |tptp.'The temperature at which a &%PureSubstance changes state from a &%Solid to a &%Liquid. Note that &%Arsenic can sublimate directly from &%Solid to &%Gas which means that its melting and boiling points are equal.'|) (forall ((V__BOIL $$unsorted) (V__MELT $$unsorted) (V__TYPE $$unsorted)) (=> (and (tptp.s__subclass V__TYPE tptp.s__PureSubstance) (tptp.s__instance V__TYPE tptp.s__SetOrClass) (tptp.s__instance V__MELT tptp.s__TemperatureMeasure) (tptp.s__instance V__BOIL tptp.s__TemperatureMeasure)) (=> (and (tptp.s__meltingPoint V__TYPE V__MELT) (tptp.s__boilingPoint V__TYPE V__BOIL)) (tptp.greatereq V__BOIL V__MELT)))) (tptp.s__subclass tptp.s__Melting tptp.s__StateChange) (tptp.s__instance tptp.s__Melting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Melting tptp.s__EnglishLanguage |tptp.'The &%Class of &%Processes where an &%Object is heated and converted from a &%Solid to a &%Liquid.'|) (forall ((V__MELT $$unsorted)) (=> (tptp.s__instance V__MELT tptp.s__Process) (=> (tptp.s__instance V__MELT tptp.s__Melting) (exists ((V__HEAT $$unsorted)) (and (tptp.s__instance V__HEAT tptp.s__Process) (tptp.s__instance V__HEAT tptp.s__Heating) (tptp.s__subProcess V__HEAT V__MELT)))))) (tptp.s__subclass tptp.s__Boiling tptp.s__StateChange) (tptp.s__instance tptp.s__Boiling__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Boiling tptp.s__EnglishLanguage |tptp.'The &%Class of &%Processes where a &%Substance is heated and converted from a &%Liquid to a &%Gas.'|) (forall ((V__BOIL $$unsorted)) (=> (tptp.s__instance V__BOIL tptp.s__Process) (=> (tptp.s__instance V__BOIL tptp.s__Boiling) (exists ((V__HEAT $$unsorted)) (and (tptp.s__instance V__HEAT tptp.s__Process) (tptp.s__instance V__HEAT tptp.s__Heating) (tptp.s__subProcess V__HEAT V__BOIL)))))) (tptp.s__subclass tptp.s__Evaporating tptp.s__StateChange) (tptp.s__instance tptp.s__Evaporating__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Evaporating tptp.s__EnglishLanguage |tptp.'The &%Class of &%Processes where a &%Substance is converted from a &%Liquid to a &%Gas at a temperature below its &%Boiling point.'|) (tptp.s__subclass tptp.s__Condensing tptp.s__StateChange) (tptp.s__instance tptp.s__Condensing__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__StateChange__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Condensing tptp.s__EnglishLanguage |tptp.'The &%Class of &%Processes where an &%Object is cooled and converted from a &%Gas to a &%Liquid.'|) (forall ((V__COND $$unsorted)) (=> (tptp.s__instance V__COND tptp.s__Process) (=> (tptp.s__instance V__COND tptp.s__Condensing) (exists ((V__COOL $$unsorted)) (and (tptp.s__instance V__COOL tptp.s__Process) (tptp.s__instance V__COOL tptp.s__Cooling) (tptp.s__subProcess V__COOL V__COND)))))) (tptp.s__subclass tptp.s__Freezing tptp.s__StateChange) (tptp.s__instance tptp.s__Freezing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Freezing tptp.s__EnglishLanguage |tptp.'The &%Class of &%Processes where an &%Object is cooled and converted from a &%Liquid to a &%Solid.'|) (forall ((V__FREEZE $$unsorted)) (=> (tptp.s__instance V__FREEZE tptp.s__Process) (=> (tptp.s__instance V__FREEZE tptp.s__Freezing) (exists ((V__COOL $$unsorted)) (and (tptp.s__instance V__COOL tptp.s__Process) (tptp.s__instance V__COOL tptp.s__Cooling) (tptp.s__subProcess V__COOL V__FREEZE)))))) (tptp.s__subclass tptp.s__AstronomicalBody tptp.s__Object) (tptp.s__instance tptp.s__AstronomicalBody__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__AstronomicalBody tptp.s__GeographicArea) (tptp.s__documentation tptp.s__AstronomicalBody tptp.s__EnglishLanguage |tptp.'The &%Class of all astronomical objects of significant size. It includes &%SelfConnectedObjects like planets, stars, and asteroids, as well as &%Collections like nebulae, galaxies, and constellations. Note that the planet Earth is an &%AstronomicalBody, but every &%Region of Earth is a &%GeographicArea.'|) (tptp.s__subclass tptp.s__GeographicArea tptp.s__Region) (tptp.s__instance tptp.s__GeographicArea__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Region__t tptp.s__SetOrClass) (tptp.s__partition_3 tptp.s__GeographicArea tptp.s__WaterArea tptp.s__LandArea) (tptp.s__documentation tptp.s__GeographicArea tptp.s__EnglishLanguage |tptp.'A geographic location, generally having definite boundaries. Note that this differs from its immediate superclass &%Region in that a &%GeographicArea is a three-dimensional &%Region of the earth. Accordingly, all astronomical objects other than earth and all one-dimensional and two-dimensional &%Regions are not classed under &%GeographicArea.'|) (tptp.s__subclass tptp.s__LocalizablePlace tptp.s__GeographicArea) (tptp.s__instance tptp.s__LocalizablePlace__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__geographicSubregion__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__geographicSubregion__m tptp.s__TransitiveRelation) (tptp.s__instance tptp.s__geographicSubregion__m tptp.s__AsymmetricRelation) (tptp.s__subrelation tptp.s__geographicSubregion__m tptp.s__properPart__m) (tptp.s__subrelation tptp.s__geographicSubregion__m tptp.s__located__m) (tptp.s__domain tptp.s__geographicSubregion__m |"1"| tptp.s__GeographicArea) (tptp.s__domain tptp.s__geographicSubregion__m |"2"| tptp.s__GeographicArea) (tptp.s__documentation tptp.s__geographicSubregion__m tptp.s__EnglishLanguage |tptp.'(&%geographicSubregion ?PART ?WHOLE) means that the &%GeographicArea ?PART is part of the &%GeographicArea ?WHOLE.'|) (tptp.s__subclass tptp.s__GeopoliticalArea tptp.s__GeographicArea) (tptp.s__subclass tptp.s__GeopoliticalArea tptp.s__Agent) (tptp.s__documentation tptp.s__GeopoliticalArea tptp.s__EnglishLanguage |tptp.'Any &%GeographicArea which is associated with some sort of political structure. This class includes &%Lands, &%Cities, districts of cities, counties, etc. Note that the identity of a &%GeopoliticalArea may remain constant after a change in borders.'|) (forall ((V__PERSON $$unsorted) (V__AREA $$unsorted)) (=> (tptp.s__instance V__PERSON tptp.s__Human) (=> (and (tptp.s__instance V__AREA tptp.s__GeopoliticalArea) (tptp.s__leader (tptp.s__GovernmentFn V__AREA) V__PERSON)) (tptp.s__leader V__AREA V__PERSON)))) (forall ((V__PERSON $$unsorted) (V__AREA $$unsorted)) (=> (tptp.s__instance V__PERSON tptp.s__Human) (=> (and (tptp.s__instance V__AREA tptp.s__GeopoliticalArea) (tptp.s__leader V__AREA V__PERSON)) (tptp.s__leader (tptp.s__GovernmentFn V__AREA) V__PERSON)))) (forall ((V__EVENT $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__EVENT tptp.s__Process)) (=> (and (tptp.s__instance V__EVENT tptp.s__Election) (tptp.s__agent V__EVENT V__AGENT) (tptp.s__instance V__AGENT tptp.s__GeopoliticalArea)) (tptp.s__instance V__EVENT tptp.s__PoliticalProcess)))) (forall ((V__EVENT $$unsorted) (V__AGENT $$unsorted) (V__AREA $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__EVENT tptp.s__Process)) (=> (and (tptp.s__instance V__EVENT tptp.s__Election) (tptp.s__agent V__EVENT V__AGENT) (tptp.s__instance V__AREA tptp.s__GeopoliticalArea) (tptp.s__instance V__AGENT (tptp.s__GovernmentFn V__AREA))) (tptp.s__instance V__EVENT tptp.s__PoliticalProcess)))) (tptp.s__instance tptp.s__geopoliticalSubdivision__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__geopoliticalSubdivision__m tptp.s__TransitiveRelation) (tptp.s__subrelation tptp.s__geopoliticalSubdivision__m tptp.s__geographicSubregion__m) (tptp.s__domain tptp.s__geopoliticalSubdivision__m |"1"| tptp.s__GeopoliticalArea) (tptp.s__domain tptp.s__geopoliticalSubdivision__m |"2"| tptp.s__GeopoliticalArea) (tptp.s__documentation tptp.s__geopoliticalSubdivision__m tptp.s__EnglishLanguage |tptp.'(&%geopoliticalSubdivision ?AREA1 ?AREA2) means that ?AREA1 is any geopolitical part of ?AREA2, that is, ?AREA1 is an integral &%geographicSubregion of ?AREA2 (not a &%DependencyOrSpecialSovereigntyArea), having its own associated &%GovernmentOrganization which is subordinated to or constrained by the government of ?AREA2. Cf. &%dependentGeopoliticalArea.'|) (tptp.s__subclass tptp.s__WaterArea tptp.s__GeographicArea) (tptp.s__documentation tptp.s__WaterArea tptp.s__EnglishLanguage |tptp.'A body which is made up predominantly of water, e.g. rivers, lakes, oceans, etc.'|) (forall ((V__AREA $$unsorted)) (=> (tptp.s__instance V__AREA tptp.s__WaterArea) (exists ((V__BED $$unsorted) (V__HOLE $$unsorted) (V__WATER $$unsorted)) (and (tptp.s__instance V__WATER tptp.s__Object) (tptp.s__instance V__HOLE tptp.s__Hole) (tptp.s__instance V__BED tptp.s__Object) (= (tptp.s__HoleHostFn V__HOLE) V__BED) (tptp.s__instance V__WATER tptp.s__Water) (tptp.s__properlyFills V__WATER V__HOLE) (= (tptp.s__MereologicalSumFn V__BED V__WATER) V__AREA))))) (tptp.s__subclass tptp.s__SaltWaterArea tptp.s__WaterArea) (tptp.s__instance tptp.s__SaltWaterArea__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__WaterArea__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__SaltWaterArea tptp.s__FreshWaterArea) (tptp.s__documentation tptp.s__SaltWaterArea tptp.s__EnglishLanguage |tptp.'A &%WaterArea whose &%Water is saline, e.g. oceans and seas.'|) (tptp.s__subclass tptp.s__FreshWaterArea tptp.s__WaterArea) (tptp.s__instance tptp.s__FreshWaterArea__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FreshWaterArea tptp.s__EnglishLanguage |tptp.'A &%WaterArea whose &%Water is not saline, e.g. most rivers and lakes.'|) (tptp.s__subclass tptp.s__LandArea tptp.s__GeographicArea) (tptp.s__documentation tptp.s__LandArea tptp.s__EnglishLanguage |tptp.'An area which is predominantly solid ground, e.g. a &%Nation, a mountain, a desert, etc. Note that a &%LandArea may contain some relatively small &%WaterAreas. For example, Australia is a &%LandArea even though it contains various rivers and lakes.'|) (forall ((V__LAND1 $$unsorted)) (=> (tptp.s__instance V__LAND1 tptp.s__Object) (=> (tptp.s__instance V__LAND1 tptp.s__LandArea) (exists ((V__LAND2 $$unsorted)) (and (tptp.s__instance V__LAND2 tptp.s__Object) (tptp.s__part V__LAND1 V__LAND2) (or (tptp.s__instance V__LAND2 tptp.s__Continent) (tptp.s__instance V__LAND2 tptp.s__Island))))))) (tptp.s__subclass tptp.s__ShoreArea tptp.s__LandArea) (tptp.s__instance tptp.s__ShoreArea__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ShoreArea tptp.s__EnglishLanguage |tptp.'A &%ShoreArea is a &%LandArea approximately 1-3 km wide bordering a body of water, such as an ocean, bay, river, or lake. A &%ShoreArea may comprise a variety of &%LandForms, such as dunes, sloughs, and marshes.'|) (forall ((V__BANK $$unsorted)) (=> (tptp.s__instance V__BANK tptp.s__Object) (=> (tptp.s__instance V__BANK tptp.s__ShoreArea) (exists ((V__WATER $$unsorted)) (and (tptp.s__instance V__WATER tptp.s__Object) (tptp.s__instance V__WATER tptp.s__WaterArea) (tptp.s__meetsSpatially V__BANK V__WATER)))))) (tptp.s__subclass tptp.s__Continent tptp.s__LandArea) (tptp.s__instance tptp.s__Continent__t tptp.s__SetOrClass) (= (tptp.s__CardinalityFn tptp.s__Continent) |"7"|) (tptp.s__documentation tptp.s__Continent tptp.s__EnglishLanguage |tptp.'As defined in the CIA World Fact Book, &%Continent covers seven land masses: &%Africa, &%NorthAmerica, &%SouthAmerica, &%Antarctica, &%Europe, &%Asia, and &%Oceania. Note that &%Australia, counted as a continent in some other systems, is included in &%Oceania in the Fact Book. As a consequence, there is no &%Nation which is also a &%Continent.'|) (tptp.s__subclass tptp.s__Island tptp.s__LandArea) (tptp.s__instance tptp.s__Island__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Island tptp.s__EnglishLanguage |tptp.'A &%LandArea that is completely surrounded by a &%WaterArea.'|) (forall ((V__ISLAND $$unsorted)) (=> (tptp.s__instance V__ISLAND tptp.s__Object) (=> (tptp.s__instance V__ISLAND tptp.s__Island) (not (exists ((V__AREA $$unsorted) (V__PART1 $$unsorted) (V__PART2 $$unsorted)) (and (tptp.s__instance V__PART2 tptp.s__Object) (tptp.s__instance V__PART1 tptp.s__Object) (tptp.s__instance V__AREA tptp.s__Object) (tptp.s__instance V__AREA tptp.s__LandArea) (tptp.s__part V__PART1 V__ISLAND) (tptp.s__part V__PART2 V__AREA) (not (tptp.s__part V__ISLAND V__AREA)) (not (tptp.s__part V__AREA V__ISLAND)) (tptp.s__meetsSpatially V__PART1 V__PART2))))))) (forall ((V__AREA $$unsorted) (V__ISLE $$unsorted)) (=> (and (tptp.s__instance V__ISLE tptp.s__Object) (tptp.s__instance V__AREA tptp.s__Object)) (=> (and (tptp.s__instance V__ISLE tptp.s__Island) (tptp.s__instance V__AREA tptp.s__GeographicArea) (tptp.s__meetsSpatially V__ISLE V__AREA)) (not (tptp.s__instance V__AREA tptp.s__LandArea))))) (forall ((V__ISLE $$unsorted)) (=> (tptp.s__instance V__ISLE tptp.s__Object) (=> (tptp.s__instance V__ISLE tptp.s__Island) (exists ((V__WATER $$unsorted)) (and (tptp.s__instance V__WATER tptp.s__Object) (tptp.s__instance V__WATER tptp.s__WaterArea) (tptp.s__meetsSpatially V__ISLE V__WATER)))))) (tptp.s__subclass tptp.s__Nation tptp.s__GeopoliticalArea) (tptp.s__instance tptp.s__Nation__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Nation tptp.s__LandArea) (tptp.s__documentation tptp.s__Nation tptp.s__EnglishLanguage |tptp.'The broadest &%GeopoliticalArea, i.e. &%Nations are &%GeopoliticalAreas that are not part of any other overarching and comprehensive governance structure (excepting commonwealths and other sorts of loose international organizations).'|) (tptp.s__subclass tptp.s__StateOrProvince tptp.s__GeopoliticalArea) (tptp.s__instance tptp.s__StateOrProvince__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__StateOrProvince tptp.s__LandArea) (tptp.s__documentation tptp.s__StateOrProvince tptp.s__EnglishLanguage |tptp.'Administrative subdivisions of a &%Nation that are broader than any other political subdivisions that may exist. This &%Class includes the states of the United States, as well as the provinces of Canada and European countries.'|) (forall ((V__STATE $$unsorted)) (=> (tptp.s__instance V__STATE tptp.s__Object) (=> (tptp.s__instance V__STATE tptp.s__StateOrProvince) (exists ((V__LAND $$unsorted)) (and (tptp.s__instance V__LAND tptp.s__Object) (tptp.s__instance V__LAND tptp.s__Nation) (tptp.s__properPart V__STATE V__LAND)))))) (tptp.s__subclass tptp.s__City tptp.s__GeopoliticalArea) (tptp.s__subclass tptp.s__City tptp.s__LandArea) (tptp.s__instance tptp.s__City__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__City tptp.s__EnglishLanguage |tptp.'A &%LandArea of relatively small size, inhabited by a community of people, and having some sort of political structure. Note that this class includes both large cities and small settlements like towns, villages, hamlets, etc.'|) (tptp.s__subclass tptp.s__County tptp.s__GeopoliticalArea) (tptp.s__instance tptp.s__County__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__GeopoliticalArea__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__County tptp.s__LandArea) (tptp.s__instance tptp.s__LandArea__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__County tptp.s__EnglishLanguage |tptp.'A &%GeopoliticalArea that is larger than a city, usually encompassing several cities, and smaller than a &%StateOrProvince. Aside from City, this is the smallest geopolitical subdivision, and it is known by various names in various counties, e.g. parrish, commune, etc.'|) (forall ((V__STATE $$unsorted)) (=> (tptp.s__instance V__STATE tptp.s__Object) (=> (tptp.s__instance V__STATE tptp.s__County) (exists ((V__LAND $$unsorted)) (and (tptp.s__instance V__LAND tptp.s__Object) (tptp.s__instance V__LAND tptp.s__StateOrProvince) (tptp.s__properPart V__STATE V__LAND)))))) (tptp.s__subclass tptp.s__Transitway tptp.s__Region) (tptp.s__subclass tptp.s__Transitway tptp.s__SelfConnectedObject) (tptp.s__documentation tptp.s__Transitway tptp.s__EnglishLanguage |tptp.'&%Transitway is the broadest class of regions which may be passed through as a &%path in instances of &%Translocation. &%Transitway includes land, air, and sea regions, and it includes both natural and artificial transitways.'|) (tptp.s__subclass tptp.s__LandTransitway tptp.s__Transitway) (tptp.s__instance tptp.s__LandTransitway__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Transitway__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__LandTransitway tptp.s__LandArea) (tptp.s__documentation tptp.s__LandTransitway tptp.s__EnglishLanguage |tptp.'&%LandTransitway is the subclass of &%Transitway that represents areas intended for motion over the ground.'|) (forall ((V__WAY $$unsorted)) (=> (tptp.s__instance V__WAY tptp.s__Object) (=> (tptp.s__instance V__WAY tptp.s__Transitway) (tptp.s__hasPurpose V__WAY |tptp.'(? [V__TRANSPORT] : (s__instance(V__TRANSPORT,s__Motion) & s__instance(V__TRANSPORT,s__Transportation) & s__path(V__TRANSPORT,V__WAY)))'|)))) (tptp.s__subclass tptp.s__Roadway tptp.s__LandTransitway) (tptp.s__instance tptp.s__Roadway__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Roadway tptp.s__EnglishLanguage |tptp.'&%Roadway is the subclass of &%LandTransitways that are areas intended for surface travel by self-powered, wheeled vehicles, excluding those that travel on tracks. &%Roadways have been at least minimally improved to enable the passage of vehicles. &%Roadways include dirt and gravelled roads, paved streets, and expressways.'|) (tptp.s__subclass tptp.s__Water tptp.s__CompoundSubstance) (tptp.s__instance tptp.s__Water__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Water tptp.s__EnglishLanguage |tptp.'The &%Class of samples of the compound H20. Note that this &%Class covers both pure and impure &%Water.'|) (tptp.s__subclass tptp.s__Mineral tptp.s__Substance) (tptp.s__instance tptp.s__Mineral__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Substance__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Mineral tptp.s__EnglishLanguage |tptp.'Any of various naturally occurring homogeneous substances (such as stone, coal, salt, sulfur, sand, petroleum), or synthetic substances having the chemical composition and crystalline form and properties of a naturally occurring mineral.'|) (tptp.s__instance tptp.s__developmentalForm__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__developmentalForm__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__developmentalForm__m tptp.s__TransitiveRelation) (tptp.s__subrelation tptp.s__developmentalForm__m tptp.s__attribute__m) (tptp.s__domain tptp.s__developmentalForm__m |"1"| tptp.s__OrganicObject) (tptp.s__domain tptp.s__developmentalForm__m |"2"| tptp.s__DevelopmentalAttribute) (tptp.s__documentation tptp.s__developmentalForm__m tptp.s__EnglishLanguage |tptp.'(&%developmentalForm ?OBJECT ?FORM) means that ?FORM describes a stage in the individual maturation of ?OBJECT. For example, tadpole and caterpillar are &%developmentalForms of frogs and butterflies, respectively.'|) (tptp.s__subclass tptp.s__OrganicObject tptp.s__CorpuscularObject) (tptp.s__instance tptp.s__OrganicObject__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__CorpuscularObject__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__OrganicObject tptp.s__OrganicThing) (tptp.s__instance tptp.s__OrganicThing__t tptp.s__SetOrClass) (tptp.s__partition_3 tptp.s__OrganicObject tptp.s__Organism tptp.s__AnatomicalStructure) (tptp.s__documentation tptp.s__OrganicObject tptp.s__EnglishLanguage |tptp.'This class encompasses &%Organisms, &%CorpuscularObjects that are parts of &%Organisms, i.e. &%BodyParts, and &%CorpuscularObjects that are nonintentionally produced by &%Organisms, e.g. &%ReproductiveBodies.'|) (tptp.s__subclass tptp.s__Organism tptp.s__OrganicObject) (tptp.s__subclass tptp.s__Organism tptp.s__Agent) (tptp.s__disjoint tptp.s__Organism tptp.s__Artifact) (tptp.s__partition_4 tptp.s__Organism tptp.s__Animal tptp.s__Plant tptp.s__Microorganism) (tptp.s__documentation tptp.s__Organism tptp.s__EnglishLanguage |tptp.'Generally, a living individual, including all &%Plants and &%Animals.'|) (forall ((V__ORGANISM $$unsorted)) (=> (tptp.s__instance V__ORGANISM tptp.s__Agent) (=> (tptp.s__instance V__ORGANISM tptp.s__Organism) (exists ((V__BIRTH $$unsorted)) (and (tptp.s__instance V__BIRTH tptp.s__Process) (tptp.s__instance V__BIRTH tptp.s__Birth) (tptp.s__experiencer V__BIRTH V__ORGANISM)))))) (tptp.s__instance tptp.s__inhabits__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__inhabits__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__inhabits__m |"1"| tptp.s__Organism) (tptp.s__domain tptp.s__inhabits__m |"2"| tptp.s__Object) (tptp.s__documentation tptp.s__inhabits__m tptp.s__EnglishLanguage |tptp.'A very basic notion of living within something else. (&%inhabits ?ORGANISM ?OBJECT) means that ?OBJECT is the residence (either permanent or temporary), nest, etc. of ?ORGANISM.'|) (tptp.s__subrelation tptp.s__home__m tptp.s__inhabits__m) (tptp.s__domain tptp.s__home__m |"1"| tptp.s__Human) (tptp.s__domain tptp.s__home__m |"2"| tptp.s__PermanentResidence) (tptp.s__documentation tptp.s__home__m tptp.s__EnglishLanguage |tptp.'The relation between a &%Human and a &%PermanentResidence of the &%Human.'|) (tptp.s__subrelation tptp.s__stays__m tptp.s__inhabits__m) (tptp.s__disjointRelation tptp.s__stays__m tptp.s__home__m) (tptp.s__domain tptp.s__stays__m |"1"| tptp.s__Human) (tptp.s__domain tptp.s__stays__m |"2"| tptp.s__TemporaryResidence) (tptp.s__documentation tptp.s__stays__m tptp.s__EnglishLanguage |tptp.'The relation between a &%Human and a &%TemporaryResidence of the &%Human.'|) (tptp.s__subclass tptp.s__Plant tptp.s__Organism) (tptp.s__documentation tptp.s__Plant tptp.s__EnglishLanguage |tptp.'An &%Organism having cellulose cell walls, growing by synthesis of &%Substances, generally distinguished by the presence of chlorophyll, and lacking the power of locomotion.'|) (tptp.s__subclass tptp.s__FloweringPlant tptp.s__Plant) (tptp.s__instance tptp.s__FloweringPlant__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FloweringPlant tptp.s__EnglishLanguage |tptp.'A &%Plant that produces seeds and flowers. This class includes trees, shrubs, herbs, and flowers.'|) (tptp.s__subclass tptp.s__NonFloweringPlant tptp.s__Plant) (tptp.s__instance tptp.s__NonFloweringPlant__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Plant__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__NonFloweringPlant tptp.s__FloweringPlant) (tptp.s__disjointDecomposition_4 tptp.s__NonFloweringPlant tptp.s__Alga tptp.s__Fern tptp.s__Moss) (tptp.s__documentation tptp.s__NonFloweringPlant tptp.s__EnglishLanguage |tptp.'A &%Plant that reproduces with spores and does not produce flowers.'|) (tptp.s__subclass tptp.s__Alga tptp.s__NonFloweringPlant) (tptp.s__instance tptp.s__Alga__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Alga tptp.s__EnglishLanguage |tptp.'A chiefly aquatic plant that contains chlorophyll, but does not form embryos during development and lacks vascular tissue.'|) (forall ((V__ALGA $$unsorted)) (=> (tptp.s__instance V__ALGA tptp.s__Organism) (=> (tptp.s__instance V__ALGA tptp.s__Alga) (exists ((V__WATER $$unsorted)) (and (tptp.s__instance V__WATER tptp.s__Object) (tptp.s__inhabits V__ALGA V__WATER) (tptp.s__instance V__WATER tptp.s__Water)))))) (tptp.s__subclass tptp.s__Fungus tptp.s__Organism) (tptp.s__instance tptp.s__Fungus__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Fungus tptp.s__EnglishLanguage |tptp.'A eukaryotic &%Organism characterized by the absence of chlorophyll and the presence of rigid cell walls. Included here are both slime molds and true fungi such as yeasts, molds, mildews, and mushrooms.'|) (forall ((V__OBJ $$unsorted) (V__FUNGUS $$unsorted)) (=> (and (tptp.s__instance V__FUNGUS tptp.s__Organism) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (and (tptp.s__instance V__FUNGUS tptp.s__Fungus) (tptp.s__inhabits V__FUNGUS V__OBJ)) (tptp.s__instance V__OBJ tptp.s__Organism)))) (tptp.s__subclass tptp.s__Moss tptp.s__NonFloweringPlant) (tptp.s__instance tptp.s__Moss__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Moss tptp.s__EnglishLanguage |tptp.'A &%NonFloweringPlant without true roots and little if any vascular tissue.'|) (tptp.s__subclass tptp.s__Fern tptp.s__NonFloweringPlant) (tptp.s__instance tptp.s__Fern__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Fern tptp.s__EnglishLanguage |tptp.'A &%NonFloweringPlant that contains vascular tissue. This class includes true ferns, as well as horsetails, club mosses, and whisk ferns.'|) (tptp.s__subclass tptp.s__Animal tptp.s__Organism) (tptp.s__partition_3 tptp.s__Animal tptp.s__Vertebrate tptp.s__Invertebrate) (tptp.s__documentation tptp.s__Animal tptp.s__EnglishLanguage |tptp.'An &%Organism with eukaryotic &%Cells, and lacking stiff cell walls, plastids, and photosynthetic pigments.'|) (tptp.s__subclass tptp.s__Microorganism tptp.s__Organism) (tptp.s__instance tptp.s__Microorganism__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Organism__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Microorganism tptp.s__EnglishLanguage |tptp.'An &%Organism that can be seen only with the aid of a microscope.'|) (tptp.s__subclass tptp.s__Bacterium tptp.s__Microorganism) (tptp.s__instance tptp.s__Bacterium__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Bacterium tptp.s__EnglishLanguage |tptp.'A small, typically one-celled, prokaryotic &%Microorganism.'|) (forall ((V__BACTERIUM $$unsorted)) (=> (tptp.s__instance V__BACTERIUM tptp.s__Bacterium) (exists ((V__CELL1 $$unsorted)) (and (tptp.s__instance V__CELL1 tptp.s__CorpuscularObject) (tptp.s__component V__CELL1 V__BACTERIUM) (tptp.s__instance V__CELL1 tptp.s__Cell) (forall ((V__CELL2 $$unsorted)) (=> (and (tptp.s__instance V__CELL2 tptp.s__CorpuscularObject) (tptp.s__instance V__BACTERIUM tptp.s__CorpuscularObject)) (=> (and (tptp.s__component V__CELL2 V__BACTERIUM) (tptp.s__instance V__CELL2 tptp.s__Cell)) (= V__CELL1 V__CELL2)))))))) (forall ((V__OBJ $$unsorted) (V__BACTERIUM $$unsorted)) (=> (and (tptp.s__instance V__BACTERIUM tptp.s__Organism) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (and (tptp.s__instance V__BACTERIUM tptp.s__Bacterium) (tptp.s__inhabits V__BACTERIUM V__OBJ)) (tptp.s__instance V__OBJ tptp.s__Organism)))) (tptp.s__subclass tptp.s__Virus tptp.s__Microorganism) (tptp.s__instance tptp.s__Virus__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Virus tptp.s__EnglishLanguage |tptp.'An &%Organism consisting of a core of a single nucleic acid enclosed in a protective coat of protein. A virus may replicate only inside a host living cell. A virus exhibits some but not all of the usual characteristics of living things.'|) (forall ((V__OBJ $$unsorted) (V__VIRUS $$unsorted)) (=> (and (tptp.s__instance V__VIRUS tptp.s__Organism) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (and (tptp.s__instance V__VIRUS tptp.s__Virus) (tptp.s__inhabits V__VIRUS V__OBJ)) (tptp.s__instance V__OBJ tptp.s__Organism)))) (forall ((V__VIRUS $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__VIRUS tptp.s__Agent)) (=> (and (tptp.s__instance V__VIRUS tptp.s__Virus) (tptp.s__instance V__PROC tptp.s__Replication) (tptp.s__agent V__PROC V__VIRUS)) (exists ((V__CELL $$unsorted)) (and (tptp.s__instance V__CELL tptp.s__Object) (tptp.s__located V__PROC V__CELL) (tptp.s__instance V__CELL tptp.s__Cell)))))) (tptp.s__subclass tptp.s__Vertebrate tptp.s__Animal) (tptp.s__documentation tptp.s__Vertebrate tptp.s__EnglishLanguage |tptp.'An &%Animal which has a spinal column.'|) (tptp.s__subclass tptp.s__Invertebrate tptp.s__Animal) (tptp.s__instance tptp.s__Invertebrate__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Animal__t tptp.s__SetOrClass) (tptp.s__disjointDecomposition_4 tptp.s__Invertebrate tptp.s__Worm tptp.s__Mollusk tptp.s__Arthropod) (tptp.s__documentation tptp.s__Invertebrate tptp.s__EnglishLanguage |tptp.'An &%Animal which has no spinal column.'|) (tptp.s__subclass tptp.s__Worm tptp.s__Invertebrate) (tptp.s__instance tptp.s__Worm__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Worm tptp.s__EnglishLanguage |tptp.'Long, narrow, soft-bodied &%Invertebrates.'|) (tptp.s__subclass tptp.s__Mollusk tptp.s__Invertebrate) (tptp.s__instance tptp.s__Mollusk__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Mollusk tptp.s__EnglishLanguage |tptp.'Soft-bodied &%Invertebrate that is usually contained in a shell. Includes oysters, clams, mussels, snails, slugs, octopi, and squid.'|) (tptp.s__subclass tptp.s__Arthropod tptp.s__Invertebrate) (tptp.s__disjointDecomposition_5 tptp.s__Arthropod tptp.s__Arachnid tptp.s__Myriapod tptp.s__Insect tptp.s__Crustacean) (tptp.s__documentation tptp.s__Arthropod tptp.s__EnglishLanguage |tptp.'A &%Class of &%Invertebrate that includes &%Arachnids and &%Insects.'|) (tptp.s__subclass tptp.s__Arachnid tptp.s__Arthropod) (tptp.s__instance tptp.s__Arachnid__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Arthropod__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Arachnid tptp.s__EnglishLanguage |tptp.'A &%Class of &%Arthropods that includes ticks and spiders.'|) (tptp.s__subclass tptp.s__Myriapod tptp.s__Arthropod) (tptp.s__instance tptp.s__Myriapod__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Myriapod tptp.s__EnglishLanguage |tptp.'A &%Class of &%Arthropods that includes centipedes and millipedes.'|) (tptp.s__subclass tptp.s__Insect tptp.s__Arthropod) (tptp.s__instance tptp.s__Insect__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Insect tptp.s__EnglishLanguage |tptp.'A &%Class of small &%Arthropods that are air-breathing and that are distinguished by appearance.'|) (tptp.s__subclass tptp.s__Crustacean tptp.s__Arthropod) (tptp.s__instance tptp.s__Crustacean__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Crustacean tptp.s__EnglishLanguage |tptp.'A &%Class of &%Arthropods that mainly dwells in water and has a segmented body and a chitinous exoskeleton. Includes lobsters, crabs, shrimp, and barnacles.'|) (tptp.s__subclass tptp.s__ColdBloodedVertebrate tptp.s__Vertebrate) (tptp.s__instance tptp.s__Vertebrate__t tptp.s__SetOrClass) (tptp.s__disjointDecomposition_4 tptp.s__ColdBloodedVertebrate tptp.s__Amphibian tptp.s__Fish tptp.s__Reptile) (tptp.s__documentation tptp.s__ColdBloodedVertebrate tptp.s__EnglishLanguage |tptp.'&%Vertebrates whose body temperature is not internally regulated.'|) (tptp.s__subclass tptp.s__WarmBloodedVertebrate tptp.s__Vertebrate) (tptp.s__disjoint tptp.s__WarmBloodedVertebrate tptp.s__ColdBloodedVertebrate) (tptp.s__documentation tptp.s__WarmBloodedVertebrate tptp.s__EnglishLanguage |tptp.'&%Vertebrates whose body temperature is internally regulated.'|) (tptp.s__subclass tptp.s__Amphibian tptp.s__ColdBloodedVertebrate) (tptp.s__instance tptp.s__Amphibian__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__ColdBloodedVertebrate__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Amphibian tptp.s__EnglishLanguage |tptp.'A cold-blooded, smooth-skinned &%Vertebrate which characteristically hatches as an aquatic larva, breathing by gills. When mature, the &%Amphibian breathes with &%Lungs.'|) (tptp.s__subclass tptp.s__Bird tptp.s__WarmBloodedVertebrate) (tptp.s__instance tptp.s__Bird__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__WarmBloodedVertebrate__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__Bird tptp.s__Mammal) (tptp.s__documentation tptp.s__Bird tptp.s__EnglishLanguage |tptp.'A &%Vertebrate having a constant body temperature and characterized by the presence of feathers.'|) (tptp.s__subclass tptp.s__Fish tptp.s__ColdBloodedVertebrate) (tptp.s__instance tptp.s__Fish__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Fish tptp.s__EnglishLanguage |tptp.'A cold-blooded aquatic &%Vertebrate characterized by fins and breathing by gills. Included here are &%Fish having either a bony skeleton, such as a perch, or a cartilaginous skeleton, such as a shark. Also included are those &%Fish lacking a jaw, such as a lamprey or hagfish.'|) (forall ((V__FISH $$unsorted)) (=> (tptp.s__instance V__FISH tptp.s__Organism) (=> (tptp.s__instance V__FISH tptp.s__Fish) (exists ((V__WATER $$unsorted)) (and (tptp.s__instance V__WATER tptp.s__Object) (tptp.s__inhabits V__FISH V__WATER) (tptp.s__instance V__WATER tptp.s__Water)))))) (tptp.s__subclass tptp.s__Mammal tptp.s__WarmBloodedVertebrate) (tptp.s__disjointDecomposition_6 tptp.s__Mammal tptp.s__AquaticMammal tptp.s__HoofedMammal tptp.s__Marsupial tptp.s__Rodent tptp.s__Primate) (tptp.s__documentation tptp.s__Mammal tptp.s__EnglishLanguage |tptp.'A &%Vertebrate having a constant body temperature and characterized by the presence of hair, mammary glands, and sweat glands.'|) (tptp.s__subclass tptp.s__AquaticMammal tptp.s__Mammal) (tptp.s__instance tptp.s__AquaticMammal__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AquaticMammal tptp.s__EnglishLanguage |tptp.'The &%Class of &%Mammals that dwell chiefly in the water. Includes whales, dolphins, manatees, seals, and walruses.'|) (tptp.s__subclass tptp.s__HoofedMammal tptp.s__Mammal) (tptp.s__instance tptp.s__HoofedMammal__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__HoofedMammal tptp.s__EnglishLanguage |tptp.'The &%Class of quadruped &%Mammals with hooves. Includes horses, cows, sheep, pigs, antelope, etc.'|) (tptp.s__subclass tptp.s__Marsupial tptp.s__Mammal) (tptp.s__instance tptp.s__Marsupial__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Mammal__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Marsupial tptp.s__EnglishLanguage |tptp.'The &%Class of &%Mammals which have a pouch for their young.'|) (tptp.s__subclass tptp.s__Carnivore tptp.s__Mammal) (tptp.s__documentation tptp.s__Carnivore tptp.s__EnglishLanguage |tptp.'The &%Class of flesh-eating &%Mammals. Members of this &%Class typically have four or five claws on each paw. Includes cats, dogs, bears, racoons, and skunks.'|) (forall ((V__EAT $$unsorted) (V__CARNIVORE $$unsorted) (V__PREY $$unsorted)) (=> (and (tptp.s__instance V__CARNIVORE tptp.s__Agent) (tptp.s__instance V__EAT tptp.s__Process)) (=> (and (tptp.s__instance V__CARNIVORE tptp.s__Carnivore) (tptp.s__instance V__EAT tptp.s__Eating) (tptp.s__agent V__EAT V__CARNIVORE) (tptp.s__patient V__EAT V__PREY)) (tptp.s__instance V__PREY tptp.s__Animal)))) (tptp.s__subclass tptp.s__Canine tptp.s__Carnivore) (tptp.s__instance tptp.s__Canine__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Carnivore__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__Canine tptp.s__Feline) (tptp.s__documentation tptp.s__Canine tptp.s__EnglishLanguage |tptp.'The &%Class of &%Carnivores with completely separable toes, nonretractable claws, and long muzzles.'|) (tptp.s__subclass tptp.s__Feline tptp.s__Carnivore) (tptp.s__instance tptp.s__Feline__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Feline tptp.s__EnglishLanguage |tptp.'The &%Class of &%Carnivores with completely separable toes, slim bodies, and rounded heads. All felines other than the cheetah have retractable claws.'|) (tptp.s__subclass tptp.s__Rodent tptp.s__Mammal) (tptp.s__instance tptp.s__Rodent__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Rodent tptp.s__EnglishLanguage |tptp.'The &%Class of &%Mammals with one or two pairs of incisors for gnawing. Includes rats, mice, guinea pigs, and rabbits.'|) (tptp.s__subclass tptp.s__Primate tptp.s__Mammal) (tptp.s__disjointDecomposition_4 tptp.s__Primate tptp.s__Ape tptp.s__Monkey tptp.s__Hominid) (tptp.s__documentation tptp.s__Primate tptp.s__EnglishLanguage |tptp.'The &%Class of &%Mammals which are &%Primates.'|) (tptp.s__subclass tptp.s__Ape tptp.s__Primate) (tptp.s__instance tptp.s__Ape__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Ape tptp.s__EnglishLanguage |tptp.'Various &%Primates with no tails or only short tails.'|) (tptp.s__subclass tptp.s__Monkey tptp.s__Primate) (tptp.s__instance tptp.s__Monkey__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Primate__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Monkey tptp.s__EnglishLanguage |tptp.'Various &%Primates with relatively long tails.'|) (tptp.s__subclass tptp.s__Hominid tptp.s__Primate) (tptp.s__instance tptp.s__Hominid__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Hominid tptp.s__EnglishLanguage |tptp.'Includes &%Humans and relatively recent ancestors of &%Humans.'|) (tptp.s__subclass tptp.s__Human tptp.s__Hominid) (tptp.s__subclass tptp.s__Human tptp.s__CognitiveAgent) (tptp.s__instance tptp.s__CognitiveAgent__t tptp.s__SetOrClass) (tptp.s__partition_3 tptp.s__Human tptp.s__Man tptp.s__Woman) (tptp.s__documentation tptp.s__Human tptp.s__EnglishLanguage |tptp.'Modern man, the only remaining species of the Homo genus.'|) (tptp.s__subclass tptp.s__Man tptp.s__Human) (tptp.s__instance tptp.s__Man__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Man tptp.s__EnglishLanguage |tptp.'The class of &%Male &%Humans.'|) (forall ((V__MAN $$unsorted)) (=> (tptp.s__instance V__MAN tptp.s__Object) (=> (tptp.s__instance V__MAN tptp.s__Man) (tptp.s__attribute V__MAN tptp.s__Male)))) (tptp.s__subclass tptp.s__Woman tptp.s__Human) (tptp.s__instance tptp.s__Woman__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Human__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Woman tptp.s__EnglishLanguage |tptp.'The class of &%Female &%Humans.'|) (forall ((V__WOMAN $$unsorted)) (=> (tptp.s__instance V__WOMAN tptp.s__Object) (=> (tptp.s__instance V__WOMAN tptp.s__Woman) (tptp.s__attribute V__WOMAN tptp.s__Female)))) (tptp.s__subclass tptp.s__Reptile tptp.s__ColdBloodedVertebrate) (tptp.s__instance tptp.s__Reptile__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Reptile tptp.s__EnglishLanguage |tptp.'A &%ColdBloodedVertebrate having an external covering of scales or horny plates. &%Reptiles breathe by means of &%Lungs and generally lay eggs.'|) (tptp.s__subclass tptp.s__BiologicallyActiveSubstance tptp.s__Substance) (tptp.s__instance tptp.s__BiologicallyActiveSubstance__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__BiologicallyActiveSubstance tptp.s__EnglishLanguage |tptp.'A &%Substance that is capable of inducing a change in the structure or functioning of an &%Organism. This &%Class includes &%Substances used in the treatment, diagnosis, prevention or analysis of normal and abnormal body function. This &%Class also includes &%Substances that occur naturally in the body and are administered therapeutically. Finally, &%BiologicallyActiveSubstance includes &%Nutrients, most drugs of abuse, and agents that require special handling because of their toxicity.'|) (tptp.s__subclass tptp.s__Nutrient tptp.s__BiologicallyActiveSubstance) (tptp.s__disjointDecomposition_4 tptp.s__Nutrient tptp.s__Protein tptp.s__Carbohydrate tptp.s__Vitamin) (tptp.s__documentation tptp.s__Nutrient tptp.s__EnglishLanguage |tptp.'A &%BiologicallyActiveSubstance required by an &%Organism. It is generally ingested as &%Food, and it is of primary interest because of its role in the biologic functioning of the &%Organism.'|) (tptp.s__subclass tptp.s__Protein tptp.s__Nutrient) (tptp.s__instance tptp.s__Protein__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Nutrient__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Protein tptp.s__EnglishLanguage |tptp.'A &%Nutrient made up of amino acids joined by peptide bonds.'|) (tptp.s__subclass tptp.s__Enzyme tptp.s__Protein) (tptp.s__instance tptp.s__Enzyme__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Enzyme tptp.s__EnglishLanguage |tptp.'A complex &%Protein that is produced by living cells and which catalyzes specific biochemical reactions. There are six main types of enzymes: oxidoreductases, transferases, hydrolases, lyases, isomerases, and ligases.'|) (tptp.s__subclass tptp.s__Carbohydrate tptp.s__Nutrient) (tptp.s__instance tptp.s__Carbohydrate__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Carbohydrate tptp.s__EnglishLanguage |tptp.'An element of living cells and a source of energy for &%Animals. This class includes both simple &%Carbohydrates, i.e. sugars, and complex &%Carbohydrates, i.e. starches.'|) (tptp.s__subclass tptp.s__Vitamin tptp.s__Nutrient) (tptp.s__instance tptp.s__Vitamin__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Vitamin tptp.s__EnglishLanguage |tptp.'A &%Nutrient present in natural products or made synthetically, which is essential in the diet of &%Humans and other higher &%Animals. Included here are &%Vitamin precursors and provitamins.'|) (tptp.s__subclass tptp.s__LiquidMixture tptp.s__Mixture) (tptp.s__partition_3 tptp.s__LiquidMixture tptp.s__Solution tptp.s__Suspension) (tptp.s__documentation tptp.s__LiquidMixture tptp.s__EnglishLanguage |tptp.'Any &%Mixture that satisfies two conditions, viz. it is made up predominantly of things which are a &%Liquid and any component other than &%Liquid in the &%Mixture is in the form of fine particles which are suspended in the &%Liquid.'|) (forall ((V__MIX $$unsorted)) (=> (tptp.s__instance V__MIX tptp.s__Object) (=> (tptp.s__instance V__MIX tptp.s__LiquidMixture) (exists ((V__PART $$unsorted)) (and (tptp.s__instance V__PART tptp.s__Object) (tptp.s__part V__PART V__MIX) (tptp.s__attribute V__PART tptp.s__Liquid)))))) (tptp.s__subclass tptp.s__Solution tptp.s__LiquidMixture) (tptp.s__instance tptp.s__Solution__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__LiquidMixture__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Solution tptp.s__EnglishLanguage |tptp.'A liquid mixture. The most abundant component in a solution is called the solvent. Other components are called solutes. A solution, though homogeneous, may nonetheless have variable composition. Any amount of salt, up to a maximum limit, can be dissolved in a given amount of water.'|) (tptp.s__subclass tptp.s__Suspension tptp.s__LiquidMixture) (tptp.s__instance tptp.s__Suspension__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Suspension tptp.s__EnglishLanguage |tptp.'A &%LiquidMixture where at least one of the components of the &%Mixture is equally distributed throughout the &%Mixture but is not dissolved in it.'|) (tptp.s__subclass tptp.s__GasMixture tptp.s__Mixture) (tptp.s__instance tptp.s__Mixture__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__GasMixture tptp.s__LiquidMixture) (tptp.s__documentation tptp.s__GasMixture tptp.s__EnglishLanguage |tptp.'Any &%Mixture that satisfies two conditions, viz. it is made up predominantly of things which are a &%Gas and any component other than &%Gas in the &%Mixture is in the form of fine particles which are suspended in the &%Gas.'|) (forall ((V__MIX $$unsorted)) (=> (tptp.s__instance V__MIX tptp.s__Object) (=> (tptp.s__instance V__MIX tptp.s__GasMixture) (exists ((V__PART $$unsorted)) (and (tptp.s__instance V__PART tptp.s__Object) (tptp.s__part V__PART V__MIX) (tptp.s__attribute V__PART tptp.s__Gas)))))) (tptp.s__subclass tptp.s__Cloud tptp.s__GasMixture) (tptp.s__instance tptp.s__Cloud__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__GasMixture__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Cloud tptp.s__EnglishLanguage |tptp.'Any &%GasMixture that is visible, e.g. &%Smoke produced by a fire or clouds of water vapor in the sky.'|) (forall ((V__CLOUD $$unsorted)) (=> (tptp.s__instance V__CLOUD tptp.s__Object) (=> (tptp.s__instance V__CLOUD tptp.s__Cloud) (tptp.s__capability tptp.s__Seeing tptp.s__patient__m V__CLOUD)))) (tptp.s__subclass tptp.s__Smoke tptp.s__Cloud) (tptp.s__instance tptp.s__Smoke__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Smoke tptp.s__EnglishLanguage |tptp.'A mixture of fine particles suspended in a gas that is produced by &%Combustion.'|) (forall ((V__SMOKE $$unsorted)) (=> (tptp.s__instance V__SMOKE tptp.s__Smoke) (exists ((V__BURNING $$unsorted)) (and (tptp.s__instance V__BURNING tptp.s__Process) (tptp.s__instance V__BURNING tptp.s__Combustion) (tptp.s__result V__BURNING V__SMOKE))))) (tptp.s__subclass tptp.s__WaterCloud tptp.s__Cloud) (tptp.s__instance tptp.s__WaterCloud__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__WaterCloud tptp.s__EnglishLanguage |tptp.'Any &%Cloud that is composed primarily of water vapor.'|) (forall ((V__CLOUD $$unsorted)) (=> (tptp.s__instance V__CLOUD tptp.s__Object) (=> (tptp.s__instance V__CLOUD tptp.s__WaterCloud) (exists ((V__WATER $$unsorted)) (and (tptp.s__instance V__WATER tptp.s__Object) (tptp.s__instance V__WATER tptp.s__Water) (tptp.s__part V__WATER V__CLOUD)))))) (forall ((V__MEASURE2 $$unsorted) (V__MEASURE1 $$unsorted) (V__CLOUD $$unsorted)) (=> (tptp.s__instance V__CLOUD tptp.s__WaterCloud) (forall ((V__PART $$unsorted)) (=> (and (tptp.s__instance V__PART tptp.s__Object) (tptp.s__instance V__CLOUD tptp.s__Object) (tptp.s__instance V__MEASURE1 tptp.s__PhysicalQuantity) (tptp.s__instance V__MEASURE2 tptp.s__PhysicalQuantity)) (=> (and (tptp.s__part V__PART V__CLOUD) (not (tptp.s__instance V__PART tptp.s__Water))) (exists ((V__WATER $$unsorted)) (and (tptp.s__instance V__WATER tptp.s__Object) (tptp.s__instance V__WATER tptp.s__Water) (tptp.s__part V__WATER V__CLOUD) (tptp.s__measure V__WATER V__MEASURE1) (tptp.s__measure V__PART V__MEASURE2) (tptp.greater V__MEASURE1 V__MEASURE2)))))))) (tptp.s__subclass tptp.s__Air tptp.s__GasMixture) (tptp.s__instance tptp.s__Air__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Air tptp.s__EnglishLanguage |tptp.'&%Air is the gaseous stuff that makes up the atmosphere surrounding Earth.'|) (forall ((V__WIND $$unsorted)) (=> (tptp.s__instance V__WIND tptp.s__Process) (=> (tptp.s__instance V__WIND tptp.s__Wind) (exists ((V__AIR $$unsorted)) (and (tptp.s__patient V__WIND V__AIR) (tptp.s__instance V__AIR tptp.s__Air)))))) (tptp.s__subclass tptp.s__BodySubstance tptp.s__Substance) (tptp.s__instance tptp.s__BodySubstance__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__BodySubstance tptp.s__EnglishLanguage |tptp.'Extracellular material and mixtures of cells and extracellular material that are produced, excreted or accreted by an &%Organism. Included here are &%Substances such as saliva, dental enamel, sweat, hormones, and gastric acid.'|) (tptp.s__subclass tptp.s__AnimalSubstance tptp.s__BodySubstance) (tptp.s__documentation tptp.s__AnimalSubstance tptp.s__EnglishLanguage |tptp.'&%BodySubstances that are produced exclusively by &%Animals.'|) (forall ((V__SUBSTANCE $$unsorted) (V__ANIMAL $$unsorted)) (=> (and (tptp.s__instance V__ANIMAL tptp.s__Object) (tptp.s__instance V__SUBSTANCE tptp.s__Object)) (=> (and (tptp.s__instance V__SUBSTANCE tptp.s__AnimalSubstance) (tptp.s__instance V__ANIMAL tptp.s__Organism) (tptp.s__part V__SUBSTANCE V__ANIMAL)) (tptp.s__instance V__ANIMAL tptp.s__Animal)))) (tptp.s__subclass tptp.s__PlantSubstance tptp.s__BodySubstance) (tptp.s__instance tptp.s__PlantSubstance__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PlantSubstance tptp.s__EnglishLanguage |tptp.'&%BodySubstances that are produced exclusively by &%Plants.'|) (forall ((V__PLANT $$unsorted) (V__SUBSTANCE $$unsorted)) (=> (and (tptp.s__instance V__SUBSTANCE tptp.s__Object) (tptp.s__instance V__PLANT tptp.s__Object)) (=> (and (tptp.s__instance V__SUBSTANCE tptp.s__PlantSubstance) (tptp.s__instance V__PLANT tptp.s__Organism) (tptp.s__part V__SUBSTANCE V__PLANT)) (tptp.s__instance V__PLANT tptp.s__Plant)))) (tptp.s__subclass tptp.s__Hormone tptp.s__BodySubstance) (tptp.s__instance tptp.s__Hormone__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Hormone tptp.s__BiologicallyActiveSubstance) (tptp.s__documentation tptp.s__Hormone tptp.s__EnglishLanguage |tptp.'In &%Animals, a chemical secreted by an endocrine gland whose products are released into the circulating fluid. &%Plant hormones or synthetic hormones which are used only to alter or control various physiologic processes, e.g., reproductive control agents, are assigned to the &%Class &%BiologicallyActiveSubstance. &%Hormones act as chemical messengers and regulate various physiologic processes such as growth, reproduction, metabolism, etc. They usually fall into two broad categories, viz. steroid hormones and peptide hormones.'|) (forall ((V__HORMONE $$unsorted)) (=> (tptp.s__instance V__HORMONE tptp.s__Hormone) (exists ((V__PROCESS $$unsorted) (V__GLAND $$unsorted)) (and (tptp.s__instance V__GLAND tptp.s__Object) (tptp.s__instance V__PROCESS tptp.s__Process) (tptp.s__instance V__GLAND tptp.s__Gland) (tptp.s__instrument V__PROCESS V__GLAND) (tptp.s__result V__PROCESS V__HORMONE))))) (tptp.s__subclass tptp.s__Blood tptp.s__BodySubstance) (tptp.s__instance tptp.s__Blood__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Blood tptp.s__EnglishLanguage |tptp.'A fluid present in &%Animals that transports &%Nutrients to and waste products away from various &%BodyParts.'|) (tptp.s__instance tptp.s__FoodForFn__m tptp.s__UnaryFunction) (tptp.s__domainSubclass tptp.s__FoodForFn__m |"1"| tptp.s__Organism) (tptp.s__rangeSubclass tptp.s__FoodForFn__m tptp.s__SelfConnectedObject) (tptp.s__documentation tptp.s__FoodForFn__m tptp.s__EnglishLanguage |tptp.'A &%Function that denotes &%SelfConnectedObject containing &%Nutrients, such as carbohydrates, proteins, and fats, that can be ingested by a the given class of living &%Animal and metabolized into energy and body tissue.'|) (forall ((V__A $$unsorted) (V__FOOD $$unsorted)) (=> (and (tptp.s__instance V__FOOD tptp.s__Object) (tptp.s__subclass V__A tptp.s__Organism) (tptp.s__instance V__A tptp.s__SetOrClass)) (=> (tptp.s__instance V__FOOD (tptp.s__FoodForFn V__A)) (exists ((V__NUTRIENT $$unsorted)) (and (tptp.s__instance V__NUTRIENT tptp.s__Object) (tptp.s__instance V__NUTRIENT tptp.s__Nutrient) (tptp.s__part V__NUTRIENT V__FOOD)))))) (tptp.s__subclass tptp.s__Meat tptp.s__SelfConnectedObject) (tptp.s__instance tptp.s__Meat__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Meat tptp.s__EnglishLanguage |tptp.'Any food which was originally part of an &%Animal and is not ingested by drinking, including eggs and animal blood that is eaten as food. Note that this class covers both raw meat and meat that has been prepared in some way, e.g. by cooking. Note too that preparations involving &%Meat and &%FruitOrVegetable are classed directly under &%Food.'|) (forall ((V__MEAT $$unsorted)) (=> (tptp.s__instance V__MEAT tptp.s__Meat) (forall ((V__PART $$unsorted)) (=> (and (tptp.s__instance V__PART tptp.s__Object) (tptp.s__instance V__MEAT tptp.s__Object)) (=> (tptp.s__part V__PART V__MEAT) (exists ((V__SUBPART $$unsorted) (V__TIME $$unsorted) (V__ANIMAL $$unsorted)) (and (tptp.s__instance V__ANIMAL tptp.s__Object) (tptp.s__instance V__TIME tptp.s__TimePosition) (tptp.s__instance V__SUBPART tptp.s__Object) (tptp.s__part V__SUBPART V__PART) (tptp.s__holdsDuring V__TIME |tptp.'(s__instance(V__ANIMAL,s__Animal) & s__part(V__SUBPART,V__ANIMAL))'|)))))))) (tptp.s__subclass tptp.s__AnatomicalStructure tptp.s__OrganicObject) (tptp.s__partition_3 tptp.s__AnatomicalStructure tptp.s__BodyPart tptp.s__AbnormalAnatomicalStructure) (tptp.s__partition_3 tptp.s__AnatomicalStructure tptp.s__AnimalAnatomicalStructure tptp.s__PlantAnatomicalStructure) (tptp.s__documentation tptp.s__AnatomicalStructure tptp.s__EnglishLanguage |tptp.'A normal or pathological part of the anatomy or structural organization of an &%Organism. This class covers &%BodyParts, as well as structures that are given off by &%Organisms, e.g. &%ReproductiveBodies.'|) (forall ((V__PART $$unsorted)) (=> (tptp.s__instance V__PART tptp.s__Object) (=> (tptp.s__instance V__PART tptp.s__AnatomicalStructure) (exists ((V__CELL $$unsorted)) (and (tptp.s__instance V__CELL tptp.s__Object) (tptp.s__instance V__CELL tptp.s__Cell) (tptp.s__part V__CELL V__PART)))))) (tptp.s__subclass tptp.s__AbnormalAnatomicalStructure tptp.s__AnatomicalStructure) (tptp.s__instance tptp.s__AbnormalAnatomicalStructure__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__AnatomicalStructure__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AbnormalAnatomicalStructure tptp.s__EnglishLanguage |tptp.'Any &%AnatomicalStructure which is not normally found in the &%Organism of which it is a part, i.e. it is the result of a &%PathologicProcess. This class covers tumors, birth marks, goiters, etc.'|) (forall ((V__STRUCTURE $$unsorted)) (=> (tptp.s__instance V__STRUCTURE tptp.s__AbnormalAnatomicalStructure) (exists ((V__PROC $$unsorted)) (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__PROC tptp.s__PathologicProcess) (tptp.s__result V__PROC V__STRUCTURE))))) (tptp.s__subclass tptp.s__BodyPart tptp.s__AnatomicalStructure) (tptp.s__documentation tptp.s__BodyPart tptp.s__EnglishLanguage |tptp.'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.'|) (forall ((V__PART $$unsorted)) (=> (tptp.s__instance V__PART tptp.s__BodyPart) (exists ((V__PROC $$unsorted)) (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__PROC tptp.s__PhysiologicProcess) (tptp.s__result V__PROC V__PART))))) (tptp.s__subclass tptp.s__AnimalAnatomicalStructure tptp.s__AnatomicalStructure) (tptp.s__instance tptp.s__AnimalAnatomicalStructure__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AnimalAnatomicalStructure tptp.s__EnglishLanguage |tptp.'&%AnatomicalStructures that are possessed exclusively by &%Animals.'|) (forall ((V__STRUCTURE $$unsorted) (V__ANIMAL $$unsorted)) (=> (and (tptp.s__instance V__ANIMAL tptp.s__Object) (tptp.s__instance V__STRUCTURE tptp.s__Object)) (=> (and (tptp.s__instance V__STRUCTURE tptp.s__AnimalAnatomicalStructure) (tptp.s__instance V__ANIMAL tptp.s__Organism) (tptp.s__part V__STRUCTURE V__ANIMAL)) (tptp.s__instance V__ANIMAL tptp.s__Animal)))) (tptp.s__subclass tptp.s__PlantAnatomicalStructure tptp.s__AnatomicalStructure) (tptp.s__documentation tptp.s__PlantAnatomicalStructure tptp.s__EnglishLanguage |tptp.'&%AnatomicalStructures that are possessed exclusively by &%Plants.'|) (forall ((V__STRUCTURE $$unsorted) (V__PLANT $$unsorted)) (=> (and (tptp.s__instance V__PLANT tptp.s__Object) (tptp.s__instance V__STRUCTURE tptp.s__Object)) (=> (and (tptp.s__instance V__STRUCTURE tptp.s__PlantAnatomicalStructure) (tptp.s__instance V__PLANT tptp.s__Organism) (tptp.s__part V__STRUCTURE V__PLANT)) (tptp.s__instance V__PLANT tptp.s__Plant)))) (tptp.s__subclass tptp.s__ReproductiveBody tptp.s__BodyPart) (tptp.s__documentation tptp.s__ReproductiveBody tptp.s__EnglishLanguage |tptp.'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.'|) (tptp.s__subclass tptp.s__Egg tptp.s__ReproductiveBody) (tptp.s__instance tptp.s__Egg__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Egg tptp.s__AnimalAnatomicalStructure) (tptp.s__documentation tptp.s__Egg tptp.s__EnglishLanguage |tptp.'The fertilized or unfertilized female &%ReproductiveBody of an &%Animal. This includes &%Bird and &%Reptile eggs, as well as mammalian ova.'|) (tptp.s__subclass tptp.s__Seed tptp.s__ReproductiveBody) (tptp.s__instance tptp.s__Seed__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__ReproductiveBody__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Seed tptp.s__PlantAnatomicalStructure) (tptp.s__instance tptp.s__PlantAnatomicalStructure__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Seed tptp.s__EnglishLanguage |tptp.'The fertilized or unfertilized female &%ReproductiveBody of a &%FloweringPlant.'|) (tptp.s__subclass tptp.s__Pollen tptp.s__ReproductiveBody) (tptp.s__instance tptp.s__Pollen__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Pollen tptp.s__PlantAnatomicalStructure) (tptp.s__documentation tptp.s__Pollen tptp.s__EnglishLanguage |tptp.'A powder produced by &%FloweringPlants that contains male gametes and is capable of fertilizing the seeds of &%FloweringPlants of the same species.'|) (tptp.s__subclass tptp.s__FruitOrVegetable tptp.s__PlantAnatomicalStructure) (tptp.s__instance tptp.s__FruitOrVegetable__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__FruitOrVegetable tptp.s__ReproductiveBody) (tptp.s__documentation tptp.s__FruitOrVegetable tptp.s__EnglishLanguage |tptp.'Any fruit or vegetable, i.e. a ripened &%ReproductiveBody of a &%Plant. Note that &%FruitOrVegetable is not a subclass of &%Food, because some fruits, e.g. poisonous berries, are not edible.'|) (tptp.s__subclass tptp.s__Spore tptp.s__ReproductiveBody) (tptp.s__instance tptp.s__Spore__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Spore tptp.s__PlantAnatomicalStructure) (tptp.s__documentation tptp.s__Spore tptp.s__EnglishLanguage |tptp.'Any &%ReproductiveBody of a &%NonFloweringPlant.'|) (tptp.s__subclass tptp.s__BodyCovering tptp.s__BodyPart) (tptp.s__instance tptp.s__BodyCovering__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__BodyCovering tptp.s__EnglishLanguage |tptp.'Any &%BodyPart which is a covering of another &%BodyPart or of an entire &%Organism. This would include the rinds of &%FruitOrVegetables and the skins of &%Animals.'|) (forall ((V__COVER $$unsorted)) (=> (tptp.s__instance V__COVER tptp.s__Object) (=> (tptp.s__instance V__COVER tptp.s__BodyCovering) (exists ((V__BODY $$unsorted)) (and (tptp.s__instance V__BODY tptp.s__Object) (tptp.s__superficialPart V__COVER V__BODY) (or (tptp.s__instance V__BODY tptp.s__Organism) (tptp.s__instance V__BODY tptp.s__BodyPart))))))) (tptp.s__subclass tptp.s__BodyJunction tptp.s__BodyPart) (tptp.s__instance tptp.s__BodyJunction__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__BodyJunction tptp.s__EnglishLanguage |tptp.'The place where two &%BodyParts meet or connect.'|) (forall ((V__JUNCT $$unsorted)) (=> (tptp.s__instance V__JUNCT tptp.s__SelfConnectedObject) (=> (tptp.s__instance V__JUNCT tptp.s__BodyJunction) (exists ((V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (and (tptp.s__instance V__OBJ2 tptp.s__SelfConnectedObject) (tptp.s__instance V__OBJ1 tptp.s__SelfConnectedObject) (tptp.s__instance V__OBJ1 tptp.s__BodyPart) (tptp.s__instance V__OBJ2 tptp.s__BodyPart) (tptp.s__connects V__JUNCT V__OBJ1 V__OBJ2)))))) (tptp.s__subclass tptp.s__BodyCavity tptp.s__BodyPart) (tptp.s__instance tptp.s__BodyCavity__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__BodyPart__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__BodyCavity tptp.s__EnglishLanguage |tptp.'Any &%BodyPart which contains an unfilled space, e.g. &%BodyVessels, the atria and ventricles of the heart, the lungs, etc.'|) (tptp.s__subclass tptp.s__BodyVessel tptp.s__BodyCavity) (tptp.s__instance tptp.s__BodyVessel__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__BodyVessel tptp.s__EnglishLanguage |tptp.'Any tube-like structure which occurs naturally in an &%Organism and through which a &%BodySubstance can circulate.'|) (tptp.s__subclass tptp.s__Cell tptp.s__BodyPart) (tptp.s__instance tptp.s__Cell__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Cell tptp.s__EnglishLanguage |tptp.'The fundamental structural and functional unit of living &%Organisms.'|) (tptp.s__subclass tptp.s__Organ tptp.s__BodyPart) (tptp.s__instance tptp.s__Organ__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Organ tptp.s__EnglishLanguage |tptp.'A somewhat independent &%BodyPart that performs a specialized function. Note that this functional definition covers bodily systems, e.g. the digestive system or the central nervous system.'|) (forall ((V__ORGAN $$unsorted)) (=> (tptp.s__instance V__ORGAN tptp.s__Physical) (=> (tptp.s__instance V__ORGAN tptp.s__Organ) (exists ((V__PURP $$unsorted)) (and (tptp.s__instance V__PURP tptp.s__Formula) (tptp.s__hasPurpose V__ORGAN V__PURP)))))) (tptp.s__subclass tptp.s__Gland tptp.s__Organ) (tptp.s__instance tptp.s__Gland__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Gland tptp.s__EnglishLanguage |tptp.'An &%Organ that removes &%Substances from the &%Blood, alters them in some way, and then releases them.'|) (tptp.s__subclass tptp.s__Tissue tptp.s__BodySubstance) (tptp.s__disjointDecomposition_4 tptp.s__Tissue tptp.s__Bone tptp.s__Muscle tptp.s__FatTissue) (tptp.s__documentation tptp.s__Tissue tptp.s__EnglishLanguage |tptp.'An aggregation of similarly specialized &%Cells and the associated intercellular substance. &%Tissues are relatively non-localized in comparison to &%BodyParts, &%Organs or &%Organ components. The main features of &%Tissues are self-connectivity (see &%SelfConnectedObject) and being a homogeneous mass (all parts in the same granularity are instances of &%Tissue as well).'|) (forall ((V__STUFF $$unsorted)) (=> (tptp.s__instance V__STUFF tptp.s__Object) (=> (tptp.s__instance V__STUFF tptp.s__Tissue) (exists ((V__PART $$unsorted)) (and (tptp.s__instance V__PART tptp.s__Object) (tptp.s__instance V__PART tptp.s__Cell) (tptp.s__part V__PART V__STUFF)))))) (forall ((V__STUFF $$unsorted)) (=> (tptp.s__instance V__STUFF tptp.s__Object) (=> (tptp.s__instance V__STUFF tptp.s__Tissue) (exists ((V__ORGANISM $$unsorted)) (and (tptp.s__instance V__ORGANISM tptp.s__Object) (tptp.s__instance V__ORGANISM tptp.s__Organism) (tptp.s__part V__STUFF V__ORGANISM)))))) (tptp.s__subclass tptp.s__Bone tptp.s__Tissue) (tptp.s__instance tptp.s__Tissue__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Bone tptp.s__AnimalSubstance) (tptp.s__instance tptp.s__Bone__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__AnimalSubstance__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Bone tptp.s__EnglishLanguage |tptp.'Rigid &%Tissue composed largely of calcium that makes up the skeleton of &%Vertebrates. Note that this &%Class also includes teeth.'|) (forall ((V__BONE $$unsorted)) (=> (tptp.s__instance V__BONE tptp.s__Object) (=> (tptp.s__instance V__BONE tptp.s__Bone) (exists ((V__VERT $$unsorted)) (and (tptp.s__instance V__VERT tptp.s__Object) (tptp.s__instance V__VERT tptp.s__Vertebrate) (tptp.s__part V__BONE V__VERT)))))) (tptp.s__subclass tptp.s__Muscle tptp.s__Tissue) (tptp.s__instance tptp.s__Muscle__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Muscle tptp.s__AnimalSubstance) (tptp.s__documentation tptp.s__Muscle tptp.s__EnglishLanguage |tptp.'Nonrigid &%Tissue appearing only in &%Animals and composed largely of contractile cells.'|) (tptp.s__subclass tptp.s__FatTissue tptp.s__Tissue) (tptp.s__instance tptp.s__FatTissue__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FatTissue tptp.s__EnglishLanguage |tptp.'Nonrigid &%Tissue that is composed largely of fat cells.'|) (tptp.s__subclass tptp.s__Noun tptp.s__Word) (tptp.s__instance tptp.s__Noun__t tptp.s__SetOrClass) (tptp.s__partition_6 tptp.s__Word tptp.s__Noun tptp.s__Verb tptp.s__Adjective tptp.s__Adverb tptp.s__ParticleWord) (tptp.s__documentation tptp.s__Noun tptp.s__EnglishLanguage |tptp.'One of the parts of speech. The &%Class of &%Words that conventionally denote &%Objects.'|) (tptp.s__subclass tptp.s__Verb tptp.s__Word) (tptp.s__instance tptp.s__Verb__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Word__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Verb tptp.s__EnglishLanguage |tptp.'One of the parts of speech. The &%Class of &%Words that conventionally denote &%Processes.'|) (tptp.s__subclass tptp.s__Adjective tptp.s__Word) (tptp.s__instance tptp.s__Adjective__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Adjective tptp.s__EnglishLanguage |tptp.'One of the parts of speech. The &%Class of &%Words that conventionally denote &%Attributes of &%Objects.'|) (tptp.s__subclass tptp.s__Adverb tptp.s__Word) (tptp.s__instance tptp.s__Adverb__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Adverb tptp.s__EnglishLanguage |tptp.'One of the parts of speech. The &%Class of &%Words that conventionally denote &%Attributes of &%Processes.'|) (tptp.s__subclass tptp.s__ParticleWord tptp.s__Word) (tptp.s__instance tptp.s__ParticleWord__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ParticleWord tptp.s__EnglishLanguage |tptp.'An umbrella &%Class for any &%Word that does not fit into the other subclasses of &%Word. A &%ParticleWord is generally a small term that serves a grammatical or logical function, e.g. and, of, since, etc. At some point, this class might be broken up into the subclasses Connective, Preposition, etc. Note that the class &%ParticleWord includes both personal and possessive pronouns, e.g. she, hers, it, its, etc.'|) (tptp.s__subclass tptp.s__Morpheme tptp.s__LinguisticExpression) (tptp.s__instance tptp.s__Morpheme__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Morpheme tptp.s__EnglishLanguage |tptp.'Part of a &%Word which cannot be subdivided and which expresses a meaning.'|) (forall ((V__MORPH $$unsorted)) (=> (tptp.s__instance V__MORPH tptp.s__Object) (=> (tptp.s__instance V__MORPH tptp.s__Morpheme) (not (exists ((V__OTHERMORPH $$unsorted)) (and (tptp.s__instance V__OTHERMORPH tptp.s__Object) (tptp.s__instance V__OTHERMORPH tptp.s__Morpheme) (tptp.s__part V__OTHERMORPH V__MORPH) (not (= V__OTHERMORPH V__MORPH)))))))) (forall ((V__MORPH $$unsorted)) (=> (tptp.s__instance V__MORPH tptp.s__Object) (=> (tptp.s__instance V__MORPH tptp.s__Morpheme) (exists ((V__WORD $$unsorted)) (and (tptp.s__instance V__WORD tptp.s__Object) (tptp.s__instance V__WORD tptp.s__Word) (tptp.s__part V__MORPH V__WORD)))))) (forall ((V__WORD $$unsorted)) (=> (tptp.s__instance V__WORD tptp.s__Object) (=> (tptp.s__instance V__WORD tptp.s__Word) (exists ((V__PART $$unsorted)) (and (tptp.s__instance V__PART tptp.s__Object) (tptp.s__part V__PART V__WORD) (tptp.s__instance V__PART tptp.s__Morpheme)))))) (tptp.s__subclass tptp.s__Phrase tptp.s__LinguisticExpression) (tptp.s__disjointDecomposition_4 tptp.s__Phrase tptp.s__VerbPhrase tptp.s__NounPhrase tptp.s__PrepositionalPhrase) (tptp.s__documentation tptp.s__Phrase tptp.s__EnglishLanguage |tptp.'A set of &%Words in a &%Language which form a unit, i.e. express a meaning in the &%Language.'|) (forall ((V__PHRASE $$unsorted)) (=> (tptp.s__instance V__PHRASE tptp.s__Object) (=> (tptp.s__instance V__PHRASE tptp.s__Phrase) (exists ((V__PART1 $$unsorted) (V__PART2 $$unsorted)) (and (tptp.s__instance V__PART2 tptp.s__Object) (tptp.s__instance V__PART1 tptp.s__Object) (tptp.s__part V__PART1 V__PHRASE) (tptp.s__part V__PART2 V__PHRASE) (tptp.s__instance V__PART1 tptp.s__Word) (tptp.s__instance V__PART2 tptp.s__Word) (not (= V__PART1 V__PART2))))))) (tptp.s__subclass tptp.s__VerbPhrase tptp.s__Phrase) (tptp.s__instance tptp.s__VerbPhrase__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__VerbPhrase tptp.s__EnglishLanguage |tptp.'A &%Phrase that has the same function as a &%Verb.'|) (forall ((V__PHRASE $$unsorted)) (=> (tptp.s__instance V__PHRASE tptp.s__Object) (=> (tptp.s__instance V__PHRASE tptp.s__VerbPhrase) (exists ((V__VERB $$unsorted)) (and (tptp.s__instance V__VERB tptp.s__Object) (tptp.s__instance V__VERB tptp.s__Verb) (tptp.s__part V__VERB V__PHRASE)))))) (tptp.s__subclass tptp.s__NounPhrase tptp.s__Phrase) (tptp.s__instance tptp.s__NounPhrase__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Phrase__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__NounPhrase tptp.s__VerbPhrase) (tptp.s__documentation tptp.s__NounPhrase tptp.s__EnglishLanguage |tptp.'A &%Phrase that has the same function as a &%Noun.'|) (forall ((V__SENTENCE $$unsorted)) (=> (tptp.s__instance V__SENTENCE tptp.s__Object) (=> (tptp.s__instance V__SENTENCE tptp.s__Sentence) (exists ((V__PHRASE1 $$unsorted) (V__PHRASE2 $$unsorted)) (and (tptp.s__instance V__PHRASE2 tptp.s__Object) (tptp.s__instance V__PHRASE1 tptp.s__Object) (tptp.s__instance V__PHRASE1 tptp.s__NounPhrase) (tptp.s__instance V__PHRASE2 tptp.s__VerbPhrase) (tptp.s__part V__PHRASE1 V__SENTENCE) (tptp.s__part V__PHRASE2 V__SENTENCE)))))) (forall ((V__PHRASE $$unsorted)) (=> (tptp.s__instance V__PHRASE tptp.s__Object) (=> (tptp.s__instance V__PHRASE tptp.s__NounPhrase) (exists ((V__NOUN $$unsorted)) (and (tptp.s__instance V__NOUN tptp.s__Object) (tptp.s__instance V__NOUN tptp.s__Noun) (tptp.s__part V__NOUN V__PHRASE)))))) (tptp.s__subclass tptp.s__PrepositionalPhrase tptp.s__Phrase) (tptp.s__instance tptp.s__PrepositionalPhrase__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PrepositionalPhrase tptp.s__EnglishLanguage |tptp.'A &%Phrase that begins with a preposition and that functions as an &%Adjective or an &%Adverb.'|) (forall ((V__PHRASE $$unsorted)) (=> (tptp.s__instance V__PHRASE tptp.s__Object) (=> (tptp.s__instance V__PHRASE tptp.s__PrepositionalPhrase) (exists ((V__PREP $$unsorted)) (and (tptp.s__instance V__PREP tptp.s__Object) (tptp.s__instance V__PREP tptp.s__ParticleWord) (tptp.s__part V__PREP V__PHRASE)))))) (tptp.s__subclass tptp.s__Text tptp.s__LinguisticExpression) (tptp.s__instance tptp.s__LinguisticExpression__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Text tptp.s__ContentBearingObject) (tptp.s__instance tptp.s__ContentBearingObject__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Text tptp.s__Artifact) (tptp.s__instance tptp.s__Artifact__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Text tptp.s__EnglishLanguage |tptp.'A &%LinguisticExpression or set of &%LinguisticExpressions that perform a specific function related to &%Communication, e.g. express a discourse about a particular topic, and that are inscribed in a &%CorpuscularObject by &%Humans.'|) (forall ((V__TEXT $$unsorted)) (=> (tptp.s__instance V__TEXT tptp.s__Object) (=> (tptp.s__instance V__TEXT tptp.s__Text) (exists ((V__PART $$unsorted)) (and (tptp.s__instance V__PART tptp.s__Object) (tptp.s__part V__PART V__TEXT) (tptp.s__instance V__PART tptp.s__LinguisticExpression)))))) (forall ((V__TEXT $$unsorted)) (=> (tptp.s__instance V__TEXT tptp.s__Text) (exists ((V__WRITE $$unsorted)) (and (tptp.s__instance V__WRITE tptp.s__Process) (tptp.s__instance V__WRITE tptp.s__Writing) (tptp.s__result V__WRITE V__TEXT))))) (tptp.s__subclass tptp.s__FactualText tptp.s__Text) (tptp.s__instance tptp.s__FactualText__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Text__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__FactualText tptp.s__FictionalText) (tptp.s__documentation tptp.s__FactualText tptp.s__EnglishLanguage |tptp.'The class of &%Texts that purport to reveal facts about the world. Such texts are often known as information or as non-fiction. Note that something can be an instance of &%FactualText, even if it is wholly inaccurate. Whether something is a &%FactualText is determined by the beliefs of the agent creating the text.'|) (forall ((V__CONTENT $$unsorted) (V__CLASS $$unsorted) (V__AGENT $$unsorted) (V__TEXT $$unsorted)) (=> (and (tptp.s__instance V__TEXT tptp.s__ContentBearingPhysical) (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__subclass V__CLASS tptp.s__Text) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (and (tptp.s__instance V__TEXT V__CLASS) (tptp.s__subclass V__CLASS tptp.s__FactualText) (tptp.s__authors V__AGENT V__CLASS) (tptp.s__subsumesContentInstance V__TEXT V__CONTENT) (tptp.s__instance V__CONTENT tptp.s__Formula)) (tptp.s__believes V__AGENT V__CONTENT)))) (tptp.s__subclass tptp.s__FictionalText tptp.s__Text) (tptp.s__instance tptp.s__FictionalText__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FictionalText tptp.s__EnglishLanguage |tptp.'The class of &%Texts that purport to be largely a product of the authors imagination, i.e. the author does not believe that most of the content conveyed by the text is an accurate depiction of the real world. Note that something can be an instance of &%FictionalText, even if it is completely true. Whether something is a &%FictionalText is determined by the beliefs of the agent creating the text.'|) (forall ((V__CLASS $$unsorted) (V__AGENT $$unsorted) (V__TEXT $$unsorted)) (=> (and (tptp.s__instance V__TEXT tptp.s__ContentBearingPhysical) (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__subclass V__CLASS tptp.s__Text) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (and (tptp.s__instance V__TEXT V__CLASS) (tptp.s__subclass V__CLASS tptp.s__FictionalText) (tptp.s__authors V__AGENT V__CLASS)) (exists ((V__CONTENT $$unsorted)) (and (tptp.s__subsumesContentInstance V__TEXT V__CONTENT) (tptp.s__instance V__CONTENT tptp.s__Formula) (not (tptp.s__believes V__AGENT V__CONTENT))))))) (tptp.s__subclass tptp.s__Sentence tptp.s__LinguisticExpression) (tptp.s__instance tptp.s__Sentence__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sentence tptp.s__EnglishLanguage |tptp.'A syntactically well-formed formula of a &%Language. It includes, at minimum, a predicate and a subject (which may be explicit or implicit), and it expresses a &%Proposition.'|) (forall ((V__SENT $$unsorted)) (=> (tptp.s__instance V__SENT tptp.s__ContentBearingPhysical) (=> (tptp.s__instance V__SENT tptp.s__Sentence) (exists ((V__PROP $$unsorted)) (and (tptp.s__instance V__PROP tptp.s__Proposition) (tptp.s__containsInformation V__SENT V__PROP)))))) (tptp.s__instance tptp.s__authors__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__authors__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__authors__m |"1"| tptp.s__Agent) (tptp.s__domainSubclass tptp.s__authors__m |"2"| tptp.s__Text) (tptp.s__documentation tptp.s__authors__m tptp.s__EnglishLanguage |tptp.'(&%authors ?AGENT ?TEXTCLASS) means that ?AGENT is creatively responsible for the content of all instances of ?TEXTCLASS. For example, Agatha Christie is author of Murder_on_the_Orient_Express.'|) (forall ((V__TEXTCLASS $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__subclass V__TEXTCLASS tptp.s__Text) (tptp.s__instance V__TEXTCLASS tptp.s__SetOrClass)) (=> (tptp.s__authors V__AGENT V__TEXTCLASS) (exists ((V__PROCESS $$unsorted) (V__INSTANCE $$unsorted)) (and (tptp.s__instance V__PROCESS tptp.s__Process) (tptp.s__agent V__PROCESS V__AGENT) (tptp.s__instance V__INSTANCE V__TEXTCLASS) (tptp.s__result V__PROCESS V__INSTANCE)))))) (tptp.s__instance tptp.s__editor__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__editor__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__editor__m |"1"| tptp.s__Agent) (tptp.s__domainSubclass tptp.s__editor__m |"2"| tptp.s__Text) (tptp.s__documentation tptp.s__editor__m tptp.s__EnglishLanguage |tptp.'(&%editor ?AGENT ?TEXTCLASS) means that ?AGENT is an editor of the content contained (or realized) in all instances of ?TEXTCLASS.'|) (tptp.s__instance tptp.s__publishes__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__publishes__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__publishes__m |"1"| tptp.s__Organization) (tptp.s__domainSubclass tptp.s__publishes__m |"2"| tptp.s__Text) (tptp.s__documentation tptp.s__publishes__m tptp.s__EnglishLanguage |tptp.'(&%publishes ?ORG ?TEXTCLASS) means that ?ORG publishes all instances of ?TEXTCLASS. For example, Bantam Books publishes Agatha Christies Murder_on_the_Orient_Express.'|) (forall ((V__TEXTCLASS $$unsorted) (V__ORG $$unsorted) (V__INST $$unsorted)) (=> (and (tptp.s__instance V__ORG tptp.s__Organization) (tptp.s__subclass V__TEXTCLASS tptp.s__Text) (tptp.s__instance V__TEXTCLASS tptp.s__SetOrClass)) (=> (and (tptp.s__publishes V__ORG V__TEXTCLASS) (tptp.s__instance V__INST V__TEXTCLASS)) (exists ((V__PUB $$unsorted)) (and (tptp.s__instance V__PUB tptp.s__Process) (tptp.s__instance V__PUB tptp.s__Publication) (tptp.s__agent V__PUB V__ORG) (tptp.s__patient V__PUB V__INST)))))) (tptp.s__instance tptp.s__EditionFn__m tptp.s__BinaryFunction) (tptp.s__instance tptp.s__EditionFn__m tptp.s__PartialValuedRelation) (tptp.s__domainSubclass tptp.s__EditionFn__m |"1"| tptp.s__ContentBearingObject) (tptp.s__domain tptp.s__EditionFn__m |"2"| tptp.s__PositiveInteger) (tptp.s__rangeSubclass tptp.s__EditionFn__m tptp.s__ContentBearingObject) (tptp.s__documentation tptp.s__EditionFn__m tptp.s__EnglishLanguage |tptp.'A &%BinaryFunction that maps a type of text (e.g. Agatha Christies Murder_on_the_Orient_Express) and a number to the edition of the text type corresponding to the number.'|) (forall ((V__CBO1 $$unsorted) (V__CBO2 $$unsorted) (V__PUB1 $$unsorted) (V__EDITION1 $$unsorted) (V__EDITION2 $$unsorted) (V__PUB2 $$unsorted) (V__INT2 $$unsorted) (V__DATE2 $$unsorted) (V__INT1 $$unsorted) (V__DATE1 $$unsorted) (V__TEXT $$unsorted)) (=> (and (tptp.s__subclass V__TEXT tptp.s__ContentBearingObject) (tptp.s__instance V__TEXT tptp.s__SetOrClass) (tptp.s__instance V__DATE1 tptp.s__Day) (tptp.s__instance V__INT1 tptp.s__PositiveInteger) (tptp.s__instance V__DATE2 tptp.s__Day) (tptp.s__instance V__INT2 tptp.s__PositiveInteger) (tptp.s__instance V__PUB2 tptp.s__Process) (tptp.s__instance V__EDITION2 tptp.s__SetOrClass) (tptp.s__instance V__EDITION1 tptp.s__SetOrClass) (tptp.s__instance V__PUB1 tptp.s__Process)) (=> (and (= (tptp.s__EditionFn V__TEXT V__INT1) V__EDITION1) (= (tptp.s__EditionFn V__TEXT V__INT2) V__EDITION2) (tptp.greater V__INT2 V__INT1) (tptp.s__instance V__PUB1 tptp.s__Publication) (tptp.s__instance V__PUB2 tptp.s__Publication) (tptp.s__instance V__CBO1 V__EDITION1) (tptp.s__instance V__CBO2 V__EDITION2) (tptp.s__patient V__PUB1 V__CBO1) (tptp.s__patient V__PUB2 V__CBO2) (tptp.s__date V__PUB1 V__DATE1) (tptp.s__date V__PUB2 V__DATE2)) (tptp.s__before (tptp.s__EndFn V__DATE1) (tptp.s__EndFn V__DATE2))))) (forall ((V__NUMBER $$unsorted) (V__TEXT2 $$unsorted) (V__TEXT1 $$unsorted)) (=> (and (tptp.s__subclass V__TEXT1 tptp.s__ContentBearingObject) (tptp.s__instance V__TEXT1 tptp.s__SetOrClass) (tptp.s__subclass V__TEXT2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__TEXT2 tptp.s__SetOrClass) (tptp.s__instance V__NUMBER tptp.s__PositiveInteger)) (=> (= (tptp.s__EditionFn V__TEXT1 V__NUMBER) V__TEXT2) (tptp.s__subsumesContentClass V__TEXT1 V__TEXT2)))) (tptp.s__subclass tptp.s__Summary tptp.s__Text) (tptp.s__instance tptp.s__Summary__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Summary tptp.s__EnglishLanguage |tptp.'A short &%Text that is a summary of another, longer &%Text.'|) (forall ((V__TEXT $$unsorted)) (=> (tptp.s__instance V__TEXT tptp.s__ContentBearingPhysical) (=> (tptp.s__instance V__TEXT tptp.s__Summary) (exists ((V__TEXT2 $$unsorted)) (and (tptp.s__instance V__TEXT2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__TEXT2 tptp.s__Text) (tptp.s__subsumesContentInstance V__TEXT2 V__TEXT)))))) (tptp.s__subclass tptp.s__Certificate tptp.s__Text) (tptp.s__instance tptp.s__Certificate__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Certificate tptp.s__EnglishLanguage |tptp.'A &%Text that confers a right or obligation on the holder of the &%Certificate. Note that the right or obligation need not be a legal one, as in the case of an academic diploma that grants certain privileges in the professional world.'|) (forall ((V__DOC $$unsorted)) (=> (tptp.s__instance V__DOC tptp.s__Certificate) (exists ((V__PROP $$unsorted) (V__NORM $$unsorted)) (and (tptp.s__instance V__NORM tptp.s__ObjectiveNorm) (tptp.s__instance V__PROP tptp.s__Formula) (or (tptp.s__confersNorm V__DOC V__PROP V__NORM) (tptp.s__deprivesNorm V__DOC V__PROP V__NORM)))))) (tptp.s__subclass tptp.s__FinancialInstrument tptp.s__Certificate) (tptp.s__instance tptp.s__FinancialInstrument__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FinancialInstrument tptp.s__EnglishLanguage |tptp.'A document having monetary value or recording a monetary transaction'|) (tptp.s__subclass tptp.s__Currency tptp.s__FinancialInstrument) (tptp.s__instance tptp.s__Currency__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Currency tptp.s__EnglishLanguage |tptp.'Any element of the official currrency of some &%Nation. This covers both &%CurrencyBills and &%CurrencyCoins.'|) (forall ((V__CURRENCY $$unsorted)) (=> (tptp.s__instance V__CURRENCY tptp.s__Physical) (=> (tptp.s__instance V__CURRENCY tptp.s__Currency) (exists ((V__MEASURE $$unsorted)) (and (tptp.s__instance V__MEASURE tptp.s__CurrencyMeasure) (tptp.s__monetaryValue V__CURRENCY V__MEASURE)))))) (tptp.s__subclass tptp.s__Patent tptp.s__Certificate) (tptp.s__instance tptp.s__Patent__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Patent tptp.s__EnglishLanguage |tptp.'A &%Certificate that expresses the content of an invention that has been accorded legal protection by a governemental entity.'|) (tptp.s__subclass tptp.s__Molecule tptp.s__CompoundSubstance) (tptp.s__instance tptp.s__Molecule__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__CompoundSubstance__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Molecule tptp.s__EnglishLanguage |tptp.'A molecule is the smallest unit of matter of a &%CompoundSubstance that retains all the physical and chemical properties of that substance, e.g., Ne, H2, H2O. A molecule is two or more &%Atoms linked by a chemical bond.'|) (forall ((V__MOLE $$unsorted)) (=> (tptp.s__instance V__MOLE tptp.s__Object) (=> (tptp.s__instance V__MOLE tptp.s__Molecule) (exists ((V__ATOM1 $$unsorted) (V__ATOM2 $$unsorted)) (and (tptp.s__instance V__ATOM2 tptp.s__Object) (tptp.s__instance V__ATOM1 tptp.s__Object) (tptp.s__instance V__ATOM1 tptp.s__Atom) (tptp.s__instance V__ATOM2 tptp.s__Atom) (tptp.s__part V__ATOM1 V__MOLE) (tptp.s__part V__ATOM2 V__MOLE) (not (= V__ATOM1 V__ATOM2))))))) (tptp.s__subclass tptp.s__Artifact tptp.s__Object) (tptp.s__instance tptp.s__Object__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Artifact tptp.s__EnglishLanguage |tptp.'An &%Object that is the product of a &%Making.'|) (forall ((V__ARTIFACT $$unsorted)) (= (tptp.s__instance V__ARTIFACT tptp.s__Artifact) (exists ((V__MAKING $$unsorted)) (and (tptp.s__instance V__MAKING tptp.s__Process) (tptp.s__instance V__MAKING tptp.s__Making) (tptp.s__result V__MAKING V__ARTIFACT))))) (tptp.s__subclass tptp.s__Product tptp.s__Artifact) (tptp.s__instance tptp.s__Product__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Product tptp.s__EnglishLanguage |tptp.'An &%Artifact that is produced by &%Manufacture.'|) (forall ((V__PRODUCT $$unsorted)) (=> (tptp.s__instance V__PRODUCT tptp.s__Product) (exists ((V__MANUFACTURE $$unsorted)) (and (tptp.s__instance V__MANUFACTURE tptp.s__Process) (tptp.s__instance V__MANUFACTURE tptp.s__Manufacture) (tptp.s__result V__MANUFACTURE V__PRODUCT))))) (tptp.s__instance tptp.s__version__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__version__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__version__m tptp.s__TransitiveRelation) (tptp.s__domainSubclass tptp.s__version__m |"1"| tptp.s__Artifact) (tptp.s__domainSubclass tptp.s__version__m |"2"| tptp.s__Artifact) (tptp.s__documentation tptp.s__version__m tptp.s__EnglishLanguage |tptp.'Some &%Artifacts have a life cycle with discrete stages or versions. (&%version ARTIFACT1 ARTIFACT2) means that ARTIFACT1 is a version of ARTIFACT2. Note that this &%Predicate relates subclasses of &%Artifact and not instances.'|) (forall ((V__ARTIFACT1 $$unsorted) (V__ARTIFACT2 $$unsorted)) (=> (and (tptp.s__subclass V__ARTIFACT2 tptp.s__Artifact) (tptp.s__instance V__ARTIFACT2 tptp.s__SetOrClass) (tptp.s__subclass V__ARTIFACT1 tptp.s__Artifact) (tptp.s__instance V__ARTIFACT1 tptp.s__SetOrClass)) (=> (tptp.s__version V__ARTIFACT1 V__ARTIFACT2) (tptp.s__subclass V__ARTIFACT1 V__ARTIFACT2)))) (tptp.s__subclass tptp.s__StationaryArtifact tptp.s__Artifact) (tptp.s__documentation tptp.s__StationaryArtifact tptp.s__EnglishLanguage |tptp.'A &%StationaryArtifact is an &%Artifact that has a fixed spatial location. Most instances of this &%Class are architectural works, e.g. the Eiffel Tower, the Great Pyramids, office towers, single-family houses, etc.'|) (tptp.s__subclass tptp.s__Building tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__Building__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Building tptp.s__EnglishLanguage |tptp.'The Class of &%StationaryArtifacts which are intended to house &%Humans and their activities.'|) (forall ((V__BUILDING $$unsorted)) (=> (tptp.s__instance V__BUILDING tptp.s__Object) (=> (tptp.s__instance V__BUILDING tptp.s__Building) (exists ((V__HUMAN $$unsorted)) (and (tptp.s__instance V__HUMAN tptp.s__Human) (or (tptp.s__inhabits V__HUMAN V__BUILDING) (exists ((V__ACT $$unsorted)) (and (tptp.s__instance V__ACT tptp.s__Process) (tptp.s__instance V__HUMAN tptp.s__Organism) (tptp.s__agent V__ACT V__HUMAN) (tptp.s__located V__ACT V__BUILDING))))))))) (tptp.s__subclass tptp.s__Room tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__Room__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__StationaryArtifact__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__Room tptp.s__Building) (tptp.s__documentation tptp.s__Room tptp.s__EnglishLanguage |tptp.'A &%properPart of a &%Building which is separated from the exterior of the &%Building and/or other &%Rooms of the &%Building by walls. Some &%Rooms may have a specific purpose, e.g. sleeping, bathing, cooking, entertainment, etc.'|) (forall ((V__ROOM $$unsorted)) (=> (tptp.s__instance V__ROOM tptp.s__Object) (=> (tptp.s__instance V__ROOM tptp.s__Room) (exists ((V__BUILD $$unsorted)) (and (tptp.s__instance V__BUILD tptp.s__Object) (tptp.s__instance V__BUILD tptp.s__Building) (tptp.s__properPart V__ROOM V__BUILD)))))) (tptp.s__subclass tptp.s__House tptp.s__ResidentialBuilding) (tptp.s__instance tptp.s__ResidentialBuilding__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__House tptp.s__SingleFamilyResidence) (tptp.s__instance tptp.s__House__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__SingleFamilyResidence__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__House tptp.s__EnglishLanguage |tptp.'A &%ResidentialBuilding which is intended to be inhabited by members of the same &%SocialUnit. &%Houses are distinguished from temporary housing like hotels and multi-family dwellings like condominium and apartment buildings.'|) (tptp.s__subclass tptp.s__Residence tptp.s__StationaryArtifact) (tptp.s__partition_3 tptp.s__Residence tptp.s__PermanentResidence tptp.s__TemporaryResidence) (tptp.s__documentation tptp.s__Residence tptp.s__EnglishLanguage |tptp.'A &%Building or part of a &%Building which provides some accomodation for sleeping.'|) (forall ((V__RESIDENCE $$unsorted)) (=> (tptp.s__instance V__RESIDENCE tptp.s__Object) (=> (tptp.s__instance V__RESIDENCE tptp.s__Residence) (or (tptp.s__instance V__RESIDENCE tptp.s__House) (exists ((V__BUILDING $$unsorted)) (and (tptp.s__instance V__BUILDING tptp.s__Object) (tptp.s__instance V__BUILDING tptp.s__ResidentialBuilding) (tptp.s__part V__RESIDENCE V__BUILDING))))))) (tptp.s__subclass tptp.s__PermanentResidence tptp.s__Residence) (tptp.s__instance tptp.s__PermanentResidence__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Residence__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PermanentResidence tptp.s__EnglishLanguage |tptp.'A &%Residence where people live, i.e. where people have a &%home.'|) (forall ((V__RESIDENCE $$unsorted)) (=> (tptp.s__instance V__RESIDENCE tptp.s__PermanentResidence) (exists ((V__PERSON $$unsorted)) (and (tptp.s__instance V__PERSON tptp.s__Human) (tptp.s__home V__PERSON V__RESIDENCE))))) (tptp.s__subclass tptp.s__TemporaryResidence tptp.s__Residence) (tptp.s__instance tptp.s__TemporaryResidence__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TemporaryResidence tptp.s__EnglishLanguage |tptp.'A &%Residence which is strictly temporary, i.e. where no one makes his/her &%home.'|) (forall ((V__RESIDENCE $$unsorted)) (=> (tptp.s__instance V__RESIDENCE tptp.s__PermanentResidence) (=> (tptp.s__instance V__RESIDENCE tptp.s__TemporaryResidence) (not (exists ((V__PERSON $$unsorted)) (and (tptp.s__instance V__PERSON tptp.s__Human) (tptp.s__home V__PERSON V__RESIDENCE))))))) (tptp.s__subclass tptp.s__ResidentialBuilding tptp.s__Building) (tptp.s__subclass tptp.s__ResidentialBuilding tptp.s__Residence) (tptp.s__documentation tptp.s__ResidentialBuilding tptp.s__EnglishLanguage |tptp.'A &%Building which provides some accomodation for sleeping. Note that this class does not cover just permanent residences, e.g. &%Houses and condominium and apartment buildings, but also temporary residences, e.g. hotels and dormitories. &%ResidentialBuildings are also distinguished from &%CommercialBuildings, which are intended to serve an organizational rather than a residential function.'|) (tptp.s__subclass tptp.s__SingleFamilyResidence tptp.s__PermanentResidence) (tptp.s__documentation tptp.s__SingleFamilyResidence tptp.s__EnglishLanguage |tptp.'A &%PermanentResidence which is intended to be the &%home of a single &%SocialUnit. This class covers &%Houses, &%ApartmentUnits, and &%CondominiumUnits.'|) (forall ((V__RESIDENCE $$unsorted)) (=> (tptp.s__instance V__RESIDENCE tptp.s__SingleFamilyResidence) (tptp.s__hasPurpose V__RESIDENCE |tptp.'(! [V__AGENT1,V__AGENT2] : ((s__instance(V__AGENT2,s__Human) & s__instance(V__AGENT1,s__Human) & s__instance(V__RESIDENCE,s__PermanentResidence)) => ((s__home(V__AGENT1,V__RESIDENCE) & s__home(V__AGENT2,V__RESIDENCE)) => (? [V__UNIT] : (s__instance(V__UNIT,s__Collection) & s__instance(V__UNIT,s__SocialUnit) & s__member(V__AGENT1,V__UNIT) & s__member(V__AGENT2,V__UNIT))))))'|))) (tptp.s__subclass tptp.s__ArtWork tptp.s__Artifact) (tptp.s__instance tptp.s__ArtWork__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ArtWork tptp.s__EnglishLanguage |tptp.'&%Artifacts that are created primarily for aesthetic appreciation. Note that this &%Class does not include most examples of architecture, which belong under &%StationaryArtifact.'|) (tptp.s__subclass tptp.s__RepresentationalArtWork tptp.s__ArtWork) (tptp.s__subclass tptp.s__RepresentationalArtWork tptp.s__Icon) (tptp.s__instance tptp.s__RepresentationalArtWork__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__RepresentationalArtWork tptp.s__EnglishLanguage |tptp.'Any &%ArtWork that represents something &%Physical.'|) (tptp.s__subclass tptp.s__Fabric tptp.s__Artifact) (tptp.s__instance tptp.s__Fabric__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__Fabric tptp.s__StationaryArtifact) (tptp.s__documentation tptp.s__Fabric tptp.s__EnglishLanguage |tptp.'&%Artifacts that are created by weaving together natural or synthetic fibers or by treating the skins of certain sorts of &%Animals. Note that this &%Class includes articles that are created by stitching together various types of fabrics, e.g. bedspreads. On the other hand, &%Clothing is not a &%subclass of &%Fabric, because many clothing items contain elements that are not fabrics.'|) (tptp.s__subclass tptp.s__WearableItem tptp.s__Artifact) (tptp.s__documentation tptp.s__WearableItem tptp.s__EnglishLanguage |tptp.'&%WearableItem is the subclass of &%Artifacts that are made to be worn on the body.'|) (tptp.s__subclass tptp.s__Clothing tptp.s__WearableItem) (tptp.s__instance tptp.s__Clothing__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__WearableItem__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__Clothing tptp.s__StationaryArtifact) (tptp.s__documentation tptp.s__Clothing tptp.s__EnglishLanguage |tptp.'&%Artifact made out of fabrics and possibly other materials that are used to cover the bodies of &%Humans.'|) (forall ((V__CLOTHING $$unsorted)) (=> (tptp.s__instance V__CLOTHING tptp.s__Object) (=> (tptp.s__instance V__CLOTHING tptp.s__Clothing) (exists ((V__FABRIC $$unsorted)) (and (tptp.s__instance V__FABRIC tptp.s__Object) (tptp.s__instance V__FABRIC tptp.s__Fabric) (tptp.s__part V__FABRIC V__CLOTHING)))))) (tptp.s__instance tptp.s__wears__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__wears__m |"1"| tptp.s__Animal) (tptp.s__domain tptp.s__wears__m |"2"| tptp.s__WearableItem) (tptp.s__documentation tptp.s__wears__m tptp.s__EnglishLanguage |tptp.'(&%wears ?AGENT ?WI) means that ?AGENT is wearing the &%WearableItem item ?WI.'|) (forall ((V__WI $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Animal) (tptp.s__instance V__WI tptp.s__WearableItem)) (=> (tptp.s__wears V__AGENT V__WI) (tptp.s__located V__WI V__AGENT)))) (forall ((V__P $$unsorted) (V__A $$unsorted) (V__C $$unsorted)) (=> (and (tptp.s__instance V__C tptp.s__WearableItem) (tptp.s__instance V__A tptp.s__Animal) (tptp.s__instance V__P tptp.s__WearableItem)) (=> (and (tptp.s__wears V__A V__C) (tptp.s__part V__P V__C)) (tptp.s__wears V__A V__P)))) (tptp.s__subclass tptp.s__Device tptp.s__Artifact) (tptp.s__documentation tptp.s__Device tptp.s__EnglishLanguage |tptp.'A &%Device is an &%Artifact whose purpose is to serve as an &%instrument in a specific subclass of &%Process.'|) (forall ((V__DEVICE $$unsorted)) (=> (tptp.s__instance V__DEVICE tptp.s__Object) (=> (tptp.s__instance V__DEVICE tptp.s__Device) (exists ((V__PROC $$unsorted)) (and (tptp.s__subclass V__PROC tptp.s__Process) (tptp.s__capability V__PROC tptp.s__instrument__m V__DEVICE)))))) (forall ((V__DEVICE $$unsorted)) (=> (tptp.s__instance V__DEVICE tptp.s__Object) (=> (tptp.s__instance V__DEVICE tptp.s__Device) (exists ((V__PROC $$unsorted)) (tptp.s__hasPurpose V__DEVICE |tptp.'(? [V__INST] : (s__instance(V__INST,s__Process) & s__instance(V__PROC,s__SetOrClass) & s__instance(V__INST,V__PROC) & s__instrument(V__INST,V__DEVICE)))'|))))) (tptp.s__subclass tptp.s__MusicalInstrument tptp.s__Device) (tptp.s__instance tptp.s__MusicalInstrument__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MusicalInstrument tptp.s__EnglishLanguage |tptp.'A &%Device which is manipulated by a &%Human and whose purpose is &%MakingMusic.'|) (forall ((V__INSTRUMENT $$unsorted)) (=> (tptp.s__instance V__INSTRUMENT tptp.s__Object) (=> (tptp.s__instance V__INSTRUMENT tptp.s__MusicalInstrument) (tptp.s__capability tptp.s__MakingMusic tptp.s__instrument__m V__INSTRUMENT)))) (tptp.s__subclass tptp.s__TransportationDevice tptp.s__Device) (tptp.s__instance tptp.s__TransportationDevice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TransportationDevice tptp.s__EnglishLanguage |tptp.'A &%TransportationDevice is a &%Device which serves as the &%instrument in a &%Transportation &%Process which carries the &%patient of the &%Process from one point to another.'|) (forall ((V__DEVICE $$unsorted)) (=> (tptp.s__instance V__DEVICE tptp.s__Object) (=> (tptp.s__instance V__DEVICE tptp.s__TransportationDevice) (tptp.s__capability tptp.s__Transportation tptp.s__instrument__m V__DEVICE)))) (tptp.s__subclass tptp.s__Vehicle tptp.s__TransportationDevice) (tptp.s__instance tptp.s__Vehicle__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Vehicle tptp.s__EnglishLanguage |tptp.'&%Vehicle is the subclass of &%TransportationDevices that transport passengers or goods from one place to another by moving from one place to the other with them, e.g., cars, trucks, ferries, and airplanes. Contrast with devices such as pipelines, escalators, or supermarket checkout belts, which carry items from one place to another by means of a moving part, without the device removing from the origin to the destination.'|) (tptp.s__subclass tptp.s__MeasuringDevice tptp.s__Device) (tptp.s__instance tptp.s__MeasuringDevice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MeasuringDevice tptp.s__EnglishLanguage |tptp.'Any &%Device whose purpose is to measure a &%PhysicalQuantity.'|) (forall ((V__DEVICE $$unsorted)) (=> (tptp.s__instance V__DEVICE tptp.s__Object) (=> (tptp.s__instance V__DEVICE tptp.s__MeasuringDevice) (tptp.s__hasPurpose V__DEVICE |tptp.'(? [V__MEASURE] : (s__instance(V__MEASURE,s__Process) & s__instance(V__MEASURE,s__Measuring) & s__instrument(V__MEASURE,V__DEVICE)))'|)))) (tptp.s__subclass tptp.s__AttachingDevice tptp.s__Device) (tptp.s__instance tptp.s__AttachingDevice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AttachingDevice tptp.s__EnglishLanguage |tptp.'A &%Device whose purpose is to attach one thing to something else, e.g. nails, screws, buttons, etc.'|) (forall ((V__DEVICE $$unsorted)) (=> (tptp.s__instance V__DEVICE tptp.s__Object) (=> (tptp.s__instance V__DEVICE tptp.s__AttachingDevice) (exists ((V__ATTACH $$unsorted)) (and (tptp.s__instance V__ATTACH tptp.s__Process) (tptp.s__instance V__ATTACH tptp.s__Attaching) (tptp.s__instrument V__ATTACH V__DEVICE)))))) (tptp.s__subclass tptp.s__Weapon tptp.s__Device) (tptp.s__instance tptp.s__Weapon__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Weapon tptp.s__EnglishLanguage |tptp.'The &%Class of &%Devices that are designed primarily to damage or destroy &%Humans/&%Animals, &%StationaryArtifacts or the places inhabited by &%Humans/&%Animals.'|) (forall ((V__WEAPON $$unsorted)) (=> (tptp.s__instance V__WEAPON tptp.s__Object) (=> (tptp.s__instance V__WEAPON tptp.s__Weapon) (tptp.s__capability tptp.s__Damaging tptp.s__instrument__m V__WEAPON)))) (forall ((V__WEAPON $$unsorted)) (=> (tptp.s__instance V__WEAPON tptp.s__Object) (=> (tptp.s__instance V__WEAPON tptp.s__Weapon) (tptp.s__hasPurpose V__WEAPON |tptp.'(? [V__D,V__PATIENT] : (s__instance(V__D,s__Process) & s__instance(V__D,s__Damaging) & s__instrument(V__D,V__WEAPON) & s__patient(V__D,V__PATIENT)))'|)))) (tptp.s__subclass tptp.s__Machine tptp.s__Device) (tptp.s__instance tptp.s__Machine__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Device__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Machine tptp.s__EnglishLanguage |tptp.'&%Machines are &%Devices that that have a well-defined &%resource and &%result and that automatically convert the &%resource into the &%result.'|) (forall ((V__MACHINE $$unsorted)) (=> (tptp.s__instance V__MACHINE tptp.s__Machine) (forall ((V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__MACHINE tptp.s__Object)) (=> (tptp.s__instrument V__PROC V__MACHINE) (exists ((V__RESOURCE $$unsorted) (V__RESULT $$unsorted)) (and (tptp.s__instance V__RESOURCE tptp.s__Object) (tptp.s__resource V__PROC V__RESOURCE) (tptp.s__result V__PROC V__RESULT)))))))) (tptp.s__subclass tptp.s__EngineeringComponent tptp.s__Device) (tptp.s__documentation tptp.s__EngineeringComponent tptp.s__EnglishLanguage |tptp.'A fundamental concept that applies in many engineering domains. An &%EngineeringComponent is an element of a &%Device that is a physically whole object, such as one might see listed as standard parts in a catalog. The main difference betweeen &%EngineeringComponents and arbitrary globs of matter is that &%EngineeringComponents are object-like in a modeling sense. Thus, an &%EngineeringComponent is not an arbtrary subregion, but a part of a system with a stable identity.'|) (forall ((V__COMP $$unsorted)) (=> (tptp.s__instance V__COMP tptp.s__CorpuscularObject) (=> (tptp.s__instance V__COMP tptp.s__EngineeringComponent) (exists ((V__DEVICE $$unsorted)) (and (tptp.s__instance V__DEVICE tptp.s__CorpuscularObject) (tptp.s__instance V__DEVICE tptp.s__Device) (tptp.s__component V__COMP V__DEVICE)))))) (forall ((V__MACHINE $$unsorted)) (=> (tptp.s__instance V__MACHINE tptp.s__Object) (=> (tptp.s__instance V__MACHINE tptp.s__Machine) (exists ((V__COMP1 $$unsorted) (V__COMP2 $$unsorted)) (and (tptp.s__instance V__COMP2 tptp.s__Object) (tptp.s__instance V__COMP1 tptp.s__Object) (tptp.s__instance V__COMP1 tptp.s__EngineeringComponent) (tptp.s__instance V__COMP2 tptp.s__EngineeringComponent) (not (= V__COMP1 V__COMP2)) (tptp.s__part V__COMP1 V__MACHINE) (tptp.s__part V__COMP2 V__MACHINE)))))) (tptp.s__subrelation tptp.s__engineeringSubcomponent__m tptp.s__properPart__m) (tptp.s__domain tptp.s__engineeringSubcomponent__m |"1"| tptp.s__EngineeringComponent) (tptp.s__domain tptp.s__engineeringSubcomponent__m |"2"| tptp.s__EngineeringComponent) (tptp.s__documentation tptp.s__engineeringSubcomponent__m tptp.s__EnglishLanguage |tptp.'(&%engineeringSubcomponent ?SUB ?SUPER) means that the &%EngineeringComponent ?SUB is structurally a &%properPart of ?SUPER. This relation is an &%AsymmetricRelation, since two &%EngineeringComponents cannot be subcomponents of each other.'|) (tptp.s__instance tptp.s__connectedEngineeringComponents__m tptp.s__SymmetricRelation) (tptp.s__instance tptp.s__connectedEngineeringComponents__m tptp.s__IrreflexiveRelation) (tptp.s__subrelation tptp.s__connectedEngineeringComponents__m tptp.s__connected__m) (tptp.s__domain tptp.s__connectedEngineeringComponents__m |"1"| tptp.s__EngineeringComponent) (tptp.s__domain tptp.s__connectedEngineeringComponents__m |"2"| tptp.s__EngineeringComponent) (tptp.s__documentation tptp.s__connectedEngineeringComponents__m tptp.s__EnglishLanguage |tptp.'This is the most general connection relation between &%EngineeringComponents. If (&%connectedEngineeringComponents ?COMP1 ?COMP2), then neither ?COMP1 nor ?COMP2 can be an &%engineeringSubcomponent of the other. The relation &%connectedEngineeringComponents is a &%SymmetricRelation, there is no information in the direction of connection between two components. It is also an &%IrreflexiveRelation, no &%EngineeringComponent bears this relation to itself. Note that this relation does not associate a name or type with the connection.'|) (forall ((V__COMP2 $$unsorted) (V__COMP1 $$unsorted)) (=> (and (tptp.s__instance V__COMP1 tptp.s__EngineeringComponent) (tptp.s__instance V__COMP2 tptp.s__EngineeringComponent)) (=> (tptp.s__connectedEngineeringComponents V__COMP1 V__COMP2) (and (not (tptp.s__engineeringSubcomponent V__COMP1 V__COMP2)) (not (tptp.s__engineeringSubcomponent V__COMP2 V__COMP1)))))) (tptp.s__subclass tptp.s__EngineeringConnection tptp.s__EngineeringComponent) (tptp.s__instance tptp.s__EngineeringConnection__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__EngineeringComponent__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__EngineeringConnection tptp.s__EnglishLanguage |tptp.'An &%EngineeringConnection is an &%EngineeringComponent that represents a connection relationship between two other &%EngineeringComponents. It is a reification of the &%Predicate &%connectedEngineeringComponents. That means that whenever this &%Predicate holds between two &%EngineeringComponents, there exists an &%EngineeringConnection. The practical reason for reifying a relationship is to be able to attach other information about it. For example, one might want to say that a particular connection is associated with some shared parameters, or that it is of a particular type. &%EngineeringConnections are &%EngineeringComponents and can therefore be an &%engineeringSubcomponent of other &%EngineeringComponents. However, to provide for modular regularity in component systems, &%EngineeringConnections cannot be connected. For each pair of &%EngineeringComponents related by &%connectedEngineeringComponents, there exists at least one &%EngineeringConnection. However, that object may not be unique, and the same &%EngineeringConnection may be associated with several pairs of &%EngineeringComponents.'|) (forall ((V__CONNECTION $$unsorted)) (=> (tptp.s__instance V__CONNECTION tptp.s__EngineeringConnection) (exists ((V__COMP1 $$unsorted) (V__COMP2 $$unsorted)) (and (tptp.s__instance V__COMP2 tptp.s__EngineeringComponent) (tptp.s__instance V__COMP1 tptp.s__EngineeringComponent) (tptp.s__connectsEngineeringComponents V__CONNECTION V__COMP1 V__COMP2))))) (forall ((V__COMP2 $$unsorted) (V__COMP1 $$unsorted)) (=> (and (tptp.s__instance V__COMP1 tptp.s__EngineeringComponent) (tptp.s__instance V__COMP2 tptp.s__EngineeringComponent)) (=> (tptp.s__connectedEngineeringComponents V__COMP1 V__COMP2) (not (or (tptp.s__instance V__COMP1 tptp.s__EngineeringConnection) (tptp.s__instance V__COMP2 tptp.s__EngineeringConnection)))))) (forall ((V__COMP2 $$unsorted) (V__COMP1 $$unsorted)) (=> (and (tptp.s__instance V__COMP1 tptp.s__EngineeringComponent) (tptp.s__instance V__COMP2 tptp.s__EngineeringComponent)) (= (tptp.s__connectedEngineeringComponents V__COMP1 V__COMP2) (exists ((V__CONNECTION $$unsorted)) (and (tptp.s__instance V__CONNECTION tptp.s__EngineeringConnection) (tptp.s__connectsEngineeringComponents V__CONNECTION V__COMP1 V__COMP2)))))) (tptp.s__subrelation tptp.s__connectsEngineeringComponents__m tptp.s__connects__m) (tptp.s__domain tptp.s__connectsEngineeringComponents__m |"1"| tptp.s__EngineeringConnection) (tptp.s__domain tptp.s__connectsEngineeringComponents__m |"2"| tptp.s__EngineeringComponent) (tptp.s__domain tptp.s__connectsEngineeringComponents__m |"3"| tptp.s__EngineeringComponent) (tptp.s__documentation tptp.s__connectsEngineeringComponents__m tptp.s__EnglishLanguage |tptp.'&%connectsEngineeringComponents is a &%TernaryPredicate that maps from an &%EngineeringConnection to the &%EngineeringComponents it connects. Since &%EngineeringComponents cannot be connected to themselves and there cannot be an &%EngineeringConnection without a &%connectedEngineeringComponents &%Predicate, the second and third arguments of any &%connectsEngineeringComponents relationship will always be distinct for any given first argument.'|) (tptp.s__subclass tptp.s__CommercialAgent tptp.s__Agent) (tptp.s__documentation tptp.s__CommercialAgent tptp.s__EnglishLanguage |tptp.'An &%Agent that provides products and/or services for a fee with the aim of making a profit.'|) (tptp.s__subclass tptp.s__Business tptp.s__CommercialAgent) (tptp.s__instance tptp.s__Business__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__CommercialAgent__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Business tptp.s__Organization) (tptp.s__documentation tptp.s__Business tptp.s__EnglishLanguage |tptp.'An &%instance of &%Business is an &%Organization that is a &%CommercialAgent.'|) (tptp.s__subclass tptp.s__Corporation tptp.s__Business) (tptp.s__subclass tptp.s__Corporation tptp.s__LegalAgent) (tptp.s__documentation tptp.s__Corporation tptp.s__EnglishLanguage |tptp.'An &%Organization that has a special legal status that allows a group of persons to act as a &%CommercialAgent and that insulates the owners (shareholders) from many liabilities that might result from the corporations operation.'|) (tptp.s__subclass tptp.s__Manufacturer tptp.s__Corporation) (tptp.s__instance tptp.s__Manufacturer__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Corporation__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Manufacturer tptp.s__EnglishLanguage |tptp.'Any &%Corporation which manufactures &%Products.'|) (forall ((V__ORG $$unsorted)) (=> (tptp.s__instance V__ORG tptp.s__Agent) (=> (tptp.s__instance V__ORG tptp.s__Manufacturer) (tptp.s__hasPurpose V__ORG |tptp.'(? [V__MANUFACTURE] : (s__instance(V__MANUFACTURE,s__Process) & s__instance(V__MANUFACTURE,s__Manufacture) & s__instance(V__MANUFACTURE,s__CommercialService) & s__agent(V__MANUFACTURE,V__ORG)))'|)))) (tptp.s__subclass tptp.s__MercantileOrganization tptp.s__Corporation) (tptp.s__instance tptp.s__MercantileOrganization__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MercantileOrganization tptp.s__EnglishLanguage |tptp.'Any &%Corporation which sells goods or services to customers for a profit.'|) (forall ((V__ORG $$unsorted)) (=> (tptp.s__instance V__ORG tptp.s__Agent) (=> (tptp.s__instance V__ORG tptp.s__MercantileOrganization) (tptp.s__hasPurpose V__ORG |tptp.'(? [V__SELL] : (s__instance(V__SELL,s__Process) & s__instance(V__SELL,s__Selling) & s__instance(V__SELL,s__CommercialService) & s__agent(V__SELL,V__ORG)))'|)))) (tptp.s__subclass tptp.s__Group tptp.s__Collection) (tptp.s__subclass tptp.s__Group tptp.s__Agent) (tptp.s__instance tptp.s__Group__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Agent__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Group tptp.s__EnglishLanguage |tptp.'A &%Collection of &%Agents, e.g. a flock of sheep, a herd of goats, or the local Boy Scout troop.'|) (forall ((V__MEMB $$unsorted) (V__GROUP $$unsorted)) (=> (and (tptp.s__instance V__GROUP tptp.s__Collection) (tptp.s__instance V__MEMB tptp.s__SelfConnectedObject)) (=> (and (tptp.s__instance V__GROUP tptp.s__Group) (tptp.s__member V__MEMB V__GROUP)) (tptp.s__instance V__MEMB tptp.s__Agent)))) (tptp.s__subclass tptp.s__GroupOfPeople tptp.s__Group) (tptp.s__documentation tptp.s__GroupOfPeople tptp.s__EnglishLanguage |tptp.'Any &%Group whose &%members are exclusively &%Humans.'|) (forall ((V__MEMBER $$unsorted) (V__GROUP $$unsorted)) (=> (and (tptp.s__instance V__GROUP tptp.s__Collection) (tptp.s__instance V__MEMBER tptp.s__SelfConnectedObject)) (=> (and (tptp.s__instance V__GROUP tptp.s__GroupOfPeople) (tptp.s__member V__MEMBER V__GROUP)) (tptp.s__instance V__MEMBER tptp.s__Human)))) (tptp.s__subclass tptp.s__AgeGroup tptp.s__GroupOfPeople) (tptp.s__instance tptp.s__AgeGroup__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__GroupOfPeople__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AgeGroup tptp.s__EnglishLanguage |tptp.'A &%GroupOfPeople whose &%members all have the same &%age.'|) (forall ((V__GROUP $$unsorted)) (=> (tptp.s__instance V__GROUP tptp.s__AgeGroup) (forall ((V__MEMB1 $$unsorted) (V__MEMB2 $$unsorted) (V__AGE1 $$unsorted) (V__AGE2 $$unsorted)) (=> (and (tptp.s__instance V__AGE2 tptp.s__TimeDuration) (tptp.s__instance V__AGE1 tptp.s__TimeDuration) (tptp.s__instance V__MEMB2 tptp.s__SelfConnectedObject) (tptp.s__instance V__MEMB1 tptp.s__SelfConnectedObject) (tptp.s__instance V__GROUP tptp.s__Collection)) (=> (and (tptp.s__member V__MEMB1 V__GROUP) (tptp.s__member V__MEMB2 V__GROUP) (tptp.s__age V__MEMB1 V__AGE1) (tptp.s__age V__MEMB2 V__AGE2)) (= V__AGE1 V__AGE2)))))) (tptp.s__subclass tptp.s__FamilyGroup tptp.s__GroupOfPeople) (tptp.s__instance tptp.s__FamilyGroup__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FamilyGroup tptp.s__EnglishLanguage |tptp.'A &%GroupOfPeople whose &%members bear &%familyRelations to one another.'|) (forall ((V__GROUP $$unsorted)) (=> (tptp.s__instance V__GROUP tptp.s__FamilyGroup) (forall ((V__MEMB1 $$unsorted) (V__MEMB2 $$unsorted)) (=> (and (tptp.s__instance V__MEMB2 tptp.s__Organism) (tptp.s__instance V__MEMB1 tptp.s__Organism) (tptp.s__instance V__GROUP tptp.s__Collection)) (=> (and (tptp.s__member V__MEMB1 V__GROUP) (tptp.s__member V__MEMB2 V__GROUP)) (tptp.s__familyRelation V__MEMB1 V__MEMB2)))))) (tptp.s__subclass tptp.s__SocialUnit tptp.s__GroupOfPeople) (tptp.s__instance tptp.s__SocialUnit__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SocialUnit tptp.s__EnglishLanguage |tptp.'A &%GroupOfPeople who all have the same &%home.'|) (forall ((V__MEMBER $$unsorted) (V__UNIT $$unsorted)) (=> (and (tptp.s__instance V__UNIT tptp.s__Collection) (tptp.s__instance V__MEMBER tptp.s__Human)) (=> (tptp.s__instance V__UNIT tptp.s__SocialUnit) (exists ((V__HOME $$unsorted)) (and (tptp.s__instance V__HOME tptp.s__PermanentResidence) (=> (tptp.s__member V__MEMBER V__UNIT) (tptp.s__home V__MEMBER V__HOME))))))) (tptp.s__instance tptp.s__ImmediateFamilyFn__m tptp.s__UnaryFunction) (tptp.s__domain tptp.s__ImmediateFamilyFn__m |"1"| tptp.s__Human) (tptp.s__range tptp.s__ImmediateFamilyFn__m tptp.s__FamilyGroup) (tptp.s__documentation tptp.s__ImmediateFamilyFn__m tptp.s__EnglishLanguage |tptp.'(&%ImmediateFamilyFn ?PERSON) denotes the immediate family of ?PERSON, i.e. the &%Group consisting of the &%parents of ?PERSON and anyone of whom ?PERSON is a &%parent.'|) (forall ((V__P $$unsorted) (V__FAMILY $$unsorted)) (=> (= (tptp.s__ImmediateFamilyFn V__P) V__FAMILY) (forall ((V__MEMBER $$unsorted)) (=> (and (tptp.s__instance V__MEMBER tptp.s__Organism) (tptp.s__instance V__FAMILY tptp.s__Collection) (tptp.s__instance V__P tptp.s__Human)) (=> (tptp.s__member V__MEMBER V__FAMILY) (exists ((V__OTHER $$unsorted)) (and (tptp.s__instance V__OTHER tptp.s__Organism) (or (tptp.s__parent V__MEMBER V__OTHER) (tptp.s__parent V__OTHER V__MEMBER))))))))) (forall ((V__PERSON $$unsorted) (V__FAMILY $$unsorted)) (=> (and (tptp.s__instance V__FAMILY tptp.s__Collection) (tptp.s__instance V__PERSON tptp.s__Human)) (=> (= (tptp.s__ImmediateFamilyFn V__PERSON) V__FAMILY) (exists ((V__MEMBER $$unsorted)) (and (tptp.s__instance V__MEMBER tptp.s__Organism) (tptp.s__member V__MEMBER V__FAMILY) (or (tptp.s__parent V__MEMBER V__PERSON) (tptp.s__parent V__PERSON V__MEMBER))))))) (tptp.s__instance tptp.s__relative__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__relative__m tptp.s__SymmetricRelation) (tptp.s__domain tptp.s__relative__m |"1"| tptp.s__Organism) (tptp.s__domain tptp.s__relative__m |"2"| tptp.s__Organism) (tptp.s__documentation tptp.s__relative__m tptp.s__EnglishLanguage |tptp.'(&%relative ?O1 ?O2) means that ?O1 and ?O2 are relatives, whether through common ancestry (consanguinity), someones marriage (affinity), or someones adoption. This definition is intentionally broad, so as to capture a wide array of `familial relations. The notion of who counts as `family also varies between cultures, but that aspect of meaning is not addressed here.'|) (tptp.s__subrelation tptp.s__familyRelation__m tptp.s__relative__m) (tptp.s__subrelation tptp.s__spouse__m tptp.s__relative__m) (tptp.s__instance tptp.s__familyRelation__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__familyRelation__m tptp.s__EquivalenceRelation) (tptp.s__domain tptp.s__familyRelation__m |"1"| tptp.s__Organism) (tptp.s__domain tptp.s__familyRelation__m |"2"| tptp.s__Organism) (tptp.s__documentation tptp.s__familyRelation__m tptp.s__EnglishLanguage |tptp.'A very general &%Predicate for biological relationships. (&%familyRelation ?ORGANISM1 ?ORGANISM2) means that ?ORGANISM1 and ?ORGANISM2 are biologically derived from a common ancestor.'|) (forall ((V__ORGANISM1 $$unsorted) (V__ORGANISM2 $$unsorted)) (=> (and (tptp.s__instance V__ORGANISM2 tptp.s__Organism) (tptp.s__instance V__ORGANISM1 tptp.s__Organism)) (=> (tptp.s__familyRelation V__ORGANISM1 V__ORGANISM2) (exists ((V__ORGANISM3 $$unsorted)) (and (tptp.s__instance V__ORGANISM3 tptp.s__Organism) (tptp.s__ancestor V__ORGANISM3 V__ORGANISM1) (tptp.s__ancestor V__ORGANISM3 V__ORGANISM2)))))) (tptp.s__subrelation tptp.s__ancestor__m tptp.s__familyRelation__m) (tptp.s__instance tptp.s__ancestor__m tptp.s__TransitiveRelation) (tptp.s__instance tptp.s__ancestor__m tptp.s__IrreflexiveRelation) (tptp.s__domain tptp.s__ancestor__m |"1"| tptp.s__Organism) (tptp.s__domain tptp.s__ancestor__m |"2"| tptp.s__Organism) (tptp.s__documentation tptp.s__ancestor__m tptp.s__EnglishLanguage |tptp.'The transitive closure of the &%parent predicate. (&%ancestor ?DESCENDANT ?ANCESTOR) means that ?ANCESTOR is either the &%parent of ?DESCENDANT or the &%parent of the &%parent of &%DESCENDANT or etc.'|) (tptp.s__subrelation tptp.s__parent__m tptp.s__ancestor__m) (tptp.s__instance tptp.s__parent__m tptp.s__BinaryPredicate) (tptp.s__subrelation tptp.s__parent__m tptp.s__familyRelation__m) (tptp.s__instance tptp.s__parent__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__parent__m tptp.s__IntransitiveRelation) (tptp.s__domain tptp.s__parent__m |"1"| tptp.s__Organism) (tptp.s__domain tptp.s__parent__m |"2"| tptp.s__Organism) (tptp.s__documentation tptp.s__parent__m tptp.s__EnglishLanguage |tptp.'The general relationship of parenthood. (&%parent ?CHILD ?PARENT) means that ?PARENT is a biological parent of ?CHILD.'|) (forall ((V__CHILD $$unsorted) (V__PARENT $$unsorted)) (=> (and (tptp.s__instance V__PARENT tptp.s__Organism) (tptp.s__instance V__CHILD tptp.s__Organism)) (=> (tptp.s__parent V__CHILD V__PARENT) (tptp.s__before (tptp.s__BeginFn (tptp.s__WhenFn V__PARENT)) (tptp.s__BeginFn (tptp.s__WhenFn V__CHILD)))))) (forall ((V__CLASS $$unsorted) (V__CHILD $$unsorted) (V__PARENT $$unsorted)) (=> (and (tptp.s__instance V__PARENT tptp.s__Organism) (tptp.s__instance V__CHILD tptp.s__Organism) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (and (tptp.s__parent V__CHILD V__PARENT) (tptp.s__subclass V__CLASS tptp.s__Organism) (tptp.s__instance V__PARENT V__CLASS)) (tptp.s__instance V__CHILD V__CLASS)))) (forall ((V__REP $$unsorted) (V__CHILD $$unsorted) (V__PARENT $$unsorted)) (=> (and (tptp.s__instance V__PARENT tptp.s__Organism) (tptp.s__instance V__CHILD tptp.s__Organism) (tptp.s__instance V__REP tptp.s__Process)) (=> (and (tptp.s__parent V__CHILD V__PARENT) (tptp.s__instance V__REP tptp.s__SexualReproduction) (tptp.s__agent V__REP V__PARENT) (tptp.s__result V__REP V__CHILD)) (or (tptp.s__mother V__CHILD V__PARENT) (tptp.s__father V__CHILD V__PARENT))))) (forall ((V__ORGANISM $$unsorted)) (=> (tptp.s__instance V__ORGANISM tptp.s__Organism) (exists ((V__PARENT $$unsorted)) (and (tptp.s__instance V__PARENT tptp.s__Organism) (tptp.s__parent V__ORGANISM V__PARENT))))) (tptp.s__instance tptp.s__mother__m tptp.s__SingleValuedRelation) (tptp.s__subrelation tptp.s__mother__m tptp.s__parent__m) (tptp.s__domain tptp.s__mother__m |"1"| tptp.s__Organism) (tptp.s__domain tptp.s__mother__m |"2"| tptp.s__Organism) (tptp.s__documentation tptp.s__mother__m tptp.s__EnglishLanguage |tptp.'The general relationship of motherhood. (&%mother ?CHILD ?MOTHER) means that ?MOTHER is the biological mother of ?CHILD.'|) (forall ((V__MOTHER $$unsorted) (V__CHILD $$unsorted)) (=> (and (tptp.s__instance V__CHILD tptp.s__Organism) (tptp.s__instance V__MOTHER tptp.s__Organism)) (=> (tptp.s__mother V__CHILD V__MOTHER) (tptp.s__attribute V__MOTHER tptp.s__Female)))) (tptp.s__instance tptp.s__father__m tptp.s__SingleValuedRelation) (tptp.s__subrelation tptp.s__father__m tptp.s__parent__m) (tptp.s__domain tptp.s__father__m |"1"| tptp.s__Organism) (tptp.s__domain tptp.s__father__m |"2"| tptp.s__Organism) (tptp.s__documentation tptp.s__father__m tptp.s__EnglishLanguage |tptp.'The general relationship of fatherhood. (&%father ?CHILD ?FATHER) means that ?FATHER is the biological father of ?CHILD.'|) (forall ((V__FATHER $$unsorted) (V__CHILD $$unsorted)) (=> (and (tptp.s__instance V__CHILD tptp.s__Organism) (tptp.s__instance V__FATHER tptp.s__Organism)) (=> (tptp.s__father V__CHILD V__FATHER) (tptp.s__attribute V__FATHER tptp.s__Male)))) (tptp.s__subrelation tptp.s__daughter__m tptp.s__parent__m) (tptp.s__domain tptp.s__daughter__m |"1"| tptp.s__Organism) (tptp.s__domain tptp.s__daughter__m |"2"| tptp.s__Organism) (tptp.s__documentation tptp.s__daughter__m tptp.s__EnglishLanguage |tptp.'The general relationship of daughterhood. (&%daughter ?CHILD ?PARENT) means that ?CHILD is the biological daughter of ?PARENT.'|) (forall ((V__CHILD $$unsorted) (V__PARENT $$unsorted)) (=> (and (tptp.s__instance V__PARENT tptp.s__Organism) (tptp.s__instance V__CHILD tptp.s__Organism)) (=> (tptp.s__daughter V__CHILD V__PARENT) (tptp.s__attribute V__CHILD tptp.s__Female)))) (tptp.s__subrelation tptp.s__son__m tptp.s__parent__m) (tptp.s__domain tptp.s__son__m |"1"| tptp.s__Organism) (tptp.s__domain tptp.s__son__m |"2"| tptp.s__Organism) (tptp.s__documentation tptp.s__son__m tptp.s__EnglishLanguage |tptp.'The general relationship of being a son. (&%son ?CHILD ?PARENT) means that ?CHILD is the biological son of ?PARENT.'|) (forall ((V__CHILD $$unsorted) (V__PARENT $$unsorted)) (=> (and (tptp.s__instance V__PARENT tptp.s__Organism) (tptp.s__instance V__CHILD tptp.s__Organism)) (=> (tptp.s__son V__CHILD V__PARENT) (tptp.s__attribute V__CHILD tptp.s__Male)))) (tptp.s__instance tptp.s__sibling__m tptp.s__BinaryPredicate) (tptp.s__subrelation tptp.s__sibling__m tptp.s__familyRelation__m) (tptp.s__instance tptp.s__sibling__m tptp.s__SymmetricRelation) (tptp.s__instance tptp.s__sibling__m tptp.s__IrreflexiveRelation) (tptp.s__domain tptp.s__sibling__m |"1"| tptp.s__Organism) (tptp.s__domain tptp.s__sibling__m |"2"| tptp.s__Organism) (tptp.s__documentation tptp.s__sibling__m tptp.s__EnglishLanguage |tptp.'The relationship between two &%Organisms that have the same &%mother and &%father. Note that this relationship does not hold between half-brothers, half-sisters, etc.'|) (forall ((V__PARENT2 $$unsorted) (V__ORGANISM1 $$unsorted) (V__ORGANISM2 $$unsorted) (V__PARENT1 $$unsorted)) (=> (and (tptp.s__instance V__PARENT1 tptp.s__Organism) (tptp.s__instance V__ORGANISM2 tptp.s__Organism) (tptp.s__instance V__ORGANISM1 tptp.s__Organism) (tptp.s__instance V__PARENT2 tptp.s__Organism)) (=> (and (tptp.s__parent V__ORGANISM1 V__PARENT1) (tptp.s__parent V__ORGANISM2 V__PARENT1) (tptp.s__parent V__ORGANISM1 V__PARENT2) (tptp.s__parent V__ORGANISM2 V__PARENT2) (not (= V__ORGANISM1 V__ORGANISM2)) (not (= V__PARENT1 V__PARENT2))) (tptp.s__sibling V__ORGANISM1 V__ORGANISM2)))) (forall ((V__ORG1 $$unsorted) (V__ORG2 $$unsorted) (V__PARENT $$unsorted)) (=> (and (tptp.s__instance V__PARENT tptp.s__Organism) (tptp.s__instance V__ORG2 tptp.s__Organism) (tptp.s__instance V__ORG1 tptp.s__Organism)) (=> (and (tptp.s__sibling V__ORG1 V__ORG2) (tptp.s__parent V__ORG1 V__PARENT)) (tptp.s__parent V__ORG2 V__PARENT)))) (forall ((V__CHILD $$unsorted) (V__PARENT $$unsorted)) (=> (and (tptp.s__instance V__PARENT tptp.s__Organism) (tptp.s__instance V__CHILD tptp.s__Organism)) (=> (and (tptp.s__parent V__CHILD V__PARENT) (tptp.s__attribute V__PARENT tptp.s__Male)) (tptp.s__father V__CHILD V__PARENT)))) (forall ((V__CHILD $$unsorted) (V__PARENT $$unsorted)) (=> (and (tptp.s__instance V__PARENT tptp.s__Organism) (tptp.s__instance V__CHILD tptp.s__Organism)) (=> (and (tptp.s__parent V__CHILD V__PARENT) (tptp.s__attribute V__PARENT tptp.s__Female)) (tptp.s__mother V__CHILD V__PARENT)))) (tptp.s__subrelation tptp.s__brother__m tptp.s__sibling__m) (tptp.s__instance tptp.s__brother__m tptp.s__IrreflexiveRelation) (tptp.s__instance tptp.s__brother__m tptp.s__TransitiveRelation) (tptp.s__domain tptp.s__brother__m |"1"| tptp.s__Man) (tptp.s__domain tptp.s__brother__m |"2"| tptp.s__Human) (tptp.s__documentation tptp.s__brother__m tptp.s__EnglishLanguage |tptp.'The general relationship of being a brother. (&%brother ?MAN ?PERSON) means that ?MAN is the brother of ?PERSON.'|) (tptp.s__subrelation tptp.s__sister__m tptp.s__sibling__m) (tptp.s__instance tptp.s__sister__m tptp.s__IrreflexiveRelation) (tptp.s__instance tptp.s__sister__m tptp.s__TransitiveRelation) (tptp.s__domain tptp.s__sister__m |"1"| tptp.s__Woman) (tptp.s__domain tptp.s__sister__m |"2"| tptp.s__Human) (tptp.s__documentation tptp.s__sister__m tptp.s__EnglishLanguage |tptp.'The general relationship of being a sister. (&%sister ?WOMAN ?PERSON) means that ?WOMAN is the sister of ?PERSON.'|) (tptp.s__instance tptp.s__legalRelation__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__legalRelation__m tptp.s__SymmetricRelation) (tptp.s__domain tptp.s__legalRelation__m |"1"| tptp.s__Human) (tptp.s__domain tptp.s__legalRelation__m |"2"| tptp.s__Human) (tptp.s__documentation tptp.s__legalRelation__m tptp.s__EnglishLanguage |tptp.'(&%legalRelation ?AGENT1 ?AGENT2) means that ?AGENT1 and ?AGENT2 are relatives by virtue of a legal relationship. Some examples include marriage, adoption, etc.'|) (forall ((V__AGENT2 $$unsorted) (V__AGENT1 $$unsorted)) (=> (and (tptp.s__instance V__AGENT1 tptp.s__Human) (tptp.s__instance V__AGENT2 tptp.s__Human)) (=> (tptp.s__legalRelation V__AGENT1 V__AGENT2) (exists ((V__DECLARE $$unsorted) (V__OBLIGATION $$unsorted)) (and (tptp.s__instance V__OBLIGATION tptp.s__Formula) (tptp.s__instance V__DECLARE tptp.s__Declaring) (tptp.s__confersObligation V__OBLIGATION V__DECLARE V__AGENT1) (tptp.s__confersObligation V__OBLIGATION V__DECLARE V__AGENT2)))))) (tptp.s__instance tptp.s__acquaintance__m tptp.s__BinaryPredicate) (tptp.s__documentation tptp.s__acquaintance__m tptp.s__EnglishLanguage |tptp.'(&%acquaintance ?H1 ?H2) means that ?H1 has met and knows something about ?H2, such as ?H2s name and appearance. Statements made with this predicate should be temporally specified with &%holdsDuring. Note that &%acquaintance is not symmetric. For the symmetric version, see &%mutualAcquaintance.'|) (tptp.s__domain tptp.s__acquaintance__m |"1"| tptp.s__Human) (tptp.s__domain tptp.s__acquaintance__m |"2"| tptp.s__Human) (tptp.s__instance tptp.s__mutualAcquaintance__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__mutualAcquaintance__m tptp.s__SymmetricRelation) (tptp.s__documentation tptp.s__mutualAcquaintance__m tptp.s__EnglishLanguage |tptp.'(&%mutualAcquaintance ?H1 ?H2) means that ?H1 and ?H2 have met each other and know something about each other, such as name and appearance. Statements made with this predicate should be temporally specified with &%holdsDuring. See also the weaker, non-symmetric version of this predicate, &%acquaintance.'|) (tptp.s__domain tptp.s__mutualAcquaintance__m |"1"| tptp.s__Human) (tptp.s__domain tptp.s__mutualAcquaintance__m |"2"| tptp.s__Human) (tptp.s__subrelation tptp.s__mutualAcquaintance__m tptp.s__acquaintance__m) (tptp.s__subrelation tptp.s__spouse__m tptp.s__mutualAcquaintance__m) (tptp.s__subrelation tptp.s__spouse__m tptp.s__legalRelation__m) (tptp.s__instance tptp.s__spouse__m tptp.s__IrreflexiveRelation) (tptp.s__instance tptp.s__spouse__m tptp.s__SymmetricRelation) (tptp.s__instance tptp.s__SymmetricRelation__t tptp.s__SetOrClass) (tptp.s__domain tptp.s__spouse__m |"1"| tptp.s__Human) (tptp.s__domain tptp.s__spouse__m |"2"| tptp.s__Human) (tptp.s__documentation tptp.s__spouse__m tptp.s__EnglishLanguage |tptp.'The relationship of marriage between two &%Humans.'|) (tptp.s__subrelation tptp.s__husband__m tptp.s__spouse__m) (tptp.s__instance tptp.s__husband__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__husband__m tptp.s__IrreflexiveRelation) (tptp.s__instance tptp.s__IrreflexiveRelation__t tptp.s__SetOrClass) (tptp.s__domain tptp.s__husband__m |"1"| tptp.s__Man) (tptp.s__domain tptp.s__husband__m |"2"| tptp.s__Woman) (tptp.s__inverse tptp.s__husband__m tptp.s__wife__m) (tptp.s__documentation tptp.s__husband__m tptp.s__EnglishLanguage |tptp.'(&%husband ?MAN ?WOMAN) means that ?MAN is the husband of ?WOMAN.'|) (tptp.s__subrelation tptp.s__wife__m tptp.s__spouse__m) (tptp.s__instance tptp.s__wife__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__wife__m tptp.s__IrreflexiveRelation) (tptp.s__domain tptp.s__wife__m |"1"| tptp.s__Woman) (tptp.s__domain tptp.s__wife__m |"2"| tptp.s__Man) (tptp.s__documentation tptp.s__wife__m tptp.s__EnglishLanguage |tptp.'(&%wife ?WOMAN ?MAN) means that ?WOMAN is the wife of ?MAN.'|) (tptp.s__subclass tptp.s__EthnicGroup tptp.s__GroupOfPeople) (tptp.s__instance tptp.s__EthnicGroup__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__EthnicGroup tptp.s__EnglishLanguage |tptp.'A &%GroupOfPeople whose &%members originate from the same &%GeographicArea or share the same &%Language and/or cultural practices.'|) (tptp.s__subclass tptp.s__BeliefGroup tptp.s__GroupOfPeople) (tptp.s__documentation tptp.s__BeliefGroup tptp.s__EnglishLanguage |tptp.'A &%GroupOfPeople whose &%members share a belief or set of beliefs.'|) (forall ((V__GROUP $$unsorted)) (=> (tptp.s__instance V__GROUP tptp.s__BeliefGroup) (exists ((V__BELIEF $$unsorted)) (and (tptp.s__instance V__BELIEF tptp.s__Formula) (forall ((V__MEMB $$unsorted)) (=> (and (tptp.s__instance V__MEMB tptp.s__SelfConnectedObject) (tptp.s__instance V__MEMB tptp.s__CognitiveAgent) (tptp.s__instance V__GROUP tptp.s__Collection)) (=> (tptp.s__member V__MEMB V__GROUP) (tptp.s__believes V__MEMB V__BELIEF)))))))) (tptp.s__subclass tptp.s__Organization tptp.s__Group) (tptp.s__subclass tptp.s__Organization tptp.s__Agent) (tptp.s__documentation tptp.s__Organization tptp.s__EnglishLanguage |tptp.'An &%Organization is a corporate or similar institution. The &%members of an &%Organization typically have a common purpose or function. Note that this class also covers divisions, departments, etc. of organizations. For example, both the Shell Corporation and the accounting department at Shell would both be instances of &%Organization. Note too that the existence of an &%Organization is dependent on the existence of at least one &%member (since &%Organization is a subclass of &%Collection). Accordingly, in cases of purely legal organizations, a fictitious &%member should be assumed.'|) (forall ((V__ORG $$unsorted)) (=> (tptp.s__instance V__ORG tptp.s__Organization) (exists ((V__PURP $$unsorted)) (and (tptp.s__instance V__PURP tptp.s__Formula) (forall ((V__MEMBER $$unsorted)) (=> (and (tptp.s__instance V__MEMBER tptp.s__SelfConnectedObject) (tptp.s__instance V__ORG tptp.s__Collection)) (=> (tptp.s__member V__MEMBER V__ORG) (tptp.s__hasPurpose V__MEMBER V__PURP)))))))) (forall ((V__ORG $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__SelfConnectedObject) (tptp.s__instance V__ORG tptp.s__Collection)) (=> (and (tptp.s__instance V__ORG tptp.s__Organization) (tptp.s__member V__AGENT V__ORG)) (tptp.s__instance V__AGENT tptp.s__Agent)))) (tptp.s__instance tptp.s__employs__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__employs__m |"1"| tptp.s__Organization) (tptp.s__domain tptp.s__employs__m |"2"| tptp.s__CognitiveAgent) (tptp.s__documentation tptp.s__employs__m tptp.s__EnglishLanguage |tptp.'(&%employs ?ORG ?PERSON) means that ?ORG has hired ?PERSON and currently retains ?PERSON, on a salaried, hourly or contractual basis, to provide services in exchange for monetary compensation.'|) (tptp.s__subclass tptp.s__PoliticalOrganization tptp.s__Organization) (tptp.s__documentation tptp.s__PoliticalOrganization tptp.s__EnglishLanguage |tptp.'An &%Organization that is attempting to bring about some sort of political change.'|) (forall ((V__POL $$unsorted)) (=> (tptp.s__instance V__POL tptp.s__Agent) (=> (tptp.s__instance V__POL tptp.s__PoliticalOrganization) (exists ((V__PROC $$unsorted)) (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__PROC tptp.s__PoliticalProcess) (tptp.s__agent V__PROC V__POL)))))) (tptp.s__subclass tptp.s__MilitaryForce tptp.s__PoliticalOrganization) (tptp.s__instance tptp.s__MilitaryForce__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__PoliticalOrganization__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MilitaryForce tptp.s__EnglishLanguage |tptp.'&%MilitaryForce is the subclass of &%Organizations that are organized along military lines and for the purpose of either defensive or offensive combat, whether or not the force is an official &%GovernmentOrganization.'|) (forall ((V__ORG $$unsorted)) (=> (tptp.s__instance V__ORG tptp.s__Object) (=> (tptp.s__instance V__ORG tptp.s__MilitaryForce) (tptp.s__capability tptp.s__ViolentContest tptp.s__agent__m V__ORG)))) (tptp.s__subclass tptp.s__MilitaryOrganization tptp.s__MilitaryForce) (tptp.s__subclass tptp.s__MilitaryOrganization tptp.s__GovernmentOrganization) (tptp.s__instance tptp.s__MilitaryOrganization__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MilitaryOrganization tptp.s__EnglishLanguage |tptp.'Any heavily armed &%Organization that is part of a &%Government and that is charged with representing the &%Government in international conflicts.'|) (tptp.s__subclass tptp.s__ParamilitaryOrganization tptp.s__MilitaryForce) (tptp.s__instance tptp.s__ParamilitaryOrganization__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__ParamilitaryOrganization tptp.s__GovernmentOrganization) (tptp.s__documentation tptp.s__ParamilitaryOrganization tptp.s__EnglishLanguage |tptp.'An &%Organization which is much like a &%MilitaryOrganization, e.g. it is made up of armed fighters, except that it is not associated with a &%Government.'|) (tptp.s__subclass tptp.s__GovernmentOrganization tptp.s__Organization) (tptp.s__instance tptp.s__GovernmentOrganization__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__GovernmentOrganization tptp.s__EnglishLanguage |tptp.'&%GovernmentOrganization is the class of official &%Organizations that are concerned with the government of a &%GeopoliticalArea at some level. They may be a &%subOrganization of a government.'|) (forall ((V__ORG $$unsorted)) (=> (tptp.s__instance V__ORG tptp.s__Organization) (= (tptp.s__instance V__ORG tptp.s__GovernmentOrganization) (exists ((V__GOV $$unsorted)) (and (tptp.s__instance V__GOV tptp.s__Organization) (tptp.s__instance V__GOV tptp.s__Government) (tptp.s__subOrganization V__ORG V__GOV)))))) (forall ((V__GOV $$unsorted) (V__ORG $$unsorted)) (=> (and (tptp.s__instance V__ORG tptp.s__Organization) (tptp.s__instance V__GOV tptp.s__Organization)) (=> (and (tptp.s__subOrganization V__ORG V__GOV) (tptp.s__instance V__GOV tptp.s__GovernmentOrganization)) (tptp.s__instance V__ORG tptp.s__GovernmentOrganization)))) (tptp.s__subclass tptp.s__Government tptp.s__GovernmentOrganization) (tptp.s__subclass tptp.s__Government tptp.s__LegalAgent) (tptp.s__instance tptp.s__Government__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__LegalAgent__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Government tptp.s__EnglishLanguage |tptp.'The ruling body of a &%GeopoliticalArea.'|) (tptp.s__instance tptp.s__GovernmentFn__m tptp.s__UnaryFunction) (tptp.s__domain tptp.s__GovernmentFn__m |"1"| tptp.s__GeopoliticalArea) (tptp.s__range tptp.s__GovernmentFn__m tptp.s__Government) (tptp.s__documentation tptp.s__GovernmentFn__m tptp.s__EnglishLanguage |tptp.'(&%GovernmentFn ?AREA) denotes the &%Government of the &%GeopoliticalArea ?AREA. For example, (&%GovernmentFn &%UnitedStates) denotes the Federal-level government of the United States, (&%GovernmentFn &%PuertoRico) denotes the government of the Commonwealth of Puerto Rico.'|) (tptp.s__subclass tptp.s__PoliceOrganization tptp.s__GovernmentOrganization) (tptp.s__instance tptp.s__PoliceOrganization__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PoliceOrganization tptp.s__EnglishLanguage |tptp.'Any &%GovernmentOrganization that is charged with domestic enforcement of the laws of the &%Government.'|) (tptp.s__subclass tptp.s__JudicialOrganization tptp.s__Organization) (tptp.s__instance tptp.s__JudicialOrganization__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__JudicialOrganization tptp.s__EnglishLanguage |tptp.'&%JudicialOrganization is the class of &%Organizations whose primary purpose is to render judgments according to the statutes or regulations of a government or other organization. Judicial bodies are not necessarily government organizations, for example, those associated with sporting associations.'|) (tptp.s__subclass tptp.s__EducationalOrganization tptp.s__Organization) (tptp.s__instance tptp.s__EducationalOrganization__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Organization__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__EducationalOrganization tptp.s__EnglishLanguage |tptp.'A &%EducationalOrganization is an institution of learning. Some examples are public and private K-12 schools, and colleges and universities.'|) (tptp.s__subclass tptp.s__ReligiousOrganization tptp.s__Organization) (tptp.s__subclass tptp.s__ReligiousOrganization tptp.s__BeliefGroup) (tptp.s__instance tptp.s__ReligiousOrganization__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__BeliefGroup__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ReligiousOrganization tptp.s__EnglishLanguage |tptp.'An &%Organization whose members share a set of religious beliefs.'|) (tptp.s__subrelation tptp.s__subOrganization__m tptp.s__subCollection__m) (tptp.s__instance tptp.s__subOrganization__m tptp.s__PartialOrderingRelation) (tptp.s__domain tptp.s__subOrganization__m |"1"| tptp.s__Organization) (tptp.s__domain tptp.s__subOrganization__m |"2"| tptp.s__Organization) (tptp.s__documentation tptp.s__subOrganization__m tptp.s__EnglishLanguage |tptp.'(&%subOrganization ?ORG1 ?ORG2) means that ?ORG1 is an &%Organization which is a part of the &%Organization ?ORG2. Note that &%subOrganization is a &%ReflexiveRelation, so every &%Organization is a &%subOrganization of itself.'|) (tptp.s__instance tptp.s__citizen__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__citizen__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__citizen__m |"1"| tptp.s__Human) (tptp.s__domain tptp.s__citizen__m |"2"| tptp.s__Nation) (tptp.s__documentation tptp.s__citizen__m tptp.s__EnglishLanguage |tptp.'(&%citizen ?PERSON ?NATION) means that the &%Human ?PERSON is a citizen of &%Nation ?NATION.'|) (tptp.s__subclass tptp.s__FieldOfStudy tptp.s__Proposition) (tptp.s__instance tptp.s__FieldOfStudy__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Proposition__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FieldOfStudy tptp.s__EnglishLanguage |tptp.'An academic or applied discipline with recognized experts and with a core of accepted theory or practice. Note that &%FieldOfStudy is a &%subclass of &%Proposition, because a &%FieldOfStudy is understood to be a body of abstract, informational content, with varying degrees of certainty attached to each element of this content.'|) (tptp.s__subclass tptp.s__Procedure tptp.s__Proposition) (tptp.s__documentation tptp.s__Procedure tptp.s__EnglishLanguage |tptp.'A sequence-dependent specification. Some examples are &%ComputerPrograms, finite-state machines, cooking recipes, musical scores, conference schedules, driving directions, and the scripts of plays and movies.'|) (tptp.s__subclass tptp.s__ComputerProgram tptp.s__Procedure) (tptp.s__instance tptp.s__ComputerProgram__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ComputerProgram tptp.s__EnglishLanguage |tptp.'A set of instructions in a computer programming language that can be executed by a computer.'|) (tptp.s__subclass tptp.s__ComputerProgramming tptp.s__ContentDevelopment) (tptp.s__instance tptp.s__ComputerProgramming__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ComputerProgramming tptp.s__EnglishLanguage |tptp.'The process of developing a &%ComputerProgram'|) (forall ((V__CP $$unsorted)) (=> (tptp.s__instance V__CP tptp.s__Process) (=> (tptp.s__instance V__CP tptp.s__ComputerProgramming) (exists ((V__C $$unsorted)) (and (tptp.s__instance V__C tptp.s__ComputerProgram) (tptp.s__result V__CP V__C)))))) (tptp.s__subclass tptp.s__Plan tptp.s__Procedure) (tptp.s__instance tptp.s__Plan__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Procedure__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Plan tptp.s__EnglishLanguage |tptp.'A specification of a sequence of &%Processes which is intended to satisfy a specified purpose at some future time.'|) (forall ((V__OBJ $$unsorted) (V__PLAN $$unsorted)) (=> (and (tptp.s__instance V__PLAN tptp.s__Proposition) (tptp.s__instance V__OBJ tptp.s__ContentBearingPhysical)) (=> (and (tptp.s__instance V__PLAN tptp.s__Plan) (tptp.s__instance V__OBJ tptp.s__ContentBearingObject) (tptp.s__containsInformation V__OBJ V__PLAN)) (exists ((V__PLANNING $$unsorted)) (and (tptp.s__instance V__PLANNING tptp.s__Process) (tptp.s__instance V__PLANNING tptp.s__Planning) (tptp.s__result V__PLANNING V__OBJ)))))) (tptp.s__subclass tptp.s__Argument tptp.s__Proposition) (tptp.s__partition_3 tptp.s__Argument tptp.s__DeductiveArgument tptp.s__InductiveArgument) (tptp.s__documentation tptp.s__Argument tptp.s__EnglishLanguage |tptp.'Any proposition which has the form of a deductive or inductive argument, i.e. a set of premises which, it is claimed, imply a conclusion.'|) (forall ((V__REASON $$unsorted)) (=> (tptp.s__instance V__REASON tptp.s__Process) (=> (tptp.s__instance V__REASON tptp.s__Reasoning) (exists ((V__ARGUMENT $$unsorted)) (and (tptp.s__instance V__ARGUMENT tptp.s__Proposition) (tptp.s__instance V__ARGUMENT tptp.s__Argument) (tptp.s__realization V__REASON V__ARGUMENT)))))) (forall ((V__ARGUMENT $$unsorted)) (=> (tptp.s__instance V__ARGUMENT tptp.s__Argument) (exists ((V__PREMISES $$unsorted) (V__CONCLUSION $$unsorted)) (and (tptp.s__instance V__CONCLUSION tptp.s__Argument) (= (tptp.s__PremisesFn V__ARGUMENT) V__PREMISES) (tptp.s__conclusion V__CONCLUSION V__ARGUMENT))))) (tptp.s__subclass tptp.s__DeductiveArgument tptp.s__Argument) (tptp.s__partition_3 tptp.s__DeductiveArgument tptp.s__ValidDeductiveArgument 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tptp.s__geometricDistance__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__geometricDistance__m |"1"| tptp.s__GeometricPoint) (tptp.s__domain tptp.s__geometricDistance__m |"2"| tptp.s__GeometricPoint) (tptp.s__domain tptp.s__geometricDistance__m |"3"| tptp.s__LengthMeasure) (tptp.s__documentation tptp.s__geometricDistance__m tptp.s__EnglishLanguage |tptp.'(&%geometricDistance ?POINT1 ?POINT2 ?LENGTH) means that ?LENGTH is the distance between the two &%GeometricPoints ?POINT1 and ?POINT2.'|) (forall ((V__POINT2 $$unsorted) (V__POINT1 $$unsorted) (V__LENGTH $$unsorted)) (=> (and (tptp.s__instance V__LENGTH tptp.s__LengthMeasure) (tptp.s__instance V__POINT1 tptp.s__GeometricPoint) (tptp.s__instance V__POINT2 tptp.s__GeometricPoint)) (=> (tptp.s__geometricDistance V__POINT1 V__POINT2 V__LENGTH) (tptp.s__geometricDistance V__POINT2 V__POINT1 V__LENGTH)))) (tptp.s__subclass tptp.s__SaturationAttribute tptp.s__InternalAttribute) (tptp.s__instance tptp.s__SaturationAttribute__t 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some &%Liquid.'|) (tptp.s__instance tptp.s__Wet tptp.s__SaturationAttribute) (tptp.s__subAttribute tptp.s__Wet tptp.s__Damp) (tptp.s__documentation tptp.s__Wet tptp.s__EnglishLanguage |tptp.'An &%Attribute which indicates that the associated &%Object is fully saturated with a &%Liquid, i.e. every part of the &%Object has a subpart which is a &%Liquid.'|) (forall ((V__OBJ $$unsorted)) (=> (tptp.s__attribute V__OBJ tptp.s__Wet) (forall ((V__PART $$unsorted)) (=> (and (tptp.s__instance V__PART tptp.s__Object) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (tptp.s__part V__PART V__OBJ) (exists ((V__SUBPART $$unsorted)) (and (tptp.s__instance V__SUBPART tptp.s__Object) (tptp.s__part V__SUBPART V__PART) (tptp.s__attribute V__SUBPART tptp.s__Liquid)))))))) (tptp.s__subclass tptp.s__BiologicalAttribute tptp.s__InternalAttribute) (tptp.s__documentation tptp.s__BiologicalAttribute tptp.s__EnglishLanguage |tptp.'&%Attributes that apply specifically to instances of &%Organism.'|) (forall ((V__ORG $$unsorted) (V__ATT $$unsorted)) (=> (and (tptp.s__instance V__ATT tptp.s__Attribute) (tptp.s__instance V__ORG tptp.s__Object)) (=> (and (tptp.s__attribute V__ORG V__ATT) (tptp.s__instance V__ATT tptp.s__BiologicalAttribute)) (tptp.s__instance V__ORG tptp.s__OrganicObject)))) (tptp.s__subclass tptp.s__BodyPosition tptp.s__BiologicalAttribute) (tptp.s__documentation tptp.s__BodyPosition tptp.s__EnglishLanguage |tptp.'The class of &%Attributes expressing configurations of bodies or parts of bodies of animals or humans, e.g. standing, sitting, kneeling, lying down, etc.'|) (forall ((V__ANIMAL $$unsorted)) (=> (tptp.s__instance V__ANIMAL tptp.s__Agent) (=> (tptp.s__instance V__ANIMAL tptp.s__Animal) (or (exists ((V__MOTION $$unsorted)) (and (tptp.s__instance V__MOTION tptp.s__Process) (tptp.s__instance V__MOTION tptp.s__BodyMotion) (tptp.s__agent V__MOTION V__ANIMAL))) (exists ((V__ATTR $$unsorted)) (and (tptp.s__instance V__ATTR tptp.s__Attribute) (tptp.s__instance V__ATTR tptp.s__BodyPosition) (tptp.s__attribute V__ANIMAL V__ATTR))))))) (tptp.s__instance tptp.s__Standing tptp.s__BodyPosition) (tptp.s__documentation tptp.s__Standing tptp.s__EnglishLanguage |tptp.'The &%BodyPosition of being upright, i.e. being fully extended and supported by nothing other than ones own feet.'|) (forall ((V__AMBULATE $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__AMBULATE tptp.s__Process)) (=> (and (tptp.s__instance V__AMBULATE tptp.s__Ambulating) (tptp.s__agent V__AMBULATE V__AGENT)) (tptp.s__attribute V__AGENT tptp.s__Standing)))) (tptp.s__instance tptp.s__Sitting tptp.s__BodyPosition) (tptp.s__instance tptp.s__BodyPosition__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sitting tptp.s__EnglishLanguage |tptp.'The &%BodyPosition of being recumbent, i.e. knees bent and back side supported.'|) (tptp.s__instance tptp.s__Prostrate tptp.s__BodyPosition) (tptp.s__documentation tptp.s__Prostrate tptp.s__EnglishLanguage |tptp.'The &%BodyPosition of lying down, being in a horizontal position.'|) (tptp.s__subclass tptp.s__AnimacyAttribute tptp.s__BiologicalAttribute) (tptp.s__exhaustiveAttribute_3 tptp.s__AnimacyAttribute tptp.s__Living tptp.s__Dead) (tptp.s__documentation tptp.s__AnimacyAttribute tptp.s__EnglishLanguage |tptp.'&%Attributes that indicate whether an &%Organism is alive or not.'|) (tptp.s__instance tptp.s__Living tptp.s__AnimacyAttribute) (tptp.s__instance tptp.s__AnimacyAttribute__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Living tptp.s__EnglishLanguage |tptp.'This &%Attribute applies to &%Organisms that are alive.'|) (tptp.s__instance tptp.s__Dead tptp.s__AnimacyAttribute) (tptp.s__subAttribute tptp.s__Dead tptp.s__Unconscious) (tptp.s__contraryAttribute_2 tptp.s__Dead tptp.s__Living) (tptp.s__documentation tptp.s__Dead tptp.s__EnglishLanguage |tptp.'This &%Attribute applies to &%Organisms that are not alive.'|) (forall ((V__ORG $$unsorted)) (=> (tptp.s__instance V__ORG tptp.s__Object) (=> (tptp.s__instance V__ORG tptp.s__Organism) (exists ((V__ATTR $$unsorted)) (and (tptp.s__instance V__ATTR tptp.s__Attribute) (tptp.s__instance V__ATTR tptp.s__AnimacyAttribute) (tptp.s__attribute V__ORG V__ATTR)))))) (tptp.s__subclass tptp.s__SexAttribute tptp.s__BiologicalAttribute) (tptp.s__exhaustiveAttribute_3 tptp.s__SexAttribute tptp.s__Female tptp.s__Male) (tptp.s__documentation tptp.s__SexAttribute tptp.s__EnglishLanguage |tptp.'&%Attributes that indicate the sex of an &%Organism.'|) (tptp.s__instance tptp.s__Female tptp.s__SexAttribute) (tptp.s__documentation tptp.s__Female tptp.s__EnglishLanguage |tptp.'An &%Attribute indicating that an &%Organism is female in nature.'|) (forall ((V__BODY $$unsorted) (V__ORG $$unsorted)) (=> (and (tptp.s__instance V__ORG tptp.s__Object) (tptp.s__instance V__BODY tptp.s__Object)) (=> (and (tptp.s__instance V__BODY tptp.s__ReproductiveBody) (tptp.s__part V__BODY V__ORG) (tptp.s__instance V__ORG tptp.s__Organism)) (tptp.s__attribute V__ORG tptp.s__Female)))) (tptp.s__instance tptp.s__Male tptp.s__SexAttribute) (tptp.s__instance tptp.s__SexAttribute__t tptp.s__SetOrClass) (tptp.s__contraryAttribute_2 tptp.s__Male tptp.s__Female) (tptp.s__documentation tptp.s__Male tptp.s__EnglishLanguage |tptp.'An &%Attribute indicating that an &%Organism is male in nature.'|) (forall ((V__ANIMAL $$unsorted)) (=> (tptp.s__instance V__ANIMAL tptp.s__Object) (=> (tptp.s__instance V__ANIMAL tptp.s__Animal) (exists ((V__ATTR $$unsorted)) (and (tptp.s__instance V__ATTR tptp.s__Attribute) (tptp.s__instance V__ATTR tptp.s__SexAttribute) (tptp.s__attribute V__ANIMAL V__ATTR)))))) (tptp.s__subclass tptp.s__DevelopmentalAttribute tptp.s__BiologicalAttribute) (tptp.s__instance tptp.s__DevelopmentalAttribute__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__BiologicalAttribute__t tptp.s__SetOrClass) (tptp.s__exhaustiveAttribute_3 tptp.s__DevelopmentalAttribute tptp.s__FullyFormed tptp.s__NonFullyFormed) (tptp.s__documentation tptp.s__DevelopmentalAttribute tptp.s__EnglishLanguage |tptp.'&%Attributes that indicate the stage of development of an &%Organism.'|) (tptp.s__instance tptp.s__FullyFormed tptp.s__DevelopmentalAttribute) (tptp.s__documentation tptp.s__FullyFormed tptp.s__EnglishLanguage |tptp.'The stage of an &%Organism when it has reached the end of its growth phase.'|) (tptp.s__instance tptp.s__NonFullyFormed tptp.s__DevelopmentalAttribute) (tptp.s__contraryAttribute_2 tptp.s__NonFullyFormed tptp.s__FullyFormed) (tptp.s__successorAttribute tptp.s__NonFullyFormed tptp.s__FullyFormed) (tptp.s__documentation tptp.s__NonFullyFormed tptp.s__EnglishLanguage |tptp.'The stage of an &%Organism before it is &%FullyFormed.'|) (forall ((V__ORG $$unsorted)) (=> (tptp.s__instance V__ORG tptp.s__Object) (=> (tptp.s__instance V__ORG tptp.s__Organism) (exists ((V__ATTR $$unsorted)) (and (tptp.s__instance V__ATTR tptp.s__Attribute) (tptp.s__instance V__ATTR tptp.s__DevelopmentalAttribute) (tptp.s__attribute V__ORG V__ATTR)))))) (tptp.s__subAttribute tptp.s__Larval tptp.s__NonFullyFormed) (tptp.s__documentation tptp.s__Larval tptp.s__EnglishLanguage |tptp.'Form of most &%Invertebrates, &%Amphibians, and &%Fish immediately after they hatch. This form is fundamentally unlike the adult form, and metamorphosis is required to reach the latter form.'|) (tptp.s__subAttribute tptp.s__Embryonic tptp.s__NonFullyFormed) (tptp.s__contraryAttribute_2 tptp.s__Embryonic tptp.s__Larval) (tptp.s__documentation tptp.s__Embryonic tptp.s__EnglishLanguage |tptp.'The stage of an &%Organism or an &%AnatomicalStructure that exists only before the &%Organism is born. &%Mammals, for example, have this &%Attribute only prior to their birth.'|) (forall ((V__ORG $$unsorted)) (=> (tptp.s__instance V__ORG tptp.s__Object) (=> (tptp.s__attribute V__ORG tptp.s__Embryonic) (exists ((V__BODY $$unsorted)) (and (tptp.s__instance V__BODY tptp.s__Object) (tptp.s__instance V__BODY tptp.s__ReproductiveBody) (tptp.s__located V__ORG V__BODY)))))) (tptp.s__subclass tptp.s__DiseaseOrSyndrome tptp.s__BiologicalAttribute) (tptp.s__documentation tptp.s__DiseaseOrSyndrome tptp.s__EnglishLanguage |tptp.'A &%BiologicalAttribute which qualifies something that alters or interferes with a normal process, state or activity of an &%Organism. It is usually characterized by the abnormal functioning of one or more of the hosts systems, parts, or &%Organs.'|) (tptp.s__subclass tptp.s__PsychologicalAttribute tptp.s__BiologicalAttribute) (tptp.s__partition_3 tptp.s__PsychologicalAttribute tptp.s__StateOfMind tptp.s__TraitAttribute) (tptp.s__documentation tptp.s__PsychologicalAttribute tptp.s__EnglishLanguage |tptp.'&%Attributes that characterize the mental or behavioral life of an &%Organism.'|) (forall ((V__ATTR $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Object) (tptp.s__instance V__ATTR tptp.s__Attribute)) (=> (and (tptp.s__instance V__ATTR tptp.s__PsychologicalAttribute) (tptp.s__attribute V__AGENT V__ATTR)) (tptp.s__instance V__AGENT tptp.s__SentientAgent)))) (tptp.s__subclass tptp.s__StateOfMind tptp.s__PsychologicalAttribute) (tptp.s__documentation tptp.s__StateOfMind tptp.s__EnglishLanguage |tptp.'The class &%StateOfMind is distinguished from its complement &%TraitAttribute by the fact that instances of the former are transient while instances of the latter are persistent features of a creatures behavioral/psychological make-up.'|) (tptp.s__subclass tptp.s__EmotionalState tptp.s__StateOfMind) (tptp.s__instance tptp.s__EmotionalState__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__StateOfMind__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__EmotionalState tptp.s__EnglishLanguage |tptp.'The &%Class of &%Attributes that denote emotional states of &%Organisms.'|) (tptp.s__subclass tptp.s__ConsciousnessAttribute tptp.s__StateOfMind) (tptp.s__documentation tptp.s__ConsciousnessAttribute tptp.s__EnglishLanguage |tptp.'&%Attributes that indicate whether an &%Organism is conscious or the qualitative degree of consciousness of an &%Organism.'|) (forall ((V__AGENT $$unsorted)) (=> (tptp.s__instance V__AGENT tptp.s__Object) (= (and (tptp.s__instance V__AGENT tptp.s__SentientAgent) (tptp.s__attribute V__AGENT tptp.s__Living)) (exists ((V__ATTR $$unsorted)) (and (tptp.s__instance V__ATTR tptp.s__Attribute) (tptp.s__instance V__ATTR tptp.s__ConsciousnessAttribute) (tptp.s__attribute V__AGENT V__ATTR)))))) (tptp.s__instance tptp.s__Asleep tptp.s__ConsciousnessAttribute) (tptp.s__documentation tptp.s__Asleep tptp.s__EnglishLanguage |tptp.'&%Attribute that applies to &%Organisms that are sleeping.'|) (tptp.s__instance tptp.s__Unconscious tptp.s__ConsciousnessAttribute) (tptp.s__contraryAttribute_2 tptp.s__Unconscious tptp.s__Awake) (tptp.s__documentation tptp.s__Unconscious tptp.s__EnglishLanguage |tptp.'&%Attribute that applies to &%Organisms that are unconscious. An &%Organism may be &%Unconscious because it is &%Dead or because of a blow to the head, a drug, etc.'|) (tptp.s__instance tptp.s__Awake tptp.s__ConsciousnessAttribute) (tptp.s__instance tptp.s__ConsciousnessAttribute__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Awake tptp.s__EnglishLanguage |tptp.'&%Attribute that applies to &%Organisms that are neither &%Unconscious nor &%Asleep.'|) (forall ((V__AGENT $$unsorted)) (=> (tptp.s__instance V__AGENT tptp.s__Object) (=> (or (tptp.s__attribute V__AGENT tptp.s__Asleep) (tptp.s__attribute V__AGENT tptp.s__Awake)) (tptp.s__attribute V__AGENT tptp.s__Living)))) (tptp.s__subclass tptp.s__TraitAttribute tptp.s__PsychologicalAttribute) (tptp.s__instance tptp.s__TraitAttribute__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TraitAttribute tptp.s__EnglishLanguage |tptp.'&%Attributes that indicate the the behavior/personality traits of an &%Organism.'|) (tptp.s__subclass tptp.s__PsychologicalDysfunction tptp.s__PsychologicalAttribute) (tptp.s__instance tptp.s__PsychologicalDysfunction__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__PsychologicalAttribute__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__PsychologicalDysfunction tptp.s__DiseaseOrSyndrome) (tptp.s__instance tptp.s__DiseaseOrSyndrome__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PsychologicalDysfunction tptp.s__EnglishLanguage |tptp.'A clinically significant dysfunction whose major manifestation is behavioral or psychological. These dysfunctions may have identified or presumed biological etiologies or manifestations.'|) (tptp.s__instance tptp.s__comment__m tptp.s__TernaryPredicate) (tptp.s__documentation tptp.s__comment__m tptp.s__EnglishLanguage |tptp.'(&%comment ?ENT ?STR ?PER) is a convenience relationship that allows ontologists represented by &%SymbolicString ?PER to write down commentaries ?STR on a defined &%Entity ?ENT'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__comment__m tptp.comment) (tptp.s__domain tptp.s__comment__m |"1"| tptp.s__Entity) (tptp.s__domain tptp.s__comment__m |"2"| tptp.s__SymbolicString) (tptp.s__domain tptp.s__comment__m |"3"| tptp.s__SymbolicString) (tptp.s__subclass tptp.s__OrganismRemains tptp.s__OrganicObject) (tptp.s__documentation tptp.s__OrganismRemains tptp.s__EnglishLanguage |tptp.'An &%instance of &%OrganismRemains is &%Dead matter of a formerly &%Living &%Organism: &%Plant, &%Animal, or &%Microorganism. An &%instance of &%OrganismRemains might or might not be recognizable as the remains of a particular kind or species of organism, depending on the cause of the &%Organisms &%Death (heart failure, stroke, roadkill, dismemberment, etc.), the elapsed time since death, the speed of decomposition, and any post-mortem processing of the dead organism (embalming, cremation, mummification, boiling, consumption as food, etc.).'|) (forall ((V__ORG $$unsorted) (V__REM $$unsorted) (V__DEATH $$unsorted)) (=> (and (tptp.s__instance V__DEATH tptp.s__Process) (tptp.s__instance V__ORG tptp.s__Agent)) (=> (and (tptp.s__instance V__REM tptp.s__OrganicObject) (tptp.s__instance V__DEATH tptp.s__Death) (tptp.s__instance V__ORG tptp.s__Organism) (tptp.s__experiencer V__DEATH V__ORG) (tptp.s__result V__DEATH V__REM)) (tptp.s__instance V__REM tptp.s__OrganismRemains)))) (forall ((V__REM $$unsorted)) (=> (tptp.s__instance V__REM tptp.s__OrganismRemains) (exists ((V__DEATH $$unsorted)) (and (tptp.s__instance V__DEATH tptp.s__Process) (tptp.s__instance V__DEATH tptp.s__Death) (tptp.s__result V__DEATH V__REM))))) (tptp.s__subclass tptp.s__HumanCorpse tptp.s__OrganismRemains) (tptp.s__instance tptp.s__HumanCorpse__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__OrganismRemains__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__HumanCorpse tptp.s__EnglishLanguage |tptp.'&%HumanCorpse is the &%OrganismRemains of a &%Human'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__HumanCorpse) (tptp.s__instance V__X (tptp.s__DeadFn tptp.s__Human)))) (tptp.s__instance tptp.s__DeadFn__m tptp.s__UnaryFunction) (tptp.s__domainSubclass tptp.s__DeadFn__m |"1"| tptp.s__Organism) (tptp.s__rangeSubclass tptp.s__DeadFn__m tptp.s__OrganismRemains) (tptp.s__documentation tptp.s__DeadFn__m tptp.s__EnglishLanguage |tptp.'(&%DeadFn ?ORGCLASS) denotes the &%Class of all remains that were once part of &%Living &%Organisms of the type ?ORGCLASS.'|) (forall ((V__ORG $$unsorted) (V__REM $$unsorted) (V__ORGTYPE $$unsorted) (V__DEATH $$unsorted)) (=> (and (tptp.s__instance V__DEATH tptp.s__Process) (tptp.s__subclass V__ORGTYPE tptp.s__Organism) (tptp.s__instance V__ORGTYPE tptp.s__SetOrClass) (tptp.s__instance V__ORG tptp.s__Agent)) (=> (and (tptp.s__instance V__REM (tptp.s__DeadFn V__ORGTYPE)) (tptp.s__instance V__DEATH tptp.s__Death) (tptp.s__result V__DEATH V__REM) (tptp.s__experiencer V__DEATH V__ORG)) (tptp.s__instance V__ORG V__ORGTYPE)))) (forall ((V__ORG $$unsorted) (V__REM $$unsorted) (V__ORGTYPE $$unsorted) (V__DEATH $$unsorted)) (=> (and (tptp.s__instance V__DEATH tptp.s__Process) (tptp.s__subclass V__ORGTYPE tptp.s__Organism) (tptp.s__instance V__ORGTYPE tptp.s__SetOrClass) (tptp.s__instance V__ORG tptp.s__Agent) (tptp.s__instance V__ORG tptp.s__SetOrClass)) (=> (and (tptp.s__instance V__REM tptp.s__OrganicObject) (tptp.s__instance V__DEATH tptp.s__Death) (tptp.s__experiencer V__DEATH V__ORG) (tptp.s__instance V__ORG V__ORGTYPE) (tptp.s__subclass V__ORG tptp.s__Organism) (tptp.s__result V__DEATH V__REM)) (tptp.s__instance V__REM (tptp.s__DeadFn V__ORGTYPE))))) (tptp.s__instance tptp.s__HumanSlave tptp.s__SocialRole) (tptp.s__documentation tptp.s__HumanSlave tptp.s__EnglishLanguage |tptp.'A &%Human who is owned by someone else.'|) (tptp.s__subclass tptp.s__HumanAdult tptp.s__Human) (tptp.s__instance tptp.s__HumanAdult__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__HumanAdult tptp.s__LegalAgent) (tptp.s__documentation tptp.s__HumanAdult tptp.s__EnglishLanguage |tptp.'The class of &%Humans that are 18 years of age or older.'|) (forall ((V__NUMBER $$unsorted) (V__ADULT $$unsorted) (V__TIME $$unsorted)) (=> (and (tptp.s__instance V__TIME tptp.s__TimePosition) (tptp.s__instance V__ADULT tptp.s__Object) (tptp.s__instance V__NUMBER tptp.s__RealNumber)) (=> (tptp.s__holdsDuring V__TIME |tptp.'(s__instance(V__ADULT,s__HumanAdult) & s__age(V__ADULT,s__MeasureFn(V__NUMBER,s__YearDuration)))'|) (tptp.greatereq V__NUMBER |"18"|)))) (tptp.s__subclass tptp.s__HumanYouth tptp.s__Human) (tptp.s__documentation tptp.s__HumanYouth tptp.s__EnglishLanguage |tptp.'The class of &%Humans that are younger than 18 years of age.'|) (forall ((V__NUMBER $$unsorted) (V__YOUTH $$unsorted) (V__TIME $$unsorted)) (=> (and (tptp.s__instance V__TIME tptp.s__TimePosition) (tptp.s__instance V__YOUTH tptp.s__Object) (tptp.s__instance V__NUMBER tptp.s__RealNumber)) (=> (tptp.s__holdsDuring V__TIME |tptp.'(s__instance(V__YOUTH,s__HumanYouth) & s__age(V__YOUTH,s__MeasureFn(V__NUMBER,s__YearDuration)))'|) (tptp.less V__NUMBER |"18"|)))) (tptp.s__subclass tptp.s__HumanChild tptp.s__HumanYouth) (tptp.s__instance tptp.s__HumanChild__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__HumanYouth__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__HumanChild tptp.s__EnglishLanguage |tptp.'A &%HumanYouth between birth and puberty, i.e a &%Human who is &%NonFullyFormed.'|) (forall ((V__NUMBER $$unsorted) (V__TIME $$unsorted) (V__CHILD $$unsorted)) (=> (and (tptp.s__instance V__CHILD tptp.s__Object) (tptp.s__instance V__TIME tptp.s__TimePosition) (tptp.s__instance V__NUMBER tptp.s__RealNumber)) (=> (tptp.s__holdsDuring V__TIME |tptp.'(s__instance(V__CHILD,s__HumanChild) & s__age(V__CHILD,s__MeasureFn(V__NUMBER,s__YearDuration)))'|) (tptp.lesseq V__NUMBER |"14"|)))) (tptp.s__subclass tptp.s__Teenager tptp.s__Human) (tptp.s__instance tptp.s__Teenager__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Teenager tptp.s__EnglishLanguage |tptp.'A &%Human between puberty and the age of 20.'|) (forall ((V__TEEN $$unsorted) (V__NUMBER $$unsorted) (V__TIME $$unsorted)) (=> (and (tptp.s__instance V__TIME tptp.s__TimePosition) (tptp.s__instance V__NUMBER tptp.s__RealNumber) (tptp.s__instance V__TEEN tptp.s__Object)) (=> (tptp.s__holdsDuring V__TIME |tptp.'(s__instance(V__TEEN,s__Teenager) & s__age(V__TEEN,s__MeasureFn(V__NUMBER,s__YearDuration)))'|) (and (tptp.greater V__NUMBER |"12"|) (tptp.less V__NUMBER |"20"|))))) (tptp.s__subclass tptp.s__Boy tptp.s__HumanChild) (tptp.s__instance tptp.s__Boy__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Boy tptp.s__Man) (tptp.s__documentation tptp.s__Boy tptp.s__EnglishLanguage |tptp.'A &%HumanChild who is &%Male.'|) (tptp.s__subclass tptp.s__Girl tptp.s__HumanChild) (tptp.s__instance tptp.s__Girl__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Girl tptp.s__Woman) (tptp.s__documentation tptp.s__Girl tptp.s__EnglishLanguage |tptp.'A &%HumanChild who is &%Female.'|) (tptp.s__subclass tptp.s__HumanBaby tptp.s__HumanChild) (tptp.s__instance tptp.s__HumanBaby__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__HumanBaby tptp.s__EnglishLanguage |tptp.'A &%Human between birth and the first year of age.'|) (forall ((V__NUMBER $$unsorted) (V__TIME $$unsorted) (V__BABY $$unsorted)) (=> (and (tptp.s__instance V__BABY tptp.s__Object) (tptp.s__instance V__TIME tptp.s__TimePosition) (tptp.s__instance V__NUMBER tptp.s__RealNumber)) (=> (tptp.s__holdsDuring V__TIME |tptp.'(s__instance(V__BABY,s__HumanBaby) & s__age(V__BABY,s__MeasureFn(V__NUMBER,s__YearDuration)))'|) (tptp.lesseq V__NUMBER |"1"|)))) (tptp.s__documentation tptp.s__older__m tptp.s__EnglishLanguage |tptp.'(older ?OBJ1 ?OBJ2) means that ?OBJ1 is older than ?OBJ2, i.e. the age of ?OBJ1 is &%greaterThan the age of ?OBJ2.'|) (tptp.s__instance tptp.s__older__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__older__m |"1"| tptp.s__Object) (tptp.s__domain tptp.s__older__m |"2"| tptp.s__Object) (forall ((V__O2 $$unsorted) (V__O1 $$unsorted)) (=> (and (tptp.s__instance V__O1 tptp.s__Object) (tptp.s__instance V__O2 tptp.s__Object)) (=> (tptp.s__older V__O1 V__O2) (exists ((V__N1 $$unsorted) (V__N2 $$unsorted) (V__U $$unsorted)) (and (tptp.s__instance V__U tptp.s__UnitOfMeasure) (tptp.s__instance V__N2 tptp.s__RealNumber) (tptp.s__instance V__N1 tptp.s__RealNumber) (tptp.s__age V__O1 (tptp.s__MeasureFn V__N1 V__U)) (tptp.s__age V__O2 (tptp.s__MeasureFn V__N2 V__U)) (tptp.greater V__N1 V__N2)))))) (tptp.s__documentation tptp.s__StartFn__m tptp.s__EnglishLanguage |tptp.'(StartFn ?PROCESS) denotes &%IntentionalProcesses of bringing it about that &%Processes of type ?PROCESS begin, e.g. start working, begin running, etc.'|) (tptp.s__instance tptp.s__StartFn__m tptp.s__UnaryFunction) (tptp.s__domain tptp.s__StartFn__m |"1"| tptp.s__Process) (tptp.s__rangeSubclass tptp.s__StartFn__m tptp.s__IntentionalProcess) (forall ((V__P $$unsorted) (V__S $$unsorted)) (=> (and (tptp.s__instance V__S tptp.s__Physical) (tptp.s__instance V__P tptp.s__Process) (tptp.s__instance V__P tptp.s__SetOrClass)) (=> (tptp.s__instance V__S (tptp.s__StartFn V__P)) (exists ((V__I $$unsorted)) (and (tptp.s__instance V__I tptp.s__Physical) (tptp.s__instance V__I V__P) (tptp.s__starts (tptp.s__WhenFn V__S) (tptp.s__WhenFn V__I))))))) (tptp.s__documentation tptp.s__StopFn__m tptp.s__EnglishLanguage |tptp.'(StopFn ?PROCESS) denotes &%IntentionalProcesses of bringing it about that &%Processes of type ?PROCESS end, e.g. stop walking, quit working, etc.'|) (tptp.s__instance tptp.s__StopFn__m tptp.s__UnaryFunction) (tptp.s__domain tptp.s__StopFn__m |"1"| tptp.s__Process) (tptp.s__rangeSubclass tptp.s__StopFn__m tptp.s__IntentionalProcess) (forall ((V__P $$unsorted) (V__S $$unsorted)) (=> (and (tptp.s__instance V__S tptp.s__Physical) (tptp.s__instance V__P tptp.s__Process) (tptp.s__instance V__P tptp.s__SetOrClass)) (=> (tptp.s__instance V__S (tptp.s__StopFn V__P)) (exists ((V__I $$unsorted)) (and (tptp.s__instance V__I tptp.s__Physical) (tptp.s__instance V__I V__P) (tptp.s__finishes (tptp.s__WhenFn V__S) (tptp.s__WhenFn V__I))))))) (tptp.s__subclass tptp.s__Dodging tptp.s__BodyMotion) (tptp.s__instance tptp.s__Dodging__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Dodging tptp.s__IntentionalProcess) (tptp.s__documentation tptp.s__Dodging tptp.s__EnglishLanguage |tptp.'Purposely moving ones body in such a way as to avoid being hit by something.'|) (forall ((V__A $$unsorted) (V__D $$unsorted) (V__DT $$unsorted)) (=> (and (tptp.s__instance V__DT tptp.s__TimeInterval) (tptp.s__instance V__D tptp.s__Process) (tptp.s__instance V__A tptp.s__Agent)) (=> (and (tptp.s__instance V__D tptp.s__Dodging) (tptp.s__agent V__D V__A) (= V__DT (tptp.s__WhenFn V__D))) (tptp.s__hasPurpose V__D |tptp.'(~ (? [V__I] : (s__instance(V__I,s__Process) & (s__meetsTemporally(V__DT,s__WhenFn(V__I)) _ s__overlapsTemporally(V__DT,s__WhenFn(V__I))) & s__instance(V__I,s__Impacting) & s__patient(V__I,V__A))))'|)))) (tptp.s__subclass tptp.s__Mounting tptp.s__BodyMotion) (tptp.s__instance tptp.s__Mounting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Mounting tptp.s__EnglishLanguage |tptp.'Any &%BodyMotion which results in being &%On something else.'|) (tptp.s__subclass tptp.s__Stepping tptp.s__BodyMotion) (tptp.s__instance tptp.s__Stepping__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Stepping tptp.s__EnglishLanguage |tptp.'The &%BodyMotion of extending one foot forward and then bringing the other foot to the same lateral position as the first leg.'|) (forall ((V__AMBULATE $$unsorted) (V__DURATION $$unsorted)) (=> (and (tptp.s__instance V__DURATION tptp.s__TimeInterval) (tptp.s__instance V__AMBULATE tptp.s__Process)) (=> (and (tptp.s__instance V__AMBULATE tptp.s__Ambulating) (= V__DURATION (tptp.s__WhenFn V__AMBULATE))) (exists ((V__STEP1 $$unsorted) (V__STEPN $$unsorted)) (and (tptp.s__instance V__STEPN tptp.s__Process) (tptp.s__instance V__STEP1 tptp.s__Process) (tptp.s__instance V__STEP1 tptp.s__Stepping) (tptp.s__instance V__STEPN tptp.s__Stepping) (tptp.s__subProcess V__STEP1 V__AMBULATE) (tptp.s__subProcess V__STEPN V__AMBULATE) (tptp.s__starts (tptp.s__WhenFn V__STEP1) V__DURATION) (tptp.s__finishes (tptp.s__WhenFn V__STEPN) V__DURATION) (not (= V__STEP1 V__STEPN))))))) (forall ((V__S1_START $$unsorted) (V__A $$unsorted) (V__S1 $$unsorted) (V__S2_START $$unsorted) (V__S2 $$unsorted)) (=> (and (tptp.s__instance V__S2 tptp.s__Process) (tptp.s__instance V__S2_START tptp.s__TimePoint) (tptp.s__instance V__S1 tptp.s__Process) (tptp.s__instance V__A tptp.s__Process) (tptp.s__instance V__S1_START tptp.s__TimePoint)) (=> (and (tptp.s__instance V__A tptp.s__Ambulating) (tptp.s__subProcess V__S1 V__A) (tptp.s__instance V__S1 tptp.s__Stepping) (tptp.s__subProcess V__S2 V__A) (tptp.s__instance V__S2 tptp.s__Stepping) (= V__S1_START (tptp.s__BeginFn (tptp.s__WhenFn V__S1))) (= V__S2_START (tptp.s__BeginFn (tptp.s__WhenFn V__S2))) (not (or (tptp.s__before V__S1_START V__S2_START) (tptp.s__before V__S2_START V__S1_START)))) (= V__S1 V__S2)))) (forall ((V__STEP $$unsorted) (V__AMBULATE $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__AMBULATE tptp.s__Process) (tptp.s__instance V__STEP tptp.s__Process)) (=> (and (tptp.s__instance V__AMBULATE tptp.s__Ambulating) (tptp.s__instance V__STEP tptp.s__Stepping) (tptp.s__subProcess V__STEP V__AMBULATE) (tptp.s__agent V__AMBULATE V__AGENT)) (tptp.s__agent V__STEP V__AGENT)))) (forall ((V__STEP $$unsorted) (V__AMBULATE $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__AMBULATE tptp.s__Process) (tptp.s__instance V__STEP tptp.s__Process)) (=> (and (tptp.s__instance V__AMBULATE tptp.s__Ambulating) (tptp.s__instance V__STEP tptp.s__Stepping) (tptp.s__subProcess V__STEP V__AMBULATE) (tptp.s__agent V__STEP V__AGENT)) (tptp.s__agent V__AMBULATE V__AGENT)))) (tptp.s__subclass tptp.s__Wading tptp.s__Walking) (tptp.s__instance tptp.s__Wading__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Wading tptp.s__EnglishLanguage |tptp.'Any instance of &%Walking which occurs through a &%BodyOfWater.'|) (forall ((V__P $$unsorted)) (=> (tptp.s__instance V__P tptp.s__Process) (=> (tptp.s__instance V__P tptp.s__Wading) (exists ((V__W $$unsorted)) (and (tptp.s__instance V__W tptp.s__Object) (tptp.s__instance V__W tptp.s__WaterArea) (tptp.s__eventLocated V__P V__W)))))) (tptp.s__subclass tptp.s__Jumping tptp.s__BodyMotion) (tptp.s__instance tptp.s__Jumping__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Jumping tptp.s__MotionUpward) (tptp.s__documentation tptp.s__Jumping tptp.s__EnglishLanguage |tptp.'Any &%MotionUpward which is done by ones body and which results in a situation where ones feet are unsupported.'|) (forall ((V__A $$unsorted) (V__J $$unsorted)) (=> (and (tptp.s__instance V__J tptp.s__Process) (tptp.s__instance V__A tptp.s__Agent)) (=> (and (tptp.s__instance V__J tptp.s__Jumping) (tptp.s__agent V__J V__A)) (tptp.s__holdsDuring (tptp.s__EndFn (tptp.s__WhenFn V__J)) |tptp.'(~ s__attribute(V__A,s__Standing))'|)))) (tptp.s__subclass tptp.s__Somersaulting tptp.s__BodyMotion) (tptp.s__instance tptp.s__Somersaulting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Somersaulting tptp.s__EnglishLanguage |tptp.'Any &%BodyMotion which begins and ends in a &%Sitting position and where the feet roll over the head and return to their original position.'|) (tptp.s__subclass tptp.s__Reflecting tptp.s__Radiating) (tptp.s__documentation tptp.s__Reflecting tptp.s__EnglishLanguage |tptp.'Any instance of &%Radiating where the radiated waves rebound from a surface, e.g. an echo of sound or a reflection of light.'|) (tptp.s__subclass tptp.s__ReflectingLight tptp.s__Reflecting) (tptp.s__instance tptp.s__ReflectingLight__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Reflecting__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__ReflectingLight tptp.s__RadiatingLight) (tptp.s__documentation tptp.s__ReflectingLight tptp.s__EnglishLanguage |tptp.'Those instances of &%RadiatingLight where the &%instrument is not a light source, but is simply a surface which bends light waves that come in contact with it.'|) (tptp.s__documentation tptp.s__wavelength__m tptp.s__EnglishLanguage |tptp.'(wavelength ?RADIATION ?MEASURE) means that the instance of radiation, ?RADIATION, has an average wavelength of ?MEASURE.'|) (tptp.s__instance tptp.s__wavelength__m tptp.s__SingleValuedRelation) (tptp.s__domain tptp.s__wavelength__m |"1"| tptp.s__Radiating) (tptp.s__domain tptp.s__wavelength__m |"2"| tptp.s__LengthMeasure) (tptp.s__subrelation tptp.s__wavelength__m tptp.s__measure__m) (tptp.s__subclass tptp.s__RadiatingInfrared tptp.s__Radiating) (tptp.s__disjoint tptp.s__RadiatingInfrared tptp.s__RadiatingLight) (tptp.s__disjoint tptp.s__RadiatingInfrared tptp.s__RadioEmission) (tptp.s__documentation tptp.s__RadiatingInfrared tptp.s__EnglishLanguage |tptp.'Any instance of &%Radiating where the &%wavelengths are longer than those of visible light and shorter than those of radio emissions.'|) (tptp.s__subclass tptp.s__RadiatingUltraviolet tptp.s__RadiatingElectromagnetic) (tptp.s__instance tptp.s__RadiatingUltraviolet__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__RadiatingUltraviolet tptp.s__RadiatingLight) (tptp.s__disjoint tptp.s__RadiatingUltraviolet tptp.s__XRayRadiation) (tptp.s__documentation tptp.s__RadiatingUltraviolet tptp.s__EnglishLanguage |tptp.'Any case of &%RadiatingElectromagnetic where the &%wavelengths are shorter than those of visible light and longer than those of X-Rays.'|) (tptp.s__abbreviation |tptp.'UV'| tptp.s__RadiatingUltraviolet) (tptp.s__subclass tptp.s__XRayRadiation tptp.s__Radiating) (tptp.s__instance tptp.s__XRayRadiation__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__XRayRadiation tptp.s__EnglishLanguage |tptp.'Electro-magnetic radiation of short wavelength, often made use of by devices that scan the inside of objects.'|) (tptp.s__subclass tptp.s__RadiatingVisibleLight tptp.s__RadiatingLight) (tptp.s__instance tptp.s__RadiatingVisibleLight__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__RadiatingVisibleLight tptp.s__RadiatingUltraviolet) (tptp.s__documentation tptp.s__RadiatingVisibleLight tptp.s__EnglishLanguage |tptp.'Any instance of &%RadiatingLight that can be detected by normal human visual perception.'|) (forall ((V__R $$unsorted) (V__S $$unsorted) (V__H $$unsorted)) (=> (and (tptp.s__instance V__H tptp.s__Agent) (tptp.s__instance V__S tptp.s__Process)) (=> (and (tptp.s__instance V__R tptp.s__RadiatingLight) (tptp.s__instance V__H tptp.s__Human) (tptp.s__instance V__S tptp.s__Seeing) (tptp.s__agent V__S V__H) (tptp.s__patient V__S V__R)) (tptp.s__instance V__R tptp.s__RadiatingVisibleLight)))) (tptp.s__subclass tptp.s__Sunlight tptp.s__RadiatingLight) (tptp.s__instance tptp.s__Sunlight__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sunlight tptp.s__EnglishLanguage |tptp.'Any instance of &%RadiatingLight where the Sun (&%Sol) is the origin.'|) (tptp.s__subclass tptp.s__RadioReceiver tptp.s__ReceiverDevice) (tptp.s__instance tptp.s__RadioReceiver__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__RadioReceiver tptp.s__EnglishLanguage |tptp.'A &%RadioReceiver is a &%Device for receiving radio broadcast signals from a &%RadioStation.'|) (tptp.s__subclass tptp.s__Script tptp.s__Collection) (tptp.s__instance tptp.s__Script__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Script tptp.s__EnglishLanguage |tptp.'The collection of &%Characters in a particular written language. Every &%WrittenCommunication consists of &%Characters written in a particular script. Scripts include different typefaces, as well as entirely different characters. Times Roman is a very specific script. While the latin character set is a general one, that has specific subclasses like Times Roman. Other scripts include Devanagri (which may be expressed in many different more specific typefaces), or Simplified Chinese.'|) (forall ((V__W $$unsorted)) (=> (tptp.s__instance V__W tptp.s__Process) (=> (tptp.s__instance V__W tptp.s__WrittenCommunication) (exists ((V__T $$unsorted) (V__C $$unsorted) (V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__Collection) (tptp.s__instance V__C tptp.s__SelfConnectedObject) (tptp.s__instance V__T tptp.s__Object) (tptp.s__result V__W V__T) (tptp.s__instance V__T tptp.s__Text) (tptp.s__part V__C V__T) (tptp.s__instance V__C tptp.s__Character) (tptp.s__instance V__S tptp.s__Script) (tptp.s__member V__C V__S)))))) (tptp.s__subclass tptp.s__Orthography tptp.s__Procedure) (tptp.s__instance tptp.s__Orthography__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Orthography tptp.s__EnglishLanguage |tptp.'A method for representing the sounds of a &%Language with written &%Characters.'|) (tptp.s__subclass tptp.s__Lyrics tptp.s__Text) (tptp.s__instance tptp.s__Lyrics__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Lyrics tptp.s__EnglishLanguage |tptp.'Any &%Text which is intended to be sung.'|) (forall ((V__LYRIC $$unsorted)) (=> (tptp.s__instance V__LYRIC tptp.s__Physical) (=> (tptp.s__instance V__LYRIC tptp.s__Lyrics) (tptp.s__hasPurpose V__LYRIC |tptp.'(? [V__SING] : (s__instance(V__SING,s__Process) & s__instance(V__SING,s__Singing) & s__patient(V__SING,V__LYRIC)))'|)))) (tptp.s__subclass tptp.s__Paragraph tptp.s__Text) (tptp.s__instance tptp.s__Paragraph__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Paragraph tptp.s__EnglishLanguage |tptp.'A &%Text which consists of one or more sentences, begins with an indented line, and expresses a single topic.'|) (forall ((V__T $$unsorted)) (=> (tptp.s__instance V__T tptp.s__Object) (=> (tptp.s__instance V__T tptp.s__Paragraph) (exists ((V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__Object) (tptp.s__instance V__S tptp.s__Sentence) (tptp.s__part V__S V__T)))))) (tptp.s__documentation tptp.s__sententialObject__m tptp.s__EnglishLanguage |tptp.'(sententialObject ?OBJECT ?SENTENCE) means that the &%NounPhrase ?OBJECT is the object of the &%Sentence ?SENTENCE.'|) (tptp.s__domain tptp.s__sententialObject__m |"1"| tptp.s__NounPhrase) (tptp.s__domain tptp.s__sententialObject__m |"2"| tptp.s__Sentence) (tptp.s__subrelation tptp.s__sententialObject__m tptp.s__grammaticalRelation__m) (tptp.s__documentation tptp.s__sententialSubject__m tptp.s__EnglishLanguage |tptp.'(sententialSubject ?SUBJECT ?SENTENCE) means that the &%NounPhrase ?SUBJECT is the subject of the &%Sentence ?SENTENCE.'|) (tptp.s__domain tptp.s__sententialSubject__m |"1"| tptp.s__NounPhrase) (tptp.s__domain tptp.s__sententialSubject__m |"2"| tptp.s__Sentence) (tptp.s__subrelation tptp.s__sententialSubject__m tptp.s__grammaticalRelation__m) (tptp.s__documentation tptp.s__speaksLanguage__m tptp.s__EnglishLanguage |tptp.'(speaksLanguage ?AGENT ?LANGUAGE) means that the &%SentientAgent ?AGENT is capable of understanding and/or generating the &%Language ?LANGUAGE.'|) (tptp.s__instance tptp.s__speaksLanguage__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__speaksLanguage__m |"1"| tptp.s__SentientAgent) (tptp.s__domain tptp.s__speaksLanguage__m |"2"| tptp.s__Language) (tptp.s__instance tptp.s__MonophonicMusic tptp.s__RelationalAttribute) (tptp.s__documentation tptp.s__MonophonicMusic tptp.s__EnglishLanguage |tptp.'&%MakingMusic which has a single part, i.e. &%MakingMusic which cannot be divided into two or more contemporaneous &%subProcesses which are also instances of &%MakingMusic.'|) (tptp.s__instance tptp.s__PolyphonicMusic tptp.s__RelationalAttribute) (tptp.s__documentation tptp.s__PolyphonicMusic tptp.s__EnglishLanguage |tptp.'&%MakingMusic which has two or more parts, i.e. &%MakingMusic which can be divided into two or more contemporaneous &%subProcesses which are also instances of &%MakingMusic.'|) (forall ((V__MUSIC $$unsorted)) (=> (and (tptp.s__instance V__MUSIC tptp.s__Object) (tptp.s__instance V__MUSIC tptp.s__Process)) (= (tptp.s__attribute V__MUSIC tptp.s__PolyphonicMusic) (exists ((V__PART1 $$unsorted) (V__PART2 $$unsorted)) (and (tptp.s__instance V__PART2 tptp.s__Process) (tptp.s__instance V__PART1 tptp.s__Process) (tptp.s__instance V__MUSIC tptp.s__MakingMusic) (tptp.s__instance V__PART1 tptp.s__MakingMusic) (tptp.s__instance V__PART2 tptp.s__MakingMusic) (tptp.s__subProcess V__PART1 V__MUSIC) (tptp.s__subProcess V__PART2 V__MUSIC) (not (= V__PART1 V__PART2)) (tptp.s__cooccur V__PART1 V__MUSIC) (tptp.s__cooccur V__PART2 V__MUSIC)))))) (tptp.s__subclass tptp.s__MusicalTone tptp.s__RadiatingSound) (tptp.s__instance tptp.s__MusicalTone__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MusicalTone tptp.s__EnglishLanguage |tptp.'A &%Process of &%RadiatingSound where the sound has a fundamental frequency and 0 or more partial frequencies or unrelated transients or noise components that have a lesser amplitude than the fundamental.'|) (tptp.s__subclass tptp.s__RadiatingSoundUltrasonic tptp.s__RadiatingSound) (tptp.s__instance tptp.s__RadiatingSoundUltrasonic__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__RadiatingSoundUltrasonic tptp.s__EnglishLanguage |tptp.'All sound waves that have frequencies above those that normal &%Human ears can detect.'|) (tptp.s__subclass tptp.s__soundFrequency__m tptp.s__BinaryRelation) (tptp.s__instance tptp.s__soundFrequency__t__m tptp.s__SetOrClass) (tptp.s__documentation tptp.s__soundFrequency__m tptp.s__EnglishLanguage |tptp.'A relation between a &%Process of &%MusicalTone and the fundamental frequency of that tone.'|) (tptp.s__domain tptp.s__soundFrequency__m |"1"| tptp.s__MusicalTone) (tptp.s__domain tptp.s__soundFrequency__m |"2"| tptp.s__FunctionQuantity) (tptp.s__subclass tptp.s__WrittenCommunication tptp.s__LinguisticCommunication) (tptp.s__instance tptp.s__WrittenCommunication__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__WrittenCommunication tptp.s__EnglishLanguage |tptp.'Any &%LinguisticCommunication where the &%instrument is a &%Text, e.g. a letter, an email, a memo, etc.'|) (tptp.s__subclass tptp.s__Corresponding tptp.s__LinguisticCommunication) (tptp.s__instance tptp.s__Corresponding__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Corresponding tptp.s__EnglishLanguage |tptp.'Instances of &%LinguisticCommunication which are achieved by means of &%Texts that are mailed between the persons communicating with one another.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Process) (=> (tptp.s__instance V__C tptp.s__Corresponding) (exists ((V__M $$unsorted) (V__T $$unsorted)) (and (tptp.s__instance V__M tptp.s__Process) (tptp.s__instance V__M tptp.s__Mailing) (tptp.s__subProcess V__M V__C) (tptp.s__instance V__T tptp.s__Text) (tptp.s__patient V__M V__T) (tptp.s__patient V__C V__T)))))) (tptp.s__subclass tptp.s__Reminding tptp.s__Requesting) (tptp.s__instance tptp.s__Reminding__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Reminding tptp.s__EnglishLanguage |tptp.'Any &%Requesting that is intended to cause a &%Remembering of something.'|) (forall ((V__REMIND $$unsorted)) (=> (tptp.s__instance V__REMIND tptp.s__Process) (=> (tptp.s__instance V__REMIND tptp.s__Reminding) (exists ((V__REMEMBER $$unsorted)) (and (tptp.s__instance V__REMEMBER tptp.s__Process) (tptp.s__instance V__REMEMBER tptp.s__Remembering) (tptp.s__causes V__REMIND V__REMEMBER)))))) (tptp.s__subclass tptp.s__Threatening tptp.s__Committing) (tptp.s__instance tptp.s__Threatening__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Threatening tptp.s__EnglishLanguage |tptp.'Any &%Committing where the thing promised is something that is deemed undesirable by the &%destination of the &%Committing.'|) (forall ((V__PROP $$unsorted) (V__AGENT $$unsorted) (V__DEST $$unsorted) (V__THREATEN $$unsorted)) (=> (and (tptp.s__instance V__THREATEN tptp.s__Process) (tptp.s__instance V__DEST tptp.s__CognitiveAgent) (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__PROP tptp.s__Formula)) (=> (and (tptp.s__instance V__THREATEN tptp.s__Threatening) (tptp.s__agent V__THREATEN V__AGENT) (tptp.s__patient V__THREATEN V__PROP) (tptp.s__destination V__THREATEN V__DEST)) (not (tptp.s__desires V__DEST V__PROP))))) (tptp.s__subclass tptp.s__Punishing tptp.s__RegulatoryProcess) (tptp.s__instance tptp.s__Punishing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Punishing tptp.s__EnglishLanguage |tptp.'A &%RegulatoryProcess where the agent does something to the &%destination that the &%agent knows is undesirable for the &%destination.'|) (forall ((V__P $$unsorted) (V__A $$unsorted) (V__D $$unsorted) (V__F $$unsorted)) (=> (and (tptp.s__instance V__F tptp.s__Formula) (tptp.s__instance V__D tptp.s__CognitiveAgent) (tptp.s__instance V__A tptp.s__CognitiveAgent) (tptp.s__instance V__P tptp.s__Process)) (=> (and (tptp.s__instance V__P tptp.s__Punishing) (tptp.s__agent V__P V__A) (tptp.s__patient V__P V__F) (tptp.s__destination V__P V__D)) (tptp.s__knows V__A |tptp.'(~ s__desires(V__D,V__F))'|)))) (tptp.s__subclass tptp.s__Registering tptp.s__Stating) (tptp.s__instance tptp.s__Registering__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Registering tptp.s__PoliticalProcess) (tptp.s__documentation tptp.s__Registering tptp.s__EnglishLanguage |tptp.'Submitting official paperwork in a government agency, e.g. filing for divorce, making a legal claim against someone.'|) (forall ((V__ACTION $$unsorted)) (=> (tptp.s__instance V__ACTION tptp.s__Process) (=> (tptp.s__instance V__ACTION tptp.s__LegalAction) (exists ((V__REGISTER $$unsorted)) (and (tptp.s__instance V__REGISTER tptp.s__Process) (tptp.s__instance V__REGISTER tptp.s__Registering) (tptp.s__subProcess V__REGISTER V__ACTION)))))) (tptp.s__subclass tptp.s__Answering tptp.s__Stating) (tptp.s__instance tptp.s__Answering__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Answering tptp.s__EnglishLanguage |tptp.'Responding to a &%Questioning, i.e. trying to answer someones question.'|) (forall ((V__ANSWER $$unsorted)) (=> (tptp.s__instance V__ANSWER tptp.s__Physical) (=> (tptp.s__instance V__ANSWER tptp.s__Answering) (exists ((V__QUESTION $$unsorted)) (and (tptp.s__instance V__QUESTION tptp.s__Physical) (tptp.s__instance V__QUESTION tptp.s__Questioning) (tptp.s__refers V__ANSWER V__QUESTION) (tptp.s__earlier (tptp.s__WhenFn V__QUESTION) (tptp.s__WhenFn V__ANSWER))))))) (tptp.s__subclass tptp.s__Arguing tptp.s__Stating) (tptp.s__instance tptp.s__Arguing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Arguing tptp.s__EnglishLanguage |tptp.'Any &%Stating which has the form of an &%Argument.'|) (forall ((V__ARGUE $$unsorted)) (=> (tptp.s__instance V__ARGUE tptp.s__Process) (=> (tptp.s__instance V__ARGUE tptp.s__Arguing) (exists ((V__STATEMENT $$unsorted) (V__ARGUMENT $$unsorted)) (and (tptp.s__instance V__ARGUMENT tptp.s__Proposition) (tptp.s__instance V__STATEMENT tptp.s__ContentBearingPhysical) (tptp.s__patient V__ARGUE V__STATEMENT) (tptp.s__instance V__STATEMENT tptp.s__Statement) (tptp.s__containsInformation V__STATEMENT V__ARGUMENT) (tptp.s__instance V__ARGUMENT tptp.s__Argument)))))) (tptp.s__subclass tptp.s__TellingALie tptp.s__LinguisticCommunication) (tptp.s__instance tptp.s__TellingALie__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TellingALie tptp.s__EnglishLanguage |tptp.'Any &%LinguisticCommunication which is both &%False and believed to be &%False by the &%agent of the &%LinguisticCommunication.'|) (tptp.s__subclass tptp.s__Founding tptp.s__Declaring) (tptp.s__instance tptp.s__Founding__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Founding tptp.s__OrganizationalProcess) (tptp.s__documentation tptp.s__Founding tptp.s__EnglishLanguage |tptp.'Setting up an &%Organization.'|) (forall ((V__FOUND $$unsorted)) (=> (tptp.s__instance V__FOUND tptp.s__Process) (=> (tptp.s__instance V__FOUND tptp.s__Founding) (exists ((V__ORG $$unsorted)) (and (tptp.s__instance V__ORG tptp.s__Organization) (tptp.s__result V__FOUND V__ORG)))))) (tptp.s__subclass tptp.s__Club tptp.s__Organization) (tptp.s__instance tptp.s__Club__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Club tptp.s__EnglishLanguage |tptp.'A Club is an &%Organization of people that share some &%desire'|) (forall ((V__CLUB $$unsorted) (V__MEM1 $$unsorted) (V__MEM2 $$unsorted)) (=> (and (tptp.s__instance V__MEM2 tptp.s__SelfConnectedObject) (tptp.s__instance V__MEM2 tptp.s__CognitiveAgent) (tptp.s__instance V__MEM1 tptp.s__SelfConnectedObject) (tptp.s__instance V__MEM1 tptp.s__CognitiveAgent) (tptp.s__instance V__CLUB tptp.s__Collection)) (=> (and (tptp.s__instance V__CLUB tptp.s__Club) (tptp.s__member V__MEM1 V__CLUB) (tptp.s__member V__MEM2 V__CLUB)) (exists ((V__DESIRE $$unsorted)) (and (tptp.s__instance V__DESIRE tptp.s__Formula) (tptp.s__desires V__MEM1 V__DESIRE) (tptp.s__desires V__MEM2 V__DESIRE)))))) (tptp.s__documentation tptp.s__yearOfFounding__m tptp.s__EnglishLanguage |tptp.'(yearOfFounding ?ORG ?NUMBER) means that the &%Organization ?ORG was founded in the year expressed in ?NUMBER.'|) (tptp.s__instance tptp.s__yearOfFounding__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__yearOfFounding__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__yearOfFounding__m |"1"| tptp.s__Organization) (tptp.s__domain tptp.s__yearOfFounding__m |"2"| tptp.s__Integer) (forall ((V__O $$unsorted) (V__Y $$unsorted)) (=> (and (tptp.s__instance V__Y tptp.s__Integer) (tptp.s__instance V__O tptp.s__Organization)) (=> (tptp.s__yearOfFounding V__O V__Y) (tptp.s__dateEstablished V__O (tptp.s__YearFn V__Y))))) (forall ((V__O $$unsorted) (V__Y $$unsorted)) (=> (and (tptp.s__instance V__Y tptp.s__Integer) (tptp.s__instance V__O tptp.s__Organization)) (= (tptp.s__yearOfFounding V__O V__Y) (exists ((V__F $$unsorted)) (and (tptp.s__instance V__F tptp.s__TimeInterval) (tptp.s__instance V__F tptp.s__Process) (tptp.s__overlapsTemporally V__F (tptp.s__YearFn V__Y)) (tptp.s__instance V__F tptp.s__Founding) (tptp.s__result V__F V__O)))))) (tptp.s__instance tptp.s__dateEstablished__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__dateEstablished__m |"1"| tptp.s__Physical) (tptp.s__domainSubclass tptp.s__dateEstablished__m |"2"| tptp.s__TimePosition) (tptp.s__documentation tptp.s__dateEstablished__m tptp.s__EnglishLanguage |tptp.'(&%dateEstablished ?THING ?TIME) means that the &%Physical ?THING was founded on the date indicated by ?TIME. For example, (&%dateEstablished &%UnitedNations (&%DayFn 26 (&%MonthFn &%June (&%YearFn 1945)))).'|) (forall ((V__THING $$unsorted) (V__DATE $$unsorted)) (=> (and (tptp.s__subclass V__DATE tptp.s__TimePosition) (tptp.s__instance V__DATE tptp.s__SetOrClass) (tptp.s__instance V__THING tptp.s__Physical)) (=> (tptp.s__dateEstablished V__THING V__DATE) (exists ((V__DAY $$unsorted)) (and (tptp.s__instance V__DAY tptp.s__TimeInterval) (tptp.s__instance V__DAY V__DATE) (tptp.s__overlapsTemporally V__DAY (tptp.s__BeginFn (tptp.s__WhenFn V__THING)))))))) (tptp.s__instance tptp.s__dateUsed__m tptp.s__TernaryPredicate) (tptp.s__domain tptp.s__dateUsed__m |"1"| tptp.s__Object) (tptp.s__domain tptp.s__dateUsed__m |"2"| tptp.s__TimePoint) (tptp.s__domain tptp.s__dateUsed__m |"3"| tptp.s__Agent) (tptp.s__documentation tptp.s__dateUsed__m tptp.s__EnglishLanguage |tptp.'The date an &%Object is used by an &%Agent.'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__dateUsed__m |tptp.'date used'|) (forall ((V__OBJECT $$unsorted) (V__AGENT $$unsorted) (V__DATE $$unsorted)) (=> (and (tptp.s__instance V__DATE tptp.s__TimePoint) (tptp.s__instance V__DATE tptp.s__TimeInterval) (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__OBJECT tptp.s__Object)) (=> (tptp.s__dateUsed V__OBJECT V__DATE V__AGENT) (exists ((V__PROCESS $$unsorted)) (and (tptp.s__instance V__PROCESS tptp.s__Process) (tptp.s__patient V__PROCESS V__OBJECT) (tptp.s__agent V__PROCESS V__AGENT) (tptp.s__uses V__OBJECT V__AGENT) (tptp.s__overlapsTemporally V__DATE (tptp.s__WhenFn V__PROCESS))))))) (tptp.s__subclass tptp.s__Accrediting tptp.s__Declaring) (tptp.s__instance tptp.s__Accrediting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Accrediting tptp.s__EnglishLanguage |tptp.'Any process of certifying an &%EducationalOrganization.'|) (forall ((V__A $$unsorted) (V__EO $$unsorted)) (=> (tptp.s__instance V__A tptp.s__Process) (=> (and (tptp.s__instance V__A tptp.s__Accrediting) (tptp.s__patient V__A V__EO)) (tptp.s__instance V__EO tptp.s__EducationalOrganization)))) (tptp.s__subclass tptp.s__Indicating tptp.s__Communication) (tptp.s__subclass tptp.s__Indicating tptp.s__BodyMotion) (tptp.s__instance tptp.s__Indicating__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Indicating tptp.s__EnglishLanguage |tptp.'Pointing out a person, place or thing with ones hand or with an &%Artifact.'|) (tptp.s__subclass tptp.s__Divorcing tptp.s__Declaring) (tptp.s__instance tptp.s__Divorcing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Divorcing tptp.s__EnglishLanguage |tptp.'A &%LegalAction whereby a marriage (&%Wedding) is dissolved. This includes annulments.'|) (tptp.s__subclass tptp.s__Appointing tptp.s__Declaring) (tptp.s__instance tptp.s__Appointing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Appointing tptp.s__EnglishLanguage |tptp.'Any instance of &%Declaring by which the patient is assigned to a &%Position within an &%Organization where the patient previously had no position. For example, the appointments of people to non-elective offices in a government.'|) (forall ((V__A $$unsorted)) (=> (tptp.s__instance V__A tptp.s__Process) (=> (tptp.s__instance V__A tptp.s__Appointing) (not (exists ((V__H $$unsorted)) (and (tptp.s__instance V__H tptp.s__Agent) (tptp.s__agent V__A V__H) (tptp.s__instance V__H tptp.s__Public))))))) (tptp.s__subclass tptp.s__TurningOffDevice tptp.s__InternalChange) (tptp.s__instance tptp.s__TurningOffDevice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TurningOffDevice tptp.s__EnglishLanguage |tptp.'Any &%Process whose result is that the patient of the process is in the state of &%DeviceOff. In other words, this class covers any process of turning off a device, e.g. turning off the lights, switching off a television set, etc.'|) (forall ((V__P $$unsorted) (V__D $$unsorted)) (=> (tptp.s__instance V__P tptp.s__Process) (=> (and (tptp.s__instance V__P tptp.s__TurningOffDevice) (tptp.s__patient V__P V__D)) (tptp.s__instance V__D tptp.s__Device)))) (tptp.s__subclass tptp.s__TurningOnDevice tptp.s__InternalChange) (tptp.s__instance tptp.s__TurningOnDevice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TurningOnDevice tptp.s__EnglishLanguage |tptp.'Any &%Process whose result is that the patient of the process is in the state of &%DeviceOn. In other words, this class covers any process of turning on a device, e.g. turning on the lights, switching on a television set, etc.'|) (forall ((V__P $$unsorted) (V__D $$unsorted)) (=> (tptp.s__instance V__P tptp.s__Process) (=> (and (tptp.s__instance V__P tptp.s__TurningOnDevice) (tptp.s__patient V__P V__D)) (tptp.s__instance V__D tptp.s__Device)))) (tptp.s__subclass tptp.s__Projectile tptp.s__Weapon) (tptp.s__documentation tptp.s__Projectile tptp.s__EnglishLanguage |tptp.'A missile, bullet, etc. that is fired from a &%Weapon.'|) (forall ((V__PROJECTILE $$unsorted)) (=> (tptp.s__instance V__PROJECTILE tptp.s__Object) (=> (tptp.s__instance V__PROJECTILE tptp.s__Projectile) (tptp.s__capability tptp.s__Shooting tptp.s__patient__m V__PROJECTILE)))) (tptp.s__subclass tptp.s__ProjectileShell tptp.s__Container) (tptp.s__instance tptp.s__ProjectileShell__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ProjectileShell tptp.s__EnglishLanguage |tptp.'The outer casing of a &%Projectile.'|) (forall ((V__PROJECTILE $$unsorted)) (=> (tptp.s__instance V__PROJECTILE tptp.s__Object) (=> (tptp.s__instance V__PROJECTILE tptp.s__Projectile) (exists ((V__SHELL $$unsorted)) (and (tptp.s__instance V__SHELL tptp.s__Object) (tptp.s__instance V__SHELL tptp.s__ProjectileShell) (tptp.s__part V__SHELL V__PROJECTILE)))))) (tptp.s__subclass tptp.s__ProjectileLauncher tptp.s__Weapon) (tptp.s__instance tptp.s__ProjectileLauncher__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ProjectileLauncher tptp.s__EnglishLanguage |tptp.'A &%Weapon that shoots a &%Projectile.'|) (forall ((V__L $$unsorted)) (=> (tptp.s__instance V__L tptp.s__Object) (=> (tptp.s__instance V__L tptp.s__ProjectileLauncher) (tptp.s__capability tptp.s__Shooting tptp.s__instrument__m V__L)))) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Process) (=> (tptp.s__instance V__S tptp.s__Shooting) (exists ((V__P $$unsorted) (V__L $$unsorted)) (and (tptp.s__instance V__L tptp.s__Object) (tptp.s__instance V__P tptp.s__Projectile) (tptp.s__patient V__S V__P) (tptp.s__instance V__L tptp.s__ProjectileLauncher) (tptp.s__instrument V__S V__L)))))) (tptp.s__subclass tptp.s__Spear tptp.s__Weapon) (tptp.s__instance tptp.s__Spear__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Spear tptp.s__EnglishLanguage |tptp.'A &%Weapon with a long handle and a short blade.'|) (tptp.s__subclass tptp.s__Sword tptp.s__Weapon) (tptp.s__instance tptp.s__Sword__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sword tptp.s__EnglishLanguage |tptp.'A &%Weapon with a long blade and covered handle.'|) (tptp.s__subclass tptp.s__Whip tptp.s__Weapon) (tptp.s__instance tptp.s__Whip__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Whip tptp.s__EnglishLanguage |tptp.'A &%Weapon that consists of a thin strand of &%Fabric, usually &%Leather, and a handle by which the strand is impelled at a high rate of speed.'|) (tptp.s__subclass tptp.s__Gun tptp.s__Weapon) (tptp.s__instance tptp.s__Gun__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Gun tptp.s__ProjectileLauncher) (tptp.s__partition_3 tptp.s__Gun tptp.s__ArtilleryGun tptp.s__Firearm) (tptp.s__documentation tptp.s__Gun tptp.s__EnglishLanguage |tptp.'A &%Weapon that shoots a &%Projectile.'|) (forall ((V__GUN $$unsorted)) (=> (tptp.s__instance V__GUN tptp.s__Object) (=> (tptp.s__instance V__GUN tptp.s__Gun) (tptp.s__capability tptp.s__Shooting tptp.s__instrument__m V__GUN)))) (forall ((V__SHOOT $$unsorted)) (=> (tptp.s__instance V__SHOOT tptp.s__Process) (=> (tptp.s__instance V__SHOOT tptp.s__Shooting) (exists ((V__PROJECTILE $$unsorted) (V__GUN $$unsorted)) (and (tptp.s__instance V__GUN tptp.s__Object) (tptp.s__instance V__PROJECTILE tptp.s__Projectile) (tptp.s__patient V__SHOOT V__PROJECTILE) (tptp.s__instance V__GUN tptp.s__Gun) (tptp.s__instrument V__SHOOT V__GUN)))))) (tptp.s__subclass tptp.s__MortarGun tptp.s__ArtilleryGun) (tptp.s__instance tptp.s__MortarGun__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MortarGun tptp.s__EnglishLanguage |tptp.'A short-range &%Gun that is positioned on the ground at a high angle and fires explosive shells.'|) (tptp.s__subclass tptp.s__Bullet tptp.s__Projectile) (tptp.s__instance tptp.s__Bullet__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Bullet tptp.s__EnglishLanguage |tptp.'A &%Projectile that is designed to be fired by a &%Gun.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Physical) (=> (tptp.s__instance V__B tptp.s__Bullet) (tptp.s__hasPurpose V__B |tptp.'(? [V__S,V__GUN] : (s__instance(V__GUN,s__Object) & s__instance(V__S,s__Process) & s__instance(V__S,s__Shooting) & s__instrument(V__S,V__GUN) & s__instance(V__GUN,s__Gun) & s__patient(V__S,V__B)))'|)))) (tptp.s__subclass tptp.s__BulletCartridge tptp.s__Projectile) (tptp.s__instance tptp.s__BulletCartridge__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__BulletCartridge tptp.s__EnglishLanguage |tptp.'The entire projectile consisting of a bullet, casing, gunpowder, and primer.'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__BulletCartridge |tptp.'bullet cartridge'|) (forall ((V__CARTRIDGE $$unsorted)) (=> (tptp.s__instance V__CARTRIDGE tptp.s__Object) (=> (tptp.s__instance V__CARTRIDGE tptp.s__BulletCartridge) (tptp.s__hasPurpose V__CARTRIDGE |tptp.'(? [V__BULLET,V__CASE] : (s__instance(V__CASE,s__Object) & s__instance(V__BULLET,s__Object) & s__instance(V__BULLET,s__Bullet) & s__instance(V__CASE,s__CartridgeCase) & s__properPart(V__BULLET,V__CARTRIDGE) & s__properPart(V__CASE,V__CARTRIDGE)))'|)))) (tptp.s__subclass tptp.s__CartridgeCase tptp.s__EngineeringComponent) (tptp.s__instance tptp.s__CartridgeCase__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__CartridgeCase tptp.s__EnglishLanguage |tptp.'the part of a cartridge that holds the bullet'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__CartridgeCase tptp.case) (forall ((V__CASE $$unsorted)) (=> (tptp.s__instance V__CASE tptp.s__Agent) (=> (tptp.s__instance V__CASE tptp.s__CartridgeCase) (exists ((V__CARTRIDGE $$unsorted) (V__BULLET $$unsorted) (V__K $$unsorted)) (and (tptp.s__instance V__K tptp.s__Process) (tptp.s__instance V__BULLET tptp.s__Object) (tptp.s__instance V__CARTRIDGE tptp.s__Object) (tptp.s__instance V__CARTRIDGE tptp.s__BulletCartridge) (tptp.s__instance V__BULLET tptp.s__Bullet) (tptp.s__instance V__K tptp.s__Keeping) (tptp.s__properPart V__CASE V__CARTRIDGE) (tptp.s__properPart V__BULLET V__CARTRIDGE) (tptp.s__agent V__K V__CASE) (tptp.s__patient V__K V__BULLET)))))) (tptp.s__subclass tptp.s__GunBarrel tptp.s__EngineeringComponent) (tptp.s__instance tptp.s__GunBarrel__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__GunBarrel tptp.s__EnglishLanguage |tptp.'The part of a &%Gun through which a &%Projectile travels when it is fired.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Object) (=> (tptp.s__instance V__B tptp.s__GunBarrel) (exists ((V__G $$unsorted)) (and (tptp.s__instance V__G tptp.s__Object) (tptp.s__instance V__G tptp.s__Gun) (tptp.s__part V__B V__G)))))) (forall ((V__P $$unsorted) (V__B $$unsorted) (V__S $$unsorted) (V__G $$unsorted) (V__GUN $$unsorted)) (=> (and (tptp.s__instance V__GUN tptp.s__Object) (tptp.s__instance V__G tptp.s__Object) (tptp.s__instance V__S tptp.s__Process) (tptp.s__instance V__B tptp.s__Object)) (=> (and (tptp.s__instance V__G tptp.s__Gun) (tptp.s__instance V__B tptp.s__GunBarrel) (tptp.s__part V__B V__G) (tptp.s__instance V__S tptp.s__Shooting) (tptp.s__instrument V__S V__GUN) (tptp.s__patient V__S V__P) (tptp.s__instance V__P tptp.s__Projectile)) (exists ((V__SUB $$unsorted)) (and (tptp.s__instance V__SUB tptp.s__Motion) (tptp.s__subProcess V__SUB V__S) (tptp.s__path V__SUB V__B)))))) (tptp.s__subclass tptp.s__GunPowder tptp.s__Mixture) (tptp.s__instance tptp.s__GunPowder__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__GunPowder tptp.s__EnglishLanguage |tptp.'A &%Mixture of potassium nitrate, sulfur, and charcoal that is used in &%ExplosiveDevices and to propell &%Projectiles in &%ProjectileWeapons.'|) (forall ((V__P $$unsorted)) (=> (tptp.s__instance V__P tptp.s__Object) (=> (tptp.s__instance V__P tptp.s__GunPowder) (tptp.s__capability tptp.s__Explosion tptp.s__instrument__m V__P)))) (tptp.s__subclass tptp.s__GunTrigger tptp.s__EngineeringComponent) (tptp.s__subclass tptp.s__GunTrigger tptp.s__Lever) (tptp.s__instance tptp.s__GunTrigger__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Lever__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__GunTrigger tptp.s__EnglishLanguage |tptp.'The part of the &%Gun which is pulled in &%Shooting the &%Gun.'|) (tptp.s__typicalPart tptp.s__GunTrigger tptp.s__Gun) (tptp.s__typicallyContainsPart tptp.s__GunTrigger tptp.s__Gun) (tptp.s__subclass tptp.s__LoadingWeapon tptp.s__Inserting) (tptp.s__instance tptp.s__LoadingWeapon__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__LoadingWeapon tptp.s__EnglishLanguage |tptp.'Inserting ammunition into a &%ProjectileWeapon in such a way that the ammunition can be fired by the weapon.'|) (forall ((V__P $$unsorted) (V__L $$unsorted)) (=> (tptp.s__instance V__L tptp.s__Process) (=> (and (tptp.s__instance V__L tptp.s__LoadingWeapon) (tptp.s__patient V__L V__P)) (tptp.s__instance V__P tptp.s__Projectile)))) (forall ((V__W $$unsorted) (V__L $$unsorted)) (=> (tptp.s__instance V__L tptp.s__Process) (=> (and (tptp.s__instance V__L tptp.s__LoadingWeapon) (tptp.s__destination V__L V__W)) (tptp.s__instance V__W tptp.s__ProjectileLauncher)))) (tptp.s__instance tptp.s__effectiveRange__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__effectiveRange__m tptp.s__SingleValuedRelation) (tptp.s__subrelation tptp.s__effectiveRange__m tptp.s__measure__m) (tptp.s__domain tptp.s__effectiveRange__m |"1"| tptp.s__Device) (tptp.s__domain tptp.s__effectiveRange__m |"2"| tptp.s__LengthMeasure) (tptp.s__documentation tptp.s__effectiveRange__m tptp.s__EnglishLanguage |tptp.'Models the effective range of some device that is able to move by itself (like vehicles, rockets and so on) or move other things (like weapons).'|) (forall ((V__DAMAGING $$unsorted) (V__O $$unsorted) (V__LM $$unsorted) (V__LM1 $$unsorted) (V__GUN $$unsorted)) (=> (and (tptp.s__instance V__GUN tptp.s__Device) (tptp.s__instance V__LM1 tptp.s__LengthMeasure) (tptp.s__instance V__LM tptp.s__LengthMeasure) (tptp.s__instance V__O tptp.s__Object)) (=> (and (tptp.s__instance V__GUN tptp.s__Gun) (tptp.s__effectiveRange V__GUN V__LM) (tptp.s__distance V__GUN V__O V__LM1) (not (exists ((V__O2 $$unsorted)) (and (tptp.s__instance V__O2 tptp.s__Object) (tptp.s__between V__O V__O2 V__GUN)))) (tptp.lesseq V__LM1 V__LM)) (tptp.s__capability (tptp.s__KappaFn V__DAMAGING |tptp.'(s__instance(V__DAMAGING,s__Damaging) & s__patient(V__DAMAGING,V__O))'|) tptp.s__instrument__m V__GUN)))) (forall ((V__KILLING $$unsorted) (V__O $$unsorted) (V__LM $$unsorted) (V__LM1 $$unsorted) (V__GUN $$unsorted)) (=> (and (tptp.s__instance V__GUN tptp.s__Device) (tptp.s__instance V__LM1 tptp.s__LengthMeasure) (tptp.s__instance V__LM tptp.s__LengthMeasure) (tptp.s__instance V__O tptp.s__Object)) (=> (and (tptp.s__instance V__GUN tptp.s__Gun) (tptp.s__effectiveRange V__GUN V__LM) (tptp.s__distance V__GUN V__O V__LM1) (tptp.s__instance V__O tptp.s__Organism) (not (exists ((V__O2 $$unsorted)) (and (tptp.s__instance V__O2 tptp.s__Object) (tptp.s__between V__O V__O2 V__GUN)))) (tptp.lesseq V__LM1 V__LM)) (tptp.s__capability (tptp.s__KappaFn V__KILLING |tptp.'(s__instance(V__KILLING,s__Killing) & s__patient(V__KILLING,V__O))'|) tptp.s__instrument__m V__GUN)))) (tptp.s__subclass tptp.s__GunStock tptp.s__EngineeringComponent) (tptp.s__instance tptp.s__GunStock__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__GunStock tptp.s__EnglishLanguage |tptp.'The part of a &%Gun that is placed against the shoulder to absorb some of the recoil action when it is fired.'|) (forall ((V__STOCK $$unsorted)) (=> (tptp.s__instance V__STOCK tptp.s__Object) (=> (tptp.s__instance V__STOCK tptp.s__GunStock) (exists ((V__GUN $$unsorted)) (and (tptp.s__instance V__GUN tptp.s__Object) (tptp.s__instance V__GUN tptp.s__Gun) (tptp.s__part V__STOCK V__GUN)))))) (tptp.s__subclass tptp.s__WeaponOfMassDestruction tptp.s__Weapon) (tptp.s__instance tptp.s__WeaponOfMassDestruction__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__WeaponOfMassDestruction tptp.s__EnglishLanguage |tptp.'Nuclear, chemical and biological weapons. What these weapons have in common is that they are designed to kill large numbers of people indiscriminately.'|) (tptp.s__subclass tptp.s__Handle tptp.s__EngineeringComponent) (tptp.s__instance tptp.s__Handle__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Handle tptp.s__EnglishLanguage |tptp.'The part or parts of an &%Artifact that are designed to be held with the &%Hands when the &%Artifact is used or carried.'|) (forall ((V__H $$unsorted)) (=> (tptp.s__instance V__H tptp.s__Physical) (=> (tptp.s__instance V__H tptp.s__Handle) (tptp.s__hasPurpose V__H |tptp.'(? [V__G,V__D] : (s__instance(V__D,s__Object) & s__instance(V__G,s__Process) & s__instance(V__G,s__Grabbing) & s__patient(V__G,V__H) & s__instrument(V__G,V__D) & s__instance(V__D,s__Hand)))'|)))) (tptp.s__subclass tptp.s__Shield tptp.s__Artifact) (tptp.s__instance tptp.s__Shield__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Shield tptp.s__EnglishLanguage |tptp.'An &%Artifact that is held by the hand or whole arm and is used to prevent injuries from &%Weapons.'|) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Object) (=> (tptp.s__instance V__S tptp.s__Shield) (exists ((V__H $$unsorted)) (and (tptp.s__instance V__H tptp.s__Object) (tptp.s__instance V__H tptp.s__Handle) (tptp.s__part V__H V__S)))))) (tptp.s__subclass tptp.s__Mast tptp.s__Artifact) (tptp.s__instance tptp.s__Mast__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Mast tptp.s__EnglishLanguage |tptp.'A large pole in the center of a &%WaterVehicle which is used to support a sail.'|) (forall ((V__M $$unsorted)) (=> (tptp.s__instance V__M tptp.s__Object) (=> (tptp.s__instance V__M tptp.s__Mast) (exists ((V__W $$unsorted)) (and (tptp.s__instance V__W tptp.s__Object) (tptp.s__instance V__W tptp.s__WaterVehicle) (tptp.s__part V__M V__W)))))) (tptp.s__subclass tptp.s__WingDevice tptp.s__EngineeringComponent) (tptp.s__instance tptp.s__WingDevice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__WingDevice tptp.s__EnglishLanguage |tptp.'The wings of &%Aircraft, i.e. the parts of &%Aircraft that allow them to become and remain airborne.'|) (forall ((V__W $$unsorted)) (=> (tptp.s__instance V__W tptp.s__Object) (=> (tptp.s__instance V__W tptp.s__WingDevice) (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__Object) (tptp.s__instance V__A tptp.s__Aircraft) (tptp.s__part V__W V__A)))))) (tptp.s__subclass tptp.s__Tube tptp.s__Artifact) (tptp.s__instance tptp.s__Tube__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Tube tptp.s__EnglishLanguage |tptp.'A long, narrow, and hollow &%Artifact that is designed for moving &%Fluids from place to another.'|) (forall ((V__T $$unsorted)) (=> (tptp.s__instance V__T tptp.s__Object) (=> (tptp.s__instance V__T tptp.s__Tube) (tptp.s__hasPurpose V__T |tptp.'(? [V__P,V__OBJ] : (s__instance(V__OBJ,s__Object) & s__instance(V__P,s__Motion) & s__instance(V__P,s__Transfer) & s__path(V__P,V__T) & s__patient(V__P,V__OBJ) & s__attribute(V__OBJ,s__Fluid)))'|)))) (tptp.s__subclass tptp.s__PhotographicFilm tptp.s__Artifact) (tptp.s__instance tptp.s__PhotographicFilm__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PhotographicFilm tptp.s__EnglishLanguage |tptp.'Celluloid covered with an emulsion which can be converted into photographic negatives by a &%Camera.'|) (tptp.s__subclass tptp.s__PictureFrame tptp.s__Artifact) (tptp.s__instance tptp.s__PictureFrame__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PictureFrame tptp.s__EnglishLanguage |tptp.'A frame which surrounds a &%PaintedPicture or &%Photograph and has the function of protecting and accenting the picture.'|) (forall ((V__F $$unsorted)) (=> (tptp.s__instance V__F tptp.s__Object) (=> (tptp.s__instance V__F tptp.s__PictureFrame) (tptp.s__hasPurpose V__F |tptp.'(? [V__P] : (s__instance(V__P,s__Object) & s__meetsSpatially(V__F,V__P) & (s__instance(V__P,s__PaintedPicture) _ s__instance(V__P,s__Photograph))))'|)))) (tptp.s__subclass tptp.s__Shelf tptp.s__Artifact) (tptp.s__instance tptp.s__Shelf__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Shelf tptp.s__EnglishLanguage |tptp.'An piece of &%Furniture or part of a piece of &%Furniture that is used for keeping or displaying things.'|) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Object) (=> (tptp.s__instance V__S tptp.s__Shelf) (exists ((V__F $$unsorted)) (and (tptp.s__instance V__F tptp.s__Object) (tptp.s__instance V__F tptp.s__Furniture) (tptp.s__part V__S V__F)))))) (tptp.s__subclass tptp.s__AutomaticGun tptp.s__Gun) (tptp.s__instance tptp.s__AutomaticGun__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AutomaticGun tptp.s__EnglishLanguage |tptp.'A &%Gun that fires a burst of &%Projectiles with each pull of the trigger. Also known as a machine gun.'|) (forall ((V__P $$unsorted) (V__T $$unsorted) (V__G $$unsorted)) (=> (and (tptp.s__instance V__G tptp.s__Object) (tptp.s__instance V__T tptp.s__Process) (tptp.s__instance V__T tptp.s__Object) (tptp.s__instance V__P tptp.s__Process)) (=> (and (tptp.s__instance V__G tptp.s__AutomaticGun) (tptp.s__instance V__P tptp.s__Pulling) (tptp.s__patient V__T tptp.s__GunTrigger) (tptp.s__part V__T V__G)) (exists ((V__S1 $$unsorted) (V__S2 $$unsorted)) (and (tptp.s__instance V__S2 tptp.s__Process) (tptp.s__instance V__S1 tptp.s__Process) (tptp.s__instance V__S1 tptp.s__Shooting) (tptp.s__instance V__S2 tptp.s__Shooting) (tptp.s__instrument V__S1 V__G) (tptp.s__instrument V__S2 V__G) (not (= V__S1 V__S2)) (tptp.s__causes V__P V__S1) (tptp.s__causes V__P V__S2)))))) (tptp.s__subclass tptp.s__ArtilleryGun tptp.s__Gun) (tptp.s__instance tptp.s__ArtilleryGun__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ArtilleryGun tptp.s__EnglishLanguage |tptp.'A &%Gun that is too large to be carried and fired by a single &%Human. Typically, &%ArtilleryGuns are on wheels.'|) (tptp.s__subclass tptp.s__Firearm tptp.s__Gun) (tptp.s__partition_3 tptp.s__Firearm tptp.s__Rifle tptp.s__Pistol) (tptp.s__documentation tptp.s__Firearm tptp.s__EnglishLanguage |tptp.'A &%Gun that is small enough to be carried and fired by a single &%Human.'|) (tptp.s__subclass tptp.s__Rifle tptp.s__Firearm) (tptp.s__instance tptp.s__Rifle__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Firearm__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Rifle tptp.s__EnglishLanguage |tptp.'A &%Firearm with a long barrel that is intended to be fired from the shoulder.'|) (tptp.s__subclass tptp.s__Pistol tptp.s__Firearm) (tptp.s__documentation tptp.s__Pistol tptp.s__EnglishLanguage |tptp.'A &%Firearm that is intended to be aimed and fired with a single hand.'|) (tptp.s__subclass tptp.s__RevolverGun tptp.s__Pistol) (tptp.s__instance tptp.s__RevolverGun__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Pistol__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__RevolverGun tptp.s__EnglishLanguage |tptp.'A &%Pistol whose magazine is a revolving cylinder with six chambers for &%Bullets.'|) (tptp.s__instance tptp.s__ContainerEmpty tptp.s__RelationalAttribute) (tptp.s__documentation tptp.s__ContainerEmpty tptp.s__EnglishLanguage |tptp.'&%ContainerEmpty is the &%Attribute of a &%Container that is empty.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Object) (=> (tptp.s__attribute V__C tptp.s__ContainerEmpty) (tptp.s__instance V__C tptp.s__Container)))) (forall ((V__C $$unsorted)) (=> (and (tptp.s__instance V__C tptp.s__SelfConnectedObject) (tptp.s__instance V__C tptp.s__Hole)) (=> (tptp.s__attribute V__C tptp.s__ContainerEmpty) (not (exists ((V__H $$unsorted) (V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__Object) (tptp.s__instance V__H tptp.s__Hole) (tptp.s__hole V__H V__C) (tptp.s__partiallyFills V__S V__C))))))) (tptp.s__instance tptp.s__ContainerFull tptp.s__RelationalAttribute) (tptp.s__contraryAttribute_2 tptp.s__ContainerFull tptp.s__ContainerEmpty) (tptp.s__documentation tptp.s__ContainerFull tptp.s__EnglishLanguage |tptp.'&%ContainerFull is the &%Attribute of a &%Container that is full to capacity.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Object) (=> (tptp.s__attribute V__C tptp.s__ContainerFull) (tptp.s__instance V__C tptp.s__Container)))) (forall ((V__C $$unsorted)) (=> (and (tptp.s__instance V__C tptp.s__SelfConnectedObject) (tptp.s__instance V__C tptp.s__Hole)) (=> (tptp.s__attribute V__C tptp.s__ContainerFull) (exists ((V__H $$unsorted) (V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__Object) (tptp.s__instance V__H tptp.s__Hole) (tptp.s__hole V__H V__C) (tptp.s__fills V__S V__C)))))) (tptp.s__subclass tptp.s__Holster tptp.s__Container) (tptp.s__instance tptp.s__Holster__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Holster tptp.s__EnglishLanguage |tptp.'A &%Container for a &%Pistol. It is generally made of Leather and worn on either the shoulder or the waist.'|) (forall ((V__H $$unsorted)) (=> (tptp.s__instance V__H tptp.s__SelfConnectedObject) (=> (tptp.s__instance V__H tptp.s__Holster) (tptp.s__hasPurpose V__H |tptp.'(? [V__P] : (s__instance(V__P,s__Object) & s__instance(V__P,s__Pistol) & s__contains(V__H,V__P)))'|)))) (tptp.s__subclass tptp.s__Wastebasket tptp.s__Container) (tptp.s__instance tptp.s__Wastebasket__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Wastebasket tptp.s__EnglishLanguage |tptp.'A &%Container which is used for trash.'|) (tptp.s__subclass tptp.s__ArrowProjectile tptp.s__Projectile) (tptp.s__instance tptp.s__ArrowProjectile__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ArrowProjectile tptp.s__EnglishLanguage |tptp.'A long, thin &%Projectile with a pointed tip is fired from a bow.'|) (tptp.s__subclass tptp.s__DriveComponent tptp.s__EngineeringComponent) (tptp.s__instance tptp.s__DriveComponent__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__DriveComponent tptp.s__EnglishLanguage |tptp.'An &%EngineeringComponent whose purpose is to transfer force from one part of a &%Device to another part.'|) (tptp.s__subclass tptp.s__PetroleumProduct tptp.s__Oil) (tptp.s__documentation tptp.s__PetroleumProduct tptp.s__EnglishLanguage |tptp.'&%PetroleumProduct is a broad class that includes both crude oil (Petroleum) and &%RefinedPetroleumProducts.'|) (forall ((V__PP $$unsorted)) (=> (tptp.s__instance V__PP tptp.s__Object) (=> (tptp.s__instance V__PP tptp.s__PetroleumProduct) (exists ((V__O $$unsorted)) (and (tptp.s__instance V__O tptp.s__Object) (tptp.s__instance V__O tptp.s__OrganicCompound) (tptp.s__part V__O V__PP)))))) (tptp.s__subclass tptp.s__FossilFuel tptp.s__Fuel) (tptp.s__instance tptp.s__FossilFuel__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Fuel__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__FossilFuel tptp.s__PetroleumProduct) (tptp.s__instance tptp.s__PetroleumProduct__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FossilFuel tptp.s__EnglishLanguage |tptp.'&%FossilFuel is the subclass of &%Fuel whose instances are derived from fossilized organic deposits, such as &%Coal and &%LiquefiedPetroleumGas.'|) (tptp.s__subclass tptp.s__Fuel tptp.s__Substance) (tptp.s__documentation tptp.s__Fuel tptp.s__EnglishLanguage |tptp.'Fuel is the class of &%Substances that can be used as resources in Combustion processes in order to produce heat. Mechanical energy can be produced by burning fuel in an &%Engine.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__FossilFuel) (tptp.s__attribute V__X tptp.s__Flammable)))) (tptp.s__subclass tptp.s__Wax tptp.s__Substance) (tptp.s__instance tptp.s__Wax__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Wax tptp.s__EnglishLanguage |tptp.'Any &%Substance of high molecular weight that resembles beeswax.'|) (tptp.s__subclass tptp.s__LiquefiedPetroleumGas tptp.s__FossilFuel) (tptp.s__instance tptp.s__LiquefiedPetroleumGas__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__LiquefiedPetroleumGas tptp.s__EnglishLanguage |tptp.'&%LiquefiedPetroleumGas is a compressed hydrocarbon gas.'|) (tptp.s__subclass tptp.s__Gasoline tptp.s__FossilFuel) (tptp.s__instance tptp.s__Gasoline__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Gasoline tptp.s__EnglishLanguage |tptp.'&%Gasoline is the subclass of RefinedPetroleumProducts that are fuels for internal combustion engines.'|) (tptp.s__subclass tptp.s__DieselFuel tptp.s__FossilFuel) (tptp.s__instance tptp.s__DieselFuel__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__DieselFuel tptp.s__EnglishLanguage |tptp.'&%DieselFuel is the subclass of RefinedPetroleumProducts that are fuels for diesel engines.'|) (tptp.s__documentation tptp.s__Transducer tptp.s__EnglishLanguage |tptp.'A &%Device which is capable of converting one form of energy into another. Formally, a &%Twoport that neither stores nor dissipates, but only transfers energy between its two ports.'|) (tptp.s__subclass tptp.s__Transducer tptp.s__Device) (tptp.s__instance tptp.s__Transducer__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Engine tptp.s__Transducer) (tptp.s__documentation tptp.s__Engine tptp.s__EnglishLanguage |tptp.'Engine is a subclass of &%Transducer. &%Engines are devices for converting some form of energy resource into mechanical power.'|) (tptp.s__documentation tptp.s__powerPlant__m tptp.s__EnglishLanguage |tptp.'(powerPlant ?GENERATOR ?THING) means that the &%Device ?GENERATOR is the power-producing component of the &%Artifact ?THING which provides the energy for its operation.'|) (tptp.s__instance tptp.s__powerPlant__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__powerPlant__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__powerPlant__m tptp.s__IrreflexiveRelation) (tptp.s__domain tptp.s__powerPlant__m |"1"| tptp.s__Device) (tptp.s__domain tptp.s__powerPlant__m |"2"| tptp.s__Artifact) (tptp.s__subrelation tptp.s__powerPlant__m tptp.s__component__m) (forall ((V__O $$unsorted) (V__G $$unsorted)) (=> (and (tptp.s__instance V__G tptp.s__Device) (tptp.s__instance V__O tptp.s__Artifact)) (=> (and (tptp.s__powerPlant V__G V__O) (tptp.s__instance V__O tptp.s__Device)) (tptp.s__instance V__O tptp.s__SelfPoweredDevice)))) (forall ((V__O $$unsorted) (V__G $$unsorted)) (=> (and (tptp.s__instance V__G tptp.s__Device) (tptp.s__instance V__O tptp.s__Artifact)) (=> (tptp.s__powerPlant V__G V__O) (or (tptp.s__instance V__G tptp.s__Engine) (tptp.s__instance V__G tptp.s__Battery))))) (tptp.s__subclass tptp.s__SteamEngine tptp.s__Engine) (tptp.s__instance tptp.s__SteamEngine__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SteamEngine tptp.s__EnglishLanguage |tptp.'&%SteamEngine is the subclass of &%Engines that produce mechanical power from heat and steam pressure.'|) (tptp.s__subclass tptp.s__Turbine tptp.s__Engine) (tptp.s__instance tptp.s__Turbine__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Engine__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Turbine tptp.s__EnglishLanguage |tptp.'An &%Engine which converts the kinetic energy of a moving &%Liquid (typically &%Water) into mechanical energy.'|) (tptp.s__subclass tptp.s__Windmill tptp.s__Engine) (tptp.s__instance tptp.s__Windmill__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Windmill tptp.s__EnglishLanguage |tptp.'Windmill is the subclass of &%Engines that produce mechanical power from &%Wind energy.'|) (tptp.s__subclass tptp.s__InternalCombustionEngine tptp.s__Engine) (tptp.s__documentation tptp.s__InternalCombustionEngine tptp.s__EnglishLanguage |tptp.'&%InternalCombustionEngine is the subclass of &%Engines in which a heat reaction that occurs inside the engine is transformed into mechanical energy.'|) (forall ((V__R $$unsorted)) (=> (tptp.s__instance V__R tptp.s__Process) (=> (tptp.s__instance V__R (tptp.s__OperatingFn tptp.s__InternalCombustionEngine)) (exists ((V__E $$unsorted) (V__C $$unsorted) (V__F $$unsorted)) (and (tptp.s__instance V__F tptp.s__Object) (tptp.s__instance V__C tptp.s__Hole) (tptp.s__instance V__E tptp.s__SelfConnectedObject) (tptp.s__instance V__E tptp.s__InternalCombustionEngine) (tptp.s__instrument V__R V__E) (tptp.s__hole V__C V__E) (tptp.s__instance V__F tptp.s__Combustion) (tptp.s__completelyFills V__F V__C)))))) (tptp.s__subclass tptp.s__Manifold tptp.s__EngineeringComponent) (tptp.s__instance tptp.s__Manifold__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Manifold tptp.s__EnglishLanguage |tptp.'A pipe which has several outlets for other pipes that flow into or out of it.'|) (tptp.s__subclass tptp.s__ElectricMotor tptp.s__Engine) (tptp.s__subclass tptp.s__ElectricMotor tptp.s__ElectricDevice) (tptp.s__instance tptp.s__ElectricMotor__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ElectricMotor tptp.s__EnglishLanguage |tptp.'&%ElectricMotor is the subclass of &%Engines that produce mechanical power from electricity.'|) (tptp.s__subclass tptp.s__SwitchDevice tptp.s__EngineeringComponent) (tptp.s__instance tptp.s__SwitchDevice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SwitchDevice tptp.s__EnglishLanguage |tptp.'An &%EngineeringComponent which is capable of turning an &%ElectricDevice on and off.'|) (forall ((V__DEVICE $$unsorted)) (=> (tptp.s__instance V__DEVICE tptp.s__Object) (=> (tptp.s__instance V__DEVICE tptp.s__SwitchDevice) (exists ((V__PROC1 $$unsorted) (V__PROC2 $$unsorted) (V__ELECTRIC $$unsorted)) (and (tptp.s__instance V__ELECTRIC tptp.s__Object) (tptp.s__instance V__PROC2 tptp.s__Process) (tptp.s__instance V__PROC1 tptp.s__Process) (tptp.s__instrument V__PROC1 V__DEVICE) (tptp.s__causes V__PROC1 V__PROC2) (tptp.s__instrument V__PROC2 V__ELECTRIC) (tptp.s__instance V__ELECTRIC tptp.s__ElectricDevice)))))) (tptp.s__subclass tptp.s__Microphone tptp.s__ElectricDevice) (tptp.s__subclass tptp.s__Microphone tptp.s__CommunicationDevice) (tptp.s__instance tptp.s__Microphone__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Microphone tptp.s__EnglishLanguage |tptp.'A &%CommunicationDevice that converts sound into electrical energy.'|) (tptp.s__subclass tptp.s__ReceiverDevice tptp.s__CommunicationDevice) (tptp.s__subclass tptp.s__ReceiverDevice tptp.s__ElectricDevice) (tptp.s__instance tptp.s__ReceiverDevice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ReceiverDevice tptp.s__EnglishLanguage |tptp.'An &%ElectricDevice that is capable of receiving and decoding &%RadioEmissions, e.g. &%Radios and &%Televisions.'|) (forall ((V__D $$unsorted) (V__E $$unsorted)) (=> (tptp.s__instance V__E tptp.s__Process) (=> (and (tptp.s__instance V__E tptp.s__RadioEmission) (tptp.s__destination V__E V__D)) (tptp.s__instance V__D tptp.s__ReceiverDevice)))) (tptp.s__subclass tptp.s__Telegraph tptp.s__ElectricDevice) (tptp.s__instance tptp.s__Telegraph__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Telegraph tptp.s__CommunicationDevice) (tptp.s__documentation tptp.s__Telegraph tptp.s__EnglishLanguage |tptp.'A &%Device that permits &%LinguisticCommunication between remote points by means of a code of aural dots and dashes that can be converted into letters of an alphabet.'|) (tptp.s__subclass tptp.s__ProjectionScreen tptp.s__CommunicationDevice) (tptp.s__instance tptp.s__ProjectionScreen__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ProjectionScreen tptp.s__EnglishLanguage |tptp.'A &%CommunicationDevice upon which images are projected so that they can be viewed.'|) (tptp.s__subclass tptp.s__Pencil tptp.s__WritingDevice) (tptp.s__instance tptp.s__Pencil__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Pencil tptp.s__EnglishLanguage |tptp.'A &%WritingDevice that consists of an encased piece of graphite.'|) (tptp.s__subclass tptp.s__DeviceAttribute tptp.s__ObjectiveNorm) (tptp.s__documentation tptp.s__DeviceAttribute tptp.s__EnglishLanguage |tptp.'This class contains &%Attributes that indicate how a &%Device is behaving with respect to some norm or expectation. Examples: &%Functioning, &%Malfunctioning.'|) (forall ((V__ATTRIBUTE $$unsorted) (V__DEVICE $$unsorted)) (=> (and (tptp.s__instance V__DEVICE tptp.s__Object) (tptp.s__instance V__ATTRIBUTE tptp.s__Attribute)) (=> (and (tptp.s__attribute V__DEVICE V__ATTRIBUTE) (tptp.s__instance V__ATTRIBUTE tptp.s__DeviceAttribute)) (tptp.s__instance V__DEVICE tptp.s__Device)))) (tptp.s__instance tptp.s__Functioning tptp.s__DeviceAttribute) (tptp.s__contraryAttribute_2 tptp.s__Functioning tptp.s__Malfunctioning) (tptp.s__documentation tptp.s__Functioning tptp.s__EnglishLanguage |tptp.'Indicates that a &%Device is performing its intended function.'|) (forall ((V__PROP $$unsorted) (V__DEVICE $$unsorted)) (=> (and (tptp.s__instance V__DEVICE tptp.s__Object) (tptp.s__instance V__PROP tptp.s__Formula)) (=> (and (tptp.s__attribute V__DEVICE tptp.s__Functioning) (tptp.s__hasPurpose V__DEVICE V__PROP)) (tptp.s__truth V__PROP |tptp.'$true__m'|)))) (tptp.s__instance tptp.s__Malfunctioning tptp.s__DeviceAttribute) (tptp.s__instance tptp.s__DeviceAttribute__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Malfunctioning tptp.s__EnglishLanguage |tptp.'Indicates that a &%Device is not performing its intended function.'|) (forall ((V__PROP $$unsorted) (V__DEVICE $$unsorted)) (=> (and (tptp.s__instance V__DEVICE tptp.s__Object) (tptp.s__instance V__PROP tptp.s__Formula)) (=> (and (tptp.s__attribute V__DEVICE tptp.s__Malfunctioning) (tptp.s__hasPurpose V__DEVICE V__PROP)) (tptp.s__truth V__PROP |tptp.'$false__m'|)))) (tptp.s__subclass tptp.s__DeviceStateAttribute tptp.s__InternalAttribute) (tptp.s__documentation tptp.s__DeviceStateAttribute tptp.s__EnglishLanguage |tptp.'&%DeviceStateAttribute is the class of attributes that represent different states that a Device may be in. Examples: &%DeviceOff, &%DeviceOn, &%DeviceOpen, and &%DeviceClosed.'|) (tptp.s__instance tptp.s__DeviceClosed tptp.s__DeviceStateAttribute) (tptp.s__instance tptp.s__DeviceOff tptp.s__DeviceStateAttribute) (tptp.s__instance tptp.s__DeviceOn tptp.s__DeviceStateAttribute) (tptp.s__instance tptp.s__DeviceOpen tptp.s__DeviceStateAttribute) (tptp.s__instance tptp.s__DeviceStateAttribute__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__deviceState__m tptp.s__EnglishLanguage |tptp.'(deviceState ?DEVICE ?STATE) means that the &%Object ?DEVICE is in the &%DeviceStateAttribute ?STATE.'|) (tptp.s__instance tptp.s__deviceState__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__deviceState__m |"1"| tptp.s__Object) (tptp.s__domain tptp.s__deviceState__m |"2"| tptp.s__DeviceStateAttribute) (tptp.s__subrelation tptp.s__deviceState__m tptp.s__attribute__m) (tptp.s__subclass tptp.s__Aerator tptp.s__Device) (tptp.s__instance tptp.s__Aerator__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Aerator tptp.s__EnglishLanguage |tptp.'A &%Device whose purpose is to mix &%Substances with &%Air.'|) (forall ((V__AERATOR $$unsorted)) (=> (tptp.s__instance V__AERATOR tptp.s__Object) (=> (tptp.s__instance V__AERATOR tptp.s__Aerator) (tptp.s__hasPurpose V__AERATOR |tptp.'(? [V__COMBINE,V__AIR] : (s__instance(V__AIR,s__Object) & s__instance(V__COMBINE,s__Process) & s__instance(V__COMBINE,s__Combining) & s__resource(V__COMBINE,V__AIR) & s__instance(V__AIR,s__Air) & s__instrument(V__COMBINE,V__AERATOR)))'|)))) (tptp.s__subclass tptp.s__Aerating tptp.s__Combining) (tptp.s__instance tptp.s__Aerating__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Aerating tptp.s__EnglishLanguage |tptp.'Combining a substance with &%Air.'|) (forall ((V__AERATE $$unsorted)) (=> (tptp.s__instance V__AERATE tptp.s__Process) (=> (tptp.s__instance V__AERATE tptp.s__Aerating) (exists ((V__AIR $$unsorted) (V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__Object) (tptp.s__patient V__AERATE V__AIR) (tptp.s__instance V__AIR tptp.s__Air) (tptp.s__patient V__AERATE V__S) (tptp.s__attribute V__S tptp.s__Liquid)))))) (tptp.s__subclass tptp.s__Broom tptp.s__BrushOrComb) (tptp.s__instance tptp.s__Broom__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__BrushOrComb__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Broom tptp.s__EnglishLanguage |tptp.'A &%BrushOrComb whose purpose is to remove dirt and other small particles from floors.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Object) (=> (tptp.s__instance V__B tptp.s__Broom) (tptp.s__hasPurpose V__B |tptp.'(? [V__S] : (s__instance(V__S,s__Process) & s__instance(V__S,s__Sweeping) & s__instrument(V__S,V__B)))'|)))) (tptp.s__subclass tptp.s__BrushOrComb tptp.s__Device) (tptp.s__documentation tptp.s__BrushOrComb tptp.s__EnglishLanguage |tptp.'A &%Device which consists of a handle and bristles and whose purpose is to remove particles from something or to smooth something out.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Object) (=> (tptp.s__instance V__B tptp.s__BrushOrComb) (tptp.s__hasPurpose V__B |tptp.'(? [V__S] : (s__instance(V__S,s__Process) & (s__instance(V__S,s__Removing) _ s__instance(V__S,s__SurfaceChange)) & s__instrument(V__S,V__B)))'|)))) (tptp.s__subclass tptp.s__MatchDevice tptp.s__Device) (tptp.s__instance tptp.s__MatchDevice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MatchDevice tptp.s__EnglishLanguage |tptp.'A small stick of carboard or wood that is treated with chemicals that can be easily ignited with friction. MatchDevices are used for starting fires.'|) (forall ((V__M $$unsorted)) (=> (tptp.s__instance V__M tptp.s__Object) (=> (tptp.s__instance V__M tptp.s__MatchDevice) (tptp.s__capability (tptp.s__StartFn tptp.s__Combustion) tptp.s__instrument__m V__M)))) (tptp.s__subclass tptp.s__VendingDevice tptp.s__Device) (tptp.s__instance tptp.s__VendingDevice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__VendingDevice tptp.s__EnglishLanguage |tptp.'A &%Device which is capable of &%Selling a &%Product to a customer automatically when the customer inserts the appropriate amount of Currency.'|) (forall ((V__VD $$unsorted)) (=> (tptp.s__instance V__VD tptp.s__Object) (=> (tptp.s__instance V__VD tptp.s__VendingDevice) (tptp.s__hasPurpose V__VD |tptp.'(? [V__T,V__C,V__P] : (s__instance(V__T,s__Process) & s__instance(V__T,s__FinancialTransaction) & s__instrument(V__T,V__VD) & s__patient(V__T,V__C) & s__instance(V__C,s__Currency) & s__patient(V__T,V__P) & s__instance(V__P,s__Product)))'|)))) (tptp.s__subclass tptp.s__WritingDevice tptp.s__Device) (tptp.s__instance tptp.s__WritingDevice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__WritingDevice tptp.s__EnglishLanguage |tptp.'A &%Device whose purpose is to be an instrument of &%Writing, e.g. pens, pencils, crayons, etc.'|) (forall ((V__D $$unsorted)) (=> (tptp.s__instance V__D tptp.s__Object) (=> (tptp.s__instance V__D tptp.s__WritingDevice) (tptp.s__hasPurpose V__D |tptp.'(? [V__W] : (s__instance(V__W,s__Process) & s__instance(V__W,s__Writing) & s__instrument(V__W,V__D)))'|)))) (tptp.s__subclass tptp.s__SmokingDevice tptp.s__Device) (tptp.s__documentation tptp.s__SmokingDevice tptp.s__EnglishLanguage |tptp.'Any Device whose purpose is &%Smoking.'|) (forall ((V__D $$unsorted)) (=> (tptp.s__instance V__D tptp.s__Object) (=> (tptp.s__instance V__D tptp.s__SmokingDevice) (tptp.s__hasPurpose V__D |tptp.'(? [V__S] : (s__instance(V__S,s__Process) & s__instance(V__S,s__Smoking) & s__instrument(V__S,V__D)))'|)))) (tptp.s__subclass tptp.s__SmokingPipe tptp.s__SmokingDevice) (tptp.s__instance tptp.s__SmokingPipe__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__SmokingDevice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SmokingPipe tptp.s__EnglishLanguage |tptp.'A &%SmokingDevice consisting of a tube and a small bowl.'|) (tptp.s__subclass tptp.s__Shower tptp.s__BathingDevice) (tptp.s__instance tptp.s__Shower__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Shower tptp.s__EnglishLanguage |tptp.'&%Shower refers to a plumbing fixture that sprays water over you.'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Shower tptp.shower) (forall ((V__SHOWER $$unsorted)) (=> (tptp.s__instance V__SHOWER tptp.s__Object) (=> (tptp.s__instance V__SHOWER tptp.s__Shower) (tptp.s__hasPurpose V__SHOWER |tptp.'(? [V__SPRAY] : (s__instance(V__SPRAY,s__Process) & s__instance(V__SPRAY,s__WaterMotion) & s__origin(V__SPRAY,V__SHOWER)))'|)))) (forall ((V__SHOWER $$unsorted)) (=> (tptp.s__instance V__SHOWER tptp.s__Object) (=> (tptp.s__instance V__SHOWER tptp.s__Shower) (exists ((V__X $$unsorted) (V__FLOOR $$unsorted)) (and (tptp.s__instance V__FLOOR tptp.s__Object) (tptp.s__instance V__X tptp.s__Object) (or (tptp.s__instance V__X tptp.s__Wall) (tptp.s__instance V__X tptp.s__Ceiling)) (tptp.s__connected V__SHOWER V__X) (tptp.s__instance V__FLOOR tptp.s__Floor) (tptp.s__orientation V__SHOWER V__FLOOR tptp.s__Above)))))) (tptp.s__subclass tptp.s__BathTub tptp.s__BathingDevice) (tptp.s__instance tptp.s__BathingDevice__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__BathTub tptp.s__FluidContainer) (tptp.s__documentation tptp.s__BathTub tptp.s__BathingDevice |tptp.'&%BathTub refers to a &%BathingDevice that you can fill with water to use to watch the body'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__BathTub tptp.tub) (forall ((V__TUB $$unsorted)) (=> (tptp.s__instance V__TUB tptp.s__SelfConnectedObject) (=> (tptp.s__instance V__TUB tptp.s__BathTub) (tptp.s__hasPurpose V__TUB |tptp.'(? [V__WATER] : (s__instance(V__WATER,s__Object) & s__instance(V__WATER,s__Water) & s__contains(V__TUB,V__WATER)))'|)))) (tptp.s__subclass tptp.s__Excrement tptp.s__BodySubstance) (tptp.s__documentation tptp.s__Excrement tptp.s__EnglishLanguage |tptp.'&%Excrement refers to the waste matter that is discharged from the body'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Excrement tptp.excrement) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Excrement) (exists ((V__PROC $$unsorted) (V__ORG $$unsorted)) (and (tptp.s__instance V__ORG tptp.s__Agent) (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__ORG tptp.s__Organism) (tptp.s__instance V__PROC tptp.s__PhysiologicProcess) (tptp.s__result V__PROC V__X) (tptp.s__agent V__PROC V__ORG))))) (tptp.s__subclass tptp.s__Feces tptp.s__Excrement) (tptp.s__instance tptp.s__Feces__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Excrement__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Feces tptp.s__EnglishLanguage |tptp.'&%Feces is a type of &%Solid &%Excrement evacuated from the bowels'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Feces tptp.feces) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__Feces) (tptp.s__attribute V__X tptp.s__Solid)))) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Feces) (exists ((V__PROC $$unsorted) (V__INT $$unsorted)) (and (tptp.s__instance V__INT tptp.s__Object) (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__PROC tptp.s__PhysiologicProcess) (tptp.s__instrument V__PROC V__INT) (tptp.s__instance V__INT tptp.s__Intestine) (tptp.s__result V__PROC V__X))))) (tptp.s__subclass tptp.s__Urine tptp.s__Excrement) (tptp.s__instance tptp.s__Urine__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Urine tptp.s__EnglishLanguage |tptp.'&%Urine is a type of &%Liquid &%Excrement that is secreted by the &%Kidney'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Urine tptp.urine) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__Urine) (tptp.s__attribute V__X tptp.s__Solid)))) (forall ((V__PROX $$unsorted) (V__X $$unsorted)) (=> (tptp.s__instance V__PROX tptp.s__Process) (=> (tptp.s__instance V__X tptp.s__Urine) (exists ((V__PROC $$unsorted) (V__KIDNEY $$unsorted)) (and (tptp.s__instance V__KIDNEY tptp.s__Object) (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__PROC tptp.s__PhysiologicProcess) (tptp.s__instrument V__PROC V__KIDNEY) (tptp.s__instance V__KIDNEY tptp.s__Kidney) (tptp.s__result V__PROX V__X)))))) (tptp.s__subclass tptp.s__Excretion tptp.s__OrganismProcess) (tptp.s__documentation tptp.s__Excretion tptp.s__EnglishLanguage |tptp.'&%Excretion is a type of &%OrganismProcess that discharges waste from tissues, organs or the body'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Excretion tptp.excretion) (forall ((V__PROC $$unsorted)) (=> (tptp.s__instance V__PROC tptp.s__Process) (=> (tptp.s__instance V__PROC tptp.s__Excretion) (exists ((V__ORG $$unsorted) (V__WASTE $$unsorted) (V__PART $$unsorted)) (and (tptp.s__instance V__PART tptp.s__Object) (tptp.s__instance V__ORG tptp.s__Agent) (tptp.s__instance V__ORG tptp.s__Organism) (tptp.s__agent V__PROC V__ORG) (tptp.s__patient V__PROC V__WASTE) (tptp.s__instance V__WASTE tptp.s__Excrement) (tptp.s__instance V__PART tptp.s__BodyPart) (tptp.s__instrument V__PROC V__PART)))))) (tptp.s__subclass tptp.s__Urination tptp.s__Excretion) (tptp.s__instance tptp.s__Urination__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Excretion__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Urination tptp.s__EnglishLanguage |tptp.'&%Urination is a type of &%Excretion that discharges &%Urine'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Urination tptp.urination) (forall ((V__PROC $$unsorted)) (=> (tptp.s__instance V__PROC tptp.s__Process) (=> (tptp.s__instance V__PROC tptp.s__Urination) (exists ((V__URINE $$unsorted)) (and (tptp.s__instance V__URINE tptp.s__Urine) (tptp.s__patient V__PROC V__URINE)))))) (tptp.s__subclass tptp.s__Defecation tptp.s__Excretion) (tptp.s__instance tptp.s__Defecation__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Defecation tptp.s__EnglishLanguage |tptp.'&%Defecation is a type of &%Excretion that discharges &%Feces'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Defecation tptp.defecation) (forall ((V__PROC $$unsorted)) (=> (tptp.s__instance V__PROC tptp.s__Process) (=> (tptp.s__instance V__PROC tptp.s__Defecation) (exists ((V__FECES $$unsorted)) (and (tptp.s__instance V__FECES tptp.s__Feces) (tptp.s__patient V__PROC V__FECES)))))) (tptp.s__subclass tptp.s__Sewage tptp.s__Mixture) (tptp.s__instance tptp.s__Sewage__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sewage tptp.s__EnglishLanguage |tptp.'The byproduct of &%Animal digestion. Sewage is a waste product that is removed from the body of an animal by a normally functioning &%BiologicalProcess. Sewage consists largely of substances which the animal cannot digest, or may be harmful, so the breakdown of the biological waste removal process can be evidence or cause of a &%DiseaseOrSyndrome.'|) (forall ((V__D $$unsorted) (V__ANI $$unsorted)) (=> (and (tptp.s__instance V__ANI tptp.s__Agent) (tptp.s__instance V__D tptp.s__Attribute)) (=> (and (tptp.s__instance V__ANI tptp.s__Animal) (tptp.s__instance V__D tptp.s__DiseaseOrSyndrome) (not (tptp.s__attribute V__ANI V__D))) (exists ((V__P $$unsorted) (V__W $$unsorted)) (and (tptp.s__instance V__P tptp.s__Process) (tptp.s__instance V__P tptp.s__BiologicalProcess) (tptp.s__instance V__P tptp.s__Removing) (tptp.s__origin V__P V__ANI) (tptp.s__instance V__W tptp.s__Sewage) (tptp.s__agent V__P V__ANI) (tptp.s__patient V__P V__W)))))) (tptp.s__subclass tptp.s__Bidet tptp.s__WashingDevice) (tptp.s__instance tptp.s__Bidet__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Bidet tptp.s__EnglishLanguage |tptp.'&%Bidet is a &%WashingDevice intended for washing genitals and the anal area while on the toilet'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Bidet tptp.bidet) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__Bidet) (tptp.s__hasPurpose V__X |tptp.'(? [V__PROC,V__WASH,V__PART] : (s__instance(V__PART,s__Object) & s__instance(V__WASH,s__Process) & s__instance(V__PROC,s__Process) & (s__instance(V__PROC,s__Defecation) _ s__instance(V__PROC,s__Urination)) & s__instrument(V__PROC,V__PART) & s__instance(V__WASH,s__Washing) & s__patient(V__WASH,V__PART) & s__instrument(V__WASH,V__X) & s__before(s__BeginFn(s__WhenFn(V__PROC)),s__BeginFn(s__WhenFn(V__WASH)))))'|)))) (tptp.s__subclass tptp.s__Toilet tptp.s__Device) (tptp.s__instance tptp.s__Toilet__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Toilet tptp.s__EnglishLanguage |tptp.'A &%Device for the disposal of wastes resulting from urination and defecation.'|) (forall ((V__R $$unsorted) (V__T $$unsorted)) (=> (and (tptp.s__instance V__T tptp.s__Physical) (tptp.s__instance V__R tptp.s__Object)) (=> (and (tptp.s__located V__T V__R) (tptp.s__instance V__T tptp.s__Toilet) (tptp.s__instance V__R tptp.s__Room)) (tptp.s__instance V__R tptp.s__Bathroom)))) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Physical) (=> (tptp.s__instance V__X tptp.s__Toilet) (tptp.s__hasPurpose V__X |tptp.'(? [V__PROC] : (s__instance(V__PROC,s__Process) & (s__instance(V__PROC,s__Defecation) _ s__instance(V__PROC,s__Urination)) & s__destination(V__PROC,V__X)))'|)))) (tptp.s__subclass tptp.s__Toothbrush tptp.s__BrushOrComb) (tptp.s__instance tptp.s__Toothbrush__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Toothbrush tptp.s__EnglishLanguage |tptp.'A small &%BrushOrComb with relatively soft bristles and a long handle, used for brushing teeth (see &%Tooth). It is used help control bacteria living in the mouth. While most typically used by humans on themselves, it can be used by &%Dentists on their patients and by adults assisting children. They are occasionally used by humans caring for pets, zoo animals and valuable livestock.'|) (forall ((V__TOOTH $$unsorted) (V__B $$unsorted) (V__T $$unsorted)) (=> (tptp.s__instance V__T tptp.s__Object) (=> (tptp.s__instance V__T tptp.s__Toothbrush) (tptp.s__hasPurpose V__T |tptp.'(? [V__K] : (s__instance(V__K,s__Process) & s__instance(V__TOOTH,s__Tooth) & s__instrument(V__K,V__T) & s__instance(V__K,s__Killing) & s__instance(V__B,s__Bacterium) & s__patient(V__K,V__B) & s__patient(V__K,V__TOOTH)))'|)))) (tptp.s__subclass tptp.s__CigarOrCigarette tptp.s__SmokingDevice) (tptp.s__instance tptp.s__CigarOrCigarette__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__CigarOrCigarette tptp.s__EnglishLanguage |tptp.'A tube of thin paper containing finely ground tobacco that is smoked.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Object) (=> (tptp.s__instance V__C tptp.s__CigarOrCigarette) (exists ((V__T $$unsorted)) (and (tptp.s__instance V__T tptp.s__Object) (tptp.s__instance V__T tptp.s__Tobacco) (tptp.s__part V__T V__C)))))) (tptp.s__subclass tptp.s__Tableware tptp.s__Device) (tptp.s__instance tptp.s__Tableware__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Tableware tptp.s__EnglishLanguage |tptp.'&%Devices that are used in &%Ingesting (&%Eating and/or &%Drinking) a meal. This coves dishware, flatware, and glassware.'|) (forall ((V__T $$unsorted)) (=> (tptp.s__instance V__T tptp.s__Object) (=> (tptp.s__instance V__T tptp.s__Tableware) (tptp.s__hasPurpose V__T |tptp.'(? [V__I] : (s__instance(V__I,s__Process) & s__instance(V__I,s__Ingesting) & s__instrument(V__I,V__T)))'|)))) (tptp.s__subclass tptp.s__Compass tptp.s__Device) (tptp.s__subclass tptp.s__Compass tptp.s__ContentBearingObject) (tptp.s__instance tptp.s__Compass__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Compass tptp.s__EnglishLanguage |tptp.'A &%Device that indicates the direction of the various &%DirectionalAttributes with respect to the device.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Compass) (exists ((V__D $$unsorted)) (and (tptp.s__instance V__D tptp.s__DirectionalAttribute) (tptp.s__represents V__C V__D))))) (tptp.s__subclass tptp.s__MajorAppliance tptp.s__Device) (tptp.s__subclass tptp.s__Refrigerator tptp.s__MajorAppliance) (tptp.s__instance tptp.s__Refrigerator__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Freezer tptp.s__MajorAppliance) (tptp.s__instance tptp.s__Freezer__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__CookingRange tptp.s__MajorAppliance) (tptp.s__instance tptp.s__CookingRange__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__CookingOven tptp.s__MajorAppliance) (tptp.s__instance tptp.s__CookingOven__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__MajorAppliance__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__HotWaterHeater tptp.s__MajorAppliance) (tptp.s__instance tptp.s__HotWaterHeater__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__ClothesWashingMachine tptp.s__MajorAppliance) (tptp.s__instance tptp.s__ClothesWashingMachine__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__ClothesDryer tptp.s__MajorAppliance) (tptp.s__subclass tptp.s__Dishwasher tptp.s__MajorAppliance) (tptp.s__instance tptp.s__Dishwasher__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__CoolingDevice tptp.s__Device) (tptp.s__documentation tptp.s__CoolingDevice tptp.s__EnglishLanguage |tptp.'A &%Device whose purpose is &%Cooling something, e.g. air conditioners, refrigerators, freezers, etc.'|) (forall ((V__D $$unsorted)) (=> (tptp.s__instance V__D tptp.s__Object) (=> (tptp.s__instance V__D tptp.s__CoolingDevice) (tptp.s__hasPurpose V__D |tptp.'(? [V__C] : (s__instance(V__C,s__Process) & s__instance(V__C,s__Cooling) & s__instrument(V__C,V__D)))'|)))) (tptp.s__subclass tptp.s__FanDevice tptp.s__CoolingDevice) (tptp.s__instance tptp.s__FanDevice__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__CoolingDevice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FanDevice tptp.s__EnglishLanguage |tptp.'A &%CoolingDevice which consists simply of one or more blades that circulate the air. Note that this class covers both electrical fans and fans that are manually operated.'|) (forall ((V__F $$unsorted)) (=> (tptp.s__instance V__F tptp.s__Object) (=> (tptp.s__instance V__F tptp.s__FanDevice) (tptp.s__hasPurpose V__F |tptp.'(? [V__W] : (s__instance(V__W,s__Process) & s__instance(V__W,s__Wind) & s__instrument(V__W,V__F)))'|)))) (tptp.s__subclass tptp.s__HeatingDevice tptp.s__Device) (tptp.s__documentation tptp.s__HeatingDevice tptp.s__EnglishLanguage |tptp.'A &%Device whose purpose is &%Heating something, e.g. electric heaters, heat lamps, ovens, stoves, etc.'|) (forall ((V__D $$unsorted)) (=> (tptp.s__instance V__D tptp.s__Object) (=> (tptp.s__instance V__D tptp.s__HeatingDevice) (tptp.s__hasPurpose V__D |tptp.'(? [V__H] : (s__instance(V__H,s__Process) & s__instance(V__H,s__Heating) & s__instrument(V__H,V__D)))'|)))) (tptp.s__subclass tptp.s__Oven tptp.s__HeatingDevice) (tptp.s__subclass tptp.s__Oven tptp.s__Container) (tptp.s__instance tptp.s__Oven__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Oven tptp.s__EnglishLanguage |tptp.'A &%HeatingDevice with a door for inserting and removing &%Food that is to undergo &%Baking.'|) (forall ((V__O $$unsorted)) (=> (tptp.s__instance V__O tptp.s__Object) (=> (tptp.s__instance V__O tptp.s__Oven) (tptp.s__hasPurpose V__O |tptp.'(? [V__C] : (s__instance(V__C,s__Process) & s__instance(V__C,s__Cooking) & s__instrument(V__C,V__O)))'|)))) (tptp.s__subclass tptp.s__Stove tptp.s__HeatingDevice) (tptp.s__instance tptp.s__Stove__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__HeatingDevice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Stove tptp.s__EnglishLanguage |tptp.'A &%HeatingDevice which consists one or more burners for heating pots and pans of &%Food.'|) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Object) (=> (tptp.s__instance V__S tptp.s__Stove) (tptp.s__hasPurpose V__S |tptp.'(? [V__C] : (s__instance(V__C,s__Process) & s__instance(V__C,s__Cooking) & s__instrument(V__C,V__S)))'|)))) (tptp.s__subclass tptp.s__Refrigerator tptp.s__CoolingDevice) (tptp.s__subclass tptp.s__Refrigerator tptp.s__ElectricDevice) (tptp.s__subclass tptp.s__Refrigerator tptp.s__Container) (tptp.s__documentation tptp.s__Refrigerator tptp.s__EnglishLanguage |tptp.'The intersection of &%Containers and &%ElectricDevices in which the temperature is reduced from that of the outside air by a &%Cooling process.'|) (tptp.s__subclass tptp.s__PotOrPan tptp.s__Container) (tptp.s__instance tptp.s__PotOrPan__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PotOrPan tptp.s__EnglishLanguage |tptp.'A &%Container which has a handle and is used for &%Cooking.'|) (forall ((V__P $$unsorted)) (=> (tptp.s__instance V__P tptp.s__Object) (=> (tptp.s__instance V__P tptp.s__PotOrPan) (tptp.s__hasPurpose V__P |tptp.'(? [V__C] : (s__instance(V__C,s__Process) & s__instance(V__C,s__Cooking) & s__instrument(V__C,V__P)))'|)))) (tptp.s__subclass tptp.s__Ramp tptp.s__SelfConnectedObject) (tptp.s__instance tptp.s__Ramp__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Ramp tptp.s__EnglishLanguage |tptp.'Ramp is the class of &%SelfConnectedObjects that are inclined planes used for moving objects from one level to another, especially used for wheeled vehicles and people who cannot climb stairs.'|) (forall ((V__R $$unsorted)) (=> (tptp.s__instance V__R tptp.s__Object) (=> (tptp.s__instance V__R tptp.s__Ramp) (tptp.s__capability tptp.s__MotionUpward tptp.s__path__m V__R)))) (forall ((V__R $$unsorted)) (=> (tptp.s__instance V__R tptp.s__Object) (=> (tptp.s__instance V__R tptp.s__Ramp) (tptp.s__capability tptp.s__MotionDownward tptp.s__path__m V__R)))) (tptp.s__subclass tptp.s__RecreationOrExerciseDevice tptp.s__Device) (tptp.s__documentation tptp.s__RecreationOrExerciseDevice tptp.s__EnglishLanguage |tptp.'A &%Device whose purpose is &%RecreationOrExercise.'|) (forall ((V__D $$unsorted)) (=> (tptp.s__instance V__D tptp.s__Object) (=> (tptp.s__instance V__D tptp.s__RecreationOrExerciseDevice) (tptp.s__hasPurpose V__D |tptp.'(? [V__E] : (s__instance(V__E,s__Process) & s__instance(V__E,s__RecreationOrExercise) & s__instrument(V__E,V__D)))'|)))) (tptp.s__subclass tptp.s__WalkingCane tptp.s__Device) (tptp.s__instance tptp.s__WalkingCane__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__WalkingCane tptp.s__EnglishLanguage |tptp.'A &%Device which has the form of a staff with a handle and which enables some people to walk with greater assurance.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Object) (=> (tptp.s__instance V__C tptp.s__WalkingCane) (tptp.s__hasPurpose V__C |tptp.'(? [V__W] : (s__instance(V__W,s__Process) & s__instance(V__W,s__Walking) & s__instrument(V__W,V__C)))'|)))) (tptp.s__subclass tptp.s__WashingDevice tptp.s__Device) (tptp.s__documentation tptp.s__WashingDevice tptp.s__EnglishLanguage |tptp.'Any &%Device whose purpose is &%Washing something, e.g. washing machines, dishwashers, bathtubs, etc.'|) (forall ((V__D $$unsorted)) (=> (tptp.s__instance V__D tptp.s__Object) (=> (tptp.s__instance V__D tptp.s__WashingDevice) (tptp.s__hasPurpose V__D |tptp.'(? [V__W] : (s__instance(V__W,s__Process) & s__instance(V__W,s__Washing) & s__instrument(V__W,V__D)))'|)))) (tptp.s__subclass tptp.s__MaterialHandlingEquipment tptp.s__Device) (tptp.s__documentation tptp.s__MaterialHandlingEquipment tptp.s__EnglishLanguage |tptp.'&%MaterialHandlingEquipment is a class of &%Devices that are equipment used for handling goods and supplies more efficiently or safely. Examples are cranes, hoists, forklifts, conveyors, racks, etc.'|) (tptp.s__subclass tptp.s__Crane tptp.s__MaterialHandlingEquipment) (tptp.s__instance tptp.s__Crane__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__MaterialHandlingEquipment__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Crane tptp.s__EnglishLanguage |tptp.'Crane is a subclass of mechanical &%Devices that consist of a &%HoistingDevice on a moveable boom, designed to assist in moving heavy loads.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__CorpuscularObject) (=> (tptp.s__instance V__C tptp.s__Crane) (exists ((V__H $$unsorted)) (and (tptp.s__instance V__H tptp.s__CorpuscularObject) (tptp.s__instance V__H tptp.s__HoistingDevice) (tptp.s__component V__H V__C)))))) (tptp.s__subclass tptp.s__HoistingDevice tptp.s__MaterialHandlingEquipment) (tptp.s__instance tptp.s__HoistingDevice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__HoistingDevice tptp.s__EnglishLanguage |tptp.'&%HoistingDevice is a subclass of mechanical &%Devices that provide a mechanical advantage in lifting and lowering, e.g., by use of a block and tackle.'|) (forall ((V__H $$unsorted)) (=> (tptp.s__instance V__H tptp.s__Object) (=> (tptp.s__instance V__H tptp.s__HoistingDevice) (tptp.s__capability tptp.s__MotionUpward tptp.s__instrument__m V__H)))) (forall ((V__H $$unsorted)) (=> (tptp.s__instance V__H tptp.s__Object) (=> (tptp.s__instance V__H tptp.s__HoistingDevice) (tptp.s__capability tptp.s__MotionDownward tptp.s__instrument__m V__H)))) (tptp.s__subclass tptp.s__OpticalDevice tptp.s__Device) (tptp.s__documentation tptp.s__OpticalDevice tptp.s__EnglishLanguage |tptp.'A &%Device which enables someone to see something more clearly or with greater magnification.'|) (forall ((V__D $$unsorted)) (=> (tptp.s__instance V__D tptp.s__Object) (=> (tptp.s__instance V__D tptp.s__OpticalDevice) (tptp.s__hasPurpose V__D |tptp.'(? [V__S] : (s__instance(V__S,s__Process) & s__instance(V__S,s__Seeing) & s__instrument(V__S,V__D)))'|)))) (tptp.s__subclass tptp.s__EyeGlass tptp.s__OpticalDevice) (tptp.s__instance tptp.s__EyeGlass__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__EyeGlass tptp.s__EnglishLanguage |tptp.'A lens or pair of lenses with or without frames whose purpose is to to correct a defect in vision. This class covers ordinary eye glasses, reading glasses, contact lenses, monocles, etc.'|) (tptp.s__subclass tptp.s__Lens tptp.s__OpticalDevice) (tptp.s__instance tptp.s__Lens__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Lens tptp.s__EnglishLanguage |tptp.'An &%OpticalDevice which consists of a polished, transparent piece of glass or plastic. Lenses are often part of other &%OpticalDevices.'|) (tptp.s__subclass tptp.s__Microscope tptp.s__OpticalDevice) (tptp.s__instance tptp.s__Microscope__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__OpticalDevice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Microscope tptp.s__EnglishLanguage |tptp.'An &%OpticalDevice with a stand and a focus, which is used for magnifying the images of things that are placed in the stand.'|) (tptp.s__subclass tptp.s__Filter tptp.s__Device) (tptp.s__instance tptp.s__Filter__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Filter tptp.s__EnglishLanguage |tptp.'A &%Device whose purpose is to remove part of a &%Mixture that is passed through the &%Filter.'|) (forall ((V__FILTER $$unsorted)) (=> (tptp.s__instance V__FILTER tptp.s__Object) (=> (tptp.s__instance V__FILTER tptp.s__Filter) (tptp.s__hasPurpose V__FILTER |tptp.'(? [V__REMOVE,V__M] : (s__instance(V__M,s__Object) & s__instance(V__REMOVE,s__Process) & s__instance(V__REMOVE,s__Removing) & s__origin(V__REMOVE,V__M) & s__instance(V__M,s__Mixture) & s__instrument(V__REMOVE,V__FILTER)))'|)))) (tptp.s__subclass tptp.s__FileDevice tptp.s__Device) (tptp.s__instance tptp.s__FileDevice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FileDevice tptp.s__EnglishLanguage |tptp.'A &%Device whose purpose is to make something smoother. For example, a nail file is used to even out the tips of ones finger nails.'|) (forall ((V__DEVICE $$unsorted)) (=> (tptp.s__instance V__DEVICE tptp.s__Object) (=> (tptp.s__instance V__DEVICE tptp.s__FileDevice) (tptp.s__capability tptp.s__SurfaceChange tptp.s__instrument__m V__DEVICE)))) (tptp.s__subclass tptp.s__ElectricDevice tptp.s__Device) (tptp.s__documentation tptp.s__ElectricDevice tptp.s__EnglishLanguage |tptp.'A &%Device that uses &%Electricity as its primary power source.'|) (forall ((V__DEV $$unsorted) (V__EV $$unsorted)) (=> (tptp.s__instance V__DEV tptp.s__Object) (=> (and (tptp.s__instance V__DEV tptp.s__ElectricDevice) (tptp.s__instance V__EV tptp.s__Process) (tptp.s__instrument V__EV V__DEV)) (exists ((V__R $$unsorted)) (and (tptp.s__instance V__R tptp.s__Object) (tptp.s__instance V__R tptp.s__Electricity) (tptp.s__resource V__EV V__R)))))) (tptp.s__subclass tptp.s__Electricity tptp.s__Substance) (tptp.s__instance tptp.s__Electricity__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Electricity tptp.s__EnglishLanguage |tptp.'While electricity is typically thought of as just a difference in electrical potential, one way of modeling electricity is as a substance that can be moved from one point to another or consumed. One could make the claim that subatomic physics also supports the classification as a substance since electrons are objects.'|) (tptp.s__documentation tptp.s__PowerSource tptp.s__EnglishLanguage |tptp.'A source of electrical power.'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__PowerSource |tptp.'power source'|) (tptp.s__subclass tptp.s__PowerSource tptp.s__Device) (forall ((V__PS $$unsorted)) (=> (tptp.s__instance V__PS tptp.s__Object) (=> (tptp.s__instance V__PS tptp.s__PowerSource) (exists ((V__RE $$unsorted)) (and (tptp.s__instance V__RE tptp.s__Process) (tptp.s__instance V__RE tptp.s__RadiatingElectromagnetic) (tptp.s__origin V__RE V__PS)))))) (tptp.s__documentation tptp.s__DCPowerSource tptp.s__EnglishLanguage |tptp.'A direct-current &%PowerSource.'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__DCPowerSource |tptp.'DC power source'|) (tptp.s__subclass tptp.s__DCPowerSource tptp.s__PowerSource) (tptp.s__instance tptp.s__DCPowerSource__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Battery tptp.s__DCPowerSource) (tptp.s__instance tptp.s__Battery__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Battery tptp.s__ElectricDevice) (tptp.s__documentation tptp.s__Battery tptp.s__EnglishLanguage |tptp.'Battery is a subclass of &%Device. Batteries are devices that use chemical means to store or produce electrical power.'|) (tptp.s__subclass tptp.s__Radar tptp.s__ElectricDevice) (tptp.s__instance tptp.s__Radar__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Radar tptp.s__EnglishLanguage |tptp.'An &%ElectricDevice that emits and receives microwave radiation for the purpose of locating and tracking distant objects.'|) (forall ((V__RADAR $$unsorted)) (=> (tptp.s__instance V__RADAR tptp.s__Object) (=> (tptp.s__instance V__RADAR tptp.s__Radar) (tptp.s__hasPurpose V__RADAR |tptp.'(? [V__DISCOVER] : (s__instance(V__DISCOVER,s__Process) & s__instance(V__DISCOVER,s__Discovering) & s__instrument(V__DISCOVER,V__RADAR)))'|)))) (forall ((V__RADAR $$unsorted)) (=> (tptp.s__instance V__RADAR tptp.s__Object) (=> (tptp.s__instance V__RADAR tptp.s__Radar) (tptp.s__capability tptp.s__RadiatingElectromagnetic tptp.s__agent__m V__RADAR)))) (tptp.s__instance tptp.s__discovers__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__discovers__m |"1"| tptp.s__Agent) (tptp.s__domain tptp.s__discovers__m |"2"| tptp.s__Object) (tptp.s__documentation tptp.s__discovers__m tptp.s__EnglishLanguage |tptp.'(discovers ?AGENT ?OBJECT) means that the &%Agent ?AGENT discovered the &%Object ?OBJECT.'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__discovers__m tptp.discovers) (forall ((V__OBJECT $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__OBJECT tptp.s__Object)) (=> (tptp.s__discovers V__AGENT V__OBJECT) (exists ((V__DISCOVERING $$unsorted)) (and (tptp.s__instance V__DISCOVERING tptp.s__Process) (tptp.s__instance V__DISCOVERING tptp.s__Discovering) (tptp.s__agent V__DISCOVERING V__AGENT) (tptp.s__patient V__DISCOVERING V__OBJECT)))))) (tptp.s__subclass tptp.s__Sonar tptp.s__CorpuscularObject) (tptp.s__instance tptp.s__Sonar__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sonar tptp.s__EnglishLanguage |tptp.'Something that emits and receives sound for the purpose of locating and tracking distant objects. Note that this covers both manmade devices and &%BodyParts such as the sonar of bats and dolphins.'|) (forall ((V__SONAR $$unsorted)) (=> (tptp.s__instance V__SONAR tptp.s__Object) (=> (tptp.s__instance V__SONAR tptp.s__Sonar) (tptp.s__hasPurpose V__SONAR |tptp.'(? [V__DISCOVER] : (s__instance(V__DISCOVER,s__Process) & s__instance(V__DISCOVER,s__Discovering) & s__instrument(V__DISCOVER,V__SONAR)))'|)))) (forall ((V__SONAR $$unsorted)) (=> (tptp.s__instance V__SONAR tptp.s__Object) (=> (tptp.s__instance V__SONAR tptp.s__Sonar) (tptp.s__capability tptp.s__RadiatingSound tptp.s__agent__m V__SONAR)))) (tptp.s__subclass tptp.s__Echoing tptp.s__RadiatingSound) (tptp.s__instance tptp.s__Echoing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Echoing tptp.s__EnglishLanguage |tptp.'Instances of &%RadiatingSound where the instrument is a surface which bounces sound waves back to their origin, where they can be heard again.'|) (tptp.s__subclass tptp.s__ElectricalSignalling tptp.s__Signalling) (tptp.s__instance tptp.s__ElectricalSignalling__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Signalling__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ElectricalSignalling tptp.s__EnglishLanguage |tptp.'&%ElectricalSignalling is the subclass of &%Signalling processes that involve control of an electrical current. Cf. &%ElectronicSignalling.'|) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Process) (=> (tptp.s__instance V__S tptp.s__ElectricalSignalling) (exists ((V__D $$unsorted)) (and (tptp.s__instance V__D tptp.s__Object) (tptp.s__instance V__D tptp.s__ElectricDevice) (tptp.s__instrument V__S V__D)))))) (tptp.s__subclass tptp.s__ElectronicSignalling tptp.s__ElectricalSignalling) (tptp.s__instance tptp.s__ElectronicSignalling__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ElectronicSignalling tptp.s__EnglishLanguage |tptp.'&%ElectronicSignalling is the subclass of &%ElectricalSignalling that involve a signal generated through electronic means.'|) (tptp.s__subclass tptp.s__SecurityDevice tptp.s__Device) (tptp.s__instance tptp.s__SecurityDevice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SecurityDevice tptp.s__EnglishLanguage |tptp.'A &%Device whose purpose is to protect people or property from kidnappers and/or thieves.'|) (tptp.s__subclass tptp.s__Lock tptp.s__SecurityDevice) (tptp.s__documentation tptp.s__Lock tptp.s__EnglishLanguage |tptp.'A &%Device, which, through a &%Key or a combination prevents access to a &%Container or &%StationaryArtifact.'|) (tptp.s__subclass tptp.s__Key tptp.s__SecurityDevice) (tptp.s__instance tptp.s__Key__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Key tptp.s__EnglishLanguage |tptp.'A &%Device which opens and closes a &%Lock.'|) (forall ((V__KEY $$unsorted)) (=> (tptp.s__instance V__KEY tptp.s__Key) (exists ((V__LOCK $$unsorted)) (and (tptp.s__instance V__LOCK tptp.s__Object) (tptp.s__instance V__LOCK tptp.s__Lock) (tptp.s__capability tptp.s__Opening tptp.s__instrument__m V__LOCK) (tptp.s__capability tptp.s__Closing tptp.s__instrument__m V__LOCK))))) (tptp.s__subclass tptp.s__SafeContainer tptp.s__Container) (tptp.s__instance tptp.s__SafeContainer__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__SafeContainer tptp.s__SecurityDevice) (tptp.s__documentation tptp.s__SafeContainer tptp.s__EnglishLanguage |tptp.'A &%Container with a &%Lock which is intended to secure items from theft. Note that this covers safes, lockers, and locked storage compartments.'|) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Object) (=> (tptp.s__instance V__S tptp.s__SafeContainer) (exists ((V__L $$unsorted)) (and (tptp.s__instance V__L tptp.s__Object) (tptp.s__instance V__L tptp.s__Lock) (tptp.s__part V__L V__S)))))) (tptp.s__subclass tptp.s__AnimalController tptp.s__Device) (tptp.s__instance tptp.s__AnimalController__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AnimalController tptp.s__EnglishLanguage |tptp.'Any &%Device which is used to control the movements of an &%Animal or &%Human, e.g. leashes, reins, harnesses, muzzles, bridles, shackles, handcuffs, etc.'|) (forall ((V__AC $$unsorted)) (=> (tptp.s__instance V__AC tptp.s__Object) (=> (tptp.s__instance V__AC tptp.s__AnimalController) (tptp.s__hasPurpose V__AC |tptp.'(? [V__G,V__A] : (s__instance(V__G,s__Process) & s__instance(V__G,s__Guiding) & s__instrument(V__G,V__AC) & s__instance(V__A,s__Animal) & s__patient(V__G,V__A)))'|)))) (tptp.s__subclass tptp.s__SelfPoweredDevice tptp.s__Device) (tptp.s__documentation tptp.s__SelfPoweredDevice tptp.s__EnglishLanguage |tptp.'&%SelfPoweredDevice is the subclass of &%Devices whose action is powered by some kind of on-board component or power source (not the user, which would be a &%UserPoweredVehicle).'|) (forall ((V__DEVICE $$unsorted)) (=> (tptp.s__instance V__DEVICE tptp.s__Device) (=> (tptp.s__instance V__DEVICE tptp.s__SelfPoweredDevice) (exists ((V__SOURCE $$unsorted)) (and (tptp.s__instance V__SOURCE tptp.s__Artifact) (tptp.s__instance V__SOURCE tptp.s__Device) (tptp.s__powerPlant V__DEVICE V__SOURCE)))))) (tptp.s__subclass tptp.s__AnimalPoweredDevice tptp.s__Device) (tptp.s__instance tptp.s__AnimalPoweredDevice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AnimalPoweredDevice tptp.s__EnglishLanguage |tptp.'&%AnimalPoweredDevice is the subclass of &%Devices that function with power supplied by animals. Examples: oxcarts, horse-drawn plows, mule-driven mills.'|) (forall ((V__P $$unsorted) (V__D $$unsorted)) (=> (and (tptp.s__instance V__D tptp.s__Object) (tptp.s__instance V__P tptp.s__Process)) (=> (and (tptp.s__instance V__D tptp.s__AnimalPoweredDevice) (tptp.s__instrument V__P V__D)) (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__Object) (tptp.s__instance V__A tptp.s__Animal) (tptp.s__instrument V__P V__A)))))) (tptp.s__documentation tptp.s__Flat tptp.s__EnglishLanguage |tptp.'This &%ShapeAttribute describes a three dimensional &%Object for which two dimensions are markedly larger than the third, and the two larger dimensions also are not of markedly different lengths.'|) (tptp.s__instance tptp.s__Flat tptp.s__ShapeAttribute) (forall ((V__S1 $$unsorted) (V__F $$unsorted) (V__S2 $$unsorted) (V__H $$unsorted)) (let ((_let_1 (tptp.times |"2"| V__H))) (=> (and (tptp.s__instance V__H tptp.s__LengthMeasure) (tptp.s__instance V__S2 tptp.s__SelfConnectedObject) (tptp.s__instance V__S2 tptp.s__Quantity) (tptp.s__instance V__F tptp.s__SelfConnectedObject) (tptp.s__instance V__S1 tptp.s__SelfConnectedObject) (tptp.s__instance V__S1 tptp.s__Quantity)) (=> (tptp.s__attribute V__F tptp.s__Flat) (and (tptp.s__side V__S1 V__F) (tptp.s__side V__S2 V__F) (tptp.s__meetsSpatially V__S1 V__S2) (not (= V__S1 V__S2)) (tptp.s__height V__F V__H) (tptp.greater V__S1 _let_1) (tptp.greater V__S2 _let_1)))))) (tptp.s__documentation tptp.s__LongAndThin tptp.s__EnglishLanguage |tptp.'This &%ShapeAttribute describes a three dimensional &%Object that is markedly longer in one dimension than in the other two.'|) (tptp.s__instance tptp.s__LongAndThin tptp.s__ShapeAttribute) (forall ((V__S1 $$unsorted) (V__F $$unsorted) (V__S2 $$unsorted) (V__H $$unsorted)) (let ((_let_1 (tptp.times |"3"| V__H))) (=> (and (tptp.s__instance V__H tptp.s__LengthMeasure) (tptp.s__instance V__S2 tptp.s__SelfConnectedObject) (tptp.s__instance V__S2 tptp.s__Quantity) (tptp.s__instance V__F tptp.s__SelfConnectedObject) (tptp.s__instance V__S1 tptp.s__SelfConnectedObject) (tptp.s__instance V__S1 tptp.s__Quantity)) (=> (tptp.s__attribute V__F tptp.s__LongAndThin) (and (tptp.s__side V__S1 V__F) (tptp.s__side V__S2 V__F) (tptp.s__meetsSpatially V__S1 V__S2) (not (= V__S1 V__S2)) (tptp.s__length V__F V__H) (tptp.less V__S1 _let_1) (tptp.less V__S2 _let_1)))))) (tptp.s__instance tptp.s__LevelShape tptp.s__ShapeAttribute) (tptp.s__documentation tptp.s__LevelShape tptp.s__EnglishLanguage |tptp.'The &%ShapeAttribute of &%Objects where no part of the top of the &%Object is higher than any other part of the top.'|) (forall ((V__O $$unsorted)) (=> (tptp.s__instance V__O tptp.s__SelfConnectedObject) (=> (tptp.s__attribute V__O tptp.s__LevelShape) (not (exists ((V__P1 $$unsorted) (V__P2 $$unsorted) (V__T $$unsorted) (V__H1 $$unsorted) (V__H2 $$unsorted)) (and (tptp.s__instance V__H2 tptp.s__LengthMeasure) (tptp.s__instance V__H1 tptp.s__LengthMeasure) (tptp.s__instance V__T tptp.s__SelfConnectedObject) (tptp.s__instance V__P2 tptp.s__SelfConnectedObject) (tptp.s__instance V__P1 tptp.s__SelfConnectedObject) (tptp.s__top V__T V__O) (tptp.s__part V__P1 V__T) (tptp.s__part V__P2 V__T) (tptp.s__height V__P1 V__H1) (tptp.s__height V__P2 V__H2) (tptp.greater V__H1 V__H2))))))) (tptp.s__instance tptp.s__SymmetricShape tptp.s__ShapeAttribute) (tptp.s__documentation tptp.s__SymmetricShape tptp.s__EnglishLanguage |tptp.'A &%ShapeAttribute that applies to a &%SelfConnectedObject that can be divided into two copies of each other.'|) (forall ((V__T $$unsorted)) (=> (tptp.s__instance V__T tptp.s__Object) (=> (tptp.s__attribute V__T tptp.s__SymmetricShape) (exists ((V__C1 $$unsorted) (V__C2 $$unsorted)) (and (tptp.s__instance V__C2 tptp.s__Object) (tptp.s__instance V__C1 tptp.s__Object) (tptp.s__copy V__C1 V__C2) (= V__T (tptp.s__MereologicalSumFn V__C1 V__C2))))))) (tptp.s__subclass tptp.s__Baton tptp.s__Device) (tptp.s__instance tptp.s__Baton__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Baton tptp.s__EnglishLanguage |tptp.'A thin stick which is used for &%MusicalConducting.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Object) (=> (tptp.s__instance V__B tptp.s__Baton) (tptp.s__hasPurpose V__B |tptp.'(? [V__M,V__G] : (s__instance(V__G,s__Process) & s__instance(V__M,s__Process) & s__instance(V__M,s__MusicalPerformance) & s__instance(V__G,s__Guiding) & s__subProcess(V__G,V__M) & s__instrument(V__G,V__B)))'|)))) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Object) (=> (tptp.s__instance V__B tptp.s__Baton) (tptp.s__attribute V__B tptp.s__LongAndThin)))) (tptp.s__subclass tptp.s__SecurityAlarm tptp.s__SecurityDevice) (tptp.s__subclass tptp.s__SecurityAlarm tptp.s__ElectricDevice) (tptp.s__instance tptp.s__SecurityAlarm__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SecurityAlarm tptp.s__EnglishLanguage |tptp.'A &%SecurityDevice that detects intrusions to a &%StationaryArtifact and issues a warning of some sort.'|) (tptp.s__partition_3 tptp.s__Quantity tptp.s__FiniteQuantity tptp.s__InfiniteQuantity) (tptp.s__subclass tptp.s__FiniteQuantity tptp.s__Quantity) (tptp.s__instance tptp.s__FiniteQuantity__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FiniteQuantity tptp.s__EnglishLanguage |tptp.'Any &%Quantity that is limited or bounded in magnitude.'|) (tptp.s__subclass tptp.s__InfiniteQuantity tptp.s__Quantity) (tptp.s__instance tptp.s__InfiniteQuantity__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__InfiniteQuantity tptp.s__EnglishLanguage |tptp.'Any &%Quantity that is not limited or bounded in magnitude.'|) (tptp.s__subclass tptp.s__Clock tptp.s__MeasuringDevice) (tptp.s__documentation tptp.s__Clock tptp.s__EnglishLanguage |tptp.'Any &%Device that measures and represents &%TimeDuration or &%TimePosition.'|) (forall ((V__Q $$unsorted) (V__C $$unsorted) (V__M $$unsorted)) (=> (and (tptp.s__instance V__M tptp.s__Process) (tptp.s__instance V__C tptp.s__Object)) (=> (and (tptp.s__instance V__M tptp.s__Measuring) (tptp.s__result V__M V__Q) (tptp.s__instrument V__M V__C) (tptp.s__instance V__C tptp.s__Clock)) (tptp.s__instance V__Q tptp.s__TimeMeasure)))) (tptp.s__subclass tptp.s__WatchClock tptp.s__Clock) (tptp.s__instance tptp.s__WatchClock__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Clock__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__WatchClock tptp.s__EnglishLanguage |tptp.'A &%Clock that can be worn on the &%Wrist.'|) (forall ((V__P $$unsorted) (V__C $$unsorted) (V__W $$unsorted)) (=> (and (tptp.s__instance V__W tptp.s__Object) (tptp.s__instance V__C tptp.s__WearableItem) (tptp.s__instance V__P tptp.s__Animal)) (=> (and (tptp.s__wears V__P V__C) (tptp.s__located V__C V__W) (tptp.s__instance V__C tptp.s__Clock) (tptp.s__instance V__W tptp.s__Wrist)) (tptp.s__instance V__C tptp.s__WatchClock)))) (tptp.s__subclass tptp.s__Thermometer tptp.s__MeasuringDevice) (tptp.s__instance tptp.s__Thermometer__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Thermometer tptp.s__EnglishLanguage |tptp.'Any &%Device that measures and represents &%TemperatureMeasure.'|) (forall ((V__THERMOMETER $$unsorted) (V__QUANTITY $$unsorted) (V__MEASURE $$unsorted)) (=> (and (tptp.s__instance V__MEASURE tptp.s__Process) (tptp.s__instance V__THERMOMETER tptp.s__Object)) (=> (and (tptp.s__instance V__MEASURE tptp.s__Measuring) (tptp.s__result V__MEASURE V__QUANTITY) (tptp.s__instrument V__MEASURE V__THERMOMETER) (tptp.s__instance V__THERMOMETER tptp.s__Thermometer)) (tptp.s__instance V__QUANTITY tptp.s__TemperatureMeasure)))) (tptp.s__subclass tptp.s__PressureMeasuringDevice tptp.s__MeasuringDevice) (tptp.s__instance tptp.s__PressureMeasuringDevice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PressureMeasuringDevice tptp.s__EnglishLanguage |tptp.'Any &%Device that measures and represents &%PressureMeasure.'|) (forall ((V__Q $$unsorted) (V__T $$unsorted) (V__M $$unsorted)) (=> (and (tptp.s__instance V__M tptp.s__Process) (tptp.s__instance V__T tptp.s__Object)) (=> (and (tptp.s__instance V__M tptp.s__Measuring) (tptp.s__result V__M V__Q) (tptp.s__instrument V__M V__T) (tptp.s__instance V__T tptp.s__Thermometer)) (tptp.s__instance V__Q tptp.s__TemperatureMeasure)))) (tptp.s__documentation tptp.s__measurementReading__m tptp.s__EnglishLanguage |tptp.'(measurementReading ?DEVICE ?QUANTITY) means that ?QUANTITY is a reading of the &%MeasuringDevice ?DEVICE, e.g. if ?THERMOMETER is a &%Thermometer, (measurementReading ?THERMOMETER (&%MeasureFn 42 &%CelsiusDegree)) would mean that ?THERMOMETER registers 42 degrees &%Celsius.'|) (tptp.s__instance tptp.s__measurementReading__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__measurementReading__m |"1"| tptp.s__MeasuringDevice) (tptp.s__domain tptp.s__measurementReading__m |"2"| tptp.s__ConstantQuantity) (tptp.s__subclass tptp.s__CommunicationDevice tptp.s__EngineeringComponent) (tptp.s__documentation tptp.s__CommunicationDevice tptp.s__EnglishLanguage |tptp.'A &%CommunicationDevice is a &%Device which serves at the &%instrument in a &%Communication &%Process by allowing the communicated message to be conveyed between the participants.'|) (tptp.s__relatedInternalConcept tptp.s__Communication tptp.s__CommunicationDevice) (forall ((V__DEVICE $$unsorted)) (=> (tptp.s__instance V__DEVICE tptp.s__Object) (=> (tptp.s__instance V__DEVICE tptp.s__CommunicationDevice) (tptp.s__capability tptp.s__Communication tptp.s__instrument__m V__DEVICE)))) (tptp.s__subclass tptp.s__Telephone tptp.s__ElectricDevice) (tptp.s__subclass tptp.s__Telephone tptp.s__CommunicationDevice) (tptp.s__documentation tptp.s__Telephone tptp.s__EnglishLanguage |tptp.'A &%Telephone is a &%CommunicationDevice that enables &%LinguisticCommunication between nodes in a &%TelephoneSystem by converting sound into electrical signals that are then transmitted. When the signals are received, they are converted back into sound.'|) (tptp.s__subclass tptp.s__Telephoning tptp.s__Communication) (tptp.s__instance tptp.s__Telephoning__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Telephoning tptp.s__EnglishLanguage |tptp.'A &%Telephoning is a &%Communication in which the &%instrument is a &%Telephone, and which typically includes an &%instance of &%Speaking as a &%subProcess.'|) (forall ((V__TEL $$unsorted)) (=> (tptp.s__instance V__TEL tptp.s__Process) (=> (tptp.s__instance V__TEL tptp.s__Telephoning) (exists ((V__DEVICE $$unsorted)) (and (tptp.s__instance V__DEVICE tptp.s__Object) (tptp.s__instance V__DEVICE tptp.s__Telephone) (tptp.s__instrument V__TEL V__DEVICE)))))) (forall ((V__TEL $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__TEL tptp.s__Process)) (=> (tptp.s__instance V__TEL tptp.s__Telephoning) (exists ((V__SPEAK $$unsorted)) (and (tptp.s__instance V__SPEAK tptp.s__Process) (tptp.s__instance V__SPEAK tptp.s__Speaking) (tptp.s__subProcess V__SPEAK V__TEL) (=> (tptp.s__agent V__TEL V__AGENT) (tptp.s__agent V__SPEAK V__AGENT))))))) (tptp.s__subclass tptp.s__Fax tptp.s__ArtifactMediatedCommunication) (tptp.s__instance tptp.s__Fax__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Fax tptp.s__EnglishLanguage |tptp.'The communication of a printed page between remote locations.'|) (forall ((V__Fax $$unsorted)) (=> (tptp.s__instance V__Fax tptp.s__Process) (=> (tptp.s__instance V__Fax tptp.s__Fax) (exists ((V__FaxMachine $$unsorted)) (and (tptp.s__instance V__FaxMachine tptp.s__Object) (tptp.s__instance V__FaxMachine tptp.s__FaxMachine) (tptp.s__instrument V__Fax V__FaxMachine)))))) (tptp.s__subclass tptp.s__FaxMachine tptp.s__TelephonyDevice) (tptp.s__subclass tptp.s__FaxMachine tptp.s__ElectricDevice) (tptp.s__subclass tptp.s__FaxMachine tptp.s__CommunicationDevice) (tptp.s__instance tptp.s__FaxMachine__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FaxMachine tptp.s__EnglishLanguage |tptp.'A &%FaxMachine is a &%TelephonyDevice that scans a paper page and transmits a coded image of the page over a &%TelephoneSystem to a receiving &%FaxMachine, which decodes the coded and image and prints a replica of the original. A typical &%FaxMachine is made up of a scanner, a printer, a modem, and a control panel with some sort of status display.'|) (tptp.s__instance tptp.s__emailAddress__m tptp.s__BinaryPredicate) (tptp.s__subrelation tptp.s__emailAddress__m tptp.s__refers__m) (tptp.s__domain tptp.s__emailAddress__m |"1"| tptp.s__SymbolicString) (tptp.s__domain tptp.s__emailAddress__m |"2"| tptp.s__Agent) (tptp.s__documentation tptp.s__emailAddress__m tptp.s__EnglishLanguage |tptp.'(&%emailAddress ?Address ?Agent) means that ?Address denotes a &%VirtualPlace at which ?Agent can be contacted.'|) (tptp.s__subclass tptp.s__LightFixture tptp.s__Device) (tptp.s__documentation tptp.s__LightFixture tptp.s__EnglishLanguage |tptp.'Any &%Device whose purpose is to be a source of visible light.'|) (forall ((V__F $$unsorted)) (=> (tptp.s__instance V__F tptp.s__Object) (=> (tptp.s__instance V__F tptp.s__LightFixture) (tptp.s__capability tptp.s__RadiatingLight tptp.s__instrument__m V__F)))) (tptp.s__subclass tptp.s__Candle tptp.s__LightFixture) (tptp.s__instance tptp.s__Candle__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Candle tptp.s__EnglishLanguage |tptp.'An &%LightFixture that consists of &%Wax and a wick, which is lit with a flame.'|) (forall ((V__CANDLE $$unsorted)) (=> (tptp.s__instance V__CANDLE tptp.s__CorpuscularObject) (=> (tptp.s__instance V__CANDLE tptp.s__Candle) (tptp.s__material tptp.s__Wax V__CANDLE)))) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Object) (=> (tptp.s__instance V__C tptp.s__Candle) (tptp.s__hasPurpose V__C |tptp.'(? [V__F] : (s__instance(V__F,s__Process) & s__instance(V__F,s__Fire) & s__resource(V__F,V__C)))'|)))) (tptp.s__subclass tptp.s__Lightning tptp.s__WeatherProcess) (tptp.s__instance tptp.s__Lightning__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Lightning tptp.s__Radiating) (tptp.s__documentation tptp.s__Lightning tptp.s__EnglishLanguage |tptp.'A &%WeatherProcess which involves a significant release of electricity from a &%Cloud.'|) (forall ((V__L $$unsorted)) (=> (tptp.s__instance V__L tptp.s__Process) (=> (tptp.s__instance V__L tptp.s__Lightning) (exists ((V__C $$unsorted)) (and (tptp.s__instance V__C tptp.s__Object) (tptp.s__instance V__C tptp.s__Cloud) (tptp.s__eventLocated V__L V__C)))))) (tptp.s__subclass tptp.s__Thunder tptp.s__WeatherProcess) (tptp.s__instance tptp.s__Thunder__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Thunder tptp.s__RadiatingSound) (tptp.s__documentation tptp.s__Thunder tptp.s__EnglishLanguage |tptp.'Any instance of &%RadiatingSound which is caused by an instance of Lightning.'|) (forall ((V__T $$unsorted)) (=> (tptp.s__instance V__T tptp.s__Process) (=> (tptp.s__instance V__T tptp.s__Thunder) (exists ((V__L $$unsorted)) (and (tptp.s__instance V__L tptp.s__Process) (tptp.s__instance V__L tptp.s__Lightning) (tptp.s__causes V__L V__T)))))) (tptp.s__subclass tptp.s__VehicleLight tptp.s__LightFixture) (tptp.s__instance tptp.s__LightFixture__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__VehicleLight tptp.s__EnglishLanguage |tptp.'Any &%LightFixture which is attached to the surface of a &%Vehicle and whose purpose is to illuminate that area around the &%Vehicle so that potential obstacles can be detected or alerted.'|) (forall ((V__L $$unsorted)) (=> (tptp.s__instance V__L tptp.s__Object) (=> (tptp.s__instance V__L tptp.s__VehicleLight) (exists ((V__V $$unsorted)) (and (tptp.s__instance V__V tptp.s__Object) (tptp.s__instance V__V tptp.s__Vehicle) (tptp.s__part V__L V__V)))))) (tptp.s__subclass tptp.s__Headlight tptp.s__VehicleLight) (tptp.s__instance tptp.s__Headlight__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__VehicleLight__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Headlight tptp.s__EnglishLanguage |tptp.'Any &%VehicleLight which is attached to the front of a &%Vehicle.'|) (forall ((V__L $$unsorted)) (=> (tptp.s__instance V__L tptp.s__Object) (=> (tptp.s__instance V__L tptp.s__Headlight) (exists ((V__V $$unsorted)) (and (tptp.s__instance V__V tptp.s__SelfConnectedObject) (tptp.s__instance V__V tptp.s__Vehicle) (tptp.s__part V__L (tptp.s__FrontFn V__V))))))) (tptp.s__subclass tptp.s__Taillight tptp.s__VehicleLight) (tptp.s__instance tptp.s__Taillight__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Taillight tptp.s__EnglishLanguage |tptp.'Any &%VehicleLight which is attached to the back of a &%Vehicle.'|) (forall ((V__L $$unsorted)) (=> (tptp.s__instance V__L tptp.s__Object) (=> (tptp.s__instance V__L tptp.s__Taillight) (exists ((V__V $$unsorted)) (and (tptp.s__instance V__V tptp.s__SelfConnectedObject) (tptp.s__instance V__V tptp.s__Vehicle) (tptp.s__part V__L (tptp.s__BackFn V__V))))))) (tptp.s__subclass tptp.s__PaintedPicture tptp.s__ArtWork) (tptp.s__documentation tptp.s__PaintedPicture tptp.s__EnglishLanguage |tptp.'Any &%ArtWork which is produced by &%Painting.'|) (forall ((V__PP $$unsorted)) (=> (tptp.s__instance V__PP tptp.s__PaintedPicture) (exists ((V__PAINT $$unsorted) (V__PAINTING $$unsorted)) (and (tptp.s__instance V__PAINTING tptp.s__Process) (tptp.s__instance V__PAINT tptp.s__Object) (tptp.s__instance V__PAINT tptp.s__Paint) (tptp.s__instance V__PAINTING tptp.s__Painting) (tptp.s__resource V__PAINTING V__PAINT) (tptp.s__result V__PAINTING V__PP))))) (tptp.s__subclass tptp.s__WatercolorPicture tptp.s__PaintedPicture) (tptp.s__instance tptp.s__WatercolorPicture__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__WatercolorPicture tptp.s__EnglishLanguage |tptp.'Any &%PaintedPicture which is created with water-based paints.'|) (forall ((V__W $$unsorted)) (=> (tptp.s__instance V__W tptp.s__WatercolorPicture) (exists ((V__WP $$unsorted) (V__P $$unsorted)) (and (tptp.s__instance V__P tptp.s__Process) (tptp.s__instance V__WP tptp.s__Object) (tptp.s__instance V__WP tptp.s__WatercolorPaint) (tptp.s__instance V__P tptp.s__Painting) (tptp.s__resource V__P V__WP) (tptp.s__result V__P V__W))))) (tptp.s__subclass tptp.s__Wallpaper tptp.s__ArtWork) (tptp.s__instance tptp.s__Wallpaper__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Wallpaper tptp.s__EnglishLanguage |tptp.'Any decorative paper that is used to cover the &%Walls of &%Rooms.'|) (forall ((V__P $$unsorted) (V__W $$unsorted)) (=> (and (tptp.s__instance V__W tptp.s__Object) (tptp.s__instance V__P tptp.s__Object)) (=> (and (tptp.s__instance V__W tptp.s__Wallpaper) (tptp.s__part V__P V__W)) (tptp.s__instance V__P tptp.s__Paper)))) (forall ((V__P $$unsorted)) (=> (tptp.s__instance V__P tptp.s__Object) (=> (tptp.s__instance V__P tptp.s__Wallpaper) (tptp.s__hasPurpose V__P |tptp.'(? [V__W,V__R,V__C] : (s__instance(V__C,s__Process) & s__instance(V__R,s__Object) & s__instance(V__W,s__Object) & s__instance(V__W,s__Wall) & s__part(V__W,V__R) & s__instance(V__R,s__Room) & s__instance(V__C,s__Covering) & s__patient(V__C,V__W) & s__instrument(V__C,V__P)))'|)))) (tptp.s__subclass tptp.s__Sculpture tptp.s__ArtWork) (tptp.s__instance tptp.s__Sculpture__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sculpture tptp.s__EnglishLanguage |tptp.'Any &%ArtWork which is not constructed on the two-dimensional surface of a canvas, piece of paper, etc.'|) (tptp.s__subclass tptp.s__Portrait tptp.s__PaintedPicture) (tptp.s__instance tptp.s__Portrait__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__PaintedPicture__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Portrait tptp.s__EnglishLanguage |tptp.'A &%PaintedPicture that represents someones &%Face.'|) (forall ((V__P $$unsorted)) (=> (tptp.s__instance V__P tptp.s__Portrait) (exists ((V__F $$unsorted)) (and (tptp.s__instance V__F tptp.s__Face) (tptp.s__represents V__P V__F))))) (tptp.s__subclass tptp.s__Sketch tptp.s__ArtWork) (tptp.s__instance tptp.s__Sketch__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sketch tptp.s__EnglishLanguage |tptp.'Any &%ArtWork which is produced by a pencil or piece of charcoal.'|) (tptp.s__subclass tptp.s__Collage tptp.s__ArtWork) (tptp.s__instance tptp.s__Collage__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Collage tptp.s__EnglishLanguage |tptp.'Any abstract &%ArtWork that is produced by arranging bits of paper or photographs.'|) (tptp.s__subclass tptp.s__Folding tptp.s__ShapeChange) (tptp.s__instance tptp.s__Folding__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Folding tptp.s__EnglishLanguage |tptp.'Bending something in such a way that one part of it covers another part.'|) (forall ((V__O $$unsorted) (V__F $$unsorted)) (=> (and (tptp.s__instance V__F tptp.s__Process) (tptp.s__instance V__O tptp.s__Object)) (=> (and (tptp.s__instance V__F tptp.s__Folding) (tptp.s__patient V__F V__O)) (exists ((V__C $$unsorted) (V__P1 $$unsorted) (V__P2 $$unsorted)) (and (tptp.s__instance V__P2 tptp.s__Object) (tptp.s__instance V__P1 tptp.s__Object) (tptp.s__instance V__C tptp.s__Process) (tptp.s__instance V__C tptp.s__Covering) (tptp.s__subProcess V__C V__F) (tptp.s__part V__P1 V__O) (tptp.s__part V__P2 V__O) (tptp.s__instrument V__C V__P1) (tptp.s__patient V__C V__P2)))))) (tptp.s__subclass tptp.s__Painting tptp.s__Covering) (tptp.s__subclass tptp.s__Painting tptp.s__Coloring) (tptp.s__instance tptp.s__Painting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Painting tptp.s__EnglishLanguage |tptp.'The application of &%Paint to a &%surface. Note that this class covers both &%ArtPainting (the creation of &%PaintedPictures), as well as painting ones kitchen, for example.'|) (forall ((V__SURFACE $$unsorted) (V__STUFF $$unsorted) (V__PAINT $$unsorted)) (=> (and (tptp.s__instance V__PAINT tptp.s__Process) (tptp.s__instance V__STUFF tptp.s__Object) (tptp.s__instance V__SURFACE tptp.s__SelfConnectedObject)) (=> (and (tptp.s__instance V__PAINT tptp.s__Painting) (tptp.s__patient V__PAINT V__SURFACE) (tptp.s__instrument V__PAINT V__STUFF)) (exists ((V__OBJ $$unsorted)) (and (tptp.s__instance V__OBJ tptp.s__SelfConnectedObject) (tptp.s__surface V__SURFACE V__OBJ) (tptp.s__instance V__STUFF tptp.s__Paint)))))) (tptp.s__subclass tptp.s__Paint tptp.s__Solution) (tptp.s__instance tptp.s__Paint__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Paint tptp.s__EnglishLanguage |tptp.'Any &%Solution which is capable of &%Coloring something.'|) (forall ((V__PAINT $$unsorted)) (=> (tptp.s__instance V__PAINT tptp.s__Object) (=> (tptp.s__instance V__PAINT tptp.s__Paint) (tptp.s__capability tptp.s__Coloring tptp.s__instrument__m V__PAINT)))) (tptp.s__subclass tptp.s__WatercolorPaint tptp.s__Paint) (tptp.s__instance tptp.s__WatercolorPaint__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__WatercolorPaint tptp.s__EnglishLanguage |tptp.'Any &%Paint which is a water-based &%Solution.'|) (forall ((V__P $$unsorted)) (=> (tptp.s__instance V__P tptp.s__Object) (=> (tptp.s__instance V__P tptp.s__WatercolorPaint) (exists ((V__W $$unsorted)) (and (tptp.s__instance V__W tptp.s__Object) (tptp.s__instance V__W tptp.s__Water) (tptp.s__part V__W V__P)))))) (tptp.s__subclass tptp.s__OilPaint tptp.s__Paint) (tptp.s__instance tptp.s__OilPaint__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__OilPaint tptp.s__WatercolorPaint) (tptp.s__documentation tptp.s__OilPaint tptp.s__EnglishLanguage |tptp.'Any &%Paint which is an oil-based &%Solution.'|) (forall ((V__P $$unsorted)) (=> (tptp.s__instance V__P tptp.s__Object) (=> (tptp.s__instance V__P tptp.s__OilPaint) (exists ((V__O $$unsorted)) (and (tptp.s__instance V__O tptp.s__Object) (tptp.s__instance V__O tptp.s__Oil) (tptp.s__part V__O V__P)))))) (tptp.s__subclass tptp.s__OilPicture tptp.s__PaintedPicture) (tptp.s__instance tptp.s__OilPicture__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__OilPicture tptp.s__WatercolorPicture) (tptp.s__documentation tptp.s__OilPicture tptp.s__EnglishLanguage |tptp.'Any &%OilPicture which is created with oil-based paints.'|) (forall ((V__P $$unsorted)) (=> (tptp.s__instance V__P tptp.s__OilPicture) (exists ((V__O $$unsorted) (V__PAINTING $$unsorted)) (and (tptp.s__instance V__PAINTING tptp.s__Process) (tptp.s__instance V__O tptp.s__Object) (tptp.s__instance V__O tptp.s__OilPaint) (tptp.s__instance V__PAINTING tptp.s__Painting) (tptp.s__resource V__PAINTING V__O) (tptp.s__result V__PAINTING V__P))))) (tptp.s__subclass tptp.s__ArtPainting tptp.s__ContentDevelopment) (tptp.s__subclass tptp.s__ArtPainting tptp.s__Painting) (tptp.s__instance tptp.s__ArtPainting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ArtPainting tptp.s__EnglishLanguage |tptp.'Any &%ContentDevelopment that results in a &%PaintedPicture.'|) (forall ((V__PAINT $$unsorted)) (=> (tptp.s__instance V__PAINT tptp.s__Process) (=> (tptp.s__instance V__PAINT tptp.s__ArtPainting) (exists ((V__PICTURE $$unsorted)) (and (tptp.s__instance V__PICTURE tptp.s__PaintedPicture) (tptp.s__result V__PAINT V__PICTURE)))))) (tptp.s__documentation tptp.s__potentialOfHydrogen__m tptp.s__EnglishLanguage |tptp.'(potentialOfHydrogen ?SOLUTION ?NUMBER) means that the Solution ?SOLUTION has a pH value of ?NUMBER. The ph varies between 0 and 14, and it is a measure of the acidity or alkalinity of ?SOLUTION. More precisely, and it is the logarithm of the reciprocal of the quantity of &%AtomGrams of &%Hydrogen ions.'|) (tptp.s__instance tptp.s__potentialOfHydrogen__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__potentialOfHydrogen__m |"1"| tptp.s__Solution) (tptp.s__domain tptp.s__potentialOfHydrogen__m |"2"| tptp.s__RealNumber) (forall ((V__S $$unsorted) (V__N $$unsorted)) (=> (and (tptp.s__instance V__N tptp.s__RealNumber) (tptp.s__instance V__S tptp.s__Solution)) (=> (tptp.s__potentialOfHydrogen V__S V__N) (and (tptp.greatereq V__N |"0"|) (tptp.lesseq V__N |"14"|))))) (tptp.s__subclass tptp.s__Tracing tptp.s__ContentDevelopment) (tptp.s__subclass tptp.s__Tracing tptp.s__SurfaceChange) (tptp.s__instance tptp.s__Tracing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Tracing tptp.s__EnglishLanguage |tptp.'Any &%ContentDevelopment that results in a &%Blueprint.'|) (forall ((V__T $$unsorted)) (=> (tptp.s__instance V__T tptp.s__Process) (=> (tptp.s__instance V__T tptp.s__Tracing) (exists ((V__P $$unsorted)) (and (tptp.s__instance V__P tptp.s__Blueprint) (tptp.s__result V__T V__P)))))) (tptp.s__subclass tptp.s__ComposingMusic tptp.s__ContentDevelopment) (tptp.s__instance tptp.s__ComposingMusic__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ComposingMusic tptp.s__EnglishLanguage |tptp.'&%ComposingMusic is a type of &%ContentDevelopment that results in a &%MusicalComposition'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__ComposingMusic |tptp.'composing music'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Process) (=> (tptp.s__instance V__C tptp.s__ComposingMusic) (exists ((V__M $$unsorted)) (and (tptp.s__instance V__M tptp.s__MusicalComposition) (tptp.s__result V__C V__M)))))) (tptp.s__subclass tptp.s__Drawing tptp.s__ContentDevelopment) (tptp.s__subclass tptp.s__Drawing tptp.s__SurfaceChange) (tptp.s__instance tptp.s__Drawing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Drawing tptp.s__EnglishLanguage |tptp.'Any &%ContentDevelopment that results in a &%Sketch.'|) (forall ((V__DRAW $$unsorted)) (=> (tptp.s__instance V__DRAW tptp.s__Process) (=> (tptp.s__instance V__DRAW tptp.s__Drawing) (exists ((V__SKETCH $$unsorted)) (and (tptp.s__instance V__SKETCH tptp.s__Sketch) (tptp.s__result V__DRAW V__SKETCH)))))) (tptp.s__subclass tptp.s__Focusing tptp.s__QuantityChange) (tptp.s__instance tptp.s__Focusing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Focusing tptp.s__EnglishLanguage |tptp.'Altering the relative distance of a &%Lens so that a visual image is sharper.'|) (forall ((V__F $$unsorted)) (=> (tptp.s__instance V__F tptp.s__Process) (=> (tptp.s__instance V__F tptp.s__Focusing) (exists ((V__L $$unsorted)) (and (tptp.s__instance V__L tptp.s__Lens) (tptp.s__patient V__F V__L)))))) (tptp.s__subclass tptp.s__DisplayArtifact tptp.s__Artifact) (tptp.s__documentation tptp.s__DisplayArtifact tptp.s__EnglishLanguage |tptp.'Something for posting content so that it can be disseminated to the public.'|) (forall ((V__DA $$unsorted)) (=> (tptp.s__instance V__DA tptp.s__Physical) (=> (tptp.s__instance V__DA tptp.s__DisplayArtifact) (tptp.s__hasPurpose V__DA |tptp.'(? [V__P,V__D,V__I] : (s__instance(V__D,s__Process) & s__instance(V__P,s__Process) & s__instance(V__P,s__Putting) & s__instance(V__D,s__Disseminating) & s__instance(V__I,s__ContentBearingObject) & s__patient(V__P,V__I) & s__patient(V__D,V__I) & s__destination(V__P,V__DA)))'|)))) (tptp.s__subclass tptp.s__VehicleWheel tptp.s__Wheel) (tptp.s__instance tptp.s__VehicleWheel__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Wheel__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__VehicleWheel tptp.s__EnglishLanguage |tptp.'&%VehicleWheel is a class of cylindrical &%Devices used to move a &%RoadVehicle along a road, running either directly on the wheel rims or on tires attached to the wheel rims.'|) (tptp.s__subclass tptp.s__Wheel tptp.s__Artifact) (tptp.s__documentation tptp.s__Wheel tptp.s__EnglishLanguage |tptp.'A circular &%Artifact which is a component of &%LandVehicles and of some &%Devices.'|) (forall ((V__VEHICLE $$unsorted)) (=> (tptp.s__instance V__VEHICLE tptp.s__Object) (=> (tptp.s__instance V__VEHICLE tptp.s__LandVehicle) (exists ((V__WHEEL $$unsorted)) (and (tptp.s__instance V__WHEEL tptp.s__Object) (tptp.s__instance V__WHEEL tptp.s__Wheel) (tptp.s__part V__WHEEL V__VEHICLE)))))) (tptp.s__subclass tptp.s__VehicleController tptp.s__Device) (tptp.s__documentation tptp.s__VehicleController tptp.s__EnglishLanguage |tptp.'Any &%Device which is used to start, stop or control the movements of a &%Vehicle. This class covers steering wheels, brakes, acceleration pedals, airplane sticks, etc.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Object) (=> (tptp.s__instance V__C tptp.s__VehicleController) (exists ((V__V $$unsorted)) (and (tptp.s__instance V__V tptp.s__Object) (tptp.s__instance V__V tptp.s__Vehicle) (tptp.s__part V__C V__V)))))) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Object) (=> (tptp.s__instance V__C tptp.s__VehicleController) (tptp.s__hasPurpose V__C |tptp.'(? [V__D] : (s__instance(V__D,s__Process) & s__instance(V__D,s__Driving) & s__instrument(V__D,V__C)))'|)))) (tptp.s__subclass tptp.s__SteeringWheel tptp.s__VehicleController) (tptp.s__instance tptp.s__SteeringWheel__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__VehicleController__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SteeringWheel tptp.s__EnglishLanguage |tptp.'A &%VehicleController which enables one to steer a &%Vehicle.'|) (forall ((V__W $$unsorted)) (=> (tptp.s__instance V__W tptp.s__Object) (=> (tptp.s__instance V__W tptp.s__SteeringWheel) (tptp.s__capability tptp.s__DirectionChange tptp.s__instrument__m V__W)))) (tptp.s__subclass tptp.s__VehicleBrake tptp.s__VehicleController) (tptp.s__instance tptp.s__VehicleBrake__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__VehicleBrake tptp.s__EnglishLanguage |tptp.'A &%VehicleController which is capable of stopping the motion of a &%Vehicle.'|) (forall ((V__B $$unsorted) (V__V $$unsorted)) (=> (and (tptp.s__instance V__V tptp.s__Object) (tptp.s__instance V__B tptp.s__Object)) (=> (and (tptp.s__instance V__B tptp.s__VehicleBrake) (tptp.s__instance V__V tptp.s__Vehicle) (tptp.s__part V__B V__V)) (tptp.s__hasPurpose V__B |tptp.'(? [V__S] : (s__instance(V__S,s__Process) & s__instance(V__S,s__StopFn(s__Motion)) & s__patient(V__S,V__V) & s__instrument(V__S,V__B)))'|)))) (tptp.s__subclass tptp.s__VehicleThrottle tptp.s__VehicleController) (tptp.s__instance tptp.s__VehicleThrottle__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__VehicleThrottle tptp.s__EnglishLanguage |tptp.'A &%VehicleController which controls the amount of &%Fuel which is supplied to the &%Engine.'|) (tptp.s__subclass tptp.s__VehicleTire tptp.s__Artifact) (tptp.s__instance tptp.s__VehicleTire__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__VehicleTire tptp.s__EnglishLanguage |tptp.'A covering, usually made of rubber, for a &%Wheel.'|) (forall ((V__T $$unsorted)) (=> (tptp.s__instance V__T tptp.s__Object) (=> (tptp.s__instance V__T tptp.s__VehicleTire) (exists ((V__W $$unsorted)) (and (tptp.s__instance V__W tptp.s__Object) (tptp.s__instance V__W tptp.s__VehicleWheel) (tptp.s__part V__T V__W)))))) (tptp.s__subclass tptp.s__VehicleWindow tptp.s__Window) (tptp.s__instance tptp.s__VehicleWindow__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Window__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__VehicleWindow tptp.s__EnglishLanguage |tptp.'Any &%Window which is part of a &%Vehicle, e.g. the &%Windshield and &%RearWindow of an &%Automobile.'|) (forall ((V__W $$unsorted)) (=> (tptp.s__instance V__W tptp.s__Object) (=> (tptp.s__instance V__W tptp.s__VehicleWindow) (exists ((V__V $$unsorted)) (and (tptp.s__instance V__V tptp.s__Object) (tptp.s__instance V__V tptp.s__Vehicle) (tptp.s__part V__W V__V)))))) (tptp.s__subclass tptp.s__Windshield tptp.s__VehicleWindow) (tptp.s__instance tptp.s__Windshield__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__Windshield tptp.s__RearWindow) (tptp.s__documentation tptp.s__Windshield tptp.s__EnglishLanguage |tptp.'Any &%VehicleWindow which located at the front of a &%RoadVehicle.'|) (forall ((V__W $$unsorted)) (=> (tptp.s__instance V__W tptp.s__Object) (=> (tptp.s__instance V__W tptp.s__Windshield) (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__SelfConnectedObject) (tptp.s__instance V__A tptp.s__RoadVehicle) (tptp.s__part V__W (tptp.s__FrontFn V__A))))))) (tptp.s__subclass tptp.s__LandVehicle tptp.s__Vehicle) (tptp.s__documentation tptp.s__LandVehicle tptp.s__EnglishLanguage |tptp.'&%LandVehicle is the class of &%TransportationDevices that travel on land. The two main types of &%LandVehicle are &%RoadVehicle and &%RailVehicle. Note that this includes vehicles which travel on any solid surface, including a frozen body of water or snow.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__LandVehicle) (tptp.s__hasPurpose V__X |tptp.'(? [V__EV,V__SURF] : (s__instance(V__SURF,s__SelfConnectedObject) & s__instance(V__EV,s__Physical) & s__surface(V__SURF,s__GeographicArea) & s__instance(V__EV,s__Transportation) & s__holdsDuring(s__WhenFn(V__EV),s__meetsSpatially(V__X,V__SURF))))'|)))) (tptp.s__subclass tptp.s__WaterVehicle tptp.s__Vehicle) (tptp.s__instance tptp.s__WaterVehicle__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__WaterVehicle tptp.s__EnglishLanguage |tptp.'&%WaterVehicle is the class of all &%TransportationDevices used to travel on or in water.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__WaterVehicle) (tptp.s__hasPurpose V__X |tptp.'(? [V__EV,V__SURF] : (s__instance(V__SURF,s__Object) & s__instance(V__EV,s__Physical) & s__instance(V__SURF,s__Water) & s__instance(V__EV,s__Transportation) & s__holdsDuring(s__WhenFn(V__EV),s__meetsSpatially(V__X,V__SURF))))'|)))) (forall ((V__CRAFT $$unsorted) (V__EVENT $$unsorted)) (=> (and (tptp.s__instance V__EVENT tptp.s__Process) (tptp.s__instance V__CRAFT tptp.s__Object)) (=> (and (tptp.s__instance V__CRAFT tptp.s__WaterVehicle) (tptp.s__instance V__EVENT tptp.s__Transportation) (tptp.s__instrument V__EVENT V__CRAFT)) (exists ((V__WATER $$unsorted)) (and (tptp.s__instance V__WATER tptp.s__Object) (tptp.s__instance V__WATER tptp.s__WaterArea) (tptp.s__eventLocated V__EVENT V__WATER)))))) (tptp.s__subclass tptp.s__RoadVehicle tptp.s__LandVehicle) (tptp.s__instance tptp.s__RoadVehicle__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__LandVehicle__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__RoadVehicle tptp.s__EnglishLanguage |tptp.'The class of &%LandVehicles that are not &%RollingStock.'|) (tptp.s__subclass tptp.s__Fleet tptp.s__Collection) (tptp.s__instance tptp.s__Fleet__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Fleet tptp.s__EnglishLanguage |tptp.'A &%Collection of &%Vehicle'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Fleet |tptp.'Fleet'|) (forall ((V__FLEET $$unsorted)) (=> (tptp.s__instance V__FLEET tptp.s__Collection) (=> (tptp.s__instance V__FLEET tptp.s__Fleet) (tptp.s__memberType V__FLEET tptp.s__Vehicle)))) (tptp.s__instance tptp.s__fleetSize__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__fleetSize__m |"1"| tptp.s__Agent) (tptp.s__domain tptp.s__fleetSize__m |"2"| tptp.s__Integer) (tptp.s__documentation tptp.s__fleetSize__m tptp.s__EnglishLanguage |tptp.'(fleetSize ?AGENT ?NUM) means the &%Agent ?AGENT has a fleet size of an &%Integer ?NUM. The &%Fleet can consists of any type of &%Vehicle'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__fleetSize__m |tptp.'Fleet Size'|) (forall ((V__FLEET $$unsorted) (V__AGENT $$unsorted) (V__NUM $$unsorted)) (=> (and (tptp.s__instance V__NUM tptp.s__Integer) (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__FLEET tptp.s__Collection)) (=> (and (tptp.s__instance V__FLEET tptp.s__Fleet) (tptp.s__fleetSize V__AGENT V__NUM) (tptp.s__possesses V__AGENT V__FLEET)) (tptp.s__memberCount V__FLEET V__NUM)))) (tptp.s__subclass tptp.s__Axle tptp.s__Device) (tptp.s__instance tptp.s__Axle__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Axle tptp.s__EnglishLanguage |tptp.'Axle is a class of &%Devices each of which can be paired with two &%VehicleWheels to rotate and move a &%RoadVehicle.'|) (forall ((V__V $$unsorted) (V__W $$unsorted)) (=> (and (tptp.s__instance V__W tptp.s__Object) (tptp.s__instance V__V tptp.s__CorpuscularObject)) (=> (and (tptp.s__instance V__W tptp.s__VehicleWheel) (tptp.s__instance V__V tptp.s__RoadVehicle) (tptp.s__part V__W V__V)) (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__CorpuscularObject) (tptp.s__instance V__A tptp.s__Axle) (tptp.s__component V__A V__V) (tptp.s__connected V__W V__A)))))) (tptp.s__documentation tptp.s__Paper tptp.s__EnglishLanguage |tptp.'Paper is a flat sheet of fibers, usually produced by spreading a wet solution of wood particles on a flat surface and drying through heat and pressure. The fibers can also be cotton or a synthetic, although typically the bulk of the substance is wood fibers. This includes all manner of paper products that may have varying thicknesses, colors or texture. This is distinguished from flat wood products such as plywood and particle board which have a structural function in building construction. Sheathing materials such as the paper affixed to sheetrock however, is paper.'|) (tptp.s__subclass tptp.s__Paper tptp.s__Artifact) (tptp.s__instance tptp.s__Paper__t tptp.s__SetOrClass) (forall ((V__PAPER $$unsorted)) (=> (tptp.s__instance V__PAPER tptp.s__Object) (=> (tptp.s__instance V__PAPER tptp.s__Paper) (tptp.s__hasPurpose V__PAPER |tptp.'(? [V__TEXT] : (s__instance(V__TEXT,s__Object) & s__instance(V__TEXT,s__Text) & s__part(V__TEXT,V__PAPER)))'|)))) (tptp.s__subclass tptp.s__CurrencyBill tptp.s__Currency) (tptp.s__instance tptp.s__CurrencyBill__t tptp.s__SetOrClass) (tptp.s__partition_3 tptp.s__Currency tptp.s__CurrencyBill tptp.s__CurrencyCoin) (tptp.s__documentation tptp.s__CurrencyBill tptp.s__EnglishLanguage |tptp.'Any instance of &%Currency that is made of paper.'|) (forall ((V__BILL $$unsorted)) (=> (tptp.s__instance V__BILL tptp.s__Object) (=> (tptp.s__instance V__BILL tptp.s__CurrencyBill) (exists ((V__PAPER $$unsorted)) (and (tptp.s__instance V__PAPER tptp.s__Object) (tptp.s__instance V__PAPER tptp.s__Paper) (tptp.s__part V__PAPER V__BILL)))))) (tptp.s__subclass tptp.s__CurrencyCoin tptp.s__Currency) (tptp.s__instance tptp.s__CurrencyCoin__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__CurrencyCoin tptp.s__EnglishLanguage |tptp.'Any instance of &%Currency that is made of &%Metal.'|) (forall ((V__COIN $$unsorted)) (=> (tptp.s__instance V__COIN tptp.s__CorpuscularObject) (=> (tptp.s__instance V__COIN tptp.s__CurrencyCoin) (exists ((V__METAL $$unsorted)) (and (tptp.s__instance V__METAL tptp.s__SetOrClass) (tptp.s__subclass V__METAL tptp.s__Substance) (tptp.s__subclass V__METAL tptp.s__Metal) (tptp.s__material V__METAL V__COIN)))))) (tptp.s__subclass tptp.s__Wire tptp.s__Artifact) (tptp.s__instance tptp.s__Wire__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Wire tptp.s__EnglishLanguage |tptp.'A long, thin strand of &%Metal that is used in a wide range of applications, including the wiring of electrical systems, creating bundles and the construction of cages.'|) (forall ((V__WIRE $$unsorted)) (=> (tptp.s__instance V__WIRE tptp.s__CorpuscularObject) (=> (tptp.s__instance V__WIRE tptp.s__Wire) (tptp.s__material tptp.s__Metal V__WIRE)))) (tptp.s__subclass tptp.s__WireSpring tptp.s__Wire) (tptp.s__subclass tptp.s__WireSpring tptp.s__EngineeringComponent) (tptp.s__instance tptp.s__WireSpring__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__WireSpring tptp.s__EnglishLanguage |tptp.'An &%EngineeringComponent consisting of a coil of &%Wire that returns to its original shape when pulled apart or pressed together.'|) (tptp.s__subclass tptp.s__WireLine tptp.s__Wire) (tptp.s__subclass tptp.s__WireLine tptp.s__EngineeringComponent) (tptp.s__instance tptp.s__WireLine__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__WireLine tptp.s__EnglishLanguage |tptp.'A &%Wire that is designed for conducting electricity.'|) (forall ((V__WL $$unsorted)) (=> (tptp.s__instance V__WL tptp.s__Object) (=> (tptp.s__instance V__WL tptp.s__WireLine) (tptp.s__hasPurpose V__WL |tptp.'(? [V__R] : (s__instance(V__R,s__Motion) & s__instance(V__R,s__Radiating) & s__path(V__R,V__WL)))'|)))) (tptp.s__subclass tptp.s__TelephoneLine tptp.s__WireLine) (tptp.s__instance tptp.s__TelephoneLine__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TelephoneLine tptp.s__EnglishLanguage |tptp.'A &%WireLine that carries telephone signals and allows users of &%Telephones or &%Telegraphs to communicate with one another.'|) (forall ((V__TL $$unsorted)) (=> (tptp.s__instance V__TL tptp.s__SelfConnectedObject) (=> (tptp.s__instance V__TL tptp.s__TelephoneLine) (exists ((V__T1 $$unsorted) (V__T2 $$unsorted)) (and (tptp.s__instance V__T2 tptp.s__SelfConnectedObject) (tptp.s__instance V__T1 tptp.s__SelfConnectedObject) (or (tptp.s__instance V__T1 tptp.s__Telephone) (tptp.s__instance V__T1 tptp.s__Telegraph)) (or (tptp.s__instance V__T2 tptp.s__Telephone) (tptp.s__instance V__T2 tptp.s__Telegraph)) (not (= V__T1 V__T2)) (tptp.s__connects V__TL V__T1 V__T2)))))) (tptp.s__subclass tptp.s__String tptp.s__Artifact) (tptp.s__instance tptp.s__String__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__String tptp.s__EnglishLanguage |tptp.'A long, thin strand of Fabric that is used for &%Tying things together, etc. Note that this class covers a cord of any width, including rope, twine, and thread, for example.'|) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__CorpuscularObject) (=> (tptp.s__instance V__S tptp.s__String) (tptp.s__material tptp.s__Fabric V__S)))) (tptp.s__subclass tptp.s__Plug tptp.s__Artifact) (tptp.s__documentation tptp.s__Plug tptp.s__EnglishLanguage |tptp.'An &%Artifact which is designed to fit snugly within a &%Hole.'|) (forall ((V__PLUG $$unsorted)) (=> (tptp.s__instance V__PLUG tptp.s__Object) (=> (tptp.s__instance V__PLUG tptp.s__Plug) (exists ((V__HOLE $$unsorted)) (and (tptp.s__instance V__HOLE tptp.s__Hole) (tptp.s__completelyFills V__PLUG V__HOLE)))))) (tptp.s__subclass tptp.s__Pottery tptp.s__Artifact) (tptp.s__instance tptp.s__Pottery__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Pottery tptp.s__EnglishLanguage |tptp.'Household &%Artifacts that are made out of baked &%Clay.'|) (forall ((V__POTTERY $$unsorted)) (=> (tptp.s__instance V__POTTERY tptp.s__Object) (=> (tptp.s__instance V__POTTERY tptp.s__Pottery) (exists ((V__CLAY $$unsorted)) (and (tptp.s__instance V__CLAY tptp.s__Object) (tptp.s__instance V__CLAY tptp.s__Clay) (tptp.s__part V__CLAY V__POTTERY)))))) (tptp.s__subclass tptp.s__Pillow tptp.s__Artifact) (tptp.s__instance tptp.s__Pillow__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Pillow tptp.s__EnglishLanguage |tptp.'A soft, stuffed &%Artifact to support the &%Head or the body as a whole while one is sleeping or relaxing.'|) (tptp.s__subclass tptp.s__Mirror tptp.s__Artifact) (tptp.s__instance tptp.s__Mirror__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Mirror tptp.s__EnglishLanguage |tptp.'An &%Artifact with a surface that is capable of displaying an image by reflecting light.'|) (forall ((V__M $$unsorted)) (=> (tptp.s__instance V__M tptp.s__Object) (=> (tptp.s__instance V__M tptp.s__Mirror) (tptp.s__capability tptp.s__ReflectingLight tptp.s__instrument__m V__M)))) (tptp.s__subclass tptp.s__Furniture tptp.s__Artifact) (tptp.s__documentation tptp.s__Furniture tptp.s__EnglishLanguage |tptp.'Any free-standing and movable &%Artifacts which which are used in day-to-day living and designed to rest on the &%Floor of a &%Room. This excludes items such as a rock which may serve as a chair but was not created with the intention of supporting that use.'|) (forall ((V__F $$unsorted)) (=> (tptp.s__instance V__F tptp.s__Object) (=> (tptp.s__instance V__F tptp.s__Furniture) (tptp.s__hasPurpose V__F |tptp.'(? [V__FL] : (s__instance(V__FL,s__Object) & s__instance(V__FL,s__Floor) & s__meetsSpatially(V__F,V__FL)))'|)))) (forall ((V__F $$unsorted)) (=> (tptp.s__instance V__F tptp.s__Object) (=> (tptp.s__instance V__F tptp.s__Furniture) (tptp.s__capability tptp.s__Translocation tptp.s__moves__m V__F)))) (tptp.s__disjoint tptp.s__Furniture tptp.s__EngineeringComponent) (tptp.s__disjoint tptp.s__Furniture tptp.s__Machine) (tptp.s__disjoint tptp.s__Furniture tptp.s__TransportationDevice) (tptp.s__disjoint tptp.s__Furniture tptp.s__Weapon) (tptp.s__subclass tptp.s__Seat tptp.s__Furniture) (tptp.s__documentation tptp.s__Seat tptp.s__EnglishLanguage |tptp.'Any instance of &%Furniture which is designed to accommodate &%Humans who are &%Sitting.'|) (forall ((V__SEAT $$unsorted)) (=> (tptp.s__instance V__SEAT tptp.s__Object) (=> (tptp.s__instance V__SEAT tptp.s__Seat) (tptp.s__hasPurpose V__SEAT |tptp.'(? [V__PERSON] : (s__instance(V__PERSON,s__Object) & s__instance(V__PERSON,s__Human) & s__located(V__PERSON,V__SEAT) & s__attribute(V__PERSON,s__Sitting)))'|)))) (tptp.s__subclass tptp.s__Chair tptp.s__Seat) (tptp.s__instance tptp.s__Chair__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Seat__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Chair tptp.s__EnglishLanguage |tptp.'A &%Seat that is designed to accommodate a single &%Human.'|) (forall ((V__CHAIR $$unsorted)) (=> (tptp.s__instance V__CHAIR tptp.s__Object) (=> (tptp.s__instance V__CHAIR tptp.s__Chair) (not (exists ((V__PERSON1 $$unsorted) (V__PERSON2 $$unsorted)) (and (tptp.s__instance V__PERSON2 tptp.s__Object) (tptp.s__instance V__PERSON1 tptp.s__Object) (tptp.s__instance V__PERSON1 tptp.s__Human) (tptp.s__instance V__PERSON2 tptp.s__Human) (tptp.s__attribute V__PERSON1 tptp.s__Sitting) (tptp.s__attribute V__PERSON2 tptp.s__Sitting) (tptp.s__located V__PERSON1 V__CHAIR) (tptp.s__located V__PERSON2 V__CHAIR) (not (= V__PERSON1 V__PERSON2)))))))) (tptp.s__subclass tptp.s__Sofa tptp.s__Seat) (tptp.s__instance tptp.s__Sofa__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sofa tptp.s__EnglishLanguage |tptp.'A padded &%Seat that is designed to accommodate more than one &%Human.'|) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Object) (=> (tptp.s__instance V__S tptp.s__Sofa) (tptp.s__hasPurpose V__S |tptp.'(? [V__P1,V__P2,V__T] : (s__instance(V__T,s__TimePosition) & s__instance(V__P2,s__Object) & s__instance(V__P2,s__Process) & s__instance(V__P1,s__Object) & s__instance(V__P1,s__Process) & (~ (V__P1 = V__P2)) & s__instance(V__P1,s__Human) & s__instance(V__P2,s__Human) & s__holdsDuring(V__T,(s__attribute(V__P1,s__Sitting) & s__attribute(V__P2,s__Sitting) & s__eventLocated(V__P1,V__S) & s__eventLocated(V__P2,V__S)))))'|)))) (tptp.s__subclass tptp.s__Bed tptp.s__Furniture) (tptp.s__instance tptp.s__Furniture__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Bed tptp.s__EnglishLanguage |tptp.'A piece of &%Furniture which is primarily for sleeping.'|) (forall ((V__BED $$unsorted)) (=> (tptp.s__instance V__BED tptp.s__Object) (=> (tptp.s__instance V__BED tptp.s__Bed) (tptp.s__hasPurpose V__BED |tptp.'(? [V__PERSON] : (s__instance(V__PERSON,s__Object) & s__attribute(V__PERSON,s__Asleep) & s__located(V__PERSON,V__BED)))'|)))) (tptp.s__subclass tptp.s__KingBed tptp.s__Bed) (tptp.s__instance tptp.s__KingBed__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__KingBed tptp.s__EnglishLanguage |tptp.'A &%KingBed is a type of &%Bed that is 1.9m by 2.0m in size'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__KingBed |tptp.'king-sized bed'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__KingBed) (and (tptp.s__width V__X (tptp.s__MeasureFn |"1.9"| tptp.s__Meter)) (tptp.s__length V__X (tptp.s__MeasureFn |"2.0"| tptp.s__Meter)))))) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__KingBed) (tptp.s__modalAttribute |tptp.'(? [V__P1,V__P2,V__P3,V__TIME] : (s__instance(V__TIME,s__TimePosition) & s__instance(V__P3,s__Object) & s__instance(V__P2,s__Object) & s__instance(V__P1,s__Object) & (~ (V__P1 = V__P2)) & (~ (V__P2 = V__P3)) & (~ (V__P1 = V__P3)) & s__attribute(V__P1,s__Asleep) & s__attribute(V__P2,s__Asleep) & s__attribute(V__P3,s__Asleep) & s__instance(V__P1,s__Human) & s__instance(V__P2,s__Human) & s__instance(V__P3,s__Human) & s__holdsDuring(V__TIME,(s__located(V__P1,V__X) & s__located(V__P2,V__X) & s__located(V__P3,V__X)))))'| tptp.s__Possibility)))) (tptp.s__subclass tptp.s__QueenBed tptp.s__Bed) (tptp.s__instance tptp.s__QueenBed__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__QueenBed tptp.s__EnglishLanguage |tptp.'A &%QueenBed is a type of &%Bed that is 1.5m by 2.0m in size'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__QueenBed |tptp.'queen-sized bed'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__QueenBed) (and (tptp.s__width V__X (tptp.s__MeasureFn |"1.5"| tptp.s__Meter)) (tptp.s__length V__X (tptp.s__MeasureFn |"2.0"| tptp.s__Meter)))))) (forall ((V__TIME $$unsorted) (V__P3 $$unsorted) (V__X $$unsorted)) (=> (and (tptp.s__instance V__X tptp.s__Object) (tptp.s__instance V__TIME tptp.s__TimePosition)) (=> (tptp.s__instance V__X tptp.s__QueenBed) (tptp.s__modalAttribute |tptp.'(? [V__P1,V__P2] : (s__instance(V__P2,s__Object) & s__instance(V__P1,s__Object) & (~ (V__P1 = V__P2)) & (~ (V__P2 = V__P3)) & s__attribute(V__P1,s__Asleep) & s__attribute(V__P2,s__Asleep) & s__instance(V__P1,s__Human) & s__instance(V__P2,s__Human) & s__holdsDuring(V__TIME,(s__located(V__P1,V__X) & s__located(V__P2,V__X)))))'| tptp.s__Possibility)))) (tptp.s__subclass tptp.s__DoubleBed tptp.s__Bed) (tptp.s__instance tptp.s__DoubleBed__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__DoubleBed tptp.s__EnglishLanguage |tptp.'A &%DoubleBed is a type of &%Bed that is 1.35m by 2.0m in size'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__DoubleBed |tptp.'full-sized bed'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__DoubleBed) (and (tptp.s__width V__X (tptp.s__MeasureFn |"1.35"| tptp.s__Meter)) (tptp.s__length V__X (tptp.s__MeasureFn |"2.0"| tptp.s__Meter)))))) (forall ((V__TIME $$unsorted) (V__P3 $$unsorted) (V__X $$unsorted)) (=> (and (tptp.s__instance V__X tptp.s__Object) (tptp.s__instance V__TIME tptp.s__TimePosition)) (=> (tptp.s__instance V__X tptp.s__DoubleBed) (tptp.s__modalAttribute |tptp.'(? [V__P1,V__P2] : (s__instance(V__P2,s__Object) & s__instance(V__P1,s__Object) & (~ (V__P1 = V__P2)) & (~ (V__P2 = V__P3)) & s__attribute(V__P1,s__Asleep) & s__attribute(V__P2,s__Asleep) & s__instance(V__P1,s__Human) & s__instance(V__P2,s__Human) & s__holdsDuring(V__TIME,(s__located(V__P1,V__X) & s__located(V__P2,V__X)))))'| tptp.s__Possibility)))) (tptp.s__subclass tptp.s__SingleBed tptp.s__Bed) (tptp.s__instance tptp.s__SingleBed__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SingleBed tptp.s__EnglishLanguage |tptp.'A &%SingleBed is a type of &%Bed that is 1m by 2.0m in size'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__SingleBed |tptp.'twin-sized bed'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__SingleBed) (and (tptp.s__width V__X (tptp.s__MeasureFn |"1.0"| tptp.s__Meter)) (tptp.s__length V__X (tptp.s__MeasureFn |"2.0"| tptp.s__Meter)))))) (tptp.s__subclass tptp.s__BunkBed tptp.s__Bed) (tptp.s__instance tptp.s__BunkBed__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__BunkBed tptp.s__EnglishLanguage |tptp.'A &%BunkBed is a type of &%Bed has one bed directly above another'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__BunkBed |tptp.'bunk bed'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__BunkBed) (exists ((V__BED1 $$unsorted) (V__BED2 $$unsorted)) (and (tptp.s__instance V__BED2 tptp.s__Object) (tptp.s__instance V__BED1 tptp.s__Object) (tptp.s__instance V__BED1 tptp.s__SingleBed) (tptp.s__instance V__BED2 tptp.s__SingleBed) (tptp.s__part V__BED1 V__X) (tptp.s__part V__BED2 V__X) (tptp.s__orientation V__BED1 V__BED2 tptp.s__Above)))))) (tptp.s__subclass tptp.s__MurphyBed tptp.s__Bed) (tptp.s__instance tptp.s__MurphyBed__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MurphyBed tptp.s__EnglishLanguage |tptp.'A &%MurphyBed is a type of &%Bed that can be stored vertically inside a wall, closet or cabinet'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__MurphyBed |tptp.'pull-down bed'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__MurphyBed) (exists ((V__STORAGE $$unsorted)) (and (tptp.s__instance V__STORAGE tptp.s__Compartment) (tptp.s__meetsSpatially V__STORAGE V__X) (tptp.s__hasPurpose V__STORAGE |tptp.'(? [V__K] : (s__instance(V__K,s__Process) & s__instance(V__STORAGE,s__Object) & s__instance(V__K,s__Keeping) & s__patient(V__K,V__X) & s__destination(V__K,V__STORAGE) & s__holdsDuring(s__WhenFn(V__K),s__attribute(V__X,s__Vertical))))'|)))))) (tptp.s__subclass tptp.s__RollawayBed tptp.s__Bed) (tptp.s__instance tptp.s__RollawayBed__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__RollawayBed tptp.s__EnglishLanguage |tptp.'A &%RollawayBed is a type of &%Bed that is mounted on rollers so that it can be easily moved'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__RollawayBed |tptp.'rollaway bed'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__RollawayBed) (exists ((V__WHEEL $$unsorted)) (and (tptp.s__instance V__WHEEL tptp.s__Object) (tptp.s__instance V__WHEEL tptp.s__Wheel) (tptp.s__part V__WHEEL V__X)))))) (tptp.s__subclass tptp.s__SofaBed tptp.s__Bed) (tptp.s__instance tptp.s__SofaBed__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SofaBed tptp.s__EnglishLanguage |tptp.'A &%SofaBed is a &%Bed that can be kept inside a compartment in a &%Sofa'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__SofaBed |tptp.'sofa bed'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__SofaBed) (exists ((V__SOFA $$unsorted) (V__STORAGE $$unsorted)) (and (tptp.s__instance V__STORAGE tptp.s__Compartment) (tptp.s__part V__STORAGE V__SOFA) (tptp.s__instance V__SOFA tptp.s__Sofa) (tptp.s__hasPurpose V__STORAGE |tptp.'(? [V__K] : (s__instance(V__K,s__Process) & s__instance(V__STORAGE,s__Object) & s__instance(V__SOFA,s__Object) & s__instance(V__K,s__Keeping) & s__patient(V__K,V__X) & s__destination(V__K,V__STORAGE)))'|))))) (tptp.s__subclass tptp.s__Crib tptp.s__Bed) (tptp.s__instance tptp.s__Crib__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Bed__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Crib tptp.s__EnglishLanguage |tptp.'A &%Crib is a &%Bed for babies'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Crib tptp.crib) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__Crib) (tptp.s__hasPurpose V__X |tptp.'(? [V__BABY] : (s__instance(V__BABY,s__Object) & s__instance(V__BABY,s__HumanBaby) & s__attribute(V__BABY,s__Asleep) & s__located(V__BABY,V__X)))'|)))) (tptp.s__subclass tptp.s__Hammock tptp.s__Bed) (tptp.s__instance tptp.s__Hammock__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Hammock tptp.s__EnglishLanguage |tptp.'&%Hammock is a type of &%Bed made of rope or canvas and is suspended between two stationary objects'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Hammock tptp.hammock) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__CorpuscularObject) (=> (tptp.s__instance V__X tptp.s__Hammock) (and (tptp.s__material tptp.s__Fabric V__X) (exists ((V__POLE1 $$unsorted) (V__POLE2 $$unsorted) (V__GROUND $$unsorted)) (and (tptp.s__instance V__GROUND tptp.s__Object) (tptp.s__instance V__POLE2 tptp.s__Object) (tptp.s__instance V__POLE1 tptp.s__Object) (tptp.s__orientation V__POLE1 V__POLE2 tptp.s__Near) (tptp.s__connected V__POLE1 V__X) (tptp.s__connected V__POLE2 V__X) (tptp.s__instance V__GROUND tptp.s__LandArea) (tptp.s__located V__X V__GROUND) (tptp.s__orientation V__X V__GROUND tptp.s__Above))))))) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__Hammock) (tptp.s__hasPurpose V__X |tptp.'(? [V__PROC] : (s__instance(V__PROC,s__Process) & s__instance(V__PROC,s__LyingDown) & s__eventLocated(V__PROC,V__X)))'|)))) (tptp.s__subclass tptp.s__Mattress tptp.s__Artifact) (tptp.s__instance tptp.s__Mattress__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Mattress tptp.s__EnglishLanguage |tptp.'A &%Mattress is a &%component of a &%Bed that is a cushion to make it more comfortable'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Mattress tptp.mattress) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__CorpuscularObject) (=> (tptp.s__instance V__X tptp.s__Mattress) (exists ((V__BED $$unsorted)) (and (tptp.s__instance V__BED tptp.s__CorpuscularObject) (tptp.s__instance V__BED tptp.s__Bed) (tptp.s__component V__X V__BED)))))) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__Mattress) (tptp.s__hasPurpose V__X |tptp.'(? [V__PERSON] : (s__instance(V__PERSON,s__Object) & s__attribute(V__PERSON,s__Asleep) & s__orientation(V__PERSON,V__X,s__On)))'|)))) (tptp.s__subclass tptp.s__BedFrame tptp.s__Artifact) (tptp.s__documentation tptp.s__BedFrame tptp.s__EnglishLanguage |tptp.'A &%BedFrame is a %&component of a &%Bed that supports the mattress'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__BedFrame |tptp.'bed frame'|) (forall ((V__MATTRESS $$unsorted) (V__BEDFRAME $$unsorted) (V__X $$unsorted)) (=> (and (tptp.s__instance V__X tptp.s__CorpuscularObject) (tptp.s__instance V__BEDFRAME tptp.s__CorpuscularObject) (tptp.s__instance V__MATTRESS tptp.s__CorpuscularObject)) (=> (and (tptp.s__instance V__X tptp.s__Bed) (tptp.s__component V__BEDFRAME V__X) (tptp.s__instance V__BEDFRAME tptp.s__BedFrame) (tptp.s__component V__MATTRESS V__X) (tptp.s__instance V__MATTRESS tptp.s__Mattress)) (tptp.s__orientation V__MATTRESS V__BEDFRAME tptp.s__On)))) (tptp.s__subclass tptp.s__FourPosterBed tptp.s__BedFrame) (tptp.s__instance tptp.s__FourPosterBed__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__BedFrame__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FourPosterBed tptp.s__EnglishLanguage |tptp.'&%FourPosterBed is a type of &%BedFrame with a post at each corner to support curtains or a canopy'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__FourPosterBed |tptp.'four-poster bed'|) (forall ((V__SIDE1 $$unsorted) (V__SIDE2 $$unsorted) (V__X $$unsorted) (V__BED $$unsorted)) (=> (tptp.s__instance V__X tptp.s__FourPosterBed) (exists ((V__SHAPE $$unsorted)) (and (tptp.s__attribute V__X V__SHAPE) (tptp.s__instance V__SHAPE tptp.s__Quadrilateral) (forall ((V__CORNER $$unsorted)) (=> (and (tptp.s__instance V__CORNER tptp.s__GeometricPoint) (tptp.s__instance V__CORNER tptp.s__Object) (tptp.s__instance V__BED tptp.s__Object) (tptp.s__instance V__X tptp.s__Object) (tptp.s__instance V__SIDE2 tptp.s__OneDimensionalFigure) (tptp.s__instance V__SIDE1 tptp.s__OneDimensionalFigure)) (=> (and (tptp.s__pointOfIntersection V__SIDE1 V__SIDE2 V__CORNER) (tptp.s__sideOfFigure V__SIDE1 V__SHAPE) (tptp.s__sideOfFigure V__SIDE2 V__SHAPE) (not (= V__SIDE1 V__SIDE2))) (exists ((V__POST $$unsorted) (V__FLOOR $$unsorted)) (and (tptp.s__instance V__FLOOR tptp.s__Object) (tptp.s__instance V__POST tptp.s__Object) (tptp.s__instance V__SHAPE tptp.s__GeometricFigure) (tptp.s__meetsSpatially V__CORNER V__POST) (tptp.s__instance V__POST tptp.s__Artifact) (tptp.s__instance V__FLOOR tptp.s__Floor) (tptp.s__orientation V__BED V__FLOOR tptp.s__On) (tptp.s__orientation V__POST V__FLOOR tptp.s__Vertical)))))))))) (tptp.s__subclass tptp.s__BedAttribute tptp.s__RelationalAttribute) (tptp.s__documentation tptp.s__BedAttribute tptp.s__EnglishLanguage |tptp.'&%BedAttribute is the class of attributes attached to the type of cushion a &%Bed has'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__BedAttribute |tptp.'bed attribute'|) (forall ((V__ATTR $$unsorted) (V__X $$unsorted)) (=> (and (tptp.s__instance V__X tptp.s__Object) (tptp.s__instance V__ATTR tptp.s__Attribute)) (=> (and (tptp.s__attribute V__X V__ATTR) (tptp.s__instance V__ATTR tptp.s__BedAttribute)) (tptp.s__instance V__X tptp.s__Bed)))) (tptp.s__instance tptp.s__WaterBed tptp.s__BedAttribute) (tptp.s__instance tptp.s__BedAttribute__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__WaterBed tptp.s__EnglishLanguage |tptp.'&%WaterBed describes how the cushion of a &%Bed is filled with water'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__WaterBed |tptp.'water bed'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__CorpuscularObject) (=> (tptp.s__attribute V__X tptp.s__WaterBed) (exists ((V__MATTRESS $$unsorted) (V__WATER $$unsorted)) (and (tptp.s__instance V__WATER tptp.s__Object) (tptp.s__instance V__MATTRESS tptp.s__CorpuscularObject) (tptp.s__component V__MATTRESS V__X) (tptp.s__contains V__MATTRESS V__WATER) (tptp.s__instance V__WATER tptp.s__Water)))))) (tptp.s__subclass tptp.s__BedLinen tptp.s__Artifact) (tptp.s__instance tptp.s__BedLinen__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__BedLinen tptp.s__EnglishLanguage |tptp.'&%BedLinen is an &%Artifact made of &%Fabric that is used to &%Covering a &%Bed'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__BedLinen |tptp.'bed linen'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__CorpuscularObject) (=> (tptp.s__instance V__X tptp.s__BedLinen) (tptp.s__material tptp.s__Fabric V__X)))) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__BedLinen) (tptp.s__hasPurpose V__X |tptp.'(? [V__COVER,V__BED] : (s__instance(V__COVER,s__Process) & s__instance(V__COVER,s__Covering) & s__patient(V__COVER,V__BED) & s__instance(V__BED,s__Bed) & s__instrument(V__COVER,V__X)))'|)))) (tptp.s__subclass tptp.s__Table tptp.s__Furniture) (tptp.s__instance tptp.s__Table__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Table tptp.s__EnglishLanguage |tptp.'A piece of &%Furniture with four legs and a flat top. It is used either for eating, paperwork or meetings.'|) (tptp.s__subclass tptp.s__Desk tptp.s__Table) (tptp.s__instance tptp.s__Desk__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Desk tptp.s__EnglishLanguage |tptp.'A &%Table for a single person which is intended to be used for paperwork.'|) (tptp.s__subclass tptp.s__ChestOrCabinet tptp.s__Furniture) (tptp.s__subclass tptp.s__ChestOrCabinet tptp.s__Container) (tptp.s__instance tptp.s__ChestOrCabinet__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ChestOrCabinet tptp.s__EnglishLanguage |tptp.'Any piece of &%Furniture which is also a Container, e.g. a chest of drawers, a memory chest, an armoire, etc.'|) (tptp.s__subclass tptp.s__Coffin tptp.s__Container) (tptp.s__instance tptp.s__Coffin__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Coffin tptp.s__EnglishLanguage |tptp.'A &%Container for a &%HumanCorpse.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Object) (=> (tptp.s__instance V__C tptp.s__Coffin) (tptp.s__hasPurpose V__C |tptp.'(? [V__HC] : (s__instance(V__HC,s__Physical) & s__instance(V__HC,s__HumanCorpse) & s__located(V__HC,V__C)))'|)))) (tptp.s__subclass tptp.s__Compartment tptp.s__Container) (tptp.s__instance tptp.s__Compartment__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Compartment tptp.s__EnglishLanguage |tptp.'A &%Container which is part of another &%Container, e.g. a drawer, a zippered pouch in a piece of luggage, a compartment in a TV dinner, etc.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Object) (=> (tptp.s__instance V__C tptp.s__Compartment) (exists ((V__O $$unsorted)) (and (tptp.s__instance V__O tptp.s__Object) (tptp.s__instance V__O tptp.s__Container) (not (= V__C V__O)) (tptp.s__part V__C V__O)))))) (tptp.s__subclass tptp.s__Mailbox tptp.s__Container) (tptp.s__instance tptp.s__Mailbox__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Mailbox tptp.s__EnglishLanguage |tptp.'A &%Container whose purpose is to receive items that are mailed to the address associated with the &%Mailbox.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Physical) (=> (tptp.s__instance V__B tptp.s__Mailbox) (tptp.s__hasPurpose V__B |tptp.'(? [V__M,V__I] : (s__instance(V__M,s__Process) & s__instance(V__M,s__Mailing) & s__patient(V__M,V__I) & s__destination(V__M,V__B)))'|)))) (tptp.s__subclass tptp.s__Screw tptp.s__AttachingDevice) (tptp.s__instance tptp.s__Screw__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Screw tptp.s__EnglishLanguage |tptp.'An &%AttachingDevice which contains a spiral of grooves to hold it in place and which is fastened with a &%Screwdriver.'|) (tptp.s__subclass tptp.s__Screwdriver tptp.s__Device) (tptp.s__instance tptp.s__Screwdriver__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Screwdriver tptp.s__EnglishLanguage |tptp.'A &%Device that is used to rotate a &%Screw, which by the action of its helical threads is driven into a medium that is softer than the material of the screw itself.'|) (forall ((V__D $$unsorted)) (=> (tptp.s__instance V__D tptp.s__Object) (=> (tptp.s__instance V__D tptp.s__Screwdriver) (tptp.s__hasPurpose V__D |tptp.'(? [V__R,V__S] : (s__instance(V__R,s__Process) & s__instance(V__R,s__Rotating) & s__instrument(V__R,V__D) & s__patient(V__R,V__S) & s__instance(V__S,s__Screw)))'|)))) (tptp.s__subclass tptp.s__Hammer tptp.s__Device) (tptp.s__instance tptp.s__Hammer__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Hammer tptp.s__EnglishLanguage |tptp.'A &%Device that is used to pound &%Nails into a surface, where they become firmly attached.'|) (forall ((V__H $$unsorted)) (=> (tptp.s__instance V__H tptp.s__Object) (=> (tptp.s__instance V__H tptp.s__Hammer) (tptp.s__hasPurpose V__H |tptp.'(? [V__I,V__N] : (s__instance(V__I,s__Process) & s__instance(V__I,s__Impelling) & s__instrument(V__I,V__H) & s__patient(V__I,V__N) & s__instance(V__N,s__Nail)))'|)))) (tptp.s__subclass tptp.s__Nail tptp.s__AttachingDevice) (tptp.s__instance tptp.s__Nail__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Nail tptp.s__EnglishLanguage |tptp.'An &%AttachingDevice which is a thin piece of metal, with or without a head, that is fastened with a &%Hammer.'|) (tptp.s__subclass tptp.s__Tape tptp.s__AttachingDevice) (tptp.s__instance tptp.s__Tape__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Tape tptp.s__EnglishLanguage |tptp.'A thin strip of &%Fabric or &%Paper that is used to attach two things.'|) (forall ((V__TAPE $$unsorted)) (=> (tptp.s__instance V__TAPE tptp.s__Object) (=> (tptp.s__instance V__TAPE tptp.s__Tape) (exists ((V__PART $$unsorted)) (and (tptp.s__instance V__PART tptp.s__Object) (tptp.s__part V__PART V__TAPE) (or (tptp.s__instance V__PART tptp.s__Paper) (tptp.s__instance V__PART tptp.s__Fabric))))))) (tptp.s__subclass tptp.s__Anchor tptp.s__AttachingDevice) (tptp.s__instance tptp.s__Anchor__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Anchor tptp.s__EnglishLanguage |tptp.'An &%AttachingDevice which is large hook or set of hooks that are used to secure a &%WaterVehicle on the open water.'|) (forall ((V__A $$unsorted) (V__S $$unsorted) (V__ATTACH $$unsorted)) (=> (and (tptp.s__instance V__ATTACH tptp.s__Process) (tptp.s__instance V__A tptp.s__Object)) (=> (and (tptp.s__instance V__A tptp.s__Anchor) (tptp.s__instance V__ATTACH tptp.s__Attaching) (tptp.s__instrument V__ATTACH V__A) (tptp.s__patient V__ATTACH V__S)) (tptp.s__instance V__S tptp.s__WaterVehicle)))) (tptp.s__subclass tptp.s__BoatDeck tptp.s__Artifact) (tptp.s__instance tptp.s__BoatDeck__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__BoatDeck tptp.s__EnglishLanguage |tptp.'One of the levels of a &%WaterVehicle, e.g. the upper deck and lower deck of small boats with a cabin.'|) (forall ((V__D $$unsorted)) (=> (tptp.s__instance V__D tptp.s__Object) (=> (tptp.s__instance V__D tptp.s__BoatDeck) (exists ((V__B $$unsorted)) (and (tptp.s__instance V__B tptp.s__Object) (tptp.s__instance V__B tptp.s__WaterVehicle) (tptp.s__part V__D V__B)))))) (tptp.s__subclass tptp.s__Button tptp.s__AttachingDevice) (tptp.s__instance tptp.s__Button__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Button tptp.s__EnglishLanguage |tptp.'An &%AttachingDevice that is used on &%Clothing.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Object) (=> (tptp.s__instance V__B tptp.s__Button) (tptp.s__hasPurpose V__B |tptp.'(? [V__C] : (s__instance(V__C,s__Object) & s__instance(V__C,s__Clothing) & s__part(V__B,V__C)))'|)))) (tptp.s__subclass tptp.s__Clamp tptp.s__AttachingDevice) (tptp.s__instance tptp.s__Clamp__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Clamp tptp.s__EnglishLanguage |tptp.'An &%AttachingDevice which is designed to attach two things together by means of a movable part which can be tightened or loosened.'|) (tptp.s__subclass tptp.s__Holder tptp.s__Device) (tptp.s__documentation tptp.s__Holder tptp.s__EnglishLanguage |tptp.'A large class of &%Devices whose purpose is to hold something else, i.e. be the &%instrument of a &%Keeping.'|) (forall ((V__DEVICE $$unsorted)) (=> (tptp.s__instance V__DEVICE tptp.s__Object) (=> (tptp.s__instance V__DEVICE tptp.s__Holder) (tptp.s__capability tptp.s__Keeping tptp.s__instrument__m V__DEVICE)))) (tptp.s__subclass tptp.s__Saddle tptp.s__Holder) (tptp.s__instance tptp.s__Saddle__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Saddle tptp.s__EnglishLanguage |tptp.'A &%Device which allows a &%Human to ride on a &%Horse.'|) (forall ((V__RIDE $$unsorted) (V__SADDLE $$unsorted)) (=> (tptp.s__instance V__SADDLE tptp.s__Object) (=> (tptp.s__instance V__SADDLE tptp.s__Saddle) (tptp.s__capability (tptp.s__KappaFn V__RIDE |tptp.'(? [V__HUMAN,V__HORSE] : (s__instance(V__HORSE,s__Agent) & s__instance(V__RIDE,s__Carrying) & s__patient(V__RIDE,V__HUMAN) & s__instance(V__HUMAN,s__Human) & s__agent(V__RIDE,V__HORSE) & s__instance(V__HORSE,s__Horse)))'|) tptp.s__instrument__m V__SADDLE)))) (tptp.s__subclass tptp.s__HorseRiding tptp.s__Carrying) (tptp.s__instance tptp.s__HorseRiding__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__HorseRiding tptp.s__EnglishLanguage |tptp.'Any instance of &%Carrying where the &%Animal is a &%Horse.'|) (forall ((V__R $$unsorted)) (=> (tptp.s__instance V__R tptp.s__Process) (=> (tptp.s__instance V__R tptp.s__HorseRiding) (exists ((V__H $$unsorted)) (and (tptp.s__instance V__H tptp.s__Object) (tptp.s__instance V__H tptp.s__Horse) (tptp.s__instrument V__R V__H)))))) (tptp.s__instance tptp.s__carries__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__carries__m |"1"| tptp.s__Agent) (tptp.s__domain tptp.s__carries__m |"2"| tptp.s__Object) (tptp.s__documentation tptp.s__carries__m tptp.s__EnglishLanguage |tptp.'(carries ?AGENT ?OBJECT) means that an &%Agent ?AGENT transers an &%OBJECT ?OBJECT from one point to another'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__carries__m tptp.carries) (forall ((V__OBJECT $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__OBJECT tptp.s__Object)) (=> (tptp.s__carries V__AGENT V__OBJECT) (exists ((V__CARRYING $$unsorted)) (and (tptp.s__instance V__CARRYING tptp.s__Process) (tptp.s__instrument V__CARRYING V__AGENT) (tptp.s__patient V__CARRYING V__OBJECT)))))) (tptp.s__subclass tptp.s__Tray tptp.s__Holder) (tptp.s__instance tptp.s__Tray__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Tray tptp.s__EnglishLanguage |tptp.'A &%Holder that is designed for &%Food, dishes, and flatware.'|) (tptp.s__subclass tptp.s__Dish tptp.s__Holder) (tptp.s__instance tptp.s__Dish__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Dish tptp.s__EnglishLanguage |tptp.'A &%Holder for &%Food while the &%Food is being eaten.'|) (forall ((V__D $$unsorted)) (=> (tptp.s__instance V__D tptp.s__Object) (=> (tptp.s__instance V__D tptp.s__Dish) (tptp.s__hasPurpose V__D |tptp.'(? [V__F,V__E] : (s__instance(V__E,s__Process) & s__instance(V__F,s__Physical) & s__instance(V__E,s__Eating) & s__patient(V__E,V__F) & s__patient(V__E,V__D) & s__instance(V__F,s__FoodForFn(s__Animal)) & s__located(V__F,V__D)))'|)))) (tptp.s__subclass tptp.s__Container tptp.s__Holder) (tptp.s__documentation tptp.s__Container tptp.s__EnglishLanguage |tptp.'Any &%Holder whose purpose is to contain something else. Note that &%Container is more specific in meaning than &%Holder, because a &%Container must have a &%Hole that is at least partially filled by the thing contained.'|) (forall ((V__CONTAINER $$unsorted)) (=> (tptp.s__instance V__CONTAINER tptp.s__SelfConnectedObject) (=> (tptp.s__instance V__CONTAINER tptp.s__Container) (tptp.s__hasPurpose V__CONTAINER |tptp.'(? [V__OBJ] : (s__instance(V__OBJ,s__Object) & s__contains(V__CONTAINER,V__OBJ)))'|)))) (tptp.s__subclass tptp.s__Bag tptp.s__Container) (tptp.s__instance tptp.s__Bag__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Bag tptp.s__EnglishLanguage |tptp.'Any &%Container which is made of &%Fabric.'|) (forall ((V__BAG $$unsorted)) (=> (tptp.s__instance V__BAG tptp.s__Object) (=> (tptp.s__instance V__BAG tptp.s__Bag) (exists ((V__PART $$unsorted)) (and (tptp.s__instance V__PART tptp.s__Object) (tptp.s__part V__PART V__BAG) (tptp.s__instance V__PART tptp.s__Fabric)))))) (tptp.s__subclass tptp.s__Box tptp.s__Container) (tptp.s__instance tptp.s__Box__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Box tptp.s__EnglishLanguage |tptp.'Any six-sided &%Container whose sides are rectangular in shape.'|) (forall ((V__SIDE $$unsorted) (V__BOX $$unsorted)) (=> (tptp.s__instance V__BOX tptp.s__SelfConnectedObject) (=> (tptp.s__instance V__BOX tptp.s__Box) (= (tptp.s__CardinalityFn (tptp.s__KappaFn V__SIDE |tptp.'(s__top(V__SIDE,V__BOX) _ s__bottom(V__SIDE,V__BOX) _ s__side(V__SIDE,V__BOX))'|)) |"6"|)))) (tptp.s__subclass tptp.s__TrapOrCage tptp.s__Holder) (tptp.s__instance tptp.s__TrapOrCage__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Holder__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TrapOrCage tptp.s__EnglishLanguage |tptp.'A &%Device whose purpose is to trap or cage &%Animals, i.e. to be in instrument in an act of &%Confining.'|) (forall ((V__T $$unsorted)) (=> (tptp.s__instance V__T tptp.s__Object) (=> (tptp.s__instance V__T tptp.s__TrapOrCage) (tptp.s__hasPurpose V__T |tptp.'(? [V__C] : (s__instance(V__C,s__Process) & s__instance(V__C,s__Confining) & s__instrument(V__C,V__T)))'|)))) (tptp.s__subclass tptp.s__Envelope tptp.s__Container) (tptp.s__instance tptp.s__Envelope__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Envelope tptp.s__EnglishLanguage |tptp.'A sealable &%Container for one or more pieces of paper which is designed to protect the papers while they are transferred to someone.'|) (tptp.s__subclass tptp.s__TravelContainer tptp.s__Container) (tptp.s__instance tptp.s__TravelContainer__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TravelContainer tptp.s__EnglishLanguage |tptp.'Any &%Container which is intended to be used for carrying clothing, toiletries, and other personal effects that would be needed on a overnight trip.'|) (tptp.s__subclass tptp.s__FluidContainer tptp.s__Container) (tptp.s__instance tptp.s__FluidContainer__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Container__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FluidContainer tptp.s__EnglishLanguage |tptp.'A &%Container which is used to store &%Fluids, i.e. &%Liquids and &%Gases.'|) (forall ((V__TANK $$unsorted) (V__STUFF $$unsorted)) (=> (and (tptp.s__instance V__STUFF tptp.s__Object) (tptp.s__instance V__TANK tptp.s__SelfConnectedObject)) (=> (and (tptp.s__instance V__TANK tptp.s__FluidContainer) (tptp.s__contains V__TANK V__STUFF)) (tptp.s__attribute V__STUFF tptp.s__Fluid)))) (tptp.s__subclass tptp.s__Bottle tptp.s__FluidContainer) (tptp.s__instance tptp.s__Bottle__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Bottle tptp.s__EnglishLanguage |tptp.'A &%Container whose top is narrower than its bottom, which has no handle, and which is intended to store &%Liquids.'|) (forall ((V__BOTTLE $$unsorted) (V__STUFF $$unsorted)) (=> (and (tptp.s__instance V__STUFF tptp.s__Object) (tptp.s__instance V__BOTTLE tptp.s__SelfConnectedObject)) (=> (and (tptp.s__instance V__BOTTLE tptp.s__Bottle) (tptp.s__contains V__BOTTLE V__STUFF)) (tptp.s__attribute V__STUFF tptp.s__Liquid)))) (forall ((V__BOTTLE $$unsorted) (V__WIDTH1 $$unsorted) (V__BOTTOM $$unsorted) (V__WIDTH2 $$unsorted) (V__TOP $$unsorted)) (=> (and (tptp.s__instance V__TOP tptp.s__SelfConnectedObject) (tptp.s__instance V__WIDTH2 tptp.s__LengthMeasure) (tptp.s__instance V__BOTTOM tptp.s__SelfConnectedObject) (tptp.s__instance V__WIDTH1 tptp.s__LengthMeasure) (tptp.s__instance V__BOTTLE tptp.s__SelfConnectedObject)) (=> (and (tptp.s__instance V__BOTTLE tptp.s__Bottle) (tptp.s__bottom V__BOTTOM V__BOTTLE) (tptp.s__top V__TOP V__BOTTLE) (tptp.s__width V__BOTTOM V__WIDTH1) (tptp.s__width V__TOP V__WIDTH2)) (tptp.less V__WIDTH2 V__WIDTH1)))) (tptp.s__subclass tptp.s__DrinkingCup tptp.s__FluidContainer) (tptp.s__instance tptp.s__DrinkingCup__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__DrinkingCup tptp.s__EnglishLanguage |tptp.'An open &%FluidContainer that is intended to serve a &%Beverage to a single person. Note that this class includes both cups with handles and drinking glasses.'|) (forall ((V__STUFF $$unsorted) (V__CUP $$unsorted)) (=> (and (tptp.s__instance V__CUP tptp.s__SelfConnectedObject) (tptp.s__instance V__STUFF tptp.s__Object)) (=> (and (tptp.s__instance V__CUP tptp.s__DrinkingCup) (tptp.s__contains V__CUP V__STUFF)) (tptp.s__instance V__STUFF tptp.s__Beverage)))) (tptp.s__subclass tptp.s__SwimmingPool tptp.s__FluidContainer) (tptp.s__subclass tptp.s__SwimmingPool tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__SwimmingPool__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SwimmingPool tptp.s__EnglishLanguage |tptp.'A &%FluidContainer that is filled with &%Water and that is used for &%Swimming.'|) (forall ((V__P $$unsorted)) (=> (tptp.s__instance V__P tptp.s__Object) (=> (tptp.s__instance V__P tptp.s__SwimmingPool) (tptp.s__hasPurpose V__P |tptp.'(? [V__S] : (s__instance(V__S,s__Process) & s__instance(V__S,s__Swimming) & s__eventLocated(V__S,V__P)))'|)))) (forall ((V__P $$unsorted) (V__F $$unsorted)) (=> (and (tptp.s__instance V__F tptp.s__Object) (tptp.s__instance V__P tptp.s__SelfConnectedObject)) (=> (and (tptp.s__instance V__P tptp.s__SwimmingPool) (tptp.s__contains V__P V__F) (tptp.s__instance V__F tptp.s__Fluid)) (tptp.s__instance V__F tptp.s__Water)))) (tptp.s__subclass tptp.s__BoardOrBlock tptp.s__Artifact) (tptp.s__instance tptp.s__BoardOrBlock__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__BoardOrBlock tptp.s__EnglishLanguage |tptp.'A piece of material with flat, rectangular sides. Note that boards and blocks are lumped into a single concept, because the difference between these notions cannot be precisely defined.'|) (forall ((V__BOARD $$unsorted)) (=> (tptp.s__instance V__BOARD tptp.s__Object) (=> (tptp.s__instance V__BOARD tptp.s__BoardOrBlock) (tptp.s__capability tptp.s__Constructing tptp.s__resource__m V__BOARD)))) (tptp.s__subclass tptp.s__Brick tptp.s__BoardOrBlock) (tptp.s__instance tptp.s__Brick__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Brick tptp.s__EnglishLanguage |tptp.'A block of fired &%Clay that is used in &%Constructing.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__CorpuscularObject) (=> (tptp.s__instance V__B tptp.s__Brick) (tptp.s__material tptp.s__Clay V__B)))) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Object) (=> (tptp.s__instance V__B tptp.s__Brick) (tptp.s__hasPurpose V__B |tptp.'(? [V__C] : (s__instance(V__C,s__Process) & s__instance(V__C,s__Constructing) & s__resource(V__C,V__B)))'|)))) (tptp.s__instance tptp.s__tangent__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__tangent__m |"1"| tptp.s__OneDimensionalFigure) (tptp.s__domain tptp.s__tangent__m |"2"| tptp.s__TwoDimensionalObject) (tptp.s__documentation tptp.s__tangent__m tptp.s__EnglishLanguage |tptp.'(&%tangent ?LINE ?CIRCLE) means that the straight line ?LINE is tangent to the figure ?CIRCLE, i.e. ?LINE touches ?CIRCLE without intersecting it.'|) (forall ((V__CIRCLE $$unsorted) (V__LINE $$unsorted)) (=> (tptp.s__tangent V__LINE V__CIRCLE) (exists ((V__POINT1 $$unsorted)) (and (tptp.s__instance V__POINT1 tptp.s__GeometricPoint) (tptp.s__pointOfFigure V__POINT1 V__LINE) (tptp.s__pointOfFigure V__POINT1 V__CIRCLE) (forall ((V__POINT2 $$unsorted)) (=> (and (tptp.s__instance V__POINT2 tptp.s__GeometricPoint) (tptp.s__instance V__LINE tptp.s__OneDimensionalFigure) (tptp.s__instance V__CIRCLE tptp.s__TwoDimensionalObject) (tptp.s__instance V__CIRCLE tptp.s__GeometricFigure)) (=> (and (tptp.s__pointOfFigure V__POINT2 V__LINE) (tptp.s__pointOfFigure V__POINT2 V__CIRCLE)) (= V__POINT1 V__POINT2)))))))) (tptp.s__subclass tptp.s__TwoDimensionalObject tptp.s__Object) (tptp.s__instance tptp.s__TwoDimensionalObject__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TwoDimensionalObject tptp.s__EnglishLanguage |tptp.'A real-world physical object with a very flat aspect. This includes drawings on paper, cave paintings and other surface alterations.'|) (forall ((V__T $$unsorted)) (=> (tptp.s__instance V__T tptp.s__Object) (=> (tptp.s__instance V__T tptp.s__TwoDimensionalObject) (tptp.s__attribute V__T tptp.s__TwoDimensionalFigure)))) (tptp.s__instance tptp.s__sliceOfFigure__m tptp.s__BinaryPredicate) (tptp.s__documentation tptp.s__sliceOfFigure__m tptp.s__EnglishLanguage |tptp.'(sliceOfFigure ?SLICE ?FIGURE) indicates that ?SLICE is a 2-d section of the 3-d figure ?FIGURE. Or, more formally, ?SLICE is 2-d figure formed by the intersection of a plane with the 3-d figure ?FIGURE.'|) (tptp.s__domain tptp.s__sliceOfFigure__m |"1"| tptp.s__TwoDimensionalObject) (tptp.s__domain tptp.s__sliceOfFigure__m |"2"| tptp.s__CorpuscularObject) (tptp.s__instance tptp.s__RoundShape tptp.s__ThreeDimensionalFigure) (tptp.s__documentation tptp.s__RoundShape tptp.s__EnglishLanguage |tptp.'Any &%ThreeDimensionalFigure that has a single tangent at every point on its surface.'|) (forall ((V__O $$unsorted) (V__TO $$unsorted)) (=> (tptp.s__attribute V__O tptp.s__RoundShape) (forall ((V__P $$unsorted)) (=> (and (tptp.s__instance V__P tptp.s__GeometricPoint) (tptp.s__instance V__P tptp.s__Object) (tptp.s__instance V__O tptp.s__Object) (tptp.s__instance V__O tptp.s__GeometricFigure)) (and (tptp.s__pointOfFigure V__P V__O) (tptp.s__instance V__TO tptp.s__TwoDimensionalObject) (tptp.s__meetsSpatially V__P V__O) (tptp.s__meetsSpatially V__P V__TO) (exists ((V__T $$unsorted)) (and (tptp.s__instance V__T tptp.s__OneDimensionalFigure) (tptp.s__tangent V__T V__TO)))))))) (tptp.s__subclass tptp.s__Cone tptp.s__ThreeDimensionalFigure) (tptp.s__instance tptp.s__Cone__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Cone tptp.s__EnglishLanguage |tptp.'The class of &%ThreeDimensionalFigures which are produced by rotating a &%RightTriangle around its &%RightAngle.'|) (tptp.s__subclass tptp.s__Cylinder tptp.s__ThreeDimensionalFigure) (tptp.s__instance tptp.s__Cylinder__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Cylinder tptp.s__EnglishLanguage |tptp.'The class of &%ThreeDimensionalFigures such that all &%GeometricPoints that make up the &%Cylinder are equidistant from a &%OneDimensionalFigure, known as the axis of the &%Cylinder.'|) (tptp.s__subclass tptp.s__ObliqueAngle tptp.s__TwoDimensionalAngle) (tptp.s__instance tptp.s__ObliqueAngle__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ObliqueAngle tptp.s__EnglishLanguage |tptp.'Any &%TwoDimensionalAngle that has an &%angularMeasure that is greater than 90 &%AngularDegrees.'|) (forall ((V__A $$unsorted) (V__N $$unsorted)) (=> (and (tptp.s__instance V__N tptp.s__RealNumber) (tptp.s__instance V__A tptp.s__TwoDimensionalAngle)) (=> (and (tptp.s__instance V__A tptp.s__ObliqueAngle) (tptp.s__angularMeasure V__A (tptp.s__MeasureFn V__N tptp.s__AngularDegree))) (tptp.greater V__N |"90"|)))) (tptp.s__subclass tptp.s__RightAngle tptp.s__TwoDimensionalAngle) (tptp.s__instance tptp.s__RightAngle__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__RightAngle tptp.s__EnglishLanguage |tptp.'Any &%TwoDimensionalAngle that has the &%angularMeasure of 90 &%AngularDegrees.'|) (forall ((V__A $$unsorted)) (=> (tptp.s__instance V__A tptp.s__TwoDimensionalAngle) (=> (tptp.s__instance V__A tptp.s__RightAngle) (tptp.s__angularMeasure V__A (tptp.s__MeasureFn |"90"| tptp.s__AngularDegree))))) (tptp.s__subclass tptp.s__AcuteAngle tptp.s__TwoDimensionalAngle) (tptp.s__instance tptp.s__AcuteAngle__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AcuteAngle tptp.s__EnglishLanguage |tptp.'Any &%TwoDimensionalAngle that has an &%angularMeasure that is less than 90 &%AngularDegrees.'|) (tptp.s__partition_4 tptp.s__TwoDimensionalAngle tptp.s__RightAngle tptp.s__ObliqueAngle tptp.s__AcuteAngle) (forall ((V__A $$unsorted) (V__N $$unsorted)) (=> (and (tptp.s__instance V__N tptp.s__RealNumber) (tptp.s__instance V__A tptp.s__TwoDimensionalAngle)) (=> (and (tptp.s__instance V__A tptp.s__AcuteAngle) (tptp.s__angularMeasure V__A (tptp.s__MeasureFn V__N tptp.s__AngularDegree))) (tptp.less V__N |"90"|)))) (tptp.s__subclass tptp.s__Polygon tptp.s__ClosedTwoDimensionalFigure) (tptp.s__instance tptp.s__Polygon__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Polygon tptp.s__EnglishLanguage |tptp.'A &%ClosedTwoDimensionalFigure that is composed exclusively of straight lines, i.e. &%OneDimensionalFigures.'|) (forall ((V__POLYGON $$unsorted) (V__PART $$unsorted)) (=> (and (tptp.s__instance V__PART tptp.s__OneDimensionalFigure) (tptp.s__instance V__POLYGON tptp.s__GeometricFigure)) (=> (tptp.s__instance V__POLYGON tptp.s__Polygon) (=> (tptp.s__geometricPart V__PART V__POLYGON) (or (tptp.s__sideOfFigure V__PART V__POLYGON) (exists ((V__SIDE $$unsorted)) (and (tptp.s__instance V__SIDE tptp.s__OneDimensionalFigure) (tptp.s__sideOfFigure V__SIDE V__POLYGON) (tptp.s__geometricPart V__PART V__SIDE)))))))) (tptp.s__subclass tptp.s__Triangle tptp.s__Polygon) (tptp.s__documentation tptp.s__Triangle tptp.s__EnglishLanguage |tptp.'Any three-sided &%Polygon.'|) (tptp.s__subclass tptp.s__RightTriangle tptp.s__Triangle) (tptp.s__instance tptp.s__RightTriangle__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Triangle__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__RightTriangle tptp.s__EnglishLanguage |tptp.'Any &%Triangle that contains a &%RightAngle.'|) (forall ((V__T $$unsorted)) (=> (tptp.s__instance V__T tptp.s__GeometricFigure) (=> (tptp.s__instance V__T tptp.s__RightTriangle) (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__TwoDimensionalAngle) (tptp.s__instance V__A tptp.s__RightAngle) (tptp.s__angleOfFigure V__A V__T)))))) (tptp.s__subclass tptp.s__Quadrilateral tptp.s__Polygon) (tptp.s__documentation tptp.s__Quadrilateral tptp.s__EnglishLanguage |tptp.'Any four-sided &%Polygon.'|) (tptp.s__subclass tptp.s__Rectangle tptp.s__Quadrilateral) (tptp.s__instance tptp.s__Rectangle__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Quadrilateral__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Rectangle tptp.s__EnglishLanguage |tptp.'Any &%Quadrilateral whose angles are all &%RightAngles.'|) (forall ((V__ANGLE $$unsorted) (V__RECTANGLE $$unsorted)) (=> (and (tptp.s__instance V__RECTANGLE tptp.s__GeometricFigure) (tptp.s__instance V__ANGLE tptp.s__TwoDimensionalAngle)) (=> (tptp.s__instance V__RECTANGLE tptp.s__Rectangle) (=> (tptp.s__angleOfFigure V__ANGLE V__RECTANGLE) (tptp.s__instance V__ANGLE tptp.s__RightAngle))))) (tptp.s__subclass tptp.s__Square tptp.s__Rectangle) (tptp.s__instance tptp.s__Square__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Square tptp.s__EnglishLanguage |tptp.'Any &%Rectangle whose sides are all equal.'|) (forall ((V__SQUARE $$unsorted)) (=> (tptp.s__instance V__SQUARE tptp.s__Square) (exists ((V__LENGTH $$unsorted)) (and (tptp.s__instance V__LENGTH tptp.s__LengthMeasure) (forall ((V__SIDE $$unsorted)) (=> (and (tptp.s__instance V__SIDE tptp.s__OneDimensionalFigure) (tptp.s__instance V__SQUARE tptp.s__GeometricFigure)) (=> (tptp.s__sideOfFigure V__SIDE V__SQUARE) (tptp.s__lineMeasure V__SIDE V__LENGTH)))))))) (tptp.s__documentation tptp.s__DiameterFn__m tptp.s__EnglishLanguage |tptp.'(DiameterFn ?CIRCLE) denotes the length of the diameter of the &%Circle ?CIRCLE.'|) (tptp.s__instance tptp.s__DiameterFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__DiameterFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__DiameterFn__m |"1"| tptp.s__Circle) (tptp.s__range tptp.s__DiameterFn__m tptp.s__LengthMeasure) (forall ((V__C $$unsorted) (V__L $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Circle) (=> (= (tptp.s__DiameterFn V__C) V__L) (exists ((V__R $$unsorted)) (and (tptp.s__instance V__R tptp.s__Quantity) (= (tptp.s__RadiusFn V__C) V__R) (= (tptp.times V__R |"2"|) V__L)))))) (tptp.s__documentation tptp.s__RadiusFn__m tptp.s__EnglishLanguage |tptp.'(RadiusFn ?CIRCLE) denotes the length of the radius of the &%Circle ?CIRCLE.'|) (tptp.s__instance tptp.s__RadiusFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__RadiusFn__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__RadiusFn__m |"1"| tptp.s__Circle) (tptp.s__range tptp.s__RadiusFn__m tptp.s__LengthMeasure) (forall ((V__P $$unsorted) (V__R $$unsorted) (V__P2 $$unsorted) (V__C $$unsorted)) (=> (and (tptp.s__instance V__C tptp.s__Circle) (tptp.s__instance V__P2 tptp.s__GeometricPoint) (tptp.s__instance V__R tptp.s__LengthMeasure) (tptp.s__instance V__P tptp.s__GeometricPoint)) (=> (and (= (tptp.s__CenterOfCircleFn V__C) V__P) (tptp.s__pointOfFigure V__P2 V__C) (tptp.s__geometricDistance V__P2 V__P V__R)) (= (tptp.s__RadiusFn V__C) V__R)))) (tptp.s__subclass tptp.s__CircleSector tptp.s__ClosedTwoDimensionalFigure) (tptp.s__instance tptp.s__CircleSector__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__CircleSector tptp.s__EnglishLanguage |tptp.'A slice of a &%Circle, i.e. any &%ClosedTwoDimensionalFigure which consists of two Radii and the arc of the &%Circle that they bound.'|) (tptp.s__subrelation tptp.s__sideOfFigure__m tptp.s__geometricPart__m) (tptp.s__domain tptp.s__sideOfFigure__m |"1"| tptp.s__OneDimensionalFigure) (tptp.s__domain tptp.s__sideOfFigure__m |"2"| tptp.s__GeometricFigure) (tptp.s__documentation tptp.s__sideOfFigure__m tptp.s__EnglishLanguage |tptp.'(&%sideOfFigure ?SIDE ?FIGURE) means that the &%OneDimensionalFigure ?POINT is a side of the &%GeometricFigure ?FIGURE.'|) (tptp.s__subclass tptp.s__Sphere tptp.s__ThreeDimensionalFigure) (tptp.s__instance tptp.s__Sphere__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sphere tptp.s__EnglishLanguage |tptp.'The class of &%ThreeDimensionalFigures such that all &%GeometricPoints that make up the &%Sphere are equidistant from a single &%GeometricPoint, known as the center of the &%Sphere.'|) (forall ((V__OBJ $$unsorted) (V__SPHERE $$unsorted)) (=> (and (tptp.s__attribute V__OBJ V__SPHERE) (tptp.s__instance V__SPHERE tptp.s__Sphere)) (exists ((V__CENTER $$unsorted) (V__DIST $$unsorted)) (and (tptp.s__instance V__DIST tptp.s__LengthMeasure) (tptp.s__instance V__CENTER tptp.s__GeometricPoint) (forall ((V__PT $$unsorted)) (=> (and (tptp.s__instance V__PT tptp.s__GeometricPoint) (tptp.s__instance V__SPHERE tptp.s__Attribute) (tptp.s__instance V__OBJ tptp.s__Object) (tptp.s__instance V__OBJ tptp.s__GeometricFigure)) (=> (tptp.s__pointOfFigure V__PT V__OBJ) (tptp.s__geometricDistance V__PT V__CENTER V__DIST)))))))) (tptp.s__subclass tptp.s__Bubble tptp.s__CorpuscularObject) (tptp.s__instance tptp.s__Bubble__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Bubble tptp.s__EnglishLanguage |tptp.'A globe which has a &%Liquid surface and which contains a &%Gas.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__SelfConnectedObject) (=> (tptp.s__instance V__B tptp.s__Bubble) (exists ((V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__SelfConnectedObject) (tptp.s__surface V__S V__B) (tptp.s__attribute V__S tptp.s__Liquid)))))) (forall ((V__P $$unsorted) (V__B $$unsorted)) (=> (and (tptp.s__instance V__B tptp.s__Object) (tptp.s__instance V__P tptp.s__Object)) (=> (and (tptp.s__instance V__B tptp.s__Bubble) (tptp.s__interiorPart V__P V__B)) (tptp.s__attribute V__P tptp.s__Gas)))) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Object) (=> (and (tptp.s__instance V__B tptp.s__Bubble) (not (exists ((V__X $$unsorted) (V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__Attribute) (tptp.s__instance V__X tptp.s__Object) (tptp.s__attribute V__X V__S) (not (= V__X tptp.s__Gas)) (tptp.s__meetsSpatially V__X V__B))))) (tptp.s__attribute V__B tptp.s__RoundShape)))) (tptp.s__subclass tptp.s__Nest tptp.s__CorpuscularObject) (tptp.s__instance tptp.s__Nest__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Nest tptp.s__EnglishLanguage |tptp.'Any structure which is created by nonhuman &%Animals for the purpose of giving birth to their offspring.'|) (forall ((V__NEST $$unsorted)) (=> (tptp.s__instance V__NEST tptp.s__Object) (=> (tptp.s__instance V__NEST tptp.s__Nest) (tptp.s__hasPurpose V__NEST |tptp.'(? [V__BIRTH] : (s__instance(V__BIRTH,s__Process) & s__instance(V__BIRTH,s__Birth) & s__eventLocated(V__BIRTH,V__NEST)))'|)))) (tptp.s__subclass tptp.s__OutdoorClothing tptp.s__Clothing) (tptp.s__instance tptp.s__OutdoorClothing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__OutdoorClothing tptp.s__EnglishLanguage |tptp.'&%Clothing that is intended to be worn outdoors.'|) (tptp.s__subclass tptp.s__Apron tptp.s__Clothing) (tptp.s__instance tptp.s__Apron__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Apron tptp.s__EnglishLanguage |tptp.'An item of &%Clothing that protects the front and middle part of the body while one is &%Cooking or doing other work.'|) (forall ((V__A $$unsorted)) (=> (tptp.s__instance V__A tptp.s__WearableItem) (=> (tptp.s__instance V__A tptp.s__Apron) (tptp.s__hasPurpose V__A |tptp.'(? [V__P,V__C] : (s__instance(V__C,s__Process) & s__instance(V__P,s__Animal) & s__instance(V__C,s__Cooking) & s__agent(V__C,V__P) & s__holdsDuring(s__WhenFn(V__C),s__wears(V__P,V__A))))'|)))) (tptp.s__subclass tptp.s__Belt tptp.s__Clothing) (tptp.s__instance tptp.s__Belt__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Belt tptp.s__EnglishLanguage |tptp.'A piece of &%Clothing that is worn around the waist to restrain another piece of clothing.'|) (forall ((V__P $$unsorted) (V__B $$unsorted)) (=> (and (tptp.s__instance V__B tptp.s__WearableItem) (tptp.s__instance V__P tptp.s__Animal)) (=> (and (tptp.s__wears V__P V__B) (tptp.s__instance V__B tptp.s__Belt)) (exists ((V__C $$unsorted)) (and (tptp.s__instance V__C tptp.s__WearableItem) (tptp.s__instance V__C tptp.s__Clothing) (tptp.s__wears V__P V__C) (tptp.s__meetsSpatially V__B V__C)))))) (tptp.s__subclass tptp.s__TieClothing tptp.s__Clothing) (tptp.s__instance tptp.s__TieClothing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TieClothing tptp.s__EnglishLanguage |tptp.'&%Clothing that is intended to be worn around the &%Neck and knotted at the front.'|) (forall ((V__P $$unsorted) (V__T $$unsorted)) (=> (and (tptp.s__instance V__T tptp.s__WearableItem) (tptp.s__instance V__T tptp.s__SelfConnectedObject) (tptp.s__instance V__P tptp.s__Animal)) (=> (and (tptp.s__wears V__P V__T) (tptp.s__instance V__T tptp.s__TieClothing)) (exists ((V__N $$unsorted)) (and (tptp.s__instance V__N tptp.s__Object) (tptp.s__instance V__N tptp.s__Neck) (tptp.s__part V__N V__P) (tptp.s__contains V__T V__N)))))) (tptp.s__subclass tptp.s__Cloak tptp.s__Clothing) (tptp.s__instance tptp.s__Cloak__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Cloak tptp.s__EnglishLanguage |tptp.'A piece of &%Clothing that covers the whole body except the face (and possibly entire head), hands, and feet.'|) (tptp.s__subclass tptp.s__Collar tptp.s__Clothing) (tptp.s__instance tptp.s__Collar__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Collar tptp.s__EnglishLanguage |tptp.'A piece of &%Clothing that fits around the &%Neck. A &%Collar is always part of a &%Coat or a &%Shirt.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Object) (=> (tptp.s__instance V__C tptp.s__Collar) (exists ((V__OC $$unsorted)) (and (tptp.s__instance V__OC tptp.s__Object) (tptp.s__part V__C V__OC) (or (tptp.s__instance V__OC tptp.s__Coat) (tptp.s__instance V__OC tptp.s__Shirt))))))) (forall ((V__P $$unsorted) (V__C $$unsorted)) (=> (and (tptp.s__instance V__C tptp.s__WearableItem) (tptp.s__instance V__P tptp.s__Animal)) (=> (and (tptp.s__wears V__P V__C) (tptp.s__instance V__C tptp.s__Collar)) (exists ((V__N $$unsorted)) (and (tptp.s__instance V__N tptp.s__Object) (tptp.s__instance V__N tptp.s__Neck) (tptp.s__part V__N V__P) (tptp.s__meetsSpatially V__C V__N)))))) (tptp.s__subclass tptp.s__Glove tptp.s__Clothing) (tptp.s__instance tptp.s__Glove__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Glove tptp.s__EnglishLanguage |tptp.'Clothing that is intended to be worn on the &%Hand. Note that this class covers both gloves which have individual compartments for each of the &%Fingers and mittens.'|) (forall ((V__P $$unsorted) (V__G $$unsorted)) (=> (and (tptp.s__instance V__G tptp.s__WearableItem) (tptp.s__instance V__P tptp.s__Animal)) (=> (and (tptp.s__wears V__P V__G) (tptp.s__instance V__G tptp.s__Glove)) (exists ((V__H $$unsorted)) (and (tptp.s__instance V__H tptp.s__Object) (tptp.s__instance V__H tptp.s__Hand) (tptp.s__part V__H V__P) (tptp.s__meetsSpatially V__G V__H)))))) (tptp.s__subclass tptp.s__Hat tptp.s__Clothing) (tptp.s__instance tptp.s__Hat__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Hat tptp.s__EnglishLanguage |tptp.'A type of &%Clothing that is worn on the &%Head. Note that this class covers caps, bonnets, berets, etc.'|) (forall ((V__PERSON $$unsorted) (V__HAT $$unsorted)) (=> (and (tptp.s__instance V__HAT tptp.s__WearableItem) (tptp.s__instance V__PERSON tptp.s__Animal)) (=> (and (tptp.s__wears V__PERSON V__HAT) (tptp.s__instance V__HAT tptp.s__Hat)) (exists ((V__HEAD $$unsorted)) (and (tptp.s__instance V__HEAD tptp.s__Object) (tptp.s__instance V__HEAD tptp.s__Head) (tptp.s__part V__HEAD V__PERSON) (tptp.s__meetsSpatially V__HAT V__HEAD)))))) (tptp.s__subclass tptp.s__Coat tptp.s__OutdoorClothing) (tptp.s__instance tptp.s__Coat__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Coat tptp.s__EnglishLanguage |tptp.'&%Clothing that has sleeves and covers from the neck down. &%Coats are intended to be worn outdoors.'|) (tptp.s__subclass tptp.s__Trousers tptp.s__Clothing) (tptp.s__instance tptp.s__Trousers__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Trousers tptp.s__EnglishLanguage |tptp.'A piece of &%Clothing that covers each &%Leg of a person separately.'|) (forall ((V__T $$unsorted) (V__H $$unsorted)) (=> (and (tptp.s__instance V__H tptp.s__Animal) (tptp.s__instance V__T tptp.s__WearableItem) (tptp.s__instance V__T tptp.s__SelfConnectedObject)) (=> (and (tptp.s__wears V__H V__T) (tptp.s__instance V__T tptp.s__Trousers)) (exists ((V__L $$unsorted)) (and (tptp.s__instance V__L tptp.s__Object) (tptp.s__instance V__L tptp.s__Leg) (tptp.s__part V__L V__H) (tptp.s__contains V__T V__L)))))) (tptp.s__subclass tptp.s__Shoe tptp.s__Clothing) (tptp.s__instance tptp.s__Shoe__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Shoe tptp.s__EnglishLanguage |tptp.'&%Clothing that is intended to be worn on the &%Foot. It consists of an upper, a sole, and a heel.'|) (forall ((V__PERSON $$unsorted) (V__SHOE $$unsorted)) (=> (and (tptp.s__instance V__SHOE tptp.s__WearableItem) (tptp.s__instance V__PERSON tptp.s__Animal)) (=> (and (tptp.s__wears V__PERSON V__SHOE) (tptp.s__instance V__SHOE tptp.s__Shoe)) (exists ((V__FOOT $$unsorted)) (and (tptp.s__instance V__FOOT tptp.s__Object) (tptp.s__instance V__FOOT tptp.s__Foot) (tptp.s__part V__FOOT V__PERSON) (tptp.s__meetsSpatially V__SHOE V__FOOT)))))) (tptp.s__documentation tptp.s__ShoeSole tptp.s__EnglishLanguage |tptp.'The bottom part of a &%Shoe that is intended to be the point of contact with the ground while the shoe is being worn.'|) (tptp.s__subclass tptp.s__ShoeSole tptp.s__Artifact) (tptp.s__instance tptp.s__ShoeSole__t tptp.s__SetOrClass) (forall ((V__SS $$unsorted)) (=> (tptp.s__instance V__SS tptp.s__SelfConnectedObject) (=> (tptp.s__instance V__SS tptp.s__ShoeSole) (exists ((V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__SelfConnectedObject) (tptp.s__instance V__S tptp.s__Shoe) (tptp.s__bottom V__SS V__S)))))) (tptp.s__documentation tptp.s__Sandal tptp.s__EnglishLanguage |tptp.'Any kind of open shoe lacking a markedly thicker heel. The toe may be enclosed, but there must be some opening in the upper other than the &%Hole through which the foot is inserted.'|) (tptp.s__subclass tptp.s__Sandal tptp.s__Shoe) (tptp.s__instance tptp.s__Sandal__t tptp.s__SetOrClass) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Sandal) (exists ((V__H1 $$unsorted) (V__H2 $$unsorted)) (and (tptp.s__instance V__H1 tptp.s__Hole) (tptp.s__instance V__H2 tptp.s__Hole) (not (= V__H1 V__H2)) (tptp.s__hasPurpose V__H1 |tptp.'(? [V__D,V__F,V__A,V__I] : (s__instance(V__I,s__Process) & s__instance(V__A,s__Agent) & s__instance(V__F,s__Object) & s__instance(V__D,s__Process) & s__instance(V__H1,s__Physical) & s__instance(V__D,s__Dressing) & s__instance(V__F,s__Foot) & s__agent(V__D,V__A) & s__part(V__F,V__A) & s__subProcess(V__I,V__D) & s__instance(V__I,s__Inserting) & s__patient(V__I,V__F) & s__destination(V__I,V__H1)))'|))))) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Object) (=> (tptp.s__instance V__S tptp.s__Sandal) (exists ((V__SOLE $$unsorted)) (and (tptp.s__instance V__SOLE tptp.s__Object) (tptp.s__instance V__SOLE tptp.s__ShoeSole) (tptp.s__part V__SOLE V__S) (tptp.s__attribute V__SOLE tptp.s__Flat)))))) (tptp.s__subclass tptp.s__Sock tptp.s__Clothing) (tptp.s__instance tptp.s__Sock__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sock tptp.s__EnglishLanguage |tptp.'A piece of &%Clothing that is made of a soft &%Fabric like &%Cotton and that is intended to be worn on the &%Foot.'|) (forall ((V__P $$unsorted) (V__S $$unsorted)) (=> (and (tptp.s__instance V__S tptp.s__WearableItem) (tptp.s__instance V__S tptp.s__SelfConnectedObject) (tptp.s__instance V__P tptp.s__Animal)) (=> (and (tptp.s__wears V__P V__S) (tptp.s__instance V__S tptp.s__Sock)) (exists ((V__F $$unsorted)) (and (tptp.s__instance V__F tptp.s__Object) (tptp.s__instance V__F tptp.s__Foot) (tptp.s__part V__F V__P) (tptp.s__contains V__S V__F)))))) (tptp.s__subclass tptp.s__Shirt tptp.s__Clothing) (tptp.s__instance tptp.s__Shirt__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Shirt tptp.s__EnglishLanguage |tptp.'An item of &%Clothing which covers the upper body of a &%Human.'|) (forall ((V__SHIRT $$unsorted) (V__PERSON $$unsorted)) (=> (and (tptp.s__instance V__PERSON tptp.s__Animal) (tptp.s__instance V__SHIRT tptp.s__WearableItem)) (=> (and (tptp.s__instance V__SHIRT tptp.s__Shirt) (tptp.s__wears V__PERSON V__SHIRT)) (tptp.s__instance V__PERSON tptp.s__Human)))) (tptp.s__subclass tptp.s__Sleeve tptp.s__Clothing) (tptp.s__instance tptp.s__Sleeve__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sleeve tptp.s__EnglishLanguage |tptp.'A piece of &%Clothing that covers the Arm. A &%Sleeve is always part of a &%Coat or a &%Shirt.'|) (forall ((V__P $$unsorted) (V__S $$unsorted)) (=> (and (tptp.s__instance V__S tptp.s__WearableItem) (tptp.s__instance V__S tptp.s__SelfConnectedObject) (tptp.s__instance V__P tptp.s__Animal)) (=> (and (tptp.s__wears V__P V__S) (tptp.s__instance V__S tptp.s__Sleeve)) (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__Object) (tptp.s__instance V__A tptp.s__Arm) (tptp.s__part V__A V__P) (tptp.s__contains V__S V__A)))))) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Object) (=> (tptp.s__instance V__S tptp.s__Sleeve) (exists ((V__C $$unsorted)) (and (tptp.s__instance V__C tptp.s__Object) (tptp.s__part V__S V__C) (or (tptp.s__instance V__C tptp.s__Shirt) (tptp.s__instance V__C tptp.s__Coat))))))) (tptp.s__subclass tptp.s__Dress tptp.s__Clothing) (tptp.s__instance tptp.s__Dress__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Dress tptp.s__EnglishLanguage |tptp.'An item of &%Clothing which covers the lower body of a &%Woman.'|) (forall ((V__PERSON $$unsorted) (V__DRESS $$unsorted)) (=> (and (tptp.s__instance V__DRESS tptp.s__WearableItem) (tptp.s__instance V__PERSON tptp.s__Animal)) (=> (and (tptp.s__instance V__DRESS tptp.s__Dress) (tptp.s__wears V__PERSON V__DRESS)) (tptp.s__instance V__PERSON tptp.s__Woman)))) (tptp.s__subclass tptp.s__ClothingSuit tptp.s__Collection) (tptp.s__instance tptp.s__ClothingSuit__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ClothingSuit tptp.s__EnglishLanguage |tptp.'A &%Collection of instances of &%Clothing that are designed to be worn together.'|) (tptp.s__subclass tptp.s__Rug tptp.s__Fabric) (tptp.s__documentation tptp.s__Rug tptp.s__EnglishLanguage |tptp.'A piece of &%Fabric whose purpose is to cover a &%Floor.'|) (forall ((V__R $$unsorted) (V__F $$unsorted)) (=> (tptp.s__instance V__R tptp.s__Object) (=> (tptp.s__instance V__R tptp.s__Rug) (tptp.s__hasPurpose V__R |tptp.'(? [V__C] : (s__instance(V__C,s__Process) & s__instance(V__C,s__Covering) & s__instrument(V__C,V__R) & s__patient(V__C,V__F) & s__instance(V__F,s__Floor)))'|)))) (tptp.s__documentation tptp.s__Towel tptp.s__EnglishLanguage |tptp.'A piece of &%Fabric which is used for &%Drying.'|) (tptp.s__subclass tptp.s__Towel tptp.s__Fabric) (tptp.s__instance tptp.s__Towel__t tptp.s__SetOrClass) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__Towel) (tptp.s__capability tptp.s__Drying tptp.s__instrument__m V__X)))) (forall ((V__T $$unsorted)) (=> (tptp.s__instance V__T tptp.s__Object) (=> (tptp.s__instance V__T tptp.s__Towel) (tptp.s__hasPurpose V__T |tptp.'(? [V__D] : (s__instance(V__D,s__Process) & s__instance(V__D,s__Drying) & s__instrument(V__D,V__T)))'|)))) (tptp.s__subclass tptp.s__Leather tptp.s__Fabric) (tptp.s__instance tptp.s__Leather__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Leather tptp.s__EnglishLanguage |tptp.'A &%Fabric that is the result of tanning an &%Animal &%Skin.'|) (forall ((V__LEATHER $$unsorted)) (=> (tptp.s__instance V__LEATHER tptp.s__Leather) (exists ((V__MAKE $$unsorted) (V__SKIN $$unsorted)) (and (tptp.s__instance V__SKIN tptp.s__Object) (tptp.s__instance V__MAKE tptp.s__Process) (tptp.s__instance V__MAKE tptp.s__Making) (tptp.s__resource V__MAKE V__SKIN) (tptp.s__instance V__SKIN tptp.s__Skin) (tptp.s__result V__MAKE V__LEATHER))))) (tptp.s__subclass tptp.s__Silk tptp.s__Fabric) (tptp.s__instance tptp.s__Silk__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Silk tptp.s__EnglishLanguage |tptp.'Fabric that is woven from the strands produced by certain &%Larval &%Insects.'|) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Silk) (exists ((V__M $$unsorted) (V__T $$unsorted) (V__I $$unsorted)) (and (tptp.s__instance V__I tptp.s__Object) (tptp.s__instance V__T tptp.s__Object) (tptp.s__instance V__M tptp.s__Process) (tptp.s__instance V__M tptp.s__Making) (tptp.s__result V__M V__S) (tptp.s__resource V__M V__T) (tptp.s__part V__T V__I) (tptp.s__instance V__I tptp.s__Insect) (tptp.s__attribute V__I tptp.s__Larval))))) (tptp.s__subclass tptp.s__Wool tptp.s__Fabric) (tptp.s__instance tptp.s__Wool__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Wool tptp.s__EnglishLanguage |tptp.'&%Fabric that is made from the &%Hair of &%Sheep.'|) (forall ((V__W $$unsorted)) (=> (tptp.s__instance V__W tptp.s__Wool) (exists ((V__M $$unsorted) (V__H $$unsorted) (V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__Object) (tptp.s__instance V__H tptp.s__Object) (tptp.s__instance V__M tptp.s__Process) (tptp.s__instance V__M tptp.s__Making) (tptp.s__result V__M V__W) (tptp.s__resource V__M V__H) (tptp.s__part V__H V__S) (tptp.s__instance V__H tptp.s__Hair) (tptp.s__instance V__S tptp.s__Sheep))))) (tptp.s__subclass tptp.s__Pocket tptp.s__Fabric) (tptp.s__instance tptp.s__Pocket__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Pocket tptp.s__EnglishLanguage |tptp.'A pouch of &%Fabric in an instance of &%Clothing where something can be kept.'|) (forall ((V__POCKET $$unsorted)) (=> (tptp.s__instance V__POCKET tptp.s__Object) (=> (tptp.s__instance V__POCKET tptp.s__Pocket) (exists ((V__CLOTHING $$unsorted)) (and (tptp.s__instance V__CLOTHING tptp.s__Object) (tptp.s__instance V__CLOTHING tptp.s__Clothing) (tptp.s__part V__POCKET V__CLOTHING)))))) (forall ((V__POCKET $$unsorted)) (=> (tptp.s__instance V__POCKET tptp.s__Object) (=> (tptp.s__instance V__POCKET tptp.s__Pocket) (tptp.s__capability tptp.s__Keeping tptp.s__instrument__m V__POCKET)))) (tptp.s__subclass tptp.s__Blanket tptp.s__Fabric) (tptp.s__instance tptp.s__Blanket__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Blanket tptp.s__EnglishLanguage |tptp.'A piece of &%Fabric whose purpose is to keep a person who is in bed warm.'|) (forall ((V__BLANKET $$unsorted)) (=> (tptp.s__instance V__BLANKET tptp.s__Physical) (=> (tptp.s__instance V__BLANKET tptp.s__Blanket) (tptp.s__hasPurpose V__BLANKET |tptp.'(? [V__HEAT,V__PERSON,V__BED] : (s__instance(V__BED,s__Object) & s__instance(V__PERSON,s__Physical) & s__instance(V__HEAT,s__Process) & s__instance(V__HEAT,s__Heating) & s__patient(V__HEAT,V__PERSON) & s__instance(V__PERSON,s__Human) & s__located(V__PERSON,V__BED) & s__instance(V__BED,s__Bed)))'|)))) (tptp.s__subclass tptp.s__Cotton tptp.s__PlantAnatomicalStructure) (tptp.s__instance tptp.s__Cotton__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Cotton tptp.s__EnglishLanguage |tptp.'Fibers from the cotton plant that are used in &%Making &%CottonFabric.'|) (tptp.s__subclass tptp.s__CottonFabric tptp.s__Fabric) (tptp.s__instance tptp.s__CottonFabric__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__CottonFabric tptp.s__EnglishLanguage |tptp.'Any &%Fabric that is made entirely out of &%Cotton.'|) (forall ((V__F $$unsorted)) (=> (tptp.s__instance V__F tptp.s__CottonFabric) (exists ((V__M $$unsorted) (V__C $$unsorted)) (and (tptp.s__instance V__C tptp.s__Object) (tptp.s__instance V__M tptp.s__Process) (tptp.s__instance V__M tptp.s__Making) (tptp.s__resource V__M V__C) (tptp.s__instance V__C tptp.s__Cotton) (tptp.s__result V__M V__F))))) (forall ((V__F $$unsorted)) (=> (tptp.s__instance V__F tptp.s__CorpuscularObject) (=> (tptp.s__instance V__F tptp.s__CottonFabric) (tptp.s__material tptp.s__Cotton V__F)))) (tptp.s__documentation tptp.s__Veil tptp.s__EnglishLanguage |tptp.'A piece of &%Clothing intended to cover or obscure the face or hair of a &%Woman. This is commonly worn for religious reasons when in public in &%Muslim countries, but is also customary at &%Weddings and &%Funerals among some non-Muslim women.'|) (tptp.s__subclass tptp.s__Veil tptp.s__Clothing) (tptp.s__instance tptp.s__Veil__t tptp.s__SetOrClass) (forall ((V__V $$unsorted)) (=> (tptp.s__instance V__V tptp.s__Object) (=> (tptp.s__instance V__V tptp.s__Veil) (tptp.s__hasPurpose V__V |tptp.'(? [V__F,V__H] : (s__instance(V__H,s__Object) & s__instance(V__F,s__Object) & ((s__instance(V__F,s__Face) & s__meetsSpatially(V__V,V__F)) _ (s__instance(V__H,s__Hair) & s__meetsSpatially(V__V,V__H)))))'|)))) (tptp.s__subclass tptp.s__Concealing tptp.s__Putting) (tptp.s__instance tptp.s__Concealing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Concealing tptp.s__EnglishLanguage |tptp.'Locating something in such a way that it cannot be seen.'|) (forall ((V__OBJ $$unsorted) (V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Process) (=> (and (tptp.s__instance V__C tptp.s__Concealing) (tptp.s__patient V__C V__OBJ)) (tptp.s__hasPurpose V__C |tptp.'(~ (? [V__S] : (s__instance(V__S,s__Process) & s__instance(V__S,s__Seeing) & s__patient(V__S,V__OBJ))))'|)))) (tptp.s__subclass tptp.s__Dressing tptp.s__Putting) (tptp.s__instance tptp.s__Dressing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Dressing tptp.s__EnglishLanguage |tptp.'The &%Process of putting on &%Clothing.'|) (tptp.s__subclass tptp.s__ChangingClothing tptp.s__Transfer) (tptp.s__instance tptp.s__ChangingClothing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ChangingClothing tptp.s__EnglishLanguage |tptp.'Any instance of a process of &%RemovingClothing and &%Dressing.'|) (forall ((V__CC $$unsorted)) (=> (tptp.s__instance V__CC tptp.s__Process) (=> (tptp.s__instance V__CC tptp.s__ChangingClothing) (exists ((V__R $$unsorted) (V__D $$unsorted)) (and (tptp.s__instance V__D tptp.s__Process) (tptp.s__instance V__R tptp.s__Process) (tptp.s__instance V__R tptp.s__RemovingClothing) (tptp.s__instance V__D tptp.s__Dressing) (tptp.s__subProcess V__R V__CC) (tptp.s__subProcess V__D V__CC)))))) (tptp.s__subclass tptp.s__RemovingClothing tptp.s__Uncovering) (tptp.s__instance tptp.s__RemovingClothing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__RemovingClothing tptp.s__EnglishLanguage |tptp.'Removing &%Clothing from a &%Human or &%Animal in such a way that the &%Human or &%Animal no longer wears the &%Clothing.'|) (tptp.s__subclass tptp.s__Sweeping tptp.s__Removing) (tptp.s__instance tptp.s__Sweeping__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sweeping tptp.s__EnglishLanguage |tptp.'Removing small particles from the floor by means of a &%Broom.'|) (forall ((V__B $$unsorted) (V__S $$unsorted)) (=> (and (tptp.s__instance V__S tptp.s__Process) (tptp.s__instance V__B tptp.s__Object)) (=> (and (tptp.s__instance V__S tptp.s__Sweeping) (tptp.s__instrument V__S V__B)) (tptp.s__instance V__B tptp.s__Broom)))) (tptp.s__subclass tptp.s__Washing tptp.s__Removing) (tptp.s__instance tptp.s__Washing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Washing tptp.s__EnglishLanguage |tptp.'&%Removing small particles from something by means of a &%Detergent and &%Water.'|) (forall ((V__P $$unsorted)) (=> (tptp.s__instance V__P tptp.s__Process) (=> (tptp.s__instance V__P tptp.s__Washing) (exists ((V__D $$unsorted) (V__W $$unsorted)) (and (tptp.s__instance V__W tptp.s__Object) (tptp.s__instance V__D tptp.s__Object) (tptp.s__instance V__D tptp.s__Detergent) (tptp.s__instrument V__P V__D) (tptp.s__instance V__W tptp.s__Water) (tptp.s__instrument V__P V__W)))))) (tptp.s__subclass tptp.s__Tying tptp.s__Attaching) (tptp.s__instance tptp.s__Tying__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Tying tptp.s__EnglishLanguage |tptp.'The &%Process of tying two things, or two strands of the same thing, together.'|) (tptp.s__subclass tptp.s__Untying tptp.s__Detaching) (tptp.s__instance tptp.s__Untying__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__Untying tptp.s__Tying) (tptp.s__documentation tptp.s__Untying tptp.s__EnglishLanguage |tptp.'The &%Process of untying two things, or two strands of the same thing.'|) (tptp.s__subclass tptp.s__Sewing tptp.s__Attaching) (tptp.s__instance tptp.s__Sewing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sewing tptp.s__EnglishLanguage |tptp.'Attaching two pieces of &%Fabric or one part of a piece of &%Fabric to another part by means of needle and thread.'|) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Process) (=> (tptp.s__instance V__S tptp.s__Sewing) (exists ((V__F $$unsorted)) (and (tptp.s__instance V__F tptp.s__Fabric) (tptp.s__patient V__S V__F)))))) (tptp.s__subclass tptp.s__Soldering tptp.s__Attaching) (tptp.s__instance tptp.s__Soldering__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Soldering tptp.s__EnglishLanguage |tptp.'Attaching two things by means of a &%MetallicAlloy.'|) (forall ((V__S $$unsorted) (V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__SelfConnectedObject) (tptp.s__instance V__OBJ1 tptp.s__SelfConnectedObject) (tptp.s__instance V__S tptp.s__Process)) (=> (and (tptp.s__instance V__S tptp.s__Soldering) (tptp.s__patient V__S V__OBJ1) (tptp.s__patient V__S V__OBJ2) (not (= V__OBJ1 V__OBJ2))) (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__SelfConnectedObject) (tptp.s__instance V__A tptp.s__MetallicAlloy) (tptp.s__connects V__A V__OBJ1 V__OBJ2)))))) (tptp.s__instance tptp.s__patientMedical__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__patientMedical__m |"1"| tptp.s__Human) (tptp.s__domain tptp.s__patientMedical__m |"2"| tptp.s__CognitiveAgent) (tptp.s__documentation tptp.s__patientMedical__m tptp.s__EnglishLanguage |tptp.'The relation of receiving medical care from a recognized medical practitioner. (&%patientMedical ?PATIENT ?DOCTOR) means that ?PATIENT is the patient of ?DOCTOR. Note that argument type restriction on the second argument is &%CognitiveAgent to allow for cases where someone is the patient of an &%Organization, viz. a &%CareOrganization.'|) (forall ((V__DOCTOR $$unsorted) (V__PATIENT $$unsorted)) (=> (and (tptp.s__instance V__PATIENT tptp.s__Human) (tptp.s__instance V__DOCTOR tptp.s__CognitiveAgent)) (=> (tptp.s__patientMedical V__PATIENT V__DOCTOR) (exists ((V__PROCESS $$unsorted)) (and (tptp.s__instance V__PROCESS tptp.s__Process) (tptp.s__patient V__PROCESS V__PATIENT) (tptp.s__agent V__PROCESS V__DOCTOR) (or (tptp.s__instance V__PROCESS tptp.s__DiagnosticProcess) (tptp.s__instance V__PROCESS tptp.s__TherapeuticProcess))))))) (tptp.s__subclass tptp.s__Bandage tptp.s__Fabric) (tptp.s__instance tptp.s__Bandage__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Bandage tptp.s__EnglishLanguage |tptp.'A piece of &%Fabric that is used in &%Covering an open wound.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Object) (=> (tptp.s__instance V__B tptp.s__Bandage) (tptp.s__hasPurpose V__B |tptp.'(? [V__TP,V__C] : (s__instance(V__C,s__Process) & s__instance(V__TP,s__Process) & s__instance(V__TP,s__TherapeuticProcess) & s__instance(V__C,s__Covering) & s__subProcess(V__C,V__TP) & s__instrument(V__C,V__B)))'|)))) (tptp.s__subclass tptp.s__Massaging tptp.s__TherapeuticProcess) (tptp.s__instance tptp.s__Massaging__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Massaging tptp.s__Touching) (tptp.s__documentation tptp.s__Massaging tptp.s__EnglishLanguage |tptp.'A subclass of &%TherapeuticProcess which involves kneading &%Muscles in such a way that tension is relieved, blood circulation is increased, etc.'|) (tptp.s__subclass tptp.s__RelievingPain tptp.s__TherapeuticProcess) (tptp.s__instance tptp.s__RelievingPain__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__RelievingPain tptp.s__EnglishLanguage |tptp.'Any &%TherapeuticProcess that removes &%Pain from the patient of the process.'|) (tptp.s__subclass tptp.s__NonspecificDisease tptp.s__DiseaseOrSyndrome) (tptp.s__instance tptp.s__NonspecificDisease__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__NonspecificDisease tptp.s__EnglishLanguage |tptp.'The class of &%DiseaseOrSyndromes that are not caused by a single type of &%Microorganism.'|) (forall ((V__DISEASE $$unsorted)) (=> (tptp.s__instance V__DISEASE tptp.s__NonspecificDisease) (not (exists ((V__AGENT $$unsorted)) (and (tptp.s__instance V__AGENT tptp.s__Physical) (tptp.s__instance V__AGENT tptp.s__Microorganism) (forall ((V__VICTIM $$unsorted)) (=> (and (tptp.s__instance V__VICTIM tptp.s__Object) (tptp.s__instance V__DISEASE tptp.s__Attribute)) (=> (tptp.s__attribute V__VICTIM V__DISEASE) (tptp.s__located V__AGENT V__VICTIM))))))))) (tptp.s__subclass tptp.s__BacterialDisease tptp.s__InfectiousDisease) (tptp.s__documentation tptp.s__BacterialDisease tptp.s__EnglishLanguage |tptp.'A disease that is caused by instances of &%Bacterium.'|) (tptp.s__subclass tptp.s__InfectiousDisease tptp.s__DiseaseOrSyndrome) (tptp.s__documentation tptp.s__InfectiousDisease tptp.s__EnglishLanguage |tptp.'Any &%DiseaseOrSyndrome that is caused by a &%Microorganism.'|) (forall ((V__O $$unsorted) (V__A $$unsorted) (V__I $$unsorted)) (=> (and (tptp.s__instance V__I tptp.s__Attribute) (tptp.s__instance V__A tptp.s__Agent) (tptp.s__instance V__O tptp.s__Agent)) (=> (and (tptp.s__instance V__I tptp.s__InfectiousDisease) (tptp.s__attribute V__A V__I)) (exists ((V__P $$unsorted)) (and (tptp.s__instance V__P tptp.s__Process) (tptp.s__instance V__P tptp.s__PathologicProcess) (tptp.s__agent V__P V__O) (tptp.s__instance V__O tptp.s__Microorganism) (tptp.s__experiencer V__P V__A)))))) (tptp.s__subclass tptp.s__TakingIll tptp.s__PathologicProcess) (tptp.s__instance tptp.s__TakingIll__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TakingIll tptp.s__EnglishLanguage |tptp.'Any &%Process where the experiencer contracts a &%DiseaseOrSyndrome.'|) (tptp.s__subclass tptp.s__ViralDisease tptp.s__InfectiousDisease) (tptp.s__instance tptp.s__ViralDisease__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__InfectiousDisease__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ViralDisease tptp.s__EnglishLanguage |tptp.'A disease that is caused by instances of &%Virus.'|) (tptp.s__instance tptp.s__Diarrhea tptp.s__DiseaseOrSyndrome) (tptp.s__documentation tptp.s__Diarrhea tptp.s__EnglishLanguage |tptp.'A &%DiseaseOrSyndrome of frequent, watery bowel movements. Severe cases can be fatal for the young or weak. It is a common cause of death for the very young in poor developing countries.'|) (tptp.s__instance tptp.s__Emphysema tptp.s__DiseaseOrSyndrome) (tptp.s__documentation tptp.s__Emphysema tptp.s__EnglishLanguage |tptp.'A &%DiseaseOrSyndrome that affects the &%Lungs and which results in a decrease of breathing ability.'|) (forall ((V__H $$unsorted)) (=> (tptp.s__instance V__H tptp.s__Object) (=> (tptp.s__attribute V__H tptp.s__Emphysema) (exists ((V__L $$unsorted) (V__P $$unsorted)) (and (tptp.s__instance V__P tptp.s__Process) (tptp.s__instance V__L tptp.s__Object) (tptp.s__instance V__L tptp.s__Lung) (tptp.s__part V__L V__H) (tptp.s__instance V__P tptp.s__PathologicProcess) (tptp.s__eventLocated V__P V__L)))))) (tptp.s__instance tptp.s__Fever tptp.s__DiseaseOrSyndrome) (tptp.s__documentation tptp.s__Fever tptp.s__EnglishLanguage |tptp.'Having a body temperature which is (significantly) greater than 98.6 degrees Fahrenheit. This syndrome is often associated with dehydration and chills.'|) (forall ((V__H $$unsorted)) (=> (tptp.s__instance V__H tptp.s__Object) (=> (and (tptp.s__instance V__H tptp.s__Human) (tptp.s__attribute V__H tptp.s__Fever)) (exists ((V__N $$unsorted)) (and (tptp.s__instance V__N tptp.s__RealNumber) (tptp.s__measure V__H (tptp.s__MeasureFn V__N tptp.s__FahrenheitDegree)) (tptp.greater V__N |"98.6"|)))))) (tptp.s__instance tptp.s__Goiter tptp.s__DiseaseOrSyndrome) (tptp.s__documentation tptp.s__Goiter tptp.s__EnglishLanguage |tptp.'A &%DiseaseOrSyndrome which is due to an &%Iodine deficiency and which results in an enlarged &%ThyroidGland.'|) (forall ((V__H $$unsorted)) (=> (tptp.s__instance V__H tptp.s__Object) (=> (tptp.s__attribute V__H tptp.s__Goiter) (exists ((V__G $$unsorted) (V__P $$unsorted)) (and (tptp.s__instance V__P tptp.s__Process) (tptp.s__instance V__G tptp.s__Object) (tptp.s__instance V__G tptp.s__ThyroidGland) (tptp.s__part V__G V__H) (tptp.s__instance V__P tptp.s__PathologicProcess) (tptp.s__eventLocated V__P V__G)))))) (tptp.s__instance tptp.s__Tuberculosis tptp.s__BacterialDisease) (tptp.s__instance tptp.s__BacterialDisease__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Tuberculosis tptp.s__EnglishLanguage |tptp.'A &%BacterialDisease caused by the &%Tubercle &%Bacillus that results in lesions on various body parts, especially the &%Lungs.'|) (tptp.s__subclass tptp.s__RecoveringFromIllness tptp.s__OrganismProcess) (tptp.s__instance tptp.s__RecoveringFromIllness__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__RecoveringFromIllness tptp.s__EnglishLanguage |tptp.'Any &%Process where the experiencer recovers from a &%DiseaseOrSyndrome.'|) (tptp.s__subclass tptp.s__Protozoa tptp.s__Microorganism) (tptp.s__instance tptp.s__Protozoa__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Protozoa tptp.s__EnglishLanguage |tptp.'Unicellular &%Organisms that are capable of movement and that are found in almost every part of the world. This class includes amoebas, sporozoans, and paramecia.'|) (tptp.s__documentation tptp.s__parasite__m tptp.s__EnglishLanguage |tptp.'(parasite ?ORGANISM1 ?ORGANISM2) means that there is a parasitic relationship between ?ORGANISM1 and ?ORGANISM2, i.e. ?ORGANISM1 inhabits and obtains nourishment from ?ORGANISM2 in such a way that ?ORGANISM2 is injured.'|) (tptp.s__instance tptp.s__parasite__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__parasite__m |"1"| tptp.s__Organism) (tptp.s__domain tptp.s__parasite__m |"2"| tptp.s__Organism) (forall ((V__O2 $$unsorted) (V__O1 $$unsorted)) (=> (and (tptp.s__instance V__O1 tptp.s__Organism) (tptp.s__instance V__O2 tptp.s__Organism)) (=> (tptp.s__parasite V__O1 V__O2) (tptp.s__inhabits V__O1 V__O2)))) (forall ((V__O2 $$unsorted) (V__O1 $$unsorted)) (=> (and (tptp.s__instance V__O1 tptp.s__Organism) (tptp.s__instance V__O2 tptp.s__Organism)) (=> (tptp.s__parasite V__O1 V__O2) (exists ((V__I $$unsorted)) (and (tptp.s__instance V__I tptp.s__Process) (tptp.s__instance V__I tptp.s__Injuring) (tptp.s__agent V__I V__O1) (tptp.s__patient V__I V__O2)))))) (tptp.s__instance tptp.s__Cancer tptp.s__DiseaseOrSyndrome) (tptp.s__documentation tptp.s__Cancer tptp.s__EnglishLanguage |tptp.'A &%DiseaseOrSyndrome characterized by pathologic and uncontrolled cell division that results in a &%Tumor.'|) (forall ((V__PERSON $$unsorted)) (=> (tptp.s__instance V__PERSON tptp.s__Object) (=> (tptp.s__attribute V__PERSON tptp.s__Cancer) (exists ((V__TUMOR $$unsorted)) (and (tptp.s__instance V__TUMOR tptp.s__Object) (tptp.s__instance V__TUMOR tptp.s__Tumor) (tptp.s__part V__TUMOR V__PERSON)))))) (tptp.s__subclass tptp.s__Neurosis tptp.s__PsychologicalDysfunction) (tptp.s__instance tptp.s__Neurosis__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Neurosis tptp.s__EnglishLanguage |tptp.'Any &%PsychologicalDysfunction which is not due to an organic impairment of the &%NervousSystem.'|) (tptp.s__subclass tptp.s__Psychosis tptp.s__PsychologicalDysfunction) (tptp.s__instance tptp.s__Psychosis__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Psychosis tptp.s__EnglishLanguage |tptp.'Any &%PsychologicalDysfunction which is the result of an organic impairment of the &%NervousSystem.'|) (tptp.s__subclass tptp.s__Atrophy tptp.s__PathologicProcess) (tptp.s__subclass tptp.s__Atrophy tptp.s__Decreasing) (tptp.s__instance tptp.s__Atrophy__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Atrophy tptp.s__EnglishLanguage |tptp.'Any decrease in the size of a &%BodyPart which is due to disease or lack of use.'|) (forall ((V__A $$unsorted)) (=> (tptp.s__instance V__A tptp.s__Process) (=> (tptp.s__instance V__A tptp.s__Atrophy) (exists ((V__B $$unsorted)) (and (tptp.s__instance V__B tptp.s__Agent) (tptp.s__experiencer V__A V__B) (tptp.s__instance V__B tptp.s__BodyPart)))))) (tptp.s__subclass tptp.s__Bloating tptp.s__Increasing) (tptp.s__subclass tptp.s__Bloating tptp.s__PathologicProcess) (tptp.s__instance tptp.s__Bloating__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Bloating tptp.s__EnglishLanguage |tptp.'Any &%Process where the stomach or instestines of a &%Human or &%Animal become distended from excessive gas.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Process) (=> (tptp.s__instance V__B tptp.s__Bloating) (exists ((V__P $$unsorted) (V__S $$unsorted) (V__I $$unsorted) (V__G $$unsorted)) (and (tptp.s__instance V__G tptp.s__Object) (tptp.s__instance V__I tptp.s__SelfConnectedObject) (tptp.s__instance V__S tptp.s__SelfConnectedObject) (tptp.s__instance V__P tptp.s__Agent) (tptp.s__experiencer V__B V__P) (tptp.s__instance V__G tptp.s__Gas) (or (and (tptp.s__part V__I V__P) (tptp.s__instance V__I tptp.s__Intestine) (tptp.s__contains V__I V__G)) (and (tptp.s__part V__S V__P) (tptp.s__instance V__S tptp.s__Stomach) (tptp.s__contains V__S V__G)))))))) (tptp.s__subclass tptp.s__ConjugatedSubstance tptp.s__CompoundSubstance) (tptp.s__instance tptp.s__ConjugatedSubstance__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ConjugatedSubstance tptp.s__EnglishLanguage |tptp.'A &%CompoundSubstance that results from the &%ChemicalSynthesis of two or more &%CompoundSubstances.'|) (forall ((V__CS $$unsorted)) (= (tptp.s__instance V__CS tptp.s__ConjugatedSubstance) (exists ((V__C1 $$unsorted) (V__C2 $$unsorted) (V__P $$unsorted)) (and (tptp.s__instance V__P tptp.s__Process) (tptp.s__instance V__C2 tptp.s__Object) (tptp.s__instance V__C1 tptp.s__Object) (tptp.s__instance V__C1 tptp.s__CompoundSubstance) (tptp.s__instance V__C2 tptp.s__CompoundSubstance) (not (= V__C1 V__C2)) (tptp.s__instance V__P tptp.s__ChemicalSynthesis) (tptp.s__resource V__P V__C1) (tptp.s__resource V__P V__C2) (tptp.s__result V__P V__CS))))) (tptp.s__instance tptp.s__conjugate__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__conjugate__m tptp.s__IrreflexiveRelation) (tptp.s__instance tptp.s__conjugate__m tptp.s__SymmetricRelation) (tptp.s__instance tptp.s__conjugate__m tptp.s__TransitiveRelation) (tptp.s__domain tptp.s__conjugate__m |"1"| tptp.s__CompoundSubstance) (tptp.s__domain tptp.s__conjugate__m |"2"| tptp.s__CompoundSubstance) (tptp.s__documentation tptp.s__conjugate__m tptp.s__EnglishLanguage |tptp.'(&%conjugate ?COMPOUND1 ?COMPOUND2) means that ?COMPOUND1 and ?COMPOUND2 are identical &%CompoundSubstances except that one has one more &%Proton than the other.'|) (forall ((V__COMPOUND1 $$unsorted) (V__COMPOUND2 $$unsorted)) (=> (and (tptp.s__instance V__COMPOUND2 tptp.s__CompoundSubstance) (tptp.s__instance V__COMPOUND1 tptp.s__CompoundSubstance)) (=> (tptp.s__conjugate V__COMPOUND1 V__COMPOUND2) (exists ((V__NUMBER1 $$unsorted) (V__NUMBER2 $$unsorted)) (and (tptp.s__instance V__NUMBER2 tptp.s__PositiveInteger) (tptp.s__instance V__NUMBER1 tptp.s__PositiveInteger) (tptp.s__protonNumber V__COMPOUND1 V__NUMBER1) (tptp.s__protonNumber V__COMPOUND2 V__NUMBER2) (or (= V__NUMBER1 (tptp.plus V__NUMBER2 |"1"|)) (= V__NUMBER2 (tptp.plus V__NUMBER1 |"1"|)))))))) (tptp.s__subclass tptp.s__Biting tptp.s__Grabbing) (tptp.s__instance tptp.s__Biting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Biting tptp.s__EnglishLanguage |tptp.'Any instance of &%Grabbing where the &%instrument is the &%Mouth of the &%agent.'|) (forall ((V__BITE $$unsorted) (V__ANIMAL $$unsorted)) (=> (and (tptp.s__instance V__ANIMAL tptp.s__Agent) (tptp.s__instance V__BITE tptp.s__Process)) (=> (and (tptp.s__instance V__BITE tptp.s__Biting) (tptp.s__agent V__BITE V__ANIMAL)) (exists ((V__MOUTH $$unsorted)) (and (tptp.s__instance V__MOUTH tptp.s__Object) (tptp.s__instance V__MOUTH tptp.s__Mouth) (tptp.s__part V__MOUTH V__ANIMAL) (tptp.s__instrument V__BITE V__MOUTH)))))) (tptp.s__subclass tptp.s__Strangling tptp.s__Grabbing) (tptp.s__instance tptp.s__Strangling__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Strangling tptp.s__EnglishLanguage |tptp.'Any instance of &%Grabbing where the patient is someone elses throat and the intention is to make it impossible for the other person to breathe.'|) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Process) (=> (tptp.s__instance V__S tptp.s__Strangling) (exists ((V__T $$unsorted)) (and (tptp.s__patient V__S V__T) (tptp.s__instance V__T tptp.s__Throat)))))) (forall ((V__A $$unsorted) (V__S $$unsorted) (V__V $$unsorted)) (=> (and (tptp.s__instance V__V tptp.s__Agent) (tptp.s__instance V__S tptp.s__Process) (tptp.s__instance V__A tptp.s__Agent)) (=> (and (tptp.s__instance V__S tptp.s__Strangling) (tptp.s__agent V__S V__A) (tptp.s__patient V__S V__V) (tptp.s__instance V__V tptp.s__Human)) (tptp.s__hasPurpose V__S |tptp.'(~ (? [V__B] : (s__instance(V__B,s__Process) & s__instance(V__B,s__Breathing) & s__agent(V__B,V__V))))'|)))) (tptp.s__subclass tptp.s__Spitting tptp.s__Impelling) (tptp.s__instance tptp.s__Spitting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Spitting tptp.s__EnglishLanguage |tptp.'Any instance of &%Impelling where the &%origin is the &%Mouth of the &%agent.'|) (forall ((V__SPIT $$unsorted) (V__ANIMAL $$unsorted)) (=> (and (tptp.s__instance V__ANIMAL tptp.s__Agent) (tptp.s__instance V__SPIT tptp.s__Process)) (=> (and (tptp.s__instance V__SPIT tptp.s__Spitting) (tptp.s__agent V__SPIT V__ANIMAL)) (exists ((V__MOUTH $$unsorted)) (and (tptp.s__instance V__MOUTH tptp.s__Object) (tptp.s__instance V__MOUTH tptp.s__Mouth) (tptp.s__part V__MOUTH V__ANIMAL) (tptp.s__origin V__SPIT V__MOUTH)))))) (tptp.s__subclass tptp.s__Punching tptp.s__Impelling) (tptp.s__instance tptp.s__Punching__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Punching tptp.s__EnglishLanguage |tptp.'Any instance of &%Impelling where the instrument is a &%Fist of the agent.'|) (forall ((V__P $$unsorted) (V__A $$unsorted)) (=> (and (tptp.s__instance V__A tptp.s__Agent) (tptp.s__instance V__P tptp.s__Process)) (=> (and (tptp.s__instance V__P tptp.s__Punching) (tptp.s__agent V__P V__A)) (exists ((V__H $$unsorted)) (and (tptp.s__instance V__H tptp.s__Object) (tptp.s__instance V__H tptp.s__Hand) (tptp.s__attribute V__H tptp.s__Fist) (tptp.s__part V__H V__A) (tptp.s__instrument V__P V__H)))))) (tptp.s__subclass tptp.s__Kicking tptp.s__Impelling) (tptp.s__instance tptp.s__Kicking__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Kicking tptp.s__EnglishLanguage |tptp.'Any instance of &%Impelling where the &%instrument is a &%Foot of the &%agent.'|) (forall ((V__ANIMAL $$unsorted) (V__KICK $$unsorted)) (=> (and (tptp.s__instance V__KICK tptp.s__Process) (tptp.s__instance V__ANIMAL tptp.s__Agent)) (=> (and (tptp.s__instance V__KICK tptp.s__Kicking) (tptp.s__agent V__KICK V__ANIMAL)) (exists ((V__FOOT $$unsorted)) (and (tptp.s__instance V__FOOT tptp.s__Object) (tptp.s__instance V__FOOT tptp.s__Foot) (tptp.s__part V__FOOT V__ANIMAL) (tptp.s__instrument V__KICK V__FOOT)))))) (tptp.s__subclass tptp.s__Mailing tptp.s__Transfer) (tptp.s__instance tptp.s__Mailing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Mailing tptp.s__EnglishLanguage |tptp.'Any instance of &%Transfer where a postal system is used to move the &%patient, either a letter or a package.'|) (tptp.s__subclass tptp.s__Messaging tptp.s__Transfer) (tptp.s__instance tptp.s__Messaging__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Messaging tptp.s__EnglishLanguage |tptp.'Any instance of &%Transfer where a &%Message is the patient.'|) (forall ((V__MESSAGING $$unsorted)) (=> (tptp.s__instance V__MESSAGING tptp.s__Process) (=> (tptp.s__instance V__MESSAGING tptp.s__Messaging) (exists ((V__M $$unsorted)) (and (tptp.s__instance V__M tptp.s__Message) (tptp.s__patient V__MESSAGING V__M)))))) (tptp.s__instance tptp.s__neighbor__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__neighbor__m tptp.s__SymmetricRelation) (tptp.s__instance tptp.s__neighbor__m tptp.s__IrreflexiveRelation) (tptp.s__domain tptp.s__neighbor__m |"1"| tptp.s__Human) (tptp.s__domain tptp.s__neighbor__m |"2"| tptp.s__Human) (tptp.s__documentation tptp.s__neighbor__m tptp.s__EnglishLanguage |tptp.'(&%neighbor ?PERSON1 ?PERSON2) means that ?PERSON1 is a neighbor of ?PERSON2, i.e. ?PERSON1 and ?PERSON2 have their &%homes &%Near one another.'|) (forall ((V__PERSON2 $$unsorted) (V__PERSON1 $$unsorted)) (=> (and (tptp.s__instance V__PERSON1 tptp.s__Human) (tptp.s__instance V__PERSON2 tptp.s__Human)) (=> (tptp.s__neighbor V__PERSON1 V__PERSON2) (exists ((V__HOME1 $$unsorted) (V__HOME2 $$unsorted)) (and (tptp.s__instance V__HOME2 tptp.s__PermanentResidence) (tptp.s__instance V__HOME1 tptp.s__PermanentResidence) (tptp.s__home V__PERSON1 V__HOME1) (tptp.s__home V__PERSON2 V__HOME2) (not (= V__HOME1 V__HOME2)) (tptp.s__orientation V__HOME1 V__HOME2 tptp.s__Near)))))) (tptp.s__instance tptp.s__capacity__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__capacity__m |"1"| tptp.s__SelfConnectedObject) (tptp.s__domain tptp.s__capacity__m |"2"| tptp.s__ConstantQuantity) (tptp.s__relatedInternalConcept tptp.s__capacity__m tptp.s__humanCapacity__m) (tptp.s__documentation tptp.s__capacity__m tptp.s__EnglishLanguage |tptp.'(&%capacity ?OBJ ?QUANTITY) means that ?OBJ can contain something that has the &%measure of ?QUANTITY. This predicate denotes maximal capacity, i.e. ?OBJ can hold no more than ?QUANTITY. Note, however, that this does not mean that &%capacity is a &%SingleValuedRelation, since an object may have various maximal capacities across different dimensions, e.g. a particular box may have a &%capacity of 3 pounds and a &%capacity of 1 liter.'|) (forall ((V__MEAS $$unsorted) (V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__SelfConnectedObject) (tptp.s__instance V__OBJ1 tptp.s__Object) (tptp.s__instance V__MEAS tptp.s__ConstantQuantity)) (=> (and (tptp.s__measure V__OBJ1 V__MEAS) (tptp.s__contains V__OBJ2 V__OBJ1)) (tptp.s__capacity V__OBJ2 V__MEAS)))) (tptp.s__instance tptp.s__humanCapacity__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__humanCapacity__m tptp.s__SingleValuedRelation) (tptp.s__domain tptp.s__humanCapacity__m |"1"| tptp.s__StationaryArtifact) (tptp.s__domain tptp.s__humanCapacity__m |"2"| tptp.s__PositiveInteger) (tptp.s__documentation tptp.s__humanCapacity__m tptp.s__EnglishLanguage |tptp.'(&%humanCapacity ?CONSTRUCT ?NUMBER) means that the &%StationaryArtifact ?CONSTRUCT, e.g. a &%Building or a &%Room, can hold a maximum of ?NUMBER &%Humans without crowding.'|) (tptp.s__instance tptp.s__LastFn__m tptp.s__UnaryFunction) (tptp.s__domain tptp.s__LastFn__m |"1"| tptp.s__List) (tptp.s__range tptp.s__LastFn__m tptp.s__Entity) (tptp.s__documentation tptp.s__LastFn__m tptp.s__EnglishLanguage |tptp.'(&%LastFn ?LIST) returns the last item in the &%List ?LIST. For example, (&%LastFn (&%ListFn &%Monday &%Tuesday &%Wednesday)) would return the value of &%Wednesday.'|) (forall ((V__ITEM $$unsorted) (V__LIST $$unsorted)) (=> (tptp.s__instance V__LIST tptp.s__List) (= (= (tptp.s__LastFn V__LIST) V__ITEM) (exists ((V__NUMBER $$unsorted)) (and (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListLengthFn V__LIST) V__NUMBER) (= (tptp.s__ListOrderFn V__LIST V__NUMBER) V__ITEM)))))) (tptp.s__instance tptp.s__FirstFn__m tptp.s__UnaryFunction) (tptp.s__domain tptp.s__FirstFn__m |"1"| tptp.s__List) (tptp.s__range tptp.s__FirstFn__m tptp.s__Entity) (tptp.s__documentation tptp.s__FirstFn__m tptp.s__EnglishLanguage |tptp.'(&%FirstFn ?LIST) returns the first item in the &%List ?LIST. For example, (&%FirstFn (&%ListFn &%Monday &%Tuesday &%Wednesday)) would return the value of &%Monday.'|) (forall ((V__LIST $$unsorted)) (=> (and (tptp.s__instance V__LIST tptp.s__List) (not (= V__LIST tptp.s__NullList__m))) (= (tptp.s__FirstFn V__LIST) (tptp.s__ListOrderFn V__LIST |"1"|)))) (tptp.s__instance tptp.s__StreetAddressFn__m tptp.s__QuaternaryFunction) (tptp.s__domain tptp.s__StreetAddressFn__m |"1"| tptp.s__StationaryArtifact) (tptp.s__domain tptp.s__StreetAddressFn__m |"2"| tptp.s__Roadway) (tptp.s__domain tptp.s__StreetAddressFn__m |"3"| tptp.s__City) (tptp.s__domain tptp.s__StreetAddressFn__m |"4"| tptp.s__Nation) (tptp.s__range tptp.s__StreetAddressFn__m tptp.s__Agent) (tptp.s__documentation tptp.s__StreetAddressFn__m tptp.s__EnglishLanguage |tptp.'(&%StreetAddressFn ?BUILDING ?ROAD ?CITY ?COUNTRY) returns the &%Agent, e.g. a family, an organization, a person, etc. that resides or conducts business at the corresponding &%postContactSite.'|) (forall ((V__CITY $$unsorted) (V__PLACE $$unsorted) (V__ROAD $$unsorted) (V__AGENT $$unsorted) (V__COUNTRY $$unsorted)) (=> (and (tptp.s__instance V__COUNTRY tptp.s__Nation) (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__ROAD tptp.s__Roadway) (tptp.s__instance V__PLACE tptp.s__PostalPlace) (tptp.s__instance V__CITY tptp.s__City)) (=> (= (tptp.s__StreetAddressFn V__PLACE V__ROAD V__CITY V__COUNTRY) V__AGENT) (tptp.s__postContactSite V__PLACE V__AGENT)))) (forall ((V__CITY $$unsorted) (V__PLACE $$unsorted) (V__ROAD $$unsorted) (V__AGENT $$unsorted) (V__COUNTRY $$unsorted)) (=> (and (tptp.s__instance V__COUNTRY tptp.s__Nation) (tptp.s__instance V__ROAD tptp.s__Roadway) (tptp.s__instance V__PLACE tptp.s__StationaryArtifact) (tptp.s__instance V__CITY tptp.s__City)) (=> (= (tptp.s__StreetAddressFn V__PLACE V__ROAD V__CITY V__COUNTRY) V__AGENT) (exists ((V__BUILDING $$unsorted)) (and (tptp.s__instance V__BUILDING tptp.s__Object) (tptp.s__instance V__BUILDING tptp.s__Building) (tptp.s__part V__PLACE V__BUILDING)))))) (tptp.s__subclass tptp.s__ArtStudio tptp.s__Workshop) (tptp.s__instance tptp.s__ArtStudio__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ArtStudio tptp.s__EnglishLanguage |tptp.'A &%Workshop, which is devoted to the creation of &%ArtWorks.'|) (forall ((V__STUDIO $$unsorted)) (=> (tptp.s__instance V__STUDIO tptp.s__Physical) (=> (tptp.s__instance V__STUDIO tptp.s__ArtStudio) (tptp.s__hasPurpose V__STUDIO |tptp.'(? [V__MAKE,V__WORK] : (s__instance(V__MAKE,s__Process) & s__instance(V__MAKE,s__Making) & s__result(V__MAKE,V__WORK) & s__instance(V__WORK,s__ArtWork)))'|)))) (tptp.s__subclass tptp.s__Mine tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__Mine__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Mine tptp.s__EnglishLanguage |tptp.'An construction in the earth from which &%Minerals are removed, either in pure form or as part of ores.'|) (forall ((V__MINE $$unsorted)) (=> (tptp.s__instance V__MINE tptp.s__Object) (=> (tptp.s__instance V__MINE tptp.s__Mine) (tptp.s__hasPurpose V__MINE |tptp.'(? [V__REMOVE,V__MINERAL] : (s__instance(V__REMOVE,s__Process) & s__instance(V__REMOVE,s__Removing) & s__patient(V__REMOVE,V__MINERAL) & s__instance(V__MINERAL,s__Mineral) & s__origin(V__REMOVE,V__MINE)))'|)))) (tptp.s__subclass tptp.s__MobileResidence tptp.s__Artifact) (tptp.s__disjoint tptp.s__MobileResidence tptp.s__Residence) (tptp.s__documentation tptp.s__MobileResidence tptp.s__EnglishLanguage |tptp.'Anything which serves to house people but which changes its location from time to time, e.g. a motorhome, a mobile home, a camp, etc. Note that &%MobileResidence is disjoint from &%Residence, because the latter is a subclass of &%StationaryArtifact.'|) (tptp.s__subclass tptp.s__Prison tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__Prison__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Prison tptp.s__EnglishLanguage |tptp.'An installation which is owned and maintained by a &%Government for the purpose of &%Confining people. This class covers jails, federal prisons, concentration camps, gulags, etc.'|) (forall ((V__P $$unsorted)) (=> (tptp.s__instance V__P tptp.s__Object) (=> (tptp.s__instance V__P tptp.s__Prison) (tptp.s__hasPurpose V__P |tptp.'(? [V__C,V__H,V__G] : (s__instance(V__G,s__Agent) & s__instance(V__C,s__Process) & s__instance(V__C,s__Confining) & s__eventLocated(V__C,V__P) & s__patient(V__C,V__H) & s__instance(V__H,s__Human) & s__agent(V__C,V__G) & s__instance(V__G,s__Government)))'|)))) (tptp.s__documentation tptp.s__detainee__m tptp.s__EnglishLanguage |tptp.'(detainee ?EVENT ?OBJECT) means that in the Confining ?EVENT, the Object ?OBJECT is restrained by force, threat, or other form of intimidation.'|) (tptp.s__instance tptp.s__detainee__m tptp.s__CaseRole) (tptp.s__domain tptp.s__detainee__m |"1"| tptp.s__Confining) (tptp.s__domain tptp.s__detainee__m |"2"| tptp.s__Animal) (tptp.s__subrelation tptp.s__detainee__m tptp.s__patient__m) (tptp.s__instance tptp.s__targetInAttack__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__targetInAttack__m tptp.s__CaseRole) (tptp.s__domain tptp.s__targetInAttack__m |"1"| tptp.s__Process) (tptp.s__domain tptp.s__targetInAttack__m |"2"| tptp.s__Object) (tptp.s__subrelation tptp.s__targetInAttack__m tptp.s__patient__m) (tptp.s__documentation tptp.s__targetInAttack__m tptp.s__EnglishLanguage |tptp.'This relation identifies the &%patient in the event that is the object of the attack.'|) (tptp.s__subclass tptp.s__VotingPoll tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__VotingPoll__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__VotingPoll tptp.s__EnglishLanguage |tptp.'A structure where Voting for an &%Election takes place.'|) (forall ((V__P $$unsorted)) (=> (tptp.s__instance V__P tptp.s__Object) (=> (tptp.s__instance V__P tptp.s__VotingPoll) (exists ((V__V $$unsorted)) (and (tptp.s__instance V__V tptp.s__Process) (tptp.s__instance V__V tptp.s__Voting) (tptp.s__eventLocated V__V V__P)))))) (tptp.s__subclass tptp.s__Camp tptp.s__MobileResidence) (tptp.s__instance tptp.s__Camp__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Camp tptp.s__EnglishLanguage |tptp.'A &%MobileResidence consisting of tents and other temporary living quarters that is constructed on an undeveloped &%LandArea.'|) (forall ((V__CAMP $$unsorted)) (=> (tptp.s__instance V__CAMP tptp.s__Object) (=> (tptp.s__instance V__CAMP tptp.s__Camp) (exists ((V__TENT $$unsorted)) (and (tptp.s__instance V__TENT tptp.s__Object) (tptp.s__instance V__TENT tptp.s__Tent) (tptp.s__part V__TENT V__CAMP)))))) (tptp.s__subclass tptp.s__Tent tptp.s__MobileResidence) (tptp.s__instance tptp.s__Tent__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__MobileResidence__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Tent tptp.s__EnglishLanguage |tptp.'A &%MobileResidence that is made of &%Fabric and poles and can be easily assembled and disassembled.'|) (forall ((V__TENT $$unsorted)) (=> (tptp.s__instance V__TENT tptp.s__Object) (=> (tptp.s__instance V__TENT tptp.s__Tent) (exists ((V__FABRIC $$unsorted)) (and (tptp.s__instance V__FABRIC tptp.s__Object) (tptp.s__instance V__FABRIC tptp.s__Fabric) (tptp.s__part V__FABRIC V__TENT)))))) (tptp.s__subclass tptp.s__Monument tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__Monument__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Monument tptp.s__EnglishLanguage |tptp.'A &%StationaryArtifact whose purpose is to commemorate a person, animal or event.'|) (forall ((V__M $$unsorted)) (=> (tptp.s__instance V__M tptp.s__Object) (=> (tptp.s__instance V__M tptp.s__Monument) (tptp.s__hasPurpose V__M |tptp.'(? [V__R] : (s__instance(V__R,s__Process) & s__instance(V__R,s__Remembering) & s__instrument(V__R,V__M)))'|)))) (tptp.s__subclass tptp.s__Tomb tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__Tomb__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Tomb tptp.s__EnglishLanguage |tptp.'A &%StationaryArtifact which is meant to contain someone who is &%Dead.'|) (forall ((V__T $$unsorted)) (=> (tptp.s__instance V__T tptp.s__SelfConnectedObject) (=> (tptp.s__instance V__T tptp.s__Tomb) (tptp.s__hasPurpose V__T |tptp.'(? [V__P] : (s__instance(V__P,s__Object) & s__attribute(V__P,s__Dead) & s__contains(V__T,V__P)))'|)))) (tptp.s__subclass tptp.s__Workshop tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__Workshop__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Workshop tptp.s__EnglishLanguage |tptp.'A &%Room, suite of &%Rooms or &%Building which is devoted to hand-crafting &%Artifacts.'|) (forall ((V__S $$unsorted) (V__W $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Physical) (=> (tptp.s__instance V__S tptp.s__Workshop) (tptp.s__hasPurpose V__S |tptp.'(? [V__M] : (s__instance(V__M,s__Process) & s__instance(V__M,s__Making) & s__result(V__M,V__W) & s__instance(V__W,s__Artifact)))'|)))) (tptp.s__subclass tptp.s__ApartmentUnit tptp.s__SingleFamilyResidence) (tptp.s__instance tptp.s__ApartmentUnit__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ApartmentUnit tptp.s__EnglishLanguage |tptp.'A &%SingleFamilyResidence that is not owned by any member of the &%SocialUnit that lives there.'|) (forall ((V__PERSON $$unsorted) (V__UNIT $$unsorted)) (=> (and (tptp.s__instance V__UNIT tptp.s__PermanentResidence) (tptp.s__instance V__PERSON tptp.s__Human)) (=> (and (tptp.s__instance V__UNIT tptp.s__ApartmentUnit) (tptp.s__home V__PERSON V__UNIT)) (not (tptp.s__possesses V__PERSON V__UNIT))))) (forall ((V__UNIT $$unsorted)) (=> (tptp.s__instance V__UNIT tptp.s__Object) (=> (tptp.s__instance V__UNIT tptp.s__ApartmentUnit) (exists ((V__BUILDING $$unsorted)) (and (tptp.s__instance V__BUILDING tptp.s__Object) (tptp.s__instance V__BUILDING tptp.s__ApartmentBuilding) (tptp.s__part V__UNIT V__BUILDING)))))) (tptp.s__documentation tptp.s__landlord__m tptp.s__EnglishLanguage |tptp.'(landlord ?PERSON ?UNIT) means that ?PERSON is a landlord of the &%Residence ?UNIT, i.e. he or she owns ?UNIT and is renting the unit to someone else.'|) (tptp.s__instance tptp.s__landlord__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__landlord__m |"1"| tptp.s__Agent) (tptp.s__domain tptp.s__landlord__m |"2"| tptp.s__PermanentResidence) (forall ((V__U $$unsorted) (V__L $$unsorted)) (=> (and (tptp.s__instance V__L tptp.s__Agent) (tptp.s__instance V__U tptp.s__PermanentResidence)) (=> (tptp.s__landlord V__L V__U) (exists ((V__R $$unsorted) (V__P $$unsorted)) (and (tptp.s__instance V__P tptp.s__Agent) (tptp.s__instance V__R tptp.s__Process) (tptp.s__possesses V__L V__U) (tptp.s__tenant V__P V__U) (tptp.s__agent V__R V__P) (tptp.s__instance V__R tptp.s__Renting) (tptp.s__patient V__R V__U)))))) (tptp.s__documentation tptp.s__tenant__m tptp.s__EnglishLanguage |tptp.'(tenant ?PERSON ?UNIT) means that ?PERSON is a tenant of the &%Residence ?UNIT, i.e. he or she is renting the unit.'|) (tptp.s__instance tptp.s__tenant__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__tenant__m |"1"| tptp.s__Agent) (tptp.s__domain tptp.s__tenant__m |"2"| tptp.s__Residence) (forall ((V__P $$unsorted) (V__U $$unsorted)) (=> (and (tptp.s__instance V__U tptp.s__PermanentResidence) (tptp.s__instance V__P tptp.s__Agent)) (=> (tptp.s__tenant V__P V__U) (exists ((V__L $$unsorted) (V__R $$unsorted)) (and (tptp.s__instance V__R tptp.s__Process) (tptp.s__instance V__L tptp.s__Agent) (tptp.s__instance V__R tptp.s__Renting) (tptp.s__landlord V__L V__U) (tptp.s__agent V__R V__P) (tptp.s__possesses V__L V__U) (tptp.s__patient V__R V__U)))))) (tptp.s__subclass tptp.s__CondominiumUnit tptp.s__SingleFamilyResidence) (tptp.s__instance tptp.s__CondominiumUnit__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__CondominiumUnit tptp.s__EnglishLanguage |tptp.'A &%SingleFamilyResidence that may be owned by a member of the &%SocialUnit that lives there.'|) (forall ((V__PERSON $$unsorted) (V__UNIT $$unsorted)) (=> (and (tptp.s__instance V__UNIT tptp.s__PermanentResidence) (tptp.s__instance V__PERSON tptp.s__Human)) (=> (and (tptp.s__instance V__UNIT tptp.s__SingleFamilyResidence) (tptp.s__home V__PERSON V__UNIT) (tptp.s__possesses V__PERSON V__UNIT) (not (tptp.s__instance V__UNIT tptp.s__Building))) (tptp.s__instance V__UNIT tptp.s__CondominiumUnit)))) (forall ((V__UNIT $$unsorted)) (=> (tptp.s__instance V__UNIT tptp.s__Object) (=> (tptp.s__instance V__UNIT tptp.s__CondominiumUnit) (exists ((V__BUILDING $$unsorted)) (and (tptp.s__instance V__BUILDING tptp.s__Object) (tptp.s__instance V__BUILDING tptp.s__CondominiumBuilding) (tptp.s__part V__UNIT V__BUILDING)))))) (tptp.s__subclass tptp.s__ApartmentBuilding tptp.s__ResidentialBuilding) (tptp.s__instance tptp.s__ApartmentBuilding__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__ApartmentBuilding tptp.s__SingleFamilyResidence) (tptp.s__documentation tptp.s__ApartmentBuilding tptp.s__EnglishLanguage |tptp.'A &%ResidentialBuilding containing &%ApartmentUnits.'|) (forall ((V__BUILDING $$unsorted)) (=> (tptp.s__instance V__BUILDING tptp.s__Object) (=> (tptp.s__instance V__BUILDING tptp.s__ApartmentBuilding) (exists ((V__UNIT1 $$unsorted) (V__UNIT2 $$unsorted)) (and (tptp.s__instance V__UNIT2 tptp.s__Object) (tptp.s__instance V__UNIT1 tptp.s__Object) (tptp.s__instance V__UNIT1 tptp.s__ApartmentUnit) (tptp.s__instance V__UNIT2 tptp.s__ApartmentUnit) (tptp.s__part V__UNIT1 V__BUILDING) (tptp.s__part V__UNIT2 V__BUILDING) (not (= V__UNIT1 V__UNIT2))))))) (tptp.s__subclass tptp.s__CondominiumBuilding tptp.s__ResidentialBuilding) (tptp.s__instance tptp.s__CondominiumBuilding__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__CondominiumBuilding tptp.s__SingleFamilyResidence) (tptp.s__documentation tptp.s__CondominiumBuilding tptp.s__EnglishLanguage |tptp.'A &%ResidentialBuilding containing &%CondominiumUnits.'|) (forall ((V__BUILDING $$unsorted)) (=> (tptp.s__instance V__BUILDING tptp.s__Object) (=> (tptp.s__instance V__BUILDING tptp.s__CondominiumBuilding) (exists ((V__UNIT1 $$unsorted) (V__UNIT2 $$unsorted)) (and (tptp.s__instance V__UNIT2 tptp.s__Object) (tptp.s__instance V__UNIT1 tptp.s__Object) (tptp.s__instance V__UNIT1 tptp.s__CondominiumUnit) (tptp.s__instance V__UNIT2 tptp.s__CondominiumUnit) (tptp.s__part V__UNIT1 V__BUILDING) (tptp.s__part V__UNIT2 V__BUILDING) (not (= V__UNIT1 V__UNIT2))))))) (tptp.s__subclass tptp.s__Dormitory tptp.s__ResidentialBuilding) (tptp.s__subclass tptp.s__Dormitory tptp.s__TemporaryResidence) (tptp.s__instance tptp.s__Dormitory__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__Dormitory tptp.s__SingleFamilyResidence) (tptp.s__documentation tptp.s__Dormitory tptp.s__EnglishLanguage |tptp.'A &%TemporaryResidence which is owned by a &%School and which is used to house students while they take classes at the &%School.'|) (forall ((V__D $$unsorted)) (=> (tptp.s__instance V__D tptp.s__Object) (=> (tptp.s__instance V__D tptp.s__Dormitory) (exists ((V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__Agent) (tptp.s__instance V__S tptp.s__School) (tptp.s__possesses V__S V__D)))))) (tptp.s__subclass tptp.s__AnimalResidence tptp.s__Artifact) (tptp.s__instance tptp.s__AnimalResidence__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AnimalResidence tptp.s__EnglishLanguage |tptp.'An &%Artifact which is intended to house &%Animals and not &%Humans. Note that an &%AnimalResidence may or may not be a &%StationaryArtifact, e.g. a horse stall is stationary while a doghouse generally is not.'|) (forall ((V__RESIDENCE $$unsorted)) (=> (tptp.s__instance V__RESIDENCE tptp.s__Object) (=> (tptp.s__instance V__RESIDENCE tptp.s__AnimalResidence) (tptp.s__hasPurpose V__RESIDENCE |tptp.'(? [V__ANIMAL] : (s__instance(V__ANIMAL,s__Organism) & s__instance(V__ANIMAL,s__Animal) & (~ s__instance(V__ANIMAL,s__Human)) & s__inhabits(V__ANIMAL,V__RESIDENCE)))'|)))) (tptp.s__subclass tptp.s__SportsFacility tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__SportsFacility__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SportsFacility tptp.s__EnglishLanguage |tptp.'A specially designated and maintained facility where &%Sports are played. Note that this covers sports fields, stadiums, and gymnasiums.'|) (forall ((V__G $$unsorted)) (=> (tptp.s__instance V__G tptp.s__Object) (=> (tptp.s__instance V__G tptp.s__SportsFacility) (tptp.s__hasPurpose V__G |tptp.'(? [V__S] : (s__instance(V__S,s__Process) & s__instance(V__S,s__Sport) & s__eventLocated(V__S,V__G)))'|)))) (tptp.s__subclass tptp.s__SportsLeague tptp.s__Organization) (tptp.s__instance tptp.s__SportsLeague__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SportsLeague tptp.s__EnglishLanguage |tptp.'An &%Organization whose members are &%SportsTeams and whose purpose is to set up games between its members.'|) (forall ((V__L $$unsorted) (V__M $$unsorted)) (=> (and (tptp.s__instance V__M tptp.s__SelfConnectedObject) (tptp.s__instance V__L tptp.s__Collection)) (=> (and (tptp.s__instance V__L tptp.s__SportsLeague) (tptp.s__member V__M V__L)) (tptp.s__instance V__M tptp.s__SportsTeam)))) (tptp.s__subclass tptp.s__PlaceOfCommerce tptp.s__StationaryArtifact) (tptp.s__partition_3 tptp.s__PlaceOfCommerce tptp.s__CommercialBuilding tptp.s__CommercialUnit) (tptp.s__documentation tptp.s__PlaceOfCommerce tptp.s__EnglishLanguage |tptp.'A &%Building or part of a &%Building which is intended for organizational activities, e.g. retail or wholesale selling, manufacturing, office work, etc.'|) (forall ((V__OFFICE $$unsorted)) (=> (tptp.s__instance V__OFFICE tptp.s__Object) (=> (tptp.s__instance V__OFFICE tptp.s__PlaceOfCommerce) (or (tptp.s__instance V__OFFICE tptp.s__CommercialBuilding) (exists ((V__BUILDING $$unsorted)) (and (tptp.s__instance V__BUILDING tptp.s__Object) (tptp.s__instance V__BUILDING tptp.s__CommercialBuilding) (tptp.s__part V__OFFICE V__BUILDING))))))) (tptp.s__subclass tptp.s__CommercialBuilding tptp.s__Building) (tptp.s__subclass tptp.s__CommercialBuilding tptp.s__PlaceOfCommerce) (tptp.s__documentation tptp.s__CommercialBuilding tptp.s__EnglishLanguage |tptp.'A &%Building which is intended for organizational activities, e.g. retail or wholesale selling, manufacturing, office work, etc.'|) (tptp.s__subclass tptp.s__Warehouse tptp.s__CommercialBuilding) (tptp.s__instance tptp.s__Warehouse__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__CommercialBuilding__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Warehouse tptp.s__EnglishLanguage |tptp.'A very large &%CommercialBuilding whose purpose is to store commodities.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Object) (=> (tptp.s__instance V__B tptp.s__Warehouse) (tptp.s__hasPurpose V__B |tptp.'(? [V__K,V__P] : (s__instance(V__K,s__Process) & s__instance(V__K,s__Keeping) & s__patient(V__K,V__P) & s__instance(V__P,s__Product) & s__eventLocated(V__K,V__B)))'|)))) (tptp.s__subclass tptp.s__CommercialUnit tptp.s__PlaceOfCommerce) (tptp.s__instance tptp.s__CommercialUnit__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__PlaceOfCommerce__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__CommercialUnit tptp.s__EnglishLanguage |tptp.'A &%Room or suite of &%Rooms intended for clerical and/or professional work of a single &%Organization.'|) (forall ((V__ORG $$unsorted) (V__UNIT $$unsorted)) (=> (and (tptp.s__instance V__UNIT tptp.s__Object) (tptp.s__instance V__ORG tptp.s__Physical)) (=> (and (tptp.s__instance V__UNIT tptp.s__CommercialUnit) (tptp.s__instance V__ORG tptp.s__Organization) (tptp.s__located V__ORG V__UNIT)) (not (exists ((V__OTHER $$unsorted)) (and (tptp.s__instance V__OTHER tptp.s__Physical) (tptp.s__instance V__OTHER tptp.s__Organization) (tptp.s__located V__OTHER V__UNIT) (not (= V__OTHER V__ORG)))))))) (tptp.s__subclass tptp.s__Store tptp.s__Building) (tptp.s__instance tptp.s__Store__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Store tptp.s__EnglishLanguage |tptp.'A &%Building that has the purpose of housing &%FinancialTransactions.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__Store) (tptp.s__hasPurpose V__X |tptp.'(? [V__EV] : (s__instance(V__EV,s__Process) & s__instance(V__EV,s__FinancialTransaction) & s__eventLocated(V__EV,V__X)))'|)))) (tptp.s__subclass tptp.s__FarmBuilding tptp.s__Building) (tptp.s__instance tptp.s__FarmBuilding__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__FarmBuilding tptp.s__ResidentialBuilding) (tptp.s__documentation tptp.s__FarmBuilding tptp.s__EnglishLanguage |tptp.'A &%Building on a &%Farm that is used for keeping &%DomesticAnimals, &%Fodder or harvested crops.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Physical) (=> (tptp.s__instance V__B tptp.s__FarmBuilding) (exists ((V__F $$unsorted)) (and (tptp.s__instance V__F tptp.s__Object) (tptp.s__instance V__F tptp.s__Farm) (tptp.s__located V__B V__F)))))) (tptp.s__subclass tptp.s__Agency tptp.s__Business) (tptp.s__instance tptp.s__Agency__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Agency tptp.s__EnglishLanguage |tptp.'A &%CommercialAgent whose customers are all other &%CommercialAgents, e.g. staffing agencies, food-service providers, etc.'|) (forall ((V__A $$unsorted) (V__C $$unsorted)) (=> (and (tptp.s__instance V__C tptp.s__CognitiveAgent) (tptp.s__instance V__A tptp.s__CognitiveAgent)) (=> (and (tptp.s__instance V__A tptp.s__Agency) (tptp.s__customer V__C V__A)) (tptp.s__instance V__C tptp.s__CommercialAgent)))) (tptp.s__subclass tptp.s__EntertainmentCompany tptp.s__Business) (tptp.s__instance tptp.s__EntertainmentCompany__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__EntertainmentCompany tptp.s__EnglishLanguage |tptp.'Any business whose services include &%Performances. This class covers nightclubs, commercial live theaters, and comedy clubs.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Agent) (=> (tptp.s__instance V__C tptp.s__EntertainmentCompany) (exists ((V__P $$unsorted)) (and (tptp.s__instance V__P tptp.s__Process) (tptp.s__instance V__P tptp.s__CommercialService) (tptp.s__agent V__P V__C) (tptp.s__instance V__P tptp.s__Performance)))))) (tptp.s__subclass tptp.s__FinancialCompany tptp.s__Business) (tptp.s__documentation tptp.s__FinancialCompany tptp.s__EnglishLanguage |tptp.'The class &%FinancialCompany includes, as subclasses, &%FinancialBank, &%CreditUnion and &%SavingsAndLoan.'|) (tptp.s__subclass tptp.s__SavingsAndLoan tptp.s__FinancialCompany) (tptp.s__instance tptp.s__SavingsAndLoan__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__FinancialCompany__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SavingsAndLoan tptp.s__EnglishLanguage |tptp.'A federally or state chartered &%FinancialCompany that takes &%Deposits from individuals, funds &%Mortgages, and pays &%Dividends.'|) (tptp.s__instance tptp.s__insured__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__insured__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__insured__m |"1"| tptp.s__Proposition) (tptp.s__domain tptp.s__insured__m |"2"| tptp.s__Organization) (tptp.s__documentation tptp.s__insured__m tptp.s__EnglishLanguage |tptp.'(insured ?Contract ?Org) means that ?Contract is insured by the ?Organization.'|) (forall ((V__ORG $$unsorted) (V__PROP $$unsorted)) (=> (and (tptp.s__instance V__PROP tptp.s__Proposition) (tptp.s__instance V__ORG tptp.s__Organization)) (=> (tptp.s__insured V__PROP V__ORG) (tptp.s__property V__PROP tptp.s__Contract)))) (tptp.s__subclass tptp.s__InsuranceCompany tptp.s__Business) (tptp.s__instance tptp.s__InsuranceCompany__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__InsuranceCompany tptp.s__EnglishLanguage |tptp.'A &%CommercialAgent that insures &%Agents for the payment of a premium or premiums.'|) (forall ((V__I $$unsorted)) (=> (tptp.s__instance V__I tptp.s__Organization) (=> (tptp.s__instance V__I tptp.s__InsuranceCompany) (exists ((V__C $$unsorted)) (and (tptp.s__instance V__C tptp.s__Proposition) (tptp.s__insured V__C V__I)))))) (tptp.s__subclass tptp.s__TransportationCompany tptp.s__Business) (tptp.s__instance tptp.s__TransportationCompany__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TransportationCompany tptp.s__EnglishLanguage |tptp.'A &%CommercialAgent whose services include &%Transportation, e.g. a &%RailroadCompany, an airline, a cruise ship line, etc.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Agent) (=> (tptp.s__instance V__C tptp.s__TransportationCompany) (exists ((V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__Process) (tptp.s__instance V__S tptp.s__CommercialService) (tptp.s__agent V__S V__C) (tptp.s__instance V__S tptp.s__Transportation)))))) (tptp.s__subclass tptp.s__FinancialService tptp.s__CommercialService) (tptp.s__instance tptp.s__FinancialService__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FinancialService tptp.s__EnglishLanguage |tptp.'&%Services performed by a &%FinancialCompany.'|) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Process) (=> (tptp.s__instance V__S tptp.s__FinancialService) (exists ((V__O $$unsorted)) (and (tptp.s__instance V__O tptp.s__Agent) (tptp.s__instance V__O tptp.s__FinancialCompany) (tptp.s__agent V__S V__O)))))) (tptp.s__documentation tptp.s__loss__m tptp.s__EnglishLanguage |tptp.'The amount by which the cost of an investment or business operation exceeds its return, i.e. the negative quantity left after subtracting for all expenses.'|) (tptp.s__instance tptp.s__loss__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__loss__m |"1"| tptp.s__FinancialTransaction) (tptp.s__domain tptp.s__loss__m |"2"| tptp.s__CurrencyMeasure) (tptp.s__subclass tptp.s__Financing tptp.s__Funding) (tptp.s__instance tptp.s__Financing__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Financing tptp.s__FinancialService) (tptp.s__documentation tptp.s__Financing tptp.s__EnglishLanguage |tptp.'Any &%Funding which is provided by a &%FinancialCompany with the aim of making a profit on the money invested.'|) (tptp.s__subclass tptp.s__Partnership tptp.s__Business) (tptp.s__documentation tptp.s__Partnership tptp.s__EnglishLanguage |tptp.'A &%CommercialAgent that is owned by more than one person.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Object) (=> (tptp.s__instance V__C tptp.s__Partnership) (exists ((V__H1 $$unsorted) (V__H2 $$unsorted)) (and (tptp.s__instance V__H2 tptp.s__Agent) (tptp.s__instance V__H1 tptp.s__Agent) (tptp.s__instance V__H1 tptp.s__Human) (tptp.s__instance V__H2 tptp.s__Human) (not (= V__H1 V__H2)) (tptp.s__possesses V__H1 V__C) (tptp.s__possesses V__H2 V__C)))))) (tptp.s__subclass tptp.s__Scholarship tptp.s__Funding) (tptp.s__instance tptp.s__Scholarship__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Scholarship tptp.s__EnglishLanguage |tptp.'Any &%Funding which is made on the basis of merit and whose purpose is to allow the destination to realize an &%EducationalProgram.'|) (forall ((V__F $$unsorted) (V__H $$unsorted)) (=> (and (tptp.s__instance V__H tptp.s__Agent) (tptp.s__instance V__F tptp.s__Process)) (=> (and (tptp.s__instance V__F tptp.s__Scholarship) (tptp.s__destination V__F V__H)) (tptp.s__hasPurpose V__F |tptp.'(? [V__EP,V__P] : (s__instance(V__P,s__Process) & s__instance(V__EP,s__Proposition) & s__instance(V__EP,s__EducationalProgram) & s__realization(V__P,V__EP) & s__experiencer(V__P,V__H)))'|)))) (tptp.s__subclass tptp.s__Welfare tptp.s__Funding) (tptp.s__instance tptp.s__Welfare__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Welfare tptp.s__EnglishLanguage |tptp.'Any &%Funding which is provided by a &%ServiceOrganization to people in need.'|) (forall ((V__W $$unsorted)) (=> (tptp.s__instance V__W tptp.s__Process) (=> (tptp.s__instance V__W tptp.s__Welfare) (exists ((V__O $$unsorted)) (and (tptp.s__instance V__O tptp.s__Agent) (tptp.s__instance V__O tptp.s__ServiceOrganization) (tptp.s__agent V__W V__O)))))) (tptp.s__subclass tptp.s__Publisher tptp.s__Manufacturer) (tptp.s__instance tptp.s__Publisher__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Publisher tptp.s__EnglishLanguage |tptp.'Any business whose services include the &%Publication of &%Texts.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Agent) (=> (tptp.s__instance V__C tptp.s__Publisher) (exists ((V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__Process) (tptp.s__instance V__S tptp.s__CommercialService) (tptp.s__agent V__S V__C) (tptp.s__instance V__S tptp.s__Publication)))))) (tptp.s__subclass tptp.s__FamilyBusiness tptp.s__Partnership) (tptp.s__instance tptp.s__FamilyBusiness__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Partnership__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FamilyBusiness tptp.s__EnglishLanguage |tptp.'A &%Partnership that is owned by a single family.'|) (forall ((V__P2 $$unsorted) (V__P1 $$unsorted) (V__C $$unsorted)) (=> (and (tptp.s__instance V__C tptp.s__Object) (tptp.s__instance V__P1 tptp.s__Organism) (tptp.s__instance V__P2 tptp.s__Organism)) (=> (and (tptp.s__instance V__C tptp.s__FamilyBusiness) (tptp.s__possesses V__P1 V__C) (tptp.s__possesses V__P2 V__C)) (tptp.s__familyRelation V__P1 V__P2)))) (tptp.s__subclass tptp.s__Restaurant tptp.s__Business) (tptp.s__documentation tptp.s__Restaurant tptp.s__EnglishLanguage |tptp.'Any &%CommercialAgent whose services include selling Food to customers which is intended to be eaten on the premises.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Agent) (=> (tptp.s__instance V__C tptp.s__Restaurant) (exists ((V__S $$unsorted) (V__F $$unsorted) (V__B $$unsorted)) (and (tptp.s__instance V__B tptp.s__Object) (tptp.s__instance V__S tptp.s__Process) (tptp.s__instance V__S tptp.s__CommercialService) (tptp.s__agent V__S V__C) (tptp.s__instance V__S tptp.s__Selling) (tptp.s__instance V__B tptp.s__RestaurantBuilding) (tptp.s__eventLocated V__S V__B) (tptp.s__patient V__S V__F) (tptp.s__instance V__F (tptp.s__FoodForFn tptp.s__Human))))))) (forall ((V__PLACE $$unsorted)) (=> (tptp.s__instance V__PLACE tptp.s__Object) (=> (tptp.s__instance V__PLACE tptp.s__RestaurantBuilding) (tptp.s__capability tptp.s__Cooking tptp.s__eventLocated__m V__PLACE)))) (forall ((V__R $$unsorted) (V__D $$unsorted)) (=> (and (tptp.s__instance V__D tptp.s__Object) (tptp.s__instance V__R tptp.s__Agent)) (=> (tptp.s__instance V__R tptp.s__Restaurant) (exists ((V__D $$unsorted)) (and (tptp.s__possesses V__R V__D) (tptp.s__instance V__D tptp.s__DiningArea)))))) (tptp.s__subclass tptp.s__Proprietorship tptp.s__Business) (tptp.s__instance tptp.s__Proprietorship__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Proprietorship tptp.s__EnglishLanguage |tptp.'A &%CommercialAgent that is owned by a single person.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Object) (=> (tptp.s__instance V__C tptp.s__Proprietorship) (exists ((V__H $$unsorted)) (and (tptp.s__instance V__H tptp.s__Human) (tptp.s__possesses V__H V__C) (not (exists ((V__H2 $$unsorted)) (and (tptp.s__instance V__H2 tptp.s__Agent) (tptp.s__instance V__H tptp.s__Agent) (not (= V__H V__H2)) (tptp.s__possesses V__H2 V__C))))))))) (tptp.s__subclass tptp.s__Auditorium tptp.s__Building) (tptp.s__instance tptp.s__Auditorium__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Auditorium tptp.s__EnglishLanguage |tptp.'Any &%Building whose purpose is to hold concerts, sports events, plays, etc. before an audience. This class includes theaters, sports stadiums, university auditoriums, etc.'|) (forall ((V__AUDITORIUM $$unsorted)) (=> (tptp.s__instance V__AUDITORIUM tptp.s__Object) (=> (tptp.s__instance V__AUDITORIUM tptp.s__Auditorium) (tptp.s__hasPurpose V__AUDITORIUM |tptp.'(? [V__DEMO] : (s__instance(V__DEMO,s__Process) & s__instance(V__DEMO,s__Demonstrating) & s__eventLocated(V__DEMO,V__AUDITORIUM)))'|)))) (forall ((V__AUDITORIUM $$unsorted)) (=> (tptp.s__instance V__AUDITORIUM tptp.s__Object) (=> (tptp.s__instance V__AUDITORIUM tptp.s__Auditorium) (exists ((V__STAGE $$unsorted)) (and (tptp.s__instance V__STAGE tptp.s__Object) (tptp.s__instance V__STAGE tptp.s__PerformanceStage) (tptp.s__part V__STAGE V__AUDITORIUM)))))) (tptp.s__subclass tptp.s__AuditoriumSeat tptp.s__Seat) (tptp.s__instance tptp.s__AuditoriumSeat__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AuditoriumSeat tptp.s__EnglishLanguage |tptp.'A &%Seat within an &%Auditorium from which one can observe the &%PerformanceStage.'|) (forall ((V__SEAT $$unsorted)) (=> (tptp.s__instance V__SEAT tptp.s__Object) (=> (tptp.s__instance V__SEAT tptp.s__AuditoriumSeat) (exists ((V__AUDITORIUM $$unsorted)) (and (tptp.s__instance V__AUDITORIUM tptp.s__Object) (tptp.s__instance V__AUDITORIUM tptp.s__Auditorium) (tptp.s__part V__SEAT V__AUDITORIUM)))))) (forall ((V__STAGE $$unsorted) (V__PERSON $$unsorted) (V__AUDITORIUM $$unsorted) (V__SEAT $$unsorted) (V__SEE $$unsorted)) (=> (and (tptp.s__subclass V__SEE tptp.s__Process) (tptp.s__instance V__PERSON tptp.s__Object)) (=> (and (tptp.s__instance V__SEAT tptp.s__AuditoriumSeat) (tptp.s__part V__SEAT V__AUDITORIUM) (tptp.s__part V__STAGE V__AUDITORIUM) (tptp.s__instance V__AUDITORIUM tptp.s__Auditorium) (tptp.s__instance V__STAGE tptp.s__PerformanceStage) (tptp.s__located V__PERSON V__SEAT) (tptp.s__instance V__PERSON tptp.s__Human) (tptp.s__subclass V__SEE tptp.s__Seeing) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__SEE tptp.s__SetOrClass) (tptp.s__instance V__SEAT tptp.s__Object) (tptp.s__instance V__AUDITORIUM tptp.s__Object) (tptp.s__instance V__PERSON tptp.s__Physical) (tptp.s__instance V__STAGE tptp.s__Object)) (=> (tptp.s__instance V__INST V__SEE) (tptp.s__patient V__INST V__STAGE))))) (tptp.s__capability V__SEE tptp.s__agent__m V__PERSON)))) (tptp.s__subrelation tptp.s__enjoys__m tptp.s__inScopeOfInterest__m) (tptp.s__domain tptp.s__enjoys__m |"1"| tptp.s__CognitiveAgent) (tptp.s__domainSubclass tptp.s__enjoys__m |"2"| tptp.s__IntentionalProcess) (tptp.s__documentation tptp.s__enjoys__m tptp.s__EnglishLanguage |tptp.'(&%enjoys ?AGENT ?PROCESS) means that the &%CognitiveAgent ?AGENT tends to enjoy actions of type ?PROCESS, i.e. tends to enjoy being the &%agent or &%experiencer of such actions.'|) (forall ((V__PROCESS $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__subclass V__PROCESS tptp.s__IntentionalProcess) (tptp.s__instance V__PROCESS tptp.s__SetOrClass)) (=> (tptp.s__enjoys V__AGENT V__PROCESS) (tptp.s__desires V__AGENT |tptp.'(? [V__INSTANCE] : (s__instance(V__INSTANCE,s__Process) & s__instance(V__INSTANCE,V__PROCESS) & (s__agent(V__INSTANCE,V__AGENT) _ s__experiencer(V__INSTANCE,V__AGENT))))'|)))) (tptp.s__instance tptp.s__expects__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__expects__m |"1"| tptp.s__CognitiveAgent) (tptp.s__domain tptp.s__expects__m |"2"| tptp.s__Formula) (tptp.s__documentation tptp.s__expects__m tptp.s__EnglishLanguage |tptp.'(&%holdsDuring ?T1 (&%expects ?AGENT ?BELIEF)) means (and (&%holdDuring ?T1 (&%believes ?AGENT (&%holdsDuring ?T2 ?BELIEF))) (&%earlier ?T1 ?T2)).'|) (tptp.s__subrelation tptp.s__fears__m tptp.s__expects__m) (tptp.s__documentation tptp.s__fears__m tptp.s__EnglishLanguage |tptp.'(&%fears ?AGENT ?FORMULA) means that ?AGENT fears that the proposition ?FORMULA will be true, i.e. he/she believes that it will come to pass in the future and that it will be undesirable for ?AGENT.'|) (forall ((V__FORMULA $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__FORMULA tptp.s__Formula)) (=> (tptp.s__fears V__AGENT V__FORMULA) (not (tptp.s__desires V__AGENT V__FORMULA))))) (tptp.s__subrelation tptp.s__hopes__m tptp.s__expects__m) (tptp.s__documentation tptp.s__hopes__m tptp.s__EnglishLanguage |tptp.'(&%hopes ?AGENT ?FORMULA) means that ?AGENT hopes that the proposition ?FORMULA will be true, i.e. he/she believes that it will come to pass in the future and that it will be desirable for ?AGENT.'|) (forall ((V__FORMULA $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__FORMULA tptp.s__Formula)) (=> (tptp.s__hopes V__AGENT V__FORMULA) (tptp.s__desires V__AGENT V__FORMULA)))) (tptp.s__instance tptp.s__doubts__m tptp.s__PropositionalAttitude) (tptp.s__instance tptp.s__doubts__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__doubts__m |"1"| tptp.s__CognitiveAgent) (tptp.s__domain tptp.s__doubts__m |"2"| tptp.s__Formula) (tptp.s__documentation tptp.s__doubts__m tptp.s__EnglishLanguage |tptp.'(&%doubts ?AGENT ?FORMULA) means that ?AGENT is unsure about the truth of ?FORMULA, in particular ?AGENT does not believe that ?FORMULA is true.'|) (forall ((V__FORMULA $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__FORMULA tptp.s__Formula)) (=> (tptp.s__doubts V__AGENT V__FORMULA) (not (tptp.s__believes V__AGENT V__FORMULA))))) (tptp.s__instance tptp.s__dislikes__m tptp.s__ObjectAttitude) (tptp.s__subrelation tptp.s__dislikes__m tptp.s__inScopeOfInterest__m) (tptp.s__disjointRelation tptp.s__dislikes__m tptp.s__wants__m) (tptp.s__relatedInternalConcept tptp.s__dislikes__m tptp.s__disapproves__m) (tptp.s__domain tptp.s__dislikes__m |"1"| tptp.s__CognitiveAgent) (tptp.s__domain tptp.s__dislikes__m |"2"| tptp.s__Object) (tptp.s__documentation tptp.s__dislikes__m tptp.s__EnglishLanguage |tptp.'(&%dislikes ?AGENT ?OBJECT) means that ?AGENT has a feeling of antipathy to ?OBJECT, i.e. ?AGENT believes that ?OBJECT will thwart one of his/her goals. Note that there is no implication that what is hated by an agent is not already possessed by the agent.'|) (forall ((V__OBJECT $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__OBJECT tptp.s__Object)) (=> (tptp.s__dislikes V__AGENT V__OBJECT) (tptp.s__desires V__AGENT |tptp.'(~ s__possesses(V__AGENT,V__OBJECT))'|)))) (tptp.s__instance tptp.s__disapproves__m tptp.s__PropositionalAttitude) (tptp.s__instance tptp.s__disapproves__m tptp.s__BinaryPredicate) (tptp.s__subrelation tptp.s__disapproves__m tptp.s__inScopeOfInterest__m) (tptp.s__disjointRelation tptp.s__disapproves__m tptp.s__desires__m) (tptp.s__domain tptp.s__disapproves__m |"1"| tptp.s__CognitiveAgent) (tptp.s__domain tptp.s__disapproves__m |"2"| tptp.s__Formula) (tptp.s__documentation tptp.s__disapproves__m tptp.s__EnglishLanguage |tptp.'(&%disapproves ?AGENT ?FORMULA) means that ?AGENT has a feeling of antipathy to the state of affairs represented by ?FORMULA, i.e. ?AGENT believes that the realization of ?FORMULA will thwart one of his/her goals. Note that there is no implication that what is disapproved of by an agent is not already true.'|) (tptp.s__subrelation tptp.s__lacks__m tptp.s__needs__m) (tptp.s__documentation tptp.s__lacks__m tptp.s__EnglishLanguage |tptp.'(&%lacks ?AGENT ?OBJECT) means that ?AGENT &%needs ?OBJECT and it is not currently the case that ?AGENT &%possesses ?OBJECT.'|) (tptp.s__instance tptp.s__DescendantsFn__m tptp.s__UnaryFunction) (tptp.s__domain tptp.s__DescendantsFn__m |"1"| tptp.s__Human) (tptp.s__range tptp.s__DescendantsFn__m tptp.s__FamilyGroup) (tptp.s__documentation tptp.s__DescendantsFn__m tptp.s__EnglishLanguage |tptp.'(&%DescendantsFn ?PERSON) denotes all and only the descendants of ?PERSON, i.e. the &%Group consisting of ?OFFSPRING who satisfy the following formula: (&%ancestor ?OFFSPRING ?PERSON).'|) (forall ((V__DESCENDANTS $$unsorted) (V__PERSON $$unsorted)) (=> (and (tptp.s__instance V__PERSON tptp.s__Human) (= (tptp.s__DescendantsFn V__PERSON) V__DESCENDANTS)) (forall ((V__MEMBER $$unsorted)) (=> (and (tptp.s__instance V__MEMBER tptp.s__Organism) (tptp.s__instance V__PERSON tptp.s__Human) (tptp.s__instance V__DESCENDANTS tptp.s__Collection)) (= (tptp.s__member V__MEMBER V__DESCENDANTS) (tptp.s__ancestor V__MEMBER V__PERSON)))))) (tptp.s__subclass tptp.s__GroupOfAnimals tptp.s__Group) (tptp.s__instance tptp.s__GroupOfAnimals__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__GroupOfAnimals tptp.s__EnglishLanguage |tptp.'Any &%Group which contains exclusively non-human &%members.'|) (forall ((V__GROUP $$unsorted)) (=> (tptp.s__instance V__GROUP tptp.s__GroupOfAnimals) (forall ((V__MEMBER $$unsorted)) (=> (and (tptp.s__instance V__MEMBER tptp.s__SelfConnectedObject) (tptp.s__instance V__GROUP tptp.s__Collection)) (=> (tptp.s__member V__MEMBER V__GROUP) (and (tptp.s__instance V__MEMBER tptp.s__Animal) (not (tptp.s__instance V__MEMBER tptp.s__Human)))))))) (tptp.s__subclass tptp.s__Brood tptp.s__GroupOfAnimals) (tptp.s__instance tptp.s__Brood__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Brood tptp.s__EnglishLanguage |tptp.'A &%GroupOfAnimals that are all born at the same time and to the same parents.'|) (forall ((V__BROOD $$unsorted)) (=> (tptp.s__instance V__BROOD tptp.s__Brood) (forall ((V__MEMBER1 $$unsorted) (V__MEMBER2 $$unsorted)) (=> (and (tptp.s__instance V__MEMBER2 tptp.s__Organism) (tptp.s__instance V__MEMBER1 tptp.s__Organism) (tptp.s__instance V__BROOD tptp.s__Collection)) (=> (and (tptp.s__member V__MEMBER1 V__BROOD) (tptp.s__member V__MEMBER2 V__BROOD)) (tptp.s__sibling V__MEMBER1 V__MEMBER2)))))) (forall ((V__BROOD $$unsorted)) (=> (tptp.s__instance V__BROOD tptp.s__Brood) (exists ((V__TIME $$unsorted)) (forall ((V__MEMBER $$unsorted)) (=> (and (tptp.s__instance V__MEMBER tptp.s__SelfConnectedObject) (tptp.s__instance V__MEMBER tptp.s__Agent) (tptp.s__instance V__BROOD tptp.s__Collection)) (=> (tptp.s__member V__MEMBER V__BROOD) (exists ((V__BIRTH $$unsorted)) (and (tptp.s__instance V__BIRTH tptp.s__Process) (tptp.s__instance V__BIRTH tptp.s__Birth) (tptp.s__experiencer V__BIRTH V__MEMBER) (= V__TIME (tptp.s__WhenFn V__BIRTH)))))))))) (tptp.s__subclass tptp.s__AnimalTeam tptp.s__GroupOfAnimals) (tptp.s__instance tptp.s__AnimalTeam__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AnimalTeam tptp.s__EnglishLanguage |tptp.'A &%GroupOfAnimals which are &%Pulling something.'|) (forall ((V__AT $$unsorted)) (=> (tptp.s__instance V__AT tptp.s__Agent) (=> (tptp.s__instance V__AT tptp.s__AnimalTeam) (exists ((V__P $$unsorted)) (and (tptp.s__instance V__P tptp.s__Process) (tptp.s__instance V__P tptp.s__Pulling) (tptp.s__agent V__P V__AT)))))) (tptp.s__subclass tptp.s__SportsTeam tptp.s__GroupOfPeople) (tptp.s__instance tptp.s__SportsTeam__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SportsTeam tptp.s__EnglishLanguage |tptp.'A &%GroupOfPeople who habitually play a &%Sport together, either as an occupation or as a leisure activity.'|) (forall ((V__TEAM $$unsorted)) (=> (tptp.s__instance V__TEAM tptp.s__Object) (=> (tptp.s__instance V__TEAM tptp.s__SportsTeam) (exists ((V__SPORT $$unsorted)) (and (tptp.s__instance V__SPORT tptp.s__SetOrClass) (tptp.s__subclass V__SPORT tptp.s__Process) (tptp.s__subclass V__SPORT tptp.s__Sport) (tptp.s__capability V__SPORT tptp.s__agent__m V__TEAM)))))) (tptp.s__subclass tptp.s__TeamSport tptp.s__Sport) (tptp.s__instance tptp.s__TeamSport__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TeamSport tptp.s__EnglishLanguage |tptp.'Any &%Sport which is played by &%SportsTeams, e.g. &%Baseball and &%Football.'|) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Contest) (=> (tptp.s__instance V__S tptp.s__TeamSport) (exists ((V__T1 $$unsorted) (V__T2 $$unsorted)) (and (tptp.s__instance V__T2 tptp.s__Agent) (tptp.s__instance V__T1 tptp.s__Agent) (tptp.s__contestParticipant V__S V__T1) (tptp.s__contestParticipant V__S V__T2) (tptp.s__instance V__T1 tptp.s__SportsTeam) (tptp.s__instance V__T2 tptp.s__SportsTeam) (not (= V__T1 V__T2))))))) (tptp.s__subclass tptp.s__Racing tptp.s__Sport) (tptp.s__instance tptp.s__Racing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Racing tptp.s__EnglishLanguage |tptp.'A sport which involves a contest of speed between the participants. Note that this covers a variety of things, including auto racing, running competitions, etc.'|) (tptp.s__subrelation tptp.s__groupMember__m tptp.s__member__m) (tptp.s__domain tptp.s__groupMember__m |"1"| tptp.s__Human) (tptp.s__domain tptp.s__groupMember__m |"2"| tptp.s__GroupOfPeople) (tptp.s__documentation tptp.s__groupMember__m tptp.s__EnglishLanguage |tptp.'A &%subrelation of &%member, &%groupMember is used to relate a &%Human to a &%GroupOfPeople of which he/she is a &%member.'|) (tptp.s__documentation tptp.s__headquartersOfOrganization__m tptp.s__EnglishLanguage |tptp.'(headquartersOfOrganization ?ORG ?AREA) means that the &%Organization ?ORG is headquartered in ?AREA.'|) (tptp.s__domain tptp.s__headquartersOfOrganization__m |"1"| tptp.s__Organization) (tptp.s__domain tptp.s__headquartersOfOrganization__m |"2"| tptp.s__GeopoliticalArea) (tptp.s__subrelation tptp.s__headquartersOfOrganization__m tptp.s__located__m) (tptp.s__subclass tptp.s__CommunicationOrganization tptp.s__Organization) (tptp.s__instance tptp.s__CommunicationOrganization__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__CommunicationOrganization tptp.s__EnglishLanguage |tptp.'&%CommunicationOrganization is the subclass of &%Organizations that manage &%Communications over physical infrastructure owned or leased by the organization. Such organizations may also produce and disseminate information, entertainment, or other content. Also see &%MediaOrganization.'|) (forall ((V__CO $$unsorted)) (=> (tptp.s__instance V__CO tptp.s__Agent) (=> (tptp.s__instance V__CO tptp.s__CommunicationOrganization) (exists ((V__CS $$unsorted) (V__C $$unsorted)) (and (tptp.s__instance V__C tptp.s__Process) (tptp.s__instance V__CS tptp.s__Object) (tptp.s__instance V__C tptp.s__Communication) (tptp.s__instance V__CS tptp.s__CommunicationSystem) (tptp.s__instrument V__C V__CS) (tptp.s__agent V__C V__CO)))))) (tptp.s__subclass tptp.s__MediaOrganization tptp.s__Organization) (tptp.s__instance tptp.s__MediaOrganization__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MediaOrganization tptp.s__EnglishLanguage |tptp.'&%MediaOrganization is the subclass of &%Organization for groups whose primary purpose is the production or dissemination of media content. For organizations that physically enable &%Communication, see &%CommunicationOrganization.'|) (tptp.s__instance tptp.s__profit__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__profit__m |"1"| tptp.s__FinancialTransaction) (tptp.s__domain tptp.s__profit__m |"2"| tptp.s__CurrencyMeasure) (tptp.s__documentation tptp.s__profit__m tptp.s__EnglishLanguage |tptp.'The positive gain from an investment or business operation after subtracting for all expenses.'|) (tptp.s__subclass tptp.s__NonprofitOrganization tptp.s__Organization) (tptp.s__instance tptp.s__NonprofitOrganization__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__NonprofitOrganization tptp.s__CommercialAgent) (tptp.s__documentation tptp.s__NonprofitOrganization tptp.s__EnglishLanguage |tptp.'Any &%Organization whose purpose is something other than making a profit.'|) (forall ((V__N $$unsorted)) (=> (tptp.s__instance V__N tptp.s__FinancialTransaction) (=> (tptp.s__instance V__N tptp.s__NonprofitOrganization) (not (tptp.s__hasPurpose V__N |tptp.'(? [V__P] : (s__instance(V__P,s__CurrencyMeasure) & s__profit(V__N,V__P)))'|))))) (tptp.s__subclass tptp.s__CommunicationSystem tptp.s__Collection) (tptp.s__instance tptp.s__CommunicationSystem__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__CommunicationSystem tptp.s__EnglishLanguage |tptp.'&%CommunicationSystem is a complex system with various components, enabling communication (in some medium) between points in a specific area, whether local or worldwide.'|) (tptp.s__subclass tptp.s__CareOrganization tptp.s__Organization) (tptp.s__instance tptp.s__CareOrganization__t tptp.s__SetOrClass) (tptp.s__partition_3 tptp.s__CareOrganization tptp.s__HospitalOrganization tptp.s__MedicalClinic) (tptp.s__documentation tptp.s__CareOrganization tptp.s__EnglishLanguage |tptp.'Any &%Organization whose purpose is to provide medical care for for &%Humans who reside there, either permanently or temporarily.'|) (tptp.s__instance tptp.s__medicalPatient__m tptp.s__BinaryPredicate) (tptp.s__documentation tptp.s__medicalPatient__m tptp.s__EnglishLanguage |tptp.'A relation between a &%Human and a &%CareOrganization that treats the patient.'|) (tptp.s__domain tptp.s__medicalPatient__m |"1"| tptp.s__Human) (tptp.s__domain tptp.s__medicalPatient__m |"2"| tptp.s__CareOrganization) (forall ((V__ORG $$unsorted)) (=> (tptp.s__instance V__ORG tptp.s__CareOrganization) (tptp.s__hasPurpose V__ORG |tptp.'(? [V__PATIENT] : (s__instance(V__PATIENT,s__Human) & s__medicalPatient(V__PATIENT,V__ORG)))'|))) (tptp.s__subclass tptp.s__HospitalOrganization tptp.s__CareOrganization) (tptp.s__instance tptp.s__HospitalOrganization__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__HospitalOrganization tptp.s__EnglishLanguage |tptp.'A &%CareOrganization where patients reside for a short period of time while they undergo treatment for a disease or disorder.'|) (tptp.s__subclass tptp.s__HospitalBuilding tptp.s__TemporaryResidence) (tptp.s__instance tptp.s__HospitalBuilding__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__HospitalBuilding tptp.s__EnglishLanguage |tptp.'A &%Building that serves at the place of business for a &%HospitalOrganization.'|) (tptp.s__subclass tptp.s__MedicalClinic tptp.s__CareOrganization) (tptp.s__instance tptp.s__MedicalClinic__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MedicalClinic tptp.s__EnglishLanguage |tptp.'A &%CareOrganization which provides medical care on an out-patient basis only, i.e. there are no rooms where patients may take up residence for a period of time while they receive care.'|) (tptp.s__subclass tptp.s__MedicalClinicBuilding (tptp.s__ComplementFn tptp.s__Residence)) (tptp.s__instance tptp.s__MedicalClinicBuilding__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__MedicalClinicBuilding tptp.s__Building) (tptp.s__subclass tptp.s__Cafeteria tptp.s__Restaurant) (tptp.s__instance tptp.s__Cafeteria__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Cafeteria tptp.s__EnglishLanguage |tptp.'Any &%Restaurant which does not offer table service. Food is selected and purchased at a central counter.'|) (forall ((V__COMPANY $$unsorted)) (=> (tptp.s__instance V__COMPANY tptp.s__Organization) (=> (tptp.s__instance V__COMPANY tptp.s__Cafeteria) (not (exists ((V__PERSON $$unsorted)) (and (tptp.s__instance V__PERSON tptp.s__Human) (tptp.s__occupiesPosition V__PERSON tptp.s__ServicePosition V__COMPANY))))))) (tptp.s__subclass tptp.s__Tavern tptp.s__Restaurant) (tptp.s__instance tptp.s__Tavern__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Restaurant__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Tavern tptp.s__EnglishLanguage |tptp.'A &%Restaurant whose primary service is selling &%AlcoholicBeverages to customers.'|) (forall ((V__COMPANY $$unsorted)) (=> (tptp.s__instance V__COMPANY tptp.s__Agent) (=> (tptp.s__instance V__COMPANY tptp.s__Tavern) (exists ((V__SERVICE $$unsorted) (V__BEVERAGE $$unsorted)) (and (tptp.s__instance V__SERVICE tptp.s__Process) (tptp.s__instance V__SERVICE tptp.s__CommercialService) (tptp.s__agent V__SERVICE V__COMPANY) (tptp.s__instance V__SERVICE tptp.s__Selling) (tptp.s__patient V__SERVICE V__BEVERAGE) (tptp.s__instance V__BEVERAGE tptp.s__AlcoholicBeverage)))))) (tptp.s__subclass tptp.s__Shipping tptp.s__Transportation) (tptp.s__instance tptp.s__Shipping__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Shipping tptp.s__EnglishLanguage |tptp.'Shipping is the subclass of &%Transportation events in which goods are transported from one place to another by an agent who is entrusted with the goods temporarily just in order to move them. Shipping may be done within an organization or it may be done by an outside commercial agent. See &%CommercialShipping.'|) (tptp.s__subclass tptp.s__CommercialShipping tptp.s__Shipping) (tptp.s__instance tptp.s__CommercialShipping__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__CommercialShipping tptp.s__CommercialService) (tptp.s__documentation tptp.s__CommercialShipping tptp.s__EnglishLanguage |tptp.'&%CommercialShipping is the subclass of &%Transportation events in which a commercial agent provides transportation of goods for remuneration.'|) (tptp.s__subclass tptp.s__Smuggling tptp.s__Transportation) (tptp.s__instance tptp.s__Smuggling__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Smuggling tptp.s__CriminalAction) (tptp.s__documentation tptp.s__Smuggling tptp.s__EnglishLanguage |tptp.'Any instance &%Transportation which is also a &%CriminalAction.'|) (tptp.s__instance tptp.s__customer__m tptp.s__IrreflexiveRelation) (tptp.s__instance tptp.s__customer__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__customer__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__customer__m |"1"| tptp.s__CognitiveAgent) (tptp.s__domain tptp.s__customer__m |"2"| tptp.s__CognitiveAgent) (tptp.s__documentation tptp.s__customer__m tptp.s__EnglishLanguage |tptp.'A very general relation that exists whenever there is a &%FinancialTransaction between the two &%Agents such that the first is the &%destination of the &%FinancialTransaction and the second is the &%agent.'|) (forall ((V__AGENT2 $$unsorted) (V__AGENT1 $$unsorted)) (=> (and (tptp.s__instance V__AGENT1 tptp.s__CognitiveAgent) (tptp.s__instance V__AGENT2 tptp.s__CognitiveAgent)) (= (tptp.s__customer V__AGENT1 V__AGENT2) (exists ((V__SERVICE $$unsorted)) (and (tptp.s__instance V__SERVICE tptp.s__Process) (tptp.s__instance V__SERVICE tptp.s__FinancialTransaction) (tptp.s__agent V__SERVICE V__AGENT2) (tptp.s__destination V__SERVICE V__AGENT1)))))) (tptp.s__instance tptp.s__price__m tptp.s__TernaryPredicate) (tptp.s__domain tptp.s__price__m |"1"| tptp.s__Physical) (tptp.s__domain tptp.s__price__m |"2"| tptp.s__CurrencyMeasure) (tptp.s__domain tptp.s__price__m |"3"| tptp.s__Agent) (tptp.s__documentation tptp.s__price__m tptp.s__EnglishLanguage |tptp.'(&%price ?Obj ?Money ?Agent) means that ?Agent pays the amount of money ?Money for ?Obj.'|) (forall ((V__Agent $$unsorted) (V__Money $$unsorted) (V__Obj $$unsorted)) (=> (and (tptp.s__instance V__Obj tptp.s__Physical) (tptp.s__instance V__Money tptp.s__CurrencyMeasure) (tptp.s__instance V__Agent tptp.s__Agent)) (=> (tptp.s__price V__Obj V__Money V__Agent) (exists ((V__Buying $$unsorted)) (and (tptp.s__instance V__Buying tptp.s__FinancialTransaction) (tptp.s__instance V__Buying tptp.s__Buying) (tptp.s__agent V__Buying V__Agent) (tptp.s__patient V__Buying V__Obj) (tptp.s__transactionAmount V__Buying V__Money)))))) (tptp.s__subclass tptp.s__WholesaleStore tptp.s__MercantileOrganization) (tptp.s__instance tptp.s__WholesaleStore__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__WholesaleStore tptp.s__EnglishLanguage |tptp.'A &%MercantileOrganization that sells its goods exclusively to &%CommercialAgents, typically for resale, rather than to end-point consumers.'|) (forall ((V__CUSTOMER $$unsorted) (V__STORE $$unsorted)) (=> (and (tptp.s__instance V__STORE tptp.s__CognitiveAgent) (tptp.s__instance V__CUSTOMER tptp.s__CognitiveAgent)) (=> (and (tptp.s__instance V__STORE tptp.s__WholesaleStore) (tptp.s__customer V__CUSTOMER V__STORE)) (tptp.s__instance V__CUSTOMER tptp.s__CommercialAgent)))) (tptp.s__subclass tptp.s__RetailStore tptp.s__MercantileOrganization) (tptp.s__instance tptp.s__RetailStore__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__RetailStore tptp.s__WholesaleStore) (tptp.s__documentation tptp.s__RetailStore tptp.s__EnglishLanguage |tptp.'A &%RetailStore is a &%MercantileOrganization that sells goods to customers who are end-point consumers, rather than to &%CommercialAgents who are buying the goods in order to resell them at a higher price. This distinguishes retail stores from wholesale establishments, where the purchasers are businesses or their representatives, as well as mail order or office buildings where transactions are facillitated but the consumer does not take possession of the item on the premises. More succinctly, &%RetailStore is the complement of &%WholesaleStore, which is the class of &%MercantileOrganizations that sell goods to the general public.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__RetailStore) (and (tptp.s__capability tptp.s__Selling tptp.s__agent__m V__X) (exists ((V__P $$unsorted) (V__EV $$unsorted)) (and (tptp.s__instance V__EV tptp.s__Process) (tptp.s__instance V__EV tptp.s__Selling) (tptp.s__destination V__EV V__P) (tptp.s__instance V__P tptp.s__Human))))))) (tptp.s__subclass tptp.s__ShoppingMall tptp.s__MercantileOrganization) (tptp.s__instance tptp.s__ShoppingMall__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ShoppingMall tptp.s__EnglishLanguage |tptp.'A &%MercantileOrganization which is a collection of various shops gathered together in a single, modern development.'|) (forall ((V__S $$unsorted) (V__M $$unsorted)) (=> (and (tptp.s__instance V__M tptp.s__Collection) (tptp.s__instance V__S tptp.s__SelfConnectedObject)) (=> (and (tptp.s__instance V__M tptp.s__ShoppingMall) (tptp.s__member V__S V__M)) (tptp.s__instance V__S tptp.s__RetailStore)))) (tptp.s__subclass tptp.s__DrugStore tptp.s__RetailStore) (tptp.s__instance tptp.s__DrugStore__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__DrugStore tptp.s__EnglishLanguage |tptp.'A &%RetailStore that sells &%Medicine, and perhaps other items as well.'|) (forall ((V__D $$unsorted) (V__M $$unsorted)) (=> (tptp.s__instance V__D tptp.s__Agent) (=> (tptp.s__instance V__D tptp.s__DrugStore) (exists ((V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__Process) (tptp.s__instance V__S tptp.s__Selling) (tptp.s__agent V__S V__D) (tptp.s__patient V__S V__M) (tptp.s__instance V__M tptp.s__Medicine)))))) (tptp.s__subclass tptp.s__GroceryStore tptp.s__RetailStore) (tptp.s__instance tptp.s__GroceryStore__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__GroceryStore tptp.s__EnglishLanguage |tptp.'A &%RetailStore that sells Food, and perhaps other items as well.'|) (forall ((V__STORE $$unsorted)) (=> (tptp.s__instance V__STORE tptp.s__Agent) (=> (tptp.s__instance V__STORE tptp.s__GroceryStore) (exists ((V__SELL $$unsorted) (V__FOOD $$unsorted)) (and (tptp.s__instance V__SELL tptp.s__Process) (tptp.s__instance V__SELL tptp.s__Selling) (tptp.s__agent V__SELL V__STORE) (tptp.s__patient V__SELL V__FOOD) (tptp.s__instance V__FOOD (tptp.s__FoodForFn tptp.s__Animal))))))) (tptp.s__subclass tptp.s__OfferingForSale tptp.s__Offering) (tptp.s__instance tptp.s__OfferingForSale__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__OfferingForSale tptp.s__EnglishLanguage |tptp.'&%Offering to sell something to someone.'|) (forall ((V__AGENT $$unsorted) (V__SALE $$unsorted)) (=> (and (tptp.s__instance V__SALE tptp.s__Process) (tptp.s__instance V__AGENT tptp.s__Agent)) (=> (and (tptp.s__instance V__SALE tptp.s__OfferingForSale) (tptp.s__agent V__SALE V__AGENT)) (tptp.s__patient V__SALE |tptp.'(? [V__SELL,V__OBJ] : (s__instance(V__SELL,s__Process) & s__instance(V__SELL,s__Selling) & s__patient(V__SELL,V__OBJ) & s__agent(V__SELL,V__AGENT)))'|)))) (tptp.s__subclass tptp.s__OfferingToPurchase tptp.s__Offering) (tptp.s__instance tptp.s__OfferingToPurchase__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__OfferingToPurchase tptp.s__EnglishLanguage |tptp.'&%Offering to buy something from someone.'|) (tptp.s__subclass tptp.s__BargainSale tptp.s__Offering) (tptp.s__instance tptp.s__BargainSale__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__BargainSale tptp.s__EnglishLanguage |tptp.'&%Offering to sell something to someone at a reduced price.'|) (tptp.s__subclass tptp.s__ChristianBible tptp.s__Book) (tptp.s__instance tptp.s__ChristianBible__t tptp.s__SetOrClass) (tptp.s__subsumesContentClass tptp.s__ChristianBible tptp.s__NewTestament) (tptp.s__subsumesContentClass tptp.s__ChristianBible tptp.s__OldTestament) (tptp.s__documentation tptp.s__ChristianBible tptp.s__EnglishLanguage |tptp.'Any instance of the collection of writings which is regarded as scripture by those who embrace &%Christianity.'|) (tptp.s__subclass tptp.s__ChristianGospel tptp.s__Text) (tptp.s__instance tptp.s__ChristianGospel__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ChristianGospel tptp.s__EnglishLanguage |tptp.'Four books in the New Testament of the &%ChristianBible that describe the life and teachings of Jesus Christ and that are referred to, respectively, as Matthew, Mark, Luke, and John.'|) (tptp.s__subclass tptp.s__OldTestament tptp.s__Book) (tptp.s__instance tptp.s__OldTestament__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__OldTestament tptp.s__EnglishLanguage |tptp.'The first part of the &%ChristianBible, describing the history of the Hebrew people.'|) (tptp.s__subclass tptp.s__NewTestament tptp.s__Book) (tptp.s__instance tptp.s__NewTestament__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Book__t tptp.s__SetOrClass) (tptp.s__subsumesContentClass tptp.s__NewTestament tptp.s__ChristianGospel) (tptp.s__documentation tptp.s__NewTestament tptp.s__EnglishLanguage |tptp.'The second and final part of the &%ChristianBible, describing the life and teachings of Jesus Christ and the activities of his apostles.'|) (tptp.s__instance tptp.s__BeforeCommonEra tptp.s__TimeInterval) (tptp.s__documentation tptp.s__BeforeCommonEra tptp.s__EnglishLanguage |tptp.'The &%TimeInterval that runs from &%NegativeInfinity to the time of the birth of Christ.'|) (= (tptp.s__BeginFn tptp.s__BeforeCommonEra) tptp.s__NegativeInfinity) (not (tptp.s__overlapsTemporally tptp.s__CommonEra tptp.s__BeforeCommonEra)) (tptp.s__instance tptp.s__CommonEra tptp.s__TimeInterval) (tptp.s__documentation tptp.s__CommonEra tptp.s__EnglishLanguage |tptp.'The &%TimeInterval that runs from the supposed time of the death of Christ to &%PositiveInfinity.'|) (= (tptp.s__EndFn tptp.s__CommonEra) tptp.s__PositiveInfinity) (tptp.s__subclass tptp.s__MissionOrganization tptp.s__ReligiousOrganization) (tptp.s__instance tptp.s__MissionOrganization__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MissionOrganization tptp.s__EnglishLanguage |tptp.'The class of &%ReligiousOrganizations that send members to foreign countries with the aim of coverting citizens of those countries to the beliefs of the &%ReligiousOrganization.'|) (tptp.s__subclass tptp.s__ReligiousBuilding tptp.s__Building) (tptp.s__instance tptp.s__ReligiousBuilding__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__ReligiousBuilding tptp.s__PlaceOfWorship) (tptp.s__documentation tptp.s__ReligiousBuilding tptp.s__EnglishLanguage |tptp.'A &%Building which is intended to be used for religious worship. This class covers churches, temples, religious shrines, etc.'|) (tptp.s__subclass tptp.s__Steeple tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__Steeple__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Steeple tptp.s__EnglishLanguage |tptp.'A component of a &%ReligiousBuilding that is tall and narrow and symbolizes the connection between humanity and a deity.'|) (forall ((V__STEEPLE $$unsorted)) (=> (tptp.s__instance V__STEEPLE tptp.s__Object) (=> (tptp.s__instance V__STEEPLE tptp.s__Steeple) (exists ((V__BUILDING $$unsorted)) (and (tptp.s__instance V__BUILDING tptp.s__Object) (tptp.s__instance V__BUILDING tptp.s__Building) (tptp.s__part V__STEEPLE V__BUILDING)))))) (tptp.s__subclass tptp.s__Ceremony tptp.s__IntentionalProcess) (tptp.s__subclass tptp.s__Ceremony tptp.s__SocialInteraction) (tptp.s__documentation tptp.s__Ceremony tptp.s__EnglishLanguage |tptp.'An &%instance of &%Ceremony is a relatively stylized, highly conventional &%SocialInteraction, typically guided or controlled by officials or professionals, to commemorate or mark some transformative event, such as a &%Wedding or a &%Baptizing.'|) (tptp.s__subclass tptp.s__Wedding tptp.s__Ceremony) (tptp.s__instance tptp.s__Wedding__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Wedding tptp.s__Declaring) (tptp.s__documentation tptp.s__Wedding tptp.s__EnglishLanguage |tptp.'Any &%Declaring that leads to one person being the &%spouse of another.'|) (tptp.s__subclass tptp.s__ReligiousService tptp.s__ReligiousProcess) (tptp.s__subclass tptp.s__ReligiousService tptp.s__Demonstrating) (tptp.s__instance tptp.s__ReligiousService__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ReligiousService tptp.s__EnglishLanguage |tptp.'A formal process of public worship which is typically carried out in a church, temple or other sanctified building and which typically accords with a prescribed set of rules.'|) (tptp.s__subclass tptp.s__Baptizing tptp.s__Ceremony) (tptp.s__instance tptp.s__Baptizing__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Baptizing tptp.s__ReligiousProcess) (tptp.s__subclass tptp.s__Baptizing tptp.s__JoiningAnOrganization) (tptp.s__documentation tptp.s__Baptizing tptp.s__EnglishLanguage |tptp.'A &%ReligiousProcess which marks the acceptance of the person being baptized into the &%ReligiousOrganization.'|) (forall ((V__B $$unsorted) (V__H $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Process) (=> (and (tptp.s__instance V__B tptp.s__Baptizing) (tptp.s__patient V__B V__H)) (tptp.s__instance V__H tptp.s__Human)))) (tptp.s__subclass tptp.s__Praying tptp.s__ReligiousProcess) (tptp.s__subclass tptp.s__Praying tptp.s__Requesting) (tptp.s__instance tptp.s__Praying__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Praying tptp.s__EnglishLanguage |tptp.'A formal or informal process of private worship which may or may not be carried out in a &%ReligiousBuilding.'|) (tptp.s__subclass tptp.s__ReferenceText tptp.s__FactualText) (tptp.s__instance tptp.s__ReferenceText__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ReferenceText tptp.s__EnglishLanguage |tptp.'A &%Text which is not intended to be read from beginning to end, but which is meant to be consulted to answer specific factual questions, e.g. about the meaning of a word, the location of a country, etc.'|) (tptp.s__subclass tptp.s__IndependentState tptp.s__GeopoliticalArea) (tptp.s__subclass tptp.s__IndependentState tptp.s__Nation) (tptp.s__instance tptp.s__IndependentState__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__IndependentState tptp.s__EnglishLanguage |tptp.'&%IndependentState is a subclass of &%GeopoliticalArea, representing the classification Independent State used by the CIA World Fact Book. Cf. &%DependencyOrSpecialSovereigntyArea.'|) (tptp.s__subclass tptp.s__DependencyOrSpecialSovereigntyArea tptp.s__GeopoliticalArea) (tptp.s__disjoint tptp.s__IndependentState tptp.s__DependencyOrSpecialSovereigntyArea) (tptp.s__subclass tptp.s__OverseasArea tptp.s__DependencyOrSpecialSovereigntyArea) (tptp.s__instance tptp.s__OverseasArea__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__DependencyOrSpecialSovereigntyArea__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__DependencyOrSpecialSovereigntyArea tptp.s__EnglishLanguage |tptp.'&%DependencyOrSpecialSovereigntyArea is a subclass of &%GeopoliticalArea, representing the classification Dependency or Special Sovereignty Area used by the CIA World Fact Book. Cf. &%IndependentState.'|) (tptp.s__instance tptp.s__ResidentFn__m tptp.s__UnaryFunction) (tptp.s__domain tptp.s__ResidentFn__m |"1"| tptp.s__GeopoliticalArea) (tptp.s__range tptp.s__ResidentFn__m tptp.s__GroupOfPeople) (tptp.s__documentation tptp.s__ResidentFn__m tptp.s__EnglishLanguage |tptp.'(&%ResidentFn ?AREA) denotes the &%GroupOfPeople who have their &%home in ?AREA.'|) (forall ((V__PERSON $$unsorted) (V__AREA $$unsorted)) (=> (and (tptp.s__instance V__AREA tptp.s__GeopoliticalArea) (tptp.s__instance V__AREA tptp.s__PermanentResidence) (tptp.s__instance V__PERSON tptp.s__Human)) (=> (tptp.s__member V__PERSON (tptp.s__ResidentFn V__AREA)) (tptp.s__home V__PERSON V__AREA)))) (tptp.s__subrelation tptp.s__CitizenryFn__m tptp.s__ResidentFn__m) (tptp.s__domain tptp.s__CitizenryFn__m |"1"| tptp.s__GeopoliticalArea) (tptp.s__range tptp.s__CitizenryFn__m tptp.s__GroupOfPeople) (tptp.s__documentation tptp.s__CitizenryFn__m tptp.s__EnglishLanguage |tptp.'(&%CitizenryFn ?AREA) denotes the &%GroupOfPeople who are legal and permanent residents of the &%GeopoliticalArea ?AREA.'|) (forall ((V__CITIZENRY $$unsorted) (V__POPULATION $$unsorted) (V__AREA $$unsorted)) (=> (and (tptp.s__instance V__POPULATION tptp.s__Quantity) (tptp.s__instance V__CITIZENRY tptp.s__Quantity)) (=> (and (tptp.s__instance V__AREA tptp.s__GeopoliticalArea) (= V__CITIZENRY (tptp.s__CitizenryFn V__AREA)) (= V__POPULATION (tptp.s__ResidentFn V__AREA))) (tptp.greatereq V__POPULATION V__CITIZENRY)))) (tptp.s__instance tptp.s__PerCapitaFn__m tptp.s__BinaryFunction) (tptp.s__domain tptp.s__PerCapitaFn__m |"1"| tptp.s__Quantity) (tptp.s__domain tptp.s__PerCapitaFn__m |"2"| tptp.s__GeopoliticalArea) (tptp.s__range tptp.s__PerCapitaFn__m tptp.s__Quantity) (tptp.s__documentation tptp.s__PerCapitaFn__m tptp.s__EnglishLanguage |tptp.'(&%PerCapitaFn ?AREA ?QUANTITY) denotes the average amount of ?QUANTITY possessed by a resident of &%GeopoliticalArea ?AREA.'|) (forall ((V__QUANTITY1 $$unsorted) (V__QUANTITY2 $$unsorted) (V__AREA $$unsorted)) (=> (and (tptp.s__instance V__AREA tptp.s__Quantity) (tptp.s__instance V__AREA tptp.s__GeopoliticalArea) (tptp.s__instance V__QUANTITY1 tptp.s__GeopoliticalArea) (tptp.s__instance V__QUANTITY1 tptp.s__Quantity)) (=> (= (tptp.s__PerCapitaFn V__AREA V__QUANTITY1) V__QUANTITY2) (exists ((V__POPULATION $$unsorted)) (and (tptp.s__instance V__POPULATION tptp.s__Quantity) (= V__POPULATION (tptp.s__CardinalityFn (tptp.s__ResidentFn V__AREA))) (= V__QUANTITY2 (tptp.divide V__QUANTITY1 V__POPULATION))))))) (tptp.s__subclass tptp.s__CityDistrict tptp.s__GeopoliticalArea) (tptp.s__documentation tptp.s__CityDistrict tptp.s__EnglishLanguage |tptp.'Any &%geopoliticalSubdivision of a &%City.'|) (forall ((V__DISTRICT $$unsorted)) (=> (tptp.s__instance V__DISTRICT tptp.s__GeopoliticalArea) (= (tptp.s__instance V__DISTRICT tptp.s__CityDistrict) (exists ((V__CITY $$unsorted)) (and (tptp.s__instance V__CITY tptp.s__GeopoliticalArea) (tptp.s__instance V__CITY tptp.s__City) (tptp.s__geopoliticalSubdivision V__DISTRICT V__CITY)))))) (tptp.s__subclass tptp.s__Downtown tptp.s__CityDistrict) (tptp.s__instance tptp.s__Downtown__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__CityDistrict__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Downtown tptp.s__EnglishLanguage |tptp.'The commercial center of a &%City. The part of the &%City that contains more shops and offices than any other part.'|) (tptp.s__subclass tptp.s__Cemetery tptp.s__LandArea) (tptp.s__instance tptp.s__Cemetery__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Cemetery tptp.s__EnglishLanguage |tptp.'A &%LandArea which is used for burying the dead.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Object) (=> (tptp.s__instance V__C tptp.s__Cemetery) (exists ((V__T $$unsorted)) (and (tptp.s__instance V__T tptp.s__Physical) (tptp.s__instance V__T tptp.s__Tomb) (tptp.s__located V__T V__C)))))) (tptp.s__subclass tptp.s__Park tptp.s__LandArea) (tptp.s__instance tptp.s__Park__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Park tptp.s__EnglishLanguage |tptp.'A publicly owned &%LandArea which is intended to be used for recreation and/or exercise.'|) (forall ((V__PARK $$unsorted)) (=> (tptp.s__instance V__PARK tptp.s__Object) (=> (tptp.s__instance V__PARK tptp.s__Park) (exists ((V__GOV $$unsorted)) (and (tptp.s__instance V__GOV tptp.s__Agent) (tptp.s__instance V__GOV tptp.s__Government) (tptp.s__possesses V__GOV V__PARK)))))) (forall ((V__PARK $$unsorted)) (=> (tptp.s__instance V__PARK tptp.s__Object) (=> (tptp.s__instance V__PARK tptp.s__Park) (tptp.s__hasPurpose V__PARK |tptp.'(? [V__REC] : (s__instance(V__REC,s__Process) & s__instance(V__REC,s__RecreationOrExercise) & s__eventLocated(V__REC,V__PARK)))'|)))) (tptp.s__subclass tptp.s__PublicPark tptp.s__Park) (tptp.s__instance tptp.s__PublicPark__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PublicPark tptp.s__EnglishLanguage |tptp.'A &%Park that is publicly owned, i.e. owned by a &%Government.'|) (forall ((V__P $$unsorted)) (=> (tptp.s__instance V__P tptp.s__Object) (=> (tptp.s__instance V__P tptp.s__PublicPark) (exists ((V__G $$unsorted)) (and (tptp.s__instance V__G tptp.s__Agent) (tptp.s__instance V__G tptp.s__Government) (tptp.s__possesses V__G V__P)))))) (tptp.s__subclass tptp.s__CultivatedLandArea tptp.s__LandArea) (tptp.s__instance tptp.s__CultivatedLandArea__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__CultivatedLandArea tptp.s__EnglishLanguage |tptp.'A &%LandArea which is dedicated to &%Agriculture, e.g. &%Lawns, gardens, and fields for growing crops.'|) (forall ((V__A $$unsorted)) (=> (tptp.s__instance V__A tptp.s__Object) (=> (tptp.s__instance V__A tptp.s__CultivatedLandArea) (exists ((V__C $$unsorted)) (and (tptp.s__instance V__C tptp.s__Process) (tptp.s__instance V__C tptp.s__Agriculture) (tptp.s__eventLocated V__C V__A)))))) (tptp.s__subclass tptp.s__Campground tptp.s__LandArea) (tptp.s__instance tptp.s__Campground__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Campground tptp.s__EnglishLanguage |tptp.'A &%LandArea whose purpose is to have &%MobileResidences (e.g. recreational vehicles, mobile homes, &%Tents, etc.) located there.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Object) (=> (tptp.s__instance V__C tptp.s__Campground) (tptp.s__hasPurpose V__C |tptp.'(? [V__R] : (s__instance(V__R,s__Physical) & s__instance(V__R,s__MobileResidence) & s__located(V__R,V__C)))'|)))) (tptp.s__subclass tptp.s__CityBlock tptp.s__LandArea) (tptp.s__instance tptp.s__CityBlock__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__CityBlock tptp.s__EnglishLanguage |tptp.'A square-shaped area surrounded by &%Roadways which is part of a &%City and typically contains &%Buildings.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Object) (=> (tptp.s__instance V__B tptp.s__CityBlock) (exists ((V__C $$unsorted)) (and (tptp.s__instance V__C tptp.s__Object) (tptp.s__instance V__C tptp.s__City) (tptp.s__part V__B V__C)))))) (tptp.s__subclass tptp.s__AerobicExerciseDevice tptp.s__RecreationOrExerciseDevice) (tptp.s__instance tptp.s__AerobicExerciseDevice__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__RecreationOrExerciseDevice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AerobicExerciseDevice tptp.s__EnglishLanguage |tptp.'An &%RecreationOrExerciseDevice whose purpose is to develop the cardiovascular system.'|) (tptp.s__subclass tptp.s__AnaerobicExerciseDevice tptp.s__RecreationOrExerciseDevice) (tptp.s__instance tptp.s__AnaerobicExerciseDevice__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__AnaerobicExerciseDevice tptp.s__AerobicExerciseDevice) (tptp.s__documentation tptp.s__AnaerobicExerciseDevice tptp.s__EnglishLanguage |tptp.'An &%RecreationOrExerciseDevice whose purpose is to develop &%Muscles without also developing the cardiovascular system.'|) (tptp.s__subclass tptp.s__SkilledOccupation tptp.s__OccupationalRole) (tptp.s__documentation tptp.s__SkilledOccupation tptp.s__EnglishLanguage |tptp.'Any &%Position which requires learning a set of skills.'|) (forall ((V__OCCUPATION $$unsorted) (V__PERSON $$unsorted)) (=> (and (tptp.s__instance V__PERSON tptp.s__Object) (tptp.s__instance V__OCCUPATION tptp.s__Attribute)) (=> (and (tptp.s__instance V__OCCUPATION tptp.s__SkilledOccupation) (tptp.s__attribute V__PERSON V__OCCUPATION)) (exists ((V__TRAINING $$unsorted)) (and (tptp.s__instance V__TRAINING tptp.s__Process) (tptp.s__instance V__TRAINING tptp.s__EducationalProcess) (tptp.s__destination V__TRAINING V__PERSON)))))) (tptp.s__subclass tptp.s__ManualLabor tptp.s__Position) (tptp.s__subclass tptp.s__ManualLabor tptp.s__OccupationalRole) (tptp.s__documentation tptp.s__ManualLabor tptp.s__EnglishLanguage |tptp.'Any &%Position which involves manual work.'|) (tptp.s__subclass tptp.s__UnskilledOccupation tptp.s__ManualLabor) (tptp.s__instance tptp.s__UnskilledOccupation__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__UnskilledOccupation tptp.s__SkilledOccupation) (tptp.s__documentation tptp.s__UnskilledOccupation tptp.s__EnglishLanguage |tptp.'Any &%Position which does not require learning a set of skills.'|) (tptp.s__subclass tptp.s__OccupationalTrade tptp.s__SkilledOccupation) (tptp.s__subclass tptp.s__OccupationalTrade tptp.s__ManualLabor) (tptp.s__instance tptp.s__ManualLabor__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__OccupationalTrade tptp.s__EnglishLanguage |tptp.'Any &%Position that involves skilled manual work.'|) (tptp.s__subclass tptp.s__Profession tptp.s__SkilledOccupation) (tptp.s__instance tptp.s__SkilledOccupation__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__Profession tptp.s__OccupationalTrade) (tptp.s__documentation tptp.s__Profession tptp.s__EnglishLanguage |tptp.'Any occupation that requires at least a bachelors degree.'|) (tptp.s__documentation tptp.s__GovernmentSecretary tptp.s__EnglishLanguage |tptp.'This &%Position &%Attribute describes a person who is head of an adminstrative department of &%Government.'|) (tptp.s__instance tptp.s__GovernmentSecretary tptp.s__GovernmentPosition) (tptp.s__instance tptp.s__SecretaryOfTheInterior tptp.s__GovernmentPosition) (tptp.s__subAttribute tptp.s__SecretaryOfTheInterior tptp.s__GovernmentSecretary) (tptp.s__documentation tptp.s__SecretaryOfTheInterior tptp.s__EnglishLanguage |tptp.'This &%Position &%Attribute describes the head of the &%UnitedStatesDepartmentOfInterior.'|) (tptp.s__instance tptp.s__SecretaryOfTheTreasury tptp.s__GovernmentPosition) (tptp.s__subAttribute tptp.s__SecretaryOfTheTreasury tptp.s__GovernmentSecretary) (tptp.s__documentation tptp.s__SecretaryOfTheTreasury tptp.s__EnglishLanguage |tptp.'This &%Position &%Attribute describes the head of the United States Treasury Department.'|) (tptp.s__subclass tptp.s__StateGovernment tptp.s__Government) (tptp.s__instance tptp.s__StateGovernment__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__StateGovernment tptp.s__EnglishLanguage |tptp.'The class of &%Governments whose jurisdictions are &%StateOrProvinces.'|) (forall ((V__STATE $$unsorted)) (=> (tptp.s__instance V__STATE tptp.s__GeopoliticalArea) (= (tptp.s__instance V__STATE tptp.s__StateOrProvince) (tptp.s__instance (tptp.s__GovernmentFn V__STATE) tptp.s__StateGovernment)))) (tptp.s__subclass tptp.s__CityGovernment tptp.s__Government) (tptp.s__instance tptp.s__CityGovernment__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__CityGovernment tptp.s__EnglishLanguage |tptp.'&%CityGovernment is the class of governments of &%Cities.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__GeopoliticalArea) (= (tptp.s__instance V__C tptp.s__City) (tptp.s__instance (tptp.s__GovernmentFn V__C) tptp.s__CityGovernment)))) (tptp.s__subclass tptp.s__MilitaryService tptp.s__MilitaryOrganization) (tptp.s__documentation tptp.s__MilitaryService tptp.s__EnglishLanguage |tptp.'A branch of the armed forces of a &%Nation. For example, there are five military services in the United States, the army, the navy, the air force, the marines, and the coast guard.'|) (tptp.s__subclass tptp.s__CoastGuard tptp.s__GovernmentOrganization) (tptp.s__instance tptp.s__CoastGuard__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__CoastGuard tptp.s__EnglishLanguage |tptp.'&%CoastGuard is the subclass of &%GovernmentOrganizations that enforce the maritime laws of a &%Nation and guard its &%Seacoast. This may be a military or quasi-military organization.'|) (tptp.s__subclass tptp.s__Army tptp.s__MilitaryService) (tptp.s__instance tptp.s__Army__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__MilitaryService__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Army tptp.s__EnglishLanguage |tptp.'&%MilitaryServices that are land forces.'|) (tptp.s__subclass tptp.s__AirForce tptp.s__MilitaryService) (tptp.s__instance tptp.s__AirForce__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AirForce tptp.s__EnglishLanguage |tptp.'&%AirForce is the subclass of &%MilitaryService that comprises military air forces.'|) (tptp.s__subclass tptp.s__MilitaryUnit tptp.s__MilitaryOrganization) (tptp.s__instance tptp.s__MilitaryUnit__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MilitaryUnit tptp.s__EnglishLanguage |tptp.'Any &%MilitaryOrganization that can be dispatched to an area of operations.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Process) (=> (tptp.s__instance V__B tptp.s__Battle) (exists ((V__U1 $$unsorted) (V__U2 $$unsorted)) (and (tptp.s__instance V__U2 tptp.s__Agent) (tptp.s__instance V__U1 tptp.s__Agent) (tptp.s__instance V__U1 tptp.s__MilitaryUnit) (tptp.s__instance V__U2 tptp.s__MilitaryUnit) (not (= V__U1 V__U2)) (tptp.s__agent V__B V__U1) (tptp.s__agent V__B V__U2)))))) (tptp.s__subclass tptp.s__MilitaryReserveForce tptp.s__MilitaryOrganization) (tptp.s__instance tptp.s__MilitaryReserveForce__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MilitaryReserveForce tptp.s__EnglishLanguage |tptp.'&%MilitaryReserveForce is the subclass of &%MilitaryOrganizations that consist of forces trained in military procedures and activities, which are subject to being called to active duty if needed.'|) (tptp.s__subclass tptp.s__MilitarySquad tptp.s__MilitaryUnit) (tptp.s__instance tptp.s__MilitarySquad__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MilitarySquad tptp.s__EnglishLanguage |tptp.'Any &%MilitaryUnit with the rank of squad.'|) (tptp.s__subclass tptp.s__MilitaryCorps tptp.s__MilitaryUnit) (tptp.s__instance tptp.s__MilitaryCorps__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MilitaryCorps tptp.s__EnglishLanguage |tptp.'Any &%MilitaryUnit with the rank of corps.'|) (tptp.s__subclass tptp.s__CavalryUnit tptp.s__MilitaryUnit) (tptp.s__instance tptp.s__CavalryUnit__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__CavalryUnit tptp.s__EnglishLanguage |tptp.'&%MilitaryUnits composed primarily of &%Soldiers who are mounted, i.e. who perform their combat missions from a &%Horse or &%Vehicle.'|) (forall ((V__B $$unsorted) (V__C $$unsorted)) (=> (and (tptp.s__instance V__C tptp.s__Agent) (tptp.s__instance V__C tptp.s__Collection) (tptp.s__instance V__B tptp.s__Process) (tptp.s__instance V__B tptp.s__TimeInterval)) (=> (and (tptp.s__instance V__C tptp.s__CavalryUnit) (tptp.s__instance V__B tptp.s__Battle) (tptp.s__agent V__B V__C)) (exists ((V__P $$unsorted) (V__V $$unsorted) (V__T $$unsorted)) (and (tptp.s__instance V__T tptp.s__Process) (tptp.s__instance V__T tptp.s__TimeInterval) (tptp.s__instance V__P tptp.s__SelfConnectedObject) (tptp.s__instance V__P tptp.s__Agent) (tptp.s__attribute V__P tptp.s__Soldier) (tptp.s__member V__P V__C) (tptp.s__instance V__T tptp.s__Transportation) (tptp.s__agent V__T V__P) (tptp.s__instance V__V tptp.s__Vehicle) (tptp.s__patient V__T V__V) (tptp.s__during V__T V__B)))))) (tptp.s__subclass tptp.s__MilitarySurplus tptp.s__MilitaryArtifact) (tptp.s__instance tptp.s__MilitarySurplus__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MilitarySurplus tptp.s__EnglishLanguage |tptp.'Any &%MilitaryArtifact which is sold to a non-military customer.'|) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__MilitarySurplus) (exists ((V__A $$unsorted) (V__B $$unsorted)) (and (tptp.s__instance V__B tptp.s__Process) (tptp.s__instance V__A tptp.s__SelfConnectedObject) (tptp.s__instance V__B tptp.s__Buying) (tptp.s__patient V__B V__A) (not (tptp.s__instance V__A tptp.s__MilitaryOrganization)) (not (tptp.s__member V__A tptp.s__MilitaryOrganization)))))) (tptp.s__documentation tptp.s__hostileForces__m tptp.s__EnglishLanguage |tptp.'(hostileForces ?UNIT1 ?UNIT2) means that the &%MilitaryUnits ?UNIT1 and ?UNIT2 are, respectively, allied with &%GeopoliticalAreas that are at war with one another.'|) (tptp.s__instance tptp.s__hostileForces__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__hostileForces__m tptp.s__IrreflexiveRelation) (tptp.s__domain tptp.s__hostileForces__m |"1"| tptp.s__MilitaryUnit) (tptp.s__domain tptp.s__hostileForces__m |"2"| tptp.s__MilitaryUnit) (forall ((V__U2 $$unsorted) (V__U1 $$unsorted) (V__WAR $$unsorted)) (=> (and (tptp.s__instance V__U1 tptp.s__MilitaryUnit) (tptp.s__instance V__U2 tptp.s__MilitaryUnit)) (=> (tptp.s__hostileForces V__U1 V__U2) (exists ((V__W $$unsorted) (V__A1 $$unsorted) (V__A2 $$unsorted)) (and (tptp.s__instance V__A2 tptp.s__GeopoliticalArea) (tptp.s__instance V__A1 tptp.s__GeopoliticalArea) (tptp.s__instance V__W tptp.s__Contest) (tptp.s__instance V__WAR tptp.s__War) (tptp.s__contestParticipant V__W V__A1) (tptp.s__contestParticipant V__W V__A2) (tptp.s__subOrganization V__U1 (tptp.s__GovernmentFn V__A1)) (tptp.s__subOrganization V__U2 (tptp.s__GovernmentFn V__A2))))))) (tptp.s__subclass tptp.s__Commission tptp.s__Organization) (tptp.s__instance tptp.s__Commission__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Commission tptp.s__EnglishLanguage |tptp.'A small, temporary &%Organization whose purpose is to investigate some issue.'|) (forall ((V__COMMISSION $$unsorted)) (=> (tptp.s__instance V__COMMISSION tptp.s__Agent) (=> (tptp.s__instance V__COMMISSION tptp.s__Commission) (tptp.s__hasPurpose V__COMMISSION |tptp.'(? [V__INVESTIGATE,V__ISSUE] : (s__instance(V__INVESTIGATE,s__Process) & s__instance(V__INVESTIGATE,s__Investigating) & s__patient(V__INVESTIGATE,V__ISSUE) & s__agent(V__INVESTIGATE,V__COMMISSION)))'|)))) (tptp.s__subclass tptp.s__ServiceOrganization tptp.s__Organization) (tptp.s__instance tptp.s__ServiceOrganization__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ServiceOrganization tptp.s__EnglishLanguage |tptp.'An &%Organization that performs a public service and is regulated by the &%Government.'|) (forall ((V__ORG $$unsorted)) (=> (tptp.s__instance V__ORG tptp.s__ServiceOrganization) (exists ((V__PROC $$unsorted) (V__GOV $$unsorted)) (and (tptp.s__instance V__GOV tptp.s__Agent) (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__PROC tptp.s__RegulatoryProcess) (tptp.s__patient V__PROC V__ORG) (tptp.s__agent V__PROC V__GOV) (tptp.s__instance V__GOV tptp.s__Government))))) (tptp.s__subclass tptp.s__Library tptp.s__EducationalOrganization) (tptp.s__instance tptp.s__Library__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Library tptp.s__EnglishLanguage |tptp.'An &%EducationalOrganization which is a repository of &%Texts which have been classified for efficient retrieval.'|) (forall ((V__L $$unsorted)) (=> (tptp.s__instance V__L tptp.s__Agent) (=> (tptp.s__instance V__L tptp.s__Library) (exists ((V__B $$unsorted) (V__T $$unsorted)) (and (tptp.s__instance V__T tptp.s__Physical) (tptp.s__instance V__B tptp.s__Object) (tptp.s__possesses V__L V__B) (tptp.s__instance V__B tptp.s__Building) (tptp.s__instance V__T tptp.s__Text) (tptp.s__located V__T V__B)))))) (tptp.s__subclass tptp.s__PublicLibrary tptp.s__Library) (tptp.s__subclass tptp.s__PublicLibrary tptp.s__GovernmentOrganization) (tptp.s__instance tptp.s__PublicLibrary__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PublicLibrary tptp.s__EnglishLanguage |tptp.'A &%Library which is financed by taxes and which is open to everyone.'|) (tptp.s__subclass tptp.s__Museum tptp.s__EducationalOrganization) (tptp.s__instance tptp.s__Museum__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Museum tptp.s__EnglishLanguage |tptp.'An &%EducationalOrganization where &%Artifacts of historic, scientific or aesthetic value are collected and exhibited.'|) (tptp.s__subclass tptp.s__OrganizationalBoard tptp.s__Organization) (tptp.s__instance tptp.s__OrganizationalBoard__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__OrganizationalBoard tptp.s__EnglishLanguage |tptp.'Part of an &%Organization that is responsible for managing the &%Organization.'|) (forall ((V__BOARD $$unsorted)) (=> (tptp.s__instance V__BOARD tptp.s__Organization) (=> (tptp.s__instance V__BOARD tptp.s__OrganizationalBoard) (exists ((V__ORG $$unsorted) (V__MANAGE $$unsorted)) (and (tptp.s__instance V__MANAGE tptp.s__Process) (tptp.s__instance V__ORG tptp.s__Organization) (tptp.s__subOrganization V__BOARD V__ORG) (tptp.s__instance V__MANAGE tptp.s__Managing) (tptp.s__agent V__MANAGE V__BOARD) (tptp.s__patient V__MANAGE V__ORG)))))) (tptp.s__subclass tptp.s__SecurityUnit tptp.s__Organization) (tptp.s__instance tptp.s__SecurityUnit__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SecurityUnit tptp.s__EnglishLanguage |tptp.'The &%Organization that is charged with ensuring the security of members of the overall &%Organization and the property of the &%Organization.'|) (forall ((V__ORG $$unsorted) (V__UNIT $$unsorted)) (=> (and (tptp.s__instance V__UNIT tptp.s__Organization) (tptp.s__instance V__UNIT tptp.s__CognitiveAgent) (tptp.s__instance V__ORG tptp.s__Organization)) (=> (and (tptp.s__instance V__UNIT tptp.s__SecurityUnit) (tptp.s__subOrganization V__UNIT V__ORG)) (tptp.s__holdsObligation |tptp.'(? [V__MAINTAIN] : (s__instance(V__MAINTAIN,s__Process) & s__instance(V__MAINTAIN,s__Maintaining) & s__agent(V__MAINTAIN,V__UNIT) & s__patient(V__MAINTAIN,V__ORG)))'| V__UNIT)))) (tptp.s__subclass tptp.s__UnionOrganization tptp.s__Organization) (tptp.s__instance tptp.s__UnionOrganization__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__UnionOrganization tptp.s__EnglishLanguage |tptp.'An &%Organization comprised of workers from the same &%Corporation or &%Industry. The purpose of the &%UnionOrganization is to strengthen its representation in bargaining with the &%Corporation or &%Industry.'|) (forall ((V__MEMBER $$unsorted) (V__ORG $$unsorted)) (=> (and (tptp.s__instance V__ORG tptp.s__Collection) (tptp.s__instance V__MEMBER tptp.s__SelfConnectedObject) (tptp.s__instance V__MEMBER tptp.s__CognitiveAgent)) (=> (tptp.s__instance V__ORG tptp.s__UnionOrganization) (exists ((V__COLL $$unsorted)) (=> (tptp.s__member V__MEMBER V__ORG) (or (and (tptp.s__instance V__COLL tptp.s__Corporation) (tptp.s__employs V__COLL V__MEMBER)) (exists ((V__CORP $$unsorted)) (and (tptp.s__instance V__CORP tptp.s__SelfConnectedObject) (tptp.s__instance V__CORP tptp.s__Organization) (tptp.s__instance V__COLL tptp.s__Organization) (tptp.s__instance V__COLL tptp.s__Industry) (tptp.s__member V__CORP V__COLL) (tptp.s__employs V__CORP V__MEMBER))))))))) (tptp.s__subclass tptp.s__OrganicCompound tptp.s__CompoundSubstance) (tptp.s__documentation tptp.s__OrganicCompound tptp.s__EnglishLanguage |tptp.'Any &%CompoundSubstance that has a &%Carbon base.'|) (forall ((V__COMPOUND $$unsorted)) (=> (tptp.s__instance V__COMPOUND tptp.s__Object) (=> (and (tptp.s__instance V__COMPOUND tptp.s__OrganicCompound) (tptp.s__instance V__COMPOUND tptp.s__Molecule)) (exists ((V__CARBON $$unsorted)) (and (tptp.s__instance V__CARBON tptp.s__Object) (tptp.s__instance V__CARBON tptp.s__Carbon) (tptp.s__part V__CARBON V__COMPOUND)))))) (tptp.s__subclass tptp.s__Urea tptp.s__OrganicCompound) (tptp.s__instance tptp.s__Urea__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Urea tptp.s__EnglishLanguage |tptp.'Urea is a dry, soluble, nitrogenous substance that is the major solid component of the urine of mammals, and which may be synthesized from ammonia and carbon dioxide, it is useful in the production of &%Plastic and in &%Fertilizers.'|) (tptp.s__subclass tptp.s__Steroid tptp.s__OrganicCompound) (tptp.s__subclass tptp.s__Steroid tptp.s__BiologicallyActiveSubstance) (tptp.s__documentation tptp.s__Steroid tptp.s__EnglishLanguage |tptp.'A class of &%OrganicCompounds having the same basic chemical structure and having significant physiological effects.'|) (tptp.s__subclass tptp.s__Hydrocarbon tptp.s__OrganicCompound) (tptp.s__instance tptp.s__Hydrocarbon__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Hydrocarbon tptp.s__EnglishLanguage |tptp.'Any &%OrganicCompound that contains only &%Carbon and &%Hydrogen.'|) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Hydrocarbon) (exists ((V__P1 $$unsorted) (V__P2 $$unsorted)) (and (tptp.s__instance V__P2 tptp.s__Object) (tptp.s__instance V__P1 tptp.s__Object) (= V__S (tptp.s__MereologicalSumFn V__P1 V__P2)) (tptp.s__instance V__P1 tptp.s__Carbon) (tptp.s__instance V__P2 tptp.s__Hydrogen))))) (tptp.s__subclass tptp.s__Alcohol tptp.s__OrganicCompound) (tptp.s__instance tptp.s__Alcohol__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__OrganicCompound__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Alcohol tptp.s__EnglishLanguage |tptp.'&%OrganicCompounds that are produced from hydrocarbons by distillation.'|) (tptp.s__subclass tptp.s__Alkaloid tptp.s__ChemicalBase) (tptp.s__instance tptp.s__Alkaloid__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__ChemicalBase__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Alkaloid tptp.s__PlantSubstance) (tptp.s__subclass tptp.s__Alkaloid tptp.s__BiologicallyActiveSubstance) (tptp.s__documentation tptp.s__Alkaloid tptp.s__EnglishLanguage |tptp.'A &%ChemicalBase found in &%Plants that has physiological and psychological effects.'|) (forall ((V__A $$unsorted)) (=> (tptp.s__instance V__A tptp.s__Object) (=> (tptp.s__instance V__A tptp.s__Alkaloid) (exists ((V__N $$unsorted)) (and (tptp.s__instance V__N tptp.s__Object) (tptp.s__instance V__N tptp.s__Nitrogen) (tptp.s__part V__N V__A)))))) (tptp.s__instance tptp.s__Drugged tptp.s__ConsciousnessAttribute) (tptp.s__contraryAttribute_2 tptp.s__Drugged tptp.s__Sober) (tptp.s__documentation tptp.s__Drugged tptp.s__EnglishLanguage |tptp.'The &%ConsciousnessAttribute of someone whose motor and/or cognitive faculties are significantly impaired by a &%BiologicallyActiveSubstance.'|) (tptp.s__subAttribute tptp.s__Drunk tptp.s__Drugged) (tptp.s__documentation tptp.s__Drunk tptp.s__EnglishLanguage |tptp.'The &%ConsciousnessAttribute of someone whose motor and cognitive faculties are significantly impaired by &%Alcohol.'|) (tptp.s__subclass tptp.s__AminoAcid tptp.s__ChemicalAcid) (tptp.s__instance tptp.s__AminoAcid__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__ChemicalAcid__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__AminoAcid tptp.s__OrganicCompound) (tptp.s__documentation tptp.s__AminoAcid tptp.s__EnglishLanguage |tptp.'Organic acids that are the building blocks of &%Proteins.'|) (forall ((V__P $$unsorted)) (=> (tptp.s__instance V__P tptp.s__Object) (=> (tptp.s__instance V__P tptp.s__Protein) (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__Object) (tptp.s__instance V__A tptp.s__AminoAcid) (tptp.s__part V__A V__P)))))) (tptp.s__subclass tptp.s__Cholesterol tptp.s__Steroid) (tptp.s__instance tptp.s__Cholesterol__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Steroid__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Cholesterol tptp.s__AnimalSubstance) (tptp.s__documentation tptp.s__Cholesterol tptp.s__EnglishLanguage |tptp.'A &%Steroid that is produced by the &%Liver and that is believed to be closely associated with various cardiological disorders.'|) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Cholesterol) (exists ((V__P $$unsorted) (V__L $$unsorted)) (and (tptp.s__instance V__L tptp.s__Object) (tptp.s__instance V__P tptp.s__Process) (tptp.s__instance V__P tptp.s__BiologicalProcess) (tptp.s__eventLocated V__P V__L) (tptp.s__instance V__L tptp.s__Liver) (tptp.s__result V__P V__S))))) (tptp.s__subclass tptp.s__ChemicalAcid tptp.s__CompoundSubstance) (tptp.s__disjoint tptp.s__ChemicalAcid tptp.s__ChemicalBase) (tptp.s__documentation tptp.s__ChemicalAcid tptp.s__EnglishLanguage |tptp.'A bitter &%CompoundSubstance that is capable of reacting with a &%ChemicalBase and forming a &%ChemicalSalt.'|) (forall ((V__C $$unsorted) (V__CB $$unsorted) (V__CA $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Process) (=> (and (tptp.s__instance V__CA tptp.s__ChemicalAcid) (tptp.s__instance V__CB tptp.s__ChemicalBase) (tptp.s__instance V__C tptp.s__ChemicalProcess) (tptp.s__patient V__C V__CA) (tptp.s__patient V__C V__CB)) (exists ((V__CS $$unsorted)) (and (tptp.s__instance V__CS tptp.s__ChemicalSalt) (tptp.s__result V__C V__CS)))))) (tptp.s__subclass tptp.s__ChemicalBase tptp.s__CompoundSubstance) (tptp.s__documentation tptp.s__ChemicalBase tptp.s__EnglishLanguage |tptp.'A &%CompoundSubstance that is capable of reacting with a &%ChemicalAcid and forming a &%ChemicalSalt.'|) (tptp.s__subclass tptp.s__ChemicalSalt tptp.s__CompoundSubstance) (tptp.s__documentation tptp.s__ChemicalSalt tptp.s__EnglishLanguage |tptp.'A bitter &%CompoundSubstance that is formed in a chemical reaction of a &%ChemicalBase with a &%ChemicalAcid.'|) (tptp.s__subclass tptp.s__SodiumChloride tptp.s__ChemicalSalt) (tptp.s__instance tptp.s__SodiumChloride__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__ChemicalSalt__t tptp.s__SetOrClass) (tptp.s__names tptp.salt tptp.s__SodiumChloride) (tptp.s__names |tptp.'NaCl'| tptp.s__SodiumChloride) (tptp.s__documentation tptp.s__SodiumChloride tptp.s__EnglishLanguage |tptp.'&%SodiumChloride is the compound of &%Sodium and &%Chloride, which may appear in crystalline form or in solution with water or other substances. It is a compound found in solution in significant quantities in sea water.'|) (forall ((V__SALT $$unsorted)) (=> (tptp.s__instance V__SALT tptp.s__SodiumChloride) (exists ((V__SYNTHESIS $$unsorted) (V__SODIUM $$unsorted) (V__CHLORINE $$unsorted)) (and (tptp.s__instance V__CHLORINE tptp.s__Object) (tptp.s__instance V__SODIUM tptp.s__Object) (tptp.s__instance V__SYNTHESIS tptp.s__Process) (tptp.s__instance V__SYNTHESIS tptp.s__ChemicalSynthesis) (tptp.s__resource V__SYNTHESIS V__SODIUM) (tptp.s__instance V__SODIUM tptp.s__Sodium) (tptp.s__resource V__SYNTHESIS V__CHLORINE) (tptp.s__instance V__CHLORINE tptp.s__Chlorine) (tptp.s__result V__SYNTHESIS V__SALT))))) (tptp.s__subclass tptp.s__Diamond tptp.s__Mineral) (tptp.s__subclass tptp.s__Diamond tptp.s__Carbon) (tptp.s__instance tptp.s__Diamond__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Diamond tptp.s__EnglishLanguage |tptp.'Crystalline &%Carbon that is valued as a gem and used in industrial applications.'|) (tptp.s__subclass tptp.s__SalineSolution tptp.s__Solution) (tptp.s__instance tptp.s__SalineSolution__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SalineSolution tptp.s__EnglishLanguage |tptp.'A &%Solution consisting of &%SodiumChloride and &%Water.'|) (forall ((V__SOLUTION $$unsorted) (V__PART $$unsorted)) (=> (and (tptp.s__instance V__PART tptp.s__Object) (tptp.s__instance V__SOLUTION tptp.s__Object)) (=> (and (tptp.s__instance V__SOLUTION tptp.s__SalineSolution) (tptp.s__part V__PART V__SOLUTION)) (or (tptp.s__instance V__PART tptp.s__SodiumChloride) (tptp.s__instance V__PART tptp.s__Water))))) (forall ((V__WATER $$unsorted)) (=> (tptp.s__instance V__WATER tptp.s__Water) (exists ((V__SYNTHESIS $$unsorted) (V__HYDROGEN $$unsorted) (V__OXYGEN $$unsorted)) (and (tptp.s__instance V__OXYGEN tptp.s__Object) (tptp.s__instance V__HYDROGEN tptp.s__Object) (tptp.s__instance V__SYNTHESIS tptp.s__Process) (tptp.s__instance V__SYNTHESIS tptp.s__ChemicalSynthesis) (tptp.s__resource V__SYNTHESIS V__HYDROGEN) (tptp.s__instance V__HYDROGEN tptp.s__Hydrogen) (tptp.s__resource V__SYNTHESIS V__OXYGEN) (tptp.s__instance V__OXYGEN tptp.s__Oxygen) (tptp.s__result V__SYNTHESIS V__WATER))))) (tptp.s__documentation tptp.s__reactant__m tptp.s__EnglishLanguage |tptp.'(reactant ?PROCESS ?SUBSTANCE) means that ?SUBSTANCE is a chemical reactant in the chemical reaction ?PROCESS, i.e. ?SUBSTANCE is present at the beginning of the chemical reaction ?PROCESS.'|) (tptp.s__domain tptp.s__reactant__m |"1"| tptp.s__ChemicalProcess) (tptp.s__domain tptp.s__reactant__m |"2"| tptp.s__Substance) (tptp.s__subrelation tptp.s__reactant__m tptp.s__resource__m) (tptp.s__documentation tptp.s__reagent__m tptp.s__EnglishLanguage |tptp.'(reagent ?PROCESS ?SUBSTANCE) means that ?SUBSTANCE is a chemical agent in the chemical reaction ?PROCESS.'|) (tptp.s__domain tptp.s__reagent__m |"1"| tptp.s__ChemicalProcess) (tptp.s__domain tptp.s__reagent__m |"2"| tptp.s__Substance) (tptp.s__subrelation tptp.s__reagent__m tptp.s__instrument__m) (tptp.s__subclass tptp.s__Oil tptp.s__Solution) (tptp.s__instance tptp.s__Oil__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Oil tptp.s__EnglishLanguage |tptp.'A greasy, viscous &%Solution that cannot be mixed with &%Water. Note that this general class covers petroleum oil, vegetable oil, animal fat, etc.'|) (forall ((V__OIL $$unsorted)) (=> (tptp.s__instance V__OIL tptp.s__Object) (=> (tptp.s__instance V__OIL tptp.s__Oil) (not (exists ((V__MIX $$unsorted) (V__WATER $$unsorted)) (and (tptp.s__instance V__WATER tptp.s__Object) (tptp.s__instance V__MIX tptp.s__Object) (tptp.s__instance V__MIX tptp.s__Mixture) (tptp.s__part V__WATER V__MIX) (tptp.s__instance V__WATER tptp.s__Water) (tptp.s__part V__OIL V__MIX))))))) (tptp.s__subclass tptp.s__Surfactant tptp.s__Substance) (tptp.s__instance tptp.s__Surfactant__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Surfactant tptp.s__EnglishLanguage |tptp.'Surfactants, also known as &%Wetting agents, lower the surface tension of a &%Liquid, allowing easier spreading. The term surfactant is a compression of Surface active agent. Surfactants are usually organic compounds that contain both hydrophobic and hydrophilic groups, and are thus semi-soluble in both organic and aqueous solvents.'|) (tptp.s__subclass tptp.s__Detergent tptp.s__Surfactant) (tptp.s__subclass tptp.s__Detergent tptp.s__Mixture) (tptp.s__instance tptp.s__Detergent__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Detergent tptp.s__EnglishLanguage |tptp.'A detergent is a compound, or a mixture of compounds, whose molecules have two distinct regions: one that is hydrophilic, and dissolves easily in water, and another region that is hydrophobic, with little (if any) affinity for water. As a consequence, these compounds can aid in the solubilization of hydrophobic compounds in water, and usually are optimized for this property. Though &%Soap also has these properties, soaps in general are not considered detergents. &%Soap is a particular type of surfactant that is derived from oils and fats. They are created through the saponification process whereby the ester linkage in a vegetable oil or fat is hydrolytically cleaved, creating a sodium or potassium salt of a fatty acid (i.e. soap). Both detergents and soaps are considered to be surfactants. &%Surfactants that are not soaps are considered to be detergents. Detergents are also commonly known as any cleaning mixture containing surfactants. (from Wikipedia)'|) (forall ((V__DETERGENT $$unsorted)) (=> (tptp.s__instance V__DETERGENT tptp.s__Physical) (=> (tptp.s__instance V__DETERGENT tptp.s__Detergent) (tptp.s__hasPurpose V__DETERGENT |tptp.'(? [V__REMOVE,V__SUBSTANCE,V__SURFACE,V__OBJECT] : (s__instance(V__OBJECT,s__SelfConnectedObject) & s__instance(V__SURFACE,s__SelfConnectedObject) & s__instance(V__REMOVE,s__Process) & s__instance(V__REMOVE,s__Removing) & s__instance(V__SUBSTANCE,s__Substance) & s__patient(V__REMOVE,V__SUBSTANCE) & s__origin(V__REMOVE,V__SURFACE) & s__surface(V__SURFACE,V__OBJECT)))'|)))) (tptp.s__subclass tptp.s__Bathing tptp.s__Washing) (tptp.s__instance tptp.s__Bathing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Bathing tptp.s__EnglishLanguage |tptp.'&%Washing the entire body of a &%Human or &%Animal.'|) (forall ((V__B $$unsorted) (V__A $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Process) (=> (and (tptp.s__instance V__B tptp.s__Bathing) (tptp.s__patient V__B V__A)) (tptp.s__instance V__A tptp.s__Animal)))) (tptp.s__subclass tptp.s__BathingDevice tptp.s__WashingDevice) (tptp.s__documentation tptp.s__BathingDevice tptp.s__EnglishLanguage |tptp.'A &%WashingDevice which is intended to be used by Humans for washing their bodies. Note that this class covers bathtubs, showers, etc.'|) (forall ((V__PERSON $$unsorted) (V__BD $$unsorted)) (=> (tptp.s__instance V__BD tptp.s__Object) (=> (tptp.s__instance V__BD tptp.s__BathingDevice) (tptp.s__hasPurpose V__BD |tptp.'(? [V__B,V__P] : (s__instance(V__B,s__Process) & s__instance(V__B,s__Bathing) & s__instrument(V__B,V__BD) & s__patient(V__B,V__PERSON) & s__instance(V__P,s__Human)))'|)))) (tptp.s__subclass tptp.s__WashBasin tptp.s__WashingDevice) (tptp.s__instance tptp.s__WashBasin__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__WashBasin tptp.s__EnglishLanguage |tptp.'A &%WashingDevice which is intended to be used by &%Humans for washing their &%Hands.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Object) (=> (tptp.s__instance V__B tptp.s__WashBasin) (tptp.s__hasPurpose V__B |tptp.'(? [V__W,V__H] : (s__instance(V__W,s__Process) & s__instance(V__W,s__Washing) & s__instrument(V__W,V__B) & s__patient(V__W,V__H) & s__instance(V__H,s__Hand)))'|)))) (tptp.s__subclass tptp.s__Glue tptp.s__Mixture) (tptp.s__instance tptp.s__Glue__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Glue tptp.s__EnglishLanguage |tptp.'Any &%Mixture whose purpose is to be used as the &%instrument of &%Attaching one thing to another.'|) (forall ((V__GLUE $$unsorted)) (=> (tptp.s__instance V__GLUE tptp.s__Object) (=> (tptp.s__instance V__GLUE tptp.s__Glue) (tptp.s__hasPurpose V__GLUE |tptp.'(? [V__ATTACH] : (s__instance(V__ATTACH,s__Process) & s__instance(V__ATTACH,s__Attaching) & s__instrument(V__ATTACH,V__GLUE)))'|)))) (tptp.s__subclass tptp.s__Glass tptp.s__Mixture) (tptp.s__instance tptp.s__Glass__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Glass tptp.s__EnglishLanguage |tptp.'A transparent or translucent &%Mixture of silicates.'|) (tptp.s__subclass tptp.s__MetallicAlloy tptp.s__Mixture) (tptp.s__documentation tptp.s__MetallicAlloy tptp.s__EnglishLanguage |tptp.'A &%Mixture of two or more &%Metals, and possibly nonmetallic elements as well. For example, steel is an alloy containing iron and manganese.'|) (forall ((V__ALLOY $$unsorted)) (=> (tptp.s__instance V__ALLOY tptp.s__Object) (=> (tptp.s__instance V__ALLOY tptp.s__MetallicAlloy) (exists ((V__METAL1 $$unsorted) (V__METAL2 $$unsorted)) (and (tptp.s__instance V__METAL2 tptp.s__Object) (tptp.s__instance V__METAL1 tptp.s__Object) (tptp.s__instance V__METAL1 tptp.s__Metal) (tptp.s__instance V__METAL2 tptp.s__Metal) (not (= V__METAL1 V__METAL2)) (tptp.s__part V__METAL1 V__ALLOY) (tptp.s__part V__METAL2 V__ALLOY)))))) (tptp.s__subclass tptp.s__Steel tptp.s__MetallicAlloy) (tptp.s__instance tptp.s__Steel__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Steel tptp.s__EnglishLanguage |tptp.'A &%MetallicAlloy made from &%Iron and other elements.'|) (forall ((V__STEEL $$unsorted)) (=> (tptp.s__instance V__STEEL tptp.s__Object) (=> (tptp.s__instance V__STEEL tptp.s__Steel) (exists ((V__IRON $$unsorted)) (and (tptp.s__instance V__IRON tptp.s__Object) (tptp.s__instance V__IRON tptp.s__Iron) (tptp.s__part V__IRON V__STEEL)))))) (tptp.s__subclass tptp.s__Brass tptp.s__MetallicAlloy) (tptp.s__instance tptp.s__Brass__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__MetallicAlloy__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Brass tptp.s__EnglishLanguage |tptp.'A &%MetallicAlloy made from &%Copper and &%Zinc.'|) (forall ((V__BRASS $$unsorted)) (=> (tptp.s__instance V__BRASS tptp.s__Object) (=> (tptp.s__instance V__BRASS tptp.s__Brass) (exists ((V__COPPER $$unsorted) (V__ZINC $$unsorted)) (and (tptp.s__instance V__ZINC tptp.s__Object) (tptp.s__instance V__COPPER tptp.s__Object) (tptp.s__instance V__COPPER tptp.s__Copper) (tptp.s__instance V__ZINC tptp.s__Zinc) (tptp.s__part V__COPPER V__BRASS) (tptp.s__part V__ZINC V__BRASS)))))) (tptp.s__subclass tptp.s__Powder tptp.s__Substance) (tptp.s__documentation tptp.s__Powder tptp.s__EnglishLanguage |tptp.'Any &%Solid &%Substance which consists of loose, identical, and very small particles.'|) (forall ((V__POWDER $$unsorted)) (=> (tptp.s__instance V__POWDER tptp.s__Object) (=> (tptp.s__instance V__POWDER tptp.s__Powder) (tptp.s__attribute V__POWDER tptp.s__Solid)))) (tptp.s__subclass tptp.s__Fallout tptp.s__Powder) (tptp.s__instance tptp.s__Fallout__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Fallout tptp.s__EnglishLanguage |tptp.'Radioactive powder that is typically dispersed by the explosion of a nuclear weapon.'|) (forall ((V__POWDER $$unsorted)) (=> (tptp.s__instance V__POWDER tptp.s__Object) (=> (tptp.s__instance V__POWDER tptp.s__Fallout) (tptp.s__capability tptp.s__RadiatingNuclear tptp.s__instrument__m V__POWDER)))) (tptp.s__subclass tptp.s__Fog tptp.s__WaterCloud) (tptp.s__instance tptp.s__Fog__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Fog tptp.s__EnglishLanguage |tptp.'Any &%WaterCloud that is in contact with the ground.'|) (forall ((V__FOG $$unsorted)) (=> (tptp.s__instance V__FOG tptp.s__Object) (=> (tptp.s__instance V__FOG tptp.s__Fog) (exists ((V__LAND $$unsorted)) (and (tptp.s__instance V__LAND tptp.s__Object) (tptp.s__instance V__LAND tptp.s__LandArea) (tptp.s__meetsSpatially V__FOG V__LAND)))))) (tptp.s__subclass tptp.s__Ice tptp.s__Water) (tptp.s__instance tptp.s__Ice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Ice tptp.s__EnglishLanguage |tptp.'&%Water that has the &%PhysicalState of &%Solid.'|) (forall ((V__ICE $$unsorted)) (=> (tptp.s__instance V__ICE tptp.s__Object) (= (tptp.s__instance V__ICE tptp.s__Ice) (and (tptp.s__instance V__ICE tptp.s__Water) (tptp.s__attribute V__ICE tptp.s__Solid))))) (forall ((V__NUMBER $$unsorted) (V__ICE $$unsorted)) (=> (and (tptp.s__instance V__ICE tptp.s__Object) (tptp.s__instance V__NUMBER tptp.s__RealNumber)) (=> (and (tptp.s__instance V__ICE tptp.s__Ice) (tptp.s__measure V__ICE (tptp.s__MeasureFn V__NUMBER tptp.s__CelsiusDegree))) (tptp.lesseq V__NUMBER |"0"|)))) (tptp.s__subclass tptp.s__Field tptp.s__LandArea) (tptp.s__documentation tptp.s__Field tptp.s__EnglishLanguage |tptp.'A &%LandArea that has been cleared of &%BotanicalTrees. Note that a &%Field is not necessarily used for the cultivation of crops and that a &%Field may be very small, e.g. &%Lawn is a subclass of &%Field.'|) (forall ((V__FIELD $$unsorted)) (=> (tptp.s__instance V__FIELD tptp.s__Object) (=> (tptp.s__instance V__FIELD tptp.s__Field) (not (exists ((V__TREE $$unsorted)) (and (tptp.s__instance V__TREE tptp.s__Physical) (tptp.s__instance V__TREE tptp.s__BotanicalTree) (tptp.s__located V__TREE V__FIELD))))))) (tptp.s__subclass tptp.s__Lawn tptp.s__Field) (tptp.s__instance tptp.s__Lawn__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Field__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Lawn tptp.s__EnglishLanguage |tptp.'A &%Field of cultivated and mowed &%Grass.'|) (forall ((V__L $$unsorted)) (=> (tptp.s__instance V__L tptp.s__Object) (=> (tptp.s__instance V__L tptp.s__Lawn) (exists ((V__G $$unsorted)) (and (tptp.s__instance V__G tptp.s__Physical) (tptp.s__instance V__G tptp.s__Grass) (tptp.s__located V__G V__L)))))) (tptp.s__subclass tptp.s__MilitaryFront tptp.s__GeographicArea) (tptp.s__instance tptp.s__MilitaryFront__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MilitaryFront tptp.s__EnglishLanguage |tptp.'A &%GeographicArea along which opposing military forces confront one another in a &%Battle.'|) (tptp.s__partition_3 tptp.s__Region tptp.s__GeographicArea tptp.s__SpaceRegion) (tptp.s__subclass tptp.s__AtmosphericRegion tptp.s__SpaceRegion) (tptp.s__documentation tptp.s__AtmosphericRegion tptp.s__EnglishLanguage |tptp.'&%AtmosphericRegion is the class of all subregions of &%EarthsAtmosphere.'|) (tptp.s__subclass tptp.s__StreamWaterArea tptp.s__WaterArea) (tptp.s__subclass tptp.s__StreamWaterArea tptp.s__FlowRegion) (tptp.s__instance tptp.s__StreamWaterArea__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__FlowRegion__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__StreamWaterArea tptp.s__StaticWaterArea) (tptp.s__documentation tptp.s__StreamWaterArea tptp.s__EnglishLanguage |tptp.'A relatively narrow &%WaterArea where the water flows constantly and in the same direction, e.g. a river, a stream, etc.'|) (tptp.s__subclass tptp.s__StaticWaterArea tptp.s__WaterArea) (tptp.s__instance tptp.s__StaticWaterArea__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__StaticWaterArea tptp.s__EnglishLanguage |tptp.'A &%WaterArea in which water does not flow constantly or in the same direction, e.g. most lakes and ponds.'|) (tptp.s__subclass tptp.s__FlowRegion tptp.s__Region) (tptp.s__documentation tptp.s__FlowRegion tptp.s__EnglishLanguage |tptp.'&%FlowRegion is a class of things whose boundaries are relatively stable but whose constitutive &%material is continuously moving through the region itself and being replaced by other, similar material. Each &%FlowRegion is constituted by a stream of matter moving as a whole. A &%FlowRegion may be liquid or gaseous. A wind may be considered as a &%Process or as a &%FlowRegion, similarly an OceanCurrent or a &%WaterWave. The motion process associated with a &%FlowRegion F is denoted by (&%FlowFn F). Note that certain properties belong to the &%FlowRegion itself (e.g., mass, length, volume, temperature, and speed or velocity of the region moving as a whole), while other properties of interest belong to the &%Motion of its constitutive stuff (e.g., velocity, direction). The motion of a &%FlowRegion as a whole (e.g., &%JetStream moves within the atmosphere) is distinguished from the motion of the &%pieces of stuff constituting the &%FlowRegion. See &%FlowFn and &%FlowRegionFn.'|) (forall ((V__FLUID $$unsorted) (V__FR $$unsorted)) (=> (and (tptp.s__instance V__FR tptp.s__Object) (tptp.s__instance V__FLUID tptp.s__Object)) (=> (and (tptp.s__instance V__FR tptp.s__FlowRegion) (tptp.s__located V__FLUID V__FR)) (tptp.s__attribute V__FLUID tptp.s__Fluid)))) (tptp.s__subclass tptp.s__SpaceRegion tptp.s__Region) (tptp.s__instance tptp.s__SpaceRegion__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__SpaceRegion tptp.s__GeographicArea) (tptp.s__partition_3 tptp.s__SpaceRegion tptp.s__AtmosphericRegion tptp.s__OuterSpaceRegion) (tptp.s__documentation tptp.s__SpaceRegion tptp.s__EnglishLanguage |tptp.'The class of all &%Regions which are not &%GeographicAreas.'|) (tptp.s__subclass tptp.s__OuterSpaceRegion tptp.s__SpaceRegion) (tptp.s__instance tptp.s__OuterSpaceRegion__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__OuterSpaceRegion tptp.s__EnglishLanguage |tptp.'The class of all &%Regions which are neither &%GeographicAreas nor &%AtmosphericRegions.'|) (tptp.s__subclass tptp.s__StormFront tptp.s__AtmosphericRegion) (tptp.s__instance tptp.s__StormFront__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__AtmosphericRegion__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__StormFront tptp.s__EnglishLanguage |tptp.'The &%Region where two or more unstable air masses meet.'|) (forall ((V__FRONT $$unsorted)) (=> (tptp.s__instance V__FRONT tptp.s__Object) (=> (tptp.s__instance V__FRONT tptp.s__StormFront) (exists ((V__AIR1 $$unsorted) (V__AIR2 $$unsorted)) (and (tptp.s__instance V__AIR2 tptp.s__Object) (tptp.s__instance V__AIR1 tptp.s__Object) (tptp.s__instance V__AIR1 tptp.s__Air) (tptp.s__instance V__AIR2 tptp.s__Air) (tptp.s__between V__AIR1 V__FRONT V__AIR2)))))) (tptp.s__instance tptp.s__Inside tptp.s__PositionalAttribute) (tptp.s__documentation tptp.s__Inside tptp.s__EnglishLanguage |tptp.'&%Inside is a &%PositionalAttribute used to describe the relative location of one object or region to another region.'|) (forall ((V__INSIDE $$unsorted)) (=> (tptp.s__instance V__INSIDE tptp.s__Inside) (exists ((V__OBJECT $$unsorted)) (forall ((V__THING $$unsorted)) (=> (and (tptp.s__instance V__THING tptp.s__Physical) (tptp.s__instance V__INSIDE tptp.s__Object)) (=> (tptp.s__located V__THING V__INSIDE) (exists ((V__PART $$unsorted)) (and (tptp.s__instance V__PART tptp.s__Object) (tptp.s__instance V__OBJECT tptp.s__Object) (tptp.s__interiorPart V__PART V__OBJECT) (tptp.s__located V__THING V__PART))))))))) (tptp.s__instance tptp.s__Outside tptp.s__PositionalAttribute) (tptp.s__contraryAttribute_2 tptp.s__Inside tptp.s__Outside) (tptp.s__documentation tptp.s__Outside tptp.s__EnglishLanguage |tptp.'&%Outside is a &%PositionalAttribute used to describe the relative location of one object or region to another region. '|) (forall ((V__OBJ $$unsorted) (V__REGION $$unsorted)) (=> (and (tptp.s__instance V__REGION tptp.s__Object) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (tptp.s__orientation V__OBJ V__REGION tptp.s__Outside) (tptp.s__instance V__REGION tptp.s__Region)))) (forall ((V__OBJ $$unsorted) (V__REGION $$unsorted)) (=> (and (tptp.s__instance V__REGION tptp.s__Object) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (tptp.s__orientation V__OBJ V__REGION tptp.s__Inside) (tptp.s__instance V__REGION tptp.s__Region)))) (forall ((V__OBJ $$unsorted) (V__REGION $$unsorted)) (=> (and (tptp.s__instance V__REGION tptp.s__Object) (tptp.s__instance V__OBJ tptp.s__Object)) (= (tptp.s__orientation V__OBJ V__REGION tptp.s__Outside) (not (tptp.s__partlyLocated V__OBJ V__REGION))))) (forall ((V__OBJ $$unsorted) (V__REGION $$unsorted)) (=> (and (tptp.s__instance V__REGION tptp.s__Object) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (tptp.s__part V__OBJ V__REGION) (not (tptp.s__orientation V__OBJ V__REGION tptp.s__Outside))))) (tptp.s__subclass tptp.s__Outdoors tptp.s__Region) (tptp.s__instance tptp.s__Outdoors__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Outdoors tptp.s__EnglishLanguage |tptp.'Any &%Region which is not enclosed by a &%Building or part of a &%Building.'|) (forall ((V__OUTDOORS $$unsorted)) (=> (tptp.s__instance V__OUTDOORS tptp.s__Object) (=> (tptp.s__instance V__OUTDOORS tptp.s__Outdoors) (not (exists ((V__BUILDING $$unsorted)) (and (tptp.s__instance V__BUILDING tptp.s__Object) (tptp.s__instance V__BUILDING tptp.s__Building) (tptp.s__orientation V__OUTDOORS V__BUILDING tptp.s__Inside))))))) (tptp.s__subclass tptp.s__Indoors tptp.s__Region) (tptp.s__instance tptp.s__Indoors__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__Indoors tptp.s__Outdoors) (tptp.s__documentation tptp.s__Indoors tptp.s__EnglishLanguage |tptp.'Any &%Region which is enclosed by a &%Building.'|) (forall ((V__INDOORS $$unsorted)) (=> (tptp.s__instance V__INDOORS tptp.s__Object) (=> (tptp.s__instance V__INDOORS tptp.s__Indoors) (exists ((V__BUILDING $$unsorted)) (and (tptp.s__instance V__BUILDING tptp.s__Object) (tptp.s__instance V__BUILDING tptp.s__Building) (tptp.s__orientation V__INDOORS V__BUILDING tptp.s__Inside)))))) (tptp.s__subclass tptp.s__BiologicalSpecies tptp.s__Class) (tptp.s__instance tptp.s__BiologicalSpecies__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__BiologicalSpecies tptp.s__EnglishLanguage |tptp.'The &%Class of all biological species, i.e. the class of all classes of &%Organism whose instances can interbreed.'|) (forall ((V__SPECIES $$unsorted)) (=> (tptp.s__instance V__SPECIES tptp.s__SetOrClass) (=> (tptp.s__instance V__SPECIES tptp.s__BiologicalSpecies) (tptp.s__subclass V__SPECIES tptp.s__Organism)))) (tptp.s__subclass tptp.s__Wood tptp.s__Tissue) (tptp.s__instance tptp.s__Wood__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Wood tptp.s__PlantSubstance) (tptp.s__documentation tptp.s__Wood tptp.s__EnglishLanguage |tptp.'&%Tissue that comprises the inner trunk of &%Trees. It is often used in constructing &%Buildings and other &%Artifacts. Wood is the principal substance making up a tree, and is distinguished from the bark, roots, flowers, seeds, fruit and leaves.'|) (tptp.s__relatedInternalConcept tptp.s__Wood tptp.s__WoodArtifact) (tptp.s__subclass tptp.s__WoodArtifact tptp.s__Artifact) (tptp.s__documentation tptp.s__WoodArtifact tptp.s__EnglishLanguage |tptp.'&%Wood that has been cut (and perhaps treated) for some purpose, e.g. &%Constructing or &%Combustion. Note that this class covers both lumber and firewood.'|) (forall ((V__W $$unsorted)) (=> (tptp.s__instance V__W tptp.s__CorpuscularObject) (=> (tptp.s__instance V__W tptp.s__WoodArtifact) (tptp.s__material tptp.s__Wood V__W)))) (tptp.s__subclass tptp.s__OakWood tptp.s__WoodArtifact) (tptp.s__instance tptp.s__OakWood__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__WoodArtifact__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__OakWood tptp.s__EnglishLanguage |tptp.'Any &%WoodArtifact that is made from the &%Wood of an oak tree.'|) (tptp.s__subclass tptp.s__Rubber tptp.s__PlantSubstance) (tptp.s__instance tptp.s__Rubber__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Rubber tptp.s__BodySubstance) (tptp.s__subclass tptp.s__Rubber tptp.s__Hydrocarbon) (tptp.s__documentation tptp.s__Rubber tptp.s__EnglishLanguage |tptp.'Natural rubber, as opposed to synthetic rubber which is a &%Plastic, is a product of the rubber tree, genus Hevea or Ficus. It is the coagulated form of the milky juice secreted by these trees. Rubber is essentially a polymer of isoprene. '|) (forall ((V__R $$unsorted)) (=> (tptp.s__instance V__R tptp.s__Object) (=> (tptp.s__instance V__R tptp.s__Rubber) (exists ((V__T $$unsorted)) (and (tptp.s__instance V__T tptp.s__Object) (tptp.s__instance V__T tptp.s__BotanicalTree) (tptp.s__part V__R V__T)))))) (tptp.s__subclass tptp.s__Cellulose tptp.s__PlantSubstance) (tptp.s__subclass tptp.s__Cellulose tptp.s__Carbohydrate) (tptp.s__instance tptp.s__Cellulose__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Cellulose tptp.s__EnglishLanguage |tptp.'The main component of &%Plant &%Tissue.'|) (tptp.s__subclass tptp.s__Starch tptp.s__Carbohydrate) (tptp.s__instance tptp.s__Starch__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Starch tptp.s__EnglishLanguage |tptp.'A complex &%Carbohydrate that is the main form in which &%Carbohydrates are stored.'|) (tptp.s__subclass tptp.s__Sugar tptp.s__Carbohydrate) (tptp.s__instance tptp.s__Sugar__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sugar tptp.s__EnglishLanguage |tptp.'A simple &%Carbohydrate that has a sweet taste and consists mostly or entirely of sucrose.'|) (tptp.s__subclass tptp.s__Nectar tptp.s__PlantSubstance) (tptp.s__instance tptp.s__Nectar__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Nectar tptp.s__EnglishLanguage |tptp.'A sweet, sticky liquid that is produced by &%Plants and that attracts Insects.'|) (tptp.s__subclass tptp.s__Medicine tptp.s__BiologicallyActiveSubstance) (tptp.s__instance tptp.s__Medicine__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Medicine tptp.s__EnglishLanguage |tptp.'Any &%BiologicallyActiveSubstance which has a therapeutic effect under certain conditions.'|) (forall ((V__M $$unsorted)) (=> (tptp.s__instance V__M tptp.s__Object) (=> (tptp.s__instance V__M tptp.s__Medicine) (exists ((V__P $$unsorted)) (and (tptp.s__instance V__P tptp.s__Process) (tptp.s__instance V__P tptp.s__TherapeuticProcess) (tptp.s__instrument V__P V__M)))))) (tptp.s__subclass tptp.s__Stimulant tptp.s__BiologicallyActiveSubstance) (tptp.s__instance tptp.s__Stimulant__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__Stimulant tptp.s__Depressant) (tptp.s__documentation tptp.s__Stimulant tptp.s__EnglishLanguage |tptp.'Any &%BiologicallyActiveSubstance which has the effect of stimulating the central nervous system, i.e. increasing function or activity in the &%Brain or &%SpinalCord.'|) (tptp.s__subclass tptp.s__Depressant tptp.s__BiologicallyActiveSubstance) (tptp.s__documentation tptp.s__Depressant tptp.s__EnglishLanguage |tptp.'Any &%BiologicallyActiveSubstance which has the effect of depressing the central nervous system, i.e. decreasing function or activity in the &%Brain or &%SpinalCord.'|) (tptp.s__subclass tptp.s__Opium tptp.s__BiologicallyActiveSubstance) (tptp.s__instance tptp.s__Opium__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Opium tptp.s__PlantSubstance) (tptp.s__documentation tptp.s__Opium tptp.s__EnglishLanguage |tptp.'A substance harvested from the seed capsules of the opium poppy that contains various powerful alkaloids.'|) (tptp.s__subclass tptp.s__Opium tptp.s__Depressant) (forall ((V__O $$unsorted)) (=> (tptp.s__instance V__O tptp.s__Object) (=> (tptp.s__instance V__O tptp.s__Opium) (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__Object) (tptp.s__instance V__A tptp.s__Alkaloid) (tptp.s__part V__A V__O)))))) (tptp.s__subclass tptp.s__Grass tptp.s__FloweringPlant) (tptp.s__instance tptp.s__Grass__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Grass tptp.s__EnglishLanguage |tptp.'&%FloweringPlants with green, narrow leaves that are used for lawns and &%Fields. &%Grass includes any plant of the family Gramineae, a widely distributed group of mostly annual and perennial herbs.'|) (tptp.s__subclass tptp.s__Lilac tptp.s__FloweringPlant) (tptp.s__instance tptp.s__Lilac__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Lilac tptp.s__EnglishLanguage |tptp.'A &%FloweringPlant that has large clusters of aromatic flowers.'|) (tptp.s__subclass tptp.s__Tobacco tptp.s__FloweringPlant) (tptp.s__instance tptp.s__Tobacco__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Tobacco tptp.s__EnglishLanguage |tptp.'A &%FloweringPlant containing nicotine whose leaves are dried and then smoked or ingested.'|) (tptp.s__subclass tptp.s__Lesion tptp.s__AbnormalAnatomicalStructure) (tptp.s__instance tptp.s__Lesion__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Lesion tptp.s__EnglishLanguage |tptp.'Any &%AbnormalAnatomicalStructure which is the result of an Injuring and which is found on the surface of an &%Organ.'|) (forall ((V__L $$unsorted)) (=> (tptp.s__instance V__L tptp.s__Lesion) (exists ((V__I $$unsorted)) (and (tptp.s__instance V__I tptp.s__Process) (tptp.s__instance V__I tptp.s__Injuring) (tptp.s__result V__I V__L))))) (forall ((V__L $$unsorted)) (=> (tptp.s__instance V__L tptp.s__Physical) (=> (tptp.s__instance V__L tptp.s__Lesion) (exists ((V__S $$unsorted) (V__O $$unsorted)) (and (tptp.s__instance V__O tptp.s__SelfConnectedObject) (tptp.s__instance V__S tptp.s__SelfConnectedObject) (tptp.s__surface V__S V__O) (tptp.s__instance V__O tptp.s__Organ) (tptp.s__located V__L V__S)))))) (tptp.s__subclass tptp.s__Scar tptp.s__AbnormalAnatomicalStructure) (tptp.s__instance tptp.s__Scar__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Scar tptp.s__EnglishLanguage |tptp.'Any &%AbnormalAnatomicalStructure which results from the healing of a &%Lesion.'|) (tptp.s__subclass tptp.s__Tumor tptp.s__AbnormalAnatomicalStructure) (tptp.s__instance tptp.s__Tumor__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Tumor tptp.s__EnglishLanguage |tptp.'Any &%AbnormalAnatomicalStructure which consists of a mass of &%Tissue. Note that this class covers both malignant (i.e. cancerous) and benign tumors.'|) (forall ((V__TUMOR $$unsorted)) (=> (tptp.s__instance V__TUMOR tptp.s__Tumor) (forall ((V__PART $$unsorted)) (=> (and (tptp.s__instance V__PART tptp.s__Object) (tptp.s__instance V__TUMOR tptp.s__Object)) (=> (tptp.s__part V__PART V__TUMOR) (tptp.s__instance V__PART tptp.s__Tissue)))))) (tptp.s__subclass tptp.s__Tendon tptp.s__Tissue) (tptp.s__subclass tptp.s__Tendon tptp.s__AnimalSubstance) (tptp.s__instance tptp.s__Tendon__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Tendon tptp.s__EnglishLanguage |tptp.'&%Tissue that connects &%Muscle to &%Bone.'|) (forall ((V__T $$unsorted)) (=> (tptp.s__instance V__T tptp.s__SelfConnectedObject) (=> (tptp.s__instance V__T tptp.s__Tendon) (exists ((V__M $$unsorted) (V__B $$unsorted)) (and (tptp.s__instance V__B tptp.s__SelfConnectedObject) (tptp.s__instance V__M tptp.s__SelfConnectedObject) (tptp.s__instance V__M tptp.s__Muscle) (tptp.s__instance V__B tptp.s__Bone) (tptp.s__connects V__T V__M V__B)))))) (tptp.s__subclass tptp.s__Sweat tptp.s__AnimalSubstance) (tptp.s__instance tptp.s__Sweat__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sweat tptp.s__EnglishLanguage |tptp.'An &%AnimalSubstance that contains &%SodiumChloride and is produced by the sweat glands.'|) (forall ((V__SWEAT $$unsorted)) (=> (tptp.s__instance V__SWEAT tptp.s__Object) (=> (tptp.s__instance V__SWEAT tptp.s__Sweat) (exists ((V__PART $$unsorted)) (and (tptp.s__instance V__PART tptp.s__Object) (tptp.s__instance V__PART tptp.s__SodiumChloride) (tptp.s__part V__PART V__SWEAT)))))) (tptp.s__subclass tptp.s__PlantLeaf tptp.s__PlantAnatomicalStructure) (tptp.s__subclass tptp.s__PlantLeaf tptp.s__Organ) (tptp.s__instance tptp.s__PlantLeaf__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PlantLeaf tptp.s__EnglishLanguage |tptp.'An &%Organ of &%Plants whose main purpose is photosynthesis.'|) (tptp.s__subclass tptp.s__PlantBranch tptp.s__PlantAnatomicalStructure) (tptp.s__subclass tptp.s__PlantBranch tptp.s__BodyPart) (tptp.s__instance tptp.s__PlantBranch__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PlantBranch tptp.s__EnglishLanguage |tptp.'The stem of a &%Plant or any shoot arising from the stem of a &%Plant.'|) (tptp.s__subclass tptp.s__BotanicalTree tptp.s__FloweringPlant) (tptp.s__documentation tptp.s__BotanicalTree tptp.s__EnglishLanguage |tptp.'&%BotanicalTree is an imprecise term for a perennial woody plant that is larger than a bush or shrub, generally understood to describe a large growth having one main trunk with few or no branches projecting from its base, a well-developed crown of foliage, and a height at maturity of at least 12 feet.'|) (tptp.s__subclass tptp.s__TreeBranch tptp.s__PlantBranch) (tptp.s__instance tptp.s__TreeBranch__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TreeBranch tptp.s__EnglishLanguage |tptp.'Any &%PlantBranch which is part of a &%BotanicalTree.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Object) (=> (tptp.s__instance V__B tptp.s__TreeBranch) (exists ((V__T $$unsorted)) (and (tptp.s__instance V__T tptp.s__Object) (tptp.s__instance V__T tptp.s__BotanicalTree) (tptp.s__part V__B V__T)))))) (tptp.s__subclass tptp.s__WillowTree tptp.s__BotanicalTree) (tptp.s__instance tptp.s__WillowTree__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__BotanicalTree__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__WillowTree tptp.s__EnglishLanguage |tptp.'A &%BotanicalTree of the genus &%Salix.'|) (tptp.s__subclass tptp.s__PlantRoot tptp.s__PlantAnatomicalStructure) (tptp.s__subclass tptp.s__PlantRoot tptp.s__Organ) (tptp.s__instance tptp.s__PlantRoot__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PlantRoot tptp.s__EnglishLanguage |tptp.'An &%Organ of &%Plants whose main purpose is twofold, viz. to absorb nutrients from the ground and to anchor the &%Plant in place.'|) (tptp.s__subclass tptp.s__Flower tptp.s__PlantAnatomicalStructure) (tptp.s__subclass tptp.s__Flower tptp.s__Organ) (tptp.s__instance tptp.s__Flower__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Flower tptp.s__EnglishLanguage |tptp.'The reproductive organ of &%FloweringPlants.'|) (tptp.s__subclass tptp.s__Antibody tptp.s__Protein) (tptp.s__instance tptp.s__Antibody__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Antibody tptp.s__EnglishLanguage |tptp.'An immunoglobulin which is produced by the body and which has the ability to neutralize &%Antigens.'|) (forall ((V__BODY $$unsorted)) (=> (tptp.s__instance V__BODY tptp.s__Agent) (=> (tptp.s__instance V__BODY tptp.s__Antibody) (tptp.s__hasPurpose V__BODY |tptp.'(? [V__DEST,V__ANTI] : (s__instance(V__DEST,s__Process) & s__instance(V__DEST,s__Destruction) & s__agent(V__DEST,V__BODY) & s__patient(V__DEST,V__ANTI) & s__instance(V__ANTI,s__Antigen)))'|)))) (tptp.s__subclass tptp.s__Antibiotic tptp.s__BiologicallyActiveSubstance) (tptp.s__instance tptp.s__Antibiotic__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Antibiotic tptp.s__EnglishLanguage |tptp.'A &%BiologicallyActiveSubstance than can kill instances of &%Bacterium.'|) (tptp.s__subclass tptp.s__Antigen tptp.s__BiologicallyActiveSubstance) (tptp.s__instance tptp.s__Antigen__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Antigen tptp.s__EnglishLanguage |tptp.'Any &%BiologicallyActiveSubstance that has the capacity to stimulate the production of &%Antibodies.'|) (tptp.s__subclass tptp.s__AntigenA tptp.s__Antigen) (tptp.s__instance tptp.s__AntigenA__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AntigenA tptp.s__EnglishLanguage |tptp.'An &%Antigen that is carried in the red blood cells of those with &%BloodTypeA.'|) (tptp.s__subclass tptp.s__AntigenB tptp.s__Antigen) (tptp.s__instance tptp.s__AntigenB__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AntigenB tptp.s__EnglishLanguage |tptp.'An &%Antigen that is carried in the red blood cells of those with &%BloodTypeB.'|) (tptp.s__subclass tptp.s__BloodCell tptp.s__Cell) (tptp.s__instance tptp.s__BloodCell__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__BloodCell tptp.s__AnimalAnatomicalStructure) (tptp.s__documentation tptp.s__BloodCell tptp.s__EnglishLanguage |tptp.'A &%Cell that is normally present in &%Blood.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Object) (=> (tptp.s__instance V__C tptp.s__BloodCell) (exists ((V__B $$unsorted)) (and (tptp.s__instance V__B tptp.s__Object) (tptp.s__instance V__B tptp.s__Blood) (tptp.s__part V__C V__B)))))) (tptp.s__subclass tptp.s__RedBloodCell tptp.s__BloodCell) (tptp.s__instance tptp.s__RedBloodCell__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__RedBloodCell tptp.s__EnglishLanguage |tptp.'&%BloodCells that contain hemoglobin, lack a &%CellNucleus, and carry &%Oxygen to the tissues of the body.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Object) (=> (tptp.s__instance V__C tptp.s__RedBloodCell) (not (exists ((V__N $$unsorted)) (and (tptp.s__instance V__N tptp.s__Object) (tptp.s__instance V__N tptp.s__CellNucleus) (tptp.s__part V__N V__C))))))) (tptp.s__subclass tptp.s__WhiteBloodCell tptp.s__BloodCell) (tptp.s__instance tptp.s__WhiteBloodCell__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__WhiteBloodCell tptp.s__EnglishLanguage |tptp.'&%BloodCells that lack hemoglobin, contain a &%CellNucleus, and have no color.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Object) (=> (tptp.s__instance V__C tptp.s__WhiteBloodCell) (exists ((V__N $$unsorted)) (and (tptp.s__instance V__N tptp.s__Object) (tptp.s__instance V__N tptp.s__CellNucleus) (tptp.s__part V__N V__C)))))) (tptp.s__subclass tptp.s__BloodTypeA tptp.s__Blood) (tptp.s__instance tptp.s__BloodTypeA__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__BloodTypeA tptp.s__EnglishLanguage |tptp.'The subclass of &%Blood that contains &%AntigenA and does not contain &%AntigenB.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Object) (=> (tptp.s__instance V__B tptp.s__BloodTypeA) (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__Object) (tptp.s__instance V__A tptp.s__AntigenA) (tptp.s__part V__A V__B)))))) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Object) (=> (tptp.s__instance V__B tptp.s__BloodTypeA) (not (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__Object) (tptp.s__instance V__A tptp.s__AntigenB) (tptp.s__part V__A V__B))))))) (tptp.s__subclass tptp.s__BloodTypeAB tptp.s__Blood) (tptp.s__instance tptp.s__BloodTypeAB__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__BloodTypeAB tptp.s__EnglishLanguage |tptp.'The subclass of &%Blood that contains both &%AntigenA and &%AntigenB.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Object) (=> (tptp.s__instance V__B tptp.s__BloodTypeAB) (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__Object) (tptp.s__instance V__A tptp.s__AntigenA) (tptp.s__part V__A V__B)))))) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Object) (=> (tptp.s__instance V__B tptp.s__BloodTypeAB) (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__Object) (tptp.s__instance V__A tptp.s__AntigenB) (tptp.s__part V__A V__B)))))) (tptp.s__subclass tptp.s__BloodTypeB tptp.s__Blood) (tptp.s__instance tptp.s__BloodTypeB__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__BloodTypeB tptp.s__EnglishLanguage |tptp.'The subclass of &%Blood that contains &%AntigenB and does not contain &%AntigenA.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Object) (=> (tptp.s__instance V__B tptp.s__BloodTypeB) (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__Object) (tptp.s__instance V__A tptp.s__AntigenB) (tptp.s__part V__A V__B)))))) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Object) (=> (tptp.s__instance V__B tptp.s__BloodTypeB) (not (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__Object) (tptp.s__instance V__A tptp.s__AntigenA) (tptp.s__part V__A V__B))))))) (tptp.s__subclass tptp.s__BloodTypeO tptp.s__Blood) (tptp.s__instance tptp.s__BloodTypeO__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__BloodTypeO tptp.s__EnglishLanguage |tptp.'The subclass of &%Blood that contains neither &%AntigenA nor &%AntigenB.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Object) (=> (tptp.s__instance V__B tptp.s__BloodTypeO) (not (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__Object) (tptp.s__instance V__A tptp.s__AntigenA) (tptp.s__part V__A V__B))))))) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Object) (=> (tptp.s__instance V__B tptp.s__BloodTypeO) (not (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__Object) (tptp.s__instance V__A tptp.s__AntigenB) (tptp.s__part V__A V__B))))))) (tptp.s__subclass tptp.s__NerveCell tptp.s__Cell) (tptp.s__instance tptp.s__NerveCell__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__NerveCell tptp.s__AnimalAnatomicalStructure) (tptp.s__documentation tptp.s__NerveCell tptp.s__EnglishLanguage |tptp.'The &%Cells that make up a &%NervousSystem.'|) (forall ((V__N $$unsorted)) (=> (tptp.s__instance V__N tptp.s__Object) (=> (tptp.s__instance V__N tptp.s__NerveCell) (exists ((V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__Object) (tptp.s__instance V__S tptp.s__NervousSystem) (tptp.s__part V__N V__S)))))) (tptp.s__subclass tptp.s__LiquidBodySubstance tptp.s__BodySubstance) (tptp.s__documentation tptp.s__LiquidBodySubstance tptp.s__EnglishLanguage |tptp.'Any &%BodySubstance which is &%Liquid under normal circumstances.'|) (forall ((V__SUBSTANCE $$unsorted)) (=> (tptp.s__instance V__SUBSTANCE tptp.s__Object) (=> (tptp.s__instance V__SUBSTANCE tptp.s__LiquidBodySubstance) (tptp.s__attribute V__SUBSTANCE tptp.s__Liquid)))) (tptp.s__subclass tptp.s__Serum tptp.s__LiquidBodySubstance) (tptp.s__instance tptp.s__Serum__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__LiquidBodySubstance__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__Serum tptp.s__Blood) (tptp.s__documentation tptp.s__Serum tptp.s__EnglishLanguage |tptp.'Any &%LiquidBodySubstance other than &%Blood.'|) (tptp.s__subclass tptp.s__TearSubstance tptp.s__LiquidBodySubstance) (tptp.s__instance tptp.s__TearSubstance__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__TearSubstance tptp.s__SalineSolution) (tptp.s__documentation tptp.s__TearSubstance tptp.s__EnglishLanguage |tptp.'The class of &%SalineSolutions produced by the lacrimal glands of the &%Eyes.'|) (forall ((V__T $$unsorted)) (=> (tptp.s__instance V__T tptp.s__TearSubstance) (exists ((V__P $$unsorted) (V__E $$unsorted)) (and (tptp.s__instance V__E tptp.s__Object) (tptp.s__instance V__P tptp.s__Process) (tptp.s__instance V__E tptp.s__Eye) (tptp.s__instrument V__P V__E) (tptp.s__result V__P V__T))))) (tptp.s__subclass tptp.s__Milk tptp.s__LiquidBodySubstance) (tptp.s__subclass tptp.s__Milk tptp.s__Beverage) (tptp.s__instance tptp.s__Milk__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Milk tptp.s__EnglishLanguage |tptp.'A nutritious &%BodySubstance produced by &%Mammals that has evolved to provide nourishment for their offspring during their initial period of life.'|) (forall ((V__MILK $$unsorted)) (=> (tptp.s__instance V__MILK tptp.s__Milk) (exists ((V__PROCESS $$unsorted) (V__MAMMAL $$unsorted)) (and (tptp.s__instance V__MAMMAL tptp.s__Object) (tptp.s__instance V__PROCESS tptp.s__Process) (tptp.s__instance V__MAMMAL tptp.s__Mammal) (tptp.s__attribute V__MAMMAL tptp.s__Female) (tptp.s__instrument V__PROCESS V__MAMMAL) (tptp.s__result V__PROCESS V__MILK))))) (tptp.s__subclass tptp.s__CellPart tptp.s__BodyPart) (tptp.s__documentation tptp.s__CellPart tptp.s__EnglishLanguage |tptp.'&%part of a &%Cell'|) (forall ((V__OBJ1 $$unsorted)) (=> (tptp.s__instance V__OBJ1 tptp.s__Object) (=> (tptp.s__instance V__OBJ1 tptp.s__CellPart) (exists ((V__CELL $$unsorted)) (and (tptp.s__instance V__CELL tptp.s__Object) (tptp.s__instance V__CELL tptp.s__Cell) (tptp.s__properPart V__OBJ1 V__CELL)))))) (tptp.s__subclass tptp.s__CellNucleus tptp.s__CellPart) (tptp.s__instance tptp.s__CellNucleus__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__CellPart__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__CellNucleus tptp.s__EnglishLanguage |tptp.'The part of the &%Cell that contains DNA and RNA.'|) (forall ((V__NUCLEUS $$unsorted)) (=> (tptp.s__instance V__NUCLEUS tptp.s__Object) (=> (tptp.s__instance V__NUCLEUS tptp.s__CellNucleus) (exists ((V__CELL $$unsorted)) (and (tptp.s__instance V__CELL tptp.s__Object) (tptp.s__instance V__CELL tptp.s__Cell) (tptp.s__part V__NUCLEUS V__CELL)))))) (tptp.s__subclass tptp.s__Tea tptp.s__Beverage) (tptp.s__subclass tptp.s__Tea tptp.s__PreparedFood) (tptp.s__instance tptp.s__Tea__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Tea tptp.s__EnglishLanguage |tptp.'A &%Beverage which is prepared by infusing tea leaves into hot water.'|) (tptp.s__subclass tptp.s__AlcoholicBeverage tptp.s__Beverage) (tptp.s__subclass tptp.s__AlcoholicBeverage tptp.s__Depressant) (tptp.s__instance tptp.s__Depressant__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AlcoholicBeverage tptp.s__EnglishLanguage |tptp.'Any &%Beverage that contains &%Alcohol.'|) (forall ((V__BEVERAGE $$unsorted)) (=> (tptp.s__instance V__BEVERAGE tptp.s__Object) (=> (tptp.s__instance V__BEVERAGE tptp.s__AlcoholicBeverage) (exists ((V__ALCOHOL $$unsorted)) (and (tptp.s__instance V__ALCOHOL tptp.s__Object) (tptp.s__instance V__ALCOHOL tptp.s__Alcohol) (tptp.s__part V__ALCOHOL V__BEVERAGE)))))) (tptp.s__subclass tptp.s__Wine tptp.s__AlcoholicBeverage) (tptp.s__instance tptp.s__Wine__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__DistilledAlcoholicBeverage tptp.s__AlcoholicBeverage) (tptp.s__instance tptp.s__DistilledAlcoholicBeverage__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__DistilledAlcoholicBeverage tptp.s__EnglishLanguage |tptp.'An &%AlcoholicBeverage that has had some part of its &%Water content removed by distillation. This class covers drinks of unmixed, hard liquor.'|) (forall ((V__BEVERAGE $$unsorted)) (=> (tptp.s__instance V__BEVERAGE tptp.s__Object) (=> (tptp.s__instance V__BEVERAGE tptp.s__DistilledAlcoholicBeverage) (exists ((V__REMOVE $$unsorted) (V__WATER $$unsorted)) (and (tptp.s__instance V__REMOVE tptp.s__Process) (tptp.s__instance V__REMOVE tptp.s__Removing) (tptp.s__patient V__REMOVE V__WATER) (tptp.s__instance V__WATER tptp.s__Water) (tptp.s__origin V__REMOVE V__BEVERAGE)))))) (tptp.s__subclass tptp.s__Beer tptp.s__AlcoholicBeverage) (tptp.s__instance tptp.s__Beer__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__AlcoholicBeverage__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__SpinalColumn tptp.s__Organ) (tptp.s__subclass tptp.s__SpinalColumn tptp.s__AnimalAnatomicalStructure) (tptp.s__instance tptp.s__SpinalColumn__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SpinalColumn tptp.s__EnglishLanguage |tptp.'A flexible column made out of bones called vertebrae. The main function of the &%SpinalColumn is to protect the spinal cord.'|) (forall ((V__VERT $$unsorted)) (=> (tptp.s__instance V__VERT tptp.s__CorpuscularObject) (= (tptp.s__instance V__VERT tptp.s__Vertebrate) (exists ((V__SPINE $$unsorted)) (and (tptp.s__instance V__SPINE tptp.s__CorpuscularObject) (tptp.s__instance V__VERT tptp.s__Animal) (tptp.s__component V__SPINE V__VERT) (tptp.s__instance V__SPINE tptp.s__SpinalColumn)))))) (tptp.s__subclass tptp.s__SpinalCord tptp.s__Organ) (tptp.s__instance tptp.s__SpinalCord__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SpinalCord tptp.s__EnglishLanguage |tptp.'A cord of nerves that carries impulses to and from the &%Brain. It is contained within the &%SpinalColumn.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Object) (=> (tptp.s__instance V__C tptp.s__SpinalCord) (exists ((V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__Object) (tptp.s__instance V__S tptp.s__NervousSystem) (tptp.s__part V__C V__S)))))) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Object) (=> (tptp.s__instance V__C tptp.s__SpinalCord) (exists ((V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__SelfConnectedObject) (tptp.s__instance V__S tptp.s__SpinalColumn) (tptp.s__contains V__S V__C)))))) (tptp.s__subclass tptp.s__Tail tptp.s__AnimalAnatomicalStructure) (tptp.s__instance tptp.s__Tail__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Tail tptp.s__EnglishLanguage |tptp.'A &%BodyPart which extends from the rear of the main body of some &%Vertebrates.'|) (forall ((V__T $$unsorted)) (=> (tptp.s__instance V__T tptp.s__Object) (=> (tptp.s__instance V__T tptp.s__Tail) (exists ((V__V $$unsorted)) (and (tptp.s__instance V__V tptp.s__Object) (tptp.s__instance V__V tptp.s__Vertebrate) (tptp.s__part V__T V__V) (not (tptp.s__instance V__V tptp.s__Human))))))) (tptp.s__subclass tptp.s__Wing tptp.s__Limb) (tptp.s__instance tptp.s__Wing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Wing tptp.s__EnglishLanguage |tptp.'Any &%Limb which is capable of being an instrument in &%Flying.'|) (tptp.s__subclass tptp.s__Skin tptp.s__BodyCovering) (tptp.s__instance tptp.s__Skin__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Skin tptp.s__AnimalAnatomicalStructure) (tptp.s__documentation tptp.s__Skin tptp.s__EnglishLanguage |tptp.'A BodyCovering that comprises part of the surface of &%Animals.'|) (forall ((V__SKIN $$unsorted)) (=> (tptp.s__instance V__SKIN tptp.s__Object) (=> (tptp.s__instance V__SKIN tptp.s__Skin) (exists ((V__SURFACE $$unsorted) (V__ANIMAL $$unsorted)) (and (tptp.s__instance V__ANIMAL tptp.s__SelfConnectedObject) (tptp.s__instance V__SURFACE tptp.s__SelfConnectedObject) (tptp.s__surface V__SURFACE V__ANIMAL) (tptp.s__part V__SKIN V__ANIMAL) (tptp.s__instance V__ANIMAL tptp.s__Animal) (tptp.s__overlapsSpatially V__SKIN V__SURFACE)))))) (tptp.s__subclass tptp.s__Retina tptp.s__Organ) (tptp.s__instance tptp.s__Retina__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Retina tptp.s__AnimalAnatomicalStructure) (tptp.s__documentation tptp.s__Retina tptp.s__EnglishLanguage |tptp.'A membrane that covers the &%Eye and converts the image formed by the lens of the &%Eye into neurochemical impulses which can be processed by the &%Brain.'|) (forall ((V__R $$unsorted)) (=> (tptp.s__instance V__R tptp.s__Object) (=> (tptp.s__instance V__R tptp.s__Retina) (exists ((V__E $$unsorted)) (and (tptp.s__instance V__E tptp.s__Object) (tptp.s__instance V__E tptp.s__Eye) (tptp.s__part V__R V__E)))))) (tptp.s__subclass tptp.s__BronchialDuct tptp.s__BodyVessel) (tptp.s__subclass tptp.s__BronchialDuct tptp.s__AnimalAnatomicalStructure) (tptp.s__instance tptp.s__BronchialDuct__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__BronchialDuct tptp.s__EnglishLanguage |tptp.'Any &%BodyVessel which is located in a &%Lung and which carries oxygen from the trachea to the alveoli.'|) (forall ((V__DUCT $$unsorted)) (=> (tptp.s__instance V__DUCT tptp.s__Physical) (=> (tptp.s__instance V__DUCT tptp.s__BronchialDuct) (exists ((V__LUNG $$unsorted)) (and (tptp.s__instance V__LUNG tptp.s__Object) (tptp.s__instance V__LUNG tptp.s__Lung) (tptp.s__located V__DUCT V__LUNG)))))) (tptp.s__subclass tptp.s__BloodVessel tptp.s__BodyVessel) (tptp.s__subclass tptp.s__BloodVessel tptp.s__AnimalAnatomicalStructure) (tptp.s__documentation tptp.s__BloodVessel tptp.s__EnglishLanguage |tptp.'Any &%BodyVessel which is used to circulate &%Blood from one part of the body to another.'|) (forall ((V__VESSEL $$unsorted)) (=> (tptp.s__instance V__VESSEL tptp.s__Object) (=> (tptp.s__instance V__VESSEL tptp.s__BloodVessel) (exists ((V__BLOOD $$unsorted) (V__TRANSFER $$unsorted)) (and (tptp.s__instance V__TRANSFER tptp.s__Process) (tptp.s__instance V__BLOOD tptp.s__Blood) (tptp.s__instance V__TRANSFER tptp.s__Transfer) (tptp.s__patient V__TRANSFER V__BLOOD) (tptp.s__instrument V__TRANSFER V__VESSEL)))))) (tptp.s__subclass tptp.s__Alveolus tptp.s__BodyVessel) (tptp.s__subclass tptp.s__Alveolus tptp.s__AnimalAnatomicalStructure) (tptp.s__instance tptp.s__Alveolus__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Alveolus tptp.s__EnglishLanguage |tptp.'Tiny sacs in the &%Lung which absorb &%Oxygen which is delivered to them by the &%BronchialDucts.'|) (forall ((V__A $$unsorted)) (=> (tptp.s__instance V__A tptp.s__Physical) (=> (tptp.s__instance V__A tptp.s__Alveolus) (exists ((V__L $$unsorted)) (and (tptp.s__instance V__L tptp.s__Object) (tptp.s__instance V__L tptp.s__Lung) (tptp.s__located V__A V__L)))))) (tptp.s__subclass tptp.s__Artery tptp.s__BloodVessel) (tptp.s__instance tptp.s__Artery__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__BloodVessel__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Artery tptp.s__EnglishLanguage |tptp.'Any &%BloodVessel which transfers &%Blood from the &%Heart to the extremities of the body.'|) (forall ((V__ARTERY $$unsorted) (V__BLOOD $$unsorted) (V__TRANSFER $$unsorted)) (=> (and (tptp.s__instance V__TRANSFER tptp.s__Process) (tptp.s__instance V__ARTERY tptp.s__Object)) (=> (and (tptp.s__instance V__ARTERY tptp.s__Artery) (tptp.s__instance V__TRANSFER tptp.s__Transfer) (tptp.s__patient V__TRANSFER V__BLOOD) (tptp.s__instrument V__TRANSFER V__ARTERY) (tptp.s__instance V__BLOOD tptp.s__Blood)) (exists ((V__HEART $$unsorted)) (and (tptp.s__instance V__HEART tptp.s__Object) (tptp.s__instance V__HEART tptp.s__Heart) (tptp.s__origin V__TRANSFER V__HEART)))))) (tptp.s__subclass tptp.s__Vein tptp.s__BloodVessel) (tptp.s__relatedInternalConcept tptp.s__Vein tptp.s__Artery) (tptp.s__documentation tptp.s__Vein tptp.s__EnglishLanguage |tptp.'Any &%BloodVessel which transfers &%Blood from the extremities of the body to the &%Heart.'|) (forall ((V__B $$unsorted) (V__T $$unsorted) (V__V $$unsorted)) (=> (and (tptp.s__instance V__V tptp.s__Object) (tptp.s__instance V__T tptp.s__Process)) (=> (and (tptp.s__instance V__V tptp.s__Vein) (tptp.s__instance V__T tptp.s__Transfer) (tptp.s__patient V__T V__B) (tptp.s__instrument V__T V__V) (tptp.s__instance V__B tptp.s__Blood)) (exists ((V__H $$unsorted)) (and (tptp.s__instance V__H tptp.s__Heart) (tptp.s__destination V__T V__H)))))) (tptp.s__subclass tptp.s__PulmonaryArtery tptp.s__Artery) (tptp.s__instance tptp.s__PulmonaryArtery__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PulmonaryArtery tptp.s__EnglishLanguage |tptp.'An &%Artery that carries &%Blood from the &%Heart to a &%Lung.'|) (forall ((V__ARTERY $$unsorted) (V__BLOOD $$unsorted) (V__TRANSFER $$unsorted)) (=> (and (tptp.s__instance V__TRANSFER tptp.s__Process) (tptp.s__instance V__ARTERY tptp.s__Object)) (=> (and (tptp.s__instance V__ARTERY tptp.s__PulmonaryArtery) (tptp.s__instance V__TRANSFER tptp.s__Transfer) (tptp.s__patient V__TRANSFER V__BLOOD) (tptp.s__instrument V__TRANSFER V__ARTERY) (tptp.s__instance V__BLOOD tptp.s__Blood)) (exists ((V__LUNG $$unsorted)) (and (tptp.s__instance V__LUNG tptp.s__Lung) (tptp.s__destination V__TRANSFER V__LUNG)))))) (tptp.s__subclass tptp.s__PulmonaryVein tptp.s__Vein) (tptp.s__instance tptp.s__PulmonaryVein__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Vein__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PulmonaryVein tptp.s__EnglishLanguage |tptp.'A &%Vein that carries &%Blood from the &%Lungs to the &%Heart.'|) (forall ((V__B $$unsorted) (V__T $$unsorted) (V__V $$unsorted)) (=> (and (tptp.s__instance V__V tptp.s__Object) (tptp.s__instance V__T tptp.s__Process)) (=> (and (tptp.s__instance V__V tptp.s__PulmonaryVein) (tptp.s__instance V__T tptp.s__Transfer) (tptp.s__patient V__T V__B) (tptp.s__instrument V__T V__V) (tptp.s__instance V__B tptp.s__Blood)) (exists ((V__L $$unsorted) (V__H $$unsorted) (V__P $$unsorted)) (and (tptp.s__instance V__P tptp.s__Object) (tptp.s__instance V__H tptp.s__Object) (tptp.s__instance V__L tptp.s__Object) (tptp.s__instance V__L tptp.s__Lung) (tptp.s__origin V__T V__L) (tptp.s__part V__V V__P) (tptp.s__part V__L V__P) (tptp.s__part V__H V__P) (tptp.s__instance V__H tptp.s__Heart) (tptp.s__destination V__T V__H)))))) (tptp.s__subclass tptp.s__Capillary tptp.s__BloodVessel) (tptp.s__instance tptp.s__Capillary__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Capillary tptp.s__EnglishLanguage |tptp.'A very small &%BloodVessel that connects arterioles (very small &%Arteries) with venules (very small &%Veins).'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__SelfConnectedObject) (=> (tptp.s__instance V__C tptp.s__Capillary) (exists ((V__A $$unsorted) (V__V $$unsorted)) (and (tptp.s__instance V__V tptp.s__SelfConnectedObject) (tptp.s__instance V__A tptp.s__SelfConnectedObject) (tptp.s__instance V__A tptp.s__Artery) (tptp.s__instance V__V tptp.s__Vein) (tptp.s__connects V__C V__A V__V)))))) (tptp.s__subclass tptp.s__Lung tptp.s__Organ) (tptp.s__instance tptp.s__Lung__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Lung tptp.s__AnimalAnatomicalStructure) (tptp.s__documentation tptp.s__Lung tptp.s__EnglishLanguage |tptp.'A respiratory organ of &%Vertebrates. Its function is to furnish the blood with oxygen and to remove carbon dioxide.'|) (forall ((V__ANIMAL $$unsorted)) (=> (tptp.s__instance V__ANIMAL tptp.s__CorpuscularObject) (=> (tptp.s__capability tptp.s__Breathing tptp.s__experiencer__m V__ANIMAL) (exists ((V__LUNG $$unsorted)) (and (tptp.s__instance V__LUNG tptp.s__CorpuscularObject) (tptp.s__component V__LUNG V__ANIMAL) (tptp.s__instance V__LUNG tptp.s__Lung)))))) (tptp.s__subclass tptp.s__Kidney tptp.s__Organ) (tptp.s__instance tptp.s__Kidney__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Kidney tptp.s__AnimalAnatomicalStructure) (tptp.s__documentation tptp.s__Kidney tptp.s__EnglishLanguage |tptp.'An &%Organ that separates urine from other &%BodySubstances and passes it to the bladder.'|) (tptp.s__subclass tptp.s__Spleen tptp.s__Organ) (tptp.s__instance tptp.s__Spleen__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Spleen tptp.s__AnimalAnatomicalStructure) (tptp.s__documentation tptp.s__Spleen tptp.s__EnglishLanguage |tptp.'An &%Organ on the left side of the body that produces &%Cells that play a crucial role in immune response.'|) (tptp.s__subclass tptp.s__Inhaling tptp.s__Breathing) (tptp.s__instance tptp.s__Inhaling__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Inhaling tptp.s__EnglishLanguage |tptp.'Any instance of &%Breathing where the breath is taken into the &%Lungs.'|) (forall ((V__I $$unsorted)) (=> (tptp.s__instance V__I tptp.s__Process) (=> (tptp.s__instance V__I tptp.s__Inhaling) (exists ((V__L $$unsorted)) (and (tptp.s__instance V__L tptp.s__Lung) (tptp.s__destination V__I V__L)))))) (tptp.s__subclass tptp.s__Exhaling tptp.s__Breathing) (tptp.s__instance tptp.s__Exhaling__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Exhaling tptp.s__EnglishLanguage |tptp.'Any instance of &%Breathing where the breath is expelled from the &%Lungs.'|) (forall ((V__E $$unsorted)) (=> (tptp.s__instance V__E tptp.s__Process) (=> (tptp.s__instance V__E tptp.s__Exhaling) (exists ((V__L $$unsorted)) (and (tptp.s__instance V__L tptp.s__Object) (tptp.s__instance V__L tptp.s__Lung) (tptp.s__origin V__E V__L)))))) (tptp.s__subclass tptp.s__Nostril tptp.s__BodyVessel) (tptp.s__subclass tptp.s__Nostril tptp.s__AnimalAnatomicalStructure) (tptp.s__instance tptp.s__Nostril__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Nostril tptp.s__EnglishLanguage |tptp.'Either of two &%BodyVessels that run through the &%Nose and connect it to the &%Throat.'|) (forall ((V__NOSE $$unsorted)) (=> (tptp.s__instance V__NOSE tptp.s__Object) (=> (tptp.s__instance V__NOSE tptp.s__Nose) (exists ((V__N1 $$unsorted) (V__N2 $$unsorted)) (and (tptp.s__instance V__N2 tptp.s__Object) (tptp.s__instance V__N1 tptp.s__Object) (tptp.s__instance V__N1 tptp.s__Nostril) (tptp.s__instance V__N2 tptp.s__Nostril) (not (= V__N1 V__N2)) (tptp.s__connected V__N1 V__NOSE) (tptp.s__connected V__N2 V__NOSE)))))) (forall ((V__NOS $$unsorted)) (=> (tptp.s__instance V__NOS tptp.s__SelfConnectedObject) (=> (tptp.s__instance V__NOS tptp.s__Nostril) (exists ((V__N $$unsorted) (V__T $$unsorted)) (and (tptp.s__instance V__T tptp.s__SelfConnectedObject) (tptp.s__instance V__N tptp.s__SelfConnectedObject) (tptp.s__instance V__N tptp.s__Nose) (tptp.s__instance V__T tptp.s__Throat) (tptp.s__connects V__NOS V__N V__T)))))) (tptp.s__subclass tptp.s__Heart tptp.s__Organ) (tptp.s__instance tptp.s__Heart__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Heart tptp.s__AnimalAnatomicalStructure) (tptp.s__documentation tptp.s__Heart tptp.s__EnglishLanguage |tptp.'The &%Organ that pumps &%Blood throughout the body.'|) (forall ((V__HEART $$unsorted)) (=> (tptp.s__instance V__HEART tptp.s__Object) (=> (tptp.s__instance V__HEART tptp.s__Heart) (exists ((V__TRANSFER $$unsorted) (V__BLOOD $$unsorted)) (and (tptp.s__instance V__TRANSFER tptp.s__Process) (tptp.s__instance V__TRANSFER tptp.s__Transfer) (tptp.s__instance V__BLOOD tptp.s__Blood) (tptp.s__instrument V__TRANSFER V__HEART) (tptp.s__patient V__TRANSFER V__BLOOD)))))) (tptp.s__subclass tptp.s__Liver tptp.s__Organ) (tptp.s__instance tptp.s__Liver__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Liver tptp.s__AnimalAnatomicalStructure) (tptp.s__documentation tptp.s__Liver tptp.s__EnglishLanguage |tptp.'An &%Organ that secretes bile and serves metabolic functions.'|) (tptp.s__subclass tptp.s__Mouth tptp.s__AnimalAnatomicalStructure) (tptp.s__subclass tptp.s__Mouth tptp.s__BodyPart) (tptp.s__instance tptp.s__Mouth__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Mouth tptp.s__EnglishLanguage |tptp.'Part of the &%Face, used for &%Ingesting Food and &%Vocalizing.'|) (forall ((V__MOUTH $$unsorted)) (=> (tptp.s__instance V__MOUTH tptp.s__Object) (=> (tptp.s__instance V__MOUTH tptp.s__Mouth) (exists ((V__FACE $$unsorted)) (and (tptp.s__instance V__FACE tptp.s__Object) (tptp.s__instance V__FACE tptp.s__Face) (tptp.s__part V__MOUTH V__FACE)))))) (tptp.s__subclass tptp.s__Tongue tptp.s__AnimalAnatomicalStructure) (tptp.s__instance tptp.s__Tongue__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Tongue tptp.s__BodyPart) (tptp.s__documentation tptp.s__Tongue tptp.s__EnglishLanguage |tptp.'Part of the &%Mouth, used for &%Tasting Food, &%Vocalizing, and the initial stage of &%Digesting.'|) (forall ((V__TONGUE $$unsorted)) (=> (tptp.s__instance V__TONGUE tptp.s__Object) (=> (tptp.s__instance V__TONGUE tptp.s__Tongue) (exists ((V__MOUTH $$unsorted)) (and (tptp.s__instance V__MOUTH tptp.s__Object) (tptp.s__instance V__MOUTH tptp.s__Mouth) (tptp.s__part V__TONGUE V__MOUTH)))))) (tptp.s__subclass tptp.s__NervousSystem tptp.s__Organ) (tptp.s__subclass tptp.s__NervousSystem tptp.s__AnimalAnatomicalStructure) (tptp.s__instance tptp.s__NervousSystem__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__NervousSystem tptp.s__EnglishLanguage |tptp.'A system in &%Vertebrates that is made up of the &%Brain, the spinal cord, nerves, etc.'|) (forall ((V__A $$unsorted) (V__S $$unsorted)) (=> (and (tptp.s__instance V__S tptp.s__Object) (tptp.s__instance V__A tptp.s__Object)) (=> (and (tptp.s__instance V__S tptp.s__NervousSystem) (tptp.s__part V__S V__A) (tptp.s__instance V__A tptp.s__Animal)) (tptp.s__instance V__A tptp.s__Vertebrate)))) (tptp.s__subclass tptp.s__Hoof tptp.s__AnimalAnatomicalStructure) (tptp.s__subclass tptp.s__Hoof tptp.s__BodyPart) (tptp.s__instance tptp.s__Hoof__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Hoof tptp.s__EnglishLanguage |tptp.'The hard end of the &%Foot of a &%HoofedMammal.'|) (forall ((V__H $$unsorted)) (=> (tptp.s__instance V__H tptp.s__Object) (=> (tptp.s__instance V__H tptp.s__Hoof) (exists ((V__F $$unsorted) (V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__Object) (tptp.s__instance V__F tptp.s__Object) (tptp.s__instance V__F tptp.s__Foot) (tptp.s__instance V__A tptp.s__HoofedMammal) (tptp.s__part V__H V__F) (tptp.s__part V__F V__A)))))) (tptp.s__subclass tptp.s__Tooth tptp.s__Bone) (tptp.s__instance tptp.s__Tooth__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Tooth tptp.s__EnglishLanguage |tptp.'Part of the &%Mouth, used for biting and chewing.'|) (forall ((V__TOOTH $$unsorted)) (=> (tptp.s__instance V__TOOTH tptp.s__Object) (=> (tptp.s__instance V__TOOTH tptp.s__Tooth) (exists ((V__MOUTH $$unsorted)) (and (tptp.s__instance V__MOUTH tptp.s__Object) (tptp.s__instance V__MOUTH tptp.s__Mouth) (tptp.s__part V__TOOTH V__MOUTH)))))) (tptp.s__subclass tptp.s__Skull tptp.s__Bone) (tptp.s__instance tptp.s__Skull__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Skull tptp.s__EnglishLanguage |tptp.'The &%Bone that is found in the &%Heads of &%Vertebrates.'|) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Object) (=> (tptp.s__instance V__S tptp.s__Skull) (exists ((V__V $$unsorted) (V__H $$unsorted)) (and (tptp.s__instance V__H tptp.s__Object) (tptp.s__instance V__V tptp.s__Object) (tptp.s__instance V__V tptp.s__Vertebrate) (tptp.s__instance V__H tptp.s__Head) (tptp.s__part V__H V__V) (tptp.s__part V__S V__H)))))) (tptp.s__subclass tptp.s__Horn tptp.s__Bone) (tptp.s__instance tptp.s__Horn__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Horn tptp.s__EnglishLanguage |tptp.'An outgrowth of &%Bone that is found on some &%HoofedMammals.'|) (forall ((V__H $$unsorted)) (=> (tptp.s__instance V__H tptp.s__Object) (=> (tptp.s__instance V__H tptp.s__Horn) (exists ((V__M $$unsorted)) (and (tptp.s__instance V__M tptp.s__Object) (tptp.s__instance V__M tptp.s__HoofedMammal) (tptp.s__part V__H V__M)))))) (tptp.s__subclass tptp.s__Ivory tptp.s__Bone) (tptp.s__instance tptp.s__Ivory__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Ivory tptp.s__EnglishLanguage |tptp.'A very hard substance that makes up the tusks of elephants and walruses.'|) (tptp.s__subclass tptp.s__AnimalShell tptp.s__AnimalAnatomicalStructure) (tptp.s__instance tptp.s__AnimalShell__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__AnimalShell tptp.s__BodyPart) (tptp.s__documentation tptp.s__AnimalShell tptp.s__EnglishLanguage |tptp.'A hard shell of calcium that serves as a supporting structure for some &%Invertebrates.'|) (forall ((V__A $$unsorted) (V__S $$unsorted)) (=> (and (tptp.s__instance V__S tptp.s__Object) (tptp.s__instance V__A tptp.s__Object)) (=> (and (tptp.s__instance V__A tptp.s__Animal) (tptp.s__instance V__S tptp.s__AnimalShell) (tptp.s__part V__S V__A)) (or (tptp.s__instance V__A tptp.s__Invertebrate) (tptp.s__instance V__A tptp.s__Reptile))))) (tptp.s__subclass tptp.s__Ossification tptp.s__OrganOrTissueProcess) (tptp.s__instance tptp.s__Ossification__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Ossification tptp.s__EnglishLanguage |tptp.'Any &%BiologicalProcess that results in the formation of &%Bones.'|) (forall ((V__O $$unsorted)) (=> (tptp.s__instance V__O tptp.s__Process) (=> (tptp.s__instance V__O tptp.s__Ossification) (exists ((V__B $$unsorted)) (and (tptp.s__instance V__B tptp.s__Bone) (tptp.s__result V__O V__B)))))) (tptp.s__subclass tptp.s__Chewing tptp.s__BodyMotion) (tptp.s__instance tptp.s__Chewing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Chewing tptp.s__EnglishLanguage |tptp.'Breaking up or mashing Food with ones teeth.'|) (forall ((V__FOOD $$unsorted) (V__CHEW $$unsorted)) (=> (and (tptp.s__instance V__CHEW tptp.s__Process) (tptp.s__instance V__FOOD tptp.s__Object)) (=> (and (tptp.s__instance V__CHEW tptp.s__Chewing) (tptp.s__resource V__CHEW V__FOOD)) (tptp.s__instance V__FOOD (tptp.s__FoodForFn tptp.s__Organism))))) (forall ((V__TOOTH $$unsorted) (V__CHEW $$unsorted)) (=> (and (tptp.s__instance V__CHEW tptp.s__Process) (tptp.s__instance V__TOOTH tptp.s__Object)) (=> (and (tptp.s__instance V__CHEW tptp.s__Chewing) (tptp.s__instrument V__CHEW V__TOOTH)) (tptp.s__instance V__TOOTH tptp.s__Tooth)))) (forall ((V__CHEW $$unsorted)) (=> (tptp.s__instance V__CHEW tptp.s__Process) (=> (tptp.s__instance V__CHEW tptp.s__Chewing) (exists ((V__EAT $$unsorted)) (and (tptp.s__instance V__EAT tptp.s__Process) (tptp.s__instance V__EAT tptp.s__Eating) (tptp.s__subProcess V__CHEW V__EAT)))))) (tptp.s__subclass tptp.s__Feeding tptp.s__Giving) (tptp.s__instance tptp.s__Feeding__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Feeding tptp.s__EnglishLanguage |tptp.'Giving Food to a &%Human or &%Animal.'|) (forall ((V__O $$unsorted) (V__F $$unsorted)) (=> (tptp.s__instance V__F tptp.s__Process) (=> (and (tptp.s__instance V__F tptp.s__Feeding) (tptp.s__patient V__F V__O)) (tptp.s__instance V__O (tptp.s__FoodForFn tptp.s__Animal))))) (forall ((V__A $$unsorted) (V__F $$unsorted)) (=> (tptp.s__instance V__F tptp.s__Process) (=> (and (tptp.s__instance V__F tptp.s__Feeding) (tptp.s__destination V__F V__A)) (tptp.s__instance V__A tptp.s__Animal)))) (tptp.s__subclass tptp.s__Lip tptp.s__AnimalAnatomicalStructure) (tptp.s__instance tptp.s__Lip__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Lip tptp.s__BodyPart) (tptp.s__documentation tptp.s__Lip tptp.s__EnglishLanguage |tptp.'Folds of &%Tissue surrounding the mouths of some &%Vertebrates.'|) (forall ((V__LIP $$unsorted)) (=> (tptp.s__instance V__LIP tptp.s__Object) (=> (tptp.s__instance V__LIP tptp.s__Lip) (exists ((V__MOUTH $$unsorted)) (and (tptp.s__instance V__MOUTH tptp.s__Object) (tptp.s__instance V__MOUTH tptp.s__Mouth) (tptp.s__part V__LIP V__MOUTH)))))) (tptp.s__subclass tptp.s__Kissing tptp.s__Touching) (tptp.s__instance tptp.s__Kissing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Kissing tptp.s__EnglishLanguage |tptp.'The class of &%Touching processes where the lips of two persons are brought into contact with each other.'|) (tptp.s__subclass tptp.s__Licking tptp.s__Touching) (tptp.s__instance tptp.s__Licking__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Licking tptp.s__EnglishLanguage |tptp.'The class of &%Touching processes where the &%Tongue is brought into contact with something else.'|) (forall ((V__L $$unsorted)) (=> (tptp.s__instance V__L tptp.s__Process) (=> (tptp.s__instance V__L tptp.s__Licking) (exists ((V__T $$unsorted)) (and (tptp.s__instance V__T tptp.s__Object) (tptp.s__instance V__T tptp.s__Tongue) (tptp.s__instrument V__L V__T)))))) (tptp.s__subclass tptp.s__Embracing tptp.s__Touching) (tptp.s__instance tptp.s__Embracing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Embracing tptp.s__EnglishLanguage |tptp.'The class of &%Touching processes where one &%Human hugs another one.'|) (forall ((V__E $$unsorted)) (=> (tptp.s__instance V__E tptp.s__Process) (=> (tptp.s__instance V__E tptp.s__Embracing) (exists ((V__P1 $$unsorted) (V__P2 $$unsorted)) (and (tptp.s__instance V__P2 tptp.s__Agent) (tptp.s__instance V__P1 tptp.s__Agent) (tptp.s__instance V__P1 tptp.s__Human) (tptp.s__instance V__P2 tptp.s__Human) (not (= V__P1 V__P2)) (tptp.s__agent V__E V__P1) (tptp.s__agent V__E V__P2)))))) (tptp.s__subclass tptp.s__Skeleton tptp.s__AnimalAnatomicalStructure) (tptp.s__instance tptp.s__Skeleton__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Skeleton tptp.s__BodyPart) (tptp.s__documentation tptp.s__Skeleton tptp.s__EnglishLanguage |tptp.'The system of &%Bones that make up the supporting structure of &%Vertebrates.'|) (forall ((V__SKELETON $$unsorted) (V__ANIMAL $$unsorted)) (=> (and (tptp.s__instance V__ANIMAL tptp.s__Object) (tptp.s__instance V__SKELETON tptp.s__Object)) (=> (and (tptp.s__instance V__ANIMAL tptp.s__Animal) (tptp.s__instance V__SKELETON tptp.s__Skeleton) (tptp.s__part V__SKELETON V__ANIMAL)) (tptp.s__instance V__ANIMAL tptp.s__Vertebrate)))) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Object) (=> (tptp.s__instance V__S tptp.s__Skeleton) (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__Object) (tptp.s__instance V__A tptp.s__Animal) (tptp.s__interiorPart V__S V__A)))))) (tptp.s__subclass tptp.s__Exoskeleton tptp.s__AnimalAnatomicalStructure) (tptp.s__instance tptp.s__Exoskeleton__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Exoskeleton tptp.s__BodyPart) (tptp.s__documentation tptp.s__Exoskeleton tptp.s__EnglishLanguage |tptp.'The system of &%Bones that are on the &%Outside of an organism and make up the supporting structure of many &%Invertebrates.'|) (forall ((V__SKELETON $$unsorted) (V__ANIMAL $$unsorted)) (=> (and (tptp.s__instance V__ANIMAL tptp.s__Object) (tptp.s__instance V__SKELETON tptp.s__Object)) (=> (and (tptp.s__instance V__ANIMAL tptp.s__Animal) (tptp.s__instance V__SKELETON tptp.s__Exoskeleton) (tptp.s__part V__SKELETON V__ANIMAL)) (tptp.s__instance V__ANIMAL tptp.s__Invertebrate)))) (forall ((V__BONE $$unsorted)) (=> (tptp.s__instance V__BONE tptp.s__Object) (= (tptp.s__instance V__BONE tptp.s__Bone) (exists ((V__SKELETON $$unsorted)) (and (tptp.s__instance V__SKELETON tptp.s__Object) (or (tptp.s__instance V__SKELETON tptp.s__Skeleton) (tptp.s__instance V__SKELETON tptp.s__Exoskeleton)) (tptp.s__part V__BONE V__SKELETON)))))) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__Exoskeleton) (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__Animal) (tptp.s__part V__X V__A) (not (exists ((V__PART $$unsorted)) (and (tptp.s__instance V__PART tptp.s__Object) (tptp.s__instance V__A tptp.s__Object) (tptp.s__properPart V__PART V__A) (tptp.s__orientation V__PART V__X tptp.s__Outside))))))))) (tptp.s__subclass tptp.s__BodyJoint tptp.s__BodyJunction) (tptp.s__documentation tptp.s__BodyJoint tptp.s__EnglishLanguage |tptp.'&%BodyJunctions where different parts of the same &%Skeleton come together.'|) (forall ((V__J $$unsorted)) (=> (tptp.s__instance V__J tptp.s__CorpuscularObject) (=> (tptp.s__instance V__J tptp.s__BodyJoint) (exists ((V__S $$unsorted) (V__P1 $$unsorted) (V__P2 $$unsorted)) (and (tptp.s__instance V__P2 tptp.s__CorpuscularObject) (tptp.s__instance V__P1 tptp.s__CorpuscularObject) (tptp.s__instance V__S tptp.s__CorpuscularObject) (tptp.s__instance V__S tptp.s__Skeleton) (tptp.s__component V__P1 V__S) (tptp.s__component V__P2 V__S) (tptp.s__component V__J V__S) (tptp.s__connects V__J V__P1 V__P2)))))) (tptp.s__subclass tptp.s__Airway tptp.s__Transitway) (tptp.s__instance tptp.s__Airway__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Airway tptp.s__EnglishLanguage |tptp.'The class of Transitways used to transport Air to a location where it is absent or insufficient.'|) (tptp.s__subclass tptp.s__Throat tptp.s__AnimalAnatomicalStructure) (tptp.s__subclass tptp.s__Throat tptp.s__BodyVessel) (tptp.s__instance tptp.s__Throat__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Throat tptp.s__Airway) (tptp.s__documentation tptp.s__Throat tptp.s__EnglishLanguage |tptp.'A &%BodyVessel which connects the &%Mouth to the lungs and stomach.'|) (forall ((V__THROAT $$unsorted)) (=> (tptp.s__instance V__THROAT tptp.s__Object) (=> (tptp.s__instance V__THROAT tptp.s__Throat) (exists ((V__MOUTH $$unsorted)) (and (tptp.s__instance V__MOUTH tptp.s__Object) (tptp.s__instance V__MOUTH tptp.s__Mouth) (tptp.s__connected V__THROAT V__MOUTH)))))) (tptp.s__subclass tptp.s__Hair tptp.s__AnimalAnatomicalStructure) (tptp.s__instance tptp.s__Hair__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Hair tptp.s__EnglishLanguage |tptp.'A filament that covers part of the body of many &%Mammals.'|) (tptp.s__subclass tptp.s__FacialHair tptp.s__Hair) (tptp.s__instance tptp.s__FacialHair__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FacialHair tptp.s__EnglishLanguage |tptp.'&%Hair that grows on the &%Face. This class covers beards, mustaches, sideburns, midnight shadow, etc.'|) (forall ((V__H $$unsorted)) (=> (tptp.s__instance V__H tptp.s__Object) (=> (tptp.s__instance V__H tptp.s__FacialHair) (exists ((V__F $$unsorted)) (and (tptp.s__instance V__F tptp.s__Object) (tptp.s__instance V__F tptp.s__Face) (tptp.s__part V__H V__F)))))) (tptp.s__subclass tptp.s__HairRemoval tptp.s__Removing) (tptp.s__instance tptp.s__HairRemoval__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__HairRemoval tptp.s__EnglishLanguage |tptp.'&%Removing (some or all) the &%Hair from the body of an &%Animal. Note that this covers shaving hair, cutting hair, pulling hair out by the roots, etc.'|) (forall ((V__HAIR $$unsorted) (V__REMOVE $$unsorted)) (=> (and (tptp.s__instance V__REMOVE tptp.s__Process) (tptp.s__instance V__HAIR tptp.s__Object)) (=> (and (tptp.s__instance V__REMOVE tptp.s__HairRemoval) (tptp.s__resource V__REMOVE V__HAIR)) (tptp.s__instance V__HAIR tptp.s__Hair)))) (tptp.s__subclass tptp.s__Peeling tptp.s__Removing) (tptp.s__instance tptp.s__Peeling__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Peeling tptp.s__EnglishLanguage |tptp.'Removing the &%Skin (or part of the &%Skin) from an &%Organism. Note that this class covers a large range of cases, including peeling an orange, pelting an &%Animal, etc.'|) (forall ((V__O $$unsorted) (V__P $$unsorted)) (=> (and (tptp.s__instance V__P tptp.s__Process) (tptp.s__instance V__O tptp.s__Object)) (=> (and (tptp.s__instance V__P tptp.s__Peeling) (tptp.s__patient V__P V__O)) (exists ((V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__Object) (tptp.s__instance V__S tptp.s__Skin) (tptp.s__part V__O V__S)))))) (tptp.s__subclass tptp.s__Brain tptp.s__Organ) (tptp.s__instance tptp.s__Brain__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Brain tptp.s__AnimalAnatomicalStructure) (tptp.s__documentation tptp.s__Brain tptp.s__EnglishLanguage |tptp.'The seat of the central nervous system.'|) (tptp.s__documentation tptp.s__intelligenceQuotient__m tptp.s__EnglishLanguage |tptp.'(intelligenceQuotient ?PERSON ?NUMBER) means that ?NUMBER is the I.Q. of ?PERSON. The I.Q. of a person is the ratio of their mental age (determined by a standardized test) divided by their chronological age, multiplied by 100.'|) (tptp.s__instance tptp.s__intelligenceQuotient__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__intelligenceQuotient__m tptp.s__SingleValuedRelation) (tptp.s__domain tptp.s__intelligenceQuotient__m |"1"| tptp.s__Human) (tptp.s__domain tptp.s__intelligenceQuotient__m |"2"| tptp.s__RationalNumber) (tptp.s__subclass tptp.s__Stomach tptp.s__Organ) (tptp.s__subclass tptp.s__Stomach tptp.s__AnimalAnatomicalStructure) (tptp.s__instance tptp.s__Stomach__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Stomach tptp.s__EnglishLanguage |tptp.'A muscular sac that is the principal organ of digestion.'|) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Object) (=> (tptp.s__instance V__S tptp.s__Stomach) (tptp.s__capability tptp.s__Digesting tptp.s__instrument__m V__S)))) (tptp.s__subclass tptp.s__Intestine tptp.s__BodyVessel) (tptp.s__instance tptp.s__Intestine__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Intestine tptp.s__AnimalAnatomicalStructure) (tptp.s__documentation tptp.s__Intestine tptp.s__EnglishLanguage |tptp.'A &%BodyVessel which connects the &%Stomach to the anus and which is used in digesting Food.'|) (forall ((V__I $$unsorted)) (=> (tptp.s__instance V__I tptp.s__Object) (=> (tptp.s__instance V__I tptp.s__Intestine) (tptp.s__capability tptp.s__Digesting tptp.s__instrument__m V__I)))) (forall ((V__I $$unsorted)) (=> (tptp.s__instance V__I tptp.s__Object) (=> (tptp.s__instance V__I tptp.s__Intestine) (exists ((V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__Object) (tptp.s__instance V__S tptp.s__Stomach) (tptp.s__connected V__I V__S)))))) (tptp.s__subclass tptp.s__Hypothalamus tptp.s__BodyPart) (tptp.s__instance tptp.s__Hypothalamus__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Hypothalamus tptp.s__AnimalAnatomicalStructure) (tptp.s__documentation tptp.s__Hypothalamus tptp.s__EnglishLanguage |tptp.'The part of the &%Brain lying below the thalamus that serves to regulate &%AutonomicProcesses.'|) (forall ((V__HYPO $$unsorted)) (=> (tptp.s__instance V__HYPO tptp.s__Object) (=> (tptp.s__instance V__HYPO tptp.s__Hypothalamus) (exists ((V__BRAIN $$unsorted)) (and (tptp.s__instance V__BRAIN tptp.s__Object) (tptp.s__instance V__BRAIN tptp.s__Brain) (tptp.s__part V__HYPO V__BRAIN)))))) (tptp.s__subclass tptp.s__Eye tptp.s__Organ) (tptp.s__subclass tptp.s__Eye tptp.s__AnimalAnatomicalStructure) (tptp.s__instance tptp.s__Eye__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Eye tptp.s__EnglishLanguage |tptp.'The &%Organ of sight.'|) (forall ((V__EYE $$unsorted)) (=> (tptp.s__instance V__EYE tptp.s__Object) (=> (tptp.s__instance V__EYE tptp.s__Eye) (tptp.s__capability tptp.s__Seeing tptp.s__instrument__m V__EYE)))) (forall ((V__EYE $$unsorted)) (=> (tptp.s__instance V__EYE tptp.s__Object) (=> (tptp.s__instance V__EYE tptp.s__Eye) (exists ((V__HEAD $$unsorted)) (and (tptp.s__instance V__HEAD tptp.s__Object) (tptp.s__instance V__HEAD tptp.s__Head) (tptp.s__part V__EYE V__HEAD)))))) (tptp.s__subclass tptp.s__Ear tptp.s__Organ) (tptp.s__instance tptp.s__Ear__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Ear tptp.s__AnimalAnatomicalStructure) (tptp.s__documentation tptp.s__Ear tptp.s__EnglishLanguage |tptp.'The &%Organ of hearing.'|) (forall ((V__EAR $$unsorted)) (=> (tptp.s__instance V__EAR tptp.s__Object) (=> (tptp.s__instance V__EAR tptp.s__Ear) (tptp.s__capability tptp.s__Hearing tptp.s__instrument__m V__EAR)))) (forall ((V__EAR $$unsorted)) (=> (tptp.s__instance V__EAR tptp.s__Object) (=> (tptp.s__instance V__EAR tptp.s__Ear) (exists ((V__HEAD $$unsorted)) (and (tptp.s__instance V__HEAD tptp.s__Object) (tptp.s__instance V__HEAD tptp.s__Head) (tptp.s__part V__EAR V__HEAD)))))) (tptp.s__subclass tptp.s__Eyelid tptp.s__Skin) (tptp.s__instance tptp.s__Eyelid__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Eyelid tptp.s__EnglishLanguage |tptp.'Folds of &%Skin that can be manipulated to cover or uncover &%Eyes.'|) (forall ((V__E $$unsorted)) (=> (tptp.s__instance V__E tptp.s__Object) (=> (tptp.s__instance V__E tptp.s__Eyelid) (tptp.s__capability tptp.s__Covering tptp.s__instrument__m V__E)))) (forall ((V__E $$unsorted)) (=> (tptp.s__instance V__E tptp.s__Object) (=> (tptp.s__instance V__E tptp.s__Eyelid) (tptp.s__hasPurpose V__E |tptp.'(? [V__EYE,V__P,V__C] : (s__instance(V__C,s__Process) & s__instance(V__P,s__Agent) & s__instance(V__EYE,s__Object) & s__instance(V__C,s__Covering) & s__instance(V__C,s__BodyMotion) & s__instance(V__P,s__Human) & s__experiencer(V__C,V__P) & s__instrument(V__C,V__E) & s__patient(V__C,V__EYE) & s__instance(V__EYE,s__Eye) & s__part(V__EYE,V__P) & s__part(V__E,V__P)))'|)))) (tptp.s__subclass tptp.s__Nose tptp.s__Organ) (tptp.s__instance tptp.s__Nose__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Nose tptp.s__AnimalAnatomicalStructure) (tptp.s__documentation tptp.s__Nose tptp.s__EnglishLanguage |tptp.'The &%Organ of &%Smelling.'|) (forall ((V__NOSE $$unsorted)) (=> (tptp.s__instance V__NOSE tptp.s__Object) (=> (tptp.s__instance V__NOSE tptp.s__Nose) (tptp.s__capability tptp.s__Smelling tptp.s__instrument__m V__NOSE)))) (forall ((V__NOSE $$unsorted)) (=> (tptp.s__instance V__NOSE tptp.s__Object) (=> (tptp.s__instance V__NOSE tptp.s__Nose) (exists ((V__FACE $$unsorted)) (and (tptp.s__instance V__FACE tptp.s__Object) (tptp.s__instance V__FACE tptp.s__Face) (tptp.s__part V__NOSE V__FACE)))))) (tptp.s__documentation tptp.s__secretesSubstance__m tptp.s__EnglishLanguage |tptp.'(secretesSubstance ?OBJ ?STUFF) means that the subclass of &%OrganicObject (either &%Organism or &%BodyPart) ?OBJ produces the subclass of &%Substance ?STUFF.'|) (tptp.s__instance tptp.s__secretesSubstance__m tptp.s__BinaryPredicate) (tptp.s__domainSubclass tptp.s__secretesSubstance__m |"1"| tptp.s__OrganicObject) (tptp.s__domainSubclass tptp.s__secretesSubstance__m |"2"| tptp.s__NaturalSubstance) (forall ((V__O $$unsorted) (V__S $$unsorted)) (=> (tptp.s__secretesSubstance V__O V__S) (forall ((V__I1 $$unsorted)) (=> (and (tptp.s__instance V__I1 tptp.s__Object) (tptp.s__subclass V__S tptp.s__NaturalSubstance) (tptp.s__instance V__S tptp.s__SetOrClass) (tptp.s__subclass V__O tptp.s__OrganicObject) (tptp.s__instance V__O tptp.s__SetOrClass)) (=> (tptp.s__instance V__I1 V__O) (exists ((V__P $$unsorted) (V__I2 $$unsorted)) (and (tptp.s__instance V__P tptp.s__Process) (tptp.s__instance V__P tptp.s__BiologicalProcess) (tptp.s__eventLocated V__P V__I1) (tptp.s__result V__P V__I2) (tptp.s__instance V__I2 V__S)))))))) (tptp.s__subclass tptp.s__ThyroidGland tptp.s__Gland) (tptp.s__instance tptp.s__ThyroidGland__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ThyroidGland tptp.s__EnglishLanguage |tptp.'A &%Gland in the neck that produces &%HormoneTSH, which regulates body weight, metabolic rate, etc.'|) (tptp.s__subclass tptp.s__ThyroidHormone tptp.s__Hormone) (tptp.s__instance tptp.s__ThyroidHormone__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ThyroidHormone tptp.s__EnglishLanguage |tptp.'A &%Hormone secreted by the &%ThyroidGland.'|) (tptp.s__subclass tptp.s__PituitaryGland tptp.s__Gland) (tptp.s__instance tptp.s__PituitaryGland__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PituitaryGland tptp.s__EnglishLanguage |tptp.'The main &%Gland of the endocrine system.'|) (tptp.s__subclass tptp.s__HormoneTSH tptp.s__Hormone) (tptp.s__instance tptp.s__HormoneTSH__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__HormoneTSH tptp.s__EnglishLanguage |tptp.'A &%Hormone secreted by the &%ThyroidGland.'|) (forall ((V__HORMONE $$unsorted)) (=> (tptp.s__instance V__HORMONE tptp.s__HormoneTSH) (exists ((V__PROC $$unsorted) (V__GLAND $$unsorted)) (and (tptp.s__instance V__GLAND tptp.s__Object) (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__GLAND tptp.s__ThyroidGland) (tptp.s__instrument V__PROC V__GLAND) (tptp.s__result V__PROC V__HORMONE))))) (tptp.s__subclass tptp.s__Pancreas tptp.s__Gland) (tptp.s__instance tptp.s__Pancreas__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Pancreas tptp.s__EnglishLanguage |tptp.'A large &%Gland that secretes &%Insulin and other substances.'|) (forall ((V__P $$unsorted)) (=> (and (tptp.s__subclass V__P tptp.s__OrganicObject) (tptp.s__instance V__P tptp.s__SetOrClass)) (=> (tptp.s__instance V__P tptp.s__Pancreas) (tptp.s__secretesSubstance V__P tptp.s__Insulin)))) (tptp.s__subclass tptp.s__Insulin tptp.s__Hormone) (tptp.s__instance tptp.s__Insulin__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Insulin tptp.s__EnglishLanguage |tptp.'A &%Hormone secreted by the &%Pancreas that is used to regulate the metabolism of &%Carbohydrates.'|) (tptp.s__subclass tptp.s__Arm tptp.s__Limb) (tptp.s__instance tptp.s__Arm__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Arm tptp.s__EnglishLanguage |tptp.'The upper &%Limbs of a &%Primate.'|) (forall ((V__ARM $$unsorted)) (=> (tptp.s__instance V__ARM tptp.s__Object) (=> (tptp.s__instance V__ARM tptp.s__Arm) (exists ((V__PRIMATE $$unsorted)) (and (tptp.s__instance V__PRIMATE tptp.s__Object) (tptp.s__instance V__PRIMATE tptp.s__Primate) (tptp.s__part V__ARM V__PRIMATE)))))) (tptp.s__subclass tptp.s__Hand tptp.s__AnimalAnatomicalStructure) (tptp.s__instance tptp.s__Hand__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Hand tptp.s__BodyPart) (tptp.s__documentation tptp.s__Hand tptp.s__EnglishLanguage |tptp.'The grasping, fingered part of an upper limb of a &%Primate.'|) (forall ((V__HAND $$unsorted)) (=> (tptp.s__instance V__HAND tptp.s__Object) (=> (tptp.s__instance V__HAND tptp.s__Hand) (exists ((V__ARM $$unsorted)) (and (tptp.s__instance V__ARM tptp.s__Object) (tptp.s__instance V__ARM tptp.s__Arm) (tptp.s__part V__HAND V__ARM)))))) (tptp.s__subclass tptp.s__DigitAppendage tptp.s__AnimalAnatomicalStructure) (tptp.s__subclass tptp.s__DigitAppendage tptp.s__BodyPart) (tptp.s__documentation tptp.s__DigitAppendage tptp.s__EnglishLanguage |tptp.'Any of the extremities of &%Limbs that are found in the higer &%Vertebrates and the &%Amphibians.'|) (forall ((V__DIGIT $$unsorted)) (=> (tptp.s__instance V__DIGIT tptp.s__Object) (=> (tptp.s__instance V__DIGIT tptp.s__DigitAppendage) (exists ((V__LIMB $$unsorted)) (and (tptp.s__instance V__LIMB tptp.s__Object) (tptp.s__instance V__LIMB tptp.s__Limb) (tptp.s__part V__DIGIT V__LIMB)))))) (tptp.s__subclass tptp.s__Toad tptp.s__Amphibian) (tptp.s__instance tptp.s__Toad__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Toad tptp.s__EnglishLanguage |tptp.'An &%Amphibian that lacks a &%Tail and lives at least partially outside of water.'|) (forall ((V__A $$unsorted)) (=> (tptp.s__instance V__A tptp.s__Object) (=> (tptp.s__instance V__A tptp.s__Toad) (not (exists ((V__T $$unsorted)) (and (tptp.s__instance V__T tptp.s__Object) (tptp.s__instance V__T tptp.s__Tail) (tptp.s__part V__T V__A))))))) (tptp.s__initialPart tptp.s__DigitAppendage tptp.s__Limb) (tptp.s__subclass tptp.s__Finger tptp.s__DigitAppendage) (tptp.s__instance tptp.s__DigitAppendage__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Finger tptp.s__EnglishLanguage |tptp.'The five extremities of &%Hands.'|) (forall ((V__FINGER $$unsorted)) (=> (tptp.s__instance V__FINGER tptp.s__Object) (=> (tptp.s__instance V__FINGER tptp.s__Finger) (exists ((V__HAND $$unsorted)) (and (tptp.s__instance V__HAND tptp.s__Object) (tptp.s__instance V__HAND tptp.s__Hand) (tptp.s__part V__FINGER V__HAND)))))) (tptp.s__subclass tptp.s__Thumb tptp.s__Finger) (tptp.s__instance tptp.s__Thumb__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Finger__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Thumb tptp.s__EnglishLanguage |tptp.'The thick, short &%Finger of each &%Hand.'|) (tptp.s__subclass tptp.s__NailDigit tptp.s__AnimalAnatomicalStructure) (tptp.s__instance tptp.s__NailDigit__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__NailDigit tptp.s__EnglishLanguage |tptp.'Any of the horny structures which are found on the &%DigitAppendages of &%Primates and other &%Animals. This includes fingernails and toenails.'|) (forall ((V__N $$unsorted)) (=> (tptp.s__instance V__N tptp.s__Object) (=> (tptp.s__instance V__N tptp.s__NailDigit) (exists ((V__D $$unsorted)) (and (tptp.s__instance V__D tptp.s__Object) (tptp.s__instance V__D tptp.s__DigitAppendage) (tptp.s__part V__N V__D)))))) (tptp.s__subclass tptp.s__Fingerprint tptp.s__ShapeAttribute) (tptp.s__subclass tptp.s__Fingerprint tptp.s__BiologicalAttribute) (tptp.s__instance tptp.s__Fingerprint__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Fingerprint tptp.s__EnglishLanguage |tptp.'That pattern of arches, loops, and whorls that mark the imprint of a &%Finger.'|) (forall ((V__O $$unsorted) (V__P $$unsorted)) (=> (and (tptp.s__instance V__P tptp.s__Attribute) (tptp.s__instance V__O tptp.s__Object)) (=> (and (tptp.s__attribute V__O V__P) (tptp.s__instance V__P tptp.s__Fingerprint) (not (tptp.s__instance V__O tptp.s__Finger))) (exists ((V__PR $$unsorted) (V__F $$unsorted)) (and (tptp.s__instance V__F tptp.s__Object) (tptp.s__instance V__PR tptp.s__Process) (tptp.s__instrument V__PR V__F) (tptp.s__instance V__F tptp.s__Finger) (tptp.s__attribute V__F V__P) (tptp.s__patient V__PR V__O)))))) (tptp.s__subclass tptp.s__Limb tptp.s__AnimalAnatomicalStructure) (tptp.s__subclass tptp.s__Limb tptp.s__BodyPart) (tptp.s__instance tptp.s__Limb__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Limb tptp.s__EnglishLanguage |tptp.'Any of the limbs of a &%Vertebrate. Animal Appendages with joints that are used for movement and grasping.'|) (forall ((V__LIMB $$unsorted)) (=> (tptp.s__instance V__LIMB tptp.s__Object) (=> (tptp.s__instance V__LIMB tptp.s__Limb) (exists ((V__VERTEBRATE $$unsorted)) (and (tptp.s__instance V__VERTEBRATE tptp.s__Object) (tptp.s__instance V__VERTEBRATE tptp.s__Vertebrate) (tptp.s__part V__LIMB V__VERTEBRATE)))))) (tptp.s__subclass tptp.s__Snake tptp.s__Reptile) (tptp.s__instance tptp.s__Snake__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Snake tptp.s__EnglishLanguage |tptp.'A long and narrow &%Reptile which lacks &%Limbs.'|) (forall ((V__SNAKE $$unsorted)) (=> (tptp.s__instance V__SNAKE tptp.s__Object) (=> (tptp.s__instance V__SNAKE tptp.s__Snake) (not (exists ((V__LIMB $$unsorted)) (and (tptp.s__instance V__LIMB tptp.s__Object) (tptp.s__instance V__LIMB tptp.s__Limb) (tptp.s__part V__LIMB V__SNAKE))))))) (tptp.s__subclass tptp.s__Rattlesnake tptp.s__Snake) (tptp.s__instance tptp.s__Rattlesnake__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Rattlesnake tptp.s__EnglishLanguage |tptp.'A subclass of &%Snake which derives its name from the fact that it can manipulate its tail in such a way as to produce a sound like that of a rattle.'|) (tptp.s__subclass tptp.s__ConstrictorSnake tptp.s__Snake) (tptp.s__instance tptp.s__ConstrictorSnake__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ConstrictorSnake tptp.s__EnglishLanguage |tptp.'A &%Snake that lacks venom and kills its prey by crushing it to death.'|) (tptp.s__subclass tptp.s__AntInsect tptp.s__Insect) (tptp.s__instance tptp.s__AntInsect__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AntInsect tptp.s__EnglishLanguage |tptp.'A colony &%Insect of three types: males, &%QueenInsect, and worker ants.'|) (tptp.s__subclass tptp.s__Anaconda tptp.s__ConstrictorSnake) (tptp.s__instance tptp.s__Anaconda__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Anaconda tptp.s__EnglishLanguage |tptp.'A very large Boa that is found in South America.'|) (tptp.s__subclass tptp.s__Bee tptp.s__Insect) (tptp.s__documentation tptp.s__Bee tptp.s__EnglishLanguage |tptp.'A hairy &%Insect, some species of which produce honey and/or sting.'|) (tptp.s__subclass tptp.s__BumbleBee tptp.s__Bee) (tptp.s__instance tptp.s__BumbleBee__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Bee__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__BumbleBee tptp.s__EnglishLanguage |tptp.'A large &%Bee which lacks a stinger.'|) (tptp.s__subclass tptp.s__FlyInsect tptp.s__Insect) (tptp.s__instance tptp.s__FlyInsect__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FlyInsect tptp.s__EnglishLanguage |tptp.'&%Insects with &%Wings and two &%Limbs.'|) (tptp.s__subclass tptp.s__Grasshopper tptp.s__Insect) (tptp.s__instance tptp.s__Grasshopper__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Grasshopper tptp.s__EnglishLanguage |tptp.'&%Insects with enormous legs that are used for jumping.'|) (tptp.s__subclass tptp.s__Moth tptp.s__Insect) (tptp.s__instance tptp.s__Moth__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Moth tptp.s__EnglishLanguage |tptp.'Nocturnal &%Insect with a large body and antennae.'|) (tptp.s__subclass tptp.s__QueenInsect tptp.s__Insect) (tptp.s__instance tptp.s__QueenInsect__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__QueenInsect tptp.s__WorkerInsect) (tptp.s__documentation tptp.s__QueenInsect tptp.s__EnglishLanguage |tptp.'A &%Female &%Insect which is the sole member of her colony with the capability to reproduce.'|) (forall ((V__INSECT $$unsorted)) (=> (tptp.s__instance V__INSECT tptp.s__Object) (=> (tptp.s__instance V__INSECT tptp.s__QueenInsect) (and (tptp.s__attribute V__INSECT tptp.s__Female) (tptp.s__capability tptp.s__Replication tptp.s__agent__m V__INSECT))))) (forall ((V__INSECT $$unsorted)) (=> (tptp.s__instance V__INSECT tptp.s__SelfConnectedObject) (=> (tptp.s__instance V__INSECT tptp.s__QueenInsect) (exists ((V__GROUP $$unsorted)) (and (tptp.s__instance V__GROUP tptp.s__Group) (tptp.s__member V__INSECT V__GROUP) (not (exists ((V__MEMBER $$unsorted)) (and (tptp.s__instance V__MEMBER tptp.s__SelfConnectedObject) (tptp.s__instance V__GROUP tptp.s__Collection) (tptp.s__member V__MEMBER V__GROUP) (tptp.s__capability tptp.s__Replication tptp.s__agent__m V__MEMBER) (not (= V__MEMBER V__INSECT)))))))))) (tptp.s__subclass tptp.s__WorkerInsect tptp.s__Insect) (tptp.s__instance tptp.s__WorkerInsect__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__WorkerInsect tptp.s__EnglishLanguage |tptp.'Sterile members of an &%Insect colony which are responsible for locating food and caring for eggs, larvae, etc.'|) (tptp.s__subclass tptp.s__Leg tptp.s__Limb) (tptp.s__instance tptp.s__Leg__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Leg tptp.s__EnglishLanguage |tptp.'The lower &%Limbs of &%Animals, used for locomotion.'|) (forall ((V__LEG $$unsorted)) (=> (tptp.s__instance V__LEG tptp.s__Object) (=> (tptp.s__instance V__LEG tptp.s__Leg) (exists ((V__ANIMAL $$unsorted)) (and (tptp.s__instance V__ANIMAL tptp.s__Object) (tptp.s__instance V__ANIMAL tptp.s__Animal) (tptp.s__part V__LEG V__ANIMAL)))))) (tptp.s__subclass tptp.s__Foot tptp.s__AnimalAnatomicalStructure) (tptp.s__instance tptp.s__Foot__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Foot tptp.s__BodyPart) (tptp.s__documentation tptp.s__Foot tptp.s__EnglishLanguage |tptp.'The lower part of a &%Limb, the part which makes contact with the ground in locomotion of the &%Animal.'|) (forall ((V__FOOT $$unsorted)) (=> (tptp.s__instance V__FOOT tptp.s__Object) (=> (tptp.s__instance V__FOOT tptp.s__Foot) (exists ((V__LIMB $$unsorted)) (and (tptp.s__instance V__LIMB tptp.s__Object) (tptp.s__instance V__LIMB tptp.s__Leg) (tptp.s__part V__FOOT V__LIMB)))))) (tptp.s__subclass tptp.s__Ankle tptp.s__BodyJoint) (tptp.s__instance tptp.s__Ankle__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__BodyJoint__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Ankle tptp.s__EnglishLanguage |tptp.'The joint in the &%Leg that connects the tibia and the fibula to the talus.'|) (forall ((V__A $$unsorted)) (=> (tptp.s__instance V__A tptp.s__Object) (=> (tptp.s__instance V__A tptp.s__Ankle) (exists ((V__L $$unsorted)) (and (tptp.s__instance V__L tptp.s__Object) (tptp.s__instance V__L tptp.s__Leg) (tptp.s__part V__A V__L)))))) (tptp.s__subclass tptp.s__Elbow tptp.s__BodyJoint) (tptp.s__instance tptp.s__Elbow__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Elbow tptp.s__EnglishLanguage |tptp.'The joint in the &%Arm connecting the forearm and the upper arm.'|) (forall ((V__E $$unsorted)) (=> (tptp.s__instance V__E tptp.s__Object) (=> (tptp.s__instance V__E tptp.s__Elbow) (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__Object) (tptp.s__instance V__A tptp.s__Arm) (tptp.s__part V__E V__A)))))) (tptp.s__subclass tptp.s__Wrist tptp.s__BodyJoint) (tptp.s__instance tptp.s__Wrist__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Wrist tptp.s__EnglishLanguage |tptp.'The joint in the &%Arm connecting the radius and carpal bones.'|) (forall ((V__W $$unsorted)) (=> (tptp.s__instance V__W tptp.s__Object) (=> (tptp.s__instance V__W tptp.s__Wrist) (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__Object) (tptp.s__instance V__A tptp.s__Arm) (tptp.s__part V__W V__A)))))) (tptp.s__subclass tptp.s__Toe tptp.s__AnimalAnatomicalStructure) (tptp.s__subclass tptp.s__Toe tptp.s__BodyPart) (tptp.s__instance tptp.s__Toe__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Toe tptp.s__DigitAppendage) (tptp.s__documentation tptp.s__Toe tptp.s__EnglishLanguage |tptp.'The five extremities of a &%Foot.'|) (forall ((V__TOE $$unsorted)) (=> (tptp.s__instance V__TOE tptp.s__Object) (=> (tptp.s__instance V__TOE tptp.s__Toe) (exists ((V__FOOT $$unsorted)) (and (tptp.s__instance V__FOOT tptp.s__Object) (tptp.s__instance V__FOOT tptp.s__Foot) (tptp.s__part V__TOE V__FOOT)))))) (tptp.s__subclass tptp.s__Knee tptp.s__BodyJoint) (tptp.s__instance tptp.s__Knee__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Knee tptp.s__EnglishLanguage |tptp.'The joint in the &%Leg connecting the tibia and fibula with the femur.'|) (forall ((V__KNEE $$unsorted)) (=> (tptp.s__instance V__KNEE tptp.s__Object) (=> (tptp.s__instance V__KNEE tptp.s__Knee) (exists ((V__LEG $$unsorted)) (and (tptp.s__instance V__LEG tptp.s__Object) (tptp.s__instance V__LEG tptp.s__Leg) (tptp.s__part V__KNEE V__LEG)))))) (tptp.s__subclass tptp.s__Shoulder tptp.s__AnimalAnatomicalStructure) (tptp.s__subclass tptp.s__Shoulder tptp.s__BodyPart) (tptp.s__instance tptp.s__Shoulder__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Shoulder tptp.s__EnglishLanguage |tptp.'The part of a &%Primate between the &%Arm and the neck.'|) (forall ((V__SHOULDER $$unsorted)) (=> (tptp.s__instance V__SHOULDER tptp.s__Object) (=> (tptp.s__instance V__SHOULDER tptp.s__Shoulder) (exists ((V__PRIMATE $$unsorted)) (and (tptp.s__instance V__PRIMATE tptp.s__Object) (tptp.s__instance V__PRIMATE tptp.s__Primate) (tptp.s__part V__SHOULDER V__PRIMATE)))))) (tptp.s__subclass tptp.s__Knuckle tptp.s__BodyJoint) (tptp.s__instance tptp.s__Knuckle__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Knuckle tptp.s__EnglishLanguage |tptp.'Any joint in a &%Finger.'|) (forall ((V__KNUCKLE $$unsorted)) (=> (tptp.s__instance V__KNUCKLE tptp.s__Object) (=> (tptp.s__instance V__KNUCKLE tptp.s__Knuckle) (exists ((V__FINGER $$unsorted)) (and (tptp.s__instance V__FINGER tptp.s__Object) (tptp.s__instance V__FINGER tptp.s__Finger) (tptp.s__part V__KNUCKLE V__FINGER)))))) (tptp.s__subclass tptp.s__Torso tptp.s__AnimalAnatomicalStructure) (tptp.s__subclass tptp.s__Torso tptp.s__BodyPart) (tptp.s__instance tptp.s__Torso__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Torso tptp.s__EnglishLanguage |tptp.'The body of a &%Primate excluding its &%Limbs.'|) (forall ((V__TORSO $$unsorted) (V__LIMB $$unsorted)) (=> (and (tptp.s__instance V__LIMB tptp.s__Object) (tptp.s__instance V__TORSO tptp.s__Object)) (=> (and (tptp.s__instance V__TORSO tptp.s__Torso) (tptp.s__instance V__LIMB tptp.s__Limb)) (not (tptp.s__overlapsSpatially V__TORSO V__LIMB))))) (tptp.s__subclass tptp.s__Breast tptp.s__AnimalAnatomicalStructure) (tptp.s__instance tptp.s__Breast__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Breast tptp.s__Organ) (tptp.s__documentation tptp.s__Breast tptp.s__EnglishLanguage |tptp.'The paired &%Organs which are part of the chests of &%Primates.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Object) (=> (tptp.s__instance V__B tptp.s__Breast) (exists ((V__T $$unsorted)) (and (tptp.s__instance V__T tptp.s__SelfConnectedObject) (tptp.s__instance V__T tptp.s__Torso) (tptp.s__part V__B (tptp.s__FrontFn V__T))))))) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Object) (=> (tptp.s__instance V__B tptp.s__Breast) (exists ((V__P $$unsorted)) (and (tptp.s__instance V__P tptp.s__Object) (tptp.s__instance V__P tptp.s__Primate) (tptp.s__part V__B V__P)))))) (tptp.s__subclass tptp.s__Head tptp.s__AnimalAnatomicalStructure) (tptp.s__instance tptp.s__Head__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Head tptp.s__BodyPart) (tptp.s__documentation tptp.s__Head tptp.s__EnglishLanguage |tptp.'The part of the body containing the sense organs and the brain.'|) (tptp.s__subclass tptp.s__Neck tptp.s__AnimalAnatomicalStructure) (tptp.s__subclass tptp.s__Neck tptp.s__BodyPart) (tptp.s__instance tptp.s__Neck__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Neck tptp.s__EnglishLanguage |tptp.'The part of the body that connects the &%Head to the rest of the body.'|) (forall ((V__NECK $$unsorted)) (=> (tptp.s__instance V__NECK tptp.s__Object) (=> (tptp.s__instance V__NECK tptp.s__Neck) (exists ((V__HEAD $$unsorted)) (and (tptp.s__instance V__HEAD tptp.s__Object) (tptp.s__instance V__HEAD tptp.s__Head) (tptp.s__connected V__NECK V__HEAD)))))) (tptp.s__subclass tptp.s__Face tptp.s__AnimalAnatomicalStructure) (tptp.s__subclass tptp.s__Face tptp.s__BodyPart) (tptp.s__instance tptp.s__Face__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Face tptp.s__EnglishLanguage |tptp.'The part of the &%Head from forehead to chin and from ear to ear.'|) (forall ((V__FACE $$unsorted)) (=> (tptp.s__instance V__FACE tptp.s__Object) (=> (tptp.s__instance V__FACE tptp.s__Face) (exists ((V__HEAD $$unsorted)) (and (tptp.s__instance V__HEAD tptp.s__Object) (tptp.s__instance V__HEAD tptp.s__Head) (tptp.s__part V__FACE V__HEAD)))))) (forall ((V__FACE $$unsorted)) (=> (tptp.s__instance V__FACE tptp.s__Object) (=> (tptp.s__instance V__FACE tptp.s__Face) (exists ((V__VERTEBRATE $$unsorted)) (and (tptp.s__instance V__VERTEBRATE tptp.s__Object) (tptp.s__instance V__VERTEBRATE tptp.s__Vertebrate) (tptp.s__part V__FACE V__VERTEBRATE)))))) (tptp.s__subclass tptp.s__Chin tptp.s__AnimalAnatomicalStructure) (tptp.s__subclass tptp.s__Chin tptp.s__BodyPart) (tptp.s__instance tptp.s__Chin__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Chin tptp.s__EnglishLanguage |tptp.'A part of the &%Face which protrudes slightly and which is lower than all other parts of the &%Face.'|) (forall ((V__CHIN $$unsorted)) (=> (tptp.s__instance V__CHIN tptp.s__Object) (=> (tptp.s__instance V__CHIN tptp.s__Chin) (exists ((V__FACE $$unsorted)) (and (tptp.s__instance V__FACE tptp.s__Object) (tptp.s__instance V__FACE tptp.s__Face) (tptp.s__part V__CHIN V__FACE)))))) (forall ((V__CHIN $$unsorted) (V__FACE $$unsorted)) (=> (tptp.s__instance V__CHIN tptp.s__Chin) (forall ((V__PART $$unsorted)) (=> (and (tptp.s__instance V__PART tptp.s__Object) (tptp.s__instance V__FACE tptp.s__Object) (tptp.s__instance V__CHIN tptp.s__Object)) (=> (and (tptp.s__part V__PART V__FACE) (not (tptp.s__part V__PART V__CHIN))) (tptp.s__orientation V__PART V__CHIN tptp.s__Below)))))) (tptp.s__partition_3 tptp.s__Expressing tptp.s__Gesture tptp.s__ExpressingInLanguage) (tptp.s__disjointDecomposition_3 tptp.s__Expressing tptp.s__ExpressingApproval tptp.s__ExpressingDisapproval) (tptp.s__subclass tptp.s__ExpressingApproval tptp.s__Expressing) (tptp.s__documentation tptp.s__ExpressingApproval tptp.s__EnglishLanguage |tptp.'&%Expressing favor about a physical thing or a state of affairs.'|) (forall ((V__EXPRESS $$unsorted) (V__AGENT $$unsorted) (V__THING $$unsorted)) (=> (and (tptp.s__instance V__THING tptp.s__Formula) (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__EXPRESS tptp.s__Process)) (=> (and (tptp.s__instance V__EXPRESS tptp.s__ExpressingApproval) (tptp.s__agent V__EXPRESS V__AGENT) (tptp.s__patient V__EXPRESS V__THING)) (or (tptp.s__wants V__AGENT V__THING) (tptp.s__desires V__AGENT V__THING))))) (tptp.s__subclass tptp.s__ExpressingDisapproval tptp.s__Expressing) (tptp.s__documentation tptp.s__ExpressingDisapproval tptp.s__EnglishLanguage |tptp.'&%Expressing disfavor about a physical thing or a state of affairs.'|) (forall ((V__EXPRESS $$unsorted) (V__AGENT $$unsorted) (V__THING $$unsorted)) (=> (and (tptp.s__instance V__THING tptp.s__Object) (tptp.s__instance V__THING tptp.s__Formula) (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__EXPRESS tptp.s__Process)) (=> (and (tptp.s__instance V__EXPRESS tptp.s__ExpressingDisapproval) (tptp.s__agent V__EXPRESS V__AGENT) (tptp.s__patient V__EXPRESS V__THING)) (or (tptp.s__dislikes V__AGENT V__THING) (tptp.s__disapproves V__AGENT V__THING))))) (tptp.s__subclass tptp.s__Regretting tptp.s__ExpressingDisapproval) (tptp.s__instance tptp.s__Regretting__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__ExpressingDisapproval__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Regretting tptp.s__EnglishLanguage |tptp.'&%ExpressingDisapproval about a state of affairs that has already occurred.'|) (forall ((V__R $$unsorted) (V__T $$unsorted)) (=> (tptp.s__instance V__R tptp.s__Process) (=> (and (tptp.s__instance V__R tptp.s__Regretting) (tptp.s__patient V__R V__T) (tptp.s__instance V__T tptp.s__Sentence)) (tptp.s__truth V__T |tptp.'$true__m'|)))) (tptp.s__subclass tptp.s__ExpressingFarewell tptp.s__Expressing) (tptp.s__instance tptp.s__ExpressingFarewell__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ExpressingFarewell tptp.s__EnglishLanguage |tptp.'Any instance of &%Expressing an acknowledgment of a persons departure. Note that this class is not a subclass of &%LinguisticCommunication, because it covers gestures of departure, e.g. &%Waving and &%Nodding in certain circumstances.'|) (tptp.s__subclass tptp.s__Congratulating tptp.s__ExpressingApproval) (tptp.s__instance tptp.s__Congratulating__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Congratulating tptp.s__EnglishLanguage |tptp.'Any &%ExpressingApproval to a person for something that the person did in the past and that is regarded as being to the benefit of the person congratulated.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Process) (=> (tptp.s__instance V__C tptp.s__Congratulating) (exists ((V__P $$unsorted) (V__A $$unsorted) (V__D $$unsorted)) (and (tptp.s__instance V__D tptp.s__Agent) (tptp.s__instance V__A tptp.s__CognitiveAgent) (tptp.s__instance V__P tptp.s__Process) (tptp.s__destination V__C V__D) (tptp.s__agent V__P V__D) (tptp.s__agent V__C V__A) (tptp.s__wants V__A V__P) (tptp.s__refers V__C V__P)))))) (tptp.s__subclass tptp.s__FacialExpression tptp.s__Gesture) (tptp.s__documentation tptp.s__FacialExpression tptp.s__EnglishLanguage |tptp.'Any &%Gesture whose &%instrument is the &%Face.'|) (forall ((V__EXPRESS $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__EXPRESS tptp.s__Process)) (=> (and (tptp.s__instance V__EXPRESS tptp.s__FacialExpression) (tptp.s__agent V__EXPRESS V__AGENT)) (exists ((V__FACE $$unsorted)) (and (tptp.s__instance V__FACE tptp.s__Object) (tptp.s__part V__FACE V__AGENT) (tptp.s__instance V__FACE tptp.s__Face) (tptp.s__instrument V__EXPRESS V__FACE)))))) (tptp.s__subclass tptp.s__Smiling tptp.s__FacialExpression) (tptp.s__instance tptp.s__Smiling__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Smiling tptp.s__EnglishLanguage |tptp.'Spreading the lips in such a way as to convey happiness.'|) (tptp.s__subclass tptp.s__Frowning tptp.s__FacialExpression) (tptp.s__instance tptp.s__Frowning__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Frowning tptp.s__EnglishLanguage |tptp.'Furrowing the forehead in such a way as to convey unhappiness.'|) (tptp.s__subclass tptp.s__Laughing tptp.s__Vocalizing) (tptp.s__instance tptp.s__Laughing__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Laughing tptp.s__FacialExpression) (tptp.s__instance tptp.s__FacialExpression__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Laughing tptp.s__EnglishLanguage |tptp.'Expressing happiness by &%Vocalizing in a certain way.'|) (forall ((V__LAUGH $$unsorted)) (=> (tptp.s__instance V__LAUGH tptp.s__Process) (=> (tptp.s__instance V__LAUGH tptp.s__Laughing) (exists ((V__SMILE $$unsorted)) (and (tptp.s__instance V__SMILE tptp.s__Process) (tptp.s__instance V__SMILE tptp.s__Smiling) (tptp.s__subProcess V__SMILE V__LAUGH)))))) (tptp.s__subclass tptp.s__Weeping tptp.s__FacialExpression) (tptp.s__instance tptp.s__Weeping__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Weeping tptp.s__EnglishLanguage |tptp.'&%Expressing unhappiness by shedding tears.'|) (tptp.s__subclass tptp.s__Nodding tptp.s__Gesture) (tptp.s__instance tptp.s__Nodding__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Nodding tptp.s__EnglishLanguage |tptp.'Moving the &%Head up and down or side to side to indicate approval or disapproval.'|) (forall ((V__NOD $$unsorted) (V__HEAD $$unsorted)) (=> (tptp.s__instance V__NOD tptp.s__Process) (=> (and (tptp.s__instance V__NOD tptp.s__Nodding) (tptp.s__patient V__NOD V__HEAD)) (tptp.s__instance V__HEAD tptp.s__Head)))) (tptp.s__subclass tptp.s__HandGesture tptp.s__Gesture) (tptp.s__documentation tptp.s__HandGesture tptp.s__EnglishLanguage |tptp.'Any &%Gesture which involves the &%Hands.'|) (forall ((V__HG $$unsorted)) (=> (tptp.s__instance V__HG tptp.s__Process) (=> (tptp.s__instance V__HG tptp.s__HandGesture) (exists ((V__H $$unsorted)) (and (tptp.s__instance V__H tptp.s__Hand) (tptp.s__patient V__HG V__H)))))) (tptp.s__subclass tptp.s__Waving tptp.s__HandGesture) (tptp.s__instance tptp.s__Waving__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__HandGesture__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Waving tptp.s__EnglishLanguage |tptp.'Moving a &%Hand to indicate a greeting, farewell, recognition, goodwill, etc.'|) (forall ((V__HAND $$unsorted) (V__WAVE $$unsorted)) (=> (tptp.s__instance V__WAVE tptp.s__Process) (=> (and (tptp.s__instance V__WAVE tptp.s__Waving) (tptp.s__patient V__WAVE V__HAND)) (tptp.s__instance V__HAND tptp.s__Hand)))) (tptp.s__subclass tptp.s__Clapping tptp.s__HandGesture) (tptp.s__subclass tptp.s__Clapping tptp.s__RadiatingSound) (tptp.s__subclass tptp.s__Clapping tptp.s__Impacting) (tptp.s__instance tptp.s__Clapping__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Clapping tptp.s__EnglishLanguage |tptp.'Bringing the &%Hands together repeatedly to make a loud noise.'|) (tptp.s__subclass tptp.s__Inclining tptp.s__BodyMotion) (tptp.s__instance tptp.s__Inclining__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Inclining tptp.s__MotionDownward) (tptp.s__documentation tptp.s__Inclining tptp.s__EnglishLanguage |tptp.'Moving ones body downward from a vertical position. Note that this class covers cases of leaning forward, as well as those of reclining backwards.'|) (tptp.s__subclass tptp.s__Bowing tptp.s__Gesture) (tptp.s__instance tptp.s__Bowing__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Bowing tptp.s__Inclining) (tptp.s__subclass tptp.s__Bowing tptp.s__MotionDownward) (tptp.s__documentation tptp.s__Bowing tptp.s__EnglishLanguage |tptp.'Any downward motion of the body that indicates respect for or submission to another &%Agent.'|) (tptp.s__subclass tptp.s__Sinking tptp.s__Falling) (tptp.s__instance tptp.s__Sinking__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sinking tptp.s__EnglishLanguage |tptp.'The class of &%Falling processes that occur in a &%WaterArea.'|) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Process) (=> (tptp.s__instance V__S tptp.s__Sinking) (exists ((V__W $$unsorted)) (and (tptp.s__instance V__W tptp.s__Object) (tptp.s__instance V__W tptp.s__WaterArea) (tptp.s__eventLocated V__S V__W)))))) (tptp.s__subclass tptp.s__Ducking tptp.s__IntentionalProcess) (tptp.s__subclass tptp.s__Ducking tptp.s__BodyMotion) (tptp.s__instance tptp.s__Ducking__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Ducking tptp.s__MotionDownward) (tptp.s__documentation tptp.s__Ducking tptp.s__EnglishLanguage |tptp.'Purposely moving ones body downward in such a way as to avoid being hit by something.'|) (forall ((V__MOTION $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__MOTION tptp.s__Process)) (=> (and (tptp.s__instance V__MOTION tptp.s__Ducking) (tptp.s__agent V__MOTION V__AGENT)) (tptp.s__hasPurpose V__MOTION |tptp.'(~ (? [V__IMPACT] : (s__instance(V__IMPACT,s__Process) & s__instance(V__IMPACT,s__Impacting) & s__patient(V__IMPACT,V__AGENT))))'|)))) (tptp.s__subclass tptp.s__ExpressingInLanguage tptp.s__Expressing) (tptp.s__subclass tptp.s__ExpressingInLanguage tptp.s__LinguisticCommunication) (tptp.s__instance tptp.s__ExpressingInLanguage__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ExpressingInLanguage tptp.s__EnglishLanguage |tptp.'Any instance of &%Expressing that is also an instance of &%LinguisticCommunication, e.g. thanking someone, expressing condolence, expressing disapproval with an utterance rather than a &%Gesture, etc.'|) (tptp.s__subclass tptp.s__TonalLanguage tptp.s__SpokenHumanLanguage) (tptp.s__instance tptp.s__TonalLanguage__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TonalLanguage tptp.s__EnglishLanguage |tptp.'Any &%SpokenHumanLanguage that uses pitch to differentiate otherwise identical words, e.g. Chinese.'|) (tptp.s__subclass tptp.s__Thanking tptp.s__ExpressingInLanguage) (tptp.s__subclass tptp.s__Thanking tptp.s__ExpressingApproval) (tptp.s__instance tptp.s__Thanking__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__ExpressingApproval__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Thanking tptp.s__EnglishLanguage |tptp.'Any &%ExpressingInLanguage of appreciation to a person for something that the person did in the past.'|) (forall ((V__P $$unsorted) (V__T $$unsorted)) (=> (tptp.s__instance V__T tptp.s__Process) (=> (and (tptp.s__instance V__T tptp.s__Thanking) (tptp.s__destination V__T V__P)) (tptp.s__instance V__P tptp.s__Human)))) (tptp.s__subclass tptp.s__Greeting tptp.s__Expressing) (tptp.s__instance tptp.s__Greeting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Greeting tptp.s__EnglishLanguage |tptp.'Any instance of &%Expressing an acknowledgment of a persons arrival. Note that this class is not a subclass of &%ExpressingInLanguage, because it covers gestures of greeting, e.g. &%Waving and &%Nodding in certain circumstances.'|) (tptp.s__subrelation tptp.s__half__m tptp.s__part__m) (tptp.s__documentation tptp.s__half__m tptp.s__EnglishLanguage |tptp.'(&%half ?HALF ?WHOLE) means that ?HALF is one half of ?WHOLE.'|) (forall ((V__HALF $$unsorted) (V__WHOLE $$unsorted)) (=> (and (tptp.s__instance V__WHOLE tptp.s__Object) (tptp.s__instance V__HALF tptp.s__Object)) (=> (tptp.s__half V__HALF V__WHOLE) (exists ((V__OTHER $$unsorted)) (and (tptp.s__instance V__OTHER tptp.s__Object) (tptp.s__half V__OTHER V__WHOLE) (not (= V__OTHER V__HALF)) (= V__WHOLE (tptp.s__MereologicalSumFn V__HALF V__OTHER))))))) (tptp.s__documentation tptp.s__third__m tptp.s__EnglishLanguage |tptp.'(third ?THIRD ?WHOLE) means that ?THIRD is one third of ?WHOLE.'|) (tptp.s__subrelation tptp.s__third__m tptp.s__part__m) (forall ((V__T $$unsorted) (V__W $$unsorted)) (=> (and (tptp.s__instance V__W tptp.s__Object) (tptp.s__instance V__T tptp.s__Object)) (=> (tptp.s__third V__T V__W) (exists ((V__O1 $$unsorted) (V__O2 $$unsorted)) (and (tptp.s__instance V__O2 tptp.s__Object) (tptp.s__instance V__O1 tptp.s__Object) (tptp.s__third V__O1 V__W) (tptp.s__third V__O2 V__W) (not (= V__O1 V__T)) (not (= V__O2 V__T)) (not (= V__O1 V__O2)) (= V__W (tptp.s__MereologicalSumFn V__T (tptp.s__MereologicalSumFn V__O1 V__O2)))))))) (tptp.s__documentation tptp.s__quarter__m tptp.s__EnglishLanguage |tptp.'(quarter ?QUART ?WHOLE) means that ?QUART is a quarter of ?WHOLE.'|) (tptp.s__subrelation tptp.s__quarter__m tptp.s__part__m) (forall ((V__Q $$unsorted) (V__W $$unsorted)) (=> (and (tptp.s__instance V__W tptp.s__Object) (tptp.s__instance V__Q tptp.s__Object)) (= (tptp.s__quarter V__Q V__W) (exists ((V__H $$unsorted)) (and (tptp.s__instance V__H tptp.s__Object) (tptp.s__half V__H V__W) (tptp.s__half V__Q V__H)))))) (tptp.s__subrelation tptp.s__most__m tptp.s__part__m) (tptp.s__documentation tptp.s__most__m tptp.s__EnglishLanguage |tptp.'(&%most ?MOST ?WHOLE) means that ?MOST is a &%part of ?WHOLE that is greater than &%half of ?WHOLE.'|) (forall ((V__MOST $$unsorted) (V__WHOLE $$unsorted)) (=> (and (tptp.s__instance V__WHOLE tptp.s__Object) (tptp.s__instance V__MOST tptp.s__Object)) (=> (tptp.s__most V__MOST V__WHOLE) (exists ((V__HALF $$unsorted) (V__NUMBER1 $$unsorted) (V__NUMBER2 $$unsorted) (V__UNIT $$unsorted)) (and (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (tptp.s__instance V__NUMBER2 tptp.s__RealNumber) (tptp.s__instance V__NUMBER1 tptp.s__RealNumber) (tptp.s__instance V__HALF tptp.s__Object) (tptp.s__half V__HALF V__WHOLE) (tptp.s__measure V__HALF (tptp.s__MeasureFn V__NUMBER1 V__UNIT)) (tptp.s__measure V__MOST (tptp.s__MeasureFn V__NUMBER2 V__UNIT)) (tptp.greater V__NUMBER2 V__NUMBER1)))))) (tptp.s__subclass tptp.s__Blueprint tptp.s__Icon) (tptp.s__instance tptp.s__Blueprint__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Blueprint tptp.s__EnglishLanguage |tptp.'An &%Icon which is a scale model of an &%Artifact, whether the &%Artifact actually exists or not.'|) (forall ((V__PLAN $$unsorted)) (=> (tptp.s__instance V__PLAN tptp.s__Physical) (=> (tptp.s__instance V__PLAN tptp.s__Blueprint) (tptp.s__hasPurpose V__PLAN |tptp.'(? [V__ARTIFACT] : (s__instance(V__ARTIFACT,s__Artifact) & s__represents(V__PLAN,V__ARTIFACT)))'|)))) (tptp.s__subclass tptp.s__Chart tptp.s__Icon) (tptp.s__instance tptp.s__Chart__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Chart tptp.s__EnglishLanguage |tptp.'An &%Icon which depicts one or more quantities.'|) (forall ((V__CHART $$unsorted)) (=> (tptp.s__instance V__CHART tptp.s__Chart) (exists ((V__QUANTITY $$unsorted)) (and (tptp.s__instance V__QUANTITY tptp.s__PhysicalQuantity) (tptp.s__refers V__CHART V__QUANTITY))))) (tptp.s__subclass tptp.s__Flag tptp.s__Icon) (tptp.s__documentation tptp.s__Flag tptp.s__EnglishLanguage |tptp.'An &%Icon made of &%Fabric that refers to a particular &%GeopoliticalArea.'|) (forall ((V__FLAG $$unsorted)) (=> (tptp.s__instance V__FLAG tptp.s__Object) (=> (tptp.s__instance V__FLAG tptp.s__Flag) (exists ((V__FABRIC $$unsorted)) (and (tptp.s__instance V__FABRIC tptp.s__Object) (tptp.s__instance V__FABRIC tptp.s__Fabric) (tptp.s__part V__FABRIC V__FLAG)))))) (forall ((V__FLAG $$unsorted)) (=> (tptp.s__instance V__FLAG tptp.s__Flag) (exists ((V__AREA $$unsorted)) (and (tptp.s__instance V__AREA tptp.s__GeopoliticalArea) (tptp.s__refers V__FLAG V__AREA))))) (tptp.s__subclass tptp.s__NationalFlag tptp.s__Flag) (tptp.s__instance tptp.s__NationalFlag__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Flag__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__NationalFlag tptp.s__EnglishLanguage |tptp.'A &%Flag that is the official flag of a &%Nation, e.g. the stars and stripes is the &%NationalFlag of the United States.'|) (forall ((V__F $$unsorted)) (=> (tptp.s__instance V__F tptp.s__Flag) (exists ((V__N $$unsorted)) (and (tptp.s__instance V__N tptp.s__Nation) (tptp.s__refers V__F V__N))))) (tptp.s__subclass tptp.s__GraphDiagram tptp.s__Icon) (tptp.s__instance tptp.s__GraphDiagram__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__GraphDiagram tptp.s__EnglishLanguage |tptp.'An &%Icon which depicts one or more quantities.'|) (forall ((V__G $$unsorted)) (=> (tptp.s__instance V__G tptp.s__GraphDiagram) (exists ((V__Q $$unsorted)) (and (tptp.s__instance V__Q tptp.s__PhysicalQuantity) (tptp.s__refers V__G V__Q))))) (tptp.s__subclass tptp.s__ArrowIcon tptp.s__Icon) (tptp.s__instance tptp.s__ArrowIcon__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ArrowIcon tptp.s__EnglishLanguage |tptp.'An &%Icon which has the shape of an arrow and which is used to indicate direction or a relationship between two things.'|) (tptp.s__subclass tptp.s__Map tptp.s__Icon) (tptp.s__instance tptp.s__Map__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Map tptp.s__EnglishLanguage |tptp.'An &%Icon which represents one or more &%GeographicAreas (or even the entire &%Earth).'|) (forall ((V__M $$unsorted)) (=> (tptp.s__instance V__M tptp.s__Map) (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__GeographicArea) (tptp.s__represents V__M V__A))))) (tptp.s__subclass tptp.s__Photograph tptp.s__Image) (tptp.s__instance tptp.s__Photograph__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Photograph tptp.s__Recording) (tptp.s__documentation tptp.s__Photograph tptp.s__EnglishLanguage |tptp.'An &%Image that is the result of a process of &%Photographing.'|) (tptp.s__subclass tptp.s__Photographing tptp.s__ContentDevelopment) (tptp.s__instance tptp.s__Photographing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Photographing tptp.s__EnglishLanguage |tptp.'&%ContentDevelopment where the &%instrument is a camera and the &%result is a &%Photograph.'|) (forall ((V__SHOOT $$unsorted)) (=> (tptp.s__instance V__SHOOT tptp.s__Process) (=> (tptp.s__instance V__SHOOT tptp.s__Photographing) (exists ((V__PHOTO $$unsorted) (V__CAMERA $$unsorted)) (and (tptp.s__instance V__CAMERA tptp.s__Object) (tptp.s__instance V__PHOTO tptp.s__Photograph) (tptp.s__result V__SHOOT V__PHOTO) (tptp.s__instrument V__SHOOT V__CAMERA) (tptp.s__instance V__CAMERA tptp.s__Camera)))))) (tptp.s__subclass tptp.s__Camera tptp.s__Device) (tptp.s__instance tptp.s__Camera__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Camera tptp.s__EnglishLanguage |tptp.'A &%Device which is capable of &%Photographing.'|) (forall ((V__CAMERA $$unsorted)) (=> (tptp.s__instance V__CAMERA tptp.s__Object) (=> (tptp.s__instance V__CAMERA tptp.s__Camera) (tptp.s__capability tptp.s__Photographing tptp.s__instrument__m V__CAMERA)))) (tptp.s__instance tptp.s__TonMass tptp.s__UnitOfMass) (tptp.s__documentation tptp.s__TonMass tptp.s__EnglishLanguage |tptp.'English mass unit that is equal to 2000 pounds.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__TonMass) (tptp.s__MeasureFn (tptp.times V__NUMBER |"2000"|) tptp.s__PoundMass))))) (tptp.s__instance tptp.s__MetricTon tptp.s__UnitOfMass) (tptp.s__documentation tptp.s__MetricTon tptp.s__EnglishLanguage |tptp.'&%MetricTon is a &%UnitOfMeasure that represents a weight of 2,205 &%PoundMass.'|) (= (tptp.s__MeasureFn |"1"| tptp.s__MetricTon) (tptp.s__MeasureFn |"2205"| tptp.s__PoundMass)) (forall ((V__O $$unsorted) (V__A $$unsorted)) (=> (and (tptp.s__instance V__A tptp.s__RealNumber) (tptp.s__instance V__O tptp.s__Object)) (= (tptp.s__measure V__O (tptp.s__MeasureFn V__A tptp.s__MetricTon)) (tptp.s__measure V__O (tptp.s__MeasureFn (tptp.times V__A |"2205"|) tptp.s__PoundMass))))) (tptp.s__instance tptp.s__LongTon tptp.s__UnitOfMass) (tptp.s__documentation tptp.s__LongTon tptp.s__EnglishLanguage |tptp.'&%LongTon is the &%UnitOfMeasure, equal to 2,240 &%PoundMass, which is used to measure Dead Weight Tonnage capacity of &%Ships.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__LongTon) (tptp.s__MeasureFn (tptp.times V__NUMBER |"2240"|) tptp.s__PoundMass))))) (tptp.s__instance tptp.s__CubicFoot tptp.s__UnitOfVolume) (tptp.s__documentation tptp.s__CubicFoot tptp.s__EnglishLanguage |tptp.'&%CubicFoot is a unit for measuring volume, equal to a volume of one foot length in each dimension of length, width, and height.'|) (= (tptp.s__MeasureFn |"1"| tptp.s__CubicFoot) (tptp.times _let_11 (tptp.times _let_11 _let_11))) (forall ((V__N2 $$unsorted) (V__N1 $$unsorted) (V__QUANT $$unsorted) (V__N4 $$unsorted) (V__N3 $$unsorted)) (=> (and (tptp.s__instance V__N3 tptp.s__RealNumber) (tptp.s__instance V__N4 tptp.s__RealNumber) (tptp.s__instance V__N1 tptp.s__RealNumber) (tptp.s__instance V__N2 tptp.s__RealNumber)) (=> (and (= V__N4 (tptp.times V__N1 (tptp.times V__N2 V__N3))) (= V__QUANT (tptp.times (tptp.s__MeasureFn V__N1 tptp.s__FootLength) (tptp.times (tptp.s__MeasureFn V__N2 tptp.s__FootLength) (tptp.s__MeasureFn V__N3 tptp.s__FootLength))))) (= V__QUANT (tptp.s__MeasureFn V__N4 tptp.s__CubicFoot))))) (tptp.s__names |tptp.'Registry Ton'| tptp.s__RegistryTon) (tptp.s__names |tptp.'Gross Ton'| tptp.s__RegistryTon) (tptp.s__instance tptp.s__RegistryTon tptp.s__UnitOfVolume) (tptp.s__documentation tptp.s__RegistryTon tptp.s__EnglishLanguage |tptp.'&%RegistryTon is a unit of measure used to represent the Gross Registered Tonnage (GRT) capacity of &%Ships. GRT is based on a volume measure, with one &%RegistryTon equal to a volume of 100 cubic feet.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__RegistryTon) (tptp.s__MeasureFn (tptp.times V__NUMBER |"100"|) tptp.s__CubicFoot))))) (tptp.s__instance tptp.s__Page tptp.s__UnitOfInformation) (tptp.s__documentation tptp.s__Page tptp.s__EnglishLanguage |tptp.'A single page of &%Text.'|) (tptp.s__instance tptp.s__LiquorShot tptp.s__UnitOfVolume) (tptp.s__documentation tptp.s__LiquorShot tptp.s__EnglishLanguage |tptp.'A &%UnitOfMeasure used in preparing &%AlcoholicBeverages.'|) (tptp.s__instance tptp.s__MillenniumDuration tptp.s__UnitOfDuration) (tptp.s__documentation tptp.s__MillenniumDuration tptp.s__EnglishLanguage |tptp.'The &%UnitOfDuration of 1000 years.'|) (forall ((V__N $$unsorted)) (=> (tptp.s__instance V__N tptp.s__RealNumber) (=> (= V__N (tptp.times |"1"| V__N)) (= (tptp.s__MeasureFn V__N tptp.s__MillenniumDuration) (tptp.s__MeasureFn (tptp.times V__N |"1000"|) tptp.s__YearDuration))))) (tptp.s__instance tptp.s__Acre tptp.s__UnitOfArea) (tptp.s__documentation tptp.s__Acre tptp.s__EnglishLanguage |tptp.'A &%UnitOfMeasure equal to 4840 square yards.'|) (tptp.s__instance tptp.s__SquareMile tptp.s__UnitOfArea) (tptp.s__documentation tptp.s__SquareMile tptp.s__EnglishLanguage |tptp.'&%SquareMile represents a &%UnitOfMeasure equal to one square &%Mile.'|) (= (tptp.s__MeasureFn |"1"| tptp.s__SquareMile) (tptp.s__PerFn _let_10 _let_10)) (tptp.s__instance tptp.s__SquareYard tptp.s__UnitOfArea) (tptp.s__documentation tptp.s__SquareYard tptp.s__EnglishLanguage |tptp.'&%SquareYard represents a &%UnitOfMeasure equal to one square &%YardLength.'|) (= (tptp.s__MeasureFn |"1"| tptp.s__SquareYard) (tptp.s__PerFn _let_9 _let_9)) (tptp.s__instance tptp.s__creator__m tptp.s__BinaryRelation) (tptp.s__domain tptp.s__creator__m |"1"| tptp.s__Agent) (tptp.s__domain tptp.s__creator__m |"2"| tptp.s__Entity) (tptp.s__documentation tptp.s__creator__m tptp.s__EnglishLanguage |tptp.'(creator ?AGENT ?ENTITY) means that some &%Agent ?AGENT is the creator of some &%Entity ?ENTITY'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__creator__m tptp.creator) (forall ((V__AGENT $$unsorted) (V__ENTITY $$unsorted)) (=> (tptp.s__instance V__AGENT tptp.s__Agent) (=> (tptp.s__creator V__AGENT V__ENTITY) (exists ((V__CREATION $$unsorted)) (and (tptp.s__instance V__CREATION tptp.s__Process) (tptp.s__instance V__CREATION tptp.s__Creation) (tptp.s__agent V__CREATION V__AGENT) (tptp.s__result V__CREATION V__ENTITY)))))) (tptp.s__subclass tptp.s__Music tptp.s__Proposition) (tptp.s__documentation tptp.s__Music tptp.s__EnglishLanguage |tptp.'&%Music refers to the conception of music - its notes, tempo, arrangement, lyrics, etc. as thought by its composers and lyricist. Some types of &%Music are conceptualized with only the background instrumentation thought of, while some types of &%Music are conceptualized with the thought of having both lyrics and musical composition combined.'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Music tptp.music) (forall ((V__MC $$unsorted) (V__MUSIC $$unsorted)) (=> (and (tptp.s__instance V__MUSIC tptp.s__Process) (tptp.s__instance V__MC tptp.s__Proposition)) (=> (and (tptp.s__instance V__MC tptp.s__Music) (tptp.s__realization V__MUSIC V__MC)) (tptp.s__instance V__MUSIC tptp.s__MakingMusic)))) (tptp.s__subclass tptp.s__MusicalComposition tptp.s__Music) (tptp.s__instance tptp.s__MusicalComposition__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Music__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MusicalComposition tptp.s__EnglishLanguage |tptp.'&%MusicalComposition refers to the the conception of a musical arrangement not including any &%LyricalContent.'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__MusicalComposition |tptp.'musical composition'|) (tptp.s__comment tptp.s__MusicalComposition |tptp.'Currently, MusicalComposition is treated as text, and there is no propositional content related to it. This is dangerous, as there could be millions of instances of (for instance) sheet music containing Beethovens Fifth Symphony, and only having MusicalComposition equal to an object would imply that all of this different instances are different from each other. You could also have many different arrangements of the same musical composition. As such, I propose making MusicalComposition a Proposition, which refers more to the conception of the music, and SheetMusic the content bearing object that contains information about a particular MusicalComposition. (09-13-2011)'| |tptp.'KJN'|) (forall ((V__MC $$unsorted) (V__MUSIC $$unsorted)) (=> (and (tptp.s__instance V__MUSIC tptp.s__Proposition) (tptp.s__instance V__MUSIC tptp.s__Process) (tptp.s__instance V__MC tptp.s__Process)) (=> (and (tptp.s__instance V__MC tptp.s__MusicalComposition) (tptp.s__realization V__MC V__MUSIC)) (not (exists ((V__LC $$unsorted) (V__V $$unsorted)) (and (tptp.s__instance V__V tptp.s__Process) (tptp.s__instance V__V tptp.s__Singing) (tptp.s__patient V__V V__LC) (tptp.s__instance V__LC tptp.s__LyricalContent) (tptp.s__subProcess V__V V__MUSIC))))))) (tptp.s__subclass tptp.s__Song tptp.s__Music) (tptp.s__instance tptp.s__Song__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Song tptp.s__EnglishLanguage |tptp.'&%Song refers to the conception of music that includes both &%MusicalComposition and &%LyricalComposition. While a &%Song can be interpreted without its &%LyricalContent, or its &%LyricalContent is used elsewhere, the idea of &%Song as it was originally conceptualized is that it contains both.'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Song tptp.song) (forall ((V__S $$unsorted) (V__MUSIC $$unsorted)) (=> (and (tptp.s__instance V__MUSIC tptp.s__Proposition) (tptp.s__instance V__MUSIC tptp.s__Process) (tptp.s__instance V__S tptp.s__Process)) (=> (and (tptp.s__instance V__S tptp.s__Song) (tptp.s__realization V__S V__MUSIC)) (exists ((V__MM $$unsorted) (V__MV $$unsorted) (V__LC $$unsorted) (V__MC $$unsorted)) (and (tptp.s__instance V__MV tptp.s__Process) (tptp.s__instance V__MM tptp.s__Process) (tptp.s__instance V__MM tptp.s__MakingMusic) (tptp.s__instance V__MV tptp.s__Singing) (tptp.s__instance V__LC tptp.s__LyricalContent) (tptp.s__instance V__MC tptp.s__MusicalComposition) (tptp.s__patient V__MM V__MC) (tptp.s__patient V__MV V__LC) (tptp.s__subProcess V__MM V__MUSIC) (tptp.s__subProcess V__MV V__MUSIC)))))) (tptp.s__subclass tptp.s__LyricalContent tptp.s__Proposition) (tptp.s__instance tptp.s__LyricalContent__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__LyricalContent tptp.s__EnglishLanguage |tptp.'&%LyricalContent is the conceptual idea of &%Lyrics.'|) (tptp.s__comment tptp.s__LyricalContent |tptp.'It is important to distinguish the propositional content of &%Lyrics from the text that displays it. Some songs are translated from one language to another, but use essentially the same Lyrical content. (09-15-2011)'| |tptp.'KJN'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__LyricalContent |tptp.'lyrical content'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Physical) (=> (tptp.s__instance V__X tptp.s__LyricalContent) (tptp.s__hasPurpose V__X |tptp.'(? [V__S] : (s__instance(V__S,s__Process) & s__instance(V__S,s__Singing) & s__patient(V__S,V__X)))'|)))) (forall ((V__L $$unsorted)) (=> (tptp.s__instance V__L tptp.s__Proposition) (=> (tptp.s__instance V__L tptp.s__LyricalContent) (exists ((V__W $$unsorted) (V__I $$unsorted)) (and (tptp.s__instance V__I tptp.s__Proposition) (tptp.s__instance V__W tptp.s__ContentBearingPhysical) (tptp.s__instance V__W tptp.s__Word) (tptp.s__containsInformation V__W V__I) (tptp.s__subProposition V__I V__L)))))) (tptp.s__instance tptp.s__LegislativeBill tptp.s__DeonticAttribute) (tptp.s__documentation tptp.s__LegislativeBill tptp.s__EnglishLanguage |tptp.'The &%Attribute of being a proposed law, i.e. being under consideration by a legislative body of &%Government.'|) (tptp.s__subclass tptp.s__PassingABill tptp.s__PoliticalProcess) (tptp.s__instance tptp.s__PassingABill__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__PassingABill tptp.s__Declaring) (tptp.s__documentation tptp.s__PassingABill tptp.s__EnglishLanguage |tptp.'The &%Process of converting a &%LegislativeBill into &%Law by a duly authorized legislative body of &%Government.'|) (tptp.s__subAttribute tptp.s__InternationalLaw tptp.s__Law) (tptp.s__documentation tptp.s__InternationalLaw tptp.s__EnglishLanguage |tptp.'An &%Attribute that applies to &%Propositions that express &%Laws concerning the relations between &%Nations.'|) (tptp.s__subAttribute tptp.s__Illegal tptp.s__Prohibition) (tptp.s__contraryAttribute_2 tptp.s__Illegal tptp.s__Legal) (tptp.s__documentation tptp.s__Illegal tptp.s__EnglishLanguage |tptp.'A proposition is &%Illegal just in case it is inconsistent with any proposition that is a &%Law.'|) (tptp.s__subAttribute tptp.s__Legal tptp.s__Permission) (tptp.s__documentation tptp.s__Legal tptp.s__EnglishLanguage |tptp.'A proposition is &%Legal just in case it is not inconsistent with any proposition that is a &%Law.'|) (forall ((V__F1 $$unsorted)) (=> (and (tptp.s__instance V__F1 tptp.s__Formula) (tptp.s__instance V__F1 tptp.s__Proposition)) (= (tptp.s__modalAttribute V__F1 tptp.s__Legal) (not (exists ((V__F2 $$unsorted)) (and (tptp.s__instance V__F2 tptp.s__Formula) (tptp.s__instance V__F2 tptp.s__Proposition) (tptp.s__modalAttribute V__F2 tptp.s__Law) (not (tptp.s__consistent V__F1 V__F2)))))))) (tptp.s__subclass tptp.s__CriminalAction tptp.s__IntentionalProcess) (tptp.s__instance tptp.s__CriminalAction__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__CriminalAction tptp.s__EnglishLanguage |tptp.'Any &%IntentionalProcess that violates a &%Law.'|) (forall ((V__ACTION $$unsorted)) (=> (tptp.s__instance V__ACTION tptp.s__Process) (=> (tptp.s__instance V__ACTION tptp.s__CriminalAction) (exists ((V__LAW $$unsorted) (V__CONTENT $$unsorted) (V__CRIME $$unsorted)) (and (tptp.s__instance V__CRIME tptp.s__Proposition) (tptp.s__instance V__CONTENT tptp.s__Proposition) (tptp.s__instance V__LAW tptp.s__Formula) (tptp.s__modalAttribute V__LAW tptp.s__Law) (tptp.s__containsInformation V__LAW V__CONTENT) (tptp.s__realization V__ACTION V__CRIME) (not (tptp.s__consistent V__CONTENT V__CRIME))))))) (tptp.s__subclass tptp.s__PoliticalCrime tptp.s__CriminalAction) (tptp.s__subclass tptp.s__PoliticalCrime tptp.s__PoliticalProcess) (tptp.s__instance tptp.s__PoliticalCrime__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PoliticalCrime tptp.s__EnglishLanguage |tptp.'A &%CriminalAction that is committed by or against &%Governments.'|) (tptp.s__subclass tptp.s__PoliticalRevolution tptp.s__PoliticalProcess) (tptp.s__instance tptp.s__PoliticalRevolution__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__PoliticalRevolution tptp.s__ViolentContest) (tptp.s__documentation tptp.s__PoliticalRevolution tptp.s__EnglishLanguage |tptp.'The violent overthrow of one &%Government and its replacement by another. This covers grass-roots revolutions, as well as coups detat.'|) (forall ((V__A $$unsorted) (V__R $$unsorted)) (=> (tptp.s__instance V__R tptp.s__Process) (=> (and (tptp.s__instance V__R tptp.s__PoliticalRevolution) (tptp.s__patient V__R V__A)) (tptp.s__instance V__A tptp.s__GeopoliticalArea)))) (forall ((V__A $$unsorted) (V__R $$unsorted)) (=> (and (tptp.s__instance V__R tptp.s__Process) (tptp.s__instance V__A tptp.s__GeopoliticalArea)) (=> (and (tptp.s__instance V__R tptp.s__PoliticalRevolution) (tptp.s__patient V__R V__A)) (exists ((V__GOV1 $$unsorted) (V__GOV2 $$unsorted)) (let ((_let_1 (tptp.s__WhenFn V__R))) (and (tptp.s__holdsDuring (tptp.s__BeginFn _let_1) |tptp.'(V__GOV1 = s__GovernmentFn(V__A))'|) (tptp.s__holdsDuring (tptp.s__EndFn _let_1) |tptp.'(V__GOV2 = s__GovernmentFn(V__A))'|) (not (= V__GOV1 V__GOV2)))))))) (tptp.s__subclass tptp.s__LawEnforcement tptp.s__PoliticalProcess) (tptp.s__subclass tptp.s__LawEnforcement tptp.s__RegulatoryProcess) (tptp.s__documentation tptp.s__LawEnforcement tptp.s__EnglishLanguage |tptp.'Any &%RegulatoryProcess where the agent is either a &%PoliceOrganization or a member of a &%PoliceOrganization. This covers everything from issuing a traffic ticket to arresting someone on suspicion of having committed a &%Murder.'|) (forall ((V__P $$unsorted) (V__AGENT $$unsorted) (V__L $$unsorted)) (=> (and (tptp.s__instance V__L tptp.s__Process) (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__P tptp.s__SelfConnectedObject)) (=> (and (tptp.s__instance V__L tptp.s__LawEnforcement) (tptp.s__agent V__L V__AGENT)) (or (tptp.s__instance V__P tptp.s__PoliceOrganization) (exists ((V__O $$unsorted)) (and (tptp.s__instance V__O tptp.s__Collection) (tptp.s__instance V__O tptp.s__PoliceOrganization) (tptp.s__member V__P V__O))))))) (tptp.s__subclass tptp.s__Imprisoning tptp.s__Confining) (tptp.s__instance tptp.s__Imprisoning__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Imprisoning tptp.s__EnglishLanguage |tptp.'The class of &%Confining processes where the detainee is put in &%Prison.'|) (forall ((V__I $$unsorted)) (=> (tptp.s__instance V__I tptp.s__Process) (=> (tptp.s__instance V__I tptp.s__Imprisoning) (exists ((V__P $$unsorted)) (and (tptp.s__instance V__P tptp.s__Object) (tptp.s__instance V__P tptp.s__Prison) (tptp.s__eventLocated V__I V__P)))))) (tptp.s__subclass tptp.s__Espionage tptp.s__PoliticalProcess) (tptp.s__instance tptp.s__Espionage__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Espionage tptp.s__Investigating) (tptp.s__documentation tptp.s__Espionage tptp.s__EnglishLanguage |tptp.'Any Investigating by one &%Government of another &%Government where the second Government does not know that it is being spied upon.'|) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Process) (=> (tptp.s__instance V__S tptp.s__Espionage) (exists ((V__GOV1 $$unsorted) (V__GOV2 $$unsorted)) (and (tptp.s__instance V__GOV1 tptp.s__Agent) (tptp.s__instance V__GOV1 tptp.s__Government) (tptp.s__instance V__GOV2 tptp.s__Government) (tptp.s__agent V__S V__GOV1) (tptp.s__patient V__S V__GOV2) (not (= V__GOV1 V__GOV2))))))) (tptp.s__subclass tptp.s__Polling tptp.s__Investigating) (tptp.s__instance tptp.s__Polling__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Polling tptp.s__EnglishLanguage |tptp.'Investigating what people believe (and in what proportions) by asking a set of structured questions to a random sample of people.'|) (tptp.s__subclass tptp.s__MilitaryInfiltration tptp.s__MilitaryProcess) (tptp.s__subclass tptp.s__MilitaryInfiltration tptp.s__Translocation) (tptp.s__instance tptp.s__MilitaryInfiltration__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MilitaryInfiltration tptp.s__EnglishLanguage |tptp.'Any &%Process by a &%MilitaryOrganization which involves moving through enemy positions without detection by the enemy.'|) (tptp.s__subclass tptp.s__Agreement tptp.s__Proposition) (tptp.s__instance tptp.s__Agreement__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Agreement tptp.s__EnglishLanguage |tptp.'&%Agreement is the class of &%Propositions that express the contents of agreements entered into by &%CognitiveAgents. &%Agreement includes treaties, contracts, purchase orders, pledges, marriage vows, etc. An &%Agreement may be written down in a document or other &%ContentBearingObject, it can be verbal &%Communication, it can even be an implied agreement.'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Agreement tptp.agreement) (forall ((V__COMPACT $$unsorted)) (=> (tptp.s__instance V__COMPACT tptp.s__Agreement) (exists ((V__COMM $$unsorted)) (and (tptp.s__instance V__COMM tptp.s__Committing) (tptp.s__represents V__COMM V__COMPACT))))) (forall ((V__AGREEMENT $$unsorted)) (=> (tptp.s__instance V__AGREEMENT tptp.s__Agreement) (exists ((V__AGENT1 $$unsorted) (V__AGENT2 $$unsorted)) (and (tptp.s__instance V__AGENT2 tptp.s__CognitiveAgent) (tptp.s__instance V__AGENT1 tptp.s__CognitiveAgent) (tptp.s__partyToAgreement V__AGENT1 V__AGREEMENT) (tptp.s__partyToAgreement V__AGENT2 V__AGREEMENT) (not (= V__AGENT1 V__AGENT2)))))) (tptp.s__instance tptp.s__partyToAgreement__m tptp.s__BinaryPredicate) (tptp.s__documentation tptp.s__partyToAgreement__m tptp.s__EnglishLanguage |tptp.'(&%partyToAgreement ?AGENT ?PROP) means that the &%Agent ?AGENT has committed to the agreement ?PROP.'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__partyToAgreement__m |tptp.'party to agreement'|) (tptp.s__domain tptp.s__partyToAgreement__m |"1"| tptp.s__CognitiveAgent) (tptp.s__domain tptp.s__partyToAgreement__m |"2"| tptp.s__Agreement) (forall ((V__CONTENT $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__CONTENT tptp.s__Agreement)) (=> (tptp.s__partyToAgreement V__AGENT V__CONTENT) (exists ((V__C $$unsorted)) (and (tptp.s__instance V__C tptp.s__Process) (tptp.s__instance V__C tptp.s__Committing) (tptp.s__agent V__C V__AGENT) (tptp.s__patient V__C V__CONTENT)))))) (tptp.s__instance tptp.s__agreementPeriod__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__agreementPeriod__m |"1"| tptp.s__Agreement) (tptp.s__domain tptp.s__agreementPeriod__m |"2"| tptp.s__TimeInterval) (tptp.s__documentation tptp.s__agreementPeriod__m tptp.s__EnglishLanguage |tptp.'(&%agreementPeriod ?AGREEMENT ?DURATION) holds if ?DURATION specifies a &%TimeDuration, which is the length of time that the ?AGREEMENT is &%ActiveAgreement.'|) (tptp.s__instance tptp.s__agreementEffectiveDate__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__agreementEffectiveDate__m |"1"| tptp.s__Agreement) (tptp.s__domain tptp.s__agreementEffectiveDate__m |"2"| tptp.s__TimePoint) (tptp.s__documentation tptp.s__agreementEffectiveDate__m tptp.s__EnglishLanguage |tptp.'(&%agreementEffectiveDate ?AGREEMENT ?TIME) means that ?AGREEMENT goes into effect at &%TimePoint ?TIME, and remains an &%ActiveAgreement for &%TimeDuration ?DURATION.'|) (tptp.s__instance tptp.s__TimePeriodFn__m tptp.s__BinaryFunction) (tptp.s__documentation tptp.s__TimePeriodFn__m tptp.s__EnglishLanguage |tptp.'(&%TimePeriodFn ?TIMEPOINT ?DURATION) accepts &%TimePoint ?TIMEPOINT and &%TimeDuration ?DURATION and returns a &%TimeInterval that starts from ?TIMEPOINT and ends at the end of ?DURATION'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__TimePeriodFn__m |tptp.'time period function'|) (tptp.s__domain tptp.s__TimePeriodFn__m |"1"| tptp.s__TimePoint) (tptp.s__domain tptp.s__TimePeriodFn__m |"2"| tptp.s__TimeDuration) (tptp.s__range tptp.s__TimePeriodFn__m tptp.s__TimeInterval) (forall ((V__PERIOD $$unsorted) (V__T2 $$unsorted) (V__T1 $$unsorted) (V__INTERVAL $$unsorted)) (=> (and (tptp.s__instance V__INTERVAL tptp.s__TimeInterval) (tptp.s__instance V__PERIOD tptp.s__TimeDuration)) (=> (and (tptp.s__instance V__T1 tptp.s__TimePoint) (tptp.s__instance V__T2 tptp.s__TimePoint) (= V__INTERVAL (tptp.s__TimeIntervalFn V__T1 V__T2)) (tptp.s__duration V__INTERVAL V__PERIOD)) (= V__INTERVAL (tptp.s__TimePeriodFn V__T1 V__PERIOD))))) (tptp.s__instance tptp.s__agreementExpirationDate__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__agreementExpirationDate__m |"1"| tptp.s__Agreement) (tptp.s__domain tptp.s__agreementExpirationDate__m |"2"| tptp.s__TimePoint) (tptp.s__documentation tptp.s__agreementExpirationDate__m tptp.s__EnglishLanguage |tptp.'(&%agreementExpirationDate ?AGREEMENT ?ENDDATE) means that ?ENDDATE is the date on which ?AGREEMENT is no longer &%ActiveAgreement.'|) (forall ((V__AGREEMENT $$unsorted) (V__ENDDATE $$unsorted)) (=> (and (tptp.s__instance V__ENDDATE tptp.s__TimePoint) (tptp.s__instance V__AGREEMENT tptp.s__Agreement)) (=> (tptp.s__agreementExpirationDate V__AGREEMENT V__ENDDATE) (tptp.s__holdsDuring (tptp.s__FutureFn V__ENDDATE) |tptp.'(~ s__property(V__AGREEMENT,s__ActiveAgreement))'|)))) (tptp.s__instance tptp.s__agreementClause__m tptp.s__QuaternaryPredicate) (tptp.s__documentation tptp.s__agreementClause__m tptp.s__EnglishLanguage |tptp.'(&%agreementClause ?PROP ?ATTR ?AGREEMENT ?AGENT) means that &%Proposition ?PROP, which has &%modalAttribute ?ATTR, is part of &%Agreement ?AGREEMENT and, with &%CognitiveAgent ?AGENT being the one responsible to make the statement true'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__agreementClause__m |tptp.'agreement clause'|) (tptp.s__domain tptp.s__agreementClause__m |"1"| tptp.s__Proposition) (tptp.s__domain tptp.s__agreementClause__m |"2"| tptp.s__DeonticAttribute) (tptp.s__domain tptp.s__agreementClause__m |"3"| tptp.s__Agreement) (tptp.s__domain tptp.s__agreementClause__m |"4"| tptp.s__CognitiveAgent) (forall ((V__ATTR $$unsorted) (V__AGENT $$unsorted) (V__PROP $$unsorted) (V__AGREEMENT $$unsorted)) (=> (and (tptp.s__instance V__AGREEMENT tptp.s__Agreement) (tptp.s__instance V__PROP tptp.s__Proposition) (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__ATTR tptp.s__DeonticAttribute)) (=> (tptp.s__agreementClause V__PROP V__ATTR V__AGREEMENT V__AGENT) (and (exists ((V__CLAUSE $$unsorted)) (and (tptp.s__instance V__CLAUSE tptp.s__ContentBearingPhysical) (tptp.s__containsInformation V__CLAUSE V__PROP))) (tptp.s__partyToAgreement V__AGENT V__AGREEMENT))))) (forall ((V__ATTR $$unsorted) (V__AGENT $$unsorted) (V__PROP $$unsorted) (V__AGREEMENT $$unsorted)) (=> (and (tptp.s__instance V__AGREEMENT tptp.s__Agreement) (tptp.s__instance V__PROP tptp.s__Proposition) (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__ATTR tptp.s__DeonticAttribute)) (=> (and (tptp.s__agreementClause V__PROP V__ATTR V__AGREEMENT V__AGENT) (or (= V__ATTR tptp.s__Obligation) (= V__ATTR tptp.s__Promise))) (tptp.s__modalAttribute |tptp.'(? [V__PROC] : (s__instance(V__PROC,s__Process) & s__realization(V__PROC,V__PROP) & s__agent(V__PROC,V__AGENT)))'| tptp.s__Likely)))) (forall ((V__AGENT $$unsorted) (V__PROP $$unsorted) (V__AGREEMENT $$unsorted)) (=> (and (tptp.s__instance V__AGREEMENT tptp.s__Agreement) (tptp.s__instance V__PROP tptp.s__Proposition) (tptp.s__instance V__AGENT tptp.s__CognitiveAgent)) (=> (tptp.s__agreementClause V__PROP tptp.s__Prohibition V__AGREEMENT V__AGENT) (not (tptp.s__holdsRight |tptp.'(? [V__PROC] : (s__instance(V__PROC,s__Process) & s__realization(V__PROC,V__PROP) & s__agent(V__PROC,V__AGENT)))'| V__AGENT))))) (forall ((V__AGENT $$unsorted) (V__PROP $$unsorted) (V__AGREEMENT $$unsorted)) (=> (and (tptp.s__instance V__AGREEMENT tptp.s__Agreement) (tptp.s__instance V__PROP tptp.s__Proposition) (tptp.s__instance V__AGENT tptp.s__CognitiveAgent)) (=> (tptp.s__agreementClause V__PROP tptp.s__Permission V__AGREEMENT V__AGENT) (tptp.s__holdsRight |tptp.'(? [V__PROC] : (s__instance(V__PROC,s__Process) & s__realization(V__PROC,V__PROP) & s__agent(V__PROC,V__AGENT)))'| V__AGENT)))) (tptp.s__instance tptp.s__ActiveAgreement tptp.s__RelationalAttribute) (tptp.s__documentation tptp.s__ActiveAgreement tptp.s__EnglishLanguage |tptp.'&%ActiveAgreement describes an &%Agreement that is still binding or is still in effect'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__ActiveAgreement |tptp.'active agreement'|) (forall ((V__AGREEMENT $$unsorted)) (=> (tptp.s__property V__AGREEMENT tptp.s__ActiveAgreement) (tptp.s__instance V__AGREEMENT tptp.s__Agreement))) (forall ((V__AGREEMENT $$unsorted)) (=> (tptp.s__instance V__AGREEMENT tptp.s__Proposition) (=> (tptp.s__property V__AGREEMENT tptp.s__ActiveAgreement) (tptp.s__modalAttribute |tptp.'(? [V__PROC] : (s__instance(V__PROC,s__Process) & s__realization(V__PROC,V__AGREEMENT)))'| tptp.s__Obligation)))) (forall ((V__ENTITY $$unsorted)) (=> (tptp.s__property V__ENTITY tptp.s__Promise) (or (tptp.s__property V__ENTITY tptp.s__Contract) (tptp.s__property V__ENTITY tptp.s__NakedPromise)))) (tptp.s__subAttribute tptp.s__NakedPromise tptp.s__Promise) (tptp.s__documentation tptp.s__NakedPromise tptp.s__EnglishLanguage |tptp.'A &%Promise where nothing is promised in return, i.e. a nudum pactum.'|) (tptp.s__subAttribute tptp.s__Contract tptp.s__ActiveAgreement) (tptp.s__subAttribute tptp.s__Contract tptp.s__Promise) (tptp.s__documentation tptp.s__Contract tptp.s__EnglishLanguage |tptp.'&%Contract is a type of &%Agreement that is legally enforceable, meaning a &%CognitiveAgent can pursue other parties of the agreement in a court of law if provisions of the contract are not followed or kept. It follows that all subpropositions of the &%Contract is &%Legal.'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Contract tptp.contract) (tptp.s__contraryAttribute_2 tptp.s__NakedPromise tptp.s__Contract) (forall ((V__AGREEMENT $$unsorted)) (=> (tptp.s__property V__AGREEMENT tptp.s__Contract) (forall ((V__X $$unsorted)) (=> (and (tptp.s__instance V__X tptp.s__Proposition) (tptp.s__instance V__X tptp.s__Formula) (tptp.s__instance V__AGREEMENT tptp.s__Proposition)) (=> (tptp.s__subProposition V__X V__AGREEMENT) (tptp.s__modalAttribute V__X tptp.s__Legal)))))) (forall ((V__PROP $$unsorted) (V__AGENT2 $$unsorted) (V__AGREEMENT $$unsorted) (V__AGENT1 $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__AGENT1 tptp.s__CognitiveAgent) (tptp.s__instance V__AGENT1 tptp.s__LegalAction) (tptp.s__instance V__AGREEMENT tptp.s__Agreement) (tptp.s__instance V__AGENT2 tptp.s__CognitiveAgent) (tptp.s__instance V__PROP tptp.s__Proposition)) (=> (and (tptp.s__property V__AGREEMENT tptp.s__Contract) (tptp.s__partyToAgreement V__AGENT1 V__AGREEMENT) (tptp.s__partyToAgreement V__AGENT2 V__AGREEMENT) (tptp.s__instance V__PROC tptp.s__IntentionalProcess) (tptp.s__agent V__PROC V__AGENT1) (tptp.s__realization V__PROC V__PROP) (not (tptp.s__consistent V__PROP V__AGREEMENT))) (tptp.s__modalAttribute |tptp.'(? [V__LEGAL] : (s__instance(V__LEGAL,s__CognitiveAgent) & s__instance(V__LEGAL,s__LegalAction) & s__plaintiff(V__LEGAL,V__AGENT2) & s__defendant(V__LEGAL,V__AGENT1)))'| tptp.s__Possibility)))) (tptp.s__subAttribute tptp.s__MarriageContract tptp.s__Contract) (tptp.s__documentation tptp.s__MarriageContract tptp.s__EnglishLanguage |tptp.'An &%Contract between a married couple about how assets owned by the couple will be distributed in the event that the couple is divorced.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__CognitiveAgent) (=> (tptp.s__property V__C tptp.s__MarriageContract) (exists ((V__P1 $$unsorted) (V__P2 $$unsorted)) (and (tptp.s__instance V__P2 tptp.s__Agreement) (tptp.s__instance V__P2 tptp.s__Human) (tptp.s__instance V__P1 tptp.s__Agreement) (tptp.s__instance V__P1 tptp.s__Human) (tptp.s__partyToAgreement V__C V__P1) (tptp.s__partyToAgreement V__C V__P2) (tptp.s__spouse V__P1 V__P2)))))) (tptp.s__subAttribute tptp.s__PurchaseContract tptp.s__Contract) (tptp.s__documentation tptp.s__PurchaseContract tptp.s__EnglishLanguage |tptp.'A &%Contract between two &%Agents in which one &%Agent agrees to render the other some good or service in exchange for currency.'|) (forall ((V__C $$unsorted) (V__SELLER $$unsorted) (V__BUYER $$unsorted)) (=> (and (tptp.s__instance V__BUYER tptp.s__Agreement) (tptp.s__instance V__SELLER tptp.s__Agent) (tptp.s__instance V__SELLER tptp.s__Agreement) (tptp.s__instance V__C tptp.s__Proposition) (tptp.s__instance V__C tptp.s__CognitiveAgent)) (=> (tptp.s__property V__C tptp.s__PurchaseContract) (exists ((V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__Process) (tptp.s__instance V__S tptp.s__Selling) (tptp.s__agent V__S V__SELLER) (tptp.s__destination V__S V__BUYER) (tptp.s__realization V__S V__C) (tptp.s__partyToAgreement V__C V__SELLER) (tptp.s__partyToAgreement V__C V__BUYER)))))) (tptp.s__subAttribute tptp.s__ServiceContract tptp.s__Contract) (tptp.s__documentation tptp.s__ServiceContract tptp.s__EnglishLanguage |tptp.'A &%Contract where an &%Agent agrees to perform a service for another &%Agent (usually for a price).'|) (forall ((V__C $$unsorted) (V__SERVICE $$unsorted) (V__CUST $$unsorted)) (=> (and (tptp.s__instance V__CUST tptp.s__CognitiveAgent) (tptp.s__instance V__CUST tptp.s__Agreement) (tptp.s__instance V__SERVICE tptp.s__CognitiveAgent) (tptp.s__instance V__SERVICE tptp.s__Agreement) (tptp.s__instance V__C tptp.s__Proposition) (tptp.s__instance V__C tptp.s__CognitiveAgent)) (=> (tptp.s__property V__C tptp.s__ServiceContract) (exists ((V__SP $$unsorted)) (and (tptp.s__instance V__SP tptp.s__ServiceProcess) (tptp.s__realization V__SP V__C) (tptp.s__serviceProvider V__SP V__SERVICE) (tptp.s__serviceRecipient V__SP V__CUST) (tptp.s__partyToAgreement V__C V__SERVICE) (tptp.s__partyToAgreement V__C V__CUST)))))) (tptp.s__subAttribute tptp.s__Warranty tptp.s__ServiceContract) (tptp.s__documentation tptp.s__Warranty tptp.s__EnglishLanguage |tptp.'A &%Contract that states the cirumstances under which defects in the product will be corrected for no charge. A &%Warranty is usually limited to a length of time that is specified in the &%Warranty itself. A &%Warranty also includes information about what is not covered and actions that invalidate the &%Warranty.'|) (tptp.s__subAttribute tptp.s__Treaty tptp.s__Contract) (tptp.s__documentation tptp.s__Treaty tptp.s__EnglishLanguage |tptp.'Any &%Contract which holds between two or more &%Nations.'|) (forall ((V__T $$unsorted)) (=> (tptp.s__instance V__T tptp.s__CognitiveAgent) (=> (tptp.s__property V__T tptp.s__Treaty) (exists ((V__N1 $$unsorted) (V__N2 $$unsorted)) (and (tptp.s__instance V__N2 tptp.s__Agreement) (tptp.s__instance V__N1 tptp.s__Agreement) (tptp.s__partyToAgreement V__T V__N1) (tptp.s__partyToAgreement V__T V__N2) (tptp.s__instance V__N1 tptp.s__Nation) (tptp.s__instance V__N2 tptp.s__Nation) (not (= V__N1 V__N2))))))) (tptp.s__disjointDecomposition_6 tptp.s__Sentence tptp.s__Statement tptp.s__Supposition tptp.s__Question tptp.s__Request tptp.s__Order) (tptp.s__subclass tptp.s__Statement tptp.s__Sentence) (tptp.s__instance tptp.s__Statement__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Statement tptp.s__EnglishLanguage |tptp.'A &%Sentence that is stated to be true.'|) (forall ((V__SENTENCE $$unsorted) (V__STATE $$unsorted)) (=> (tptp.s__instance V__STATE tptp.s__Process) (=> (and (tptp.s__instance V__STATE tptp.s__Stating) (tptp.s__result V__STATE V__SENTENCE) (tptp.s__instance V__SENTENCE tptp.s__Sentence)) (tptp.s__instance V__SENTENCE tptp.s__Statement)))) (tptp.s__subclass tptp.s__Fact tptp.s__Statement) (tptp.s__instance tptp.s__Fact__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Fact tptp.s__EnglishLanguage |tptp.'The class of &%Statements that are &%True.'|) (forall ((V__FACT $$unsorted)) (=> (tptp.s__instance V__FACT tptp.s__Sentence) (=> (tptp.s__instance V__FACT tptp.s__Fact) (tptp.s__truth V__FACT |tptp.'$true__m'|)))) (tptp.s__subclass tptp.s__Question tptp.s__Sentence) (tptp.s__instance tptp.s__Question__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Question tptp.s__EnglishLanguage |tptp.'An interrogative &%Sentence, a &%Sentence that poses a question.'|) (forall ((V__SENTENCE $$unsorted) (V__QUESTION $$unsorted)) (=> (tptp.s__instance V__QUESTION tptp.s__Process) (=> (and (tptp.s__instance V__QUESTION tptp.s__Questioning) (tptp.s__result V__QUESTION V__SENTENCE) (tptp.s__instance V__SENTENCE tptp.s__Sentence)) (tptp.s__instance V__SENTENCE tptp.s__Question)))) (tptp.s__subclass tptp.s__Supposition tptp.s__Sentence) (tptp.s__instance tptp.s__Supposition__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Supposition tptp.s__EnglishLanguage |tptp.'A &%Sentence that is assumed to be true, possibly just for the sake of argument.'|) (forall ((V__SUPPOSE $$unsorted) (V__SENTENCE $$unsorted)) (=> (tptp.s__instance V__SUPPOSE tptp.s__Process) (=> (and (tptp.s__instance V__SUPPOSE tptp.s__Supposing) (tptp.s__result V__SUPPOSE V__SENTENCE) (tptp.s__instance V__SENTENCE tptp.s__Sentence)) (tptp.s__instance V__SENTENCE tptp.s__Supposition)))) (tptp.s__subclass tptp.s__Request tptp.s__Sentence) (tptp.s__instance tptp.s__Request__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Request tptp.s__EnglishLanguage |tptp.'A &%Sentence that expresses a request for something or that something be done.'|) (forall ((V__REQUEST $$unsorted) (V__SENTENCE $$unsorted)) (=> (tptp.s__instance V__REQUEST tptp.s__Process) (=> (and (tptp.s__instance V__REQUEST tptp.s__Requesting) (tptp.s__result V__REQUEST V__SENTENCE) (tptp.s__instance V__SENTENCE tptp.s__Sentence)) (tptp.s__instance V__SENTENCE tptp.s__Request)))) (tptp.s__subclass tptp.s__Order tptp.s__Sentence) (tptp.s__instance tptp.s__Order__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Order tptp.s__EnglishLanguage |tptp.'A &%Sentence that expresses an order for something or that something be done.'|) (forall ((V__ORDER $$unsorted) (V__SENTENCE $$unsorted)) (=> (tptp.s__instance V__ORDER tptp.s__Process) (=> (and (tptp.s__instance V__ORDER tptp.s__Ordering) (tptp.s__result V__ORDER V__SENTENCE) (tptp.s__instance V__SENTENCE tptp.s__Sentence)) (tptp.s__instance V__SENTENCE tptp.s__Order)))) (tptp.s__subclass tptp.s__AudioRecording tptp.s__Recording) (tptp.s__comment tptp.s__AudioRecording |tptp.'In ver 1.111 of Mid-level-ontology.kif , it says that (&%subclass &%AudioRecording &%Text). This does not seem right. Deleting that statement. Creating a parent class called &%Recording which means something that captures a &%Process that happened in real life. &%AudioRecording and &%VideoRecording will inherit from there. A &%Photograph is also a still recording of what happened in real life - as opposed to Graphic Art which is more of an &%ArtWork than a &%Recording, so it will also inherit from &%Recording. (09-14-2011)'| |tptp.'KJN'|) (tptp.s__documentation tptp.s__AudioRecording tptp.s__EnglishLanguage |tptp.'A representation of sound on some medium such as wax cylinder, vinyl record, magnetic tape, CD or flash memory, that is intended to be used in some machine to reproduce that sound.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__AudioRecording) (exists ((V__EV $$unsorted)) (and (tptp.s__instance V__EV tptp.s__RadiatingSound) (tptp.s__represents V__X V__EV) (tptp.s__capability tptp.s__RadiatingSound tptp.s__patient__m V__X)))))) (forall ((V__RECORD $$unsorted)) (=> (tptp.s__instance V__RECORD tptp.s__ContentBearingPhysical) (=> (tptp.s__instance V__RECORD tptp.s__AudioRecording) (exists ((V__INFO $$unsorted) (V__SOUND $$unsorted)) (and (tptp.s__instance V__SOUND tptp.s__Process) (tptp.s__instance V__INFO tptp.s__Proposition) (tptp.s__containsInformation V__RECORD V__INFO) (tptp.s__realization V__SOUND V__INFO) (tptp.s__instance V__SOUND tptp.s__RadiatingSound)))))) (tptp.s__subrelation tptp.s__record__m tptp.s__represents__m) (tptp.s__documentation tptp.s__record__m tptp.s__EnglishLanguage |tptp.'(&%record ?OBJ ?PHYS), a more specific relationship than &%represents, means that some &%Physical ?PHYS is captured and interpreted into a &%ContentBearingObject that is stored in some &%DataStorageDevice'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__record__m tptp.record) (tptp.s__comment tptp.s__record__m |tptp.'Adding a more specific relation than &%represents. While &%represents can be something like a &%Logo that represents a &%Brand, &%record is more strict in the sense that it is an accurate rendering of some &%Process that occurred in real life. (09-14-2011).'| |tptp.'KJN'|) (tptp.s__domain tptp.s__record__m |"1"| tptp.s__ContentBearingObject) (tptp.s__domain tptp.s__record__m |"2"| tptp.s__Physical) (forall ((V__REC $$unsorted) (V__PHYS $$unsorted)) (=> (and (tptp.s__instance V__PHYS tptp.s__ContentBearingPhysical) (tptp.s__instance V__REC tptp.s__ContentBearingObject)) (=> (tptp.s__record V__REC V__PHYS) (tptp.s__equivalentContentInstance V__REC V__PHYS)))) (forall ((V__REC $$unsorted) (V__PHYS $$unsorted)) (=> (and (tptp.s__instance V__PHYS tptp.s__Physical) (tptp.s__instance V__REC tptp.s__ContentBearingObject)) (=> (tptp.s__record V__REC V__PHYS) (exists ((V__DS $$unsorted)) (and (tptp.s__instance V__DS tptp.s__DataStorageDevice) (tptp.s__stored V__REC V__DS)))))) (tptp.s__instance tptp.s__stored__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__stored__m tptp.s__AntisymmetricRelation) (tptp.s__instance tptp.s__stored__m tptp.s__TransitiveRelation) (tptp.s__documentation tptp.s__stored__m tptp.s__EnglishLanguage |tptp.'(&%stored ?REC ?OBJ) means that some &%ContentBearingObject, encoded in some format, is saved in some &%DataStorageDevice and can be accessed in some future date.'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__stored__m tptp.stored) (tptp.s__comment tptp.s__stored__m |tptp.'Adding a stored method that is specific to storing &%ContentBearingObject such as &%SymbolicString, &%Recording, etc. in a &%DataStorageDevice. Will be changing some axioms to use this instead of other, vaguer ways of describing it.'| |tptp.'KJN'|) (tptp.s__domain tptp.s__stored__m |"1"| tptp.s__ContentBearingObject) (tptp.s__domain tptp.s__stored__m |"2"| tptp.s__DataStorageDevice) (forall ((V__O $$unsorted) (V__D $$unsorted)) (=> (and (tptp.s__instance V__D tptp.s__DataStorageDevice) (tptp.s__instance V__O tptp.s__ContentBearingObject)) (=> (tptp.s__stored V__O V__D) (exists ((V__P $$unsorted)) (and (tptp.s__instance V__P tptp.s__Process) (tptp.s__instance V__P tptp.s__Writing) (tptp.s__destination V__P V__D) (tptp.s__patient V__P V__O)))))) (tptp.s__subclass tptp.s__Recording tptp.s__ContentBearingObject) (tptp.s__instance tptp.s__Recording__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Recording tptp.s__EnglishLanguage |tptp.'&%Recording refers to a &%ContentBearingObject that represents some &%Process that happened in real life'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Recording tptp.recording) (forall ((V__R $$unsorted)) (=> (tptp.s__instance V__R tptp.s__ContentBearingObject) (=> (tptp.s__instance V__R tptp.s__Recording) (exists ((V__P $$unsorted)) (and (tptp.s__instance V__P tptp.s__Physical) (tptp.s__instance V__P tptp.s__Process) (tptp.s__record V__R V__P)))))) (tptp.s__subclass tptp.s__MusicRecording tptp.s__AudioRecording) (tptp.s__instance tptp.s__MusicRecording__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__AudioRecording__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MusicRecording tptp.s__EnglishLanguage |tptp.'&%MusicRecording refers to an &%AudioRecording of the &%Process of &%MakingMusic.'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__MusicRecording |tptp.'music recording'|) (forall ((V__M $$unsorted)) (=> (tptp.s__instance V__M tptp.s__ContentBearingObject) (=> (tptp.s__instance V__M tptp.s__MusicRecording) (exists ((V__P $$unsorted)) (and (tptp.s__instance V__P tptp.s__Physical) (tptp.s__instance V__P tptp.s__MakingMusic) (tptp.s__record V__M V__P)))))) (tptp.s__subclass tptp.s__SheetMusic tptp.s__ContentBearingObject) (tptp.s__instance tptp.s__SheetMusic__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SheetMusic tptp.s__EnglishLanguage |tptp.'&%SheetMusic refers to the &%ContentBearingObject that contains a representation of a &%MusicalComposition, using different musical symbols'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__SheetMusic |tptp.'sheet music'|) (forall ((V__SM $$unsorted)) (=> (tptp.s__instance V__SM tptp.s__ContentBearingPhysical) (=> (tptp.s__instance V__SM tptp.s__SheetMusic) (exists ((V__MC $$unsorted)) (and (tptp.s__instance V__MC tptp.s__Proposition) (tptp.s__instance V__MC tptp.s__MusicalComposition) (tptp.s__containsInformation V__SM V__MC)))))) (tptp.s__subclass tptp.s__MusicText tptp.s__Text) (tptp.s__instance tptp.s__MusicText__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MusicText tptp.s__EnglishLanguage |tptp.'A &%Text in a &%Language that represents a form of music.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__MusicText) (tptp.s__capability tptp.s__MakingMusic tptp.s__patient__m V__X)))) (tptp.s__subclass tptp.s__VideoRecording tptp.s__Recording) (tptp.s__instance tptp.s__VideoRecording__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__VideoRecording tptp.s__EnglishLanguage |tptp.'A representation of video on some medium such as film, videotape or DVD. Instances of this class are also commonly instances of &%AudioRecording.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__VideoRecording) (exists ((V__EV $$unsorted)) (and (tptp.s__instance V__EV tptp.s__Process) (tptp.s__represents V__X V__EV) (tptp.s__capability tptp.s__RadiatingLight tptp.s__patient__m V__X)))))) (forall ((V__VIDEO $$unsorted)) (=> (tptp.s__instance V__VIDEO tptp.s__Object) (=> (tptp.s__instance V__VIDEO tptp.s__VideoRecording) (tptp.s__modalAttribute |tptp.'(? [V__AUDIO] : (s__instance(V__AUDIO,s__Object) & s__instance(V__AUDIO,s__AudioRecording) & s__part(V__AUDIO,V__VIDEO)))'| tptp.s__Possibility)))) (tptp.s__subclass tptp.s__MediaSystem tptp.s__Collection) (tptp.s__documentation tptp.s__MediaSystem tptp.s__EnglishLanguage |tptp.'&%MediaSystem is a &%Collection of components that enable the &%RadiatingSound of &%AudioRecording and &%RadiatingLight of &%VideoRecording'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__MediaSystem |tptp.'media system'|) (forall ((V__PLAYER $$unsorted)) (=> (tptp.s__instance V__PLAYER tptp.s__Object) (=> (tptp.s__instance V__PLAYER tptp.s__MediaSystem) (tptp.s__hasPurpose V__PLAYER |tptp.'((? [V__VIDEO,V__RL] : (s__instance(V__RL,s__Process) & s__instance(V__VIDEO,s__VideoRecording) & s__instance(V__RL,s__RadiatingLight) & s__patient(V__RL,V__VIDEO) & s__instrument(V__RL,V__PLAYER))) _ (? [V__AUDIO,V__RS] : (s__instance(V__RS,s__Process) & s__instance(V__AUDIO,s__AudioRecording) & s__instance(V__RS,s__RadiatingSound) & s__patient(V__RS,V__AUDIO) & s__instrument(V__RS,V__PLAYER))))'|)))) (tptp.s__subclass tptp.s__Label tptp.s__Text) (tptp.s__instance tptp.s__Label__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Label tptp.s__EnglishLanguage |tptp.'A very brief &%Text that is attached to an &%Object and that indicates very specific information about the &%Object, e.g. its name, its &%monetaryValue, etc.'|) (forall ((V__LABEL $$unsorted)) (=> (tptp.s__instance V__LABEL tptp.s__Object) (=> (tptp.s__instance V__LABEL tptp.s__Label) (exists ((V__OBJ $$unsorted)) (and (tptp.s__instance V__OBJ tptp.s__Object) (tptp.s__instance V__OBJ tptp.s__SelfConnectedObject) (tptp.s__connected V__LABEL V__OBJ) (tptp.s__refers V__LABEL V__OBJ)))))) (tptp.s__subclass tptp.s__FormText tptp.s__Text) (tptp.s__instance tptp.s__FormText__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FormText tptp.s__EnglishLanguage |tptp.'A page or set of pages containing spaces where information is to be entered by an &%Agent.'|) (tptp.s__subclass tptp.s__TestForm tptp.s__FormText) (tptp.s__instance tptp.s__TestForm__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__TestForm tptp.s__MeasuringDevice) (tptp.s__documentation tptp.s__TestForm tptp.s__EnglishLanguage |tptp.'A &%FormText which is intended to measure some aspect of the cognitive capabilities, e.g. intelligence or knowledge of a domain, of the person taking the test.'|) (tptp.s__subclass tptp.s__Ballot tptp.s__FormText) (tptp.s__instance tptp.s__Ballot__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Ballot tptp.s__EnglishLanguage |tptp.'A &%FormText which is used in &%Voting. A list of candidates is printed on the form, and the voter selects the candidate he/she wants to vote for.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Object) (=> (tptp.s__instance V__B tptp.s__Ballot) (tptp.s__hasPurpose V__B |tptp.'(? [V__V] : (s__instance(V__V,s__Process) & s__instance(V__V,s__Voting) & s__instrument(V__V,V__B)))'|)))) (tptp.s__subclass tptp.s__Application tptp.s__FormText) (tptp.s__instance tptp.s__Application__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Application tptp.s__EnglishLanguage |tptp.'A &%FormText whose purpose is to obtain admission to an &%Organization or to receive assistance from an &%Organization.'|) (forall ((V__APP $$unsorted)) (=> (tptp.s__instance V__APP tptp.s__Physical) (=> (tptp.s__instance V__APP tptp.s__Application) (tptp.s__hasPurpose V__APP |tptp.'(? [V__JOIN,V__GIVE] : (s__instance(V__JOIN,s__JoiningAnOrganization) _ s__instance(V__GIVE,s__UnilateralGiving)))'|)))) (tptp.s__subclass tptp.s__Announcement tptp.s__FactualText) (tptp.s__instance tptp.s__Announcement__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Announcement tptp.s__EnglishLanguage |tptp.'Any &%Text which contains information about an event in the future.'|) (forall ((V__A $$unsorted)) (=> (tptp.s__instance V__A tptp.s__Announcement) (exists ((V__CD $$unsorted) (V__I $$unsorted)) (and (tptp.s__instance V__I tptp.s__Physical) (tptp.s__instance V__CD tptp.s__Process) (tptp.s__instance V__CD tptp.s__ContentDevelopment) (tptp.s__result V__CD V__A) (tptp.s__refers V__A V__I) (tptp.s__instance V__I tptp.s__SocialInteraction) (tptp.s__earlier (tptp.s__WhenFn V__CD) (tptp.s__WhenFn V__I)))))) (tptp.s__subclass tptp.s__PerformanceProgram tptp.s__FactualText) (tptp.s__instance tptp.s__PerformanceProgram__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PerformanceProgram tptp.s__EnglishLanguage |tptp.'A &%Text that describes the events and/or participants in a &%Performance.'|) (forall ((V__PROG $$unsorted)) (=> (tptp.s__instance V__PROG tptp.s__ContentBearingPhysical) (=> (tptp.s__instance V__PROG tptp.s__PerformanceProgram) (exists ((V__PERF $$unsorted) (V__PROP $$unsorted)) (and (tptp.s__instance V__PROP tptp.s__Proposition) (tptp.s__instance V__PERF tptp.s__Process) (tptp.s__containsInformation V__PROG V__PROP) (tptp.s__realization V__PERF V__PROP) (tptp.s__instance V__PERF tptp.s__Performance)))))) (tptp.s__subclass tptp.s__MotionPictureShot tptp.s__MotionPicture) (tptp.s__instance tptp.s__MotionPictureShot__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MotionPictureShot tptp.s__EnglishLanguage |tptp.'A unit of action in a &%MotionPicture, a &%MotionPictureShot is a sequence of images which are captured by a single camera without interruption.'|) (forall ((V__SHOT $$unsorted)) (=> (tptp.s__instance V__SHOT tptp.s__ContentBearingPhysical) (=> (tptp.s__instance V__SHOT tptp.s__MotionPictureShot) (exists ((V__MOVIE $$unsorted)) (and (tptp.s__instance V__MOVIE tptp.s__ContentBearingPhysical) (tptp.s__instance V__MOVIE tptp.s__MotionPicture) (tptp.s__subsumesContentInstance V__MOVIE V__SHOT)))))) (forall ((V__SHOT $$unsorted)) (=> (tptp.s__instance V__SHOT tptp.s__Process) (=> (tptp.s__instance V__SHOT tptp.s__MotionPictureShot) (exists ((V__C $$unsorted)) (and (tptp.s__instance V__C tptp.s__Camera) (tptp.s__instrument V__SHOT V__C) (not (exists ((V__C2 $$unsorted)) (and (tptp.s__instance V__C2 tptp.s__Object) (tptp.s__instance V__C tptp.s__Object) (tptp.s__instance V__C2 tptp.s__Camera) (not (= V__C V__C2)) (tptp.s__instrument V__SHOT V__C2))))))))) (tptp.s__subclass tptp.s__MotionPictureScene tptp.s__MotionPicture) (tptp.s__instance tptp.s__MotionPictureScene__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MotionPictureScene tptp.s__EnglishLanguage |tptp.'A discrete part of a &%MotionPicture which is set in the same time period and the same location.'|) (forall ((V__MOVIE $$unsorted) (V__S $$unsorted)) (=> (and (tptp.s__instance V__S tptp.s__ContentBearingPhysical) (tptp.s__instance V__MOVIE tptp.s__ContentBearingPhysical)) (=> (tptp.s__instance V__S tptp.s__MotionPictureScene) (exists ((V__M $$unsorted)) (and (tptp.s__instance V__M tptp.s__MotionPicture) (tptp.s__subsumesContentInstance V__MOVIE V__S)))))) (tptp.s__subclass tptp.s__Documentary tptp.s__MotionPicture) (tptp.s__instance tptp.s__Documentary__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Documentary tptp.s__FactualText) (tptp.s__documentation tptp.s__Documentary tptp.s__EnglishLanguage |tptp.'A &%MotionPicture which purports to represent the facts about a person, event, etc.'|) (tptp.s__subclass tptp.s__BroadcastProgram tptp.s__Series) (tptp.s__instance tptp.s__BroadcastProgram__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Series__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__BroadcastProgram tptp.s__EnglishLanguage |tptp.'A &%Series of episodes that are broadcast on television or radio.'|) (forall ((V__PROGRAM $$unsorted)) (=> (tptp.s__instance V__PROGRAM tptp.s__BroadcastProgram) (exists ((V__BROADCAST $$unsorted)) (and (tptp.s__instance V__BROADCAST tptp.s__Process) (tptp.s__instance V__BROADCAST tptp.s__Broadcasting) (tptp.s__patient V__BROADCAST V__PROGRAM))))) (tptp.s__subclass tptp.s__NewsProgram tptp.s__BroadcastProgram) (tptp.s__instance tptp.s__NewsProgram__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__NewsProgram tptp.s__EnglishLanguage |tptp.'A &%BroadcastProgram that is devoted to reporting the latest events in a city, region, nation or the world at large.'|) (forall ((V__NUMBER $$unsorted) (V__PROGRAM $$unsorted) (V__EPISODE $$unsorted)) (=> (and (tptp.s__subclass V__PROGRAM tptp.s__Series) (tptp.s__instance V__PROGRAM tptp.s__SetOrClass) (tptp.s__instance V__NUMBER tptp.s__PositiveInteger)) (=> (and (tptp.s__subclass V__PROGRAM tptp.s__NewsProgram) (= V__EPISODE (tptp.s__SeriesVolumeFn V__PROGRAM V__NUMBER))) (exists ((V__DISSEMINATE $$unsorted)) (and (tptp.s__instance V__DISSEMINATE tptp.s__Process) (tptp.s__instance V__DISSEMINATE tptp.s__Disseminating) (tptp.s__patient V__DISSEMINATE V__EPISODE)))))) (tptp.s__instance tptp.s__SeriesVolumeFn__m tptp.s__BinaryFunction) (tptp.s__instance tptp.s__SeriesVolumeFn__m tptp.s__PartialValuedRelation) (tptp.s__domainSubclass tptp.s__SeriesVolumeFn__m |"1"| tptp.s__Series) (tptp.s__domain tptp.s__SeriesVolumeFn__m |"2"| tptp.s__PositiveInteger) (tptp.s__rangeSubclass tptp.s__SeriesVolumeFn__m tptp.s__Text) (tptp.s__documentation tptp.s__SeriesVolumeFn__m tptp.s__EnglishLanguage |tptp.'A &%BinaryFunction that maps a type of &%Series (e.g. the Encyclopedia_Britannica or the Popular_Mechanics periodical) and a number to the volumes of the text type designated by the number.'|) (forall ((V__CBO1 $$unsorted) (V__CBO2 $$unsorted) (V__PUB1 $$unsorted) (V__PUB2 $$unsorted) (V__VOLUME2 $$unsorted) (V__INT2 $$unsorted) (V__VOLUME1 $$unsorted) (V__DATE2 $$unsorted) (V__INT1 $$unsorted) (V__DATE1 $$unsorted) (V__TEXT $$unsorted)) (=> (and (tptp.s__subclass V__TEXT tptp.s__Series) (tptp.s__instance V__TEXT tptp.s__SetOrClass) (tptp.s__instance V__DATE1 tptp.s__Day) (tptp.s__instance V__INT1 tptp.s__PositiveInteger) (tptp.s__instance V__DATE2 tptp.s__Day) (tptp.s__instance V__VOLUME1 tptp.s__SetOrClass) (tptp.s__instance V__INT2 tptp.s__PositiveInteger) (tptp.s__instance V__VOLUME2 tptp.s__SetOrClass) (tptp.s__instance V__PUB2 tptp.s__Process) (tptp.s__instance V__PUB1 tptp.s__Process)) (=> (and (tptp.s__subclass V__TEXT tptp.s__Periodical) (= (tptp.s__SeriesVolumeFn V__TEXT V__INT1) V__VOLUME1) (= (tptp.s__SeriesVolumeFn V__TEXT V__INT2) V__VOLUME2) (tptp.greater V__INT2 V__INT1) (tptp.s__instance V__PUB1 tptp.s__Publication) (tptp.s__instance V__PUB2 tptp.s__Publication) (tptp.s__instance V__CBO1 V__VOLUME1) (tptp.s__instance V__CBO2 V__VOLUME2) (tptp.s__patient V__PUB1 V__CBO1) (tptp.s__patient V__PUB2 V__CBO2) (tptp.s__date V__PUB1 V__DATE1) (tptp.s__date V__PUB2 V__DATE2)) (tptp.s__before (tptp.s__EndFn V__DATE1) (tptp.s__EndFn V__DATE2))))) (forall ((V__NUMBER $$unsorted) (V__VOLUME $$unsorted) (V__SERIES $$unsorted)) (=> (and (tptp.s__subclass V__SERIES tptp.s__Series) (tptp.s__instance V__SERIES tptp.s__SetOrClass) (tptp.s__subclass V__VOLUME tptp.s__ContentBearingPhysical) (tptp.s__instance V__VOLUME tptp.s__SetOrClass) (tptp.s__instance V__NUMBER tptp.s__PositiveInteger)) (=> (= (tptp.s__SeriesVolumeFn V__SERIES V__NUMBER) V__VOLUME) (tptp.s__subsumesContentClass V__SERIES V__VOLUME)))) (tptp.s__subclass tptp.s__Series tptp.s__Text) (tptp.s__documentation tptp.s__Series tptp.s__EnglishLanguage |tptp.'A &%Text consisting of multiple self-contained units. Some examples are an encyclopedia containing a couple dozen volumes, a television series made up of many episodes, a film serial, etc.'|) (forall ((V__SERIES $$unsorted)) (=> (tptp.s__instance V__SERIES tptp.s__ContentBearingPhysical) (=> (tptp.s__instance V__SERIES tptp.s__Series) (exists ((V__BOOK1 $$unsorted) (V__BOOK2 $$unsorted)) (and (tptp.s__instance V__BOOK2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__BOOK1 tptp.s__ContentBearingPhysical) (tptp.s__instance V__BOOK1 tptp.s__Book) (tptp.s__instance V__BOOK2 tptp.s__Book) (tptp.s__subsumesContentInstance V__SERIES V__BOOK1) (tptp.s__subsumesContentInstance V__SERIES V__BOOK2) (not (= V__BOOK1 V__BOOK2))))))) (tptp.s__instance tptp.s__PeriodicalIssueFn__m tptp.s__BinaryFunction) (tptp.s__instance tptp.s__PeriodicalIssueFn__m tptp.s__PartialValuedRelation) (tptp.s__domainSubclass tptp.s__PeriodicalIssueFn__m |"1"| tptp.s__Periodical) (tptp.s__domain tptp.s__PeriodicalIssueFn__m |"2"| tptp.s__PositiveInteger) (tptp.s__rangeSubclass tptp.s__PeriodicalIssueFn__m tptp.s__Periodical) (tptp.s__documentation tptp.s__PeriodicalIssueFn__m tptp.s__EnglishLanguage |tptp.'A &%BinaryFunction that maps a subclass of &%Periodical and a number to all of the issues of the &%Periodical corresponding to the number.'|) (forall ((V__NUMBER $$unsorted) (V__PERIODICAL $$unsorted) (V__ISSUE $$unsorted)) (=> (and (tptp.s__subclass V__ISSUE tptp.s__ContentBearingPhysical) (tptp.s__instance V__ISSUE tptp.s__SetOrClass) (tptp.s__subclass V__PERIODICAL tptp.s__Periodical) (tptp.s__instance V__PERIODICAL tptp.s__SetOrClass) (tptp.s__instance V__NUMBER tptp.s__PositiveInteger)) (=> (= (tptp.s__PeriodicalIssueFn V__PERIODICAL V__NUMBER) V__ISSUE) (tptp.s__subsumesContentClass V__PERIODICAL V__ISSUE)))) (tptp.s__subclass tptp.s__Periodical tptp.s__Series) (tptp.s__instance tptp.s__Periodical__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Periodical tptp.s__EnglishLanguage |tptp.'A &%Series whose elements are published separately and on a periodic basis.'|) (tptp.s__subclass tptp.s__Article tptp.s__Text) (tptp.s__disjoint tptp.s__Article tptp.s__Book) (tptp.s__documentation tptp.s__Article tptp.s__EnglishLanguage |tptp.'A relatively short &%Text that either is unbound or is bound with other &%Articles in a &%Book.'|) (forall ((V__BOOK $$unsorted) (V__ARTICLE1 $$unsorted)) (=> (and (tptp.s__instance V__ARTICLE1 tptp.s__ContentBearingPhysical) (tptp.s__instance V__BOOK tptp.s__ContentBearingPhysical)) (=> (and (tptp.s__instance V__ARTICLE1 tptp.s__Article) (tptp.s__instance V__BOOK tptp.s__Book) (tptp.s__subsumesContentInstance V__BOOK V__ARTICLE1)) (exists ((V__ARTICLE2 $$unsorted)) (and (tptp.s__instance V__ARTICLE2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__ARTICLE2 tptp.s__Article) (not (= V__ARTICLE2 V__ARTICLE1)) (tptp.s__subsumesContentInstance V__BOOK V__ARTICLE2)))))) (tptp.s__subclass tptp.s__Chapter tptp.s__Article) (tptp.s__instance tptp.s__Chapter__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Chapter tptp.s__EnglishLanguage |tptp.'A numbered and/or titled section of a &%Book, which is typically indicated in a table of contents for the &%Book.'|) (forall ((V__CHAPTER $$unsorted)) (=> (tptp.s__instance V__CHAPTER tptp.s__ContentBearingPhysical) (=> (tptp.s__instance V__CHAPTER tptp.s__Chapter) (exists ((V__BOOK $$unsorted)) (and (tptp.s__instance V__BOOK tptp.s__ContentBearingPhysical) (tptp.s__instance V__BOOK tptp.s__Book) (tptp.s__subsumesContentInstance V__BOOK V__CHAPTER)))))) (tptp.s__subrelation tptp.s__titles__m tptp.s__names__m) (tptp.s__domain tptp.s__titles__m |"1"| tptp.s__SymbolicString) (tptp.s__domainSubclass tptp.s__titles__m |"2"| tptp.s__ContentBearingPhysical) (tptp.s__documentation tptp.s__titles__m tptp.s__EnglishLanguage |tptp.'A &%BinaryPredicate used to indicate the title of a &%ContentBearingPhysical. Note that the second argument type restriction is a subclass, rather than an instance, of &%ContentBearingPhysical. Thus, the title Murder_on_the_Orient_Express corresponds to a large class of &%Books, and not just to a single copy of the book.'|) (tptp.s__documentation tptp.s__formerName__m tptp.s__EnglishLanguage |tptp.'(formerName ?NAME ?THING) means that the string ?NAME is a name formerly used for ?THING.'|) (tptp.s__subrelation tptp.s__formerName__m tptp.s__names__m) (tptp.s__instance tptp.s__familyName__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__familyName__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__familyName__m |"1"| tptp.s__SymbolicString) (tptp.s__domain tptp.s__familyName__m |"2"| tptp.s__Human) (tptp.s__subrelation tptp.s__familyName__m tptp.s__names__m) (tptp.s__documentation tptp.s__familyName__m tptp.s__EnglishLanguage |tptp.'(&%familyName ?STRING ?HUMAN) means that the &%SymbolicString ?STRING denotes a non-optional name that ?HUMAN has inherited by virtue of being born into a particular family (kin group). surname is another word for this type of name. Cf. &%givenName.'|) (tptp.s__documentation tptp.s__middleName__m tptp.s__EnglishLanguage |tptp.'(middleName ?CHAR ?INDIV) means that the &%SymbolicString ?CHAR contains the middle name of the &%Human ?INDIV.'|) (tptp.s__instance tptp.s__middleName__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__middleName__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__middleName__m |"1"| tptp.s__SymbolicString) (tptp.s__domain tptp.s__middleName__m |"2"| tptp.s__Human) (tptp.s__subrelation tptp.s__middleName__m tptp.s__names__m) (tptp.s__instance tptp.s__givenName__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__givenName__m tptp.s__AsymmetricRelation) (tptp.s__subrelation tptp.s__givenName__m tptp.s__names__m) (tptp.s__domain tptp.s__givenName__m |"1"| tptp.s__SymbolicString) (tptp.s__domain tptp.s__givenName__m |"2"| tptp.s__Human) (tptp.s__documentation tptp.s__givenName__m tptp.s__EnglishLanguage |tptp.'(&%givenName ?STRING ?HUMAN) means that ?STRING is a name selected for ?HUMAN, usually from among many options, as opposed to a mandatory name (cf. &%familyName) that ?HUMAN has inherited by virtue of being born into a certain kin group, caste, or occupation.'|) (tptp.s__instance tptp.s__localLongName__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__localLongName__m |"1"| tptp.s__SymbolicString) (tptp.s__domain tptp.s__localLongName__m |"2"| tptp.s__Entity) (tptp.s__documentation tptp.s__localLongName__m tptp.s__EnglishLanguage |tptp.'(localLongName ?NAME ?THING) means that the string ?NAME is the long form of the name used for ?THING in its local area or language.'|) (tptp.s__subrelation tptp.s__localLongName__m tptp.s__names__m) (tptp.s__documentation tptp.s__localShortName__m tptp.s__EnglishLanguage |tptp.'(localShortName ?NAME ?THING) means that the string ?NAME is the short form of the name used for ?THING in its local area or language.'|) (tptp.s__subrelation tptp.s__localShortName__m tptp.s__names__m) (tptp.s__instance tptp.s__localShortName__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__localShortName__m |"1"| tptp.s__SymbolicString) (tptp.s__domain tptp.s__localShortName__m |"2"| tptp.s__Entity) (tptp.s__subclass tptp.s__Message tptp.s__FactualText) (tptp.s__instance tptp.s__Message__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Message tptp.s__EnglishLanguage |tptp.'A &%FactualText which is intended to be delivered to and read by a &%Human, &%GroupOfPeople or &%Organization.'|) (tptp.s__subclass tptp.s__Report tptp.s__FactualText) (tptp.s__instance tptp.s__Report__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Report tptp.s__Article) (tptp.s__documentation tptp.s__Report tptp.s__EnglishLanguage |tptp.'A relatively brief &%FactualText, often it describes the findings of a study or experiment, or a series of observations.'|) (tptp.s__subclass tptp.s__Newspaper tptp.s__Periodical) (tptp.s__instance tptp.s__Newspaper__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Newspaper tptp.s__EnglishLanguage |tptp.'A &%Periodical that is published on a daily or weekly basis, that contains &%Reports, and whose issues are printed on newsprint paper.'|) (forall ((V__PAPER $$unsorted)) (=> (tptp.s__instance V__PAPER tptp.s__ContentBearingPhysical) (=> (tptp.s__instance V__PAPER tptp.s__Newspaper) (exists ((V__REPORT $$unsorted)) (and (tptp.s__instance V__REPORT tptp.s__ContentBearingPhysical) (tptp.s__instance V__REPORT tptp.s__Report) (tptp.s__subsumesContentInstance V__PAPER V__REPORT)))))) (forall ((V__WEEK $$unsorted) (V__PAPER $$unsorted)) (=> (and (tptp.s__instance V__PAPER tptp.s__SetOrClass) (tptp.s__instance V__WEEK tptp.s__TimePosition)) (=> (and (tptp.s__subclass V__PAPER tptp.s__Newspaper) (tptp.s__instance V__WEEK tptp.s__Week)) (exists ((V__PUBLICATION $$unsorted) (V__ISSUE $$unsorted)) (and (tptp.s__instance V__PUBLICATION tptp.s__Process) (tptp.s__instance V__PUBLICATION tptp.s__Publication) (tptp.s__temporalPart (tptp.s__WhenFn V__PUBLICATION) V__WEEK) (tptp.s__result V__PUBLICATION V__ISSUE) (tptp.s__instance V__ISSUE V__PAPER)))))) (tptp.s__subclass tptp.s__Magazine tptp.s__Periodical) (tptp.s__instance tptp.s__Magazine__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Magazine tptp.s__EnglishLanguage |tptp.'A &%Periodical that is softbound and printed on glossy paper.'|) (tptp.s__subclass tptp.s__Letter tptp.s__FactualText) (tptp.s__instance tptp.s__Letter__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Letter tptp.s__EnglishLanguage |tptp.'A brief message which is intended to be mailed to a person or &%Organization.'|) (tptp.s__subclass tptp.s__Holiday tptp.s__TimeInterval) (tptp.s__documentation tptp.s__Holiday tptp.s__EnglishLanguage |tptp.'&%Holiday is the class of time periods that are observed as holidays in a country, culture, or religion. Holidays may recur annually on the same date, or they may be moveable, for example, &%UnitedStatesThanksgivingDay falls on the last &%Thursday of each &%November.'|) (tptp.s__subclass tptp.s__FixedHoliday tptp.s__Holiday) (tptp.s__instance tptp.s__FixedHoliday__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Holiday__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FixedHoliday tptp.s__EnglishLanguage |tptp.'&%FixedHoliday is the class of &%Holidays whose observance is fixed to recurrences of the calendar day that the holiday commemorates. See &%commemoratesDate.'|) (tptp.s__subclass tptp.s__MoveableHoliday tptp.s__Holiday) (tptp.s__instance tptp.s__MoveableHoliday__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MoveableHoliday tptp.s__EnglishLanguage |tptp.'&%MoveableHoliday is the class of &%Holidays whose observance is not fixed to recurrences of any particular calendar day. For example, &%UnitedStatesMemorialDay is observed on the last &%Monday of &%May.'|) (tptp.s__subclass tptp.s__HolidayCard tptp.s__ContentBearingObject) (tptp.s__instance tptp.s__HolidayCard__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__HolidayCard tptp.s__EnglishLanguage |tptp.'A stiff piece of &%Paper, usually folded over, which is sent to others in celebration of a &%Holiday.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__CorpuscularObject) (=> (tptp.s__instance V__C tptp.s__HolidayCard) (tptp.s__material tptp.s__Paper V__C)))) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__HolidayCard) (exists ((V__H $$unsorted)) (and (tptp.s__instance V__H tptp.s__Holiday) (tptp.s__refers V__C V__H))))) (tptp.s__subclass tptp.s__HistoricalAccount tptp.s__NarrativeText) (tptp.s__subclass tptp.s__HistoricalAccount tptp.s__FactualText) (tptp.s__instance tptp.s__HistoricalAccount__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__HistoricalAccount tptp.s__EnglishLanguage |tptp.'A &%FactualAccount that describes significant events that occurred in the past.'|) (forall ((V__ACCOUNT $$unsorted)) (=> (tptp.s__instance V__ACCOUNT tptp.s__Physical) (=> (tptp.s__instance V__ACCOUNT tptp.s__HistoricalAccount) (exists ((V__EVENT $$unsorted)) (and (tptp.s__instance V__EVENT tptp.s__Physical) (tptp.s__represents V__ACCOUNT V__EVENT) (tptp.s__earlier (tptp.s__WhenFn V__EVENT) (tptp.s__WhenFn V__ACCOUNT))))))) (tptp.s__subclass tptp.s__Biography tptp.s__HistoricalAccount) (tptp.s__instance tptp.s__Biography__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Biography tptp.s__EnglishLanguage |tptp.'A &%HistoricalAccount which is concerned with the life of a single &%Human.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Biography) (exists ((V__H $$unsorted)) (and (tptp.s__instance V__H tptp.s__Human) (tptp.s__refers V__B V__H))))) (tptp.s__subclass tptp.s__FinancialText tptp.s__Report) (tptp.s__instance tptp.s__FinancialText__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FinancialText tptp.s__EnglishLanguage |tptp.'A &%Report about monetary figures. This class covers &%FinancialBills, balance sheets, account statements, etc.'|) (tptp.s__subclass tptp.s__FinancialBill tptp.s__FinancialText) (tptp.s__instance tptp.s__FinancialBill__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FinancialBill tptp.s__EnglishLanguage |tptp.'A brief statement that the stated amount of money is owed by the person to whom the bill is delivered.'|) (tptp.s__subclass tptp.s__ReferenceBook tptp.s__Book) (tptp.s__subclass tptp.s__ReferenceBook tptp.s__FactualText) (tptp.s__instance tptp.s__ReferenceBook__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ReferenceBook tptp.s__EnglishLanguage |tptp.'A &%Book which is not intended to be read from cover to cover, but which is meant to be consulted to answer specific factual questions, e.g. about the meaning of a word, the location of a country, etc.'|) (tptp.s__subclass tptp.s__Dictionary tptp.s__ReferenceBook) (tptp.s__instance tptp.s__Dictionary__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Dictionary tptp.s__EnglishLanguage |tptp.'A &%ReferenceBook which specifies the meanings of the &%Words of a &%Language.'|) (tptp.s__subclass tptp.s__NarrativeText tptp.s__Text) (tptp.s__instance tptp.s__NarrativeText__t tptp.s__SetOrClass) (tptp.s__partition_3 tptp.s__NarrativeText tptp.s__FictionalText tptp.s__HistoricalAccount) (tptp.s__documentation tptp.s__NarrativeText tptp.s__EnglishLanguage |tptp.'Any &%Text that tells a story, whether true or false.'|) (tptp.s__subclass tptp.s__ShortStory tptp.s__FictionalText) (tptp.s__instance tptp.s__ShortStory__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__ShortStory tptp.s__Article) (tptp.s__instance tptp.s__Article__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ShortStory tptp.s__EnglishLanguage |tptp.'A brief work of fiction, often bound with other short stories in a &%Book or &%Periodical.'|) (tptp.s__subclass tptp.s__MysteryStory tptp.s__FictionalText) (tptp.s__instance tptp.s__MysteryStory__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MysteryStory tptp.s__EnglishLanguage |tptp.'A &%FictionalText whose central plot element is a crime of some sort, usually a murder.'|) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__MysteryStory) (exists ((V__C $$unsorted)) (and (tptp.s__instance V__C tptp.s__CriminalAction) (tptp.s__refers V__S V__C))))) (tptp.s__subclass tptp.s__Novel tptp.s__FictionalText) (tptp.s__instance tptp.s__Novel__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Novel tptp.s__Book) (tptp.s__documentation tptp.s__Novel tptp.s__EnglishLanguage |tptp.'A &%FictionalText that is larger than a &%ShortStory and that is bound independently (i.e. it is a &%Book).'|) (tptp.s__subclass tptp.s__DramaticPlay tptp.s__FictionalText) (tptp.s__documentation tptp.s__DramaticPlay tptp.s__EnglishLanguage |tptp.'A &%FictionalText that is intended to be realized as &%DramaticActing.'|) (forall ((V__PLAY $$unsorted)) (=> (tptp.s__instance V__PLAY tptp.s__ContentBearingPhysical) (=> (tptp.s__instance V__PLAY tptp.s__DramaticPlay) (tptp.s__hasPurpose V__PLAY |tptp.'(? [V__ACT,V__PROP] : (s__instance(V__PROP,s__Proposition) & s__instance(V__ACT,s__Process) & s__instance(V__ACT,s__DramaticActing) & s__containsInformation(V__PLAY,V__PROP) & s__realization(V__ACT,V__PROP)))'|)))) (tptp.s__subclass tptp.s__Opera tptp.s__DramaticPlay) (tptp.s__instance tptp.s__Opera__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__DramaticPlay__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Opera tptp.s__EnglishLanguage |tptp.'A &%DramaticPlay that is set to &%MakingMusic.'|) (forall ((V__ACT $$unsorted) (V__OPERA $$unsorted)) (=> (and (tptp.s__instance V__OPERA tptp.s__Proposition) (tptp.s__instance V__ACT tptp.s__Process)) (=> (and (tptp.s__instance V__OPERA tptp.s__Opera) (tptp.s__realization V__ACT V__OPERA)) (tptp.s__instance V__ACT tptp.s__MakingMusic)))) (tptp.s__instance tptp.s__FrenchLanguage tptp.s__SpokenHumanLanguage) (tptp.s__instance tptp.s__FrenchLanguage tptp.s__NaturalLanguage) (tptp.s__documentation tptp.s__FrenchLanguage tptp.s__EnglishLanguage |tptp.'A &%Romance language that is the official language of France and Belgium, and is widely spoken in Africa.'|) (tptp.s__instance tptp.s__GermanLanguage tptp.s__SpokenHumanLanguage) (tptp.s__instance tptp.s__GermanLanguage tptp.s__NaturalLanguage) (tptp.s__documentation tptp.s__GermanLanguage tptp.s__EnglishLanguage |tptp.'A &%Germanic language that is spoken primarily in Germany and Austria.'|) (tptp.s__instance tptp.s__GreekLanguage tptp.s__SpokenHumanLanguage) (tptp.s__instance tptp.s__GreekLanguage tptp.s__NaturalLanguage) (tptp.s__documentation tptp.s__GreekLanguage tptp.s__EnglishLanguage |tptp.'An Indo-European language that is spoken in &%Greece.'|) (tptp.s__instance tptp.s__LatinLanguage tptp.s__SpokenHumanLanguage) (tptp.s__instance tptp.s__LatinLanguage tptp.s__NaturalLanguage) (tptp.s__documentation tptp.s__LatinLanguage tptp.s__EnglishLanguage |tptp.'A &%Language that was spoken in ancient &%Rome and is still the official language of the &%Vatican.'|) (tptp.s__instance tptp.s__RussianLanguage tptp.s__SpokenHumanLanguage) (tptp.s__instance tptp.s__RussianLanguage tptp.s__NaturalLanguage) (tptp.s__documentation tptp.s__RussianLanguage tptp.s__EnglishLanguage |tptp.'A Slavic language that is spoken in &%Russia.'|) (tptp.s__instance tptp.s__SpanishLanguage tptp.s__SpokenHumanLanguage) (tptp.s__instance tptp.s__SpanishLanguage tptp.s__NaturalLanguage) (tptp.s__documentation tptp.s__SpanishLanguage tptp.s__EnglishLanguage |tptp.'A &%Romance language that is the official language of Spain, Mexico, and many Central and South American countries.'|) (forall ((V__H $$unsorted)) (=> (tptp.s__instance V__H tptp.s__Agent) (= (tptp.s__attribute V__H tptp.s__LiteracyAttribute) (and (tptp.s__hasSkill tptp.s__Reading V__H) (tptp.s__hasSkill tptp.s__Writing V__H))))) (tptp.s__subclass tptp.s__LiteracyAttribute tptp.s__TraitAttribute) (tptp.s__instance tptp.s__LiteracyAttribute__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__LiteracyAttribute tptp.s__EnglishLanguage |tptp.'If an individual has the &%attribute &%LiteracyAttribute, that individual is able to read and write.'|) (tptp.s__subclass tptp.s__Industry tptp.s__Collection) (tptp.s__instance tptp.s__Industry__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Industry tptp.s__EnglishLanguage |tptp.'The class of &%Collections of &%Corporations which are in the same line of business.'|) (forall ((V__MEMB2 $$unsorted) (V__MEMB1 $$unsorted) (V__INDUSTRY $$unsorted)) (=> (and (tptp.s__instance V__INDUSTRY tptp.s__Collection) (tptp.s__instance V__MEMB1 tptp.s__SelfConnectedObject) (tptp.s__instance V__MEMB2 tptp.s__SelfConnectedObject)) (=> (tptp.s__instance V__INDUSTRY tptp.s__Industry) (=> (and (tptp.s__member V__MEMB1 V__INDUSTRY) (tptp.s__member V__MEMB2 V__INDUSTRY)) (exists ((V__CLASS $$unsorted)) (and (tptp.s__instance V__CLASS tptp.s__SetOrClass) (tptp.s__subclass V__CLASS tptp.s__Corporation) (tptp.s__immediateInstance V__MEMB1 V__CLASS) (tptp.s__immediateInstance V__MEMB2 V__CLASS))))))) (tptp.s__subclass tptp.s__Chimney tptp.s__StationaryArtifact) (tptp.s__subclass tptp.s__Chimney tptp.s__Device) (tptp.s__instance tptp.s__Chimney__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Chimney tptp.s__EnglishLanguage |tptp.'A thin passageway through which &%Smoke from a controlled fire is conducted &%Outside of a &%Building or &%Room.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Object) (=> (tptp.s__instance V__C tptp.s__Chimney) (tptp.s__hasPurpose V__C |tptp.'(? [V__S,V__R] : (s__instance(V__R,s__Process) & s__instance(V__S,s__Smoke) & s__instance(V__R,s__Removing) & s__instrument(V__R,V__C)))'|)))) (tptp.s__subclass tptp.s__Curb tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__Curb__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Curb tptp.s__EnglishLanguage |tptp.'A raised concrete or asphalt structure that connects a &%Sidewalk with a &%Roadway.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__SelfConnectedObject) (=> (tptp.s__instance V__C tptp.s__Curb) (exists ((V__S $$unsorted) (V__R $$unsorted)) (and (tptp.s__instance V__R tptp.s__SelfConnectedObject) (tptp.s__instance V__S tptp.s__SelfConnectedObject) (tptp.s__instance V__S tptp.s__Sidewalk) (tptp.s__instance V__R tptp.s__Roadway) (tptp.s__connects V__C V__S V__R)))))) (tptp.s__instance tptp.s__Paved tptp.s__Attribute) (tptp.s__instance tptp.s__Unpaved tptp.s__Attribute) (tptp.s__subclass tptp.s__Stairway tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__Stairway__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Stairway tptp.s__EnglishLanguage |tptp.'A &%StationaryArtifact which allows one to climb, step by step, from one level to another.'|) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Object) (=> (tptp.s__instance V__S tptp.s__Stairway) (and (tptp.s__capability tptp.s__MotionUpward tptp.s__instrument__m V__S) (tptp.s__capability tptp.s__MotionDownward tptp.s__instrument__m V__S))))) (forall ((V__B $$unsorted) (V__S $$unsorted)) (=> (and (tptp.s__instance V__S tptp.s__SelfConnectedObject) (tptp.s__instance V__B tptp.s__Object)) (=> (and (tptp.s__instance V__S tptp.s__Stairway) (tptp.s__part V__S V__B) (tptp.s__instance V__B tptp.s__Building)) (tptp.s__hasPurpose V__S |tptp.'(? [V__L1,V__L2] : (s__instance(V__L2,s__SelfConnectedObject) & s__instance(V__L1,s__SelfConnectedObject) & s__instance(V__L1,s__BuildingLevel) & s__instance(V__L2,s__BuildingLevel) & s__part(V__L1,V__B) & s__part(V__L2,V__B) & s__connects(V__S,V__L1,V__L2)))'|)))) (tptp.s__subclass tptp.s__Steps tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__Steps__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Steps tptp.s__EnglishLanguage |tptp.'A &%StationaryArtifact which allows one to climb, step by step, from one level to another.'|) (forall ((V__STEPS $$unsorted)) (=> (tptp.s__instance V__STEPS tptp.s__Object) (=> (tptp.s__instance V__STEPS tptp.s__Steps) (and (tptp.s__capability tptp.s__MotionUpward tptp.s__instrument__m V__STEPS) (tptp.s__capability tptp.s__MotionDownward tptp.s__instrument__m V__STEPS))))) (forall ((V__BUILDING $$unsorted) (V__LEVEL1 $$unsorted) (V__LEVEL2 $$unsorted)) (=> (and (tptp.s__instance V__LEVEL2 tptp.s__SelfConnectedObject) (tptp.s__instance V__LEVEL1 tptp.s__SelfConnectedObject) (tptp.s__instance V__BUILDING tptp.s__Object)) (=> (and (tptp.s__instance V__LEVEL1 tptp.s__BuildingLevel) (tptp.s__instance V__LEVEL2 tptp.s__BuildingLevel) (tptp.s__instance V__BUILDING tptp.s__Building) (tptp.s__part V__LEVEL1 V__BUILDING) (tptp.s__part V__LEVEL2 V__BUILDING)) (exists ((V__STEPS $$unsorted)) (and (tptp.s__instance V__STEPS tptp.s__SelfConnectedObject) (tptp.s__instance V__STEPS tptp.s__Steps) (tptp.s__connects V__STEPS V__LEVEL1 V__LEVEL2)))))) (tptp.s__subclass tptp.s__Ladder tptp.s__Artifact) (tptp.s__instance tptp.s__Ladder__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Ladder tptp.s__EnglishLanguage |tptp.'An &%Artifact which consists of two parallel supports connected by a series of rungs which can be used to ascend or descend.'|) (forall ((V__LADDER $$unsorted)) (=> (tptp.s__instance V__LADDER tptp.s__Object) (=> (tptp.s__instance V__LADDER tptp.s__Ladder) (and (tptp.s__capability tptp.s__MotionUpward tptp.s__instrument__m V__LADDER) (tptp.s__capability tptp.s__MotionDownward tptp.s__instrument__m V__LADDER))))) (tptp.s__instance tptp.s__Transparent tptp.s__InternalAttribute) (tptp.s__documentation tptp.s__Transparent tptp.s__EnglishLanguage |tptp.'A Transparent material is one through which it is possible to have &%Seeing.'|) (forall ((V__O $$unsorted) (V__A $$unsorted) (V__D $$unsorted)) (=> (and (tptp.s__instance V__D tptp.s__Object) (tptp.s__instance V__A tptp.s__Agent) (tptp.s__instance V__O tptp.s__Object)) (=> (tptp.s__attribute V__O tptp.s__Transparent) (tptp.s__modalAttribute |tptp.'(? [V__S] : (s__instance(V__S,s__Process) & s__instance(V__S,s__Seeing) & s__agent(V__S,V__A) & s__destination(V__S,V__D) & s__between(V__O,V__A,V__D)))'| tptp.s__Possibility)))) (tptp.s__subclass tptp.s__Curtain tptp.s__WindowCovering) (tptp.s__subclass tptp.s__Curtain tptp.s__Fabric) (tptp.s__instance tptp.s__Curtain__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Curtain tptp.s__EnglishLanguage |tptp.'A piece of &%Fabric whose purpose is &%Covering a &%Window so as to keep out the light or prevent people from seeing inside.'|) (tptp.s__subclass tptp.s__Window tptp.s__Artifact) (tptp.s__documentation tptp.s__Window tptp.s__EnglishLanguage |tptp.'An &%Artifact composed of transparent material that admits light (and possibly air) into a &%Room, &%Building or &%Vehicle.'|) (forall ((V__W $$unsorted)) (=> (tptp.s__instance V__W tptp.s__Object) (=> (tptp.s__instance V__W tptp.s__Window) (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__Object) (tptp.s__part V__W V__A) (or (tptp.s__instance V__A tptp.s__Building) (tptp.s__instance V__A tptp.s__Room) (tptp.s__instance V__A tptp.s__Vehicle))))))) (forall ((V__W $$unsorted)) (=> (tptp.s__instance V__W tptp.s__Object) (=> (tptp.s__instance V__W tptp.s__Window) (tptp.s__attribute V__W tptp.s__Transparent)))) (tptp.s__subclass tptp.s__Skylight tptp.s__Window) (tptp.s__instance tptp.s__Skylight__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Skylight tptp.s__EnglishLanguage |tptp.'A &%Window that is part of the &%Ceiling of a &%Room.'|) (forall ((V__W $$unsorted)) (=> (tptp.s__instance V__W tptp.s__Object) (=> (tptp.s__instance V__W tptp.s__Skylight) (exists ((V__C $$unsorted)) (and (tptp.s__instance V__C tptp.s__Object) (tptp.s__instance V__C tptp.s__Ceiling) (tptp.s__part V__W V__C)))))) (tptp.s__subclass tptp.s__RearWindow tptp.s__VehicleWindow) (tptp.s__instance tptp.s__RearWindow__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__RearWindow tptp.s__EnglishLanguage |tptp.'Any &%VehicleWindow which is located at the back of an &%RoadVehicle.'|) (forall ((V__W $$unsorted)) (=> (tptp.s__instance V__W tptp.s__Object) (=> (tptp.s__instance V__W tptp.s__RearWindow) (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__SelfConnectedObject) (tptp.s__instance V__A tptp.s__RoadVehicle) (tptp.s__part V__W (tptp.s__BackFn V__A))))))) (tptp.s__subclass tptp.s__WindowCovering tptp.s__Artifact) (tptp.s__instance tptp.s__WindowCovering__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__WindowCovering tptp.s__EnglishLanguage |tptp.'An &%Artifact that is used to cover Windows. Note that this class includes blinds, drapes, shutters, etc.'|) (forall ((V__WC $$unsorted)) (=> (tptp.s__instance V__WC tptp.s__Object) (=> (tptp.s__instance V__WC tptp.s__WindowCovering) (tptp.s__hasPurpose V__WC |tptp.'(? [V__C,V__W] : (s__instance(V__C,s__Process) & s__instance(V__C,s__Covering) & s__patient(V__C,V__W) & s__instance(V__W,s__Window) & s__instrument(V__C,V__WC)))'|)))) (tptp.s__instance tptp.s__AdjoiningRoom tptp.s__RelationalAttribute) (tptp.s__documentation tptp.s__AdjoiningRoom tptp.s__EnglishLanguage |tptp.'&%AdjoiningRoom describes a &%Room that has another Room &%Adjacent to it, and a doorway existing on their common wall to allow access from one room to another'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__AdjoiningRoom |tptp.'adjoining room'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__attribute V__X tptp.s__AdjoiningRoom) (tptp.s__instance V__X tptp.s__Room)))) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__attribute V__X tptp.s__AdjoiningRoom) (exists ((V__ROOM $$unsorted) (V__WALL $$unsorted) (V__DOOR $$unsorted)) (and (tptp.s__instance V__DOOR tptp.s__Object) (tptp.s__instance V__WALL tptp.s__Object) (tptp.s__instance V__ROOM tptp.s__Object) (tptp.s__attribute V__ROOM tptp.s__AdjoiningRoom) (not (= V__ROOM V__X)) (tptp.s__orientation V__X V__ROOM tptp.s__Adjacent) (tptp.s__instance V__WALL tptp.s__Wall) (tptp.s__part V__WALL V__ROOM) (tptp.s__part V__WALL V__X) (tptp.s__instance V__DOOR tptp.s__Door) (tptp.s__part V__DOOR V__WALL)))))) (tptp.s__subclass tptp.s__TransitwayObstacle tptp.s__Object) (tptp.s__documentation tptp.s__TransitwayObstacle tptp.s__EnglishLanguage |tptp.'&%TransitwayObstacle is the general class of &%Objects that can act as obstacles to &%Motion along a &%Transitway.'|) (tptp.s__subclass tptp.s__Door tptp.s__TransitwayObstacle) (tptp.s__instance tptp.s__Door__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__TransitwayObstacle__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Door tptp.s__Device) (tptp.s__documentation tptp.s__Door tptp.s__EnglishLanguage |tptp.'An &%Artifact that restricts and permits access to a &%StationaryArtifact (e.g. &%Building or &%Room) depending on whether the &%Door is open or locked. Note that the class &%Door also covers gates, because it is not possible to define objective criteria that reliably distinguish doors from gates.'|) (forall ((V__DOOR $$unsorted)) (=> (tptp.s__instance V__DOOR tptp.s__Object) (=> (tptp.s__instance V__DOOR tptp.s__Door) (exists ((V__WAY $$unsorted)) (and (tptp.s__instance V__WAY tptp.s__Object) (tptp.s__part V__DOOR V__WAY) (tptp.s__instance V__WAY tptp.s__Doorway)))))) (tptp.s__subclass tptp.s__Hinge tptp.s__EngineeringComponent) (tptp.s__instance tptp.s__Hinge__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Hinge tptp.s__EnglishLanguage |tptp.'An &%EngineeringComponent that connects one thing to another in such a way that they can move relative to one another.'|) (forall ((V__HINGE $$unsorted)) (=> (tptp.s__instance V__HINGE tptp.s__SelfConnectedObject) (=> (tptp.s__instance V__HINGE tptp.s__Hinge) (tptp.s__hasPurpose V__HINGE |tptp.'(? [V__OBJ1,V__OBJ2] : (s__instance(V__OBJ2,s__SelfConnectedObject) & s__instance(V__OBJ1,s__SelfConnectedObject) & s__connects(V__HINGE,V__OBJ1,V__OBJ2) & (s__capability(s__Rotating,s__patient__m,V__OBJ1) _ s__capability(s__Rotating,s__patient__m,V__OBJ2))))'|)))) (tptp.s__subclass tptp.s__Doorway tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__Doorway__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Doorway tptp.s__EnglishLanguage |tptp.'A &%StationaryArtifact consisting of a frame that holds a &%Door.'|) (forall ((V__WAY $$unsorted)) (=> (tptp.s__instance V__WAY tptp.s__Object) (=> (tptp.s__instance V__WAY tptp.s__Doorway) (exists ((V__ARTIFACT $$unsorted)) (and (tptp.s__instance V__ARTIFACT tptp.s__Object) (tptp.s__part V__WAY V__ARTIFACT) (or (tptp.s__instance V__ARTIFACT tptp.s__Building) (tptp.s__instance V__ARTIFACT tptp.s__Room))))))) (forall ((V__DOOR $$unsorted)) (=> (tptp.s__instance V__DOOR tptp.s__Object) (=> (tptp.s__instance V__DOOR tptp.s__Door) (exists ((V__ARTIFACT $$unsorted)) (and (tptp.s__instance V__ARTIFACT tptp.s__Object) (tptp.s__part V__DOOR V__ARTIFACT) (or (tptp.s__instance V__ARTIFACT tptp.s__Building) (tptp.s__instance V__ARTIFACT tptp.s__Room))))))) (tptp.s__subclass tptp.s__Wall tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__Wall__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Wall tptp.s__EnglishLanguage |tptp.'A &%StationaryArtifact that supports a &%Building or partitions it into &%Rooms.'|) (forall ((V__WALL $$unsorted)) (=> (tptp.s__instance V__WALL tptp.s__Object) (=> (tptp.s__instance V__WALL tptp.s__Wall) (exists ((V__ARTIFACT $$unsorted)) (and (tptp.s__instance V__ARTIFACT tptp.s__Object) (tptp.s__part V__WALL V__ARTIFACT) (or (tptp.s__instance V__ARTIFACT tptp.s__Building) (tptp.s__instance V__ARTIFACT tptp.s__Room))))))) (tptp.s__subclass tptp.s__Floor tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__Floor__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Floor tptp.s__EnglishLanguage |tptp.'A &%StationaryArtifact that is the bottom surface of a &%Room.'|) (forall ((V__FLOOR $$unsorted)) (=> (tptp.s__instance V__FLOOR tptp.s__Object) (=> (tptp.s__instance V__FLOOR tptp.s__Floor) (exists ((V__ARTIFACT $$unsorted)) (and (tptp.s__instance V__ARTIFACT tptp.s__Object) (tptp.s__part V__FLOOR V__ARTIFACT) (tptp.s__instance V__ARTIFACT tptp.s__Room)))))) (tptp.s__subclass tptp.s__Ceiling tptp.s__StationaryArtifact) (tptp.s__documentation tptp.s__Ceiling tptp.s__EnglishLanguage |tptp.'A &%StationaryArtifact that is the top surface of a &%Room.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__SelfConnectedObject) (=> (tptp.s__instance V__C tptp.s__Ceiling) (exists ((V__R $$unsorted)) (and (tptp.s__instance V__R tptp.s__SelfConnectedObject) (tptp.s__top V__C V__R) (tptp.s__instance V__R tptp.s__Room)))))) (tptp.s__subclass tptp.s__Roof tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__Roof__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Roof tptp.s__EnglishLanguage |tptp.'The &%top of a &%Building.'|) (forall ((V__ROOF $$unsorted)) (=> (tptp.s__instance V__ROOF tptp.s__SelfConnectedObject) (=> (tptp.s__instance V__ROOF tptp.s__Roof) (exists ((V__BUILDING $$unsorted)) (and (tptp.s__instance V__BUILDING tptp.s__SelfConnectedObject) (tptp.s__instance V__BUILDING tptp.s__Building) (tptp.s__top V__ROOF V__BUILDING)))))) (tptp.s__subclass tptp.s__Fireplace tptp.s__StationaryArtifact) (tptp.s__subclass tptp.s__Fireplace tptp.s__Device) (tptp.s__instance tptp.s__Fireplace__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Fireplace tptp.s__EnglishLanguage |tptp.'A &%Device in a &%Building which is used for burning wood, coal, etc for heat.'|) (forall ((V__F $$unsorted)) (=> (tptp.s__instance V__F tptp.s__Object) (=> (tptp.s__instance V__F tptp.s__Fireplace) (tptp.s__hasPurpose V__F |tptp.'(? [V__C] : (s__instance(V__C,s__Process) & s__instance(V__C,s__Combustion) & s__eventLocated(V__C,V__F)))'|)))) (forall ((V__F $$unsorted)) (=> (tptp.s__instance V__F tptp.s__Object) (=> (tptp.s__instance V__F tptp.s__Fireplace) (exists ((V__C $$unsorted)) (and (tptp.s__instance V__C tptp.s__Object) (tptp.s__instance V__C tptp.s__Chimney) (tptp.s__connected V__F V__C)))))) (forall ((V__F $$unsorted)) (=> (tptp.s__instance V__F tptp.s__Object) (=> (tptp.s__instance V__F tptp.s__Fireplace) (exists ((V__B $$unsorted)) (and (tptp.s__instance V__B tptp.s__Object) (tptp.s__instance V__B tptp.s__Building) (tptp.s__part V__F V__B)))))) (tptp.s__subclass tptp.s__Balcony tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__Balcony__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Balcony tptp.s__EnglishLanguage |tptp.'A &%Balcony is a platform projecting from the wall of a building, surrounded by some type of railing'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Balcony tptp.balcony) (forall ((V__BALCONY $$unsorted)) (=> (tptp.s__instance V__BALCONY tptp.s__Object) (=> (tptp.s__instance V__BALCONY tptp.s__Balcony) (exists ((V__WALL $$unsorted) (V__LANDAREA $$unsorted)) (and (tptp.s__instance V__LANDAREA tptp.s__Object) (tptp.s__instance V__WALL tptp.s__Object) (tptp.s__meetsSpatially V__WALL V__BALCONY) (tptp.s__instance V__LANDAREA tptp.s__LandArea) (tptp.s__located V__WALL V__LANDAREA) (tptp.s__orientation V__BALCONY V__LANDAREA tptp.s__Above)))))) (tptp.s__subclass tptp.s__BuildingLevel tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__BuildingLevel__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__BuildingLevel tptp.s__EnglishLanguage |tptp.'The story or level of a building, e.g. the &%Basement, the &%Attic, the ground level, the fourteenth floor, etc.'|) (forall ((V__LEVEL $$unsorted)) (=> (tptp.s__instance V__LEVEL tptp.s__Object) (=> (tptp.s__instance V__LEVEL tptp.s__BuildingLevel) (exists ((V__BUILDING $$unsorted)) (and (tptp.s__instance V__BUILDING tptp.s__Object) (tptp.s__instance V__BUILDING tptp.s__Building) (tptp.s__part V__LEVEL V__BUILDING)))))) (tptp.s__subclass tptp.s__Basement tptp.s__BuildingLevel) (tptp.s__instance tptp.s__Basement__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Basement tptp.s__EnglishLanguage |tptp.'A &%BuildingLevel which satisfies two conditions, viz. it is lower than all of the other &%BuildingLevels in the same &%Building and it is below ground level.'|) (forall ((V__BASEMENT $$unsorted)) (=> (tptp.s__instance V__BASEMENT tptp.s__Object) (=> (tptp.s__instance V__BASEMENT tptp.s__Basement) (not (exists ((V__LEVEL $$unsorted) (V__BUILDING $$unsorted)) (and (tptp.s__instance V__BUILDING tptp.s__Object) (tptp.s__instance V__LEVEL tptp.s__Object) (tptp.s__instance V__LEVEL tptp.s__BuildingLevel) (tptp.s__instance V__BUILDING tptp.s__Building) (tptp.s__part V__LEVEL V__BUILDING) (tptp.s__part V__BASEMENT V__BUILDING) (not (= V__LEVEL V__BASEMENT)) (tptp.s__orientation V__LEVEL V__BASEMENT tptp.s__Below))))))) (tptp.s__subclass tptp.s__Elevator tptp.s__TransportationDevice) (tptp.s__instance tptp.s__Elevator__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Elevator tptp.s__EnglishLanguage |tptp.'A &%TransportationDevice consisting of a car that moves up and down in a vertical shaft so that people or objects can move from one floor to another in a building.'|) (forall ((V__E $$unsorted)) (=> (tptp.s__instance V__E tptp.s__Physical) (=> (tptp.s__instance V__E tptp.s__Elevator) (tptp.s__hasPurpose V__E |tptp.'(? [V__T,V__L1,V__L2,V__B] : (s__instance(V__B,s__Object) & s__instance(V__L2,s__Object) & s__instance(V__L1,s__Object) & s__instance(V__T,s__Process) & s__instance(V__T,s__Transportation) & s__origin(V__T,V__L1) & s__instance(V__L1,s__BuildingLevel) & s__destination(V__T,V__L2) & s__instance(V__L2,s__BuildingLevel) & (~ (V__L1 = V__L2)) & s__part(V__L1,V__B) & s__part(V__L2,V__B) & s__instance(V__B,s__Building)))'|)))) (forall ((V__E $$unsorted)) (=> (tptp.s__instance V__E tptp.s__Object) (=> (tptp.s__instance V__E tptp.s__Elevator) (and (tptp.s__capability tptp.s__MotionUpward tptp.s__instrument__m V__E) (tptp.s__capability tptp.s__MotionDownward tptp.s__instrument__m V__E))))) (tptp.s__subclass tptp.s__Pump tptp.s__TransportationDevice) (tptp.s__instance tptp.s__Pump__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Pump tptp.s__EnglishLanguage |tptp.'A &%Device that moves &%Fluids by means of pressure or suction.'|) (forall ((V__D $$unsorted) (V__T $$unsorted)) (=> (and (tptp.s__instance V__T tptp.s__Process) (tptp.s__instance V__D tptp.s__Object)) (=> (and (tptp.s__instance V__T tptp.s__Transportation) (tptp.s__instrument V__T V__D) (tptp.s__instance V__D tptp.s__Pump)) (exists ((V__F $$unsorted)) (and (tptp.s__instance V__F tptp.s__Object) (tptp.s__instrument V__T V__F) (tptp.s__attribute V__F tptp.s__Fluid)))))) (tptp.s__subclass tptp.s__Oar tptp.s__TransportationDevice) (tptp.s__instance tptp.s__Oar__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Oar tptp.s__EnglishLanguage |tptp.'A &%Device consisting of a flat, broad surface attached to a handle that is used as an instrument in &%Rowing.'|) (forall ((V__O $$unsorted)) (=> (tptp.s__instance V__O tptp.s__Object) (=> (tptp.s__instance V__O tptp.s__Oar) (tptp.s__hasPurpose V__O |tptp.'(? [V__R] : (s__instance(V__R,s__Process) & s__instance(V__R,s__Rowing) & s__instrument(V__R,V__O)))'|)))) (tptp.s__subclass tptp.s__Garage tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__Garage__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Garage tptp.s__EnglishLanguage |tptp.'A &%Building or part of a &%Building which is intended to house one or more &%RoadVehicle when they are not in use or are under repair.'|) (forall ((V__GARAGE $$unsorted) (V__Automobile $$unsorted)) (=> (and (tptp.s__instance V__Automobile tptp.s__Object) (tptp.s__instance V__GARAGE tptp.s__SelfConnectedObject)) (=> (tptp.s__instance V__GARAGE tptp.s__Garage) (tptp.s__hasPurpose V__GARAGE |tptp.'(? [V__AUTO] : (s__instance(V__AUTO,s__RoadVehicle) & s__contains(V__GARAGE,V__Automobile)))'|)))) (forall ((V__GARAGE $$unsorted)) (=> (tptp.s__instance V__GARAGE tptp.s__Object) (=> (tptp.s__instance V__GARAGE tptp.s__Garage) (exists ((V__BUILDING $$unsorted)) (and (tptp.s__instance V__BUILDING tptp.s__Object) (tptp.s__instance V__BUILDING tptp.s__Building) (tptp.s__part V__GARAGE V__BUILDING)))))) (tptp.s__subclass tptp.s__Bathroom tptp.s__Room) (tptp.s__instance tptp.s__Bathroom__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Bathroom tptp.s__EnglishLanguage |tptp.'A &%Room that contains a &%WashBasin and possibly a &%Toilet.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Object) (=> (tptp.s__instance V__B tptp.s__Bathroom) (exists ((V__W $$unsorted)) (and (tptp.s__instance V__W tptp.s__Physical) (tptp.s__instance V__W tptp.s__WashBasin) (tptp.s__located V__W V__B)))))) (tptp.s__subclass tptp.s__Closet tptp.s__Room) (tptp.s__instance tptp.s__Closet__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Closet tptp.s__EnglishLanguage |tptp.'A relatively small &%Room used for storage.'|) (forall ((V__R $$unsorted)) (=> (tptp.s__instance V__R tptp.s__Object) (=> (tptp.s__instance V__R tptp.s__Closet) (tptp.s__hasPurpose V__R |tptp.'(? [V__K,V__O] : (s__instance(V__O,s__Physical) & s__instance(V__K,s__Process) & s__instance(V__K,s__Keeping) & s__patient(V__K,V__O) & s__located(V__O,V__R)))'|)))) (tptp.s__subclass tptp.s__DressingRoom tptp.s__Room) (tptp.s__instance tptp.s__DressingRoom__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__DressingRoom tptp.s__EnglishLanguage |tptp.'Any &%Room which is intended for &%ChangingClothing.'|) (forall ((V__R $$unsorted)) (=> (tptp.s__instance V__R tptp.s__Object) (=> (tptp.s__instance V__R tptp.s__DressingRoom) (tptp.s__hasPurpose V__R |tptp.'(? [V__C] : (s__instance(V__C,s__Process) & s__instance(V__C,s__ChangingClothing) & s__eventLocated(V__C,V__R)))'|)))) (tptp.s__subclass tptp.s__SittingArea tptp.s__Region) (tptp.s__instance tptp.s__SittingArea__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SittingArea tptp.s__EnglishLanguage |tptp.'&%SittingArea refers to a &%Region, either &%Indoor (like a Living Room) or &%Outdoor (like a Garden sitting area) where people normally sit and entertain guests'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__SittingArea |tptp.'sitting area'|) (forall ((V__AREA $$unsorted)) (=> (tptp.s__instance V__AREA tptp.s__Object) (=> (tptp.s__instance V__AREA tptp.s__SittingArea) (exists ((V__SEAT $$unsorted)) (and (tptp.s__instance V__SEAT tptp.s__Physical) (tptp.s__instance V__SEAT tptp.s__Seat) (tptp.s__located V__SEAT V__AREA)))))) (tptp.s__subclass tptp.s__KitchenArea tptp.s__Region) (tptp.s__documentation tptp.s__KitchenArea tptp.s__EnglishLanguage |tptp.'a &%KitchenArea refers to a &%Region, either &%Outdoors or &%Indoors, that is intended for &%Cooking'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__KitchenArea |tptp.'kitchen area'|) (forall ((V__K $$unsorted)) (=> (tptp.s__instance V__K tptp.s__Object) (=> (tptp.s__instance V__K tptp.s__KitchenArea) (tptp.s__hasPurpose V__K |tptp.'(? [V__C] : (s__instance(V__C,s__Process) & s__instance(V__C,s__Cooking) & s__eventLocated(V__C,V__K)))'|)))) (tptp.s__subclass tptp.s__Kitchen tptp.s__Room) (tptp.s__subclass tptp.s__Kitchen tptp.s__KitchenArea) (tptp.s__instance tptp.s__Kitchen__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__KitchenArea__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Kitchen tptp.s__EnglishLanguage |tptp.'A &%Room intended for &%Cooking.'|) (forall ((V__ROOM $$unsorted)) (=> (tptp.s__instance V__ROOM tptp.s__Object) (=> (tptp.s__instance V__ROOM tptp.s__Kitchen) (tptp.s__hasPurpose V__ROOM |tptp.'(? [V__COOK] : (s__instance(V__COOK,s__Physical) & s__instance(V__COOK,s__Cooking) & s__located(V__COOK,V__ROOM)))'|)))) (tptp.s__subclass tptp.s__DiningArea tptp.s__Region) (tptp.s__instance tptp.s__DiningArea__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__DiningArea tptp.s__EnglishLanguage |tptp.'a &%DiningArea refers to a &%Region, either &%Outdoors or &%Indoors, that is intended for &%Eating'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__DiningArea |tptp.'dining area'|) (forall ((V__D $$unsorted)) (=> (tptp.s__instance V__D tptp.s__Object) (=> (tptp.s__instance V__D tptp.s__DiningArea) (tptp.s__hasPurpose V__D |tptp.'(? [V__E] : (s__instance(V__E,s__Process) & s__instance(V__E,s__Eating) & s__eventLocated(V__E,V__D)))'|)))) (tptp.s__subclass tptp.s__DiningRoom tptp.s__Room) (tptp.s__instance tptp.s__DiningRoom__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__DiningRoom tptp.s__DiningArea) (tptp.s__documentation tptp.s__DiningRoom tptp.s__EnglishLanguage |tptp.'A &%Room intended primarily for &%Eating.'|) (tptp.s__subclass tptp.s__Bedroom tptp.s__Room) (tptp.s__instance tptp.s__Bedroom__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Bedroom tptp.s__EnglishLanguage |tptp.'A &%Room intended primarily for sleeping.'|) (forall ((V__ROOM $$unsorted)) (=> (tptp.s__instance V__ROOM tptp.s__Object) (=> (tptp.s__instance V__ROOM tptp.s__Bedroom) (exists ((V__BED $$unsorted)) (and (tptp.s__instance V__BED tptp.s__Physical) (tptp.s__instance V__BED tptp.s__Bed) (tptp.s__located V__BED V__ROOM)))))) (tptp.s__subclass tptp.s__Classroom tptp.s__Room) (tptp.s__instance tptp.s__Classroom__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Classroom tptp.s__EnglishLanguage |tptp.'Any Room in a &%School where education takes place.'|) (forall ((V__R $$unsorted)) (=> (tptp.s__instance V__R tptp.s__Object) (=> (tptp.s__instance V__R tptp.s__Classroom) (exists ((V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__Object) (tptp.s__instance V__S tptp.s__School) (tptp.s__part V__R V__S)))))) (forall ((V__R $$unsorted)) (=> (tptp.s__instance V__R tptp.s__Object) (=> (tptp.s__instance V__R tptp.s__Classroom) (tptp.s__hasPurpose V__R |tptp.'(? [V__E] : (s__instance(V__E,s__Process) & s__instance(V__E,s__EducationalProcess) & s__eventLocated(V__E,V__R)))'|)))) (tptp.s__subclass tptp.s__Porch tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__Porch__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Porch tptp.s__EnglishLanguage |tptp.'A &%StationaryArtifact which is &%connected to a &%Building and which provides some shelter in entering or leaving the &%Building or in sitting outside.'|) (forall ((V__PORCH $$unsorted)) (=> (tptp.s__instance V__PORCH tptp.s__Object) (=> (tptp.s__instance V__PORCH tptp.s__Porch) (exists ((V__BUILDING $$unsorted)) (and (tptp.s__instance V__BUILDING tptp.s__Object) (tptp.s__instance V__BUILDING tptp.s__Building) (tptp.s__connected V__PORCH V__BUILDING)))))) (tptp.s__subclass tptp.s__Sidewalk tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__Sidewalk__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sidewalk tptp.s__EnglishLanguage |tptp.'A prepared path for pedestrians alongside a &%Roadway.'|) (forall ((V__SIDE $$unsorted)) (=> (tptp.s__instance V__SIDE tptp.s__Object) (=> (tptp.s__instance V__SIDE tptp.s__Sidewalk) (tptp.s__hasPurpose V__SIDE |tptp.'(? [V__WALK] : (s__instance(V__WALK,s__Motion) & s__instance(V__WALK,s__Walking) & s__path(V__WALK,V__SIDE)))'|)))) (forall ((V__SIDE $$unsorted)) (=> (tptp.s__instance V__SIDE tptp.s__Object) (=> (tptp.s__instance V__SIDE tptp.s__Sidewalk) (exists ((V__ROAD $$unsorted)) (and (tptp.s__instance V__ROAD tptp.s__Object) (tptp.s__instance V__ROAD tptp.s__Roadway) (tptp.s__orientation V__SIDE V__ROAD tptp.s__Near)))))) (tptp.s__subclass tptp.s__Fence tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__Fence__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Fence tptp.s__EnglishLanguage |tptp.'A &%StationaryArtifact that serves to demarcate or to prevent access to or from the area that the &%Fence surrounds.'|) (tptp.s__subclass tptp.s__SportsGround tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__SportsGround__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SportsGround tptp.s__EnglishLanguage |tptp.'A specially designated and maintained area where &%Sports are played.'|) (forall ((V__GROUND $$unsorted)) (=> (tptp.s__instance V__GROUND tptp.s__Object) (=> (tptp.s__instance V__GROUND tptp.s__SportsGround) (tptp.s__hasPurpose V__GROUND |tptp.'(? [V__SPORT] : (s__instance(V__SPORT,s__Process) & s__instance(V__SPORT,s__Sport) & s__eventLocated(V__SPORT,V__GROUND)))'|)))) (tptp.s__subclass tptp.s__IndustrialPlant tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__IndustrialPlant__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__IndustrialPlant tptp.s__EnglishLanguage |tptp.'A &%Building or part of a &%Building or group of &%Buildings whose purpose is to &%Manufacture something.'|) (forall ((V__PLANT $$unsorted)) (=> (tptp.s__instance V__PLANT tptp.s__Object) (=> (tptp.s__instance V__PLANT tptp.s__IndustrialPlant) (or (tptp.s__instance V__PLANT tptp.s__Building) (exists ((V__BUILDING $$unsorted)) (and (tptp.s__instance V__BUILDING tptp.s__Physical) (tptp.s__instance V__BUILDING tptp.s__Building) (tptp.s__located V__BUILDING V__PLANT))))))) (forall ((V__PLANT $$unsorted)) (=> (tptp.s__instance V__PLANT tptp.s__Object) (=> (tptp.s__instance V__PLANT tptp.s__IndustrialPlant) (tptp.s__hasPurpose V__PLANT |tptp.'(? [V__MANUFACTURE] : (s__instance(V__MANUFACTURE,s__Process) & s__instance(V__MANUFACTURE,s__Manufacture) & s__eventLocated(V__MANUFACTURE,V__PLANT)))'|)))) (tptp.s__subclass tptp.s__Laboratory tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__Laboratory__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Laboratory tptp.s__EnglishLanguage |tptp.'A &%Building, &%Room or suite of &%Rooms where scientific research, i.e. &%Experimenting, is conducted.'|) (forall ((V__LAB $$unsorted)) (=> (tptp.s__instance V__LAB tptp.s__Object) (=> (tptp.s__instance V__LAB tptp.s__Laboratory) (exists ((V__EXPERIMENT $$unsorted)) (and (tptp.s__instance V__EXPERIMENT tptp.s__Process) (tptp.s__instance V__EXPERIMENT tptp.s__Experimenting) (tptp.s__eventLocated V__EXPERIMENT V__LAB)))))) (tptp.s__documentation tptp.s__experimentalControl__m tptp.s__EnglishLanguage |tptp.'(experimentalControl ?EXPERIMENT ?OBJ) means that the Object ?OBJ serves as a control in the instance of &%Experimenting ?EXPERIMENT, i.e. ?OBJ is the standard against which something else in the experiment can be compared.'|) (tptp.s__instance tptp.s__experimentalControl__m tptp.s__CaseRole) (tptp.s__domain tptp.s__experimentalControl__m |"1"| tptp.s__Experimenting) (tptp.s__domain tptp.s__experimentalControl__m |"2"| tptp.s__Object) (tptp.s__subrelation tptp.s__experimentalControl__m tptp.s__patient__m) (tptp.s__subclass tptp.s__MilitaryInstallation tptp.s__StationaryArtifact) (tptp.s__subclass tptp.s__MilitaryInstallation tptp.s__MilitaryArtifact) (tptp.s__documentation tptp.s__MilitaryInstallation tptp.s__EnglishLanguage |tptp.'A &%StationaryArtifact consisting of grounds and &%Buildings that is intended to be used by a &%MilitaryOrganization.'|) (tptp.s__subclass tptp.s__Farm tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__Farm__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Farm tptp.s__EnglishLanguage |tptp.'A &%StationaryArtifact consisting of a cultivated &%LandArea and &%Buildings for maintaining the land and/or the &%Animals on the land.'|) (tptp.s__subclass tptp.s__Barn tptp.s__Building) (tptp.s__instance tptp.s__Barn__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__Barn tptp.s__ResidentialBuilding) (tptp.s__documentation tptp.s__Barn tptp.s__EnglishLanguage |tptp.'A &%Building on a &%Farm that is used for keeping &%DomesticAnimals, &%Fodder or harvested crops.'|) (forall ((V__BARN $$unsorted)) (=> (tptp.s__instance V__BARN tptp.s__Physical) (=> (tptp.s__instance V__BARN tptp.s__Barn) (exists ((V__FARM $$unsorted)) (and (tptp.s__instance V__FARM tptp.s__Object) (tptp.s__instance V__FARM tptp.s__Farm) (tptp.s__located V__BARN V__FARM)))))) (tptp.s__subclass tptp.s__PerformanceStage tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__PerformanceStage__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PerformanceStage tptp.s__EnglishLanguage |tptp.'A large platform for theatrical plays, lectures, dances, music recitals, etc, which can be observed by an audience.'|) (forall ((V__STAGE $$unsorted)) (=> (tptp.s__instance V__STAGE tptp.s__Object) (=> (tptp.s__instance V__STAGE tptp.s__PerformanceStage) (tptp.s__hasPurpose V__STAGE |tptp.'(? [V__PERF] : (s__instance(V__PERF,s__Process) & s__instance(V__PERF,s__Demonstrating) & s__eventLocated(V__PERF,V__STAGE)))'|)))) (forall ((V__STAGE $$unsorted)) (=> (tptp.s__instance V__STAGE tptp.s__Object) (=> (tptp.s__instance V__STAGE tptp.s__PerformanceStage) (exists ((V__AUDITORIUM $$unsorted)) (and (tptp.s__instance V__AUDITORIUM tptp.s__Object) (tptp.s__instance V__AUDITORIUM tptp.s__Auditorium) (tptp.s__part V__STAGE V__AUDITORIUM)))))) (tptp.s__subclass tptp.s__PerformanceStageWing tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__PerformanceStageWing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PerformanceStageWing tptp.s__EnglishLanguage |tptp.'A part of the &%PerformanceStage that is not visible to members of the audience.'|) (forall ((V__W $$unsorted)) (=> (tptp.s__instance V__W tptp.s__Object) (=> (tptp.s__instance V__W tptp.s__PerformanceStageWing) (exists ((V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__Object) (tptp.s__instance V__S tptp.s__PerformanceStage) (tptp.s__part V__W V__S)))))) (tptp.s__subclass tptp.s__Magnetism tptp.s__RadiatingElectromagnetic) (tptp.s__instance tptp.s__Magnetism__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Magnetism tptp.s__EnglishLanguage |tptp.'Any instance of &%RadiatingElectromagnetic which involves the attraction of &%Iron.'|) (tptp.s__subclass tptp.s__RadioEmission tptp.s__RadiatingElectromagnetic) (tptp.s__documentation tptp.s__RadioEmission tptp.s__EnglishLanguage |tptp.'Any instance of &%RadiatingElectromagnetic where the waves have a wavelength between 5 milimeters and 30,000 meters.'|) (tptp.s__subclass tptp.s__Broadcasting tptp.s__Disseminating) (tptp.s__subclass tptp.s__Broadcasting tptp.s__RadioEmission) (tptp.s__instance tptp.s__Broadcasting__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__RadioEmission__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Broadcasting tptp.s__EnglishLanguage |tptp.'&%Disseminating information by using a &%CommunicationDevice that radiates &%RadioEmissions.'|) (forall ((V__BROADCAST $$unsorted)) (=> (tptp.s__instance V__BROADCAST tptp.s__Process) (=> (tptp.s__instance V__BROADCAST tptp.s__Broadcasting) (exists ((V__DEVICE $$unsorted)) (and (tptp.s__instance V__DEVICE tptp.s__Object) (tptp.s__instance V__DEVICE tptp.s__CommunicationDevice) (tptp.s__instrument V__BROADCAST V__DEVICE)))))) (tptp.s__subclass tptp.s__RadioBroadcasting tptp.s__Broadcasting) (tptp.s__instance tptp.s__RadioBroadcasting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__RadioBroadcasting tptp.s__EnglishLanguage |tptp.'Any instance of &%Broadcasting which is intended to be received by a &%RadioReceiver.'|) (forall ((V__RADIO $$unsorted)) (=> (tptp.s__instance V__RADIO tptp.s__Object) (=> (tptp.s__instance V__RADIO tptp.s__RadioReceiver) (tptp.s__capability tptp.s__RadioBroadcasting tptp.s__patient__m V__RADIO)))) (tptp.s__subclass tptp.s__TelevisionBroadcasting tptp.s__Broadcasting) (tptp.s__instance tptp.s__TelevisionBroadcasting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TelevisionBroadcasting tptp.s__EnglishLanguage |tptp.'Any instance of &%Broadcasting which is intended to be received by a &%Television.'|) (tptp.s__subclass tptp.s__PeriodicalPublisher tptp.s__Publisher) (tptp.s__instance tptp.s__PeriodicalPublisher__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PeriodicalPublisher tptp.s__EnglishLanguage |tptp.'Any &%Publisher that publishes &%Periodicals, e.g. newspaper and magazine publishing houses.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Agent) (=> (tptp.s__instance V__C tptp.s__PeriodicalPublisher) (exists ((V__PUBLISH $$unsorted) (V__PERIODICAL $$unsorted)) (and (tptp.s__instance V__PUBLISH tptp.s__Process) (tptp.s__instance V__PUBLISH tptp.s__Publication) (tptp.s__agent V__PUBLISH V__C) (tptp.s__patient V__PUBLISH V__PERIODICAL) (tptp.s__instance V__PERIODICAL tptp.s__Periodical)))))) (tptp.s__subclass tptp.s__Antenna tptp.s__CommunicationDevice) (tptp.s__instance tptp.s__Antenna__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__CommunicationDevice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Antenna tptp.s__EnglishLanguage |tptp.'A &%CommunicationDevice which enables or improves the reception of &%RadioEmissions by another &%CommunicationDevice (the radio or television receiver).'|) (forall ((V__ANTENNA $$unsorted)) (=> (tptp.s__instance V__ANTENNA tptp.s__Object) (=> (tptp.s__instance V__ANTENNA tptp.s__Antenna) (tptp.s__capability tptp.s__RadioEmission tptp.s__instrument__m V__ANTENNA)))) (tptp.s__subclass tptp.s__Explosion tptp.s__Radiating) (tptp.s__instance tptp.s__Explosion__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Explosion tptp.s__EnglishLanguage |tptp.'Any sudden and massive release of energy that is the product of a chemical reaction.'|) (forall ((V__EXPLOSION $$unsorted)) (=> (tptp.s__instance V__EXPLOSION tptp.s__Process) (=> (tptp.s__instance V__EXPLOSION tptp.s__Explosion) (exists ((V__PROC $$unsorted)) (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__PROC tptp.s__ChemicalProcess) (tptp.s__causes V__PROC V__EXPLOSION)))))) (forall ((V__EXPLOSION $$unsorted)) (=> (tptp.s__instance V__EXPLOSION tptp.s__Object) (=> (tptp.s__instance V__EXPLOSION tptp.s__Explosion) (tptp.s__capability tptp.s__Damaging tptp.s__instrument__m V__EXPLOSION)))) (tptp.s__subclass tptp.s__Performance tptp.s__Demonstrating) (tptp.s__documentation tptp.s__Performance tptp.s__EnglishLanguage |tptp.'A &%Demonstrating which includes &%DramaticActing and/or &%MakingMusic and which is intended to entertain the audience.'|) (forall ((V__PERFORMANCE $$unsorted)) (=> (tptp.s__instance V__PERFORMANCE tptp.s__Process) (=> (tptp.s__instance V__PERFORMANCE tptp.s__Performance) (exists ((V__SUB $$unsorted)) (and (tptp.s__instance V__SUB tptp.s__Process) (tptp.s__subProcess V__SUB V__PERFORMANCE) (or (tptp.s__instance V__SUB tptp.s__DramaticActing) (tptp.s__instance V__SUB tptp.s__MakingMusic))))))) (forall ((V__PERFORMANCE $$unsorted)) (=> (tptp.s__instance V__PERFORMANCE tptp.s__Process) (=> (tptp.s__instance V__PERFORMANCE tptp.s__Performance) (exists ((V__STAGE $$unsorted)) (and (tptp.s__instance V__STAGE tptp.s__Object) (tptp.s__instance V__STAGE tptp.s__PerformanceStage) (tptp.s__eventLocated V__PERFORMANCE V__STAGE)))))) (tptp.s__subclass tptp.s__PerformanceAct tptp.s__Performance) (tptp.s__instance tptp.s__PerformanceAct__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Performance__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PerformanceAct tptp.s__EnglishLanguage |tptp.'A discrete &%subProcess of a &%Performance, e.g. an act of a play, a movement of a performance of a symphony, etc.'|) (tptp.s__subclass tptp.s__Lecture tptp.s__Demonstrating) (tptp.s__instance tptp.s__Lecture__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Lecture tptp.s__Speaking) (tptp.s__documentation tptp.s__Lecture tptp.s__EnglishLanguage |tptp.'Any instance of &%Speaking which is done before an assembled audience.'|) (tptp.s__subclass tptp.s__Proclaiming tptp.s__Lecture) (tptp.s__instance tptp.s__Proclaiming__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Proclaiming tptp.s__Declaring) (tptp.s__documentation tptp.s__Proclaiming tptp.s__EnglishLanguage |tptp.'Any instance of &%Speaking before an assembled audience that effects an institutional change, e.g. a change in the laws of the government.'|) (tptp.s__subclass tptp.s__Commenting tptp.s__IntentionalProcess) (tptp.s__instance tptp.s__Commenting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Commenting tptp.s__EnglishLanguage |tptp.'Commenting is an &%IntentionalProcess where an &%Agent speaks about a &%Process it is &%Looking at.'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Commenting |tptp.'Commenting'|) (forall ((V__PROCESS $$unsorted) (V__COMMENTING $$unsorted)) (=> (tptp.s__instance V__COMMENTING tptp.s__Process) (=> (and (tptp.s__instance V__COMMENTING tptp.s__Commenting) (tptp.s__instance V__PROCESS tptp.s__Process) (tptp.s__patient V__COMMENTING V__PROCESS)) (exists ((V__AGENT $$unsorted) (V__SPEAKING $$unsorted) (V__LOOKING $$unsorted)) (and (tptp.s__instance V__LOOKING tptp.s__Process) (tptp.s__instance V__SPEAKING tptp.s__Process) (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__SPEAKING tptp.s__Speaking) (tptp.s__instance V__LOOKING tptp.s__Looking) (tptp.s__agent V__SPEAKING V__AGENT) (tptp.s__agent V__LOOKING V__AGENT) (tptp.s__patient V__LOOKING V__PROCESS) (tptp.s__refers V__SPEAKING V__PROCESS)))))) (tptp.s__instance tptp.s__commentator__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__commentator__m |"1"| tptp.s__Agent) (tptp.s__domain tptp.s__commentator__m |"2"| tptp.s__Process) (tptp.s__documentation tptp.s__commentator__m tptp.s__EnglishLanguage |tptp.'(commentator ?AGENT ?PROCESS) means that some &%Agent ?AGENT is &%Looking at some &%Process ?PROCESS and &%Speaking about it simultaneously.'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__commentator__m tptp.commentator) (forall ((V__PROCESS $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__PROCESS tptp.s__Process)) (=> (tptp.s__commentator V__AGENT V__PROCESS) (exists ((V__COMMENTING $$unsorted)) (and (tptp.s__instance V__COMMENTING tptp.s__Process) (tptp.s__instance V__COMMENTING tptp.s__Commenting) (tptp.s__agent V__COMMENTING V__AGENT) (tptp.s__patient V__COMMENTING V__PROCESS)))))) (tptp.s__subclass tptp.s__Reciting tptp.s__Speaking) (tptp.s__instance tptp.s__Reciting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Reciting tptp.s__EnglishLanguage |tptp.'Any instance of &%Speaking where what is uttered is contained within a &%Text.'|) (forall ((V__R $$unsorted)) (=> (tptp.s__instance V__R tptp.s__Process) (=> (tptp.s__instance V__R tptp.s__Reciting) (exists ((V__P $$unsorted) (V__T $$unsorted)) (and (tptp.s__instance V__T tptp.s__ContentBearingPhysical) (tptp.s__instance V__P tptp.s__Proposition) (tptp.s__realization V__R V__P) (tptp.s__containsInformation V__T V__P) (tptp.s__instance V__T tptp.s__Text)))))) (tptp.s__subclass tptp.s__MusicalPerformance tptp.s__Performance) (tptp.s__instance tptp.s__MusicalPerformance__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MusicalPerformance tptp.s__EnglishLanguage |tptp.'A &%Performance that consists exclusively of &%MakingMusic, e.g. an orchestra playing a symphony to an assembled audience.'|) (forall ((V__P $$unsorted) (V__M $$unsorted)) (=> (and (tptp.s__instance V__M tptp.s__Process) (tptp.s__instance V__P tptp.s__Process)) (=> (and (tptp.s__instance V__P tptp.s__MusicalPerformance) (tptp.s__subProcess V__M V__P)) (tptp.s__instance V__M tptp.s__MakingMusic)))) (tptp.s__subclass tptp.s__Sermon tptp.s__Lecture) (tptp.s__instance tptp.s__Sermon__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sermon tptp.s__EnglishLanguage |tptp.'A &%Lecture that is part of a &%ReligiousService.'|) (forall ((V__SERMON $$unsorted)) (=> (tptp.s__instance V__SERMON tptp.s__Process) (=> (tptp.s__instance V__SERMON tptp.s__Sermon) (exists ((V__SERVICE $$unsorted)) (and (tptp.s__instance V__SERVICE tptp.s__Process) (tptp.s__instance V__SERVICE tptp.s__ReligiousService) (tptp.s__subProcess V__SERMON V__SERVICE)))))) (tptp.s__subclass tptp.s__DramaticActing tptp.s__Pretending) (tptp.s__instance tptp.s__DramaticActing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__DramaticActing tptp.s__EnglishLanguage |tptp.'Playing a character in a &%Performance, &%MotionPicture, etc.'|) (tptp.s__subclass tptp.s__DramaticPerformance tptp.s__Performance) (tptp.s__instance tptp.s__DramaticPerformance__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__DramaticPerformance tptp.s__EnglishLanguage |tptp.'A &%Performance that consists exclusively of &%DramaticActing, e.g. a live performance of Death_of_a_Salesman in front of an audience.'|) (forall ((V__P $$unsorted) (V__A $$unsorted)) (=> (and (tptp.s__instance V__A tptp.s__Process) (tptp.s__instance V__P tptp.s__Process)) (=> (and (tptp.s__instance V__P tptp.s__DramaticPerformance) (tptp.s__subProcess V__A V__P)) (tptp.s__instance V__A tptp.s__DramaticActing)))) (tptp.s__subclass tptp.s__DramaticCast tptp.s__GroupOfPeople) (tptp.s__instance tptp.s__DramaticCast__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__DramaticCast tptp.s__EnglishLanguage |tptp.'The &%GroupOfPeople who engage in &%DramaticActing as part of the realization of a single &%FictionalText.'|) (forall ((V__CAST $$unsorted)) (=> (tptp.s__instance V__CAST tptp.s__DramaticCast) (exists ((V__TEXT $$unsorted) (V__PROP $$unsorted) (V__PROC $$unsorted)) (and (tptp.s__instance V__TEXT tptp.s__FictionalText) (tptp.s__containsInformation V__TEXT V__PROP) (tptp.s__realization V__PROC V__PROP) (forall ((V__MEMBER $$unsorted)) (=> (and (tptp.s__instance V__MEMBER tptp.s__SelfConnectedObject) (tptp.s__instance V__MEMBER tptp.s__Agent) (tptp.s__instance V__CAST tptp.s__Collection)) (=> (tptp.s__member V__MEMBER V__CAST) (exists ((V__SUB $$unsorted)) (and (tptp.s__instance V__SUB tptp.s__Process) (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__PROP tptp.s__Proposition) (tptp.s__instance V__TEXT tptp.s__ContentBearingPhysical) (tptp.s__instance V__SUB tptp.s__DramaticActing) (tptp.s__agent V__SUB V__MEMBER) (tptp.s__subProcess V__SUB V__PROC)))))))))) (tptp.s__subclass tptp.s__SocialParty tptp.s__Meeting) (tptp.s__instance tptp.s__SocialParty__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__SocialParty tptp.s__RecreationOrExercise) (tptp.s__documentation tptp.s__SocialParty tptp.s__EnglishLanguage |tptp.'Any &%Meeting where the intent is primarily to socialize and be entertained.'|) (tptp.s__subclass tptp.s__FormalMeeting tptp.s__Meeting) (tptp.s__disjoint tptp.s__FormalMeeting tptp.s__SocialParty) (tptp.s__documentation tptp.s__FormalMeeting tptp.s__EnglishLanguage |tptp.'Any &%Meeting which is the result of &%Planning and whose purpose is not socializing.'|) (forall ((V__MEETING $$unsorted)) (=> (tptp.s__instance V__MEETING tptp.s__Physical) (=> (tptp.s__instance V__MEETING tptp.s__FormalMeeting) (exists ((V__PLANNING $$unsorted)) (and (tptp.s__instance V__PLANNING tptp.s__Process) (tptp.s__instance V__PLANNING tptp.s__Planning) (tptp.s__result V__PLANNING V__MEETING) (tptp.s__earlier (tptp.s__WhenFn V__PLANNING) (tptp.s__WhenFn V__MEETING))))))) (tptp.s__subclass tptp.s__Funeral tptp.s__Ceremony) (tptp.s__instance tptp.s__Funeral__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Ceremony__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Funeral tptp.s__FormalMeeting) (tptp.s__documentation tptp.s__Funeral tptp.s__EnglishLanguage |tptp.'A &%FormalMeeting whose purpose is to commemorate the &%Death of someone.'|) (forall ((V__F $$unsorted)) (=> (tptp.s__instance V__F tptp.s__Funeral) (exists ((V__D $$unsorted)) (and (tptp.s__instance V__D tptp.s__Death) (tptp.s__refers V__F V__D))))) (tptp.s__subclass tptp.s__Interviewing tptp.s__FormalMeeting) (tptp.s__instance tptp.s__Interviewing__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__FormalMeeting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Interviewing tptp.s__EnglishLanguage |tptp.'A &%FormalMeeting whose purpose is to acquire information from the interviewee that can be used in a media report.'|) (tptp.s__subclass tptp.s__Choreographing tptp.s__Planning) (tptp.s__instance tptp.s__Choreographing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Choreographing tptp.s__EnglishLanguage |tptp.'&%Planning that results in a sequence of dance steps that are executed as part of a &%Performance.'|) (forall ((V__P $$unsorted) (V__D $$unsorted) (V__G $$unsorted)) (=> (and (tptp.s__instance V__G tptp.s__Process) (tptp.s__instance V__D tptp.s__Process) (tptp.s__instance V__P tptp.s__Proposition)) (=> (and (tptp.s__instance V__G tptp.s__Choreographing) (tptp.s__result V__G V__P) (tptp.s__realization V__D V__P)) (tptp.s__instance V__D tptp.s__Dancing)))) (tptp.s__subclass tptp.s__Resolution tptp.s__Deciding) (tptp.s__instance tptp.s__Resolution__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Resolution tptp.s__EnglishLanguage |tptp.'Any instance of &%Deciding which is conducted at a &%FormalMeeting and where the &%agent is an &%Organization.'|) (forall ((V__RESOLUTION $$unsorted)) (=> (tptp.s__instance V__RESOLUTION tptp.s__Process) (=> (tptp.s__instance V__RESOLUTION tptp.s__Resolution) (exists ((V__AGENT $$unsorted) (V__MEETING $$unsorted)) (and (tptp.s__instance V__MEETING tptp.s__Process) (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__AGENT tptp.s__Organization) (tptp.s__agent V__RESOLUTION V__AGENT) (tptp.s__subProcess V__RESOLUTION V__MEETING) (tptp.s__instance V__MEETING tptp.s__FormalMeeting)))))) (tptp.s__subclass tptp.s__Smoking tptp.s__RecreationOrExercise) (tptp.s__instance tptp.s__Smoking__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Smoking tptp.s__EnglishLanguage |tptp.'Inhaling and exhaling &%Smoke produced by a &%CigarOrCigarette.'|) (forall ((V__SMOKING $$unsorted)) (=> (tptp.s__instance V__SMOKING tptp.s__Process) (=> (tptp.s__instance V__SMOKING tptp.s__Smoking) (exists ((V__BURN $$unsorted) (V__CIGAR $$unsorted) (V__BREATHE $$unsorted) (V__SMOKE $$unsorted)) (and (tptp.s__instance V__BREATHE tptp.s__Process) (tptp.s__instance V__CIGAR tptp.s__Object) (tptp.s__instance V__BURN tptp.s__Process) (tptp.s__subProcess V__BURN V__SMOKING) (tptp.s__instance V__BURN tptp.s__Combustion) (tptp.s__resource V__BURN V__CIGAR) (tptp.s__instance V__CIGAR tptp.s__CigarOrCigarette) (tptp.s__result V__BURN V__SMOKE) (tptp.s__patient V__BREATHE V__SMOKE) (tptp.s__instance V__BREATHE tptp.s__Breathing) (tptp.s__subProcess V__BREATHE V__SMOKING)))))) (tptp.s__subclass tptp.s__Jury tptp.s__GroupOfPeople) (tptp.s__instance tptp.s__Jury__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Jury tptp.s__EnglishLanguage |tptp.'A &%GroupOfPeople who are given the duty of rendering a verdict with respect to a &%LegalAction.'|) (forall ((V__JURY $$unsorted)) (=> (tptp.s__instance V__JURY tptp.s__CognitiveAgent) (=> (tptp.s__instance V__JURY tptp.s__Jury) (tptp.s__holdsRight |tptp.'(? [V__DECISION] : (s__instance(V__DECISION,s__Process) & s__instance(V__DECISION,s__LegalDecision) & s__agent(V__DECISION,V__JURY)))'| V__JURY)))) (tptp.s__subclass tptp.s__CriminalGang tptp.s__GroupOfPeople) (tptp.s__instance tptp.s__CriminalGang__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__CriminalGang tptp.s__EnglishLanguage |tptp.'A &%GroupOfPeople which exists (partially or wholly) for the purpose of CriminalAction.'|) (forall ((V__G $$unsorted)) (=> (tptp.s__instance V__G tptp.s__Agent) (=> (tptp.s__instance V__G tptp.s__CriminalGang) (tptp.s__hasPurpose V__G |tptp.'(? [V__A] : (s__instance(V__A,s__Process) & s__instance(V__A,s__CriminalAction) & s__agent(V__A,V__G)))'|)))) (tptp.s__subclass tptp.s__LegalCharge tptp.s__LegalAction) (tptp.s__instance tptp.s__LegalCharge__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__LegalCharge tptp.s__EnglishLanguage |tptp.'Any &%LegalAction of which a &%Government is the &%agent.'|) (forall ((V__CHARGE $$unsorted)) (=> (tptp.s__instance V__CHARGE tptp.s__Process) (=> (tptp.s__instance V__CHARGE tptp.s__LegalCharge) (exists ((V__GOV $$unsorted)) (and (tptp.s__instance V__GOV tptp.s__Agent) (tptp.s__instance V__GOV tptp.s__Government) (tptp.s__agent V__CHARGE V__GOV)))))) (tptp.s__subclass tptp.s__LegalAppeal tptp.s__Requesting) (tptp.s__subclass tptp.s__LegalAppeal tptp.s__JudicialProcess) (tptp.s__instance tptp.s__LegalAppeal__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__LegalAppeal tptp.s__EnglishLanguage |tptp.'Asking that a higher court reconsider a &%LegalDecision of a lower court.'|) (tptp.s__subclass tptp.s__Pleading tptp.s__Stating) (tptp.s__instance tptp.s__Pleading__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Pleading tptp.s__EnglishLanguage |tptp.'&%Stating in a court of law a claim about whether or not one is guilty of the crime of which one has been accused.'|) (forall ((V__P $$unsorted)) (=> (tptp.s__instance V__P tptp.s__Process) (=> (tptp.s__instance V__P tptp.s__Pleading) (exists ((V__J $$unsorted)) (and (tptp.s__instance V__J tptp.s__Process) (tptp.s__instance V__J tptp.s__JudicialProcess) (tptp.s__subProcess V__P V__J)))))) (forall ((V__P $$unsorted)) (=> (tptp.s__instance V__P tptp.s__Pleading) (exists ((V__C $$unsorted)) (and (tptp.s__instance V__C tptp.s__CriminalAction) (tptp.s__refers V__P V__C))))) (tptp.s__instance tptp.s__describes__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__describes__m |"1"| tptp.s__Formula) (tptp.s__domain tptp.s__describes__m |"2"| tptp.s__Object) (tptp.s__documentation tptp.s__describes__m tptp.s__EnglishLanguage |tptp.'(describes ?FORMULA ?OBJECT) means that some &%Formula ?FORMULA, as said by some &%Agent, is a statement regarding some &%Object ?OBJECT'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__describes__m tptp.describes) (forall ((V__OBJECT $$unsorted) (V__FORMULA $$unsorted)) (=> (and (tptp.s__instance V__FORMULA tptp.s__Formula) (tptp.s__instance V__OBJECT tptp.s__Object)) (=> (tptp.s__describes V__FORMULA V__OBJECT) (exists ((V__STATING $$unsorted) (V__AGENT $$unsorted)) (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__STATING tptp.s__Process) (tptp.s__instance V__STATING tptp.s__Stating) (tptp.s__agent V__STATING V__AGENT) (tptp.s__patient V__STATING V__FORMULA) (tptp.s__refers V__STATING V__OBJECT)))))) (tptp.s__subclass tptp.s__Testifying tptp.s__Stating) (tptp.s__instance tptp.s__Testifying__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Testifying tptp.s__EnglishLanguage |tptp.'Giving testimony as part of a &%JudicialProcess.'|) (forall ((V__TESTIFY $$unsorted)) (=> (tptp.s__instance V__TESTIFY tptp.s__Process) (=> (tptp.s__instance V__TESTIFY tptp.s__Testifying) (exists ((V__PROC $$unsorted)) (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__PROC tptp.s__JudicialProcess) (tptp.s__subProcess V__TESTIFY V__PROC)))))) (tptp.s__subclass tptp.s__CourtRoom tptp.s__Room) (tptp.s__instance tptp.s__CourtRoom__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__CourtRoom tptp.s__EnglishLanguage |tptp.'Any &%Room whose purpose is to realize &%JudicialProcesses.'|) (forall ((V__PROCESS $$unsorted)) (=> (tptp.s__instance V__PROCESS tptp.s__Process) (=> (tptp.s__instance V__PROCESS tptp.s__JudicialProcess) (exists ((V__ROOM $$unsorted)) (and (tptp.s__instance V__ROOM tptp.s__Object) (tptp.s__instance V__ROOM tptp.s__CourtRoom) (tptp.s__eventLocated V__PROCESS V__ROOM)))))) (tptp.s__subclass tptp.s__LegalOpinion tptp.s__Argument) (tptp.s__instance tptp.s__LegalOpinion__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__LegalOpinion tptp.s__EnglishLanguage |tptp.'An &%Argument that explains the reasoning behind a &%LegalDecision.'|) (forall ((V__OPINION $$unsorted)) (=> (tptp.s__instance V__OPINION tptp.s__Proposition) (=> (tptp.s__instance V__OPINION tptp.s__LegalOpinion) (exists ((V__DECISION $$unsorted) (V__TEXT $$unsorted) (V__PROPOSITION $$unsorted)) (and (tptp.s__instance V__PROPOSITION tptp.s__Argument) (tptp.s__instance V__TEXT tptp.s__ContentBearingPhysical) (tptp.s__instance V__DECISION tptp.s__Process) (tptp.s__instance V__DECISION tptp.s__LegalDecision) (tptp.s__result V__DECISION V__TEXT) (tptp.s__containsInformation V__TEXT V__PROPOSITION) (tptp.s__conclusion V__PROPOSITION V__OPINION)))))) (tptp.s__subclass tptp.s__LegalAward tptp.s__LegalDecision) (tptp.s__instance tptp.s__LegalAward__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__LegalAward tptp.s__EnglishLanguage |tptp.'Any &%LegalDecision which gives to the plaintiff of the corresponding &%LegalAction some amount of monetary compensation.'|) (forall ((V__ACTION $$unsorted) (V__PLAINTIFF $$unsorted) (V__AWARD $$unsorted)) (=> (and (tptp.s__instance V__PLAINTIFF tptp.s__CognitiveAgent) (tptp.s__instance V__ACTION tptp.s__Process)) (=> (and (tptp.s__instance V__AWARD tptp.s__LegalAward) (tptp.s__refers V__AWARD V__ACTION) (tptp.s__instance V__ACTION tptp.s__LegalAction) (tptp.s__agent V__ACTION V__PLAINTIFF)) (tptp.s__confersRight |tptp.'(? [V__GET,V__OBJ,V__VALUE] : (s__instance(V__VALUE,s__CurrencyMeasure) & s__instance(V__OBJ,s__Physical) & s__instance(V__GET,s__Process) & s__instance(V__GET,s__Getting) & s__experiencer(V__GET,V__PLAINTIFF) & s__patient(V__GET,V__OBJ) & s__monetaryValue(V__OBJ,V__VALUE)))'| V__AWARD V__PLAINTIFF)))) (tptp.s__subclass tptp.s__LegalConviction tptp.s__LegalDecision) (tptp.s__instance tptp.s__LegalConviction__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__LegalConviction tptp.s__EnglishLanguage |tptp.'Any &%LegalDecision where the defendant is found guilty of the crime for which the corresponding trial was held.'|) (tptp.s__subclass tptp.s__LegalDismissal tptp.s__LegalDecision) (tptp.s__instance tptp.s__LegalDismissal__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__LegalDismissal tptp.s__EnglishLanguage |tptp.'Any &%LegalDecision where the &%LegalAction of the plaintiff is dismissed by the court, e.g. for lack of merit.'|) (tptp.s__subclass tptp.s__LegalSummons tptp.s__Ordering) (tptp.s__subclass tptp.s__LegalSummons tptp.s__JudicialProcess) (tptp.s__instance tptp.s__LegalSummons__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__LegalSummons tptp.s__EnglishLanguage |tptp.'An official order that a person appear at a &%CourtRoom at a specified time.'|) (tptp.s__subclass tptp.s__LegalAquittal tptp.s__LegalDecision) (tptp.s__instance tptp.s__LegalAquittal__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__LegalAquittal tptp.s__EnglishLanguage |tptp.'Any &%LegalDecision where the defendant is found not to be guilty of the crime for which the corresponding trial was held.'|) (tptp.s__subclass tptp.s__Sentencing tptp.s__LegalDecision) (tptp.s__instance tptp.s__Sentencing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sentencing tptp.s__EnglishLanguage |tptp.'Any &%LegalDecision where the defendant is assigned a punishment for a &%CriminalAction which was the subject of an earlier &%LegalConviction.'|) (forall ((V__P $$unsorted) (V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Process) (=> (and (tptp.s__instance V__S tptp.s__Sentencing) (tptp.s__patient V__S V__P)) (exists ((V__C $$unsorted)) (and (tptp.s__instance V__C tptp.s__Process) (tptp.s__causes V__C V__S) (tptp.s__instance V__C tptp.s__LegalConviction) (tptp.s__patient V__C V__P) (tptp.s__earlier (tptp.s__WhenFn V__C) (tptp.s__WhenFn V__S))))))) (tptp.s__documentation tptp.s__defendant__m tptp.s__EnglishLanguage |tptp.'(defendant ?AGENT ?ACTION) means the &%LegalAction ?ACTION makes a legal claim against ?AGENT.'|) (tptp.s__domain tptp.s__defendant__m |"1"| tptp.s__CognitiveAgent) (tptp.s__domain tptp.s__defendant__m |"2"| tptp.s__LegalAction) (tptp.s__subrelation tptp.s__defendant__m tptp.s__patient__m) (tptp.s__documentation tptp.s__plaintiff__m tptp.s__EnglishLanguage |tptp.'(plaintiff ?ACTION ?AGENT) means that ?AGENT is responsible for initiating the &%LegalAction ?ACTION.'|) (tptp.s__domain tptp.s__plaintiff__m |"1"| tptp.s__LegalAction) (tptp.s__domain tptp.s__plaintiff__m |"2"| tptp.s__CognitiveAgent) (tptp.s__subrelation tptp.s__plaintiff__m tptp.s__agent__m) (tptp.s__subclass tptp.s__GameCall tptp.s__Deciding) (tptp.s__instance tptp.s__GameCall__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__GameCall tptp.s__Declaring) (tptp.s__documentation tptp.s__GameCall tptp.s__EnglishLanguage |tptp.'A decision issued by an official referee in a &%Game. Note that &%GameCall is a subclass of &%Declaring, because these decisions have binding, normative force.'|) (forall ((V__CALL $$unsorted)) (=> (tptp.s__instance V__CALL tptp.s__GameCall) (exists ((V__GAME $$unsorted)) (and (tptp.s__instance V__GAME tptp.s__Game) (tptp.s__refers V__CALL V__GAME))))) (tptp.s__subclass tptp.s__BeginningOperations tptp.s__OrganizationalProcess) (tptp.s__instance tptp.s__BeginningOperations__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__BeginningOperations tptp.s__CeasingOperations) (tptp.s__documentation tptp.s__BeginningOperations tptp.s__EnglishLanguage |tptp.'The process of an &%Organization commencing operations. In the case of a &%Corporation, this would be the process of going into business.'|) (forall ((V__OP $$unsorted) (V__ORG $$unsorted)) (=> (and (tptp.s__instance V__ORG tptp.s__Agent) (tptp.s__instance V__OP tptp.s__Process) (tptp.s__instance V__OP tptp.s__TimeInterval)) (=> (and (tptp.s__instance V__OP tptp.s__BeginningOperations) (tptp.s__instance V__ORG tptp.s__Organization) (tptp.s__agent V__OP V__ORG)) (tptp.s__starts V__OP (tptp.s__WhenFn V__ORG))))) (tptp.s__subclass tptp.s__OrganizationalMerging tptp.s__OrganizationalProcess) (tptp.s__instance tptp.s__OrganizationalMerging__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__OrganizationalMerging tptp.s__EnglishLanguage |tptp.'The process of two or more &%Organizations merging into a single &%Organization.'|) (forall ((V__ORG1 $$unsorted) (V__ORG2 $$unsorted) (V__M $$unsorted)) (let ((_let_1 (tptp.s__WhenFn V__M))) (=> (and (tptp.s__instance V__M tptp.s__Process) (tptp.s__instance V__ORG2 tptp.s__Organization) (tptp.s__instance V__ORG1 tptp.s__Organization)) (=> (and (tptp.s__instance V__M tptp.s__OrganizationalMerging) (tptp.s__patient V__M V__ORG1) (tptp.s__patient V__M V__ORG2) (not (= V__ORG1 V__ORG2))) (and (tptp.s__holdsDuring (tptp.s__BeginFn _let_1) |tptp.'(~ (? [V__S1] : (s__instance(V__S1,s__Organization) & s__subOrganization(V__ORG1,V__S1) & s__subOrganization(V__ORG2,V__S1))))'|) (tptp.s__holdsDuring (tptp.s__EndFn _let_1) |tptp.'(? [V__S2] : (s__instance(V__S2,s__Organization) & s__subOrganization(V__ORG1,V__S2) & s__subOrganization(V__ORG2,V__S2)))'|)))))) (tptp.s__subclass tptp.s__CeasingOperations tptp.s__OrganizationalProcess) (tptp.s__instance tptp.s__CeasingOperations__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__CeasingOperations tptp.s__EnglishLanguage |tptp.'The process of an &%Organization ceasing operations, i.e. its folding or going out of business in some other fashion.'|) (forall ((V__OP $$unsorted) (V__ORG $$unsorted)) (=> (and (tptp.s__instance V__ORG tptp.s__Agent) (tptp.s__instance V__OP tptp.s__Process) (tptp.s__instance V__OP tptp.s__TimeInterval)) (=> (and (tptp.s__instance V__OP tptp.s__CeasingOperations) (tptp.s__instance V__ORG tptp.s__Organization) (tptp.s__agent V__OP V__ORG)) (tptp.s__finishes V__OP (tptp.s__WhenFn V__ORG))))) (tptp.s__subclass tptp.s__BecomingDrunk tptp.s__PsychologicalProcess) (tptp.s__instance tptp.s__BecomingDrunk__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__BecomingDrunk tptp.s__SoberingUp) (tptp.s__documentation tptp.s__BecomingDrunk tptp.s__EnglishLanguage |tptp.'The process of transitioning from a state of being &%Sober to a state of being &%Drunk.'|) (tptp.s__instance tptp.s__Sober tptp.s__ConsciousnessAttribute) (tptp.s__documentation tptp.s__Sober tptp.s__EnglishLanguage |tptp.'The &%ConsciousnessAttribute of someone whose motor and cognitive faculties are not significantly impaired by a &%BiologicallyActiveSubstance.'|) (tptp.s__subclass tptp.s__SoberingUp tptp.s__PsychologicalProcess) (tptp.s__instance tptp.s__SoberingUp__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SoberingUp tptp.s__EnglishLanguage |tptp.'The process of transitioning from a state of being &%Drunk to a state of being &%Sober.'|) (tptp.s__subclass tptp.s__FallingAsleep tptp.s__PsychologicalProcess) (tptp.s__instance tptp.s__FallingAsleep__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__FallingAsleep tptp.s__WakingUp) (tptp.s__documentation tptp.s__FallingAsleep tptp.s__EnglishLanguage |tptp.'The process of transitioning from a state of being &%Awake to a state of being &%Asleep.'|) (tptp.s__subclass tptp.s__WakingUp tptp.s__PsychologicalProcess) (tptp.s__instance tptp.s__WakingUp__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__WakingUp tptp.s__EnglishLanguage |tptp.'The process of transitioning from a state of being &%Asleep to a state of being &%Awake.'|) (tptp.s__subclass tptp.s__GainingConsciousness tptp.s__PsychologicalProcess) (tptp.s__instance tptp.s__GainingConsciousness__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__GainingConsciousness tptp.s__EnglishLanguage |tptp.'The process of transitioning from a state of being &%Unconscious to a state of being &%Awake.'|) (tptp.s__subclass tptp.s__LosingConsciousness tptp.s__PsychologicalProcess) (tptp.s__instance tptp.s__LosingConsciousness__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__LosingConsciousness tptp.s__GainingConsciousness) (tptp.s__documentation tptp.s__LosingConsciousness tptp.s__EnglishLanguage |tptp.'The process of transitioning from a state of being &%Awake to a state of being &%Unconscious.'|) (tptp.s__instance tptp.s__issuedBy__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__issuedBy__m |"1"| tptp.s__Certificate) (tptp.s__domain tptp.s__issuedBy__m |"2"| tptp.s__CognitiveAgent) (tptp.s__documentation tptp.s__issuedBy__m tptp.s__EnglishLanguage |tptp.'(&%issuedBy ?Certificate ?Agent) means that a &%Certificate ?Certificate is produced and offered by ?Agent.'|) (forall ((V__CERT $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__CERT tptp.s__Certificate)) (=> (tptp.s__issuedBy V__CERT V__AGENT) (exists ((V__P $$unsorted)) (and (tptp.s__instance V__P tptp.s__Process) (tptp.s__instance V__P tptp.s__IntentionalProcess) (tptp.s__agent V__P V__AGENT) (tptp.s__result V__P V__CERT)))))) (tptp.s__subclass tptp.s__AcademicDegree tptp.s__Certificate) (tptp.s__instance tptp.s__AcademicDegree__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AcademicDegree tptp.s__EnglishLanguage |tptp.'A &%Certificate that demonstrates that the holder of the &%Certificate has successfully completed an &%EducationalProgram.'|) (forall ((V__DEGREE $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__DEGREE tptp.s__Object)) (=> (and (tptp.s__instance V__DEGREE tptp.s__AcademicDegree) (tptp.s__possesses V__AGENT V__DEGREE)) (exists ((V__PROGRAM $$unsorted) (V__STUDY $$unsorted)) (and (tptp.s__instance V__STUDY tptp.s__Process) (tptp.s__instance V__PROGRAM tptp.s__Proposition) (tptp.s__instance V__PROGRAM tptp.s__EducationalProgram) (tptp.s__realization V__STUDY V__PROGRAM) (tptp.s__experiencer V__STUDY V__AGENT)))))) (tptp.s__subclass tptp.s__License tptp.s__Certificate) (tptp.s__documentation tptp.s__License tptp.s__EnglishLanguage |tptp.'License is the subclass of &%Certificates that are granted by a &%GovernmentOrganization and that authorize the performance of a kind of action, e.g., driving, exporting, travelling to another country, etc.'|) (forall ((V__L $$unsorted)) (=> (tptp.s__instance V__L tptp.s__Certificate) (=> (tptp.s__instance V__L tptp.s__License) (exists ((V__ORG $$unsorted)) (and (tptp.s__instance V__ORG tptp.s__CognitiveAgent) (tptp.s__instance V__ORG tptp.s__GovernmentOrganization) (tptp.s__issuedBy V__L V__ORG)))))) (tptp.s__subclass tptp.s__Ticket tptp.s__Certificate) (tptp.s__instance tptp.s__Ticket__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Ticket tptp.s__EnglishLanguage |tptp.'A &%Certificate that allows the holder to perform a specified act once, e.g. ride a bus, attend a concert, obtain a prize, etc.'|) (forall ((V__TICKET $$unsorted) (V__CUST $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__CUST tptp.s__Agent) (tptp.s__instance V__TICKET tptp.s__Certificate)) (=> (and (tptp.s__issuedBy V__TICKET V__AGENT) (tptp.s__instance V__TICKET tptp.s__Ticket) (tptp.s__possesses V__CUST V__TICKET)) (tptp.s__confersNorm V__AGENT |tptp.'(? [V__T] : s__holdsDuring(V__T,(? [V__P] : (s__instance(V__T,s__TimePosition) & s__instance(V__P,s__Process) & s__agent(V__P,V__AGENT) & s__experiencer(V__P,V__CUST)))))'| tptp.s__Permission)))) (tptp.s__subclass tptp.s__Passport tptp.s__License) (tptp.s__instance tptp.s__Passport__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__License__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Passport tptp.s__EnglishLanguage |tptp.'A &%License which identifies the holder and permits travel between different countries.'|) (forall ((V__P $$unsorted) (V__A $$unsorted)) (=> (and (tptp.s__instance V__A tptp.s__Agent) (tptp.s__instance V__P tptp.s__Object)) (=> (and (tptp.s__instance V__P tptp.s__Passport) (tptp.s__possesses V__A V__P)) (tptp.s__confersNorm V__P |tptp.'(? [V__T,V__N1,V__N2] : (s__instance(V__N1,s__Object) & s__instance(V__T,s__Process) & s__instance(V__T,s__Translocation) & s__agent(V__T,V__A) & s__origin(V__T,V__N1) & s__destination(V__T,V__N2) & s__instance(V__N1,s__Nation) & s__instance(V__N2,s__Nation) & (~ (V__N1 = V__N2))))'| tptp.s__Permission)))) (tptp.s__subclass tptp.s__PassCertificate tptp.s__Certificate) (tptp.s__instance tptp.s__PassCertificate__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PassCertificate tptp.s__EnglishLanguage |tptp.'A &%Certificate that allows the holder to be at or away from a specified location, e.g. a pass for a leave of absence, a hall pass, a pass to enter a cleared facility, etc.'|) (tptp.s__subclass tptp.s__Testament tptp.s__Certificate) (tptp.s__instance tptp.s__Testament__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Testament tptp.s__EnglishLanguage |tptp.'A &%Certificate that describes how a persons property is to be distributed after the death of the person.'|) (forall ((V__T $$unsorted)) (=> (tptp.s__instance V__T tptp.s__Testament) (exists ((V__B $$unsorted)) (and (tptp.s__instance V__B tptp.s__Bequeathing) (tptp.s__refers V__T V__B))))) (tptp.s__documentation tptp.s__registeredItem__m tptp.s__EnglishLanguage |tptp.'(registeredItem ?DOCUMENT ?ITEM) means that the &%Text ?DOCUMENT contains an official record of the &%Physical thing ?ITEM. The registered item could be an object or an event, e.g., an automobile, a ship, a marriage, an adoption.'|) (tptp.s__instance tptp.s__registeredItem__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__registeredItem__m |"1"| tptp.s__Text) (tptp.s__domain tptp.s__registeredItem__m |"2"| tptp.s__Physical) (tptp.s__subrelation tptp.s__registeredItem__m tptp.s__refers__m) (tptp.s__subclass tptp.s__EducationalProgram tptp.s__Plan) (tptp.s__instance tptp.s__EducationalProgram__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__EducationalProgram tptp.s__EnglishLanguage |tptp.'A series of &%EducationalCourses that must be completed to receive an &%AcademicDegree or other &%Certificate. Note that an &%EducationalProgram, unlike an &%EducationalCourse, may be realized at more than one &%EducationalOrganization.'|) (forall ((V__PROGRAM $$unsorted)) (=> (tptp.s__instance V__PROGRAM tptp.s__Plan) (=> (tptp.s__instance V__PROGRAM tptp.s__EducationalProgram) (exists ((V__COURSE1 $$unsorted) (V__COURSE2 $$unsorted)) (and (tptp.s__instance V__COURSE2 tptp.s__Plan) (tptp.s__instance V__COURSE1 tptp.s__Plan) (tptp.s__instance V__COURSE1 tptp.s__EducationalCourse) (tptp.s__instance V__COURSE2 tptp.s__EducationalCourse) (not (= V__COURSE1 V__COURSE2)) (tptp.s__subPlan V__COURSE1 V__PROGRAM) (tptp.s__subPlan V__COURSE2 V__PROGRAM)))))) (tptp.s__subclass tptp.s__EducationalCourse tptp.s__EducationalProgram) (tptp.s__instance tptp.s__EducationalCourse__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__EducationalCourse tptp.s__EnglishLanguage |tptp.'A schedule of class meetings offered by an &%EducationalOrganization.'|) (forall ((V__COURSE $$unsorted)) (=> (tptp.s__instance V__COURSE tptp.s__Proposition) (=> (tptp.s__instance V__COURSE tptp.s__EducationalCourse) (exists ((V__CLASS $$unsorted) (V__ORG $$unsorted)) (and (tptp.s__instance V__ORG tptp.s__Object) (tptp.s__instance V__CLASS tptp.s__Process) (tptp.s__realization V__CLASS V__COURSE) (tptp.s__instance V__CLASS tptp.s__EducationalProcess) (tptp.s__eventLocated V__CLASS V__ORG) (tptp.s__instance V__ORG tptp.s__EducationalOrganization)))))) (tptp.s__subclass tptp.s__SportsPlay tptp.s__Plan) (tptp.s__instance tptp.s__SportsPlay__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SportsPlay tptp.s__EnglishLanguage |tptp.'A &%Plan for a &%Maneuver within a &%TeamSport.'|) (forall ((V__P $$unsorted) (V__SP $$unsorted)) (=> (and (tptp.s__instance V__SP tptp.s__Proposition) (tptp.s__instance V__P tptp.s__Process)) (=> (and (tptp.s__instance V__SP tptp.s__SportsPlay) (tptp.s__realization V__P V__SP)) (exists ((V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__Process) (tptp.s__instance V__S tptp.s__TeamSport) (tptp.s__instance V__P tptp.s__Maneuver) (tptp.s__subProcess V__P V__S)))))) (tptp.s__subclass tptp.s__School tptp.s__EducationalOrganization) (tptp.s__instance tptp.s__School__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__School tptp.s__EnglishLanguage |tptp.'An &%EducationalOrganization with a curriculum, teachers, and students. Most &%Schools are housed in a &%Building dedicated to the &%EducationalOrganization.'|) (tptp.s__subclass tptp.s__PublicSchool tptp.s__School) (tptp.s__instance tptp.s__PublicSchool__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__PublicSchool tptp.s__GovernmentOrganization) (tptp.s__documentation tptp.s__PublicSchool tptp.s__EnglishLanguage |tptp.'A &%School which is financed primarily by taxes.'|) (tptp.s__subclass tptp.s__PrivateSchool tptp.s__School) (tptp.s__instance tptp.s__PrivateSchool__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__PrivateSchool tptp.s__GovernmentOrganization) (tptp.s__documentation tptp.s__PrivateSchool tptp.s__EnglishLanguage |tptp.'A &%School which is not publicly owned.'|) (tptp.s__subclass tptp.s__HighSchool tptp.s__School) (tptp.s__instance tptp.s__HighSchool__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__HighSchool tptp.s__EnglishLanguage |tptp.'A &%School which admits &%students who have graduated from a middle school and which normally covers the ninth through twelfth grades. A &%HighSchool confers a high school diploma.'|) (forall ((V__STUDENT $$unsorted) (V__ENTER $$unsorted) (V__COLLEGE $$unsorted)) (=> (and (tptp.s__instance V__COLLEGE tptp.s__Agent) (tptp.s__instance V__ENTER tptp.s__Process)) (=> (and (tptp.s__instance V__ENTER tptp.s__Matriculation) (tptp.s__agent V__ENTER V__COLLEGE) (tptp.s__patient V__ENTER V__STUDENT) (tptp.s__instance V__COLLEGE tptp.s__College)) (exists ((V__GRAD $$unsorted) (V__SCHOOL $$unsorted)) (and (tptp.s__instance V__SCHOOL tptp.s__Agent) (tptp.s__instance V__GRAD tptp.s__Process) (tptp.s__instance V__GRAD tptp.s__Graduation) (tptp.s__agent V__GRAD V__SCHOOL) (tptp.s__patient V__GRAD V__STUDENT) (tptp.s__instance V__SCHOOL tptp.s__HighSchool) (tptp.s__earlier (tptp.s__WhenFn V__GRAD) (tptp.s__WhenFn V__ENTER))))))) (tptp.s__subclass tptp.s__SecondarySchool tptp.s__School) (tptp.s__instance tptp.s__SecondarySchool__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SecondarySchool tptp.s__EnglishLanguage |tptp.'A &%School which admits students who have graduated from a middle school and which normally covers the ninth through twelfth grades. A &%SecondarySchool confers a high school diploma.'|) (forall ((V__P $$unsorted) (V__C $$unsorted) (V__E $$unsorted)) (=> (and (tptp.s__instance V__E tptp.s__Process) (tptp.s__instance V__C tptp.s__Agent)) (=> (and (tptp.s__instance V__E tptp.s__Matriculation) (tptp.s__agent V__E V__C) (tptp.s__patient V__E V__P) (tptp.s__instance V__C tptp.s__College)) (exists ((V__G $$unsorted) (V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__Agent) (tptp.s__instance V__G tptp.s__Process) (tptp.s__instance V__G tptp.s__Graduation) (tptp.s__agent V__G V__S) (tptp.s__patient V__G V__P) (tptp.s__instance V__S tptp.s__SecondarySchool) (tptp.s__earlier (tptp.s__WhenFn V__G) (tptp.s__WhenFn V__E))))))) (tptp.s__subclass tptp.s__VocationalSchool tptp.s__School) (tptp.s__instance tptp.s__VocationalSchool__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__VocationalSchool tptp.s__EnglishLanguage |tptp.'Any &%School whose aim is to teach students an &%OccupationalTrade.'|) (forall ((V__VS $$unsorted)) (=> (tptp.s__instance V__VS tptp.s__EducationalOrganization) (=> (tptp.s__instance V__VS tptp.s__VocationalSchool) (tptp.s__hasPurpose V__VS |tptp.'(? [V__P,V__S,V__T] : (s__instance(V__T,s__Attribute) & s__instance(V__S,s__CognitiveAgent) & s__instance(V__P,s__Process) & s__instance(V__P,s__EducationalProcess) & s__eventLocated(V__P,V__VS) & s__student(V__S,V__VS) & s__experiencer(V__P,V__S) & s__instance(V__T,s__OccupationalTrade) & s__holdsDuring(s__EndFn(s__WhenFn(V__P)),s__attribute(V__S,V__T))))'|)))) (tptp.s__subclass tptp.s__PostSecondarySchool tptp.s__School) (tptp.s__instance tptp.s__PostSecondarySchool__t tptp.s__SetOrClass) (tptp.s__partition_4 tptp.s__PostSecondarySchool tptp.s__JuniorCollege tptp.s__College tptp.s__University) (tptp.s__documentation tptp.s__PostSecondarySchool tptp.s__EnglishLanguage |tptp.'The class of &%Schools that offer an associates degree or a bachelors degree.'|) (tptp.s__subclass tptp.s__JuniorCollege tptp.s__PostSecondarySchool) (tptp.s__instance tptp.s__JuniorCollege__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__JuniorCollege tptp.s__EnglishLanguage |tptp.'The class of &%PostSecondarySchools that offer an associates degree and do not offer a bachelors degree.'|) (tptp.s__subclass tptp.s__College tptp.s__PostSecondarySchool) (tptp.s__instance tptp.s__College__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__College tptp.s__EnglishLanguage |tptp.'A &%School which admits &%students who have graduated from high school and which confers a bachelors degree, normally requiring four years of study. Note that a &%College does not confer any graduate degrees. For institutions that confer both bachelors and graduate degrees, the concept &%University should be used.'|) (tptp.s__subclass tptp.s__University tptp.s__PostSecondarySchool) (tptp.s__instance tptp.s__University__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__University tptp.s__EnglishLanguage |tptp.'A &%School which admits &%students that have graduated from high school (known as undergraduate students) and &%students who have received a bachelors degree (known as graduate students). A &%University confers both bachelors and graduate degrees.'|) (tptp.s__subclass tptp.s__GraduateSchool tptp.s__PostSecondarySchool) (tptp.s__instance tptp.s__GraduateSchool__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__GraduateSchool tptp.s__EnglishLanguage |tptp.'A &%School which is devoted to a specific subject area, which admits students that have a bachelors degree, which grants masters and/or doctorate degrees, and which is part of a &%University.'|) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Object) (=> (tptp.s__instance V__S tptp.s__GraduateSchool) (exists ((V__U $$unsorted)) (and (tptp.s__instance V__U tptp.s__Object) (tptp.s__instance V__U tptp.s__University) (tptp.s__part V__S V__U)))))) (tptp.s__subclass tptp.s__MedicalSchool tptp.s__GraduateSchool) (tptp.s__instance tptp.s__MedicalSchool__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MedicalSchool tptp.s__EnglishLanguage |tptp.'A &%GraduateSchool that is devoted to &%MedicalScience and that grants the degree of doctor of medicine.'|) (tptp.s__subclass tptp.s__ArtSchool tptp.s__School) (tptp.s__instance tptp.s__ArtSchool__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ArtSchool tptp.s__EnglishLanguage |tptp.'Any &%School whose aim is to teach students how to create &%ArtWorks.'|) (forall ((V__P $$unsorted) (V__AS $$unsorted)) (=> (and (tptp.s__instance V__AS tptp.s__Object) (tptp.s__instance V__P tptp.s__Process)) (=> (and (tptp.s__instance V__AS tptp.s__ArtSchool) (tptp.s__instance V__P tptp.s__EducationalProcess) (tptp.s__eventLocated V__P V__AS)) (exists ((V__M $$unsorted) (V__ART $$unsorted)) (and (tptp.s__instance V__M tptp.s__Process) (tptp.s__instance V__M tptp.s__Making) (tptp.s__patient V__M V__ART) (tptp.s__instance V__ART tptp.s__ArtWork) (tptp.s__refers V__P V__M)))))) (tptp.s__subclass tptp.s__DaySchool tptp.s__School) (tptp.s__instance tptp.s__DaySchool__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__DaySchool tptp.s__EnglishLanguage |tptp.'A &%School that does not board its students, i.e. students attend classes during the day and then return to a private residence for the night.'|) (forall ((V__DS $$unsorted)) (=> (and (tptp.s__instance V__DS tptp.s__EducationalOrganization) (tptp.s__instance V__DS tptp.s__PermanentResidence)) (=> (tptp.s__instance V__DS tptp.s__DaySchool) (not (exists ((V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__Human) (tptp.s__student V__S V__DS) (tptp.s__home V__S V__DS))))))) (tptp.s__subrelation tptp.s__student__m tptp.s__member__m) (tptp.s__domain tptp.s__student__m |"1"| tptp.s__CognitiveAgent) (tptp.s__domain tptp.s__student__m |"2"| tptp.s__EducationalOrganization) (tptp.s__documentation tptp.s__student__m tptp.s__EnglishLanguage |tptp.'(&%student ?AGENT ?ORG) means that ?AGENT is enrolled in the &%EducationalOrganization ?ORG.'|) (forall ((V__ORG $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__ORG tptp.s__EducationalOrganization)) (=> (tptp.s__student V__AGENT V__ORG) (exists ((V__PROCESS $$unsorted)) (and (tptp.s__instance V__PROCESS tptp.s__Process) (tptp.s__instance V__PROCESS tptp.s__EducationalProcess) (tptp.s__eventLocated V__PROCESS V__ORG) (tptp.s__destination V__PROCESS V__AGENT)))))) (tptp.s__subrelation tptp.s__teacher__m tptp.s__member__m) (tptp.s__domain tptp.s__teacher__m |"1"| tptp.s__CognitiveAgent) (tptp.s__domain tptp.s__teacher__m |"2"| tptp.s__EducationalOrganization) (tptp.s__documentation tptp.s__teacher__m tptp.s__EnglishLanguage |tptp.'(&%teacher ?AGENT ?ORG) means that ?AGENT is a teacher at the &%EducationalOrganization ?ORG.'|) (forall ((V__ORG $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__ORG tptp.s__EducationalOrganization)) (=> (tptp.s__teacher V__AGENT V__ORG) (exists ((V__PROCESS $$unsorted)) (and (tptp.s__instance V__PROCESS tptp.s__Process) (tptp.s__instance V__PROCESS tptp.s__EducationalProcess) (tptp.s__eventLocated V__PROCESS V__ORG) (tptp.s__agent V__PROCESS V__AGENT)))))) (tptp.s__subclass tptp.s__DriversLicense tptp.s__License) (tptp.s__instance tptp.s__DriversLicense__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__DriversLicense tptp.s__EnglishLanguage |tptp.'A &%License which identifies the holder and indicates that he has the right to drive a certain class of &%RoadVehicle.'|) (forall ((V__A $$unsorted) (V__L $$unsorted)) (=> (and (tptp.s__instance V__L tptp.s__Object) (tptp.s__instance V__A tptp.s__Agent)) (=> (and (tptp.s__instance V__L tptp.s__DriversLicense) (tptp.s__possesses V__A V__L)) (tptp.s__confersNorm V__L |tptp.'(? [V__D,V__V] : (s__instance(V__D,s__Process) & s__instance(V__D,s__Driving) & s__agent(V__D,V__A) & s__patient(V__D,V__V) & s__instance(V__V,s__RoadVehicle)))'| tptp.s__Permission)))) (tptp.s__subclass tptp.s__InsurancePolicy tptp.s__Certificate) (tptp.s__instance tptp.s__InsurancePolicy__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__InsurancePolicy tptp.s__EnglishLanguage |tptp.'A &%Certificate that states the terms of an insurance contract.'|) (tptp.s__subclass tptp.s__EconomicRelation tptp.s__BinaryRelation) (tptp.s__instance tptp.s__EconomicRelation__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__EconomicRelation tptp.s__EnglishLanguage |tptp.'A class of &%Relations which are used to specify various economic measures, e.g. the GDP, the consumer price index, and the trade deficit.'|) (forall ((V__CLASS $$unsorted) (V__REL $$unsorted)) (=> (and (tptp.s__instance V__REL tptp.s__Relation) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (and (tptp.s__instance V__REL tptp.s__EconomicRelation) (tptp.s__domain V__REL |"1"| V__CLASS)) (tptp.s__subclass V__CLASS tptp.s__GeopoliticalArea)))) (tptp.s__subclass tptp.s__LaborStriking tptp.s__OrganizationalProcess) (tptp.s__instance tptp.s__LaborStriking__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__LaborStriking tptp.s__EnglishLanguage |tptp.'A &%Process in which some or all of the employees of an &%Organization refuse to work until their pay is increased or their working conditions are improved in some respect.'|) (forall ((V__STRIKE $$unsorted) (V__PERSON $$unsorted) (V__ORG $$unsorted)) (=> (and (tptp.s__instance V__PERSON tptp.s__CognitiveAgent) (tptp.s__instance V__STRIKE tptp.s__Process)) (=> (and (tptp.s__instance V__STRIKE tptp.s__LaborStriking) (tptp.s__agent V__STRIKE V__PERSON) (tptp.s__instance V__PERSON tptp.s__Human) (tptp.s__patient V__STRIKE V__ORG) (tptp.s__instance V__ORG tptp.s__Organization)) (tptp.s__employs V__ORG V__PERSON)))) (tptp.s__subclass tptp.s__EmploymentFiring tptp.s__TerminatingEmployment) (tptp.s__instance tptp.s__EmploymentFiring__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__EmploymentFiring tptp.s__EnglishLanguage |tptp.'Involuntarily ending ones employment. Note that this covers termination due to inadequate performance, as well as layoffs.'|) (tptp.s__subclass tptp.s__Resigning tptp.s__TerminatingEmployment) (tptp.s__instance tptp.s__Resigning__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Resigning tptp.s__EnglishLanguage |tptp.'Voluntarily ending ones employment.'|) (forall ((V__A $$unsorted) (V__R $$unsorted)) (=> (and (tptp.s__instance V__R tptp.s__Process) (tptp.s__instance V__A tptp.s__CognitiveAgent)) (=> (and (tptp.s__instance V__R tptp.s__Resigning) (tptp.s__agent V__R V__A)) (tptp.s__wants V__A V__R)))) (tptp.s__subclass tptp.s__Retiring tptp.s__Resigning) (tptp.s__instance tptp.s__Retiring__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Retiring tptp.s__EnglishLanguage |tptp.'Voluntarily leaving employment at the end of ones career in order to take time off in the later years of ones life.'|) (tptp.s__subclass tptp.s__TransferringPosition tptp.s__OrganizationalProcess) (tptp.s__instance tptp.s__TransferringPosition__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TransferringPosition tptp.s__EnglishLanguage |tptp.'Any process within an &%Organization where a person is moved from one &%Position to another, e.g. the promotion or demotion of an employee.'|) (tptp.s__instance tptp.s__monetaryWage__m tptp.s__QuaternaryPredicate) (tptp.s__domain tptp.s__monetaryWage__m |"1"| tptp.s__Organization) (tptp.s__domain tptp.s__monetaryWage__m |"2"| tptp.s__Human) (tptp.s__domain tptp.s__monetaryWage__m |"3"| tptp.s__TimeDuration) (tptp.s__domain tptp.s__monetaryWage__m |"4"| tptp.s__CurrencyMeasure) (tptp.s__documentation tptp.s__monetaryWage__m tptp.s__EnglishLanguage |tptp.'(&%monetaryWage ?ORG ?PERSON ?TIME ?MONEY) means that the &%Organization employs ?PERSON and pays him/her the amount of money ?MONEY per &%TimeDuration ?TIME.'|) (forall ((V__TIME $$unsorted) (V__PERSON $$unsorted) (V__MONEY $$unsorted) (V__ORG $$unsorted)) (=> (and (tptp.s__instance V__ORG tptp.s__Organization) (tptp.s__instance V__MONEY tptp.s__CurrencyMeasure) (tptp.s__instance V__PERSON tptp.s__Human) (tptp.s__instance V__TIME tptp.s__TimeDuration)) (=> (tptp.s__monetaryWage V__ORG V__PERSON V__TIME V__MONEY) (tptp.s__employs V__ORG V__PERSON)))) (tptp.s__subclass tptp.s__GameArtifact tptp.s__Artifact) (tptp.s__instance tptp.s__GameArtifact__t tptp.s__SetOrClass) (tptp.s__disjointDecomposition_3 tptp.s__GameArtifact tptp.s__GameBoard tptp.s__GamePiece) (tptp.s__documentation tptp.s__GameArtifact tptp.s__EnglishLanguage |tptp.'An &%Artifact that is designed to be used as an &%instrument in a &%Game.'|) (forall ((V__ARTIFACT $$unsorted)) (=> (tptp.s__instance V__ARTIFACT tptp.s__Object) (=> (tptp.s__instance V__ARTIFACT tptp.s__GameArtifact) (exists ((V__GAME $$unsorted)) (and (tptp.s__instance V__GAME tptp.s__SetOrClass) (tptp.s__subclass V__GAME tptp.s__Process) (tptp.s__subclass V__GAME tptp.s__Game) (tptp.s__capability V__GAME tptp.s__instrument__m V__ARTIFACT)))))) (tptp.s__subclass tptp.s__GameBoard tptp.s__GameArtifact) (tptp.s__instance tptp.s__GameBoard__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__GameBoard tptp.s__EnglishLanguage |tptp.'A &%GameArtifact which is intended to be used as the game area for playing a particular game.'|) (forall ((V__BOARD $$unsorted)) (=> (tptp.s__instance V__BOARD tptp.s__Object) (=> (tptp.s__instance V__BOARD tptp.s__GameBoard) (tptp.s__hasPurpose V__BOARD |tptp.'(? [V__GAME] : (s__instance(V__GAME,s__Process) & s__instance(V__GAME,s__Game) & s__eventLocated(V__GAME,V__BOARD)))'|)))) (tptp.s__subclass tptp.s__GamePiece tptp.s__GameArtifact) (tptp.s__instance tptp.s__GamePiece__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__GamePiece tptp.s__EnglishLanguage |tptp.'A &%GameArtifact that is moved around in a game area.'|) (tptp.s__subclass tptp.s__GameDie tptp.s__GamePiece) (tptp.s__instance tptp.s__GameDie__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__GameDie tptp.s__EnglishLanguage |tptp.'A small cube with 1 to 6 dots on each face that is used to generate numbers at random in a &%Game.'|) (tptp.s__subclass tptp.s__Ball tptp.s__GamePiece) (tptp.s__documentation tptp.s__Ball tptp.s__EnglishLanguage |tptp.'Any &%GamePiece which has the shape of a sphere.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Object) (=> (tptp.s__instance V__B tptp.s__Ball) (tptp.s__attribute V__B tptp.s__Sphere)))) (tptp.s__subclass tptp.s__ShotBall tptp.s__Ball) (tptp.s__instance tptp.s__ShotBall__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Ball__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ShotBall tptp.s__EnglishLanguage |tptp.'A solid metal &%Ball that is used in the sport of shotput.'|) (tptp.s__subclass tptp.s__GameShot tptp.s__Impelling) (tptp.s__subclass tptp.s__GameShot tptp.s__Maneuver) (tptp.s__documentation tptp.s__GameShot tptp.s__EnglishLanguage |tptp.'Impelling a &%GamePiece for the purpose of scoring a point or preventing the opposing player or team from scoring a point. Note that this class does not cover shots which are disallowed by the rules of the game.'|) (forall ((V__SHOT $$unsorted)) (=> (tptp.s__instance V__SHOT tptp.s__Process) (=> (tptp.s__instance V__SHOT tptp.s__GameShot) (exists ((V__PIECE $$unsorted)) (and (tptp.s__instance V__PIECE tptp.s__GamePiece) (tptp.s__patient V__SHOT V__PIECE)))))) (forall ((V__SHOT $$unsorted)) (=> (tptp.s__instance V__SHOT tptp.s__Process) (=> (tptp.s__instance V__SHOT tptp.s__GameShot) (exists ((V__GAME $$unsorted)) (and (tptp.s__instance V__GAME tptp.s__Process) (tptp.s__instance V__GAME tptp.s__Game) (tptp.s__subProcess V__SHOT V__GAME)))))) (tptp.s__subclass tptp.s__Score tptp.s__GameShot) (tptp.s__instance tptp.s__Score__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Score tptp.s__EnglishLanguage |tptp.'A successful attempt to score a point in a &%Game.'|) (tptp.s__subclass tptp.s__GameGoal tptp.s__GameArtifact) (tptp.s__instance tptp.s__GameGoal__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__GameGoal tptp.s__EnglishLanguage |tptp.'The location where a &%GameShot must end up if it is to constitute a &%Score.'|) (tptp.s__subclass tptp.s__SportServe tptp.s__GameShot) (tptp.s__instance tptp.s__SportServe__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SportServe tptp.s__EnglishLanguage |tptp.'A &%GameShot which is part of a &%Sport and which serves to start the &%Sport, e.g. the beginning shot in &%Tennis, &%Badminton or &%Squash.'|) (forall ((V__SS $$unsorted)) (=> (tptp.s__instance V__SS tptp.s__Process) (=> (tptp.s__instance V__SS tptp.s__SportServe) (exists ((V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__Process) (tptp.s__instance V__S tptp.s__Sport) (tptp.s__subProcess V__SS V__S) (tptp.s__starts (tptp.s__WhenFn V__SS) (tptp.s__WhenFn V__S))))))) (tptp.s__subclass tptp.s__Throwing tptp.s__Impelling) (tptp.s__subclass tptp.s__Throwing tptp.s__BodyMotion) (tptp.s__documentation tptp.s__Throwing tptp.s__EnglishLanguage |tptp.'Any instance of &%Impelling where the &%instrument is an &%Arm.'|) (forall ((V__THROW $$unsorted)) (=> (tptp.s__instance V__THROW tptp.s__Process) (=> (tptp.s__instance V__THROW tptp.s__Throwing) (exists ((V__ARM $$unsorted)) (and (tptp.s__instance V__ARM tptp.s__Object) (tptp.s__instance V__ARM tptp.s__Arm) (tptp.s__instrument V__THROW V__ARM)))))) (tptp.s__subclass tptp.s__Pitching tptp.s__Throwing) (tptp.s__instance tptp.s__Pitching__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Throwing__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Pitching tptp.s__GameShot) (tptp.s__instance tptp.s__GameShot__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Pitching tptp.s__EnglishLanguage |tptp.'&%Throwing a &%Ball to the batter in a game of &%Baseball or softball.'|) (forall ((V__PITCH $$unsorted) (V__BALL $$unsorted)) (=> (tptp.s__instance V__PITCH tptp.s__Process) (=> (and (tptp.s__instance V__PITCH tptp.s__Pitching) (tptp.s__patient V__PITCH V__BALL)) (tptp.s__instance V__BALL tptp.s__Ball)))) (tptp.s__subclass tptp.s__Catching tptp.s__Touching) (tptp.s__subclass tptp.s__Catching tptp.s__Maneuver) (tptp.s__instance tptp.s__Catching__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Catching tptp.s__EnglishLanguage |tptp.'Any &%Maneuver in a &%Game which results in a situation where the &%agent &%grasps the &%Ball.'|) (forall ((V__CATCH $$unsorted) (V__BALL $$unsorted)) (=> (tptp.s__instance V__CATCH tptp.s__Process) (=> (and (tptp.s__instance V__CATCH tptp.s__Catching) (tptp.s__patient V__CATCH V__BALL)) (tptp.s__instance V__CATCH tptp.s__Ball)))) (tptp.s__subclass tptp.s__Sign tptp.s__ContentBearingObject) (tptp.s__instance tptp.s__Sign__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Sign tptp.s__DisplayArtifact) (tptp.s__instance tptp.s__DisplayArtifact__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Sign tptp.s__DataDisplayDevice) (tptp.s__instance tptp.s__DataDisplayDevice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sign tptp.s__EnglishLanguage |tptp.'A Sign is a &%DisplayArtifact that displays any range of information'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Sign |tptp.'Sign'|) (tptp.s__subclass tptp.s__PlayingCard tptp.s__GameArtifact) (tptp.s__subclass tptp.s__PlayingCard tptp.s__ContentBearingObject) (tptp.s__instance tptp.s__PlayingCard__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PlayingCard tptp.s__EnglishLanguage |tptp.'A small piece of stiff paper with markings which is intended to be used for playing card games.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__CorpuscularObject) (=> (tptp.s__instance V__C tptp.s__PlayingCard) (tptp.s__material tptp.s__Paper V__C)))) (tptp.s__subclass tptp.s__Stretching tptp.s__Motion) (tptp.s__instance tptp.s__Stretching__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Stretching tptp.s__EnglishLanguage |tptp.'Moving two sides of an object in opposite directions so that the object becomes both longer and thinner.'|) (tptp.s__subclass tptp.s__Stretching tptp.s__Lengthening) (tptp.s__subclass tptp.s__Accelerating tptp.s__Translocation) (tptp.s__subclass tptp.s__Accelerating tptp.s__Increasing) (tptp.s__instance tptp.s__Accelerating__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Accelerating tptp.s__EnglishLanguage |tptp.'Increasing the speed with which someone or something is moving.'|) (tptp.s__subclass tptp.s__Decelerating tptp.s__Translocation) (tptp.s__subclass tptp.s__Decelerating tptp.s__Decreasing) (tptp.s__instance tptp.s__Decelerating__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Decelerating tptp.s__EnglishLanguage |tptp.'Decreasing the speed with which someone or something is moving.'|) (forall ((V__A $$unsorted) (V__T $$unsorted) (V__E $$unsorted)) (=> (and (tptp.s__instance V__E tptp.s__Agent) (tptp.s__instance V__A tptp.s__Process)) (=> (and (tptp.s__instance V__A tptp.s__Accelerating) (= V__T (tptp.s__WhenFn V__A)) (tptp.s__experiencer V__A V__E)) (not (exists ((V__D $$unsorted)) (and (tptp.s__instance V__D tptp.s__Process) (tptp.s__instance V__D tptp.s__Decelerating) (tptp.s__experiencer V__D V__E) (= V__T (tptp.s__WhenFn V__D)))))))) (tptp.s__subclass tptp.s__Shortening tptp.s__Decreasing) (tptp.s__instance tptp.s__Shortening__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Shortening tptp.s__EnglishLanguage |tptp.'Decreasing the length of something.'|) (tptp.s__subclass tptp.s__Flying tptp.s__Translocation) (tptp.s__instance tptp.s__Flying__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Flying tptp.s__EnglishLanguage |tptp.'Any instance of &%Translocation which is through an &%AtmosphericRegion and which is powered by the wings of an &%Animal.'|) (forall ((V__FLY $$unsorted)) (=> (tptp.s__instance V__FLY tptp.s__Process) (=> (tptp.s__instance V__FLY tptp.s__Flying) (exists ((V__REGION $$unsorted)) (and (tptp.s__instance V__REGION tptp.s__Object) (tptp.s__instance V__REGION tptp.s__AtmosphericRegion) (tptp.s__eventLocated V__FLY V__REGION)))))) (tptp.s__subclass tptp.s__TakingOff tptp.s__Translocation) (tptp.s__instance tptp.s__TakingOff__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TakingOff tptp.s__EnglishLanguage |tptp.'Any instance of &%Translocation which starts on something other than an &%AtmosphericRegion and which has an instance of &%Flying as a &%subProcess.'|) (tptp.s__subclass tptp.s__Landing tptp.s__Translocation) (tptp.s__instance tptp.s__Landing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Landing tptp.s__EnglishLanguage |tptp.'Any instance of &%Translocation which ends up on something other than an &%AtmosphericRegion and which has an instance of &%Flying as a &%subProcess.'|) (tptp.s__subclass tptp.s__Returning tptp.s__Translocation) (tptp.s__instance tptp.s__Returning__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Returning tptp.s__EnglishLanguage |tptp.'Any instance of &%Translocation where the &%agent goes to a location where he/she had been before the &%Translocation took place.'|) (tptp.s__subclass tptp.s__Escaping tptp.s__Translocation) (tptp.s__instance tptp.s__Escaping__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Escaping tptp.s__EnglishLanguage |tptp.'Any instance of &%Translocation where the &%agent brings it about that he/she is no longer confined without having the right to do so.'|) (forall ((V__ESCAPE $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__ESCAPE tptp.s__Process)) (=> (and (tptp.s__instance V__ESCAPE tptp.s__Escaping) (tptp.s__agent V__ESCAPE V__AGENT)) (exists ((V__CONFINE $$unsorted)) (and (tptp.s__instance V__CONFINE tptp.s__Process) (tptp.s__instance V__CONFINE tptp.s__Confining) (tptp.s__patient V__CONFINE V__AGENT) (tptp.s__meetsTemporally (tptp.s__WhenFn V__CONFINE) (tptp.s__WhenFn V__ESCAPE))))))) (tptp.s__subclass tptp.s__Leaving tptp.s__Translocation) (tptp.s__instance tptp.s__Leaving__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Leaving tptp.s__EnglishLanguage |tptp.'The initial part of any instance of &%Translocation.'|) (forall ((V__LEAVE $$unsorted)) (=> (tptp.s__instance V__LEAVE tptp.s__Process) (=> (tptp.s__instance V__LEAVE tptp.s__Leaving) (exists ((V__GO $$unsorted)) (and (tptp.s__instance V__GO tptp.s__Process) (tptp.s__instance V__GO tptp.s__Translocation) (tptp.s__subProcess V__LEAVE V__GO) (tptp.s__starts (tptp.s__WhenFn V__LEAVE) (tptp.s__WhenFn V__GO))))))) (tptp.s__subclass tptp.s__Arriving tptp.s__Translocation) (tptp.s__instance tptp.s__Arriving__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Arriving tptp.s__EnglishLanguage |tptp.'The final part of any instance of &%Translocation.'|) (forall ((V__ARRIVE $$unsorted)) (=> (tptp.s__instance V__ARRIVE tptp.s__Process) (=> (tptp.s__instance V__ARRIVE tptp.s__Arriving) (exists ((V__GO $$unsorted)) (and (tptp.s__instance V__GO tptp.s__Process) (tptp.s__instance V__GO tptp.s__Translocation) (tptp.s__subProcess V__ARRIVE V__GO) (tptp.s__finishes (tptp.s__WhenFn V__ARRIVE) (tptp.s__WhenFn V__GO))))))) (tptp.s__subclass tptp.s__Immigrating tptp.s__Translocation) (tptp.s__instance tptp.s__Immigrating__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Immigrating tptp.s__EnglishLanguage |tptp.'Any &%Translocation by a Human from one &%Nation to another &%Nation where the person is not a citizen for the purpose of taking up residence.'|) (forall ((V__A $$unsorted) (V__I $$unsorted)) (=> (and (tptp.s__instance V__I tptp.s__Process) (tptp.s__instance V__A tptp.s__Agent)) (=> (and (tptp.s__instance V__I tptp.s__Immigrating) (tptp.s__agent V__I V__A)) (tptp.s__instance V__A tptp.s__Human)))) (tptp.s__subclass tptp.s__Boarding tptp.s__Translocation) (tptp.s__instance tptp.s__Boarding__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Boarding tptp.s__EnglishLanguage |tptp.'Getting on a &%Vehicle, e.g. getting into an &%Automobile, boarding an &%Aircraft, etc.'|) (forall ((V__B $$unsorted) (V__V $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Process) (=> (and (tptp.s__instance V__B tptp.s__Boarding) (tptp.s__patient V__B V__V)) (tptp.s__instance V__V tptp.s__Vehicle)))) (tptp.s__documentation tptp.s__onboard__m tptp.s__EnglishLanguage |tptp.'(onboard ?OBJ ?VEHICLE) means that the &%SelfConnectedObject ?OBJ is inside the &%Vehicle ?VEHICLE.'|) (tptp.s__domain tptp.s__onboard__m |"1"| tptp.s__SelfConnectedObject) (tptp.s__domain tptp.s__onboard__m |"2"| tptp.s__Vehicle) (tptp.s__subrelation tptp.s__onboard__m tptp.s__located__m) (forall ((V__O $$unsorted) (V__V $$unsorted)) (=> (and (tptp.s__instance V__V tptp.s__Vehicle) (tptp.s__instance V__V tptp.s__SelfConnectedObject) (tptp.s__instance V__O tptp.s__SelfConnectedObject)) (=> (tptp.s__onboard V__O V__V) (tptp.s__contains V__V V__O)))) (forall ((V__O $$unsorted) (V__T $$unsorted) (V__V $$unsorted)) (=> (and (tptp.s__instance V__V tptp.s__Vehicle) (tptp.s__instance V__T tptp.s__Process) (tptp.s__instance V__O tptp.s__SelfConnectedObject)) (=> (and (tptp.s__onboard V__O V__V) (tptp.s__instrument V__T V__V) (tptp.s__instance V__T tptp.s__Transportation)) (tptp.s__patient V__T V__O)))) (tptp.s__subclass tptp.s__Deboarding tptp.s__Translocation) (tptp.s__instance tptp.s__Deboarding__t tptp.s__SetOrClass) (tptp.s__relatedInternalConcept tptp.s__Boarding tptp.s__Deboarding) (tptp.s__documentation tptp.s__Deboarding tptp.s__EnglishLanguage |tptp.'Getting off a &%Vehicle, e.g. getting out of an Automobile, deplaning, getting off a &%WaterVehicle, etc.'|) (forall ((V__B $$unsorted) (V__VEHICLE $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Process) (=> (and (tptp.s__instance V__B tptp.s__Deboarding) (tptp.s__patient V__B V__VEHICLE)) (tptp.s__instance V__VEHICLE tptp.s__Vehicle)))) (tptp.s__subclass tptp.s__Rotating tptp.s__Motion) (tptp.s__documentation tptp.s__Rotating tptp.s__EnglishLanguage |tptp.'&%Motion that begins and ends at the same point, because the trajectory of the &%Motion is circular.'|) (tptp.s__subclass tptp.s__Tremor tptp.s__Rotating) (tptp.s__instance tptp.s__Tremor__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Tremor tptp.s__EnglishLanguage |tptp.'&%Motion that involves rapidly &%Rotating between two positions.'|) (tptp.s__instance tptp.s__axis__m tptp.s__BinaryPredicate) (tptp.s__documentation tptp.s__axis__m tptp.s__EnglishLanguage |tptp.'(axis ?A ?OBJ) means that a &%part ?A of an &%Object ?OBJ is the axis of rotation in a &%Rotating.'|) (tptp.s__domain tptp.s__axis__m |"1"| tptp.s__Object) (tptp.s__domain tptp.s__axis__m |"2"| tptp.s__Object) (forall ((V__OBJ $$unsorted) (V__AXIS $$unsorted)) (=> (and (tptp.s__instance V__AXIS tptp.s__Agent) (tptp.s__instance V__OBJ tptp.s__Agent)) (=> (tptp.s__axis V__AXIS V__OBJ) (exists ((V__R $$unsorted)) (and (tptp.s__instance V__R tptp.s__Rotating) (tptp.s__part V__AXIS V__OBJ) (tptp.s__experiencer V__R V__OBJ) (not (exists ((V__R2 $$unsorted)) (and (tptp.s__instance V__R2 tptp.s__Process) (tptp.s__instance V__R tptp.s__Process) (tptp.s__instance V__R2 tptp.s__Rotating) (tptp.s__subProcess V__R2 V__R) (tptp.s__experiencer V__R2 V__AXIS))))))))) (tptp.s__subclass tptp.s__CentrifugalMotion tptp.s__Rotating) (tptp.s__instance tptp.s__CentrifugalMotion__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__CentrifugalMotion tptp.s__CentripetalMotion) (tptp.s__documentation tptp.s__CentrifugalMotion tptp.s__EnglishLanguage |tptp.'Any instance of &%Rotating where there is &%Motion away from the center of the &%Rotating.'|) (forall ((V__CM $$unsorted)) (=> (tptp.s__instance V__CM tptp.s__Process) (=> (tptp.s__instance V__CM tptp.s__CentrifugalMotion) (exists ((V__R $$unsorted) (V__A $$unsorted) (V__O1 $$unsorted) (V__O2 $$unsorted)) (and (tptp.s__instance V__O2 tptp.s__Agent) (tptp.s__instance V__O1 tptp.s__Agent) (tptp.s__instance V__A tptp.s__Object) (tptp.s__instance V__R tptp.s__Process) (tptp.s__instance V__R tptp.s__Rotating) (tptp.s__axis V__A V__O1) (tptp.s__origin V__CM V__A) (tptp.s__experiencer V__R V__O1) (tptp.s__experiencer V__CM V__O2) (tptp.s__causes V__R V__CM)))))) (tptp.s__subclass tptp.s__CentripetalMotion tptp.s__Rotating) (tptp.s__instance tptp.s__CentripetalMotion__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Rotating__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__CentripetalMotion tptp.s__EnglishLanguage |tptp.'Any instance of &%Rotating where there is &%Motion towards the center of the &%Rotating.'|) (forall ((V__CM $$unsorted)) (=> (tptp.s__instance V__CM tptp.s__Process) (=> (tptp.s__instance V__CM tptp.s__CentripetalMotion) (exists ((V__R $$unsorted) (V__A $$unsorted) (V__O1 $$unsorted) (V__O2 $$unsorted)) (and (tptp.s__instance V__O2 tptp.s__Agent) (tptp.s__instance V__O1 tptp.s__Agent) (tptp.s__instance V__A tptp.s__Object) (tptp.s__instance V__R tptp.s__Process) (tptp.s__instance V__R tptp.s__Rotating) (tptp.s__axis V__A V__O1) (tptp.s__destination V__CM V__A) (tptp.s__experiencer V__R V__O1) (tptp.s__experiencer V__CM V__O2) (tptp.s__causes V__R V__CM)))))) (tptp.s__subclass tptp.s__Reversing tptp.s__Motion) (tptp.s__instance tptp.s__Reversing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Reversing tptp.s__EnglishLanguage |tptp.'Moving something in such a way that its &%top becomes its &%bottom and vice versa.'|) (forall ((V__REVERSE $$unsorted) (V__OBJ $$unsorted) (V__BOTTOM $$unsorted) (V__TOP $$unsorted)) (let ((_let_1 (tptp.s__WhenFn V__REVERSE))) (=> (and (tptp.s__instance V__TOP tptp.s__SelfConnectedObject) (tptp.s__instance V__BOTTOM tptp.s__SelfConnectedObject) (tptp.s__instance V__OBJ tptp.s__SelfConnectedObject) (tptp.s__instance V__REVERSE tptp.s__Process)) (=> (and (tptp.s__instance V__REVERSE tptp.s__Reversing) (tptp.s__patient V__REVERSE V__OBJ) (tptp.s__holdsDuring (tptp.s__BeginFn _let_1) |tptp.'(s__top(V__TOP,V__OBJ) & s__bottom(V__BOTTOM,V__OBJ))'|)) (tptp.s__holdsDuring (tptp.s__EndFn _let_1) |tptp.'(s__top(V__BOTTOM,V__OBJ) & s__bottom(V__TOP,V__OBJ))'|))))) (tptp.s__subclass tptp.s__Dripping tptp.s__LiquidMotion) (tptp.s__instance tptp.s__Dripping__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Dripping tptp.s__EnglishLanguage |tptp.'Any &%LiquidMotion where the &%Liquid is moved drop by drop.'|) (tptp.s__subclass tptp.s__Stirring tptp.s__LiquidMotion) (tptp.s__instance tptp.s__Stirring__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Stirring tptp.s__Combining) (tptp.s__documentation tptp.s__Stirring tptp.s__EnglishLanguage |tptp.'Any instance of &%LiquidMotion which is also an instance of &%Combining two or more &%Liquids.'|) (tptp.s__subclass tptp.s__Pouring tptp.s__LiquidMotion) (tptp.s__instance tptp.s__Pouring__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Pouring tptp.s__Transfer) (tptp.s__documentation tptp.s__Pouring tptp.s__EnglishLanguage |tptp.'Any instance of &%Transfer from one &%Container to another, where the thing transferred is a &%Liquid.'|) (forall ((V__POUR $$unsorted)) (=> (tptp.s__instance V__POUR tptp.s__Process) (=> (tptp.s__instance V__POUR tptp.s__Pouring) (exists ((V__LIQUID $$unsorted) (V__CONTAINER1 $$unsorted) (V__CONTAINER2 $$unsorted)) (and (tptp.s__instance V__CONTAINER1 tptp.s__Object) (tptp.s__instance V__LIQUID tptp.s__Object) (tptp.s__origin V__POUR V__CONTAINER1) (tptp.s__destination V__POUR V__CONTAINER2) (tptp.s__instance V__CONTAINER1 tptp.s__Container) (tptp.s__instance V__CONTAINER2 tptp.s__Container) (not (= V__CONTAINER1 V__CONTAINER2)) (tptp.s__patient V__POUR V__LIQUID) (tptp.s__attribute V__LIQUID tptp.s__Liquid) (tptp.s__instance V__LIQUID tptp.s__Substance)))))) (tptp.s__subclass tptp.s__WaterWave tptp.s__LiquidMotion) (tptp.s__instance tptp.s__WaterWave__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__WaterWave tptp.s__EnglishLanguage |tptp.'A &%WaterWave is a raised ridge of water moving along the surface of a body of water. The &%WaterWave moves in a direction approximately transverse to the crest line of the wave. The &%patient of the &%WaterWave is successive regions of water, which do not travel in the direction of the wave or with it.'|) (forall ((V__WAVE $$unsorted)) (=> (tptp.s__instance V__WAVE tptp.s__Process) (=> (tptp.s__instance V__WAVE tptp.s__WaterWave) (exists ((V__AREA $$unsorted)) (and (tptp.s__instance V__AREA tptp.s__Object) (tptp.s__instance V__AREA tptp.s__WaterArea) (tptp.s__eventLocated V__WAVE V__AREA)))))) (tptp.s__instance tptp.s__waterDepth__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__waterDepth__m |"1"| tptp.s__WaterArea) (tptp.s__domain tptp.s__waterDepth__m |"2"| tptp.s__LengthMeasure) (tptp.s__subrelation tptp.s__waterDepth__m tptp.s__length__m) (tptp.s__documentation tptp.s__waterDepth__m tptp.s__EnglishLanguage |tptp.'(&%waterDepth ?AREA ?LENGTH) means that the depth of water at the &%Region ?AREA is ?LENGTH.'|) (forall ((V__DEPTH $$unsorted) (V__AREA $$unsorted)) (=> (and (tptp.s__instance V__AREA tptp.s__WaterArea) (tptp.s__instance V__AREA tptp.s__SelfConnectedObject) (tptp.s__instance V__DEPTH tptp.s__LengthMeasure)) (=> (tptp.s__waterDepth V__AREA V__DEPTH) (exists ((V__BOTTOM $$unsorted) (V__TOP $$unsorted)) (and (tptp.s__instance V__TOP tptp.s__SelfConnectedObject) (tptp.s__instance V__BOTTOM tptp.s__SelfConnectedObject) (tptp.s__depth V__TOP V__BOTTOM V__DEPTH) (tptp.s__top V__TOP V__AREA) (tptp.s__bottom V__BOTTOM V__AREA)))))) (tptp.s__subclass tptp.s__Flooding tptp.s__LiquidMotion) (tptp.s__instance tptp.s__Flooding__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Flooding tptp.s__EnglishLanguage |tptp.'Flooding is the subclass of &%LiquidMotion processes in which the water level of a &%Waterway rises or water spreads over a flood plain along a &%Waterway.'|) (tptp.s__subclass tptp.s__Spraying tptp.s__LiquidMotion) (tptp.s__instance tptp.s__Spraying__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Spraying tptp.s__Transfer) (tptp.s__documentation tptp.s__Spraying tptp.s__EnglishLanguage |tptp.'Any instance of &%Transfer of a &%Liquid which is accomplished by converting the &%Liquid into a mist.'|) (tptp.s__subclass tptp.s__Pulling tptp.s__Motion) (tptp.s__instance tptp.s__Pulling__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Pulling tptp.s__EnglishLanguage |tptp.'&%Pulling describe the exertion of force so as to cause or tend to cause motion towards the agent.'|) (tptp.s__subclass tptp.s__Submarine tptp.s__WaterVehicle) (tptp.s__instance tptp.s__Submarine__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Submarine tptp.s__EnglishLanguage |tptp.'A &%WaterVehicle which is capable of travelling under the water level by filling tanks with water.'|) (tptp.s__subclass tptp.s__AirTransportation tptp.s__Transportation) (tptp.s__instance tptp.s__AirTransportation__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AirTransportation tptp.s__EnglishLanguage |tptp.'Any instance of &%Transportation where the &%instrument is an &%Aircraft and which is through an &%AtmosphericRegion.'|) (forall ((V__TRANSPORT $$unsorted)) (=> (tptp.s__instance V__TRANSPORT tptp.s__Process) (=> (tptp.s__instance V__TRANSPORT tptp.s__AirTransportation) (exists ((V__CRAFT $$unsorted) (V__REGION $$unsorted)) (and (tptp.s__instance V__REGION tptp.s__Object) (tptp.s__instance V__CRAFT tptp.s__Object) (tptp.s__instance V__CRAFT tptp.s__Aircraft) (tptp.s__instance V__REGION tptp.s__AtmosphericRegion) (tptp.s__instrument V__TRANSPORT V__CRAFT) (tptp.s__eventLocated V__TRANSPORT V__REGION)))))) (tptp.s__subclass tptp.s__SpaceTransportation tptp.s__Transportation) (tptp.s__instance tptp.s__SpaceTransportation__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SpaceTransportation tptp.s__EnglishLanguage |tptp.'Any instance of &%Transportation where the &%instrument is a &%Spacecraft and which is through a &%SpaceRegion.'|) (forall ((V__TRANSPORT $$unsorted)) (=> (tptp.s__instance V__TRANSPORT tptp.s__Process) (=> (tptp.s__instance V__TRANSPORT tptp.s__SpaceTransportation) (exists ((V__CRAFT $$unsorted) (V__REGION $$unsorted)) (and (tptp.s__instance V__REGION tptp.s__Object) (tptp.s__instance V__CRAFT tptp.s__Object) (tptp.s__instance V__CRAFT tptp.s__Spacecraft) (tptp.s__instance V__REGION tptp.s__SpaceRegion) (tptp.s__instrument V__TRANSPORT V__CRAFT) (tptp.s__eventLocated V__TRANSPORT V__REGION)))))) (tptp.s__subclass tptp.s__Spacecraft tptp.s__Vehicle) (tptp.s__instance tptp.s__Spacecraft__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Spacecraft tptp.s__EnglishLanguage |tptp.'Any &%Vehicle which is capable of &%SpaceTransportation.'|) (forall ((V__CRAFT $$unsorted)) (=> (tptp.s__instance V__CRAFT tptp.s__Object) (=> (tptp.s__instance V__CRAFT tptp.s__Spacecraft) (tptp.s__capability tptp.s__SpaceTransportation tptp.s__instrument__m V__CRAFT)))) (tptp.s__subclass tptp.s__Rocket tptp.s__Spacecraft) (tptp.s__documentation tptp.s__Rocket tptp.s__EnglishLanguage |tptp.'A &%Spacecraft which has the shape of a cylinder with a cone on top and which is powered by a jet engine.'|) (tptp.s__subclass tptp.s__Missile tptp.s__Projectile) (tptp.s__instance tptp.s__Missile__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Missile tptp.s__SelfPoweredDevice) (tptp.s__instance tptp.s__SelfPoweredDevice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Missile tptp.s__EnglishLanguage |tptp.'A &%Projectile which is propelled by a rocket and contains a &%Bomb.'|) (forall ((V__M $$unsorted)) (=> (tptp.s__instance V__M tptp.s__Object) (=> (tptp.s__instance V__M tptp.s__Missile) (exists ((V__B $$unsorted)) (and (tptp.s__instance V__B tptp.s__Object) (tptp.s__instance V__B tptp.s__Bomb) (tptp.s__part V__B V__M)))))) (tptp.s__subclass tptp.s__BallisticMissile tptp.s__Missile) (tptp.s__instance tptp.s__BallisticMissile__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__BallisticMissile tptp.s__EnglishLanguage |tptp.'A &%Missile which is guided for the first stage of its flight but then falls to its target for the second stage.'|) (tptp.s__subclass tptp.s__WaterTransportation tptp.s__Transportation) (tptp.s__instance tptp.s__WaterTransportation__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__WaterTransportation tptp.s__EnglishLanguage |tptp.'Any instance of &%Transportation where the &%instrument is a &%WaterVehicle.'|) (forall ((V__TRANSPORT $$unsorted)) (=> (tptp.s__instance V__TRANSPORT tptp.s__Process) (=> (tptp.s__instance V__TRANSPORT tptp.s__WaterTransportation) (exists ((V__CRAFT $$unsorted) (V__AREA $$unsorted)) (and (tptp.s__instance V__AREA tptp.s__Object) (tptp.s__instance V__CRAFT tptp.s__Object) (tptp.s__instance V__CRAFT tptp.s__WaterVehicle) (tptp.s__instance V__AREA tptp.s__WaterArea) (tptp.s__instrument V__TRANSPORT V__CRAFT) (tptp.s__eventLocated V__TRANSPORT V__AREA)))))) (forall ((V__CRAFT $$unsorted)) (=> (tptp.s__instance V__CRAFT tptp.s__Object) (=> (tptp.s__instance V__CRAFT tptp.s__WaterVehicle) (tptp.s__capability tptp.s__WaterTransportation tptp.s__instrument__m V__CRAFT)))) (tptp.s__subclass tptp.s__Rowing tptp.s__WaterTransportation) (tptp.s__instance tptp.s__Rowing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Rowing tptp.s__EnglishLanguage |tptp.'Any instance of &%WaterTransportation where the instrument is an &%Oar that is manually powered.'|) (forall ((V__R $$unsorted)) (=> (tptp.s__instance V__R tptp.s__Process) (=> (tptp.s__instance V__R tptp.s__Rowing) (exists ((V__O $$unsorted)) (and (tptp.s__instance V__O tptp.s__Object) (tptp.s__instance V__O tptp.s__Oar) (tptp.s__instrument V__R V__O)))))) (tptp.s__subclass tptp.s__LandTransportation tptp.s__Transportation) (tptp.s__instance tptp.s__LandTransportation__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__LandTransportation tptp.s__EnglishLanguage |tptp.'Any instance of &%Transportation where the &%instrument is a &%LandVehicle.'|) (forall ((V__LAND $$unsorted)) (=> (tptp.s__instance V__LAND tptp.s__Process) (=> (tptp.s__instance V__LAND tptp.s__LandTransportation) (exists ((V__CRAFT $$unsorted) (V__AREA $$unsorted)) (and (tptp.s__instance V__AREA tptp.s__Object) (tptp.s__instance V__CRAFT tptp.s__Object) (tptp.s__instance V__CRAFT tptp.s__LandVehicle) (tptp.s__instance V__AREA tptp.s__LandArea) (tptp.s__instrument V__LAND V__CRAFT) (tptp.s__located V__CRAFT V__AREA)))))) (forall ((V__VEHICLE $$unsorted)) (=> (tptp.s__instance V__VEHICLE tptp.s__Object) (=> (tptp.s__instance V__VEHICLE tptp.s__LandVehicle) (tptp.s__capability tptp.s__LandTransportation tptp.s__instrument__m V__VEHICLE)))) (forall ((V__P $$unsorted) (V__T $$unsorted)) (=> (and (tptp.s__instance V__T tptp.s__Motion) (tptp.s__instance V__P tptp.s__Object)) (=> (and (tptp.s__instance V__T tptp.s__LandTransportation) (tptp.s__path V__T V__P)) (tptp.s__instance V__P tptp.s__LandTransitway)))) (tptp.s__subclass tptp.s__TransportViaRoadVehicle tptp.s__Transportation) (tptp.s__instance tptp.s__TransportViaRoadVehicle__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__TransportViaRoadVehicle tptp.s__LandTransportation) (tptp.s__documentation tptp.s__TransportViaRoadVehicle tptp.s__EnglishLanguage |tptp.'&%TransportViaRoadVehicle is the class of &%Transportation events in which the &%instrument is an instance of &%RoadVehicle.'|) (tptp.s__subclass tptp.s__FlyingAircraft tptp.s__Driving) (tptp.s__instance tptp.s__FlyingAircraft__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FlyingAircraft tptp.s__EnglishLanguage |tptp.'Controlling the direction, speed, and altitude of an &%Aircraft'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__FlyingAircraft |tptp.'Flying'|) (forall ((V__FLY $$unsorted)) (=> (tptp.s__instance V__FLY tptp.s__Process) (=> (tptp.s__instance V__FLY tptp.s__FlyingAircraft) (exists ((V__CRAFT $$unsorted)) (and (tptp.s__instance V__CRAFT tptp.s__Aircraft) (tptp.s__patient V__FLY V__CRAFT)))))) (forall ((V__FLY $$unsorted)) (=> (tptp.s__instance V__FLY tptp.s__Process) (=> (tptp.s__instance V__FLY tptp.s__FlyingAircraft) (exists ((V__FLIGHT $$unsorted)) (and (tptp.s__instance V__FLIGHT tptp.s__Process) (tptp.s__instance V__FLIGHT tptp.s__AirTransportation) (tptp.s__subProcess V__FLY V__FLIGHT)))))) (tptp.s__subclass tptp.s__Aircraft tptp.s__Vehicle) (tptp.s__documentation tptp.s__Aircraft tptp.s__EnglishLanguage |tptp.'Any Vehicle which is capable of AirTransportation. Note that this class covers both fixed-wing aircraft and helicopters.'|) (forall ((V__CRAFT $$unsorted)) (=> (tptp.s__instance V__CRAFT tptp.s__Object) (=> (tptp.s__instance V__CRAFT tptp.s__Aircraft) (tptp.s__capability tptp.s__AirTransportation tptp.s__instrument__m V__CRAFT)))) (tptp.s__subclass tptp.s__Helicopter tptp.s__Aircraft) (tptp.s__instance tptp.s__Helicopter__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Aircraft__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Helicopter tptp.s__EnglishLanguage |tptp.'Any &%Aircraft with rapidly rotating wings.'|) (tptp.s__subclass tptp.s__MilitaryArtifact tptp.s__Artifact) (tptp.s__instance tptp.s__MilitaryArtifact__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MilitaryArtifact tptp.s__EnglishLanguage |tptp.'Any &%Artifact which is made for a &%MilitaryOrganization.'|) (forall ((V__A $$unsorted)) (=> (tptp.s__instance V__A tptp.s__Object) (=> (tptp.s__instance V__A tptp.s__MilitaryArtifact) (tptp.s__hasPurpose V__A |tptp.'(? [V__O] : (s__instance(V__O,s__Agent) & s__instance(V__O,s__MilitaryOrganization) & s__uses(V__A,V__O)))'|)))) (tptp.s__subclass tptp.s__ExplosiveDevice tptp.s__Device) (tptp.s__documentation tptp.s__ExplosiveDevice tptp.s__EnglishLanguage |tptp.'A &%Device whose purpose is to explode. Note that &%ExplosiveDevice is not a subclass of &%Weapon, since explosives can be used in demolition work and in fireworks displays, for example.'|) (forall ((V__ED $$unsorted)) (=> (tptp.s__instance V__ED tptp.s__Object) (=> (tptp.s__instance V__ED tptp.s__ExplosiveDevice) (tptp.s__hasPurpose V__ED |tptp.'(? [V__E,V__D] : (s__instance(V__D,s__Process) & s__instance(V__E,s__Process) & s__instance(V__E,s__Explosion) & s__instrument(V__E,V__ED) & s__causes(V__E,V__D) & s__instance(V__D,s__Damaging)))'|)))) (tptp.s__subclass tptp.s__ExplosiveMine tptp.s__ExplosiveDevice) (tptp.s__subclass tptp.s__ExplosiveMine tptp.s__Weapon) (tptp.s__instance tptp.s__ExplosiveMine__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ExplosiveMine tptp.s__EnglishLanguage |tptp.'An &%ExplosiveDevice which is designed to explode when there is movement over it, e.g. by a person on foot, by a &%RoadVehicle, etc.'|) (tptp.s__subclass tptp.s__ExplosiveSubstance tptp.s__Substance) (tptp.s__instance tptp.s__ExplosiveSubstance__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ExplosiveSubstance tptp.s__EnglishLanguage |tptp.'Any &%Substance which is capable of exploding.'|) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Object) (=> (tptp.s__instance V__S tptp.s__ExplosiveSubstance) (tptp.s__capability tptp.s__Explosion tptp.s__instrument__m V__S)))) (forall ((V__D $$unsorted)) (=> (tptp.s__instance V__D tptp.s__Object) (=> (tptp.s__instance V__D tptp.s__ExplosiveDevice) (exists ((V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__Object) (tptp.s__instance V__S tptp.s__ExplosiveSubstance) (tptp.s__part V__S V__D)))))) (tptp.s__subclass tptp.s__Driveway tptp.s__Roadway) (tptp.s__instance tptp.s__Driveway__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Driveway tptp.s__EnglishLanguage |tptp.'A small, private &%Roadway that is used for parking &%Automobiles or for connecting a &%Garage to a public &%Roadway.'|) (tptp.s__instance tptp.s__OperatingFn__m tptp.s__UnaryFunction) (tptp.s__documentation tptp.s__OperatingFn__m tptp.s__EnglishLanguage |tptp.'(&%OperatingFn ?DEVICE) denotes the class of events in which a &%Device of type ?device is operated.'|) (tptp.s__domain tptp.s__OperatingFn__m |"1"| tptp.s__Device) (tptp.s__rangeSubclass tptp.s__OperatingFn__m tptp.s__Process) (tptp.s__subclass tptp.s__Installing tptp.s__Putting) (tptp.s__instance tptp.s__Installing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Installing tptp.s__EnglishLanguage |tptp.'&%Putting a &%Device in a location and configuring the &%Device so that it can be used as intended after the installation.'|) (forall ((V__INSTALL $$unsorted) (V__DEVICE $$unsorted)) (=> (tptp.s__instance V__INSTALL tptp.s__Process) (=> (and (tptp.s__instance V__INSTALL tptp.s__Installing) (tptp.s__patient V__INSTALL V__DEVICE)) (tptp.s__instance V__DEVICE tptp.s__Device)))) (tptp.s__subclass tptp.s__Rock tptp.s__Substance) (tptp.s__instance tptp.s__Rock__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Rock tptp.s__EnglishLanguage |tptp.'&%Rock is any naturally formed aggregate of one or more minerals, consolidated or not, with some degree of mineralogic and chemical constancy, in popular use the term is usually restricted to those aggregates that are hard, compact, and coherent.'|) (forall ((V__Rock $$unsorted)) (=> (tptp.s__instance V__Rock tptp.s__Object) (=> (tptp.s__instance V__Rock tptp.s__Rock) (tptp.s__attribute V__Rock tptp.s__Solid)))) (forall ((V__Rock $$unsorted)) (=> (tptp.s__instance V__Rock tptp.s__Object) (=> (tptp.s__instance V__Rock tptp.s__Rock) (exists ((V__Mineral $$unsorted)) (and (tptp.s__instance V__Mineral tptp.s__Object) (tptp.s__instance V__Mineral tptp.s__Mineral) (tptp.s__part V__Mineral V__Rock)))))) (tptp.s__subclass tptp.s__Soil tptp.s__Mixture) (tptp.s__instance tptp.s__Soil__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Soil tptp.s__EnglishLanguage |tptp.'&%Soil is a substance composed of fine rock material disintegrated by geological processes, mixed with humus, the organic remains of decomposed vegetation.'|) (forall ((V__Soil $$unsorted)) (=> (tptp.s__instance V__Soil tptp.s__Object) (=> (tptp.s__instance V__Soil tptp.s__Soil) (exists ((V__Humus $$unsorted) (V__Mineral $$unsorted)) (and (tptp.s__instance V__Mineral tptp.s__Object) (tptp.s__instance V__Humus tptp.s__Object) (tptp.s__instance V__Humus tptp.s__Humus) (tptp.s__instance V__Mineral tptp.s__Mineral) (tptp.s__part V__Humus V__Soil) (tptp.s__part V__Mineral V__Soil)))))) (tptp.s__subclass tptp.s__Clay tptp.s__Soil) (tptp.s__instance tptp.s__Clay__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Clay tptp.s__EnglishLanguage |tptp.'Fine-grained soil consisting of mineral particles, not necessarily clay minerals, that are less than 0.002 mm in their maximum dimension.'|) (forall ((V__Size $$unsorted) (V__Particle $$unsorted) (V__Soil $$unsorted)) (=> (and (tptp.s__instance V__Soil tptp.s__Object) (tptp.s__instance V__Particle tptp.s__Object) (tptp.s__instance V__Particle tptp.s__Circle) (tptp.s__instance V__Size tptp.s__RealNumber)) (=> (and (tptp.s__part V__Particle V__Soil) (tptp.s__instance V__Soil tptp.s__Clay) (tptp.s__diameter V__Particle (tptp.s__MeasureFn V__Size tptp.s__Centimeter))) (tptp.greater |"0.0002"| V__Size)))) (tptp.s__subclass tptp.s__Humus tptp.s__Mixture) (tptp.s__instance tptp.s__Humus__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Humus tptp.s__EnglishLanguage |tptp.'&%Humus is decaying organic matter found in &%Soil and derived from dead animal and plant material.'|) (forall ((V__Humus $$unsorted)) (=> (tptp.s__instance V__Humus tptp.s__Object) (=> (tptp.s__instance V__Humus tptp.s__Humus) (exists ((V__Soil $$unsorted)) (and (tptp.s__instance V__Soil tptp.s__Object) (tptp.s__instance V__Soil tptp.s__Soil) (tptp.s__part V__Humus V__Soil)))))) (tptp.s__subclass tptp.s__Burying tptp.s__Putting) (tptp.s__instance tptp.s__Burying__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Burying tptp.s__Digging) (tptp.s__instance tptp.s__Digging__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Burying tptp.s__EnglishLanguage |tptp.'Putting something in the ground and then covering it with &%Soil.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Process) (=> (tptp.s__instance V__B tptp.s__Burying) (exists ((V__C $$unsorted) (V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__Object) (tptp.s__instance V__C tptp.s__Process) (tptp.s__instance V__C tptp.s__Covering) (tptp.s__instrument V__C V__S) (tptp.s__instance V__S tptp.s__Soil) (tptp.s__subProcess V__C V__B)))))) (tptp.s__subclass tptp.s__Digging tptp.s__IntentionalProcess) (tptp.s__subclass tptp.s__Digging tptp.s__SurfaceChange) (tptp.s__documentation tptp.s__Digging tptp.s__EnglishLanguage |tptp.'Any &%Process of removing or turning over the &%Soil.'|) (forall ((V__D $$unsorted)) (=> (tptp.s__instance V__D tptp.s__Process) (=> (tptp.s__instance V__D tptp.s__Digging) (exists ((V__S $$unsorted)) (and (tptp.s__patient V__D V__S) (tptp.s__instance V__S tptp.s__Soil)))))) (tptp.s__subclass tptp.s__Tilling tptp.s__Digging) (tptp.s__documentation tptp.s__Tilling tptp.s__EnglishLanguage |tptp.'Any &%Process of &%Digging, e.g. breaking and turning over &%Soil that facilitates &%Agriculture.'|) (tptp.s__subclass tptp.s__Tilling tptp.s__IntentionalProcess) (tptp.s__subclass tptp.s__Tilling tptp.s__SurfaceChange) (tptp.s__instance tptp.s__Tilling__t tptp.s__SetOrClass) (forall ((V__TILL $$unsorted) (V__SOIL $$unsorted)) (=> (tptp.s__instance V__TILL tptp.s__Process) (=> (and (tptp.s__instance V__TILL tptp.s__Tilling) (tptp.s__patient V__TILL V__SOIL)) (tptp.s__instance V__SOIL tptp.s__Soil)))) (forall ((V__T $$unsorted)) (=> (tptp.s__instance V__T tptp.s__Process) (=> (tptp.s__instance V__T tptp.s__Tilling) (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__Process) (tptp.s__instance V__A tptp.s__Agriculture) (tptp.s__subProcess V__T V__A)))))) (tptp.s__subclass tptp.s__Entombing tptp.s__Putting) (tptp.s__instance tptp.s__Entombing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Entombing tptp.s__EnglishLanguage |tptp.'More commonly known as burying, this is the class of processes of putting a &%HumanCorpse into a Tomb. Note that this class is not a subclass of &%Burying, since some &%Tombs are not covered with &%Soil, e.g. those in a mausoleum.'|) (forall ((V__C $$unsorted) (V__E $$unsorted)) (=> (tptp.s__instance V__E tptp.s__Process) (=> (and (tptp.s__instance V__E tptp.s__Entombing) (tptp.s__patient V__E V__C)) (tptp.s__instance V__C tptp.s__HumanCorpse)))) (forall ((V__T $$unsorted) (V__E $$unsorted)) (=> (tptp.s__instance V__E tptp.s__Process) (=> (and (tptp.s__instance V__E tptp.s__Entombing) (tptp.s__destination V__E V__T)) (tptp.s__instance V__T tptp.s__Tomb)))) (tptp.s__subclass tptp.s__MovingResidence tptp.s__Transfer) (tptp.s__instance tptp.s__MovingResidence__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MovingResidence tptp.s__EnglishLanguage |tptp.'The process of changing ones residence, i.e. moving ones belongs to a new &%home.'|) (tptp.s__subclass tptp.s__Harvesting tptp.s__Removing) (tptp.s__instance tptp.s__Harvesting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Harvesting tptp.s__EnglishLanguage |tptp.'Gathering the plant results of &%Agriculture.'|) (forall ((V__H $$unsorted)) (=> (tptp.s__instance V__H tptp.s__Process) (=> (tptp.s__instance V__H tptp.s__Harvesting) (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__Process) (tptp.s__instance V__A tptp.s__Agriculture) (tptp.s__subProcess V__H V__A)))))) (forall ((V__C $$unsorted) (V__H $$unsorted)) (=> (tptp.s__instance V__H tptp.s__Process) (=> (and (tptp.s__instance V__H tptp.s__Harvesting) (tptp.s__result V__H V__C)) (or (tptp.s__instance V__C tptp.s__PlantAnatomicalStructure) (tptp.s__instance V__C tptp.s__PlantSubstance))))) (tptp.s__subclass tptp.s__Drilling tptp.s__IntentionalProcess) (tptp.s__subclass tptp.s__Drilling tptp.s__SurfaceChange) (tptp.s__instance tptp.s__Drilling__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Drilling tptp.s__EnglishLanguage |tptp.'Any &%Process of producing a &%hole in a &%SelfConnectedObject which involves rotating a long, thin bit.'|) (tptp.s__subclass tptp.s__Drill tptp.s__CuttingDevice) (tptp.s__instance tptp.s__Drill__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__CuttingDevice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Drill tptp.s__EnglishLanguage |tptp.'A &%Device that has the purpose of creating a &%Hole. This covers manual drills as well as electric or pneumatic drills.'|) (forall ((V__D $$unsorted)) (=> (tptp.s__instance V__D tptp.s__Object) (=> (tptp.s__instance V__D tptp.s__Drill) (tptp.s__hasPurpose V__D |tptp.'(? [V__E,V__H] : (s__instance(V__E,s__Process) & s__instance(V__E,s__Cutting) & s__instance(V__H,s__Hole) & s__result(V__E,V__H) & s__instrument(V__E,V__D)))'|)))) (tptp.s__subclass tptp.s__Memorizing tptp.s__Learning) (tptp.s__instance tptp.s__Memorizing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Memorizing tptp.s__EnglishLanguage |tptp.'The process of committing a &%Text to memory.'|) (forall ((V__T $$unsorted) (V__M $$unsorted)) (=> (tptp.s__instance V__M tptp.s__Process) (=> (and (tptp.s__instance V__M tptp.s__Memorizing) (tptp.s__patient V__M V__T)) (tptp.s__instance V__T tptp.s__Text)))) (tptp.s__subclass tptp.s__Imagining tptp.s__PsychologicalProcess) (tptp.s__documentation tptp.s__Imagining tptp.s__EnglishLanguage |tptp.'Forming a mental picture of something which is not present.'|) (tptp.s__subclass tptp.s__Dreaming tptp.s__Imagining) (tptp.s__instance tptp.s__Dreaming__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Imagining__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__Dreaming tptp.s__IntentionalProcess) (tptp.s__documentation tptp.s__Dreaming tptp.s__EnglishLanguage |tptp.'A &%Process of producing metal images which occurs while one is &%Asleep.'|) (tptp.s__subclass tptp.s__Frightening tptp.s__PsychologicalProcess) (tptp.s__instance tptp.s__Frightening__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Frightening tptp.s__EnglishLanguage |tptp.'Any &%PsychologicalProcess where the &%patient comes to feel &%Anxiety.'|) (tptp.s__subclass tptp.s__Execution tptp.s__Killing) (tptp.s__instance tptp.s__Execution__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Execution tptp.s__EnglishLanguage |tptp.'&%Killing of a &%Human by a &%Government for the commission of a &%CriminalAction.'|) (forall ((V__E $$unsorted)) (=> (tptp.s__instance V__E tptp.s__Process) (=> (tptp.s__instance V__E tptp.s__Execution) (exists ((V__G $$unsorted)) (and (tptp.s__instance V__G tptp.s__Agent) (tptp.s__instance V__G tptp.s__Government) (tptp.s__agent V__E V__G)))))) (forall ((V__E $$unsorted)) (=> (tptp.s__instance V__E tptp.s__Process) (=> (tptp.s__instance V__E tptp.s__Execution) (exists ((V__P $$unsorted)) (and (tptp.s__patient V__E V__P) (tptp.s__instance V__P tptp.s__Human)))))) (tptp.s__subclass tptp.s__Suicide tptp.s__Killing) (tptp.s__instance tptp.s__Suicide__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Suicide tptp.s__EnglishLanguage |tptp.'Any instance of &%Killing where the &%agent and the &%experiencer are identical.'|) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Process) (=> (tptp.s__instance V__S tptp.s__Suicide) (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__Agent) (tptp.s__agent V__S V__A) (tptp.s__experiencer V__S V__A)))))) (tptp.s__subclass tptp.s__Trespassing tptp.s__CriminalAction) (tptp.s__subclass tptp.s__Trespassing tptp.s__Translocation) (tptp.s__instance tptp.s__Trespassing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Trespassing tptp.s__EnglishLanguage |tptp.'Entering property that does not belong to one and without the permission of the owner of the property.'|) (tptp.s__subclass tptp.s__Murder tptp.s__Killing) (tptp.s__instance tptp.s__Murder__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Murder tptp.s__CriminalAction) (tptp.s__documentation tptp.s__Murder tptp.s__EnglishLanguage |tptp.'Impermissible &%Killing of a &%Human.'|) (forall ((V__MURDER $$unsorted)) (=> (tptp.s__instance V__MURDER tptp.s__Process) (=> (tptp.s__instance V__MURDER tptp.s__Murder) (exists ((V__PERSON $$unsorted)) (and (tptp.s__patient V__MURDER V__PERSON) (tptp.s__instance V__PERSON tptp.s__Human)))))) (tptp.s__subclass tptp.s__Suffocating tptp.s__Killing) (tptp.s__documentation tptp.s__Suffocating tptp.s__EnglishLanguage |tptp.'&%Killing someone by asphyxiation, i.e. by depriving them of &%Oxygen.'|) (forall ((V__P $$unsorted) (V__S $$unsorted) (V__H $$unsorted)) (=> (and (tptp.s__instance V__H tptp.s__Physical) (tptp.s__instance V__S tptp.s__Process) (tptp.s__instance V__P tptp.s__Agent)) (=> (tptp.s__instance V__S tptp.s__Suffocating) (tptp.s__holdsDuring (tptp.s__EndFn (tptp.s__WhenFn V__H)) |tptp.'(s__experiencer(V__S,V__P) & (~ (? [V__B] : (s__instance(V__B,s__Process) & s__instance(V__B,s__Breathing) & s__experiencer(V__B,V__P)))))'|)))) (tptp.s__subclass tptp.s__Hanging tptp.s__Suffocating) (tptp.s__instance tptp.s__Hanging__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Suffocating__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Hanging tptp.s__EnglishLanguage |tptp.'Suffocating someone by suspending him/her from a rope wound around the neck until asphyxiation occurs.'|) (tptp.s__subclass tptp.s__Starving tptp.s__Killing) (tptp.s__instance tptp.s__Starving__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Starving tptp.s__EnglishLanguage |tptp.'&%Killing someone by depriving them of food.'|) (tptp.s__subclass tptp.s__MusicalConducting tptp.s__Guiding) (tptp.s__documentation tptp.s__MusicalConducting tptp.s__EnglishLanguage |tptp.'An &%instance of &%MusicalConducting is a &%Guiding in which the patient (entity guided) is a &%Musician or a &%MusicalGroup.'|) (forall ((V__CONDUCT $$unsorted)) (=> (tptp.s__instance V__CONDUCT tptp.s__Process) (=> (tptp.s__instance V__CONDUCT tptp.s__MusicalConducting) (exists ((V__MUSIC $$unsorted)) (and (tptp.s__instance V__MUSIC tptp.s__Process) (tptp.s__instance V__MUSIC tptp.s__MusicalPerformance) (tptp.s__subProcess V__CONDUCT V__MUSIC)))))) (tptp.s__subclass tptp.s__OrchestralConducting tptp.s__MusicalConducting) (tptp.s__instance tptp.s__OrchestralConducting__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__MusicalConducting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__OrchestralConducting tptp.s__EnglishLanguage |tptp.'&%OrchestralConducting is a type of &%MusicalConducting where the patient is an &%Orchestra.'|) (forall ((V__GRP $$unsorted) (V__CONDUCT $$unsorted)) (=> (tptp.s__instance V__CONDUCT tptp.s__Process) (=> (and (tptp.s__instance V__CONDUCT tptp.s__OrchestralConducting) (tptp.s__patient V__CONDUCT V__GRP)) (tptp.s__instance V__CONDUCT tptp.s__Orchestra)))) (tptp.s__subclass tptp.s__MusicalGroup tptp.s__GroupOfPeople) (tptp.s__documentation tptp.s__MusicalGroup tptp.s__EnglishLanguage |tptp.'A &%GroupOfPeople that create &%MakingMusic together.'|) (tptp.s__subclass tptp.s__Orchestra tptp.s__MusicalGroup) (tptp.s__instance tptp.s__Orchestra__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__MusicalGroup__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Orchestra tptp.s__EnglishLanguage |tptp.'A &%GroupOfPeople that create &%MakingInstrumentalMusic together.'|) (forall ((V__ORCHESTRA $$unsorted)) (=> (tptp.s__instance V__ORCHESTRA tptp.s__Agent) (=> (tptp.s__instance V__ORCHESTRA tptp.s__Orchestra) (tptp.s__hasPurpose V__ORCHESTRA |tptp.'(? [V__MUSIC] : (s__instance(V__MUSIC,s__Process) & s__instance(V__MUSIC,s__MakingInstrumentalMusic) & s__agent(V__MUSIC,V__ORCHESTRA)))'|)))) (tptp.s__subclass tptp.s__DramaticDirecting tptp.s__Guiding) (tptp.s__instance tptp.s__DramaticDirecting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__DramaticDirecting tptp.s__EnglishLanguage |tptp.'The process of directing a &%DramaticActing in a &%MotionPicture or the &%Performance of a &%DramaticPlay.'|) (forall ((V__DIRECT $$unsorted) (V__ACT $$unsorted)) (=> (tptp.s__instance V__DIRECT tptp.s__Process) (=> (and (tptp.s__instance V__DIRECT tptp.s__DramaticDirecting) (tptp.s__patient V__DIRECT V__ACT)) (tptp.s__instance V__ACT tptp.s__DramaticActing)))) (tptp.s__subclass tptp.s__Sharing tptp.s__ChangeOfPossession) (tptp.s__instance tptp.s__Sharing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sharing tptp.s__EnglishLanguage |tptp.'The subclass of &%ChangeOfPossession where a &%properPart of the &%patient is given by the &%agent or the &%destination.'|) (forall ((V__OBJ $$unsorted) (V__SHARE $$unsorted) (V__AGENT2 $$unsorted) (V__AGENT1 $$unsorted)) (=> (and (tptp.s__instance V__AGENT1 tptp.s__Agent) (tptp.s__instance V__SHARE tptp.s__Process) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (and (tptp.s__instance V__SHARE tptp.s__Sharing) (tptp.s__agent V__SHARE V__AGENT1) (tptp.s__destination V__SHARE V__AGENT2) (tptp.s__patient V__SHARE V__OBJ)) (exists ((V__GIVE $$unsorted) (V__PART $$unsorted)) (and (tptp.s__instance V__PART tptp.s__Object) (tptp.s__instance V__GIVE tptp.s__Process) (tptp.s__instance V__GIVE tptp.s__Giving) (tptp.s__subProcess V__GIVE V__SHARE) (tptp.s__patient V__GIVE V__PART) (tptp.s__properPart V__PART V__OBJ) (tptp.s__agent V__GIVE V__AGENT1) (tptp.s__destination V__GIVE V__AGENT2)))))) (tptp.s__subclass tptp.s__Stealing tptp.s__UnilateralGetting) (tptp.s__subclass tptp.s__Stealing tptp.s__CriminalAction) (tptp.s__instance tptp.s__Stealing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Stealing tptp.s__EnglishLanguage |tptp.'Any &%UnilateralGetting which is not permitted by the &%origin of the &%UnilateralGetting. These cases of &%UnilateralGetting are distinguished from ones where the &%destination is the subject of charity or other forms of benefaction.'|) (tptp.s__subclass tptp.s__Robbing tptp.s__Stealing) (tptp.s__documentation tptp.s__Robbing tptp.s__EnglishLanguage |tptp.'Any instance of &%Stealing which involves the threat of the use of force.'|) (forall ((V__P $$unsorted) (V__R $$unsorted) (V__P2 $$unsorted)) (=> (and (tptp.s__instance V__R tptp.s__Process) (tptp.s__instance V__P tptp.s__Agent)) (=> (and (tptp.s__instance V__R tptp.s__Robbing) (tptp.s__agent V__R V__P) (tptp.s__patient V__R V__P2)) (exists ((V__T $$unsorted)) (and (tptp.s__instance V__T tptp.s__Threatening) (tptp.s__subProcess V__T V__R) (tptp.s__patient V__T |tptp.'(? [V__A] : (s__instance(V__A,s__Process) & s__instance(V__T,s__Process) & s__instance(V__A,s__Attack) & s__agent(V__A,V__P) & s__patient(V__A,V__P2)))'|)))))) (tptp.s__subclass tptp.s__Inheriting tptp.s__UnilateralGetting) (tptp.s__instance tptp.s__Inheriting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Inheriting tptp.s__EnglishLanguage |tptp.'Any &%UnilateralGetting where the &%agent receives some part of the property of a person upon the death of the person.'|) (tptp.s__subclass tptp.s__Awarding tptp.s__UnilateralGiving) (tptp.s__instance tptp.s__Awarding__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Awarding tptp.s__EnglishLanguage |tptp.'&%Giving to any &%Agent for doing some &%Process.'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Awarding tptp.awarding) (forall ((V__A $$unsorted)) (=> (tptp.s__instance V__A tptp.s__Process) (=> (tptp.s__instance V__A tptp.s__Awarding) (exists ((V__RECIPIENT $$unsorted) (V__GIVER $$unsorted) (V__PROCESS $$unsorted) (V__AWARD $$unsorted)) (and (tptp.s__instance V__RECIPIENT tptp.s__Agent) (tptp.s__instance V__GIVER tptp.s__Agent) (tptp.s__instance V__PROCESS tptp.s__Process) (tptp.s__instance V__AWARD tptp.s__Object) (tptp.s__agent V__PROCESS V__RECIPIENT) (tptp.s__agent V__A V__GIVER) (tptp.s__patient V__A V__AWARD) (tptp.s__destination V__A V__RECIPIENT) (tptp.s__causes V__PROCESS V__A)))))) (tptp.s__instance tptp.s__hasAward__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__hasAward__m |"1"| tptp.s__Agent) (tptp.s__domain tptp.s__hasAward__m |"2"| tptp.s__Object) (tptp.s__documentation tptp.s__hasAward__m tptp.s__EnglishLanguage |tptp.'(hasAward ?RECIPIENT ?AWARD) means the &%Agent ?RECIPIENT recieved the &%Object ?AWARD as an award for some action they did.'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__hasAward__m |tptp.'has award'|) (forall ((V__RECIPIENT $$unsorted) (V__AWARD $$unsorted)) (=> (and (tptp.s__instance V__AWARD tptp.s__Object) (tptp.s__instance V__RECIPIENT tptp.s__Agent)) (=> (tptp.s__hasAward V__RECIPIENT V__AWARD) (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__Process) (tptp.s__instance V__A tptp.s__Awarding) (tptp.s__destination V__A V__RECIPIENT) (tptp.s__patient V__A V__AWARD)))))) (tptp.s__subclass tptp.s__Bequeathing tptp.s__UnilateralGiving) (tptp.s__instance tptp.s__Bequeathing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Bequeathing tptp.s__EnglishLanguage |tptp.'Any &%UnilateralGiving where the agent wills some part of his/her property to someone else upon his/her death.'|) (tptp.s__subclass tptp.s__SeizingProperty tptp.s__UnilateralGetting) (tptp.s__instance tptp.s__SeizingProperty__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SeizingProperty tptp.s__EnglishLanguage |tptp.'Any instance of &%UnilateralGetting which is done by a &%Government and which is not permitted by the origin of the &%UnilateralGetting.'|) (tptp.s__partition_3 tptp.s__Position tptp.s__FullTimePosition tptp.s__PartTimePosition) (tptp.s__subclass tptp.s__FullTimePosition tptp.s__Position) (tptp.s__instance tptp.s__FullTimePosition__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FullTimePosition tptp.s__EnglishLanguage |tptp.'Any &%Position where the employee is either salaried or paid for at least 40 hour of work per week.'|) (tptp.s__subclass tptp.s__PartTimePosition tptp.s__Position) (tptp.s__documentation tptp.s__PartTimePosition tptp.s__EnglishLanguage |tptp.'Any &%Position where the employee is not salaried and is paid for less than 40 hours of work per week.'|) (tptp.s__instance tptp.s__CollegeFreshman tptp.s__CollegeStudentPosition) (tptp.s__instance tptp.s__CollegeStudentPosition__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__CollegeFreshman tptp.s__EnglishLanguage |tptp.'The &%Positions of a student at a &%PostSecondarySchool who has completed less than one year at the school.'|) (tptp.s__instance tptp.s__CollegeJunior tptp.s__CollegeStudentPosition) (tptp.s__documentation tptp.s__CollegeJunior tptp.s__EnglishLanguage |tptp.'The &%Positions of a student at a &%PostSecondarySchool who has completed at least two years and less than three years at the school.'|) (tptp.s__instance tptp.s__CollegeSenior tptp.s__CollegeStudentPosition) (tptp.s__documentation tptp.s__CollegeSenior tptp.s__EnglishLanguage |tptp.'The &%Positions of a student at a &%PostSecondarySchool who has completed at least three years and less than four years at the school.'|) (tptp.s__instance tptp.s__CollegeSophomore tptp.s__CollegeStudentPosition) (tptp.s__documentation tptp.s__CollegeSophomore tptp.s__EnglishLanguage |tptp.'The &%Positions of a student at a &%PostSecondarySchool who has completed at least one year and less than two years at the school.'|) (tptp.s__subclass tptp.s__CollegeStudentPosition tptp.s__Position) (tptp.s__documentation tptp.s__CollegeStudentPosition tptp.s__EnglishLanguage |tptp.'Any &%Position at a &%PostSecondarySchool which is occupied exclusively by students.'|) (tptp.s__instance tptp.s__Comedian tptp.s__EntertainmentProfession) (tptp.s__instance tptp.s__EntertainmentProfession__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Comedian tptp.s__EnglishLanguage |tptp.'&%Positions which involve performing stand-up comedy, which is recorded and/or performed in front of live audiences.'|) (forall ((V__P $$unsorted) (V__PREF $$unsorted)) (=> (and (tptp.s__instance V__PREF tptp.s__Process) (tptp.s__instance V__P tptp.s__Agent)) (=> (tptp.s__attribute V__P tptp.s__Comedian) (exists ((V__PERF $$unsorted) (V__L $$unsorted)) (and (tptp.s__instance V__L tptp.s__Process) (tptp.s__instance V__PERF tptp.s__Process) (tptp.s__instance V__PERF tptp.s__Performance) (tptp.s__agent V__PREF V__P) (tptp.s__instance V__L tptp.s__Laughing) (tptp.s__causes V__PERF V__L)))))) (tptp.s__instance tptp.s__Treasurer tptp.s__SkilledOccupation) (tptp.s__documentation tptp.s__Treasurer tptp.s__EnglishLanguage |tptp.'Any &%SkilledOccupation which involves receiving and disbursing money.'|) (tptp.s__subclass tptp.s__SalesPosition tptp.s__SkilledOccupation) (tptp.s__instance tptp.s__SalesPosition__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SalesPosition tptp.s__EnglishLanguage |tptp.'Any &%Position which involves &%Selling or trying to sell items.'|) (tptp.s__instance tptp.s__ClericalSecretary tptp.s__SkilledOccupation) (tptp.s__documentation tptp.s__ClericalSecretary tptp.s__EnglishLanguage |tptp.'The class of &%Positions where the position holder is responsible for clerical duties, e.g. typing documents, answering phones, keeping schedules, etc.'|) (tptp.s__subclass tptp.s__ServicePosition tptp.s__SkilledOccupation) (tptp.s__documentation tptp.s__ServicePosition tptp.s__EnglishLanguage |tptp.'Any &%Position which involves working as a waiter or servant, either for an &%Organization (e.g. a restaurant) or for a person or family.'|) (tptp.s__instance tptp.s__Dentist tptp.s__Profession) (tptp.s__documentation tptp.s__Dentist tptp.s__EnglishLanguage |tptp.'The &%Profession of being a dentist, i.e. diagnosing and treating problems related to the teeth.'|) (forall ((V__P $$unsorted)) (=> (tptp.s__instance V__P tptp.s__Agent) (=> (tptp.s__attribute V__P tptp.s__Dentist) (exists ((V__D $$unsorted) (V__T $$unsorted)) (and (tptp.s__instance V__D tptp.s__Process) (tptp.s__instance V__D tptp.s__DiagnosticProcess) (tptp.s__agent V__D V__P) (tptp.s__instance V__T tptp.s__Tooth) (tptp.s__patient V__D V__T)))))) (tptp.s__instance tptp.s__Pharmacist tptp.s__Profession) (tptp.s__documentation tptp.s__Pharmacist tptp.s__EnglishLanguage |tptp.'The &%Profession of being a pharmacist, i.e. preparing and dispensing &%BiologicallyActiveSubstances.'|) (tptp.s__instance tptp.s__Researcher tptp.s__Profession) (tptp.s__documentation tptp.s__Researcher tptp.s__EnglishLanguage |tptp.'The &%Profession of being a scientific researcher.'|) (forall ((V__P $$unsorted)) (=> (tptp.s__instance V__P tptp.s__Human) (=> (tptp.s__attribute V__P tptp.s__Researcher) (exists ((V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__FieldOfStudy) (tptp.s__instance V__S tptp.s__Science) (tptp.s__hasExpertise V__P V__S)))))) (tptp.s__instance tptp.s__Teacher tptp.s__Profession) (tptp.s__instance tptp.s__Profession__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Teacher tptp.s__EnglishLanguage |tptp.'The &%Profession of being a teacher.'|) (forall ((V__O $$unsorted) (V__P $$unsorted) (V__T $$unsorted)) (=> (and (tptp.s__instance V__T tptp.s__Position) (tptp.s__instance V__T tptp.s__CognitiveAgent) (tptp.s__instance V__P tptp.s__Human) (tptp.s__instance V__O tptp.s__EducationalOrganization)) (=> (and (tptp.s__instance V__T tptp.s__Teacher) (tptp.s__occupiesPosition V__P V__T V__O)) (tptp.s__teacher V__T V__O)))) (forall ((V__T $$unsorted)) (=> (tptp.s__instance V__T tptp.s__Agent) (=> (tptp.s__instance V__T tptp.s__Teacher) (tptp.s__hasSkill tptp.s__EducationalProcess V__T)))) (tptp.s__subclass tptp.s__EntertainmentProfession tptp.s__SkilledOccupation) (tptp.s__documentation tptp.s__EntertainmentProfession tptp.s__EnglishLanguage |tptp.'Positions which involve creating content or performances that are intended to entertain. This class covers the &%TheaterProfession, &%FilmMakingProfession, being a comedian, etc.'|) (forall ((V__P $$unsorted) (V__EP $$unsorted)) (=> (and (tptp.s__instance V__EP tptp.s__Attribute) (tptp.s__instance V__P tptp.s__Human)) (=> (and (tptp.s__instance V__EP tptp.s__EntertainmentProfession) (tptp.s__attribute V__P V__EP)) (or (tptp.s__occupation V__P (tptp.s__OccupationFn tptp.s__Performance)) (tptp.s__occupation V__P (tptp.s__OccupationFn tptp.s__ContentDevelopment)))))) (tptp.s__subclass tptp.s__SportsPosition tptp.s__SkilledOccupation) (tptp.s__instance tptp.s__SportsPosition__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SportsPosition tptp.s__EnglishLanguage |tptp.'A &%Position which is filled by someone on a &%SportsTeam and which represents the role played by the person on the team.'|) (forall ((V__O $$unsorted) (V__P $$unsorted) (V__H $$unsorted)) (=> (and (tptp.s__instance V__H tptp.s__Human) (tptp.s__instance V__P tptp.s__Position) (tptp.s__instance V__O tptp.s__Organization)) (=> (and (tptp.s__occupiesPosition V__H V__P V__O) (tptp.s__instance V__P tptp.s__SportsPosition)) (tptp.s__instance V__O tptp.s__SportsTeam)))) (tptp.s__subclass tptp.s__GovernmentPosition tptp.s__Profession) (tptp.s__documentation tptp.s__GovernmentPosition tptp.s__EnglishLanguage |tptp.'Any &%Profession where the position occupied is within a &%GovernmentOrganization.'|) (forall ((V__O $$unsorted) (V__P $$unsorted) (V__ORG $$unsorted)) (=> (and (tptp.s__instance V__ORG tptp.s__Organization) (tptp.s__instance V__P tptp.s__Human) (tptp.s__instance V__O tptp.s__Position)) (=> (and (tptp.s__instance V__O tptp.s__GovernmentPosition) (tptp.s__occupiesPosition V__P V__O V__ORG)) (tptp.s__instance V__ORG tptp.s__GovernmentOrganization)))) (tptp.s__instance tptp.s__Journalist tptp.s__Profession) (tptp.s__documentation tptp.s__Journalist tptp.s__EnglishLanguage |tptp.'The &%Profession of being a news reporter, i.e. investigating and reporting, in a publication or broadcast program, current events.'|) (forall ((V__P $$unsorted)) (=> (tptp.s__instance V__P tptp.s__Human) (=> (tptp.s__attribute V__P tptp.s__Journalist) (and (tptp.s__occupation V__P (tptp.s__OccupationFn tptp.s__ContentDevelopment)) (tptp.s__occupation V__P (tptp.s__OccupationFn tptp.s__Disseminating)))))) (tptp.s__subclass tptp.s__ModellingPosition tptp.s__Position) (tptp.s__instance tptp.s__ModellingPosition__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ModellingPosition tptp.s__EnglishLanguage |tptp.'Any &%Position which involves posing for an artist or photographer.'|) (tptp.s__instance tptp.s__Soldier tptp.s__GovernmentPosition) (tptp.s__documentation tptp.s__Soldier tptp.s__EnglishLanguage |tptp.'This &%Attribute describes someone serving in the armed forces of a &%Nation.'|) (tptp.s__instance tptp.s__ConfederateSoldier tptp.s__GovernmentPosition) (tptp.s__subAttribute tptp.s__ConfederateSoldier tptp.s__Soldier) (tptp.s__documentation tptp.s__ConfederateSoldier tptp.s__EnglishLanguage |tptp.'This &%Attribute describes a &%Soldier who served on the Confederate side during the American Civil War.'|) (tptp.s__instance tptp.s__Sailor tptp.s__SkilledOccupation) (tptp.s__documentation tptp.s__Sailor tptp.s__EnglishLanguage |tptp.'The class of &%Positions which involve working on a ship, whether a merchant ship or a navy ship.'|) (tptp.s__subAttribute tptp.s__ShipCaptain tptp.s__Sailor) (tptp.s__documentation tptp.s__ShipCaptain tptp.s__EnglishLanguage |tptp.'The class of &%Positions which involve the command of a ship.'|) (tptp.s__subAttribute tptp.s__ShipOfficer tptp.s__Sailor) (tptp.s__documentation tptp.s__ShipOfficer tptp.s__EnglishLanguage |tptp.'The class of &%Sailors which have a position of responsibility on a &%Ship.'|) (tptp.s__subAttribute tptp.s__ShipMate tptp.s__Sailor) (tptp.s__documentation tptp.s__ShipMate tptp.s__EnglishLanguage |tptp.'The class of &%Positions that involve some responsibility on a ship and are lower in rank than &%ShipCaptain.'|) (tptp.s__instance tptp.s__MilitaryPrivate tptp.s__GovernmentPosition) (tptp.s__instance tptp.s__GovernmentPosition__t tptp.s__SetOrClass) (tptp.s__subAttribute tptp.s__MilitaryPrivate tptp.s__Soldier) (tptp.s__documentation tptp.s__MilitaryPrivate tptp.s__EnglishLanguage |tptp.'This &%Attribute describes an enlisted &%Soldier of the lowest rank.'|) (tptp.s__subAttribute tptp.s__MilitaryOfficer tptp.s__Soldier) (tptp.s__instance tptp.s__MilitaryOfficer tptp.s__GovernmentPosition) (tptp.s__documentation tptp.s__MilitaryOfficer tptp.s__EnglishLanguage |tptp.'This &%Attribute describes a &%Soldier who has command authority.'|) (forall ((V__OFFICER $$unsorted)) (=> (tptp.s__instance V__OFFICER tptp.s__Agent) (=> (tptp.s__instance V__OFFICER tptp.s__MilitaryOfficer) (exists ((V__MANAGE $$unsorted) (V__PATIENT $$unsorted)) (and (tptp.s__instance V__MANAGE tptp.s__Process) (tptp.s__instance V__MANAGE tptp.s__Managing) (tptp.s__agent V__MANAGE V__OFFICER) (tptp.s__patient V__MANAGE V__PATIENT) (or (tptp.s__instance V__PATIENT tptp.s__MilitaryOrganization) (tptp.s__instance V__PATIENT tptp.s__Soldier))))))) (tptp.s__subAttribute tptp.s__MilitaryGeneral tptp.s__MilitaryOfficer) (tptp.s__documentation tptp.s__MilitaryGeneral tptp.s__EnglishLanguage |tptp.'&%MilitaryGeneral is a generic &%Position that indicates holding (or having held) the rank of General in some military force. An indicator that someone uses the title, without committing to his or her exact rank or military affiliation.'|) (tptp.s__subAttribute tptp.s__MajorGeneral tptp.s__MilitaryGeneral) (tptp.s__instance tptp.s__MajorGeneral tptp.s__GovernmentPosition) (tptp.s__documentation tptp.s__MajorGeneral tptp.s__EnglishLanguage |tptp.'A &%MilitaryGeneral that ranks above a &%BrigadierGeneral.'|) (tptp.s__subAttribute tptp.s__BrigadierGeneral tptp.s__MilitaryGeneral) (tptp.s__instance tptp.s__BrigadierGeneral tptp.s__GovernmentPosition) (tptp.s__documentation tptp.s__BrigadierGeneral tptp.s__EnglishLanguage |tptp.'A &%MilitaryGeneral that ranks below a &%MajorGeneral.'|) (tptp.s__subAttribute tptp.s__Lieutenant tptp.s__MilitaryOfficer) (tptp.s__instance tptp.s__Lieutenant tptp.s__GovernmentPosition) (tptp.s__documentation tptp.s__Lieutenant tptp.s__EnglishLanguage |tptp.'A commissioned &%MilitaryOfficer.'|) (tptp.s__subAttribute tptp.s__CaptainOfficer tptp.s__MilitaryOfficer) (tptp.s__instance tptp.s__CaptainOfficer tptp.s__GovernmentPosition) (tptp.s__documentation tptp.s__CaptainOfficer tptp.s__EnglishLanguage |tptp.'A commissioned &%MilitaryOfficer who ranks above a &%Lieutenant but below a &%MajorOfficer.'|) (tptp.s__subAttribute tptp.s__Colonel tptp.s__MilitaryOfficer) (tptp.s__instance tptp.s__Colonel tptp.s__GovernmentPosition) (tptp.s__documentation tptp.s__Colonel tptp.s__EnglishLanguage |tptp.'A commissioned &%MilitaryOfficer who ranks above a lieutenant colonel and below a brigadier general.'|) (tptp.s__subAttribute tptp.s__Sergeant tptp.s__MilitaryOfficer) (tptp.s__instance tptp.s__Sergeant tptp.s__GovernmentPosition) (tptp.s__documentation tptp.s__Sergeant tptp.s__EnglishLanguage |tptp.'A noncomissioned &%MilitaryOfficer.'|) (tptp.s__subAttribute tptp.s__Corporal tptp.s__MilitaryOfficer) (tptp.s__instance tptp.s__Corporal tptp.s__GovernmentPosition) (tptp.s__documentation tptp.s__Corporal tptp.s__EnglishLanguage |tptp.'A noncomissioned &%MilitaryOfficer.'|) (tptp.s__instance tptp.s__CenturyDuration tptp.s__UnitOfDuration) (tptp.s__documentation tptp.s__CenturyDuration tptp.s__EnglishLanguage |tptp.'The &%TimeDuration of 100 years.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__CenturyDuration) (tptp.s__MeasureFn (tptp.times V__NUMBER |"100"|) tptp.s__YearDuration))))) (tptp.s__instance tptp.s__DecadeDuration tptp.s__UnitOfDuration) (tptp.s__documentation tptp.s__DecadeDuration tptp.s__EnglishLanguage |tptp.'The &%TimeDuration of 10 years.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__DecadeDuration) (tptp.s__MeasureFn (tptp.times V__NUMBER |"10"|) tptp.s__YearDuration))))) (tptp.s__instance tptp.s__YardLength tptp.s__UnitOfLength) (tptp.s__documentation tptp.s__YardLength tptp.s__EnglishLanguage |tptp.'English unit of length, equal to 3 &%FeetLength.'|) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__YardLength) (tptp.s__MeasureFn (tptp.times |"3"| V__NUMBER) tptp.s__FootLength))))) (tptp.s__subclass tptp.s__NightTime tptp.s__TimeInterval) (tptp.s__instance tptp.s__NightTime__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__NightTime tptp.s__EnglishLanguage |tptp.'The class of &%TimeIntervals that begin at &%Sunset and end at &%Sunrise.'|) (forall ((V__NIGHT $$unsorted)) (=> (tptp.s__instance V__NIGHT tptp.s__TimeInterval) (=> (tptp.s__instance V__NIGHT tptp.s__NightTime) (exists ((V__DAY1 $$unsorted) (V__DAY2 $$unsorted)) (and (tptp.s__instance V__DAY2 tptp.s__TimeInterval) (tptp.s__instance V__DAY1 tptp.s__TimeInterval) (tptp.s__instance V__DAY1 tptp.s__DayTime) (tptp.s__instance V__DAY2 tptp.s__DayTime) (tptp.s__meetsTemporally V__NIGHT V__DAY1) (tptp.s__meetsTemporally V__DAY2 V__NIGHT)))))) (forall ((V__NIGHT $$unsorted)) (=> (tptp.s__instance V__NIGHT tptp.s__TimeInterval) (=> (tptp.s__instance V__NIGHT tptp.s__NightTime) (exists ((V__RISE $$unsorted) (V__SET $$unsorted)) (and (tptp.s__instance V__SET tptp.s__TimeInterval) (tptp.s__instance V__RISE tptp.s__TimeInterval) (tptp.s__instance V__RISE tptp.s__Sunrise) (tptp.s__instance V__SET tptp.s__Sunset) (tptp.s__starts V__SET V__NIGHT) (tptp.s__finishes V__RISE V__NIGHT)))))) (tptp.s__subclass tptp.s__DayTime tptp.s__TimeInterval) (tptp.s__documentation tptp.s__DayTime tptp.s__EnglishLanguage |tptp.'The class of &%TimeIntervals that begin at &%Sunrise and end at &%Sunset.'|) (forall ((V__DAY $$unsorted)) (=> (tptp.s__instance V__DAY tptp.s__TimeInterval) (=> (tptp.s__instance V__DAY tptp.s__DayTime) (exists ((V__NIGHT1 $$unsorted) (V__NIGHT2 $$unsorted)) (and (tptp.s__instance V__NIGHT2 tptp.s__TimeInterval) (tptp.s__instance V__NIGHT1 tptp.s__TimeInterval) (tptp.s__instance V__NIGHT1 tptp.s__NightTime) (tptp.s__instance V__NIGHT2 tptp.s__NightTime) (tptp.s__meetsTemporally V__DAY V__NIGHT1) (tptp.s__meetsTemporally V__NIGHT2 V__DAY)))))) (forall ((V__DAY $$unsorted)) (=> (tptp.s__instance V__DAY tptp.s__TimeInterval) (=> (tptp.s__instance V__DAY tptp.s__DayTime) (exists ((V__RISE $$unsorted) (V__SET $$unsorted)) (and (tptp.s__instance V__SET tptp.s__TimeInterval) (tptp.s__instance V__RISE tptp.s__TimeInterval) (tptp.s__instance V__RISE tptp.s__Sunrise) (tptp.s__instance V__SET tptp.s__Sunset) (tptp.s__starts V__RISE V__DAY) (tptp.s__finishes V__SET V__DAY)))))) (tptp.s__subclass tptp.s__Morning tptp.s__DayTime) (tptp.s__instance tptp.s__Morning__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__DayTime__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Morning tptp.s__EnglishLanguage |tptp.'The class of &%TimeIntervals that begin at &%Sunrise and end at noon.'|) (forall ((V__DAY $$unsorted) (V__MORNING $$unsorted)) (=> (and (tptp.s__instance V__MORNING tptp.s__TimeInterval) (tptp.s__subclass V__DAY tptp.s__Day) (tptp.s__instance V__DAY tptp.s__SetOrClass)) (=> (tptp.s__instance V__MORNING tptp.s__Morning) (exists ((V__HOUR $$unsorted)) (and (tptp.s__instance V__HOUR tptp.s__TimeInterval) (tptp.s__instance V__HOUR (tptp.s__HourFn |"12"| V__DAY)) (tptp.s__finishes V__HOUR V__MORNING)))))) (tptp.s__subclass tptp.s__AnteMeridiem tptp.s__TimeInterval) (tptp.s__instance tptp.s__AnteMeridiem__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AnteMeridiem tptp.s__EnglishLanguage |tptp.'The class of &%TimeIntervals that begin at midnight and end at noon.'|) (forall ((V__AM $$unsorted)) (=> (tptp.s__instance V__AM tptp.s__TimeInterval) (=> (tptp.s__instance V__AM tptp.s__AnteMeridiem) (exists ((V__D $$unsorted) (V__HOUR1 $$unsorted) (V__HOUR2 $$unsorted)) (and (tptp.s__instance V__HOUR2 tptp.s__TimeInterval) (tptp.s__instance V__HOUR1 tptp.s__TimeInterval) (tptp.s__subclass V__D tptp.s__Day) (tptp.s__instance V__HOUR1 (tptp.s__HourFn |"24"| V__D)) (tptp.s__starts V__HOUR1 V__AM) (tptp.s__instance V__HOUR2 (tptp.s__HourFn |"12"| V__D)) (tptp.s__finishes V__HOUR2 V__AM)))))) (tptp.s__subclass tptp.s__PostMeridiem tptp.s__TimeInterval) (tptp.s__instance tptp.s__PostMeridiem__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PostMeridiem tptp.s__EnglishLanguage |tptp.'The class of &%TimeIntervals that begin at noon and end at midnight.'|) (forall ((V__PM $$unsorted)) (=> (tptp.s__instance V__PM tptp.s__TimeInterval) (=> (tptp.s__instance V__PM tptp.s__PostMeridiem) (exists ((V__D $$unsorted) (V__HOUR1 $$unsorted) (V__HOUR2 $$unsorted)) (and (tptp.s__instance V__HOUR2 tptp.s__TimeInterval) (tptp.s__instance V__HOUR1 tptp.s__TimeInterval) (tptp.s__subclass V__D tptp.s__Day) (tptp.s__instance V__HOUR1 (tptp.s__HourFn |"12"| V__D)) (tptp.s__starts V__HOUR1 V__PM) (tptp.s__instance V__HOUR2 (tptp.s__HourFn |"24"| V__D)) (tptp.s__finishes V__HOUR2 V__PM)))))) (tptp.s__subclass tptp.s__Afternoon tptp.s__DayTime) (tptp.s__instance tptp.s__Afternoon__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Afternoon tptp.s__EnglishLanguage |tptp.'The class of &%TimeIntervals that begin at noon and end at &%Sunset.'|) (forall ((V__DAY $$unsorted) (V__AFTERNOON $$unsorted)) (=> (and (tptp.s__instance V__AFTERNOON tptp.s__TimeInterval) (tptp.s__subclass V__DAY tptp.s__Day) (tptp.s__instance V__DAY tptp.s__SetOrClass)) (=> (tptp.s__instance V__AFTERNOON tptp.s__Afternoon) (exists ((V__HOUR $$unsorted)) (and (tptp.s__instance V__HOUR tptp.s__TimeInterval) (tptp.s__instance V__HOUR (tptp.s__HourFn |"12"| V__DAY)) (tptp.s__starts V__HOUR V__AFTERNOON)))))) (tptp.s__subclass tptp.s__Sunrise tptp.s__TimeInterval) (tptp.s__instance tptp.s__Sunrise__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sunrise tptp.s__EnglishLanguage |tptp.'The &%TimeInterval of each &%Day when the sun is rising and is partially overlapped by the horizon line.'|) (tptp.s__subclass tptp.s__Sunset tptp.s__TimeInterval) (tptp.s__instance tptp.s__Sunset__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sunset tptp.s__EnglishLanguage |tptp.'The &%TimeInterval of each &%Day when the sun is setting and is partially overlapped by the horizon line.'|) (tptp.s__subclass tptp.s__Weekend tptp.s__TimeInterval) (tptp.s__instance tptp.s__Weekend__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Weekend tptp.s__EnglishLanguage |tptp.'Any &%Saturday and &%Sunday which are contiguous.'|) (forall ((V__WEEKEND $$unsorted)) (=> (tptp.s__instance V__WEEKEND tptp.s__TimeInterval) (=> (tptp.s__instance V__WEEKEND tptp.s__Weekend) (exists ((V__SATURDAY $$unsorted) (V__SUNDAY $$unsorted)) (and (tptp.s__instance V__SUNDAY tptp.s__TimeInterval) (tptp.s__instance V__SATURDAY tptp.s__TimeInterval) (tptp.s__instance V__SATURDAY tptp.s__Saturday) (tptp.s__instance V__SUNDAY tptp.s__Sunday) (tptp.s__starts V__SATURDAY V__WEEKEND) (tptp.s__finishes V__SUNDAY V__WEEKEND) (tptp.s__meetsTemporally V__SATURDAY V__SUNDAY)))))) (tptp.s__subclass tptp.s__SeasonOfYear tptp.s__TimeInterval) (tptp.s__partition_5 tptp.s__SeasonOfYear tptp.s__WinterSeason tptp.s__SpringSeason tptp.s__SummerSeason tptp.s__FallSeason) (tptp.s__documentation tptp.s__SeasonOfYear tptp.s__EnglishLanguage |tptp.'&%SeasonOfYear is the class of four seasons correlated with the calendar &%Year and associated with changes in the length of daylight and with overall temperature changes. 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(tptp.s__instance V__AUTUMN tptp.s__FallSeason) (tptp.s__meetsTemporally V__AUTUMN V__WINTER)))))) (tptp.s__subclass tptp.s__SpringSeason tptp.s__SeasonOfYear) (tptp.s__instance tptp.s__SpringSeason__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SpringSeason tptp.s__EnglishLanguage |tptp.'The &%SeasonOfYear that begins at the spring equinox and ends at the summer solstice. &%SpringSeason is the class of &%TimeIntervals associated with the calendar months of &%March through &%May.'|) (forall ((V__SPRING $$unsorted)) (=> (tptp.s__instance V__SPRING tptp.s__TimeInterval) (=> (tptp.s__instance V__SPRING tptp.s__SpringSeason) (exists ((V__SUMMER $$unsorted)) (and (tptp.s__instance V__SUMMER tptp.s__TimeInterval) (tptp.s__instance V__SUMMER tptp.s__SummerSeason) (tptp.s__meetsTemporally V__SPRING V__SUMMER)))))) (forall ((V__SPRING $$unsorted)) (=> (tptp.s__instance V__SPRING tptp.s__TimeInterval) (=> (tptp.s__instance V__SPRING tptp.s__SpringSeason) (exists ((V__WINTER $$unsorted)) (and (tptp.s__instance V__WINTER tptp.s__TimeInterval) (tptp.s__instance V__WINTER tptp.s__WinterSeason) (tptp.s__meetsTemporally V__WINTER V__SPRING)))))) (tptp.s__subclass tptp.s__SummerSeason tptp.s__SeasonOfYear) (tptp.s__instance tptp.s__SummerSeason__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SummerSeason tptp.s__EnglishLanguage |tptp.'The &%SeasonOfYear that begins at the summer solstice and ends at the autumnal equinox.'|) (forall ((V__SUMMER $$unsorted)) (=> (tptp.s__instance V__SUMMER tptp.s__TimeInterval) (=> (tptp.s__instance V__SUMMER tptp.s__SummerSeason) (exists ((V__SPRING $$unsorted)) (and (tptp.s__instance V__SPRING tptp.s__TimeInterval) (tptp.s__instance V__SPRING tptp.s__SpringSeason) (tptp.s__meetsTemporally V__SPRING V__SUMMER)))))) (forall ((V__SUMMER $$unsorted)) (=> (tptp.s__instance V__SUMMER tptp.s__TimeInterval) (=> (tptp.s__instance V__SUMMER tptp.s__SummerSeason) (exists ((V__AUTUMN $$unsorted)) (and (tptp.s__instance V__AUTUMN tptp.s__TimeInterval) (tptp.s__instance V__AUTUMN tptp.s__FallSeason) (tptp.s__meetsTemporally V__SUMMER V__AUTUMN)))))) (tptp.s__subclass tptp.s__FallSeason tptp.s__SeasonOfYear) (tptp.s__instance tptp.s__FallSeason__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__SeasonOfYear__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FallSeason tptp.s__EnglishLanguage |tptp.'The &%SeasonOfYear that begins at the autumnal equinox and ends at the winter solstice.'|) (forall ((V__AUTUMN $$unsorted)) (=> (tptp.s__instance V__AUTUMN tptp.s__TimeInterval) (=> (tptp.s__instance V__AUTUMN tptp.s__FallSeason) (exists ((V__SUMMER $$unsorted)) (and (tptp.s__instance V__SUMMER tptp.s__TimeInterval) (tptp.s__instance V__SUMMER tptp.s__SummerSeason) (tptp.s__meetsTemporally V__SUMMER V__AUTUMN)))))) (forall ((V__AUTUMN $$unsorted)) (=> (tptp.s__instance V__AUTUMN tptp.s__TimeInterval) (=> (tptp.s__instance V__AUTUMN tptp.s__FallSeason) (exists ((V__WINTER $$unsorted)) (and (tptp.s__instance V__WINTER tptp.s__TimeInterval) (tptp.s__instance V__WINTER tptp.s__WinterSeason) (tptp.s__meetsTemporally V__AUTUMN V__WINTER)))))) (tptp.s__instance tptp.s__Upstairs tptp.s__PositionalAttribute) (tptp.s__documentation tptp.s__Upstairs tptp.s__EnglishLanguage |tptp.'A &%PositionalAttribute to indicate that one thing is one or more floors above a second thing in the same building.'|) (forall ((V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__Object)) (=> (tptp.s__orientation V__OBJ1 V__OBJ2 tptp.s__Upstairs) (exists ((V__LEVEL1 $$unsorted) (V__LEVEL2 $$unsorted) (V__BUILDING $$unsorted)) (and (tptp.s__instance V__BUILDING tptp.s__Object) (tptp.s__instance V__LEVEL2 tptp.s__Object) (tptp.s__instance V__LEVEL1 tptp.s__Object) (tptp.s__instance V__LEVEL1 tptp.s__BuildingLevel) (tptp.s__instance V__LEVEL2 tptp.s__BuildingLevel) (tptp.s__instance V__BUILDING tptp.s__Building) (tptp.s__part V__LEVEL1 V__BUILDING) (tptp.s__part V__LEVEL2 V__BUILDING) (tptp.s__located V__OBJ1 V__LEVEL1) (tptp.s__located V__OBJ2 V__LEVEL2) (tptp.s__orientation V__LEVEL1 V__LEVEL2 tptp.s__Above)))))) (tptp.s__instance tptp.s__Downstairs tptp.s__PositionalAttribute) (tptp.s__documentation tptp.s__Downstairs tptp.s__EnglishLanguage |tptp.'A &%PositionalAttribute to indicate that one thing is one or more floors below a second thing in the same building.'|) (forall ((V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__Object)) (=> (tptp.s__orientation V__OBJ1 V__OBJ2 tptp.s__Downstairs) (exists ((V__LEVEL1 $$unsorted) (V__LEVEL2 $$unsorted) (V__BUILDING $$unsorted)) (and (tptp.s__instance V__BUILDING tptp.s__Object) (tptp.s__instance V__LEVEL2 tptp.s__Object) (tptp.s__instance V__LEVEL1 tptp.s__Object) (tptp.s__instance V__LEVEL1 tptp.s__BuildingLevel) (tptp.s__instance V__LEVEL2 tptp.s__BuildingLevel) (tptp.s__instance V__BUILDING 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Note that this &%Attribute covers both active enjoyment, as well as the emotional state of simply being free from anxiety or fear.'|) (forall ((V__PERSON $$unsorted)) (=> (tptp.s__instance V__PERSON tptp.s__CognitiveAgent) (=> (tptp.s__attribute V__PERSON tptp.s__Happiness) (not (exists ((V__PROP $$unsorted)) (and (tptp.s__instance V__PROP tptp.s__Formula) (tptp.s__fears V__PERSON V__PROP))))))) (tptp.s__subAttribute tptp.s__Satisfaction tptp.s__Happiness) (tptp.s__documentation tptp.s__Satisfaction tptp.s__EnglishLanguage |tptp.'The state of being happy about a state of affairs that occurred in the past. In cases where that state of affairs is the product of ones own doing, this is known as pride.'|) (tptp.s__subAttribute tptp.s__Tranquility tptp.s__Happiness) (tptp.s__contraryAttribute_2 tptp.s__Tranquility tptp.s__Anxiety) (tptp.s__documentation tptp.s__Tranquility tptp.s__EnglishLanguage |tptp.'The state of being free from &%Anxiety.'|) (tptp.s__instance tptp.s__Unhappiness tptp.s__EmotionalState) (tptp.s__contraryAttribute_2 tptp.s__Unhappiness tptp.s__Happiness) (tptp.s__documentation tptp.s__Unhappiness tptp.s__EnglishLanguage |tptp.'The state of being unhappy, experiencing pain, sorrow or unease.'|) (tptp.s__subAttribute tptp.s__Excitement tptp.s__Happiness) (tptp.s__documentation tptp.s__Excitement tptp.s__EnglishLanguage |tptp.'The state of being happy about a state of affairs that might occur in the future.'|) (tptp.s__subAttribute tptp.s__Anxiety tptp.s__Unhappiness) (tptp.s__documentation tptp.s__Anxiety tptp.s__EnglishLanguage |tptp.'The state of being worried, troubled or uneasy.'|) (forall ((V__PERSON $$unsorted)) (=> (tptp.s__instance V__PERSON tptp.s__CognitiveAgent) (=> (tptp.s__attribute V__PERSON tptp.s__Anxiety) (exists ((V__PROP $$unsorted)) (and (tptp.s__instance V__PROP tptp.s__Formula) (tptp.s__fears V__PERSON V__PROP)))))) (tptp.s__subAttribute tptp.s__Anger tptp.s__Unhappiness) (tptp.s__documentation tptp.s__Anger tptp.s__EnglishLanguage |tptp.'The state of being wrathful, irate or indignant.'|) (forall ((V__PERSON $$unsorted)) (=> (tptp.s__instance V__PERSON tptp.s__CognitiveAgent) (=> (tptp.s__attribute V__PERSON tptp.s__Anger) (exists ((V__PROP $$unsorted)) (and (tptp.s__instance V__PROP tptp.s__Formula) (tptp.s__disapproves V__PERSON V__PROP)))))) (tptp.s__subAttribute tptp.s__Pain tptp.s__Unhappiness) (tptp.s__documentation tptp.s__Pain tptp.s__EnglishLanguage |tptp.'A physical sensation of discomfort which can vary widely in intensity.'|) (tptp.s__subAttribute tptp.s__Headache tptp.s__Pain) (tptp.s__documentation tptp.s__Headache tptp.s__EnglishLanguage |tptp.'&%Pain that that is restricted to the &%Head.'|) (forall ((V__E $$unsorted)) (=> (tptp.s__instance V__E tptp.s__Object) (=> (tptp.s__attribute V__E tptp.s__Headache) (exists ((V__H $$unsorted)) (and (tptp.s__instance V__H tptp.s__Object) (tptp.s__instance V__H tptp.s__Head) (tptp.s__part V__H V__E) (tptp.s__attribute V__H tptp.s__Pain)))))) (tptp.s__instance tptp.s__Surprise tptp.s__EmotionalState) (tptp.s__documentation tptp.s__Surprise tptp.s__EnglishLanguage |tptp.'The &%EmotionalState that one experiences when something unexpected and of significance occurs.'|) (tptp.s__instance tptp.s__structure__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__structure__m tptp.s__IrreflexiveRelation) (tptp.s__instance tptp.s__structure__m tptp.s__AsymmetricRelation) (tptp.s__subrelation tptp.s__structure__m tptp.s__attribute__m) (tptp.s__domain tptp.s__structure__m |"1"| tptp.s__Object) (tptp.s__domain tptp.s__structure__m |"2"| tptp.s__StructureAttribute) (tptp.s__subrelation tptp.s__color__m tptp.s__attribute__m) (tptp.s__domain tptp.s__color__m |"1"| tptp.s__Object) (tptp.s__domain tptp.s__color__m |"2"| tptp.s__ColorAttribute) (tptp.s__subclass tptp.s__SecondaryColor tptp.s__ColorAttribute) (tptp.s__instance tptp.s__SecondaryColor__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SecondaryColor tptp.s__EnglishLanguage |tptp.'A color that is the product of mixing together two or more &%PrimaryColors.'|) (forall ((V__OBJ $$unsorted) (V__COLOR $$unsorted)) (=> (and (tptp.s__instance V__COLOR tptp.s__Attribute) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (and (tptp.s__instance V__COLOR tptp.s__SecondaryColor) (tptp.s__attribute V__OBJ V__COLOR)) (exists ((V__PROCESS $$unsorted) (V__RESOURCE1 $$unsorted) (V__RESOURCE2 $$unsorted) (V__PRIMARY1 $$unsorted) (V__PRIMARY2 $$unsorted)) (and (tptp.s__instance V__PRIMARY2 tptp.s__Attribute) (tptp.s__instance V__PRIMARY1 tptp.s__Attribute) (tptp.s__instance V__RESOURCE2 tptp.s__Object) (tptp.s__instance V__RESOURCE1 tptp.s__Object) (tptp.s__instance V__PROCESS tptp.s__Process) (tptp.s__result V__PROCESS V__OBJ) (tptp.s__resource V__PROCESS V__RESOURCE1) (tptp.s__resource V__PROCESS V__RESOURCE2) (tptp.s__attribute V__RESOURCE1 V__PRIMARY1) (tptp.s__attribute V__RESOURCE2 V__PRIMARY2) (tptp.s__instance V__PRIMARY1 tptp.s__PrimaryColor) (tptp.s__instance V__PRIMARY2 tptp.s__PrimaryColor) (not (= V__PRIMARY1 V__PRIMARY2))))))) (tptp.s__instance tptp.s__GrayColor tptp.s__SecondaryColor) (tptp.s__documentation tptp.s__GrayColor tptp.s__EnglishLanguage |tptp.'A &%SecondaryColor that results from mixing &%Black and &%White.'|) (tptp.s__instance tptp.s__Pink tptp.s__SecondaryColor) (tptp.s__documentation tptp.s__Pink tptp.s__EnglishLanguage |tptp.'A &%SecondaryColor that results from mixing &%Red and &%White.'|) (tptp.s__instance tptp.s__Brown tptp.s__SecondaryColor) (tptp.s__documentation tptp.s__Brown tptp.s__EnglishLanguage |tptp.'A &%SecondaryColor that resembles the color of wood or of soil.'|) (tptp.s__instance tptp.s__OrangeColor tptp.s__SecondaryColor) (tptp.s__documentation tptp.s__OrangeColor tptp.s__EnglishLanguage |tptp.'A &%SecondaryColor that results from mixing &%Red and &%Yellow and resembles the color of a ripe orange fruit.'|) (tptp.s__instance tptp.s__Green tptp.s__SecondaryColor) (tptp.s__documentation tptp.s__Green tptp.s__EnglishLanguage |tptp.'A &%SecondaryColor that resembles the color of fresh grass.'|) (tptp.s__instance tptp.s__Purple tptp.s__SecondaryColor) (tptp.s__documentation tptp.s__Purple tptp.s__EnglishLanguage |tptp.'A &%SecondaryColor that results from mixing &%Red and &%Blue.'|) (tptp.s__instance tptp.s__LineFormation tptp.s__ShapeAttribute) (tptp.s__documentation tptp.s__LineFormation tptp.s__EnglishLanguage |tptp.'A &%ShapeAttribute that applies to &%Collections and indicates that all of the &%members of the &%Collection are arrayed in a line, i.e. each &%member (except possibly the first) is behind or to the side of exactly one other &%member.'|) (forall ((V__COLLECTION $$unsorted)) (=> (tptp.s__instance V__COLLECTION tptp.s__Object) (=> (tptp.s__attribute V__COLLECTION tptp.s__LineFormation) (tptp.s__instance V__COLLECTION tptp.s__Collection)))) (tptp.s__instance tptp.s__Stressed tptp.s__SoundAttribute) (tptp.s__documentation tptp.s__Stressed tptp.s__EnglishLanguage |tptp.'A &%SoundAttribute of &%Syllables. It denotes the quality of being emphasized over the other &%Syllables in the same &%Word.'|) (forall ((V__SYLLABLE $$unsorted)) (=> (tptp.s__instance V__SYLLABLE tptp.s__Object) (=> (tptp.s__attribute V__SYLLABLE tptp.s__Stressed) (tptp.s__instance V__SYLLABLE tptp.s__Syllable)))) (forall ((V__SYLLABLE $$unsorted) (V__WORD $$unsorted)) (=> (and (tptp.s__instance V__WORD tptp.s__Object) (tptp.s__instance V__SYLLABLE tptp.s__Object)) (=> (and (tptp.s__attribute V__SYLLABLE tptp.s__Stressed) (tptp.s__instance V__WORD tptp.s__Word) (tptp.s__part V__SYLLABLE V__WORD)) (not (exists ((V__SYLLABLE2 $$unsorted)) (and (tptp.s__instance V__SYLLABLE2 tptp.s__Object) (tptp.s__instance V__SYLLABLE2 tptp.s__Syllable) (tptp.s__part V__SYLLABLE2 V__WORD) (tptp.s__attribute V__SYLLABLE2 tptp.s__Stressed) (not (= V__SYLLABLE2 V__SYLLABLE)))))))) (tptp.s__subclass tptp.s__Syllable tptp.s__SymbolicString) (tptp.s__instance tptp.s__Syllable__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Syllable tptp.s__EnglishLanguage |tptp.'A sequence of &%Characters from the same &%Word that denote a single sound.'|) (forall ((V__WORD $$unsorted)) (=> (tptp.s__instance V__WORD tptp.s__Object) (=> (tptp.s__instance V__WORD tptp.s__Word) (exists ((V__SYLLABLE $$unsorted)) (and (tptp.s__instance V__SYLLABLE tptp.s__Object) (tptp.s__instance V__SYLLABLE tptp.s__Syllable) (tptp.s__part V__SYLLABLE V__WORD)))))) (tptp.s__subclass tptp.s__AlphabeticCharacter tptp.s__Character) (tptp.s__documentation tptp.s__AlphabeticCharacter tptp.s__EnglishLanguage |tptp.'Any &%Character that is comprised of a single alphabetical character, e.g. A, B, C, D, ...'|) (tptp.s__subclass tptp.s__DigitCharacter tptp.s__Character) (tptp.s__instance tptp.s__DigitCharacter__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__DigitCharacter tptp.s__EnglishLanguage |tptp.'Any &%Character that is comprised of a single digit, i.e. one of the numerals 0, 1, 2, 3, 4, 5, 6, 7, 8, 9.'|) (tptp.s__subclass tptp.s__Consonant tptp.s__AlphabeticCharacter) (tptp.s__instance tptp.s__Consonant__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Consonant tptp.s__EnglishLanguage |tptp.'An &%AlphabeticCharacter that denotes a speech sound that results in audible friction when it is pronounced.'|) (tptp.s__subclass tptp.s__Vowel tptp.s__AlphabeticCharacter) (tptp.s__instance tptp.s__Vowel__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__AlphabeticCharacter__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Vowel tptp.s__EnglishLanguage |tptp.'An &%AlphabeticCharacter that denotes a speech sound that does not result in audible friction when it is pronounced.'|) (tptp.s__instance tptp.s__Lost tptp.s__ContestAttribute) (tptp.s__contraryAttribute_2 tptp.s__Lost tptp.s__Won) (tptp.s__documentation tptp.s__Lost tptp.s__EnglishLanguage |tptp.'The &%ContestAttribute that applies to a &%Contest participant who has lost the &%Contest.'|) (tptp.s__instance tptp.s__Won tptp.s__ContestAttribute) (tptp.s__documentation tptp.s__Won tptp.s__EnglishLanguage |tptp.'The &%ContestAttribute that applies to a &%Contest participant who has won the &%Contest.'|) (tptp.s__instance tptp.s__TieScore tptp.s__ContestAttribute) (tptp.s__documentation tptp.s__TieScore tptp.s__EnglishLanguage |tptp.'The &%ContestAttribute that applies to all &%contestParticipants in a &%Contest when none of them have &%Won or &%Lost the &%Contest.'|) (tptp.s__subclass tptp.s__GameAttribute tptp.s__ContestAttribute) (tptp.s__documentation tptp.s__GameAttribute tptp.s__EnglishLanguage |tptp.'Any &%ContestAttribute that is specific to a &%Game.'|) (forall ((V__ATTR $$unsorted) (V__THING $$unsorted)) (=> (and (tptp.s__instance V__THING tptp.s__Agent) (tptp.s__instance V__THING tptp.s__Process) (tptp.s__instance V__ATTR tptp.s__Attribute)) (=> (and (tptp.s__property V__THING V__ATTR) (tptp.s__instance V__ATTR tptp.s__GameAttribute)) (exists ((V__GAME $$unsorted)) (and (tptp.s__instance V__GAME tptp.s__Process) (tptp.s__instance V__GAME tptp.s__Game) (or (tptp.s__agent V__GAME V__THING) (tptp.s__patient V__GAME V__THING) (tptp.s__subProcess V__THING V__GAME))))))) (tptp.s__subclass tptp.s__SportsAttribute tptp.s__GameAttribute) (tptp.s__instance tptp.s__SportsAttribute__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__GameAttribute__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SportsAttribute tptp.s__EnglishLanguage |tptp.'Any &%GameAttribute that is specific to a &%Sport.'|) (forall ((V__ATTR $$unsorted) (V__THING $$unsorted)) (=> (and (tptp.s__instance V__THING tptp.s__Agent) (tptp.s__instance V__THING tptp.s__Process) (tptp.s__instance V__ATTR tptp.s__Attribute)) (=> (and (tptp.s__property V__THING V__ATTR) (tptp.s__instance V__ATTR tptp.s__SportsAttribute)) (exists ((V__SPORT $$unsorted)) (and (tptp.s__instance V__SPORT tptp.s__Process) (tptp.s__instance V__SPORT tptp.s__Game) (or (tptp.s__agent V__SPORT V__THING) (tptp.s__patient V__SPORT V__THING) (tptp.s__subProcess V__THING V__SPORT))))))) (tptp.s__instance tptp.s__Foul tptp.s__SportsAttribute) (tptp.s__documentation tptp.s__Foul tptp.s__EnglishLanguage |tptp.'A &%SportsAttribute that indicates that the &%GamePiece of a &%Sport is no longer in play because it has gone beyond the limits of the sports field.'|) (tptp.s__instance tptp.s__SportsOut tptp.s__SportsAttribute) (tptp.s__documentation tptp.s__SportsOut tptp.s__EnglishLanguage |tptp.'A &%SportsAttribute that indicates that a player in a &%Sport can no longer compete because he has been tagged with the &%GamePiece.'|) (tptp.s__subclass tptp.s__PoliticoEconomicAttribute tptp.s__RelationalAttribute) (tptp.s__instance tptp.s__PoliticoEconomicAttribute__t tptp.s__SetOrClass) (tptp.s__partition_3 tptp.s__PoliticoEconomicAttribute tptp.s__FormOfGovernment tptp.s__EconomicAttribute) (tptp.s__documentation tptp.s__PoliticoEconomicAttribute tptp.s__EnglishLanguage |tptp.'Any &%Attribute of a &%Government which specifies some aspect of the political or economic system of the &%Government.'|) (forall ((V__GOVERNMENT $$unsorted) (V__ATTRIBUTE $$unsorted)) (=> (and (tptp.s__instance V__ATTRIBUTE tptp.s__Attribute) (tptp.s__instance V__GOVERNMENT tptp.s__Object)) (=> (and (tptp.s__instance V__ATTRIBUTE tptp.s__PoliticoEconomicAttribute) (tptp.s__attribute V__GOVERNMENT V__ATTRIBUTE)) (tptp.s__instance V__GOVERNMENT tptp.s__Government)))) (tptp.s__subclass tptp.s__EconomicAttribute tptp.s__PoliticoEconomicAttribute) (tptp.s__instance tptp.s__EconomicAttribute__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__EconomicAttribute tptp.s__EnglishLanguage |tptp.'&%EconomicAttribute is the class of terms including all &%Attributes used to characterize the economic systems or development levels of &%Nations or dependent &%GeopoliticalAreas.'|) (tptp.s__subclass tptp.s__FormOfGovernment tptp.s__PoliticoEconomicAttribute) (tptp.s__instance tptp.s__FormOfGovernment__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FormOfGovernment tptp.s__EnglishLanguage |tptp.'&%FormOfGovernment is a class of &%Attributes used to describe the characteristics of a government, especially a &%NationalGovernment. The concept &%FormOfGovernment is interpreted broadly enough to include &%Anarchy and &%Factionalism.'|) (tptp.s__subclass tptp.s__ChemicalReduction tptp.s__ChemicalSynthesis) (tptp.s__instance tptp.s__ChemicalReduction__t tptp.s__SetOrClass) (tptp.s__disjoint tptp.s__ChemicalReduction tptp.s__Oxidation) (tptp.s__documentation tptp.s__ChemicalReduction tptp.s__EnglishLanguage |tptp.'Any &%ChemicalProcess where &%Electrons are added to the substance undergoing the &%ChemicalProcess.'|) (tptp.s__subclass tptp.s__Oxidation tptp.s__ChemicalDecomposition) (tptp.s__instance tptp.s__Oxidation__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Oxidation tptp.s__EnglishLanguage |tptp.'Any &%ChemicalProcess where &%Electrons are removed from the substance undergoing the &%ChemicalProcess.'|) (tptp.s__subclass tptp.s__Dialysis tptp.s__Separating) (tptp.s__instance tptp.s__Dialysis__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Dialysis tptp.s__EnglishLanguage |tptp.'Any process of &%Separating a &%Solution into two or more constituent &%PureSubstances by means of their unequal diffusion through membranes that are partially permeable.'|) (forall ((V__DIALYSIS $$unsorted)) (=> (tptp.s__instance V__DIALYSIS tptp.s__Process) (=> (tptp.s__instance V__DIALYSIS tptp.s__Dialysis) (exists ((V__SOLUTION $$unsorted) (V__SUBSTANCE1 $$unsorted) (V__SUBSTANCE2 $$unsorted)) (and (tptp.s__instance V__SOLUTION tptp.s__Object) (tptp.s__resource V__DIALYSIS V__SOLUTION) (tptp.s__instance V__SOLUTION tptp.s__Solution) (tptp.s__result V__DIALYSIS V__SUBSTANCE1) (tptp.s__instance V__SUBSTANCE1 tptp.s__PureSubstance) (tptp.s__result V__DIALYSIS V__SUBSTANCE2) (tptp.s__instance V__SUBSTANCE2 tptp.s__PureSubstance) (not (= V__SUBSTANCE1 V__SUBSTANCE2))))))) (tptp.s__subclass tptp.s__Diluting tptp.s__Putting) (tptp.s__instance tptp.s__Diluting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Diluting tptp.s__EnglishLanguage |tptp.'Adding a &%Liquid to a &%Solution to decrease the concentration of the &%Solution.'|) (forall ((V__D $$unsorted)) (=> (tptp.s__instance V__D tptp.s__Process) (=> (tptp.s__instance V__D tptp.s__Diluting) (exists ((V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__Object) (tptp.s__patient V__D V__S) (tptp.s__instance V__S tptp.s__Solution) (tptp.s__attribute V__S tptp.s__Liquid)))))) (tptp.s__instance tptp.s__ChemicalEquilibrium tptp.s__InternalAttribute) (tptp.s__documentation tptp.s__ChemicalEquilibrium tptp.s__EnglishLanguage |tptp.'The &%Attribute of being in a chemically stable state, i.e. the relative proportions of &%resources and &%results will not longer change.'|) (forall ((V__PROCESS $$unsorted)) (=> (tptp.s__property V__PROCESS tptp.s__ChemicalEquilibrium) (tptp.s__instance V__PROCESS tptp.s__ChemicalProcess))) (tptp.s__subclass tptp.s__Chromatography tptp.s__Separating) (tptp.s__instance tptp.s__Chromatography__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Chromatography tptp.s__EnglishLanguage |tptp.'&%Processes of &%Separating a &%LiquidMixture or a &%GasMixture into some or all of the &%PureSubstances that comprise it.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Process) (=> (tptp.s__instance V__C tptp.s__Chromatography) (exists ((V__M $$unsorted)) (and (tptp.s__instance V__M tptp.s__Object) (tptp.s__resource V__C V__M) (or (tptp.s__instance V__M tptp.s__LiquidMixture) (tptp.s__instance V__M tptp.s__GasMixture))))))) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Process) (=> (tptp.s__instance V__C tptp.s__Chromatography) (exists ((V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__PureSubstance) (tptp.s__result V__C V__S)))))) (tptp.s__subclass tptp.s__BreakabilityAttribute tptp.s__InternalAttribute) (tptp.s__documentation tptp.s__BreakabilityAttribute tptp.s__EnglishLanguage |tptp.'A subclass of &%Attributes for characterizing the breakability of &%CorpuscularObjects.'|) (tptp.s__instance tptp.s__Fragile tptp.s__BreakabilityAttribute) (tptp.s__documentation tptp.s__Fragile tptp.s__EnglishLanguage |tptp.'An &%Attribute which indicates that the associated &%Object is very breakable.'|) (tptp.s__instance tptp.s__Unbreakable tptp.s__BreakabilityAttribute) (tptp.s__instance tptp.s__BreakabilityAttribute__t tptp.s__SetOrClass) (tptp.s__contraryAttribute_2 tptp.s__Unbreakable tptp.s__Fragile) (tptp.s__documentation tptp.s__Unbreakable tptp.s__EnglishLanguage |tptp.'An &%Attribute which indicates that the associated &%Object cannot be broken under normal usage conditions.'|) (tptp.s__subrelation tptp.s__contestParticipant__m tptp.s__agent__m) (tptp.s__instance tptp.s__contestParticipant__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__contestParticipant__m |"1"| tptp.s__Contest) (tptp.s__domain tptp.s__contestParticipant__m |"2"| tptp.s__Agent) (tptp.s__documentation tptp.s__contestParticipant__m tptp.s__EnglishLanguage |tptp.'(&%contestParticipant ?CONTEST ?AGENT) means that ?AGENT is one of the sides in the &%Contest ?CONTEST. For example, if the ?CONTEST is a football game, then ?AGENT would be one of the opposing teams. For another example, if ?CONTEST is a &%Battle, then ?AGENT would be one of the sides fighting each other.'|) (tptp.s__subclass tptp.s__CivilWar tptp.s__War) (tptp.s__instance tptp.s__CivilWar__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__CivilWar tptp.s__EnglishLanguage |tptp.'A &%War in which the fighting &%GeopoliticalAreas are both part of the same &%Nation.'|) (forall ((V__WAR $$unsorted)) (=> (tptp.s__instance V__WAR tptp.s__CivilWar) (exists ((V__NATION $$unsorted)) (and (tptp.s__instance V__NATION tptp.s__GeopoliticalArea) (tptp.s__instance V__NATION tptp.s__Nation) (forall ((V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__GeopoliticalArea) (tptp.s__instance V__WAR tptp.s__Contest)) (=> (tptp.s__contestParticipant V__WAR V__AGENT) (tptp.s__geopoliticalSubdivision V__AGENT V__NATION)))))))) (tptp.s__subclass tptp.s__Debating tptp.s__Contest) (tptp.s__instance tptp.s__Debating__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Debating tptp.s__LinguisticCommunication) (tptp.s__documentation tptp.s__Debating tptp.s__EnglishLanguage |tptp.'A &%Contest where each participant holds a different view regarding some issue, and each participant attempts to prove, by rhetoric or evidence, that his/her own views about a particular matter are correct and/or that the views of the other participants are incorrect.'|) (tptp.s__subclass tptp.s__Negotiating tptp.s__Contest) (tptp.s__subclass tptp.s__Negotiating tptp.s__LinguisticCommunication) (tptp.s__instance tptp.s__Negotiating__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Negotiating tptp.s__EnglishLanguage |tptp.'A &%Contest where each participant attempts to maximize his self-interest in a &%Promise that marks the end of the &%Contest.'|) (forall ((V__NEGOTIATE $$unsorted)) (=> (tptp.s__instance V__NEGOTIATE tptp.s__Process) (=> (tptp.s__instance V__NEGOTIATE tptp.s__Negotiating) (tptp.s__hasPurpose V__NEGOTIATE |tptp.'(? [V__COMMIT] : (s__instance(V__COMMIT,s__Process) & s__instance(V__COMMIT,s__Committing) & s__subProcess(V__COMMIT,V__NEGOTIATE) & s__finishes(s__WhenFn(V__COMMIT),s__WhenFn(V__NEGOTIATE))))'|)))) (tptp.s__subclass tptp.s__BusinessCompetition tptp.s__Contest) (tptp.s__instance tptp.s__BusinessCompetition__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__BusinessCompetition tptp.s__EnglishLanguage |tptp.'Any &%Contest where the &%contestParticipants are &%Corporations and the aim is to win as many customers as possible.'|) (forall ((V__CONTEST $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__CONTEST tptp.s__Contest)) (=> (and (tptp.s__instance V__CONTEST tptp.s__BusinessCompetition) (tptp.s__contestParticipant V__CONTEST V__AGENT)) (tptp.s__instance V__AGENT tptp.s__Corporation)))) (tptp.s__subclass tptp.s__VisualAcuityAttribute tptp.s__BiologicalAttribute) (tptp.s__instance tptp.s__VisualAcuityAttribute__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__VisualAcuityAttribute tptp.s__EnglishLanguage |tptp.'The &%BiologicalAttributes in this &%Class describe the visual capabilities of an &%Organism.'|) (tptp.s__instance tptp.s__ColorBlind tptp.s__VisualAcuityAttribute) (tptp.s__documentation tptp.s__ColorBlind tptp.s__EnglishLanguage |tptp.'This &%VisualAcuityAttribute describes an &%Organism that is unable to perceive a distinction in color between certain wavelength ranges within the larger range of typically visible electro-magnetic radiation (light). Among &%Humans, there are several forms and degrees of color blindness. Color blindness is generally considered to be a mild to moderate disability among &%Humans, but individuals with certain types of color blindness excel at some visual pattern recognition tasks, and its not clear that the condition should be considered a &%DiseaseOrSyndrome.'|) (tptp.s__subclass tptp.s__Disability tptp.s__DiseaseOrSyndrome) (tptp.s__documentation tptp.s__Disability tptp.s__EnglishLanguage |tptp.'&%Disability is a class of &%DiseaseOrSyndrome that describes impairments, activity limitations or participation restriction that may be physical, cognitive, mental, sensory, emotional, developmental or some combination'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Disability tptp.disability) (tptp.s__subclass tptp.s__PhysicalDisability tptp.s__Disability) (tptp.s__instance tptp.s__PhysicalDisability__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PhysicalDisability tptp.s__EnglishLanguage |tptp.'&%PhysicalDisability is any impairment that limits the physical function of limbs or fine or gross motor ability, or limit the facets of daily living'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__PhysicalDisability |tptp.'physical disability'|) (tptp.s__subclass tptp.s__SensoryDisability tptp.s__Disability) (tptp.s__instance tptp.s__SensoryDisability__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Disability__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SensoryDisability tptp.s__EnglishLanguage |tptp.'&%SensoryDisability is any impairement of one of the five senses'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__SensoryDisability |tptp.'sensory disability'|) (tptp.s__instance tptp.s__Blind tptp.s__VisualAcuityAttribute) (tptp.s__instance tptp.s__Blind tptp.s__SensoryDisability) (tptp.s__documentation tptp.s__Blind tptp.s__EnglishLanguage |tptp.'The &%Attribute that applies to &%Animals and &%Humans that are unable to see.'|) (forall ((V__AGENT $$unsorted)) (=> (tptp.s__instance V__AGENT tptp.s__Object) (=> (tptp.s__attribute V__AGENT tptp.s__Blind) (not (tptp.s__capability tptp.s__Seeing tptp.s__agent__m V__AGENT))))) (tptp.s__instance tptp.s__Deaf tptp.s__SensoryDisability) (tptp.s__documentation tptp.s__Deaf tptp.s__EnglishLanguage |tptp.'The &%Attribute that applies to &%Animals and &%Humans that are unable to hear.'|) (forall ((V__A $$unsorted)) (=> (tptp.s__instance V__A tptp.s__Object) (=> (tptp.s__attribute V__A tptp.s__Deaf) (not (tptp.s__capability tptp.s__Hearing tptp.s__agent__m V__A))))) (tptp.s__instance tptp.s__Hungry tptp.s__BiologicalAttribute) (tptp.s__documentation tptp.s__Hungry tptp.s__EnglishLanguage |tptp.'The &%Attribute that applies to &%Animals and &%Humans when they want food.'|) (forall ((V__A $$unsorted)) (=> (tptp.s__instance V__A tptp.s__CognitiveAgent) (=> (tptp.s__attribute V__A tptp.s__Hungry) (tptp.s__desires V__A |tptp.'(? [V__E] : (s__instance(V__E,s__Process) & s__instance(V__E,s__Eating) & s__agent(V__E,V__A)))'|)))) (tptp.s__instance tptp.s__Pregnant tptp.s__BiologicalAttribute) (tptp.s__documentation tptp.s__Pregnant tptp.s__EnglishLanguage |tptp.'The &%Attribute that applies to &%Female &%Animals and &%Humans that have an embryo or fetus growing inside of them as the result of having one of the &%Females &%Eggs fertilized.'|) (forall ((V__H $$unsorted)) (=> (tptp.s__instance V__H tptp.s__Object) (=> (tptp.s__attribute V__H tptp.s__Pregnant) (tptp.s__attribute V__H tptp.s__Female)))) (tptp.s__subAttribute tptp.s__Puberty tptp.s__NonFullyFormed) (tptp.s__documentation tptp.s__Puberty tptp.s__EnglishLanguage |tptp.'The &%DevelopmentalAttribute of having functional sex glands which are not fully mature.'|) (tptp.s__instance tptp.s__Fist tptp.s__BodyPosition) (tptp.s__documentation tptp.s__Fist tptp.s__EnglishLanguage |tptp.'The &%BodyPosition of having the fingers drawn into the palm so that the hand can be used for striking something.'|) (forall ((V__HAND $$unsorted)) (=> (tptp.s__instance V__HAND tptp.s__Object) (=> (tptp.s__attribute V__HAND tptp.s__Fist) (tptp.s__instance V__HAND tptp.s__Hand)))) (tptp.s__subclass tptp.s__LyingDown tptp.s__BodyMotion) (tptp.s__subclass tptp.s__LyingDown tptp.s__MotionDownward) (tptp.s__instance tptp.s__LyingDown__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__LyingDown tptp.s__EnglishLanguage |tptp.'The &%BodyMotion of moving from a &%Sitting to a &%Prostrate position.'|) (tptp.s__instance tptp.s__Handstand tptp.s__BodyPosition) (tptp.s__documentation tptp.s__Handstand tptp.s__EnglishLanguage |tptp.'The &%BodyPosition where one rests on ones hands and extends ones feet in the air.'|) (tptp.s__instance tptp.s__Kneeling tptp.s__BodyPosition) (tptp.s__documentation tptp.s__Kneeling tptp.s__EnglishLanguage |tptp.'The &%BodyPosition of resting ones weight on ones &%Knees.'|) (tptp.s__instance tptp.s__Splitting tptp.s__BodyPosition) (tptp.s__documentation tptp.s__Splitting tptp.s__EnglishLanguage |tptp.'The &%BodyPosition of extending ones &%Legs at right angles to ones &%Torso.'|) (tptp.s__subAttribute tptp.s__Squatting tptp.s__Sitting) (tptp.s__documentation tptp.s__Squatting tptp.s__EnglishLanguage |tptp.'&%Sitting on ones heels.'|) (tptp.s__subclass tptp.s__SittingDown tptp.s__BodyMotion) (tptp.s__subclass tptp.s__SittingDown tptp.s__MotionDownward) (tptp.s__instance tptp.s__SittingDown__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SittingDown tptp.s__EnglishLanguage |tptp.'The &%BodyMotion of moving from a &%Standing to a &%Sitting position.'|) (tptp.s__subclass tptp.s__StandingUp tptp.s__BodyMotion) (tptp.s__instance tptp.s__StandingUp__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__StandingUp tptp.s__MotionUpward) (tptp.s__documentation tptp.s__StandingUp tptp.s__EnglishLanguage |tptp.'The &%BodyMotion of moving from a &%Sitting to a &%Standing position.'|) (tptp.s__subclass tptp.s__EyeMotion tptp.s__BodyMotion) (tptp.s__documentation tptp.s__EyeMotion tptp.s__EnglishLanguage |tptp.'Any &%Motion where a patient is the agents own &%Eyelid or &%Eyelids.'|) (forall ((V__EM $$unsorted) (V__A $$unsorted)) (=> (and (tptp.s__instance V__A tptp.s__Agent) (tptp.s__instance V__EM tptp.s__Process)) (=> (and (tptp.s__instance V__EM tptp.s__EyeMotion) (tptp.s__agent V__EM V__A)) (exists ((V__E $$unsorted)) (and (tptp.s__instance V__E tptp.s__Object) (tptp.s__instance V__E tptp.s__Eyelid) (tptp.s__part V__E V__A) (tptp.s__patient V__EM V__E)))))) (tptp.s__subclass tptp.s__OpeningEyes tptp.s__EyeMotion) (tptp.s__instance tptp.s__OpeningEyes__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__OpeningEyes tptp.s__Opening) (tptp.s__disjoint tptp.s__OpeningEyes tptp.s__ClosingEyes) (tptp.s__documentation tptp.s__OpeningEyes tptp.s__EnglishLanguage |tptp.'The &%BodyMotion of relaxing the eye lids so that the corneas are exposed to light.'|) (tptp.s__subclass tptp.s__ClosingEyes tptp.s__EyeMotion) (tptp.s__instance tptp.s__EyeMotion__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__ClosingEyes tptp.s__Closing) (tptp.s__instance tptp.s__Closing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ClosingEyes tptp.s__EnglishLanguage |tptp.'The &%EyeMotion of tensing the eye lids so that the corneas are not exposed to light.'|) (tptp.s__subclass tptp.s__Winking tptp.s__ClosingEyes) (tptp.s__instance tptp.s__Winking__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__ClosingEyes__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Winking tptp.s__Gesture) (tptp.s__documentation tptp.s__Winking tptp.s__EnglishLanguage |tptp.'Any instance of &%ClosingEyes which is intended to express something to someone else.'|) (tptp.s__subclass tptp.s__Shrugging tptp.s__BodyMotion) (tptp.s__instance tptp.s__Shrugging__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Shrugging tptp.s__Gesture) (tptp.s__documentation tptp.s__Shrugging tptp.s__EnglishLanguage |tptp.'Moving the &%Shoulders in such a way that the motion is intended to express something to someone else.'|) (forall ((V__SHOULDER $$unsorted) (V__SHRUG $$unsorted)) (=> (tptp.s__instance V__SHRUG tptp.s__Process) (=> (and (tptp.s__instance V__SHRUG tptp.s__Shrugging) (tptp.s__patient V__SHRUG V__SHOULDER)) (tptp.s__instance V__SHOULDER tptp.s__Shoulder)))) (tptp.s__subclass tptp.s__Trembling tptp.s__BodyMotion) (tptp.s__instance tptp.s__Trembling__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Trembling tptp.s__AutonomicProcess) (tptp.s__subclass tptp.s__Trembling tptp.s__Tremor) (tptp.s__disjoint tptp.s__Trembling tptp.s__IntentionalProcess) (tptp.s__documentation tptp.s__Trembling tptp.s__EnglishLanguage |tptp.'Any &%BodyMotion which is involuntary and which is repeated many times over a short time frame, e.g. a tremor in the hands, shivering etc.'|) (tptp.s__subclass tptp.s__ReflexiveProcess tptp.s__AutonomicProcess) (tptp.s__instance tptp.s__ReflexiveProcess__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ReflexiveProcess tptp.s__EnglishLanguage |tptp.'Any &%Muscle reaction which is a response to a specific stimulus and which does not reach the level of consciousness.'|) (forall ((V__P $$unsorted)) (=> (tptp.s__instance V__P tptp.s__Process) (=> (tptp.s__instance V__P tptp.s__ReflexiveProcess) (exists ((V__M $$unsorted)) (and (tptp.s__instance V__M tptp.s__Muscle) (tptp.s__patient V__P V__M)))))) (tptp.s__subclass tptp.s__Dismounting tptp.s__BodyMotion) (tptp.s__instance tptp.s__Dismounting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Dismounting tptp.s__EnglishLanguage |tptp.'Any &%BodyMotion which results in not being &%On something else.'|) (tptp.s__subclass tptp.s__DomesticAnimal tptp.s__Animal) (tptp.s__disjoint tptp.s__DomesticAnimal tptp.s__Human) (tptp.s__documentation tptp.s__DomesticAnimal tptp.s__EnglishLanguage |tptp.'Any &%Animal that is kept by a &%Human, as a pet, as livestock, for exhibition, etc.'|) (forall ((V__ANIMAL $$unsorted)) (=> (tptp.s__instance V__ANIMAL tptp.s__DomesticAnimal) (exists ((V__KEEP $$unsorted) (V__PERSON $$unsorted)) (and (tptp.s__instance V__PERSON tptp.s__Agent) (tptp.s__instance V__KEEP tptp.s__Process) (tptp.s__instance V__KEEP tptp.s__Keeping) (tptp.s__agent V__KEEP V__PERSON) (tptp.s__instance V__PERSON tptp.s__Human) (tptp.s__patient V__KEEP V__ANIMAL))))) (tptp.s__subclass tptp.s__Fodder (tptp.s__FoodForFn tptp.s__DomesticAnimal)) (tptp.s__instance tptp.s__Fodder__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Fodder tptp.s__OrganicObject) (tptp.s__documentation tptp.s__Fodder tptp.s__EnglishLanguage |tptp.'&%Fodder is the class of &%OrganicObjects that is used as food for &%DomesticAnimals.'|) (forall ((V__FEED $$unsorted)) (=> (tptp.s__instance V__FEED tptp.s__Physical) (=> (tptp.s__instance V__FEED tptp.s__Fodder) (tptp.s__hasPurpose V__FEED |tptp.'(? [V__ANIMAL,V__EAT] : (s__instance(V__EAT,s__Process) & s__instance(V__ANIMAL,s__Agent) & s__instance(V__ANIMAL,s__DomesticAnimal) & s__instance(V__EAT,s__Eating) & s__agent(V__EAT,V__ANIMAL) & s__patient(V__EAT,V__FEED)))'|)))) (tptp.s__subclass tptp.s__Herbivore tptp.s__Mammal) (tptp.s__disjoint tptp.s__Herbivore tptp.s__Carnivore) (tptp.s__documentation tptp.s__Herbivore tptp.s__EnglishLanguage |tptp.'A plant-eating &%Mammal.'|) (forall ((V__A $$unsorted) (V__F $$unsorted) (V__E $$unsorted)) (=> (and (tptp.s__instance V__E tptp.s__Process) (tptp.s__instance V__A tptp.s__Agent)) (=> (and (tptp.s__instance V__A tptp.s__Herbivore) (tptp.s__agent V__E V__A) (tptp.s__instance V__E tptp.s__Eating) (tptp.s__patient V__E V__F)) (tptp.s__instance V__F tptp.s__Plant)))) (tptp.s__subclass tptp.s__Antelope tptp.s__HoofedMammal) (tptp.s__instance tptp.s__Antelope__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Antelope tptp.s__EnglishLanguage |tptp.'A &%HoofedMammal with long legs and backward-facing horns. This class includes gazelles, addax, blackbucks, etc.'|) (tptp.s__subclass tptp.s__Buffalo tptp.s__HoofedMammal) (tptp.s__instance tptp.s__Buffalo__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Buffalo tptp.s__EnglishLanguage |tptp.'A &%HoofedMammal with long hair whose habitat is the plains of &%NorthAmerica.'|) (tptp.s__subclass tptp.s__DomesticCat tptp.s__DomesticAnimal) (tptp.s__instance tptp.s__DomesticCat__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__DomesticAnimal__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__DomesticCat tptp.s__Feline) (tptp.s__documentation tptp.s__DomesticCat tptp.s__EnglishLanguage |tptp.'A variety of &%Feline which has been domesticated by selective breeding.'|) (tptp.s__subclass tptp.s__DomesticDog tptp.s__DomesticAnimal) (tptp.s__instance tptp.s__DomesticDog__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__DomesticDog tptp.s__Canine) (tptp.s__documentation tptp.s__DomesticDog tptp.s__EnglishLanguage |tptp.'Canines which have evolved from the common wolf by selective breeding.'|) (tptp.s__subclass tptp.s__Fox tptp.s__Canine) (tptp.s__instance tptp.s__Fox__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Fox tptp.s__EnglishLanguage |tptp.'&%Canines with a bushy tail and pointed ears and nose. &%Foxes tend to be much smaller than most &%DomesticDogs.'|) (tptp.s__subclass tptp.s__Elephant tptp.s__Herbivore) (tptp.s__instance tptp.s__Elephant__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Herbivore__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Elephant tptp.s__EnglishLanguage |tptp.'A very large, almost hairless &%Herbivore with a long trunk.'|) (tptp.s__documentation tptp.s__Goat tptp.s__EnglishLanguage |tptp.'A domesticated &%HoofedMammal that is raised primarily for &%Milk.'|) (tptp.s__subclass tptp.s__Horse tptp.s__HoofedMammal) (tptp.s__instance tptp.s__Horse__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Horse tptp.s__EnglishLanguage |tptp.'A domesticated &%HoofedMammal that is used for transportation and work.'|) (tptp.s__subclass tptp.s__Pig tptp.s__HoofedMammal) (tptp.s__instance tptp.s__Pig__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Pig tptp.s__EnglishLanguage |tptp.'A domesticated &%HoofedMammal that is raised for pork.'|) (tptp.s__subclass tptp.s__Donkey tptp.s__HoofedMammal) (tptp.s__instance tptp.s__Donkey__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Donkey tptp.s__EnglishLanguage |tptp.'A domesticated &%HoofedMammal that is used for work.'|) (tptp.s__subclass tptp.s__Gastropod tptp.s__Mollusk) (tptp.s__instance tptp.s__Gastropod__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Gastropod tptp.s__EnglishLanguage |tptp.'A &%Mollusk with a distinct head that has no shell (e.g. slugs) or a univalve shell (e.g. snails).'|) (tptp.s__subclass tptp.s__Mule tptp.s__HoofedMammal) (tptp.s__subclass tptp.s__Mule tptp.s__DomesticAnimal) (tptp.s__instance tptp.s__Mule__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Mule tptp.s__EnglishLanguage |tptp.'The product of a &%Male &%Donkey and a &%Female &%Horse. &%Mules are always sterile.'|) (forall ((V__MULE $$unsorted)) (=> (tptp.s__instance V__MULE tptp.s__Organism) (=> (tptp.s__instance V__MULE tptp.s__Mule) (exists ((V__DONKEY $$unsorted) (V__HORSE $$unsorted)) (and (tptp.s__instance V__HORSE tptp.s__Organism) (tptp.s__instance V__DONKEY tptp.s__Organism) (tptp.s__father V__MULE V__DONKEY) (tptp.s__instance V__DONKEY tptp.s__Donkey) (tptp.s__mother V__MULE V__HORSE) (tptp.s__instance V__HORSE tptp.s__Horse)))))) (forall ((V__MULE $$unsorted)) (=> (tptp.s__instance V__MULE tptp.s__Object) (=> (tptp.s__instance V__MULE tptp.s__Mule) (not (tptp.s__capability tptp.s__SexualReproduction tptp.s__agent__m V__MULE))))) (tptp.s__subclass tptp.s__Sheep tptp.s__HoofedMammal) (tptp.s__subclass tptp.s__Sheep tptp.s__DomesticAnimal) (tptp.s__instance tptp.s__Sheep__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sheep tptp.s__EnglishLanguage |tptp.'A domesticated &%HoofedMammal that is bred for its wool and for its meat (known as mutton).'|) (tptp.s__subclass tptp.s__Lamb tptp.s__Sheep) (tptp.s__instance tptp.s__Lamb__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Lamb tptp.s__EnglishLanguage |tptp.'A young &%Sheep, i.e. a &%Sheep that is &%NonFullyFormed.'|) (forall ((V__L $$unsorted)) (=> (tptp.s__instance V__L tptp.s__Object) (= (tptp.s__instance V__L tptp.s__Lamb) (and (tptp.s__instance V__L tptp.s__Sheep) (tptp.s__attribute V__L tptp.s__NonFullyFormed))))) (tptp.s__subclass tptp.s__Cow tptp.s__HoofedMammal) (tptp.s__subclass tptp.s__Cow tptp.s__DomesticAnimal) (tptp.s__instance tptp.s__Cow__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Cow tptp.s__EnglishLanguage |tptp.'A domesticated &%HoofedMammal that is raised for milk and beef, and is also used for work.'|) (tptp.s__subclass tptp.s__Calf tptp.s__Cow) (tptp.s__instance tptp.s__Calf__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Calf tptp.s__EnglishLanguage |tptp.'A young &%Cow, i.e. a &%Cow that is &%NonFullyFormed.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Object) (= (tptp.s__instance V__C tptp.s__Calf) (and (tptp.s__instance V__C tptp.s__Cow) (tptp.s__attribute V__C tptp.s__NonFullyFormed))))) (tptp.s__subclass tptp.s__Bull tptp.s__Cow) (tptp.s__instance tptp.s__Bull__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Bull tptp.s__EnglishLanguage |tptp.'A &%Cow that is &%Male.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Object) (= (tptp.s__instance V__B tptp.s__Bull) (and (tptp.s__instance V__B tptp.s__Cow) (tptp.s__attribute V__B tptp.s__Male))))) (tptp.s__subclass tptp.s__FemaleCow tptp.s__Cow) (tptp.s__instance tptp.s__FemaleCow__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FemaleCow tptp.s__EnglishLanguage |tptp.'A &%Cow that is &%Female.'|) (forall ((V__COW $$unsorted)) (=> (tptp.s__instance V__COW tptp.s__Object) (= (tptp.s__instance V__COW tptp.s__FemaleCow) (and (tptp.s__instance V__COW tptp.s__Cow) (tptp.s__attribute V__COW tptp.s__Female))))) (tptp.s__subclass tptp.s__Poultry tptp.s__Bird) (tptp.s__instance tptp.s__Poultry__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Chicken tptp.s__Poultry) (tptp.s__documentation tptp.s__Chicken tptp.s__EnglishLanguage |tptp.'A subclass of &%Bird that is raised for its meat and for its eggs.'|) (tptp.s__subclass tptp.s__Hen tptp.s__Chicken) (tptp.s__instance tptp.s__Hen__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Chicken__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Hen tptp.s__EnglishLanguage |tptp.'A &%Female &%Chicken.'|) (forall ((V__H $$unsorted)) (=> (tptp.s__instance V__H tptp.s__Object) (= (tptp.s__instance V__H tptp.s__Hen) (and (tptp.s__instance V__H tptp.s__Chicken) (tptp.s__attribute V__H tptp.s__Female))))) (tptp.s__subclass tptp.s__Rooster tptp.s__Chicken) (tptp.s__instance tptp.s__Rooster__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Rooster tptp.s__EnglishLanguage |tptp.'A &%Male &%Chicken.'|) (forall ((V__R $$unsorted)) (=> (tptp.s__instance V__R tptp.s__Object) (= (tptp.s__instance V__R tptp.s__Rooster) (and (tptp.s__instance V__R tptp.s__Chicken) (tptp.s__attribute V__R tptp.s__Male))))) (tptp.s__documentation tptp.s__Duck tptp.s__EnglishLanguage |tptp.'A subclass of &%Bird with webbed feet and a large bill. Some ducks live in the wild, and some are raised for meat and/or eggs.'|) (tptp.s__subclass tptp.s__Duck tptp.s__Poultry) (tptp.s__instance tptp.s__Duck__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Goose tptp.s__Poultry) (tptp.s__instance tptp.s__Goose__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Goose tptp.s__EnglishLanguage |tptp.'A subclass of &%Bird with webbed feet and a long neck and a large body. These &%Birds are often raised for their &%Meat.'|) (tptp.s__subclass tptp.s__Owl tptp.s__Bird) (tptp.s__instance tptp.s__Owl__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Owl tptp.s__EnglishLanguage |tptp.'A nocturnal bird of prey with a large head and forward-facing eyes.'|) (tptp.s__subclass tptp.s__Pigeon tptp.s__Bird) (tptp.s__instance tptp.s__Pigeon__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Pigeon tptp.s__EnglishLanguage |tptp.'A subclass of &%Bird with a stout body and short legs.'|) (tptp.s__subclass tptp.s__Vulture tptp.s__Bird) (tptp.s__instance tptp.s__Vulture__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Vulture tptp.s__EnglishLanguage |tptp.'A diurnal bird of prey with a bald head that feeds on carrion.'|) (tptp.s__subclass tptp.s__Feather tptp.s__AnimalAnatomicalStructure) (tptp.s__instance tptp.s__Feather__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Feather tptp.s__BodyPart) (tptp.s__documentation tptp.s__Feather tptp.s__EnglishLanguage |tptp.'Each instance of this class is one of the structures that make up the external covering of &%Birds.'|) (forall ((V__F $$unsorted)) (=> (tptp.s__instance V__F tptp.s__Object) (=> (tptp.s__instance V__F tptp.s__Feather) (exists ((V__B $$unsorted)) (and (tptp.s__instance V__B tptp.s__Object) (tptp.s__instance V__B tptp.s__Bird) (tptp.s__part V__F V__B)))))) (tptp.s__instance tptp.s__meatOfAnimal__m tptp.s__BinaryRelation) (tptp.s__documentation tptp.s__meatOfAnimal__m tptp.s__EnglishLanguage |tptp.'(&%meatOfAnimal ?MEATCLASS ?ANIMALCLASS) means that every instance of ?MEATCLASS was once part of some instance of ?ANIMALCLASS.'|) (tptp.s__domainSubclass tptp.s__meatOfAnimal__m |"1"| tptp.s__Meat) (tptp.s__domainSubclass tptp.s__meatOfAnimal__m |"2"| tptp.s__Animal) (tptp.s__subclass tptp.s__Beef tptp.s__Meat) (tptp.s__instance tptp.s__Beef__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Beef tptp.s__EnglishLanguage |tptp.'&%Meat that was originally part of a &%Cow.'|) (tptp.s__meatOfAnimal tptp.s__Beef tptp.s__Cow) (tptp.s__documentation tptp.s__ChickenMeat tptp.s__EnglishLanguage |tptp.'&%Meat that was originally part of a &%Chicken.'|) (tptp.s__subclass tptp.s__ChickenMeat tptp.s__Meat) (tptp.s__instance tptp.s__ChickenMeat__t tptp.s__SetOrClass) (tptp.s__meatOfAnimal tptp.s__ChickenMeat tptp.s__Chicken) (tptp.s__subclass tptp.s__Pork tptp.s__Meat) (tptp.s__instance tptp.s__Pork__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Pork tptp.s__EnglishLanguage |tptp.'&%Meat that was originally part of a &%Pig.'|) (tptp.s__meatOfAnimal tptp.s__Pork tptp.s__Pig) (tptp.s__subclass tptp.s__Mouse tptp.s__Rodent) (tptp.s__instance tptp.s__Mouse__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Mouse tptp.s__EnglishLanguage |tptp.'A &%Rodent that has a hairless tail like a rat but that is smaller than a &%Rat.'|) (tptp.s__subclass tptp.s__Rat tptp.s__Rodent) (tptp.s__instance tptp.s__Rat__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Rat tptp.s__EnglishLanguage |tptp.'A &%Rodent that has a hairless tail like a &%Mouse but that is larger than a &%Mouse.'|) (tptp.s__subclass tptp.s__Rabbit tptp.s__Rodent) (tptp.s__instance tptp.s__Rabbit__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Rabbit tptp.s__EnglishLanguage |tptp.'A burrowing &%Rodent with a short tail and long ears.'|) (tptp.s__subclass tptp.s__Squirrel tptp.s__Rodent) (tptp.s__instance tptp.s__Squirrel__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Squirrel tptp.s__EnglishLanguage |tptp.'A tree-dwelling &%Rodent with a bushy tail.'|) (tptp.s__subclass tptp.s__Hay tptp.s__Fodder) (tptp.s__instance tptp.s__Hay__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Hay tptp.s__EnglishLanguage |tptp.'&%Grass that has been cut and cured for use as &%Fodder.'|) (forall ((V__HAY $$unsorted)) (=> (tptp.s__instance V__HAY tptp.s__Hay) (exists ((V__MAKE $$unsorted) (V__GRASS $$unsorted)) (and (tptp.s__instance V__GRASS tptp.s__Object) (tptp.s__instance V__MAKE tptp.s__Process) (tptp.s__instance V__MAKE tptp.s__Making) (tptp.s__resource V__MAKE V__GRASS) (tptp.s__instance V__GRASS tptp.s__Grass) (tptp.s__result V__MAKE V__HAY))))) (tptp.s__subclass tptp.s__Copying tptp.s__Making) (tptp.s__instance tptp.s__Copying__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Copying tptp.s__EnglishLanguage |tptp.'&%Making a &%copy of something.'|) (forall ((V__THING2 $$unsorted) (V__THING1 $$unsorted) (V__COPY $$unsorted)) (=> (and (tptp.s__instance V__COPY tptp.s__Process) (tptp.s__instance V__THING1 tptp.s__Object) (tptp.s__instance V__THING2 tptp.s__Object)) (=> (and (tptp.s__instance V__COPY tptp.s__Copying) (tptp.s__resource V__COPY V__THING1) (tptp.s__result V__COPY V__THING2)) (tptp.s__copy V__THING1 V__THING2)))) (tptp.s__subclass tptp.s__Vacationing tptp.s__RecreationOrExercise) (tptp.s__instance tptp.s__Vacationing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Vacationing tptp.s__EnglishLanguage |tptp.'Taking time off from &%Working.'|) (forall ((V__PERSON $$unsorted) (V__WORK $$unsorted) (V__VACATION $$unsorted)) (=> (and (tptp.s__instance V__VACATION tptp.s__Process) (tptp.s__instance V__WORK tptp.s__Process) (tptp.s__instance V__PERSON tptp.s__Agent)) (=> (and (tptp.s__instance V__VACATION tptp.s__Vacationing) (tptp.s__instance V__WORK tptp.s__Working) (tptp.s__agent V__VACATION V__PERSON) (tptp.s__agent V__WORK V__PERSON) (tptp.s__instance V__PERSON tptp.s__Human)) (not (tptp.s__overlapsTemporally (tptp.s__WhenFn V__VACATION) (tptp.s__WhenFn V__WORK)))))) (tptp.s__documentation tptp.s__OccupationFn__m tptp.s__EnglishLanguage |tptp.'(OccupationFn ?PROCESS) denotes the subclass of ?PROCESS where instances of ?PROCESS are performed as ones occupation, i.e. as part of a &%FinancialTransaction where one earns money for the performance of ?PROCESS.'|) (tptp.s__instance tptp.s__OccupationFn__m tptp.s__UnaryFunction) (tptp.s__domain tptp.s__OccupationFn__m |"1"| tptp.s__IntentionalProcess) (tptp.s__rangeSubclass tptp.s__OccupationFn__m tptp.s__FinancialTransaction) (tptp.s__documentation tptp.s__occupation__m tptp.s__EnglishLanguage |tptp.'(occupation ?PERSON ?TYPE) means that the occupation of ?PERSON is ?TYPE. This predicate is most often used in combination with the function &%OccupationFn, e.g. (&%occupation PoliceOfficerWilkins (&%OccupationFn &%LawEnforcement)).'|) (tptp.s__instance tptp.s__occupation__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__occupation__m |"1"| tptp.s__Human) (tptp.s__domain tptp.s__occupation__m |"2"| tptp.s__FinancialTransaction) (tptp.s__subclass tptp.s__Working tptp.s__FinancialTransaction) (tptp.s__instance tptp.s__Working__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Working tptp.s__EnglishLanguage |tptp.'Any &%FinancialTransaction where someone exchanges his/her labor for an instance of &%CurrencyMeasure.'|) (tptp.s__subclass tptp.s__Farming tptp.s__Working) (tptp.s__instance tptp.s__Farming__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Farming tptp.s__EnglishLanguage |tptp.'Operating a farm, e.g. planting and harvesting crops, tending livestock, etc.'|) (tptp.s__subclass tptp.s__Serving tptp.s__Working) (tptp.s__instance tptp.s__Serving__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Serving tptp.s__EnglishLanguage |tptp.'Working as a waiter or servant, either for an &%Organization (e.g. a &%Restaurant) or for a person or family.'|) (tptp.s__subclass tptp.s__Sales tptp.s__Working) (tptp.s__instance tptp.s__Sales__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sales tptp.s__EnglishLanguage |tptp.'Any instance of &%Working that involves &%Selling or trying to sell items.'|) (tptp.s__subAttribute tptp.s__Retired tptp.s__Unemployed) (tptp.s__documentation tptp.s__Retired tptp.s__EnglishLanguage |tptp.'Voluntary unemployment toward the end of ones life.'|) (tptp.s__subAttribute tptp.s__Housewife tptp.s__Unemployed) (tptp.s__documentation tptp.s__Housewife tptp.s__EnglishLanguage |tptp.'A role occupied by a wife who manages the home while her husband earns income for the family.'|) (forall ((V__W $$unsorted)) (=> (tptp.s__instance V__W tptp.s__Woman) (=> (tptp.s__attribute V__W tptp.s__Housewife) (exists ((V__H $$unsorted)) (and (tptp.s__instance V__H tptp.s__Man) (tptp.s__wife V__W V__H)))))) (tptp.s__instance tptp.s__Waiter tptp.s__ServicePosition) (tptp.s__documentation tptp.s__Waiter tptp.s__EnglishLanguage |tptp.'&%Waiter refers to the &%ServicePosition present in &%Restaurant that brings food from the kitchen to the customers table'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Waiter tptp.waiter) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__attribute V__X tptp.s__Waiter) (tptp.s__instance V__X tptp.s__Human)))) (forall ((V__KITCHEN $$unsorted) (V__C $$unsorted) (V__REST $$unsorted) (V__X $$unsorted) (V__TABLE $$unsorted) (V__CUST $$unsorted) (V__FOOD $$unsorted) (V__DINING $$unsorted)) (=> (and (tptp.s__instance V__DINING tptp.s__Object) (tptp.s__instance V__CUST tptp.s__CognitiveAgent) (tptp.s__instance V__TABLE tptp.s__Object) (tptp.s__instance V__X tptp.s__CognitiveAgent) (tptp.s__instance V__REST tptp.s__Organization) (tptp.s__instance V__REST tptp.s__CognitiveAgent) (tptp.s__instance V__C tptp.s__Process) (tptp.s__instance V__KITCHEN tptp.s__Object)) (=> (and (tptp.s__attribute V__X tptp.s__Waiter) (tptp.s__instance V__X tptp.s__Human) (tptp.s__employs V__REST V__X) (tptp.s__instance V__REST tptp.s__Restaurant) (tptp.s__customer V__CUST V__REST) (tptp.s__located V__CUST V__TABLE) (tptp.s__instance V__TABLE tptp.s__Table)) (and (tptp.s__possesses V__REST V__KITCHEN) (tptp.s__instance V__KITCHEN tptp.s__KitchenArea) (tptp.s__instance V__DINING tptp.s__DiningArea) (tptp.s__located V__TABLE V__DINING) (tptp.s__hasPurpose V__X |tptp.'(s__instance(V__C,s__Carrying) & s__agent(V__C,V__X) & s__origin(V__C,V__KITCHEN) & s__destination(V__C,V__TABLE) & s__patient(V__C,V__FOOD) & s__instance(V__FOOD,s__FoodForFn(s__Human)))'|))))) (tptp.s__instance tptp.s__Maid tptp.s__ServicePosition) (tptp.s__instance tptp.s__ServicePosition__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Maid tptp.s__EnglishLanguage |tptp.'This &%Attribute describes a &%Woman who works in a &%ServicePosition that entails performing various domestic tasks (cleaning, cooking, child care) for an individual or family over an extended period of time, typically months or years.'|) (tptp.s__subclass tptp.s__Janitor tptp.s__UnskilledOccupation) (tptp.s__instance tptp.s__Janitor__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Janitor tptp.s__EnglishLanguage |tptp.'Any &%Position which involves cleaning a &%Building or some of the &%Rooms within a &%Building.'|) (forall ((V__P $$unsorted) (V__J $$unsorted)) (=> (and (tptp.s__instance V__J tptp.s__Attribute) (tptp.s__instance V__P tptp.s__Human)) (=> (and (tptp.s__instance V__J tptp.s__Janitor) (tptp.s__attribute V__P V__J)) (tptp.s__occupation V__P (tptp.s__OccupationFn tptp.s__Washing))))) (tptp.s__subclass tptp.s__TheaterProfession tptp.s__EntertainmentProfession) (tptp.s__instance tptp.s__TheaterProfession__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TheaterProfession tptp.s__EnglishLanguage |tptp.'Instances of this &%Class describe the &%Positions of people whose work involves putting on plays (theatrical performanes).'|) (tptp.s__instance tptp.s__FilmDirector tptp.s__FilmMakingProfession) (tptp.s__documentation tptp.s__FilmDirector tptp.s__EnglishLanguage |tptp.'A &%Position that describes a person who directs &%MotionPictures as a profession.'|) (tptp.s__subclass tptp.s__FilmMaking tptp.s__ContentDevelopment) (tptp.s__instance tptp.s__FilmMaking__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FilmMaking tptp.s__EnglishLanguage |tptp.'&%ContentDevelopment where the result is a &%MotionPicture.'|) (forall ((V__FM $$unsorted)) (=> (tptp.s__instance V__FM tptp.s__Process) (=> (tptp.s__instance V__FM tptp.s__FilmMaking) (exists ((V__M $$unsorted) (V__F $$unsorted)) (and (tptp.s__instance V__F tptp.s__Object) (tptp.s__instance V__M tptp.s__MotionPicture) (tptp.s__result V__FM V__M) (tptp.s__instance V__F tptp.s__PhotographicFilm) (tptp.s__resource V__FM V__F)))))) (tptp.s__subclass tptp.s__FilmMakingProfession tptp.s__EntertainmentProfession) (tptp.s__instance tptp.s__FilmMakingProfession__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FilmMakingProfession tptp.s__EnglishLanguage |tptp.'&%Positions which involve &%FilmMaking, i.e. acting in films, directing films, producing films, etc.'|) (forall ((V__P $$unsorted) (V__H $$unsorted)) (=> (and (tptp.s__instance V__H tptp.s__Human) (tptp.s__instance V__P tptp.s__Attribute)) (=> (and (tptp.s__instance V__P tptp.s__FilmMakingProfession) (tptp.s__attribute V__H V__P)) (tptp.s__occupation V__H (tptp.s__OccupationFn tptp.s__FilmMaking))))) (tptp.s__instance tptp.s__FilmProducer tptp.s__FilmMakingProfession) (tptp.s__documentation tptp.s__FilmProducer tptp.s__EnglishLanguage |tptp.'A &%Position that describes a person who produces &%MotionPictures as a profession, i.e., who arranges the financing for a &%MotionPicture and supervises its production.'|) (tptp.s__instance tptp.s__Coach tptp.s__SkilledOccupation) (tptp.s__documentation tptp.s__Coach tptp.s__EnglishLanguage |tptp.'Any occupation that involves training an athlete or a sports team.'|) (tptp.s__instance tptp.s__GameReferee tptp.s__SkilledOccupation) (tptp.s__documentation tptp.s__GameReferee tptp.s__EnglishLanguage |tptp.'This &%Attribute describes a person who adjudicates &%Maneuvers in a &%Game, i.e., who decides whether or not the &%Maneuvers are permitted by the rules of the &%Game.'|) (tptp.s__instance tptp.s__Carpenter tptp.s__OccupationalTrade) (tptp.s__instance tptp.s__OccupationalTrade__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Carpenter tptp.s__EnglishLanguage |tptp.'Any occupation that involves creating and repairing structural and decorative portions of &%Buildings that are made chiefly of &%Wood. This does not include plumbing, roofing, electrical, foundation and site work.'|) (forall ((V__P $$unsorted)) (=> (tptp.s__instance V__P tptp.s__Agent) (=> (tptp.s__attribute V__P tptp.s__Carpenter) (tptp.s__hasSkill tptp.s__Carpentry V__P)))) (tptp.s__subclass tptp.s__Carpentry tptp.s__Making) (tptp.s__instance tptp.s__Carpentry__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Carpentry tptp.s__EnglishLanguage |tptp.'&%Making &%Buildings out of &%Wood.'|) (forall ((V__C $$unsorted) (V__W $$unsorted)) (=> (and (tptp.s__instance V__W tptp.s__Object) (tptp.s__instance V__C tptp.s__Process)) (=> (tptp.s__instance V__C tptp.s__Carpentry) (exists ((V__B $$unsorted)) (and (tptp.s__instance V__B tptp.s__Object) (tptp.s__instance V__B tptp.s__Building) (tptp.s__instance V__W tptp.s__Wood) (tptp.s__part V__W V__B) (tptp.s__result V__C V__B)))))) (tptp.s__instance tptp.s__constructionPeriod__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__constructionPeriod__m |"1"| tptp.s__StationaryArtifact) (tptp.s__domain tptp.s__constructionPeriod__m |"2"| tptp.s__TimeInterval) (tptp.s__documentation tptp.s__constructionPeriod__m tptp.s__EnglishLanguage |tptp.'(constructionPeriod ?OBJECT ?INTERVAL) means that some &%StationaryArtifact ?OBJECT was built over &%TimeInterval ?INTERVAL'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__constructionPeriod__m |tptp.'construction period'|) (forall ((V__OBJECT $$unsorted) (V__INTERVAL $$unsorted)) (=> (and (tptp.s__instance V__INTERVAL tptp.s__TimeInterval) (tptp.s__instance V__OBJECT tptp.s__StationaryArtifact)) (=> (tptp.s__constructionPeriod V__OBJECT V__INTERVAL) (tptp.s__holdsDuring V__INTERVAL |tptp.'(? [V__CONSTRUCTING] : (s__instance(V__CONSTRUCTING,s__Process) & s__instance(V__CONSTRUCTING,s__Constructing) & s__result(V__CONSTRUCTING,V__OBJECT)))'|)))) (tptp.s__instance tptp.s__contractor__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__contractor__m |"1"| tptp.s__StationaryArtifact) (tptp.s__domain tptp.s__contractor__m |"2"| tptp.s__Agent) (tptp.s__documentation tptp.s__contractor__m tptp.s__EnglishLanguage |tptp.'(contractor ?BUILDING ?AGENT) means that some &%Agent ?AGENT has a contract with another ?AGENT to build a &%StationaryArtifact for the agent.'|) (forall ((V__BUILDING $$unsorted) (V__CONTRACTOR $$unsorted)) (=> (tptp.s__instance V__CONTRACTOR tptp.s__CognitiveAgent) (=> (tptp.s__contractor V__BUILDING V__CONTRACTOR) (exists ((V__CONTRACT $$unsorted) (V__AGENT $$unsorted)) (and (tptp.s__property V__CONTRACT tptp.s__Contract) (tptp.s__partyToAgreement V__AGENT V__CONTRACT) (tptp.s__partyToAgreement V__CONTRACTOR V__CONTRACT) (tptp.s__confersObligation |tptp.'(? [V__CONSTRUCT,V__BUILDING] : (s__instance(V__CONSTRUCT,s__Process) & s__instance(V__AGENT,s__CognitiveAgent) & s__instance(V__CONTRACT,s__Agreement) & s__instance(V__CONSTRUCT,s__Constructing) & s__agent(V__CONSTRUCT,V__CONTRACTOR) & s__result(V__CONSTRUCT,V__BUILDING) & s__instance(V__BUILDING,s__StationaryArtifact)))'| V__AGENT V__CONTRACTOR)))))) (tptp.s__subclass tptp.s__Agriculture tptp.s__Maintaining) (tptp.s__instance tptp.s__Agriculture__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Agriculture tptp.s__EnglishLanguage |tptp.'&%Agriculture is a class of &%Processes in which land, plants, or animals are cultivated in order to produce food or other organic products.'|) (forall ((V__AGRO $$unsorted)) (=> (tptp.s__instance V__AGRO tptp.s__Process) (=> (tptp.s__instance V__AGRO tptp.s__Agriculture) (exists ((V__GROWTH $$unsorted)) (and (tptp.s__instance V__GROWTH tptp.s__Process) (tptp.s__instance V__GROWTH tptp.s__Growth) (tptp.s__subProcess V__GROWTH V__AGRO)))))) (tptp.s__instance tptp.s__FarmHand tptp.s__OccupationalTrade) (tptp.s__documentation tptp.s__FarmHand tptp.s__EnglishLanguage |tptp.'&%OccupationalTrades which involve &%Agriculture.'|) (forall ((V__P $$unsorted)) (=> (tptp.s__instance V__P tptp.s__Agent) (=> (tptp.s__attribute V__P tptp.s__FarmHand) (exists ((V__F $$unsorted)) (and (tptp.s__instance V__F tptp.s__Process) (tptp.s__instance V__F tptp.s__Agriculture) (tptp.s__agent V__F V__P)))))) (tptp.s__instance tptp.s__Plumber tptp.s__OccupationalTrade) (tptp.s__documentation tptp.s__Plumber tptp.s__EnglishLanguage |tptp.'Any occupation that involves installing, repairing, and replacing pipes and pipe fixtures.'|) (tptp.s__instance tptp.s__Potter tptp.s__OccupationalTrade) (tptp.s__documentation tptp.s__Potter tptp.s__EnglishLanguage |tptp.'Any occupation that involves the creation of &%Pottery.'|) (forall ((V__H $$unsorted)) (=> (tptp.s__instance V__H tptp.s__Agent) (=> (tptp.s__attribute V__H tptp.s__Potter) (exists ((V__M $$unsorted) (V__P $$unsorted)) (and (tptp.s__instance V__M tptp.s__Process) (tptp.s__instance V__P tptp.s__Pottery) (tptp.s__instance V__M tptp.s__Making) (tptp.s__agent V__M V__H) (tptp.s__result V__M V__P)))))) (tptp.s__subclass tptp.s__ReligiousPosition tptp.s__Position) (tptp.s__documentation tptp.s__ReligiousPosition tptp.s__EnglishLanguage |tptp.'Any &%Position within a &%ReligousOrganization.'|) (forall ((V__O $$unsorted) (V__P $$unsorted) (V__H $$unsorted)) (=> (and (tptp.s__instance V__H tptp.s__Human) (tptp.s__instance V__P tptp.s__Position) (tptp.s__instance V__O tptp.s__Organization)) (=> (and (tptp.s__occupiesPosition V__H V__P V__O) (tptp.s__instance V__P tptp.s__ReligiousPosition)) (tptp.s__instance V__O tptp.s__ReligiousOrganization)))) (tptp.s__instance tptp.s__Cleric tptp.s__Profession) (tptp.s__instance tptp.s__Cleric tptp.s__ReligiousPosition) (tptp.s__instance tptp.s__ReligiousPosition__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Cleric tptp.s__EnglishLanguage |tptp.'The profession of being in charge of or ministering to a &%ReligousOrganization.'|) (tptp.s__instance tptp.s__Deacon tptp.s__ReligiousPosition) (tptp.s__instance tptp.s__Deacon tptp.s__PartTimePosition) (tptp.s__instance tptp.s__PartTimePosition__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Deacon tptp.s__EnglishLanguage |tptp.'Any &%Position within a &%ReligiousOrganization that is held by a layman, which is part-time, and which involves assisting a &%Cleric.'|) (forall ((V__TIME $$unsorted) (V__PERSON $$unsorted) (V__ORG $$unsorted)) (=> (and (tptp.s__instance V__ORG tptp.s__Organization) (tptp.s__instance V__PERSON tptp.s__Human) (tptp.s__instance V__TIME tptp.s__TimePosition)) (=> (tptp.s__holdsDuring V__TIME |tptp.'(s__occupiesPosition(V__PERSON,s__Deacon,V__ORG) & s__instance(V__ORG,s__ReligiousOrganization))'|) (exists ((V__C $$unsorted)) (and (tptp.s__instance V__C tptp.s__Human) (tptp.s__holdsDuring V__TIME |tptp.'(s__occupiesPosition(V__C,s__Cleric,V__ORG) & s__subordinateInOrganization(V__ORG,V__PERSON,V__C))'|)))))) (tptp.s__instance tptp.s__PoliceOfficer tptp.s__SkilledOccupation) (tptp.s__instance tptp.s__PoliceOfficer tptp.s__GovernmentPosition) (tptp.s__documentation tptp.s__PoliceOfficer tptp.s__EnglishLanguage |tptp.'The profession of being a police officer, i.e. working for a law enforcement agency that is part of a &%Government.'|) (forall ((V__P $$unsorted)) (=> (tptp.s__instance V__P tptp.s__Agent) (=> (tptp.s__attribute V__P tptp.s__PoliceOfficer) (tptp.s__hasSkill tptp.s__PlacingUnderArrest V__P)))) (tptp.s__subAttribute tptp.s__PoliceCaptain tptp.s__PoliceOfficer) (tptp.s__documentation tptp.s__PoliceCaptain tptp.s__EnglishLanguage |tptp.'A &%PoliceOfficer who is in charge of a precinct.'|) (tptp.s__subAttribute tptp.s__PoliceSergeant tptp.s__PoliceOfficer) (tptp.s__documentation tptp.s__PoliceSergeant tptp.s__EnglishLanguage |tptp.'A &%PoliceOfficer with the rank of sergeant.'|) (tptp.s__subAttribute tptp.s__Sheriff tptp.s__PoliceOfficer) (tptp.s__documentation tptp.s__Sheriff tptp.s__EnglishLanguage |tptp.'A &%PoliceOfficer whose jurisdiction is a &%County.'|) (tptp.s__subAttribute tptp.s__Marshal tptp.s__PoliceOfficer) (tptp.s__documentation tptp.s__Marshal tptp.s__EnglishLanguage |tptp.'A &%PoliceOfficer whose responsibility is to enforce the decisions of a law court.'|) (tptp.s__subAttribute tptp.s__Deputy tptp.s__PoliceOfficer) (tptp.s__documentation tptp.s__Deputy tptp.s__EnglishLanguage |tptp.'A &%Position which authorizes the holder of the position to act as the sheriff when the sheriff is not available.'|) (tptp.s__instance tptp.s__Coroner tptp.s__GovernmentPosition) (tptp.s__documentation tptp.s__Coroner tptp.s__EnglishLanguage |tptp.'A &%GovernmentPosition who investigates deaths that are suspected of being due to something other than natural causes.'|) (tptp.s__subAttribute tptp.s__PoliceDetective tptp.s__PoliceOfficer) (tptp.s__documentation tptp.s__PoliceDetective tptp.s__EnglishLanguage |tptp.'The &%Profession of being a police detective, i.e. being a &%PoliceOfficer whose duties include the investigation of crimes.'|) (tptp.s__instance tptp.s__PrivateDetective tptp.s__Profession) (tptp.s__contraryAttribute_2 tptp.s__PrivateDetective tptp.s__PoliceDetective) (tptp.s__documentation tptp.s__PrivateDetective tptp.s__EnglishLanguage |tptp.'The &%Profession of being a private detective, i.e. a detective who can be hired for a fee to investigate something.'|) (tptp.s__instance tptp.s__Lawyer tptp.s__Profession) (tptp.s__subAttribute tptp.s__Attorney tptp.s__Lawyer) (tptp.s__documentation tptp.s__Lawyer tptp.s__EnglishLanguage |tptp.'This &%Attribute describes a person whose &%Profession is the practice of law, whether as a &%Judge or as a legal advocate.'|) (forall ((V__P $$unsorted)) (=> (tptp.s__instance V__P tptp.s__Human) (=> (tptp.s__attribute V__P tptp.s__Lawyer) (tptp.s__hasExpertise V__P tptp.s__FieldOfLaw)))) (tptp.s__subAttribute tptp.s__AttorneyGeneral tptp.s__Attorney) (tptp.s__instance tptp.s__AttorneyGeneral tptp.s__GovernmentPosition) (tptp.s__documentation tptp.s__AttorneyGeneral tptp.s__EnglishLanguage |tptp.'This &%Attribute designates the chief law officer of a &%GeopoliticalArea, usually a &%Nation or &%StateOrProvince.'|) (tptp.s__subAttribute tptp.s__PublicDefender tptp.s__Attorney) (tptp.s__instance tptp.s__PublicDefender tptp.s__GovernmentPosition) (tptp.s__documentation tptp.s__PublicDefender tptp.s__EnglishLanguage |tptp.'An &%Attorney who defends criminal cases for a &%GovernmentOrganization.'|) (tptp.s__subAttribute tptp.s__PublicProsecutor tptp.s__Attorney) (tptp.s__instance tptp.s__PublicProsecutor tptp.s__GovernmentPosition) (tptp.s__documentation tptp.s__PublicProsecutor tptp.s__EnglishLanguage |tptp.'An &%Attorney who prosecutes criminal cases for a &%GovernmentOrganization.'|) (tptp.s__subAttribute tptp.s__Judge tptp.s__Attorney) (tptp.s__instance tptp.s__Judge tptp.s__GovernmentPosition) (tptp.s__documentation tptp.s__Judge tptp.s__EnglishLanguage |tptp.'An &%Attorney who has the power of deciding legal cases.'|) (forall ((V__O $$unsorted) (V__P $$unsorted) (V__J $$unsorted)) (=> (and (tptp.s__instance V__J tptp.s__Position) (tptp.s__instance V__P tptp.s__Human) (tptp.s__instance V__O tptp.s__Organization)) (=> (and (tptp.s__instance V__J tptp.s__Judge) (tptp.s__occupiesPosition V__P V__J V__O)) (tptp.s__modalAttribute |tptp.'(? [V__D] : (s__instance(V__D,s__Process) & s__instance(V__D,s__LegalDecision) & s__agent(V__D,V__P)))'| tptp.s__Permission)))) (forall ((V__O $$unsorted) (V__P $$unsorted) (V__J $$unsorted)) (=> (and (tptp.s__instance V__J tptp.s__Position) (tptp.s__instance V__P tptp.s__Human) (tptp.s__instance V__O tptp.s__Organization)) (=> (and (tptp.s__instance V__J tptp.s__Judge) (tptp.s__occupiesPosition V__P V__J V__O)) (tptp.s__instance V__O tptp.s__JudicialOrganization)))) (tptp.s__subAttribute tptp.s__Professor tptp.s__Teacher) (tptp.s__documentation tptp.s__Professor tptp.s__EnglishLanguage |tptp.'The &%Profession of being a &%teacher at a &%PostSecondarySchool.'|) (forall ((V__PROF $$unsorted) (V__PERSON $$unsorted) (V__ORG $$unsorted)) (=> (and (tptp.s__instance V__ORG tptp.s__EducationalOrganization) (tptp.s__instance V__PERSON tptp.s__Human) (tptp.s__instance V__PROF tptp.s__Position) (tptp.s__instance V__PROF tptp.s__CognitiveAgent)) (=> (and (tptp.s__instance V__PROF tptp.s__Professor) (tptp.s__occupiesPosition V__PERSON V__PROF V__ORG)) (and (tptp.s__teacher V__PROF V__ORG) (tptp.s__instance V__ORG tptp.s__PostSecondarySchool))))) (tptp.s__instance tptp.s__MedicalDoctor tptp.s__Profession) (tptp.s__documentation tptp.s__MedicalDoctor tptp.s__EnglishLanguage |tptp.'The &%Profession of being a medical doctor, i.e. having attended medical school and being licensed to practice medicine.'|) (forall ((V__DOCTOR $$unsorted)) (=> (tptp.s__instance V__DOCTOR tptp.s__Object) (=> (tptp.s__attribute V__DOCTOR tptp.s__MedicalDoctor) (exists ((V__PROCESS1 $$unsorted) (V__PROCESS2 $$unsorted)) (and (tptp.s__instance V__PROCESS2 tptp.s__SetOrClass) (tptp.s__subclass V__PROCESS2 tptp.s__Process) (tptp.s__instance V__PROCESS1 tptp.s__SetOrClass) (tptp.s__subclass V__PROCESS1 tptp.s__Process) (tptp.s__subclass V__PROCESS1 tptp.s__DiagnosticProcess) (tptp.s__subclass V__PROCESS2 tptp.s__TherapeuticProcess) (tptp.s__capability V__PROCESS1 tptp.s__agent__m V__DOCTOR) (tptp.s__capability V__PROCESS2 tptp.s__agent__m V__DOCTOR)))))) (tptp.s__subAttribute tptp.s__Surgeon tptp.s__MedicalDoctor) (tptp.s__documentation tptp.s__Surgeon tptp.s__EnglishLanguage |tptp.'The &%Profession of being a surgeon, i.e. being a medical doctor who specializes in performing surgical operations.'|) (tptp.s__documentation tptp.s__Circumision tptp.s__EnglishLanguage |tptp.'&%Removing the foreskin of the penis. This is usually performed on infants, but is occasionally performed on adolescents and adults, either for medical reasons, or after religious conversion. It is often conducted as a religious rite, since it is prescribed by both the &%Jewish and &%Muslim religions, although it is prevalent also as a social norm in different nations.'|) (tptp.s__subclass tptp.s__Circumision tptp.s__Removing) (tptp.s__instance tptp.s__Circumision__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Circumision tptp.s__Surgery) (tptp.s__instance tptp.s__NewsReporter tptp.s__Profession) (tptp.s__documentation tptp.s__NewsReporter tptp.s__EnglishLanguage |tptp.'The &%Profession of being a news reporter, i.e. investigating and reporting, in a publication or broadcast program, current events.'|) (forall ((V__H $$unsorted)) (=> (tptp.s__instance V__H tptp.s__Agent) (=> (tptp.s__attribute V__H tptp.s__NewsReporter) (exists ((V__T $$unsorted) (V__EV $$unsorted)) (and (tptp.s__instance V__EV tptp.s__Physical) (tptp.s__subclass V__T tptp.s__Text) (tptp.s__instance V__EV tptp.s__Process) (tptp.s__overlapsTemporally (tptp.s__WhenFn V__EV) (tptp.s__WhenFn V__H)) (tptp.s__authors V__H V__T) (tptp.s__refers V__T V__EV)))))) (tptp.s__subAttribute tptp.s__ArtCritic tptp.s__Journalist) (tptp.s__documentation tptp.s__ArtCritic tptp.s__EnglishLanguage |tptp.'The &%Profession of reporting and critiquing current &%ArtWorks.'|) (forall ((V__H $$unsorted)) (=> (tptp.s__instance V__H tptp.s__Agent) (=> (tptp.s__attribute V__H tptp.s__ArtCritic) (exists ((V__T $$unsorted) (V__AW $$unsorted)) (and (tptp.s__subclass V__T tptp.s__Text) (tptp.s__instance V__AW tptp.s__ArtWork) (tptp.s__authors V__H V__T) (tptp.s__refers V__T V__AW)))))) (tptp.s__instance tptp.s__Accountant tptp.s__Profession) (tptp.s__documentation tptp.s__Accountant tptp.s__EnglishLanguage |tptp.'The &%Profession of being an &%Accountant.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__attribute V__X tptp.s__Accountant) (tptp.s__capability tptp.s__Calculating tptp.s__agent__m V__X)))) (tptp.s__instance tptp.s__Literature tptp.s__FieldOfStudy) 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$$unsorted)) (and (tptp.s__instance V__D tptp.s__Process) (tptp.s__instance V__D tptp.s__ContentDevelopment) (tptp.s__agent V__D V__H) (tptp.s__result V__D V__P) (tptp.s__instance V__P tptp.s__Blueprint) (tptp.s__represents V__P V__B) (tptp.s__instance V__B tptp.s__Building)))))) (tptp.s__instance tptp.s__Economics tptp.s__SocialScience) (tptp.s__documentation tptp.s__Economics tptp.s__EnglishLanguage |tptp.'The field of economics.'|) (tptp.s__instance tptp.s__Linguistics tptp.s__SocialScience) (tptp.s__instance tptp.s__SocialScience__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Linguistics tptp.s__EnglishLanguage |tptp.'The field of linguistics.'|) (tptp.s__instance tptp.s__Psychology tptp.s__SocialScience) (tptp.s__documentation tptp.s__Psychology tptp.s__EnglishLanguage |tptp.'The field of psychology.'|) (tptp.s__instance tptp.s__Biology tptp.s__Science) (tptp.s__documentation tptp.s__Biology tptp.s__EnglishLanguage |tptp.'The study of the classification, development, and 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|tptp.'The application of instances of &%Science to the solution of practical problems, i.e. the creation of various forms of technology.'|) (tptp.s__subField tptp.s__Electronics tptp.s__Physics) (tptp.s__subField tptp.s__Electronics tptp.s__Engineering) (tptp.s__instance tptp.s__Electronics tptp.s__FieldOfStudy) (tptp.s__documentation tptp.s__Electronics tptp.s__EnglishLanguage |tptp.'The branch of &%Physics that deals with the theory and applications of electron emissions.'|) (tptp.s__instance tptp.s__Theology tptp.s__FieldOfStudy) (tptp.s__documentation tptp.s__Theology tptp.s__EnglishLanguage |tptp.'The systematic study of religion.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Theology) (exists ((V__Y $$unsorted)) (and (tptp.s__instance V__Y tptp.s__ReligiousProcess) (tptp.s__refers V__X V__Y))))) (tptp.s__instance tptp.s__MilitaryScience tptp.s__FieldOfStudy) (tptp.s__documentation tptp.s__MilitaryScience tptp.s__EnglishLanguage |tptp.'The study of the principles of war.'|) (tptp.s__instance tptp.s__History tptp.s__FieldOfStudy) (tptp.s__documentation tptp.s__History tptp.s__EnglishLanguage |tptp.'The recording and interpretation of past events involving &%Humans, including political events and cultural practices.'|) (tptp.s__instance tptp.s__Philosophy tptp.s__FieldOfStudy) (tptp.s__documentation tptp.s__Philosophy tptp.s__EnglishLanguage |tptp.'The study of first principles, including epistemology, metaphysics, and ethics.'|) (tptp.s__instance tptp.s__FieldOfLaw tptp.s__FieldOfStudy) (tptp.s__documentation tptp.s__FieldOfLaw tptp.s__EnglishLanguage |tptp.'The study of legal principles and the framework of national and/or international laws.'|) (tptp.s__subrelation tptp.s__subField__m tptp.s__subProposition__m) (tptp.s__instance tptp.s__subField__m tptp.s__TransitiveRelation) (tptp.s__instance tptp.s__subField__m tptp.s__IrreflexiveRelation) (tptp.s__domain tptp.s__subField__m |"1"| tptp.s__FieldOfStudy) (tptp.s__domain tptp.s__subField__m |"2"| tptp.s__FieldOfStudy) (tptp.s__documentation tptp.s__subField__m tptp.s__EnglishLanguage |tptp.'(&%subField ?FIELD1 ?FIELD2) means that ?FIELD1 is a proper part of the &%FieldOfStudy ?FIELD2. For example, &%Physiology is a &%subField of &%Biology.'|) (tptp.s__instance tptp.s__hasExpertise__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__hasExpertise__m |"1"| tptp.s__Human) (tptp.s__domain tptp.s__hasExpertise__m |"2"| tptp.s__FieldOfStudy) (tptp.s__documentation tptp.s__hasExpertise__m tptp.s__EnglishLanguage |tptp.'(&%hasExpertise ?PERSON ?FIELD) means that ?PERSON has studied the &%FieldOfStudy ?FIELD and is regarded as an expert.'|) (forall ((V__FIELD $$unsorted) (V__PERSON $$unsorted)) (=> (and (tptp.s__instance V__PERSON tptp.s__Human) (tptp.s__instance V__FIELD tptp.s__FieldOfStudy)) (=> (tptp.s__hasExpertise V__PERSON V__FIELD) (exists ((V__LEARN $$unsorted)) (and (tptp.s__instance V__LEARN tptp.s__Process) (tptp.s__instance V__LEARN tptp.s__Learning) (tptp.s__agent V__LEARN V__PERSON) (tptp.s__realization V__LEARN V__FIELD)))))) (tptp.s__instance tptp.s__hasOccupation__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__hasOccupation__m |"1"| tptp.s__Human) (tptp.s__domainSubclass tptp.s__hasOccupation__m |"2"| tptp.s__IntentionalProcess) (tptp.s__documentation tptp.s__hasOccupation__m tptp.s__EnglishLanguage |tptp.'(&%hasOccupation ?PERSON ?WORK) means that ?PERSON engages in activities of the class ?WORK as a means of earning a living.'|) (forall ((V__PERSON $$unsorted) (V__WORK $$unsorted)) (=> (and (tptp.s__subclass V__WORK tptp.s__IntentionalProcess) (tptp.s__instance V__WORK tptp.s__SetOrClass) (tptp.s__instance V__PERSON tptp.s__Human)) (=> (tptp.s__hasOccupation V__PERSON V__WORK) (exists ((V__INST $$unsorted)) (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__INST V__WORK) (tptp.s__instance V__INST tptp.s__Working) (tptp.s__agent V__INST V__PERSON)))))) (tptp.s__subclass tptp.s__Bleeding tptp.s__AutonomicProcess) (tptp.s__instance tptp.s__Bleeding__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Bleeding tptp.s__EnglishLanguage |tptp.'The release of &%Blood from an &%Animal in response to an &%Injuring of some sort.'|) (forall ((V__BLEED $$unsorted)) (=> (tptp.s__instance V__BLEED tptp.s__Process) (=> (tptp.s__instance V__BLEED tptp.s__Bleeding) (exists ((V__INJURY $$unsorted)) (and (tptp.s__instance V__INJURY tptp.s__Process) (tptp.s__instance V__INJURY tptp.s__Injuring) (tptp.s__causes V__INJURY V__BLEED)))))) (forall ((V__BLEED $$unsorted) (V__ANIMAL $$unsorted)) (=> (and (tptp.s__instance V__ANIMAL tptp.s__Agent) (tptp.s__instance V__BLEED tptp.s__Process)) (=> (and (tptp.s__instance V__BLEED tptp.s__Bleeding) (tptp.s__experiencer V__BLEED V__ANIMAL)) (tptp.s__instance V__ANIMAL tptp.s__Animal)))) (tptp.s__subclass tptp.s__Blushing tptp.s__AutonomicProcess) (tptp.s__instance tptp.s__Blushing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Blushing tptp.s__EnglishLanguage |tptp.'The process of turning red in response to a stimulus which has a deep emotional effect.'|) (tptp.s__subclass tptp.s__Aborting tptp.s__Removing) (tptp.s__instance tptp.s__Aborting__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Aborting tptp.s__EnglishLanguage |tptp.'&%Removing a human fetus from a &%Pregnant woman in such a way that the fetus cannot survive.'|) (tptp.s__subclass tptp.s__ClosingContract tptp.s__Committing) (tptp.s__instance tptp.s__ClosingContract__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ClosingContract tptp.s__EnglishLanguage |tptp.'Completing a &%Contract of some sort, e.g. the purchase of a house, closing a business deal, etc.'|) (forall ((V__CONTRACT $$unsorted) (V__CLOSE $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__AGENT tptp.s__Agreement) (tptp.s__instance V__CLOSE tptp.s__Process) (tptp.s__instance V__CONTRACT tptp.s__CognitiveAgent)) (=> (and (tptp.s__instance V__CLOSE tptp.s__ClosingContract) (tptp.s__agent V__CLOSE V__AGENT) (tptp.s__destination V__CLOSE V__CONTRACT)) (tptp.s__partyToAgreement V__CONTRACT V__AGENT)))) (tptp.s__subclass tptp.s__Opening tptp.s__Motion) (tptp.s__instance tptp.s__Opening__t tptp.s__SetOrClass) (tptp.s__relatedInternalConcept tptp.s__Opening tptp.s__Closing) (tptp.s__documentation tptp.s__Opening tptp.s__EnglishLanguage |tptp.'The &%Class of &%Processes where an aperture is created in an &%Object. Note that the aperture may be created intentionally, as when one opens a door, or unintentionally, as when the ground ruptures in a seismic event.'|) (tptp.s__subclass tptp.s__Closing tptp.s__Motion) (tptp.s__documentation tptp.s__Closing tptp.s__EnglishLanguage |tptp.'The &%Class of &%Processes where an aperture is closed in an &%Object.'|) (tptp.s__subclass tptp.s__Diet tptp.s__Plan) (tptp.s__instance tptp.s__Diet__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Diet tptp.s__EnglishLanguage |tptp.'A &%Plan regarding what one is allowed to eat.'|) (forall ((V__P $$unsorted) (V__D $$unsorted)) (=> (and (tptp.s__instance V__D tptp.s__Proposition) (tptp.s__instance V__P tptp.s__Process)) (=> (and (tptp.s__instance V__D tptp.s__Diet) (tptp.s__realization V__P V__D)) (exists ((V__E $$unsorted)) (and (tptp.s__instance V__E tptp.s__Process) (tptp.s__subProcess V__E V__P) (tptp.s__instance V__E tptp.s__Eating)))))) (tptp.s__subclass tptp.s__PreparedFood tptp.s__Object) (tptp.s__documentation tptp.s__PreparedFood tptp.s__EnglishLanguage |tptp.'&%PreparedFood refers to anything that undergoes some process intended to result in an object that has &%Nutrient which can be ingested by &%Animal, normally metabolized into energy and body tissue.'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__PreparedFood tptp.food) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__PreparedFood) (tptp.s__instance V__X (tptp.s__FoodForFn tptp.s__Organism)))) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__PreparedFood) (exists ((V__PROC $$unsorted)) (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__PROC tptp.s__IntentionalProcess) (tptp.s__result V__PROC V__X))))) (tptp.s__subclass tptp.s__SolidFood tptp.s__PreparedFood) (tptp.s__instance tptp.s__SolidFood__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SolidFood tptp.s__EnglishLanguage |tptp.'&%SolidFood refers to &%PreparedFood that has &%Solid parts.'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__SolidFood |tptp.'solid food'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__SolidFood) (exists ((V__ING $$unsorted)) (and (tptp.s__instance V__ING tptp.s__Object) (tptp.s__part V__ING V__X) (tptp.s__attribute V__ING tptp.s__Solid)))))) (tptp.s__subclass tptp.s__LiquidFood tptp.s__PreparedFood) (tptp.s__instance tptp.s__PreparedFood__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__LiquidFood tptp.s__EnglishLanguage |tptp.'&%LiquidFood refers to &%PreparedFood that has no &%Solid parts, only &%Liquid parts, therefore this does not cover stews, root beer floats or other combinations of solid and liquid foods.'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__LiquidFood |tptp.'liquid food'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__LiquidFood) (not (exists ((V__ING $$unsorted)) (and (tptp.s__instance V__ING tptp.s__Object) (tptp.s__part V__ING V__X) (tptp.s__attribute V__ING tptp.s__Solid))))))) (tptp.s__subclass tptp.s__Beverage tptp.s__LiquidFood) (tptp.s__instance tptp.s__Beverage__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__LiquidFood__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Beverage tptp.s__Substance) (tptp.s__disjoint tptp.s__Meat tptp.s__Beverage) (tptp.s__documentation tptp.s__Beverage tptp.s__EnglishLanguage |tptp.'Any food that is ingested by &%Drinking. Note that this class is disjoint &%Meat and &%FruitOrVegetable.'|) (forall ((V__BEV $$unsorted)) (=> (tptp.s__instance V__BEV tptp.s__Object) (=> (tptp.s__instance V__BEV tptp.s__Beverage) (tptp.s__attribute V__BEV tptp.s__Liquid)))) (forall ((V__BEV $$unsorted) (V__DRINK $$unsorted)) (=> (tptp.s__instance V__DRINK tptp.s__Process) (=> (and (tptp.s__instance V__DRINK tptp.s__Drinking) (tptp.s__patient V__DRINK V__BEV)) (tptp.s__instance V__BEV tptp.s__Beverage)))) (tptp.s__instance tptp.s__CookedAttribute tptp.s__RelationalAttribute) (tptp.s__documentation tptp.s__CookedAttribute tptp.s__EnglishLanguage |tptp.'&%CookedAttribute describes how something is a product of &%Cooking.'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__CookedAttribute tptp.cooked) (forall ((V__FOOD $$unsorted)) (=> (tptp.s__instance V__FOOD tptp.s__Object) (=> (tptp.s__attribute V__FOOD tptp.s__CookedAttribute) (exists ((V__PROC $$unsorted)) (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__PROC tptp.s__Cooking) (tptp.s__result V__PROC V__FOOD)))))) (tptp.s__instance tptp.s__RawAttribute tptp.s__RelationalAttribute) (tptp.s__documentation tptp.s__RawAttribute tptp.s__EnglishLanguage |tptp.'&%RawAttribute describes how cooking was not involved in the making of something'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__RawAttribute tptp.raw) (forall ((V__FOOD $$unsorted)) (=> (tptp.s__instance V__FOOD tptp.s__Object) (=> (tptp.s__attribute V__FOOD tptp.s__RawAttribute) (tptp.s__instance V__FOOD (tptp.s__FoodForFn tptp.s__Organism))))) (forall ((V__FOOD $$unsorted)) (=> (tptp.s__instance V__FOOD tptp.s__Object) (=> (tptp.s__attribute V__FOOD tptp.s__RawAttribute) (not (exists ((V__PROC $$unsorted)) (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__PROC tptp.s__Cooking) (tptp.s__result V__PROC V__FOOD))))))) (tptp.s__subclass tptp.s__Baking tptp.s__Cooking) (tptp.s__instance tptp.s__Baking__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Baking tptp.s__Heating) (tptp.s__documentation tptp.s__Baking tptp.s__EnglishLanguage |tptp.'Any instance of &%Cooking where the instrument is an &%Oven.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Process) (=> (tptp.s__instance V__B tptp.s__Baking) (exists ((V__O $$unsorted)) (and (tptp.s__instance V__O tptp.s__Object) (tptp.s__instance V__O tptp.s__Oven) (tptp.s__instrument V__B V__O)))))) (tptp.s__subclass tptp.s__BreadOrBiscuit tptp.s__PreparedFood) (tptp.s__instance tptp.s__BreadOrBiscuit__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__BreadOrBiscuit tptp.s__EnglishLanguage |tptp.'Food that consists largely of grain flour and water. Note that this class covers crackers, cookies, as well as any self-connected instance of bread, whether it is a loaf, a slice, a chunk of bread, etc.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__BreadOrBiscuit) (exists ((V__D $$unsorted) (V__BAKE $$unsorted)) (and (tptp.s__instance V__BAKE tptp.s__Process) (tptp.s__instance V__D tptp.s__Object) (tptp.s__instance V__D tptp.s__Dough) (tptp.s__instance V__BAKE tptp.s__Baking) (tptp.s__resource V__BAKE V__D) (tptp.s__result V__BAKE V__B))))) (tptp.s__subclass tptp.s__Sandwich tptp.s__PreparedFood) (tptp.s__instance tptp.s__Sandwich__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sandwich tptp.s__EnglishLanguage |tptp.'Any food which consists of two or more pieces of bread and some sort of filling between the two pieces of bread.'|) (forall ((V__S $$unsorted)) (=> (tptp.s__instance V__S tptp.s__Object) (=> (tptp.s__instance V__S tptp.s__Sandwich) (exists ((V__B1 $$unsorted) (V__B2 $$unsorted) (V__F $$unsorted)) (and (tptp.s__instance V__F tptp.s__Object) (tptp.s__instance V__B2 tptp.s__Object) (tptp.s__instance V__B1 tptp.s__Object) (tptp.s__instance V__B1 tptp.s__BreadOrBiscuit) (tptp.s__instance V__B2 tptp.s__BreadOrBiscuit) (tptp.s__instance V__F (tptp.s__FoodForFn tptp.s__Human)) (tptp.s__between V__B1 V__F V__B2) (not (= V__B1 V__B2)) (not (= V__B1 V__F)) (not (= V__B2 V__F)) (tptp.s__part V__B1 V__S) (tptp.s__part V__B2 V__S) (tptp.s__part V__F V__S)))))) (tptp.s__subclass tptp.s__Dough tptp.s__PreparedFood) (tptp.s__instance tptp.s__Dough__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Dough tptp.s__Mixture) (tptp.s__documentation tptp.s__Dough tptp.s__EnglishLanguage |tptp.'A &%Mixture of &%Flour, &%Water, and possibly other ingredients (such as &%Butter and &%Salt), which is used in making &%BreadOrBiscuits.'|) (forall ((V__D $$unsorted)) (=> (tptp.s__instance V__D tptp.s__Object) (=> (tptp.s__instance V__D tptp.s__Dough) (exists ((V__F $$unsorted) (V__W $$unsorted)) (and (tptp.s__instance V__W tptp.s__Object) (tptp.s__instance V__F tptp.s__Object) (tptp.s__instance V__F tptp.s__Flour) (tptp.s__instance V__W tptp.s__Water) (tptp.s__part V__F V__D) (tptp.s__part V__W V__D)))))) (tptp.s__subclass tptp.s__Butter tptp.s__PreparedFood) (tptp.s__instance tptp.s__Butter__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Butter tptp.s__EnglishLanguage |tptp.'An emulsion of fat which is produced by churning &%Milk.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Butter) (exists ((V__C $$unsorted) (V__M $$unsorted)) (and (tptp.s__instance V__M tptp.s__Object) (tptp.s__instance V__C tptp.s__Process) (tptp.s__instance V__C tptp.s__Cooking) (tptp.s__resource V__C V__M) (tptp.s__instance V__M tptp.s__Milk) (tptp.s__result V__C V__B))))) (tptp.s__subclass tptp.s__CerealGrain tptp.s__Seed) (tptp.s__documentation tptp.s__CerealGrain tptp.s__EnglishLanguage |tptp.'Any &%Seed which is produced by the cereal grasses, e.g. rice, corn, wheat, etc.'|) (tptp.s__subclass tptp.s__RiceGrain tptp.s__CerealGrain) (tptp.s__instance tptp.s__RiceGrain__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__RiceGrain tptp.s__EnglishLanguage |tptp.'A &%CerealGrain which has short and long grain varieties and which is usually prepared for eating by steaming.'|) (tptp.s__subclass tptp.s__WheatGrain tptp.s__CerealGrain) (tptp.s__instance tptp.s__WheatGrain__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__CerealGrain__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__WheatGrain tptp.s__EnglishLanguage |tptp.'A long &%CerealGrain which is produced by certain grasses and which is used to make &%BreadOrBiscuits.'|) (tptp.s__subclass tptp.s__Pea tptp.s__Seed) (tptp.s__subclass tptp.s__Pea _let_8) (tptp.s__instance tptp.s__Pea__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Pea tptp.s__EnglishLanguage |tptp.'The edible &%Seed of a pea plant.'|) (tptp.s__subclass tptp.s__Flour tptp.s__PreparedFood) (tptp.s__subclass tptp.s__Flour tptp.s__Powder) (tptp.s__instance tptp.s__Flour__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Powder__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Flour tptp.s__EnglishLanguage |tptp.'A &%Powder that is prepared from &%CerealGrain, e.g. wheat flour, rice flour, etc. Flour is most often used in the making of &%BreadOrBiscuits.'|) (forall ((V__F $$unsorted)) (=> (tptp.s__instance V__F tptp.s__Flour) (exists ((V__P $$unsorted) (V__C $$unsorted)) (and (tptp.s__instance V__C tptp.s__Object) (tptp.s__instance V__P tptp.s__Process) (tptp.s__instance V__P tptp.s__IntentionalProcess) (tptp.s__resource V__P V__C) (tptp.s__instance V__C tptp.s__CerealGrain) (tptp.s__result V__P V__F))))) (tptp.s__subclass tptp.s__Honey tptp.s__AnimalSubstance) (tptp.s__instance tptp.s__Honey__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Honey _let_8) (tptp.s__documentation tptp.s__Honey tptp.s__EnglishLanguage |tptp.'An edible, sweet &%Substance produced by some species of &%Bees.'|) (forall ((V__H $$unsorted)) (=> (tptp.s__instance V__H tptp.s__Honey) (exists ((V__P $$unsorted) (V__B $$unsorted)) (and (tptp.s__instance V__B tptp.s__Agent) (tptp.s__instance V__P tptp.s__Process) (tptp.s__instance V__P tptp.s__PhysiologicProcess) (tptp.s__agent V__P V__B) (tptp.s__instance V__B tptp.s__Bee) (tptp.s__result V__P V__H))))) (tptp.s__subclass tptp.s__Coconut tptp.s__FruitOrVegetable) (tptp.s__subclass tptp.s__Coconut _let_8) (tptp.s__instance tptp.s__Coconut__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Coconut tptp.s__EnglishLanguage |tptp.'A &%FruitOrVegetable that is produced by a type of palm and has an edible white meat.'|) (tptp.s__subclass tptp.s__MaizeGrain tptp.s__CerealGrain) (tptp.s__instance tptp.s__MaizeGrain__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MaizeGrain tptp.s__EnglishLanguage |tptp.'A &%CerealGrain which is found on long ears of a &%Plant native to the Americas.'|) (tptp.s__subclass tptp.s__SoupStock tptp.s__PreparedFood) (tptp.s__instance tptp.s__SoupStock__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SoupStock tptp.s__EnglishLanguage |tptp.'Food which is prepared by reducing &%Meat and/or &%FruitOrVegetables to a translucent broth which can be used as a base for soups or sauces.'|) (tptp.s__subclass tptp.s__Coffee tptp.s__Beverage) (tptp.s__instance tptp.s__Coffee__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Coffee tptp.s__PreparedFood) (tptp.s__documentation tptp.s__Coffee tptp.s__EnglishLanguage |tptp.'A &%Beverage which is prepared by infusing ground, roasted coffee beans into hot water.'|) (tptp.s__subclass tptp.s__Apple tptp.s__FruitOrVegetable) (tptp.s__subclass tptp.s__Apple _let_8) (tptp.s__instance tptp.s__Apple__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Apple tptp.s__EnglishLanguage |tptp.'A &%FruitOrVegetable that has a tart to sweet taste and a spherical shape.'|) (tptp.s__subclass tptp.s__DateFruit tptp.s__FruitOrVegetable) (tptp.s__subclass tptp.s__DateFruit _let_8) (tptp.s__instance tptp.s__DateFruit__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__DateFruit tptp.s__EnglishLanguage |tptp.'A &%FruitOrVegetable that is produced by the date palm.'|) (tptp.s__subclass tptp.s__PearFruit tptp.s__FruitOrVegetable) (tptp.s__subclass tptp.s__PearFruit _let_8) (tptp.s__instance tptp.s__PearFruit__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PearFruit tptp.s__EnglishLanguage |tptp.'A &%FruitOrVegetable that has a thick skin and the shape of a tear drop.'|) (tptp.s__subclass tptp.s__Avocado tptp.s__FruitOrVegetable) (tptp.s__subclass tptp.s__Avocado _let_8) (tptp.s__instance tptp.s__Avocado__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Avocado tptp.s__EnglishLanguage |tptp.'A &%FruitOrVegetable that is shaped like a pear and has a dark green skin and a rich meat.'|) (tptp.s__subclass tptp.s__Ion tptp.s__PureSubstance) (tptp.s__instance tptp.s__Ion__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Ion tptp.s__EnglishLanguage |tptp.'An electronically charged &%Atom or &%Molecule. In other words, a &%PureSubstance that has lost one of its &%Electrons.'|) (tptp.s__subclass tptp.s__FreeAtom tptp.s__Atom) (tptp.s__instance tptp.s__FreeAtom__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FreeAtom tptp.s__EnglishLanguage |tptp.'Any &%Atom which is not part of a &%Molecule.'|) (forall ((V__A $$unsorted)) (=> (tptp.s__instance V__A tptp.s__Object) (=> (tptp.s__instance V__A tptp.s__FreeAtom) (not (exists ((V__M $$unsorted)) (and (tptp.s__instance V__M tptp.s__Object) (tptp.s__instance V__M tptp.s__Molecule) (tptp.s__part V__A V__M))))))) (tptp.s__instance tptp.s__protonNumber__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__protonNumber__m tptp.s__SingleValuedRelation) (tptp.s__instance tptp.s__protonNumber__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__protonNumber__m |"1"| tptp.s__PureSubstance) (tptp.s__domain tptp.s__protonNumber__m |"2"| tptp.s__PositiveInteger) (tptp.s__documentation tptp.s__protonNumber__m tptp.s__EnglishLanguage |tptp.'(&%protonNumber ?SUBSTANCE ?NUMBER) means that the &%PureSubstance ?SUBSTANCE has the number of &%Protons ?NUMBER.'|) (forall ((V__PROTON $$unsorted) (V__ATOM $$unsorted) (V__NUMBER $$unsorted) (V__SUBSTANCE $$unsorted)) (=> (and (tptp.s__instance V__SUBSTANCE tptp.s__PureSubstance) (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (tptp.s__instance V__ATOM tptp.s__Object)) (=> (tptp.s__protonNumber V__SUBSTANCE V__NUMBER) (=> (and (tptp.s__part V__ATOM V__SUBSTANCE) (or (tptp.s__instance V__ATOM tptp.s__Atom) (tptp.s__instance V__ATOM tptp.s__Molecule))) (= V__NUMBER (tptp.s__CardinalityFn (tptp.s__KappaFn V__PROTON |tptp.'(s__part(V__PROTON,V__ATOM) & s__instance(V__PROTON,s__Proton))'|))))))) (tptp.s__instance tptp.s__electronNumber__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__electronNumber__m tptp.s__SingleValuedRelation) (tptp.s__instance tptp.s__electronNumber__m tptp.s__TotalValuedRelation) (tptp.s__domain tptp.s__electronNumber__m |"1"| tptp.s__PureSubstance) (tptp.s__domain tptp.s__electronNumber__m |"2"| tptp.s__PositiveInteger) (tptp.s__documentation tptp.s__electronNumber__m tptp.s__EnglishLanguage |tptp.'(&%electronNumber ?SUBSTANCE ?NUMBER) means that the &%PureSubstance ?SUBSTANCE has the number of &%Electrons ?NUMBER.'|) (forall ((V__ELECTRON $$unsorted) (V__ATOM $$unsorted) (V__NUMBER $$unsorted) (V__SUBSTANCE $$unsorted) (V__TYPE $$unsorted)) (=> (and (tptp.s__instance V__TYPE tptp.s__PureSubstance) (tptp.s__instance V__SUBSTANCE tptp.s__Object) (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (tptp.s__instance V__ATOM tptp.s__Object)) (=> (tptp.s__electronNumber V__TYPE V__NUMBER) (=> (and (tptp.s__part V__ATOM V__SUBSTANCE) (or (tptp.s__instance V__ATOM tptp.s__Atom) (tptp.s__instance V__ATOM tptp.s__Molecule))) (= V__NUMBER (tptp.s__CardinalityFn (tptp.s__KappaFn V__ELECTRON |tptp.'(s__part(V__ELECTRON,V__ATOM) & s__instance(V__ELECTRON,s__Electron))'|))))))) (tptp.s__subclass tptp.s__AtomicGroup tptp.s__CompoundSubstance) (tptp.s__instance tptp.s__AtomicGroup__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AtomicGroup tptp.s__EnglishLanguage |tptp.'Two or more &%Atoms that are bound together and comprise part of a &%Molecule.'|) (forall ((V__G $$unsorted)) (=> (tptp.s__instance V__G tptp.s__Object) (=> (tptp.s__instance V__G tptp.s__AtomicGroup) (exists ((V__ATOM1 $$unsorted) (V__ATOM2 $$unsorted)) (and (tptp.s__instance V__ATOM2 tptp.s__Object) (tptp.s__instance V__ATOM1 tptp.s__Object) (tptp.s__instance V__ATOM1 tptp.s__Atom) (tptp.s__instance V__ATOM2 tptp.s__Atom) (not (= V__ATOM1 V__ATOM2)) (tptp.s__part V__ATOM1 V__G) (tptp.s__part V__ATOM2 V__G)))))) (forall ((V__G $$unsorted)) (=> (tptp.s__instance V__G tptp.s__Object) (=> (tptp.s__instance V__G tptp.s__AtomicGroup) (exists ((V__M $$unsorted)) (and (tptp.s__instance V__M tptp.s__Object) (tptp.s__instance V__M tptp.s__Molecule) (tptp.s__part V__G V__M)))))) (tptp.s__subclass tptp.s__Ambush tptp.s__Maneuver) (tptp.s__instance tptp.s__Ambush__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Ambush tptp.s__EnglishLanguage |tptp.'Any &%Maneuver in a &%ViolentContest where one &%contestParticipant attempts to conceal himself from another contestParticipant so that he can &%Attack the other &%contestParticipant.'|) (forall ((V__AG $$unsorted) (V__AMBUSH $$unsorted)) (=> (and (tptp.s__instance V__AMBUSH tptp.s__Process) (tptp.s__instance V__AG tptp.s__Agent)) (=> (and (tptp.s__instance V__AMBUSH tptp.s__Ambush) (tptp.s__agent V__AMBUSH V__AG)) (exists ((V__C $$unsorted)) (and (tptp.s__instance V__C tptp.s__Concealing) (tptp.s__subProcess V__C V__AMBUSH) (tptp.s__hasPurpose V__C |tptp.'(? [V__ATTACK] : (s__instance(V__ATTACK,s__Process) & s__instance(V__C,s__Process) & s__instance(V__ATTACK,s__Attack) & s__agent(V__ATTACK,V__AG)))'|)))))) (tptp.s__subclass tptp.s__Blockade tptp.s__Maneuver) (tptp.s__instance tptp.s__Blockade__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Blockade tptp.s__EnglishLanguage |tptp.'Any &%Maneuver in a &%Contest where one &%contestParticipant attempts to deny access to something that is wanted by another &%contestParticipant.'|) (forall ((V__A1 $$unsorted) (V__B $$unsorted) (V__C $$unsorted)) (=> (and (tptp.s__instance V__B tptp.s__Process) (tptp.s__instance V__A1 tptp.s__Agent)) (=> (and (tptp.s__instance V__B tptp.s__Blockade) (tptp.s__instance V__C tptp.s__Contest) (tptp.s__subProcess V__B V__C) (tptp.s__contestParticipant V__C V__A1) (tptp.s__agent V__B V__A1)) (exists ((V__C1 $$unsorted) (V__A2 $$unsorted)) (and (tptp.s__prevents V__C1 tptp.s__Translocation) (tptp.s__instance V__B V__C1) (tptp.s__contestParticipant V__C V__A2) (not (= V__A1 V__A2)) (tptp.s__desires V__A2 |tptp.'(? [V__I] : (s__instance(V__I,s__Process) & s__instance(V__A2,s__CognitiveAgent) & s__instance(V__C1,s__SetOrClass) & s__subclass(V__C1,s__Process) & s__instance(V__I,V__C1) & s__agent(V__I,V__A1) & s__subProcess(V__I,V__C)))'|)))))) (tptp.s__subclass tptp.s__MilitaryManeuver tptp.s__Maneuver) (tptp.s__instance tptp.s__MilitaryManeuver__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MilitaryManeuver tptp.s__EnglishLanguage |tptp.'Any &%Maneuver which takes place in a &%Battle and which is intended to secure a tactical advantage for one of the agents of the &%Battle.'|) (forall ((V__M $$unsorted)) (=> (tptp.s__instance V__M tptp.s__Process) (=> (tptp.s__instance V__M tptp.s__MilitaryManeuver) (exists ((V__B $$unsorted)) (and (tptp.s__instance V__B tptp.s__Process) (tptp.s__instance V__B tptp.s__Battle) (tptp.s__subProcess V__M V__B)))))) (tptp.s__subclass tptp.s__Fire tptp.s__Combustion) (tptp.s__instance tptp.s__Fire__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Fire tptp.s__EnglishLanguage |tptp.'&%Fire is the subclass of &%Combustion events in which flames are present. Fires are slower combustion processes than explosions, though some fires may include explosive episodes.'|) (tptp.s__subclass tptp.s__Arson tptp.s__Fire) (tptp.s__subclass tptp.s__Arson tptp.s__Destruction) (tptp.s__instance tptp.s__Arson__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Arson tptp.s__EnglishLanguage |tptp.'An act where an agent sets something which it does not possess on fire in order to destroy it or its contents.'|) (tptp.s__subclass tptp.s__Bombing tptp.s__Destruction) (tptp.s__documentation tptp.s__Bombing tptp.s__EnglishLanguage |tptp.'An act of &%Destruction where the thing destroyed is destroyed by means of an explosive device.'|) (tptp.s__subclass tptp.s__Bomb tptp.s__Weapon) (tptp.s__instance tptp.s__Bomb__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Bomb tptp.s__ExplosiveDevice) (tptp.s__instance tptp.s__ExplosiveDevice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Bomb tptp.s__EnglishLanguage |tptp.'A weapon that explodes in order to cause damage.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Process) (=> (tptp.s__instance V__X tptp.s__Bombing) (exists ((V__BOMB $$unsorted)) (and (tptp.s__instance V__BOMB tptp.s__Object) (tptp.s__instance V__BOMB tptp.s__Bomb) (tptp.s__instrument V__X V__BOMB)))))) (tptp.s__subclass tptp.s__CarBombing tptp.s__Bombing) (tptp.s__instance tptp.s__CarBombing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__CarBombing tptp.s__EnglishLanguage |tptp.'A car bombing is an attack in which a car is used as the delivery mechanism for a bomb. The car is usually destroyed in the blast if the bomb detonates successfully.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Process) (=> (tptp.s__instance V__X tptp.s__CarBombing) (exists ((V__BOMB $$unsorted) (V__CAR $$unsorted)) (and (tptp.s__instance V__CAR tptp.s__Object) (tptp.s__instance V__BOMB tptp.s__Object) (tptp.s__instance V__BOMB tptp.s__Bomb) (tptp.s__instance V__CAR tptp.s__TransportationDevice) (tptp.s__instrument V__X V__CAR) (tptp.s__instrument V__X V__BOMB) (tptp.s__connected V__CAR V__BOMB)))))) (tptp.s__subclass tptp.s__ChemicalAttack tptp.s__ViolentContest) (tptp.s__instance tptp.s__ChemicalAttack__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ChemicalAttack tptp.s__EnglishLanguage |tptp.'An attack against people or property in which a chemical agent is used as the active ingredient of the attack.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Process) (=> (tptp.s__instance V__X tptp.s__ChemicalAttack) (exists ((V__CHEM $$unsorted)) (and (tptp.s__instance V__CHEM tptp.s__Object) (tptp.s__instance V__CHEM tptp.s__Substance) (tptp.s__instrument V__X V__CHEM)))))) (tptp.s__subclass tptp.s__HandgrenadeAttack tptp.s__Bombing) (tptp.s__instance tptp.s__HandgrenadeAttack__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__HandgrenadeAttack tptp.s__EnglishLanguage |tptp.'An attack in which a &%HandGrenade is employed as an explosive device for the purpose of &%Destruction. A case in which a hand grenade is used as a blunt striking object in an attack would not be in this class.'|) (tptp.s__subclass tptp.s__HandGrenade tptp.s__Bomb) (tptp.s__instance tptp.s__HandGrenade__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__HandGrenade tptp.s__EnglishLanguage |tptp.'A hand grenade is a small explosive device with a simple trigger mechanism, usually lasting a few seconds, designed to be propelled by a human to its target.'|) (forall ((V__X $$unsorted) (V__N $$unsorted)) (=> (and (tptp.s__instance V__N tptp.s__RealNumber) (tptp.s__instance V__X tptp.s__Object)) (=> (tptp.s__instance V__X tptp.s__HandGrenade) (and (tptp.s__measure V__X (tptp.s__MeasureFn V__N tptp.s__PoundMass)) (tptp.less V__N |"10"|))))) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Process) (=> (tptp.s__instance V__X tptp.s__HandgrenadeAttack) (exists ((V__HG $$unsorted)) (and (tptp.s__instance V__HG tptp.s__Object) (tptp.s__instance V__HG tptp.s__HandGrenade) (tptp.s__instrument V__X V__HG)))))) (tptp.s__subclass tptp.s__Hijacking tptp.s__Robbing) (tptp.s__instance tptp.s__Hijacking__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Robbing__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Hijacking tptp.s__EnglishLanguage |tptp.'&%Robbing a &%Vehicle and then driving or piloting it away.'|) (forall ((V__H $$unsorted)) (=> (tptp.s__instance V__H tptp.s__Process) (=> (tptp.s__instance V__H tptp.s__Hijacking) (exists ((V__V $$unsorted)) (and (tptp.s__instance V__V tptp.s__Vehicle) (tptp.s__patient V__H V__V)))))) (forall ((V__H $$unsorted)) (=> (tptp.s__instance V__H tptp.s__Process) (=> (tptp.s__instance V__H tptp.s__Hijacking) (exists ((V__D $$unsorted)) (and (tptp.s__instance V__D tptp.s__Process) (tptp.s__subProcess V__D V__H) (tptp.s__instance V__D tptp.s__Driving)))))) (tptp.s__subclass tptp.s__HostageTaking tptp.s__UnilateralGetting) (tptp.s__instance tptp.s__HostageTaking__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__HostageTaking tptp.s__EnglishLanguage |tptp.'An event in which one agent keeps another against his or her will, in order to force it or a third agent to accede to some demand. The hostages are typically kept in the place where they are first taken hostage, in contrast to a &%Kidnapping. Hostage taking often involves a number of people (although it may be just one), again, in contrast to a &%Kidnapping.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Process) (=> (tptp.s__instance V__X tptp.s__HostageTaking) (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__SentientAgent) (tptp.s__patient V__X V__A)))))) (tptp.s__subclass tptp.s__IncendiaryDeviceAttack tptp.s__Combustion) (tptp.s__instance tptp.s__IncendiaryDeviceAttack__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__IncendiaryDeviceAttack tptp.s__ViolentContest) (tptp.s__documentation tptp.s__IncendiaryDeviceAttack tptp.s__EnglishLanguage |tptp.'An attack in which an agent uses a device which causes fire in order to destroy life or property.'|) (tptp.s__subclass tptp.s__Infiltration tptp.s__JoiningAnOrganization) (tptp.s__instance tptp.s__Infiltration__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Infiltration tptp.s__EnglishLanguage |tptp.'An event in which an agent joins an organization under false pretenses. The objective of such an act is often to gather information helpful to a rival organization.'|) (tptp.s__subclass tptp.s__Kidnapping tptp.s__Robbing) (tptp.s__instance tptp.s__Kidnapping__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Kidnapping tptp.s__EnglishLanguage |tptp.'An event in which one agent keeps another against his or her will, in order to force it or a third agent to accede to some demand. The kidnapped party is normally removed from the location where first attacked. In contrast to a &%HostageTaking, a kidnapping normally involves an attack on one, or a very small number of people, such as a couple.'|) (forall ((V__G $$unsorted) (V__X $$unsorted) (V__N $$unsorted)) (=> (and (tptp.s__instance V__N tptp.s__Integer) (tptp.s__instance V__X tptp.s__Process) (tptp.s__instance V__G tptp.s__Collection)) (=> (and (tptp.s__instance V__X tptp.s__Kidnapping) (tptp.s__instance V__G tptp.s__GroupOfPeople) (tptp.s__memberCount V__G V__N) (tptp.s__patient V__X V__G)) (tptp.less V__N |"3"|)))) (tptp.s__subclass tptp.s__KnifeAttack tptp.s__ViolentContest) (tptp.s__instance tptp.s__KnifeAttack__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__KnifeAttack tptp.s__EnglishLanguage |tptp.'An attack in which a knife is used.'|) (tptp.s__subclass tptp.s__Knife tptp.s__CuttingDevice) (tptp.s__instance tptp.s__Knife__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Knife tptp.s__EnglishLanguage |tptp.'A sharp object used for cutting. The object must have at least single blade or major protrusion which may be sharp at its end as well. It may be sharp on both sides, or just one. Unlike an awl it has a sharp edge rather than a point. Unlike scissors, it is a single blade without additional articulated parts. Unlike an axe, a knife is well-designed for slicing rather than chopping, although a heavy knife such as a broadsword can also be used for chopping, whereas a non-knife is not well designed for slicing meat for example. A knife can be small like a pocket knife, or large like a two-handed broadsword. A knife may also include other protrusions such as in the split swords and trident-like objects (that also possess a long sharp edge) in Chinese weaponry.'|) (tptp.s__subclass tptp.s__CuttingDevice tptp.s__Device) (tptp.s__documentation tptp.s__CuttingDevice tptp.s__EnglishLanguage |tptp.'Any &%Device whose purpose is &%Cutting something else. This class covers knives of all times, axes, saws, razors, chisels etc.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__CaseRole) (=> (tptp.s__instance V__X tptp.s__CuttingDevice) (tptp.s__capability tptp.s__Cutting V__X tptp.s__instrument__m)))) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Process) (=> (tptp.s__instance V__X tptp.s__KnifeAttack) (exists ((V__HG $$unsorted)) (and (tptp.s__instance V__HG tptp.s__Object) (tptp.s__instance V__HG tptp.s__Knife) (tptp.s__instrument V__X V__HG)))))) (tptp.s__subclass tptp.s__LetterBombAttack tptp.s__Bombing) (tptp.s__instance tptp.s__LetterBombAttack__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__LetterBombAttack tptp.s__EnglishLanguage |tptp.'An attack with a bomb that is concealed in a letter or package, which is typically designed to explode upon opening.'|) (tptp.s__subclass tptp.s__Lynching tptp.s__Killing) (tptp.s__instance tptp.s__Lynching__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Lynching tptp.s__EnglishLanguage |tptp.'A lynching is a form of &%Killing conducted under a thin guise of legitimacy by a vigilante group. It may be a purge of an individual from the group who is perceived to have gone astray, or it may be the summary execution of an individual outside the group that the group has determined has violated some law or code, either of the group, or the larger society. A lynching is distinguished from a legal execution in that the laws of a government are not followed in carrying out the killing. A lynching is distinguished from a murder in that there is the pretense of some process carried out by a group in the name of their own group or a higher power.'|) (tptp.s__subclass tptp.s__MortarAttack tptp.s__Bombing) (tptp.s__instance tptp.s__MortarAttack__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MortarAttack tptp.s__EnglishLanguage |tptp.'An attack in which a &%Mortar weapon is used.'|) (tptp.s__subclass tptp.s__Mortar tptp.s__Weapon) (tptp.s__instance tptp.s__Mortar__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Mortar tptp.s__EnglishLanguage |tptp.'A mortar is a bomb that is shot at a location. A howitzer is a weapon that fires mortars. The mortar may not include the propelling charge that provides the motive force for delivering it to its target, which distinguishes it from a rocket. A mortar is distinguished from other bombs in that it is propelled rather than exploded in place, or dropped, or propelled by human power.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Process) (=> (tptp.s__instance V__X tptp.s__MortarAttack) (exists ((V__MA $$unsorted)) (and (tptp.s__instance V__MA tptp.s__Object) (tptp.s__instance V__MA tptp.s__Mortar) (tptp.s__instrument V__X V__MA)))))) (tptp.s__subclass tptp.s__RocketMissileAttack tptp.s__Bombing) (tptp.s__instance tptp.s__RocketMissileAttack__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__RocketMissileAttack tptp.s__EnglishLanguage |tptp.'An attack in which a rocket or missile is used.'|) (tptp.s__subclass tptp.s__Rocket tptp.s__Projectile) (tptp.s__instance tptp.s__Rocket__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Projectile__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Stoning tptp.s__ViolentContest) (tptp.s__instance tptp.s__Stoning__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Stoning tptp.s__EnglishLanguage |tptp.'An act where a victim or victims is attacked with stones. The stones may either be placed on top of a victim in order to cause death by pressure and suffocation, in which case the act is typically part of a ritualized legal sentence, or where the victim is pelted with stones causing injury or death by trauma. The intent of such an act is usually the death of the victim.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Process) (=> (tptp.s__instance V__X tptp.s__Stoning) (exists ((V__ST $$unsorted)) (and (tptp.s__instance V__ST tptp.s__Object) (tptp.s__instance V__ST tptp.s__Rock) (tptp.s__instrument V__X V__ST)))))) (tptp.s__subclass tptp.s__SuicideBombing tptp.s__Bombing) (tptp.s__instance tptp.s__SuicideBombing__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Bombing__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__SuicideBombing tptp.s__Killing) (tptp.s__documentation tptp.s__SuicideBombing tptp.s__EnglishLanguage |tptp.'A bomb attack in which the bomber intends to blow himself up during the course of the attack. The bomber is the delivery mechanism for the explosive and the bomb is typically in close contact with the bomber, such as being strapped around his torso. This action is distinguished from actions in which the bomber merely happens to be blown up by his own bomb in that the bomber knows that he is committing suicide.'|) (tptp.s__subclass tptp.s__Vandalism tptp.s__Destruction) (tptp.s__instance tptp.s__Vandalism__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Vandalism tptp.s__EnglishLanguage |tptp.'An event where the objective of the agent is to damage or destroy some property of another agent. This is distinguished from acts where the prime objective is damage or loss of life of another agent.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Process) (=> (tptp.s__instance V__X tptp.s__Vandalism) (not (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__Agent) (tptp.s__patient V__X V__A))))))) (tptp.s__subclass tptp.s__VehicleAttack tptp.s__ViolentContest) (tptp.s__instance tptp.s__VehicleAttack__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__VehicleAttack tptp.s__EnglishLanguage |tptp.'An event in which a vehicle is used by an agent in order to inflict injury, death or damage to people or property.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Process) (=> (tptp.s__instance V__X tptp.s__VehicleAttack) (exists ((V__V $$unsorted)) (and (tptp.s__instance V__V tptp.s__Object) (tptp.s__instance V__V tptp.s__TransportationDevice) (tptp.s__instrument V__X V__V)))))) (tptp.s__instance tptp.s__BusinessPerson tptp.s__OccupationalRole) (tptp.s__documentation tptp.s__BusinessPerson tptp.s__EnglishLanguage |tptp.'Any of a class of people in a professional occupation such as banking, finance, management, or engineering. This is distinguished from blue collar jobs that primarily involve manual labor rather than thought as the effort expended to derive remuneration. It is also distinguished from professions that may be outwardly similar but are done in a non-profit organization.'|) (tptp.s__subAttribute tptp.s__BusinessExecutive tptp.s__BusinessPerson) (tptp.s__documentation tptp.s__BusinessExecutive tptp.s__EnglishLanguage |tptp.'&%BusinessExecutive refers to a person responsible for the management of a business'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__BusinessExecutive |tptp.'business executive'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Agent) (=> (tptp.s__attribute V__X tptp.s__BusinessExecutive) (exists ((V__BUSINESS $$unsorted) (V__MANAGE $$unsorted)) (and (tptp.s__instance V__MANAGE tptp.s__Process) (tptp.s__instance V__MANAGE tptp.s__Managing) (tptp.s__instance V__BUSINESS tptp.s__Organization) (tptp.s__patient V__MANAGE V__BUSINESS) (tptp.s__agent V__MANAGE V__X)))))) (tptp.s__instance tptp.s__Celebrity tptp.s__SocialRole) (tptp.s__documentation tptp.s__Celebrity tptp.s__EnglishLanguage |tptp.'Anyone who is known by a large number of people, either explicitly by name, or by action.'|) (tptp.s__instance tptp.s__Knight tptp.s__SocialRole) (tptp.s__documentation tptp.s__Knight tptp.s__EnglishLanguage |tptp.'A &%SocialRole that is assigned by the United Kingdom to persons for reasons of personal merit.'|) (tptp.s__instance tptp.s__Musician tptp.s__SocialRole) (tptp.s__documentation tptp.s__Musician tptp.s__EnglishLanguage |tptp.'A Musician is someone who is capable of giving a &%MusicalPerformance. This includes amateurs and others who dont formally make a living at the activity or choose it as a profession.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Agent) (=> (tptp.s__attribute V__X tptp.s__Musician) (tptp.s__hasSkill tptp.s__MusicalPerformance V__X)))) (tptp.s__instance tptp.s__Veteran tptp.s__SocialRole) (tptp.s__documentation tptp.s__Veteran tptp.s__EnglishLanguage |tptp.'The &%Attribute that applies to someone who was a &%Soldier at one time, but is not currently a &%Soldier.'|) (tptp.s__subclass tptp.s__Road tptp.s__Region) (tptp.s__instance tptp.s__Road__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Road tptp.s__Roadway) (tptp.s__documentation tptp.s__Road tptp.s__EnglishLanguage |tptp.'A path along which vehicles travel. It is typically, although not necessarily, paved and intended for cars.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__Road) (tptp.s__hasPurpose V__X |tptp.'(? [V__EV,V__VEH] : (s__instance(V__VEH,s__Object) & s__instance(V__EV,s__Process) & s__instance(V__EV,s__Transportation) & s__eventLocated(V__EV,V__X) & s__instance(V__VEH,s__LandVehicle) & s__instrument(V__EV,V__VEH)))'|)))) (tptp.s__contraryAttribute_2 tptp.s__Civilian tptp.s__MilitaryPerson) (tptp.s__subclass tptp.s__OccupationalRole tptp.s__Position) (tptp.s__instance tptp.s__OccupationalRole__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__OccupationalRole tptp.s__EnglishLanguage |tptp.'A &%Role of a &%Human in a &%OrganizationalProcess.'|) (tptp.s__instance tptp.s__Civilian tptp.s__SocialRole) (tptp.s__documentation tptp.s__Civilian tptp.s__EnglishLanguage |tptp.'Someone who is not a member of an active &%MilitaryOrganization.'|) (tptp.s__instance tptp.s__Widowed tptp.s__SocialRole) (tptp.s__documentation tptp.s__Widowed tptp.s__EnglishLanguage |tptp.'The &%Attribute that applies to someone who was married to someone who has died, and who has not remarried.'|) (tptp.s__subclass tptp.s__Convoy tptp.s__Collection) (tptp.s__instance tptp.s__Convoy__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Convoy tptp.s__EnglishLanguage |tptp.'A group of vehicles that all are being driven in formation (e.g., lines, rows, columns) to the same destination. That destination may be an intermediate destination on the way to a final destination for some of the vehicles however. This is distinguished from vehicles that have no common purpose, such as traffic on a freeway. This includes cases where some of the agents driving the vehicles intend to reach a point but fail to do so.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Collection) (=> (tptp.s__instance V__C tptp.s__Convoy) (exists ((V__V1 $$unsorted) (V__V2 $$unsorted) (V__TIME $$unsorted)) (and (tptp.s__instance V__TIME tptp.s__TimePosition) (tptp.s__instance V__V2 tptp.s__SelfConnectedObject) (tptp.s__instance V__V1 tptp.s__SelfConnectedObject) (not (= V__V1 V__V2)) (tptp.s__instance V__V1 tptp.s__Vehicle) (tptp.s__instance V__V2 tptp.s__Vehicle) (tptp.s__instance V__TIME tptp.s__TimeInterval) (tptp.s__temporalPart V__TIME (tptp.s__WhenFn V__C)) (tptp.s__holdsDuring V__TIME |tptp.'(s__member(V__V1,V__C) & s__member(V__V2,V__C))'|)))))) (forall ((V__C $$unsorted) (V__VEH $$unsorted)) (=> (and (tptp.s__instance V__VEH tptp.s__SelfConnectedObject) (tptp.s__instance V__C tptp.s__Collection)) (=> (and (tptp.s__instance V__C tptp.s__Convoy) (tptp.s__member V__VEH V__C)) (exists ((V__DRIVE $$unsorted)) (and (tptp.s__instance V__DRIVE tptp.s__Process) (tptp.s__instance V__DRIVE tptp.s__Driving) (tptp.s__overlapsTemporally (tptp.s__WhenFn V__DRIVE) (tptp.s__WhenFn V__C)) (tptp.s__patient V__DRIVE V__VEH)))))) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Object) (=> (tptp.s__instance V__C tptp.s__Convoy) (tptp.s__attribute V__C tptp.s__LineFormation)))) (tptp.s__instance tptp.s__Diplomat tptp.s__OccupationalRole) (tptp.s__subAttribute tptp.s__Diplomat tptp.s__GovernmentPerson) (tptp.s__documentation tptp.s__Diplomat tptp.s__EnglishLanguage |tptp.'A person who works as a facilitator for communication between countries, in the official employ of one of the countries.'|) (tptp.s__instance tptp.s__Dissident tptp.s__SocialRole) (tptp.s__documentation tptp.s__Dissident tptp.s__EnglishLanguage |tptp.'Someone who is opposed to the leadership of a particular country. Typically, a dissident suffers punishment at the hands of the country whose leadership he is opposing.'|) (tptp.s__subclass tptp.s__EmbassyBuilding tptp.s__GovernmentBuilding) (tptp.s__instance tptp.s__EmbassyBuilding__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__EmbassyBuilding tptp.s__EnglishLanguage |tptp.'An embassy is a &%Building that is owned by a &%Government to house its diplomatic and consular staff that is in another country.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__EmbassyBuilding) (exists ((V__EGOV $$unsorted) (V__OTHERGOV $$unsorted)) (and (tptp.s__instance V__OTHERGOV tptp.s__Object) (tptp.s__instance V__EGOV tptp.s__Agent) (tptp.s__instance V__EGOV tptp.s__Nation) (tptp.s__instance V__OTHERGOV tptp.s__Nation) (not (= V__EGOV V__OTHERGOV)) (tptp.s__possesses V__EGOV V__X) (tptp.s__located V__X V__OTHERGOV)))))) (tptp.s__subclass tptp.s__EntertainmentBuilding tptp.s__Building) (tptp.s__instance tptp.s__EntertainmentBuilding__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__EntertainmentBuilding tptp.s__EnglishLanguage |tptp.'A building that has the primary purpose of entertaining people.'|) (forall ((V__BUILDING $$unsorted)) (=> (tptp.s__instance V__BUILDING tptp.s__Object) (=> (tptp.s__instance V__BUILDING tptp.s__EntertainmentBuilding) (tptp.s__hasPurpose V__BUILDING |tptp.'(? [V__REC] : (s__instance(V__REC,s__Process) & s__instance(V__REC,s__RecreationOrExercise) & s__eventLocated(V__REC,V__BUILDING)))'|)))) (tptp.s__subclass tptp.s__GovernmentBuilding tptp.s__Building) (tptp.s__instance tptp.s__GovernmentBuilding__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__GovernmentBuilding tptp.s__EnglishLanguage |tptp.'A building belonging to a &%Government'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__GovernmentBuilding) (exists ((V__G $$unsorted)) (and (tptp.s__instance V__G tptp.s__Agent) (tptp.s__instance V__G tptp.s__Government) (tptp.s__possesses V__G V__X)))))) (tptp.s__instance tptp.s__GovernmentPerson tptp.s__OccupationalRole) (tptp.s__documentation tptp.s__GovernmentPerson tptp.s__EnglishLanguage |tptp.'A person who works for a &%Government.'|) (tptp.s__subclass tptp.s__Renting tptp.s__FinancialTransaction) (tptp.s__instance tptp.s__Renting__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Renting tptp.s__Borrowing) (tptp.s__documentation tptp.s__Renting tptp.s__EnglishLanguage |tptp.'Giving money to the owner of an &%Object in exchange for the right to use the &%Object for a fixed time period.'|) (tptp.s__subclass tptp.s__Marketplace tptp.s__GeographicArea) (tptp.s__instance tptp.s__Marketplace__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Marketplace tptp.s__EnglishLanguage |tptp.'An area, building, or set of buildings where &%FinancialTransactions are intended to take place. There should be more than one owner or renter of space or buildings within the marketplace.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__Marketplace) (tptp.s__hasPurpose V__X |tptp.'(? [V__EV] : (s__instance(V__EV,s__Process) & s__instance(V__EV,s__FinancialTransaction) & s__eventLocated(V__EV,V__X)))'|)))) (tptp.s__instance tptp.s__StoreOwner tptp.s__OccupationalRole) (tptp.s__subAttribute tptp.s__StoreOwner tptp.s__BusinessPerson) (tptp.s__documentation tptp.s__StoreOwner tptp.s__EnglishLanguage |tptp.'Someone who operates a store which he either owns or rents.'|) (tptp.s__instance tptp.s__Militant tptp.s__SocialRole) (tptp.s__documentation tptp.s__Militant tptp.s__EnglishLanguage |tptp.'A militant is someone who is not officially authorized by a government to engage in combat, but who does so on behalf of a &%PoliticalOrganization.'|) (tptp.s__instance tptp.s__MilitaryPerson tptp.s__OccupationalRole) (tptp.s__documentation tptp.s__MilitaryPerson tptp.s__EnglishLanguage |tptp.'Someone who is a member of a &%ModernMilitaryOrganization.'|) (tptp.s__subclass tptp.s__OfficeBuilding tptp.s__Building) (tptp.s__instance tptp.s__OfficeBuilding__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__OfficeBuilding tptp.s__EnglishLanguage |tptp.'A building in which work activities take place which is not primarily designed for manufacturing or retail sales.'|) (tptp.s__subclass tptp.s__PeaceKeepingMission tptp.s__MilitaryOrganization) (tptp.s__instance tptp.s__PeaceKeepingMission__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PeaceKeepingMission tptp.s__EnglishLanguage |tptp.'A military deployment which is intended to prevent hostilities between two other entities located in the same rough geographic area.'|) (tptp.s__subclass tptp.s__PlaceOfWorship tptp.s__Building) (tptp.s__instance tptp.s__PlaceOfWorship__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PlaceOfWorship tptp.s__EnglishLanguage |tptp.'Any place designed for &%ReligiousProcesses.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__PlaceOfWorship) (tptp.s__hasPurpose V__X |tptp.'(? [V__EV] : (s__instance(V__EV,s__Process) & s__instance(V__EV,s__ReligiousProcess) & s__eventLocated(V__EV,V__X)))'|)))) (tptp.s__subclass tptp.s__PoliceFacility tptp.s__Building) (tptp.s__instance tptp.s__PoliceFacility__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PoliceFacility tptp.s__EnglishLanguage |tptp.'A building designed to house &%PolicePersons.'|) (tptp.s__instance tptp.s__PolicePerson tptp.s__OccupationalRole) (tptp.s__subAttribute tptp.s__PolicePerson tptp.s__GovernmentPerson) (tptp.s__documentation tptp.s__PolicePerson tptp.s__EnglishLanguage |tptp.'A member of a government whose occupation has the primary purpose of preventing crime and arresting criminals.'|) (tptp.s__subAttribute tptp.s__PoliticalFigure tptp.s__Celebrity) (tptp.s__documentation tptp.s__PoliticalFigure tptp.s__EnglishLanguage |tptp.'A well known person who participates in a PoliticalProcess. This must either be the persons principal occupation, or what is intended to become his principal occupation (for example, after an election).'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Agent) (=> (tptp.s__attribute V__X tptp.s__PoliticalFigure) (exists ((V__EV $$unsorted)) (and (tptp.s__instance V__EV tptp.s__Process) (tptp.s__agent V__EV V__X) (tptp.s__instance V__EV tptp.s__PoliticalProcess)))))) (tptp.s__subAttribute tptp.s__ReligiousFigure tptp.s__Celebrity) (tptp.s__documentation tptp.s__ReligiousFigure tptp.s__EnglishLanguage |tptp.'A well-known leader of a religious group.'|) (tptp.s__subclass tptp.s__RestaurantBuilding tptp.s__Building) (tptp.s__instance tptp.s__RestaurantBuilding__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__RestaurantBuilding tptp.s__EnglishLanguage |tptp.'A &%Building where people pay to be served food and eat. Some restaurants may also offer entertainment.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__RestaurantBuilding) (tptp.s__hasPurpose V__X |tptp.'(? [V__OWN,V__EMP,V__EV,V__P,V__PAY] : (s__instance(V__PAY,s__Process) & s__instance(V__P,s__CognitiveAgent) & s__instance(V__EV,s__Process) & s__instance(V__EMP,s__CognitiveAgent) & s__instance(V__EMP,s__Formula) & s__instance(V__OWN,s__Organization) & s__employs(V__OWN,V__EMP) & s__possesses(V__OWN,V__X) & s__instance(V__P,s__Human) & s__instance(V__PAY,s__FinancialTransaction) & s__agent(V__PAY,V__P) & s__patient(V__PAY,V__EMP) & s__confersRight(V__EMP,V__EV,V__P) & s__instance(V__EV,s__Eating) & s__agent(V__EV,V__P) & s__eventLocated(V__EV,V__X)))'|)))) (tptp.s__subclass tptp.s__EducationalFacility tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__EducationalFacility__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__EducationalFacility tptp.s__EnglishLanguage |tptp.'A building or campus, owned by an &%EducationalOrganization, which is intended as the location for &%EducationalProcesses.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__EducationalFacility) (exists ((V__ORG $$unsorted)) (and (tptp.s__instance V__ORG tptp.s__Agent) (tptp.s__instance V__ORG tptp.s__EducationalOrganization) (tptp.s__possesses V__ORG V__X)))))) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__EducationalFacility) (tptp.s__hasPurpose V__X |tptp.'(? [V__EV] : (s__instance(V__EV,s__Process) & s__instance(V__EV,s__EducationalProcess) & s__eventLocated(V__EV,V__X)))'|)))) (tptp.s__instance tptp.s__Student tptp.s__SocialRole) (tptp.s__documentation tptp.s__Student tptp.s__EnglishLanguage |tptp.'A person who participates in an &%EducationalProcess in order to learn something.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__attribute V__X tptp.s__Student) (exists ((V__EV $$unsorted)) (and (tptp.s__instance V__EV tptp.s__Process) (tptp.s__instance V__EV tptp.s__EducationalProcess) (tptp.s__patient V__EV V__X)))))) (tptp.s__subclass tptp.s__Subway tptp.s__Hole) (tptp.s__instance tptp.s__Subway__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Subway tptp.s__EnglishLanguage |tptp.'A subway is a hollow area of the earth, typically under large cities, designed for running trains that move people. It is distinguished from other kinds of tunnels in that trains run through them, primarily for the purpose of carrying people rather than ore, for example.'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__Subway) (exists ((V__SURF $$unsorted)) (and (tptp.s__instance V__SURF tptp.s__SelfConnectedObject) (tptp.s__surface V__SURF tptp.s__GeographicArea) (tptp.s__orientation V__X V__SURF tptp.s__Below)))))) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__Subway) (tptp.s__hasPurpose V__X |tptp.'(? [V__EV,V__P] : (s__instance(V__EV,s__Process) & s__instance(V__EV,s__Transportation) & s__instance(V__P,s__Human) & s__patient(V__EV,V__P) & s__eventLocated(V__EV,V__X)))'|)))) (tptp.s__instance tptp.s__Tourist tptp.s__SocialRole) (tptp.s__documentation tptp.s__Tourist tptp.s__EnglishLanguage |tptp.'A tourist is a person who is travelling to a place primarily for reasons of entertainment or education, rather than business, although business transaction may take place during the trip.'|) (tptp.s__subclass tptp.s__TouristSite tptp.s__GeographicArea) (tptp.s__instance tptp.s__TouristSite__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TouristSite tptp.s__EnglishLanguage |tptp.'A tourist site is a location that has some feature of interest to &%Tourists, which entertains or informs them.'|) (tptp.s__subclass tptp.s__TerroristOrganization tptp.s__PoliticalOrganization) (tptp.s__instance tptp.s__TerroristOrganization__t tptp.s__SetOrClass) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Agent) (=> (tptp.s__instance V__X tptp.s__TerroristOrganization) (exists ((V__EV $$unsorted)) (and (tptp.s__instance V__EV tptp.s__Process) (tptp.s__instance V__EV tptp.s__ViolentContest) (tptp.s__agent V__EV V__X)))))) (tptp.s__documentation tptp.s__TerroristOrganization tptp.s__EnglishLanguage |tptp.'A group that uses violent means in an attempt to bring about their political aims. Those violent means are distinguished from a war between nations, or a civil war in that the group is at least partially clandestine and a significant proportion of its acts are against non-military targets.'|) (tptp.s__instance tptp.s__memberCount__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__memberCount__m |"1"| tptp.s__Collection) (tptp.s__domain tptp.s__memberCount__m |"2"| tptp.s__Integer) (tptp.s__documentation tptp.s__memberCount__m tptp.s__EnglishLanguage |tptp.'(&%memberCount ?ORG ?NUMBER) means that there is a total ?NUMBER of &%members in the &%Collection ?ORG.'|) (tptp.s__instance tptp.s__memberType__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__memberType__m |"1"| tptp.s__Collection) (tptp.s__domain tptp.s__memberType__m |"2"| tptp.s__SetOrClass) (tptp.s__documentation tptp.s__memberType__m tptp.s__EnglishLanguage |tptp.'(&%memberType ?GROUP ?TYPE) means that all the members of the &%Collection ?GROUP belong to the &%SetOrClass ?TYPE.'|) (forall ((V__MEMBER $$unsorted) (V__TYPE $$unsorted) (V__GROUP $$unsorted)) (=> (and (tptp.s__instance V__GROUP tptp.s__Collection) (tptp.s__instance V__TYPE tptp.s__SetOrClass) (tptp.s__instance V__MEMBER tptp.s__SelfConnectedObject)) (=> (and (tptp.s__memberType V__GROUP V__TYPE) (tptp.s__member V__MEMBER V__GROUP)) (tptp.s__instance V__MEMBER V__TYPE)))) (tptp.s__instance tptp.s__memberTypeCount__m tptp.s__TernaryPredicate) (tptp.s__domain tptp.s__memberTypeCount__m |"1"| tptp.s__Collection) (tptp.s__domain tptp.s__memberTypeCount__m |"2"| tptp.s__SetOrClass) (tptp.s__domain tptp.s__memberTypeCount__m |"3"| tptp.s__NonnegativeInteger) (tptp.s__documentation tptp.s__memberTypeCount__m tptp.s__EnglishLanguage |tptp.'(&%memberTypeCount ?GROUP ?TYPE ?NUMBER) means that the &%Collection ?GROUP has ?NUMBER members of the kind ?TYPE.'|) (forall ((V__NUMBER $$unsorted) (V__TYPE $$unsorted) (V__GROUP $$unsorted)) (=> (and (tptp.s__instance V__GROUP tptp.s__Collection) (tptp.s__instance V__TYPE tptp.s__SetOrClass) (tptp.s__instance V__NUMBER tptp.s__NonnegativeInteger)) (=> (tptp.s__memberTypeCount V__GROUP V__TYPE V__NUMBER) (exists ((V__SUBGROUP $$unsorted)) (and (tptp.s__instance V__SUBGROUP tptp.s__Collection) (tptp.s__subCollection V__SUBGROUP V__GROUP) (tptp.s__memberCount V__SUBGROUP V__NUMBER) (tptp.s__memberType V__SUBGROUP V__TYPE)))))) (forall ((V__TYPE $$unsorted) (V__NUMBER2 $$unsorted) (V__GROUP $$unsorted) (V__NUMBER1 $$unsorted)) (=> (and (tptp.s__instance V__NUMBER1 tptp.s__Integer) (tptp.s__instance V__GROUP tptp.s__Collection) (tptp.s__instance V__NUMBER2 tptp.s__NonnegativeInteger) (tptp.s__instance V__TYPE tptp.s__SetOrClass)) (=> (and (tptp.s__memberCount V__GROUP V__NUMBER1) (tptp.s__memberTypeCount V__GROUP V__TYPE V__NUMBER2)) (tptp.greatereq V__NUMBER1 V__NUMBER2)))) (forall ((V__NUMBER $$unsorted) (V__TYPE $$unsorted) (V__GROUP $$unsorted)) (=> (and (tptp.s__instance V__GROUP tptp.s__Collection) (tptp.s__instance V__TYPE tptp.s__SetOrClass) (tptp.s__instance V__NUMBER tptp.s__NonnegativeInteger)) (=> (and (tptp.s__memberTypeCount V__GROUP V__TYPE V__NUMBER) (= V__NUMBER |"0"|)) (not (exists ((V__ITEM $$unsorted)) (and (tptp.s__instance V__ITEM tptp.s__SelfConnectedObject) (tptp.s__instance V__ITEM V__TYPE) (tptp.s__member V__ITEM V__GROUP))))))) (tptp.s__instance tptp.s__memberAtTime__m tptp.s__TernaryPredicate) (tptp.s__documentation tptp.s__memberAtTime__m tptp.s__EnglishLanguage |tptp.'(&%memberAtTime ?MEMBER ?COLLECTION ?TIME) means that during the time period denoted by ?TIME, ?MEMBER is a &%member of ?COLLECTION.'|) (tptp.s__domain tptp.s__memberAtTime__m |"1"| tptp.s__SelfConnectedObject) (tptp.s__domain tptp.s__memberAtTime__m |"2"| tptp.s__Collection) (tptp.s__domain tptp.s__memberAtTime__m |"3"| tptp.s__TimePosition) (forall ((V__OBJ $$unsorted) (V__TIME $$unsorted) (V__PLACE $$unsorted) (V__COLLECTION $$unsorted)) (=> (and (tptp.s__instance V__COLLECTION tptp.s__Collection) (tptp.s__instance V__PLACE tptp.s__Object) (tptp.s__instance V__TIME tptp.s__TimePosition) (tptp.s__instance V__OBJ tptp.s__SelfConnectedObject)) (=> (and (tptp.s__locatedAtTime V__COLLECTION V__TIME V__PLACE) (tptp.s__memberAtTime V__OBJ V__COLLECTION V__TIME)) (tptp.s__locatedAtTime V__OBJ V__TIME V__PLACE)))) (tptp.s__documentation tptp.s__inventory__m tptp.s__EnglishLanguage |tptp.'(inventory ?CBO ?COLLECTION) means that the &%ContentBearingObject ?CBO contains a list or enumeration of the members of the &%Collection ?COLLECTION.'|) (tptp.s__instance tptp.s__inventory__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__inventory__m |"1"| tptp.s__ContentBearingObject) (tptp.s__domain tptp.s__inventory__m |"2"| tptp.s__Collection) (forall ((V__O $$unsorted) (V__C $$unsorted) (V__I $$unsorted)) (=> (and (tptp.s__instance V__I tptp.s__SelfConnectedObject) (tptp.s__instance V__C tptp.s__Collection) (tptp.s__instance V__O tptp.s__ContentBearingObject)) (=> (and (tptp.s__inventory V__O V__C) (tptp.s__member V__I V__C)) (tptp.s__refers V__O V__I)))) (tptp.s__instance tptp.s__subordinateInOrganization__m tptp.s__TernaryPredicate) (tptp.s__domain tptp.s__subordinateInOrganization__m |"1"| tptp.s__Organization) (tptp.s__domain tptp.s__subordinateInOrganization__m |"2"| tptp.s__Human) (tptp.s__domain tptp.s__subordinateInOrganization__m |"3"| tptp.s__Human) (tptp.s__documentation tptp.s__subordinateInOrganization__m tptp.s__EnglishLanguage |tptp.'(&%subordinateInOrganization ?ORG ?PERSON1 ?PERSON2) means that in the &%Organization ?ORG, ?PERSON1 is subordinate to ?PERSON2.'|) (forall ((V__PERSON2 $$unsorted) (V__PERSON1 $$unsorted) (V__ORG $$unsorted)) (=> (and (tptp.s__instance V__ORG tptp.s__Organization) (tptp.s__instance V__PERSON1 tptp.s__Human) (tptp.s__instance V__PERSON2 tptp.s__Human)) (=> (tptp.s__subordinateInOrganization V__ORG V__PERSON1 V__PERSON2) (tptp.s__employs V__ORG V__PERSON1)))) (forall ((V__PERSON2 $$unsorted) (V__PERSON1 $$unsorted) (V__ORG $$unsorted)) (=> (and (tptp.s__instance V__ORG tptp.s__Organization) (tptp.s__instance V__PERSON1 tptp.s__Human) (tptp.s__instance V__PERSON2 tptp.s__Human)) (=> (tptp.s__subordinateInOrganization V__ORG V__PERSON1 V__PERSON2) (tptp.s__employs V__ORG V__PERSON2)))) (tptp.s__instance tptp.s__subordinatePosition__m tptp.s__TernaryPredicate) (tptp.s__domain tptp.s__subordinatePosition__m |"1"| tptp.s__Organization) (tptp.s__domain tptp.s__subordinatePosition__m |"2"| tptp.s__Position) (tptp.s__domain tptp.s__subordinatePosition__m |"3"| tptp.s__Position) (tptp.s__documentation tptp.s__subordinatePosition__m tptp.s__EnglishLanguage |tptp.'(&%subordinatePosition ?ORG ?SUB ?SUPER) means that in the &%Organization ?ORG, the holder of role ?SUB is subordinate to the holder of role ?SUPER.'|) (forall ((V__ROLE1 $$unsorted) (V__ROLE2 $$unsorted) (V__PERSON1 $$unsorted) (V__ORG $$unsorted)) (=> (and (tptp.s__instance V__ORG tptp.s__Organization) (tptp.s__instance V__PERSON1 tptp.s__Human) (tptp.s__instance V__ROLE2 tptp.s__Position) (tptp.s__instance V__ROLE1 tptp.s__Position)) (=> (and (tptp.s__subordinatePosition V__ORG V__ROLE1 V__ROLE2) (tptp.s__occupiesPosition V__PERSON1 V__ROLE1 V__ORG)) (exists ((V__PERSON2 $$unsorted)) (and (tptp.s__instance V__PERSON2 tptp.s__Human) (tptp.s__occupiesPosition V__PERSON2 V__ROLE2 V__ORG) (tptp.s__subordinateInOrganization V__ORG V__PERSON1 V__PERSON2)))))) (tptp.s__instance tptp.s__operator__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__operator__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__operator__m tptp.s__IrreflexiveRelation) (tptp.s__domain tptp.s__operator__m |"1"| tptp.s__Object) (tptp.s__domain tptp.s__operator__m |"2"| tptp.s__Agent) (tptp.s__documentation tptp.s__operator__m tptp.s__EnglishLanguage |tptp.'(&%operator ?OBJECT ?AGENT) means that ?AGENT determines how ?OBJECT is used, either by directly or indirectly operating it.'|) (tptp.s__subclass tptp.s__ClassificationScheme tptp.s__Proposition) (tptp.s__instance tptp.s__ClassificationScheme__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ClassificationScheme tptp.s__EnglishLanguage |tptp.'A &%ClassificationScheme is a conceptual structure, an abstract arrangement of concepts and the relations that link them.'|) (tptp.s__subclass tptp.s__Taxonomy tptp.s__ClassificationScheme) (tptp.s__instance tptp.s__Taxonomy__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Taxonomy tptp.s__EnglishLanguage |tptp.'A &%Taxonomy is a &%ClassificationScheme that typically includes the salient concepts of a domain of interest, plus, minimally, a binary `broader than/`narrower than relation by which the concepts are linked. The `broader than/`narrower than relation is usually conceived as set- or class-based subsumption, but taxonomies are notorious for conflating the set membership and set subsumption (i.e., subset/superset) relations into a single `IS-A relation. Some taxonomies include additional binary relations, such as `subpart/`superpart.'|) (tptp.s__documentation tptp.s__abstractPart__m tptp.s__EnglishLanguage |tptp.'A meronymy relation similar to &%part, but for abstract rather than physical things.'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__abstractPart__m tptp.part) (tptp.s__instance tptp.s__abstractPart__m tptp.s__PartialOrderingRelation) (tptp.s__domain tptp.s__abstractPart__m |"1"| tptp.s__Abstract) (tptp.s__domain tptp.s__abstractPart__m |"2"| tptp.s__Abstract) (tptp.s__format tptp.s__EnglishLanguage tptp.s__abstractPart__m |tptp.'%1 is %n a &%part of %2'|) (tptp.s__subclass tptp.s__Ontology tptp.s__ClassificationScheme) (tptp.s__instance tptp.s__Ontology__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Ontology tptp.s__EnglishLanguage |tptp.'An &%Ontology is a &%ClassificationScheme that links concepts via many different relations. Ontologies typically are not restricted to binary relations and are structured by several kinds of conceptual hierarchies, including set- or class-based subsumption, spatial containment, mereology (theory of parts and wholes), and logical contexts. Thus, an ontology typically includes multiple taxonomies.'|) (forall ((V__ONT $$unsorted)) (=> (tptp.s__instance V__ONT tptp.s__Abstract) (=> (tptp.s__instance V__ONT tptp.s__Ontology) (exists ((V__TAX $$unsorted)) (and (tptp.s__instance V__TAX tptp.s__Abstract) (tptp.s__instance V__TAX tptp.s__Taxonomy) (tptp.s__abstractPart V__TAX V__ONT)))))) (tptp.s__instance tptp.s__transported__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__transported__m tptp.s__AsymmetricRelation) (tptp.s__documentation tptp.s__transported__m tptp.s__EnglishLanguage |tptp.'(&%transported ?EVENT ?OBJ) means that ?OBJ is transported (carried/moved to a different physical location) in the &%Transportation ?EVENT.'|) (tptp.s__domain tptp.s__transported__m |"1"| tptp.s__Transportation) (tptp.s__domain tptp.s__transported__m |"2"| tptp.s__Object) (tptp.s__subrelation tptp.s__transported__m tptp.s__patient__m) (tptp.s__instance tptp.s__cargo__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__cargo__m tptp.s__AsymmetricRelation) (tptp.s__documentation tptp.s__cargo__m tptp.s__EnglishLanguage |tptp.'(&%cargo ?EVENT ?OBJ) means that ?OBJ is transported as cargo in the &%Shipping event ?EVENT.'|) (tptp.s__domain tptp.s__cargo__m |"1"| tptp.s__Shipping) (tptp.s__domain tptp.s__cargo__m |"2"| tptp.s__Object) (tptp.s__subrelation tptp.s__cargo__m tptp.s__transported__m) (tptp.s__instance tptp.s__serviceProvider__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__serviceProvider__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__serviceProvider__m tptp.s__IntentionalRelation) (tptp.s__domain tptp.s__serviceProvider__m |"1"| tptp.s__ServiceProcess) (tptp.s__domain tptp.s__serviceProvider__m |"2"| tptp.s__CognitiveAgent) (tptp.s__subrelation tptp.s__serviceProvider__m tptp.s__agent__m) (tptp.s__documentation tptp.s__serviceProvider__m tptp.s__EnglishLanguage |tptp.'(&%serviceProvider ?EVENT ?AGENT) means that ?AGENT is the supplier of the service provided in ?EVENT.'|) (tptp.s__instance tptp.s__serviceRecipient__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__serviceRecipient__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__serviceRecipient__m tptp.s__IntentionalRelation) (tptp.s__domain tptp.s__serviceRecipient__m |"1"| tptp.s__ServiceProcess) (tptp.s__domain tptp.s__serviceRecipient__m |"2"| tptp.s__CognitiveAgent) (tptp.s__subrelation tptp.s__serviceRecipient__m tptp.s__experiencer__m) (tptp.s__documentation tptp.s__serviceRecipient__m tptp.s__EnglishLanguage |tptp.'(&%serviceRecipient ?EVENT ?AGENT) means that ?AGENT is the receiver of the service provided in ?EVENT.'|) (forall ((V__EVENT $$unsorted)) (=> (tptp.s__instance V__EVENT tptp.s__ServiceProcess) (exists ((V__PROVIDER $$unsorted)) (and (tptp.s__instance V__PROVIDER tptp.s__CognitiveAgent) (tptp.s__serviceProvider V__EVENT V__PROVIDER))))) (forall ((V__EVENT $$unsorted)) (=> (tptp.s__instance V__EVENT tptp.s__ServiceProcess) (exists ((V__RECEIVER $$unsorted)) (and (tptp.s__instance V__RECEIVER tptp.s__CognitiveAgent) (tptp.s__serviceRecipient V__EVENT V__RECEIVER))))) (tptp.s__instance tptp.s__benefits__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__benefits__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__benefits__m |"1"| tptp.s__Process) (tptp.s__domain tptp.s__benefits__m |"2"| tptp.s__Agent) (tptp.s__documentation tptp.s__benefits__m tptp.s__EnglishLanguage |tptp.'(&%benefits ?PROCESS ?AGENT) means that ?AGENT somehow derives benefit as a result of ?PROCESS. This is a very general relation, and does not entail that ?AGENT is a participant in ?PROCESS.'|) (forall ((V__PROCESS $$unsorted) (V__AGENT $$unsorted) (V__AGENT_END $$unsorted) (V__PROCESS_START $$unsorted)) (=> (and (tptp.s__instance V__PROCESS_START tptp.s__TimePoint) (tptp.s__instance V__AGENT_END tptp.s__TimePoint) (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__PROCESS tptp.s__Process)) (=> (and (= V__PROCESS_START (tptp.s__BeginFn (tptp.s__WhenFn V__PROCESS))) (= V__AGENT_END (tptp.s__EndFn (tptp.s__WhenFn V__AGENT))) (tptp.s__benefits V__PROCESS V__AGENT)) (tptp.s__before V__PROCESS_START V__AGENT_END)))) (tptp.s__instance tptp.s__areaOfResponsibility__m tptp.s__TernaryPredicate) (tptp.s__domain tptp.s__areaOfResponsibility__m |"1"| tptp.s__Agent) (tptp.s__domainSubclass tptp.s__areaOfResponsibility__m |"2"| tptp.s__Process) (tptp.s__domain tptp.s__areaOfResponsibility__m |"3"| tptp.s__GeographicArea) (tptp.s__documentation tptp.s__areaOfResponsibility__m tptp.s__EnglishLanguage |tptp.'(&%areaOfResponsibility ?AGENT ?PROCESS-TYPE ?AREA) means that ?AGENT (typically an instance of &%Organization) is responsible or accountable for actions or undertakings of type ?PROCESS-TYPE in the &%GeographicArea denoted by ?AREA.'|) (tptp.s__instance tptp.s__friend__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__friend__m tptp.s__SymmetricRelation) (tptp.s__instance tptp.s__friend__m tptp.s__IntentionalRelation) (tptp.s__documentation tptp.s__friend__m tptp.s__EnglishLanguage |tptp.'(&%holdsDuring ?T1 (&%friend ?H1 ?H2)) means that during time ?T1, ?H1 and ?H2 know each other, share a relationship of mutual care and concern, and probably also share some common interests.'|) (tptp.s__domain tptp.s__friend__m |"1"| tptp.s__Human) (tptp.s__domain tptp.s__friend__m |"2"| tptp.s__Human) (tptp.s__subrelation tptp.s__friend__m tptp.s__mutualAcquaintance__m) (tptp.s__instance tptp.s__coworker__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__coworker__m tptp.s__SymmetricRelation) (tptp.s__documentation tptp.s__coworker__m tptp.s__EnglishLanguage |tptp.'(&%holdsDuring ?T1 (&%coworker ?H1 ?H2)) means that during time ?T1, ?H1 and ?H2 are both employed by the same agent, are of roughly the same job status, and come into contact at least part of the time at the same work location.'|) (tptp.s__domain tptp.s__coworker__m |"1"| tptp.s__Human) (tptp.s__domain tptp.s__coworker__m |"2"| tptp.s__Human) (tptp.s__subrelation tptp.s__coworker__m tptp.s__mutualAcquaintance__m) (tptp.s__instance tptp.s__cohabitant__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__cohabitant__m tptp.s__SymmetricRelation) (tptp.s__instance tptp.s__cohabitant__m tptp.s__IntentionalRelation) (tptp.s__documentation tptp.s__cohabitant__m tptp.s__EnglishLanguage |tptp.'(&%holdsDuring ?T1 (&%cohabitant ?H1 ?H2)) means that during the time ?T1, ?H1 and ?H2 have the same home.'|) (tptp.s__domain tptp.s__cohabitant__m |"1"| tptp.s__Human) (tptp.s__domain tptp.s__cohabitant__m |"2"| tptp.s__Human) (tptp.s__subrelation tptp.s__cohabitant__m tptp.s__mutualAcquaintance__m) (tptp.s__instance tptp.s__grandparent__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__grandparent__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__grandparent__m |"1"| tptp.s__Human) (tptp.s__domain tptp.s__grandparent__m |"2"| tptp.s__Human) (tptp.s__documentation tptp.s__grandparent__m tptp.s__EnglishLanguage |tptp.'(&%grandparent ?YOUNGER ?OLDER) means that ?OLDER is a &%parent of ?YOUNGERs &%parent.'|) (tptp.s__subrelation tptp.s__grandmother__m tptp.s__grandparent__m) (tptp.s__subrelation tptp.s__grandfather__m tptp.s__grandparent__m) (tptp.s__subrelation tptp.s__grandparent__m tptp.s__ancestor__m) (forall ((V__CHILD $$unsorted) (V__PARENT $$unsorted)) (=> (and (tptp.s__instance V__PARENT tptp.s__Organism) (tptp.s__instance V__CHILD tptp.s__Organism)) (=> (and (tptp.s__parent V__CHILD V__PARENT) (tptp.s__instance V__PARENT tptp.s__Man)) (tptp.s__father V__CHILD V__PARENT)))) (forall ((V__CHILD $$unsorted) (V__PARENT $$unsorted)) (=> (and (tptp.s__instance V__PARENT tptp.s__Organism) (tptp.s__instance V__CHILD tptp.s__Organism)) (=> (and (tptp.s__parent V__CHILD V__PARENT) (tptp.s__instance V__CHILD tptp.s__Man)) (tptp.s__son V__CHILD V__PARENT)))) (forall ((V__CHILD $$unsorted) (V__PARENT $$unsorted)) (=> (and (tptp.s__instance V__PARENT tptp.s__Organism) (tptp.s__instance V__CHILD tptp.s__Organism)) (=> (and (tptp.s__parent V__CHILD V__PARENT) (tptp.s__instance V__CHILD tptp.s__Woman)) (tptp.s__daughter V__CHILD V__PARENT)))) (tptp.s__documentation tptp.s__aunt__m tptp.s__EnglishLanguage |tptp.'(aunt ?AUNT ?PERSON) means that ?AUNT is the sister of a parent of ?PERSON.'|) (tptp.s__domain tptp.s__aunt__m |"1"| tptp.s__Woman) (tptp.s__domain tptp.s__aunt__m |"2"| tptp.s__Human) (tptp.s__subrelation tptp.s__aunt__m tptp.s__familyRelation__m) (forall ((V__A $$unsorted) (V__H $$unsorted)) (=> (and (tptp.s__instance V__H tptp.s__Human) (tptp.s__instance V__A tptp.s__Woman)) (= (tptp.s__aunt V__A V__H) (exists ((V__P $$unsorted)) (and (tptp.s__instance V__P tptp.s__Human) (tptp.s__sister V__A V__P) (tptp.s__parent V__H V__P)))))) (tptp.s__documentation tptp.s__cousin__m tptp.s__EnglishLanguage |tptp.'(cousin ?PERSON1 ?PERSON2) means that ?PERSON1 and ?PERSON2 are cousins, i.e. ?PERSON1 and ?PERSON2 have grandparents (but not parents) in common.'|) (tptp.s__domain tptp.s__cousin__m |"1"| tptp.s__Human) (tptp.s__domain tptp.s__cousin__m |"2"| tptp.s__Human) (tptp.s__subrelation tptp.s__cousin__m tptp.s__familyRelation__m) (forall ((V__P2 $$unsorted) (V__P1 $$unsorted)) (=> (and (tptp.s__instance V__P1 tptp.s__Human) (tptp.s__instance V__P2 tptp.s__Human)) (= (tptp.s__cousin V__P1 V__P2) (and (exists ((V__G1 $$unsorted) (V__G2 $$unsorted)) (and (tptp.s__instance V__G2 tptp.s__Man) (tptp.s__instance V__G1 tptp.s__Woman) (tptp.s__grandmother V__P1 V__G1) (tptp.s__grandfather V__P1 V__G2) (tptp.s__grandmother V__P2 V__G1) (tptp.s__grandfather V__P2 V__G2))) (not (exists ((V__M $$unsorted) (V__F $$unsorted)) (and (tptp.s__instance V__F tptp.s__Organism) (tptp.s__instance V__M tptp.s__Organism) (tptp.s__mother V__P1 V__M) (tptp.s__father V__P1 V__F) (tptp.s__mother V__P2 V__M) (tptp.s__father V__P2 V__F)))))))) (tptp.s__documentation tptp.s__grandfather__m tptp.s__EnglishLanguage |tptp.'(grandfather ?PERSON ?PARENT) means that ?PARENT is the grandfather of ?PERSON.'|) (tptp.s__domain tptp.s__grandfather__m |"1"| tptp.s__Human) (tptp.s__domain tptp.s__grandfather__m |"2"| tptp.s__Man) (tptp.s__subrelation tptp.s__grandfather__m tptp.s__familyRelation__m) (forall ((V__P $$unsorted) (V__H $$unsorted)) (=> (and (tptp.s__instance V__H tptp.s__Human) (tptp.s__instance V__P tptp.s__Man)) (=> (tptp.s__grandfather V__H V__P) (exists ((V__C $$unsorted)) (and (tptp.s__instance V__C tptp.s__Organism) (tptp.s__father V__C V__P) (tptp.s__parent V__H V__C)))))) (tptp.s__documentation tptp.s__grandmother__m tptp.s__EnglishLanguage |tptp.'(grandmother ?PERSON ?PARENT) means that ?PARENT is the grandmother of ?PERSON.'|) (tptp.s__domain tptp.s__grandmother__m |"1"| tptp.s__Human) (tptp.s__domain tptp.s__grandmother__m |"2"| tptp.s__Woman) (tptp.s__subrelation tptp.s__grandmother__m tptp.s__familyRelation__m) (forall ((V__P $$unsorted) (V__H $$unsorted)) (=> (and (tptp.s__instance V__H tptp.s__Human) (tptp.s__instance V__P tptp.s__Woman)) (=> (tptp.s__grandmother V__H V__P) (exists ((V__C $$unsorted)) (and (tptp.s__instance V__C tptp.s__Organism) (tptp.s__mother V__C V__P) (tptp.s__parent V__H V__C)))))) (tptp.s__documentation tptp.s__nephew__m tptp.s__EnglishLanguage |tptp.'(nephew ?NEPHEW ?PERSON) means that ?NEPHEW is the &%son of a &%sibling of ?PERSON.'|) (tptp.s__domain tptp.s__nephew__m |"1"| tptp.s__Man) (tptp.s__domain tptp.s__nephew__m |"2"| tptp.s__Human) (tptp.s__subrelation tptp.s__nephew__m tptp.s__familyRelation__m) (forall ((V__H $$unsorted) (V__N $$unsorted)) (=> (and (tptp.s__instance V__N tptp.s__Man) (tptp.s__instance V__H tptp.s__Human)) (= (tptp.s__nephew V__N V__H) (exists ((V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__Organism) (tptp.s__sibling V__S V__H) (tptp.s__son V__N V__S)))))) (tptp.s__documentation tptp.s__niece__m tptp.s__EnglishLanguage |tptp.'(niece ?NIECE ?PERSON) means that ?NIECE is the &%daughter of a &%sibling of ?PERSON.'|) (tptp.s__domain tptp.s__niece__m |"1"| tptp.s__Woman) (tptp.s__domain tptp.s__niece__m |"2"| tptp.s__Human) (tptp.s__subrelation tptp.s__niece__m tptp.s__familyRelation__m) (forall ((V__H $$unsorted) (V__N $$unsorted)) (=> (and (tptp.s__instance V__N tptp.s__Woman) (tptp.s__instance V__H tptp.s__Human)) (= (tptp.s__niece V__N V__H) (exists ((V__S $$unsorted)) (and (tptp.s__instance V__S tptp.s__Organism) (tptp.s__sibling V__S V__H) (tptp.s__daughter V__N V__S)))))) (tptp.s__documentation tptp.s__uncle__m tptp.s__EnglishLanguage |tptp.'(uncle ?UNCLE ?PERSON) means that ?UNCLE is the brother of a parent of ?PERSON.'|) (tptp.s__domain tptp.s__uncle__m |"1"| tptp.s__Man) (tptp.s__domain tptp.s__uncle__m |"2"| tptp.s__Human) (tptp.s__subrelation tptp.s__uncle__m tptp.s__familyRelation__m) (forall ((V__U $$unsorted) (V__H $$unsorted)) (=> (and (tptp.s__instance V__H tptp.s__Human) (tptp.s__instance V__U tptp.s__Man)) (= (tptp.s__uncle V__U V__H) (exists ((V__P $$unsorted)) (and (tptp.s__instance V__P tptp.s__Human) (tptp.s__brother V__U V__P) (tptp.s__parent V__H V__P)))))) (tptp.s__documentation tptp.s__stepfather__m tptp.s__EnglishLanguage |tptp.'(stepfather ?PERSON ?FATHER) means that ?FATHER is the stepfather of ?PERSON, i.e. ?FATHER is the &%spouse of the &%mother of ?PERSON, without also being the &%father of ?PERSON.'|) (tptp.s__domain tptp.s__stepfather__m |"1"| tptp.s__Human) (tptp.s__domain tptp.s__stepfather__m |"2"| tptp.s__Man) (tptp.s__subrelation tptp.s__stepfather__m tptp.s__legalRelation__m) (forall ((V__P $$unsorted) (V__F $$unsorted)) (=> (and (tptp.s__instance 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Instances of electrical Signalling are typically more complex than simply than operation of a &%DeviceSwitch, though in some cases, Signalling involves remote activation of such a switch by another device.'|) (tptp.s__subclass tptp.s__AchievingControl tptp.s__Guiding) (tptp.s__instance tptp.s__AchievingControl__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AchievingControl tptp.s__EnglishLanguage |tptp.'&%AchievingControl is the class of all events in which an &%Agent gains physical control over some object.'|) (tptp.s__instance tptp.s__controlled__m tptp.s__CaseRole) (tptp.s__documentation tptp.s__controlled__m tptp.s__EnglishLanguage |tptp.'(&%controlled ?EVENT ?OBJECT) means that during the &%AchievingControl denoted by ?EVENT, ?OBJECT comes to be physically controlled by an &%Agent.'|) (tptp.s__subrelation tptp.s__controlled__m tptp.s__patient__m) (tptp.s__domain tptp.s__controlled__m |"1"| tptp.s__AchievingControl) (tptp.s__domain tptp.s__controlled__m |"2"| tptp.s__Object) 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(tptp.s__documentation tptp.s__losesControl__m tptp.s__EnglishLanguage |tptp.'(&%losesControl ?EVENT ?AGENT) means that during ?EVENT, ?AGENT loses physical control of the &%controlled object.'|) (tptp.s__domain tptp.s__losesControl__m |"1"| tptp.s__ChangeOfControl) (tptp.s__domain tptp.s__losesControl__m |"2"| tptp.s__Agent) (tptp.s__subclass tptp.s__Capturing tptp.s__ChangeOfControl) (tptp.s__documentation tptp.s__Capturing tptp.s__EnglishLanguage |tptp.'A &%Capturing is a &%ChangeOfControl event in which an &%Agent gains physical control over another &%Agent.'|) (forall ((V__OBJ $$unsorted) (V__CAPTURE $$unsorted)) (=> (and (tptp.s__instance V__CAPTURE tptp.s__AchievingControl) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (and (tptp.s__instance V__CAPTURE tptp.s__Capturing) (tptp.s__controlled V__CAPTURE V__OBJ)) (tptp.s__instance V__OBJ tptp.s__Agent)))) (tptp.s__subclass tptp.s__PlacingUnderArrest tptp.s__Capturing) (tptp.s__instance tptp.s__PlacingUnderArrest__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Capturing__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__PlacingUnderArrest tptp.s__LawEnforcement) (tptp.s__instance tptp.s__LawEnforcement__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PlacingUnderArrest tptp.s__EnglishLanguage |tptp.'&%PlacingUnderArrest is the class of events in which a &%CognitiveAgent, typically a law enforcement professional, legally takes into custody a human or group of humans.'|) (tptp.s__subclass tptp.s__PlacingUnderArrest tptp.s__SocialInteraction) (tptp.s__subclass tptp.s__PlacingUnderArrest tptp.s__LegalAction) (tptp.s__instance tptp.s__arrested__m tptp.s__CaseRole) (tptp.s__documentation tptp.s__arrested__m tptp.s__EnglishLanguage |tptp.'(&%arrested ?EVENT ?AGENT) means that during ?EVENT, ?AGENT is taken into custody, typically by a representative of a law enforcement organization.'|) (tptp.s__domain tptp.s__arrested__m |"1"| tptp.s__PlacingUnderArrest) (tptp.s__domain tptp.s__arrested__m |"2"| tptp.s__Agent) (tptp.s__subrelation tptp.s__arrested__m tptp.s__controlled__m) (forall ((V__ARREST $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__ARREST tptp.s__Process)) (=> (and (tptp.s__instance V__ARREST tptp.s__PlacingUnderArrest) (tptp.s__agent V__ARREST V__AGENT)) (tptp.s__instance V__AGENT tptp.s__CognitiveAgent)))) (forall ((V__OBJ $$unsorted) (V__ARREST $$unsorted)) (=> (and (tptp.s__instance V__ARREST tptp.s__PlacingUnderArrest) (tptp.s__instance V__OBJ tptp.s__Agent)) (=> (tptp.s__arrested V__ARREST V__OBJ) (or (tptp.s__instance V__OBJ tptp.s__Human) (tptp.s__instance V__OBJ tptp.s__GroupOfPeople))))) (forall ((V__MEMBER $$unsorted) (V__ARREST $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__AGENT tptp.s__Collection) (tptp.s__instance V__MEMBER tptp.s__SelfConnectedObject) (tptp.s__instance V__MEMBER tptp.s__Agent)) (=> (and (tptp.s__instance V__ARREST tptp.s__PlacingUnderArrest) (tptp.s__arrested V__ARREST V__AGENT) (tptp.s__instance V__AGENT tptp.s__GroupOfPeople) (tptp.s__member V__MEMBER V__AGENT)) (exists ((V__ARREST1 $$unsorted)) (and (tptp.s__instance V__ARREST1 tptp.s__PlacingUnderArrest) (tptp.s__arrested V__ARREST1 V__MEMBER) (tptp.s__subProcess V__ARREST1 V__ARREST)))))) (forall ((V__SUB $$unsorted) (V__PROC $$unsorted) (V__LOC $$unsorted)) (=> (and (tptp.s__instance V__LOC tptp.s__Object) (tptp.s__instance V__SUB tptp.s__Process)) (=> (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__eventLocated V__PROC V__LOC) (tptp.s__subProcess V__SUB V__PROC)) (tptp.s__eventLocated V__SUB V__LOC)))) (forall ((V__IMPRISON $$unsorted) (V__AGENT $$unsorted) (V__INTERVAL $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Animal) (tptp.s__instance V__IMPRISON tptp.s__Confining)) (=> (and (tptp.s__instance V__IMPRISON tptp.s__Imprisoning) (tptp.s__detainee V__IMPRISON V__AGENT) (tptp.s__instance V__AGENT tptp.s__Human) (tptp.s__time V__IMPRISON V__INTERVAL) (tptp.s__instance V__INTERVAL tptp.s__TimeInterval)) (exists ((V__ARREST $$unsorted) (V__TIME $$unsorted)) (and (tptp.s__instance V__TIME tptp.s__TimeInterval) (tptp.s__time V__ARREST V__TIME) (tptp.s__earlier V__TIME V__INTERVAL) (tptp.s__instance V__ARREST tptp.s__PlacingUnderArrest) (tptp.s__arrested V__ARREST V__AGENT)))))) (tptp.s__instance tptp.s__conveyance__m tptp.s__CaseRole) (tptp.s__documentation tptp.s__conveyance__m tptp.s__EnglishLanguage |tptp.'(&%conveyance ?EVENT ?OBJ) means that ?OBJ is the &%Vehicle or other transportation device used in ?EVENT.'|) (tptp.s__subrelation tptp.s__conveyance__m tptp.s__instrument__m) (tptp.s__domain tptp.s__conveyance__m |"1"| tptp.s__Transportation) (tptp.s__domain tptp.s__conveyance__m |"2"| tptp.s__TransportationDevice) (forall ((V__TRANSPORT $$unsorted) (V__VEHICLE $$unsorted)) (=> (and (tptp.s__instance V__VEHICLE tptp.s__Object) (tptp.s__instance V__TRANSPORT tptp.s__Process)) (=> (and (tptp.s__instance V__TRANSPORT tptp.s__Transportation) (tptp.s__instrument V__TRANSPORT V__VEHICLE) (tptp.s__instance V__VEHICLE tptp.s__RoadVehicle)) (tptp.s__instance V__TRANSPORT tptp.s__TransportViaRoadVehicle)))) (forall ((V__TRANSPORT $$unsorted) (V__VEHICLE $$unsorted)) (=> (and (tptp.s__instance V__VEHICLE tptp.s__TransportationDevice) (tptp.s__instance V__TRANSPORT tptp.s__Transportation)) (=> (and (tptp.s__instance V__TRANSPORT tptp.s__TransportViaRoadVehicle) (tptp.s__conveyance V__TRANSPORT V__VEHICLE)) (tptp.s__instance V__VEHICLE tptp.s__RoadVehicle)))) (forall ((V__TRANSPORT $$unsorted)) (=> (tptp.s__instance V__TRANSPORT tptp.s__Process) (=> (tptp.s__instance V__TRANSPORT tptp.s__TransportViaRoadVehicle) (exists ((V__DRIVING $$unsorted)) (and (tptp.s__instance V__DRIVING tptp.s__Process) (tptp.s__instance V__DRIVING tptp.s__Driving) (tptp.s__subProcess V__TRANSPORT V__DRIVING)))))) (forall ((V__DRIVE $$unsorted) (V__TRANSPORT $$unsorted) (V__VEHICLE $$unsorted)) (=> (and (tptp.s__instance V__VEHICLE tptp.s__Object) (tptp.s__instance V__TRANSPORT tptp.s__Process) (tptp.s__instance V__DRIVE tptp.s__Process)) (=> (and (tptp.s__instance V__TRANSPORT tptp.s__Transportation) (tptp.s__subProcess V__TRANSPORT V__DRIVE) (tptp.s__instance V__DRIVE tptp.s__Driving) (tptp.s__instrument V__TRANSPORT V__VEHICLE) (tptp.s__instance V__VEHICLE tptp.s__TransportationDevice)) (tptp.s__patient V__DRIVE V__VEHICLE)))) (forall ((V__DRIVE $$unsorted) (V__VEHICLE $$unsorted)) (=> (tptp.s__instance V__DRIVE tptp.s__Process) (=> (and (tptp.s__instance V__DRIVE tptp.s__Driving) (tptp.s__patient V__DRIVE V__VEHICLE) (tptp.s__instance V__VEHICLE tptp.s__RoadVehicle)) (exists ((V__TRANSPORT $$unsorted)) (and (tptp.s__instance V__TRANSPORT tptp.s__Process) (tptp.s__instance V__TRANSPORT tptp.s__TransportViaRoadVehicle) (tptp.s__subProcess V__TRANSPORT V__DRIVE)))))) (forall ((V__DRIVER $$unsorted) (V__TRANSPORT $$unsorted) (V__DRIVING $$unsorted)) (=> (and (tptp.s__instance V__DRIVING tptp.s__Process) (tptp.s__instance V__DRIVER tptp.s__Agent)) (=> (and (tptp.s__instance V__DRIVING tptp.s__Driving) (tptp.s__subProcess V__TRANSPORT V__DRIVING) (tptp.s__instance V__TRANSPORT tptp.s__Transportation) (tptp.s__agent V__DRIVING V__DRIVER)) (tptp.s__transported V__TRANSPORT V__DRIVER)))) (forall ((V__TRANSPORT $$unsorted) (V__DEST $$unsorted) (V__DRIVING $$unsorted)) (=> (and (tptp.s__instance V__DRIVING tptp.s__Process) (tptp.s__instance V__TRANSPORT tptp.s__Process)) (=> (and (tptp.s__instance V__DRIVING tptp.s__Driving) (tptp.s__subProcess V__TRANSPORT V__DRIVING) (tptp.s__instance V__TRANSPORT tptp.s__Transportation) (tptp.s__destination V__DRIVING V__DEST)) (tptp.s__destination V__TRANSPORT V__DEST)))) (forall ((V__TRANSPORT $$unsorted) (V__VEHICLE $$unsorted) (V__DRIVING $$unsorted)) (=> (and (tptp.s__instance V__DRIVING tptp.s__Process) (tptp.s__instance V__VEHICLE tptp.s__TransportationDevice)) (=> (and (tptp.s__instance V__DRIVING tptp.s__Driving) (tptp.s__subProcess V__TRANSPORT V__DRIVING) (tptp.s__instance V__TRANSPORT tptp.s__Transportation) (tptp.s__instance V__VEHICLE tptp.s__Vehicle) (tptp.s__patient V__DRIVING V__VEHICLE)) (tptp.s__conveyance V__TRANSPORT V__VEHICLE)))) (tptp.s__subclass tptp.s__GasolineEngine tptp.s__InternalCombustionEngine) (tptp.s__instance tptp.s__GasolineEngine__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__GasolineEngine tptp.s__EnglishLanguage |tptp.'&%GasolineEngine is the subclass of &%InternalCombustionEngines that use &%Gasoline as their resource.'|) (forall ((V__R $$unsorted)) (=> (tptp.s__instance V__R tptp.s__Process) (=> (tptp.s__instance V__R (tptp.s__OperatingFn tptp.s__GasolineEngine)) (exists ((V__F $$unsorted)) (and (tptp.s__instance V__F tptp.s__Object) (tptp.s__instance V__F tptp.s__Gasoline) (tptp.s__resource V__R V__F)))))) (tptp.s__subclass tptp.s__DieselEngine tptp.s__InternalCombustionEngine) (tptp.s__instance tptp.s__DieselEngine__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__InternalCombustionEngine__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__DieselEngine tptp.s__EnglishLanguage |tptp.'&%DieselEngine is the subclass of &%InternalCombustionEngines that use &%DieselFuel as their resource.'|) (forall ((V__P $$unsorted)) (=> (tptp.s__instance V__P tptp.s__Process) (=> (tptp.s__instance V__P (tptp.s__OperatingFn tptp.s__DieselEngine)) (exists ((V__F $$unsorted)) (and (tptp.s__instance V__F tptp.s__Object) (tptp.s__instance V__F tptp.s__DieselFuel) (tptp.s__resource V__P V__F)))))) (tptp.s__instance tptp.s__typicalPart__m tptp.s__BinaryRelation) (tptp.s__instance tptp.s__typicalPart__m tptp.s__SpatialRelation) (tptp.s__relatedInternalConcept tptp.s__typicalPart__m tptp.s__part__m) (tptp.s__documentation tptp.s__typicalPart__m tptp.s__EnglishLanguage |tptp.'An instance of the first argument is typically found as part of an instance of the second argument. This is a class-level relation roughly corresponding to &%part. Note that this does not imply that such wholes typically have such parts.'|) (tptp.s__domainSubclass tptp.s__typicalPart__m |"1"| tptp.s__Object) (tptp.s__domainSubclass tptp.s__typicalPart__m |"2"| tptp.s__Object) (forall ((V__PART $$unsorted) (V__WHOLE $$unsorted)) (=> (and (tptp.s__subclass V__WHOLE tptp.s__Object) (tptp.s__instance V__WHOLE tptp.s__SetOrClass) (tptp.s__subclass V__PART tptp.s__Object) (tptp.s__instance V__PART tptp.s__SetOrClass)) (=> (tptp.s__typicalPart V__PART V__WHOLE) (exists ((V__X $$unsorted) (V__Y $$unsorted)) (and (tptp.s__instance V__Y tptp.s__Object) (tptp.s__instance V__X tptp.s__Object) (tptp.s__instance V__X V__WHOLE) (tptp.s__instance V__Y V__PART) (tptp.s__part V__Y V__X)))))) (forall ((V__NOTPARTPROB $$unsorted) (V__PART $$unsorted) (V__PARTPROB $$unsorted) (V__X $$unsorted) (V__WHOLE $$unsorted)) (=> (and (tptp.s__subclass V__WHOLE tptp.s__Object) (tptp.s__instance V__WHOLE tptp.s__SetOrClass) (tptp.s__instance V__X tptp.s__Object) (tptp.s__instance V__PARTPROB tptp.s__Quantity) (tptp.s__subclass V__PART tptp.s__Object) (tptp.s__instance V__PART tptp.s__SetOrClass) (tptp.s__instance V__NOTPARTPROB tptp.s__Quantity)) (=> (and (tptp.s__typicalPart V__PART V__WHOLE) (tptp.s__instance V__X V__PART) (= V__PARTPROB (tptp.s__ProbabilityFn |tptp.'(? [V__Y] : (s__instance(V__Y,s__Object) & s__instance(V__Y,V__WHOLE) & s__part(V__X,V__Y)))'|)) (= V__NOTPARTPROB (tptp.s__ProbabilityFn |tptp.'(~ (? [V__Z] : (s__instance(V__Z,s__Object) & s__instance(V__Z,V__WHOLE) & s__part(V__X,V__Z))))'|))) (tptp.greater V__PARTPROB V__NOTPARTPROB)))) (tptp.s__instance tptp.s__typicallyContainsPart__m tptp.s__BinaryRelation) (tptp.s__instance tptp.s__typicallyContainsPart__m tptp.s__SpatialRelation) (tptp.s__relatedInternalConcept tptp.s__typicallyContainsPart__m tptp.s__part__m) (tptp.s__documentation tptp.s__typicallyContainsPart__m tptp.s__EnglishLanguage |tptp.'An instance of the second argument typically contains an instance of the first argument. This is a class-level relation roughly corresponding to &%part. Note that this does not imply that such parts typically have such wholes.'|) (tptp.s__domainSubclass tptp.s__typicallyContainsPart__m |"1"| tptp.s__Object) (tptp.s__domainSubclass tptp.s__typicallyContainsPart__m |"2"| tptp.s__Object) (forall ((V__PART $$unsorted) (V__WHOLE $$unsorted)) (=> (and (tptp.s__subclass V__WHOLE tptp.s__Object) (tptp.s__instance V__WHOLE tptp.s__SetOrClass) (tptp.s__subclass V__PART tptp.s__Object) (tptp.s__instance V__PART tptp.s__SetOrClass)) (=> (tptp.s__typicallyContainsPart V__PART V__WHOLE) (exists ((V__X $$unsorted) (V__Y $$unsorted)) (and (tptp.s__instance V__Y tptp.s__Object) (tptp.s__instance V__X tptp.s__Object) (tptp.s__instance V__X V__WHOLE) (tptp.s__instance V__Y V__PART) (tptp.s__part V__Y V__X)))))) (forall ((V__NOTPARTPROB $$unsorted) (V__PART $$unsorted) (V__PARTPROB $$unsorted) (V__WHOLE $$unsorted) (V__Y $$unsorted)) (=> (and (tptp.s__instance V__Y tptp.s__Object) (tptp.s__subclass V__WHOLE tptp.s__Object) (tptp.s__instance V__WHOLE tptp.s__SetOrClass) (tptp.s__instance V__PARTPROB tptp.s__Quantity) (tptp.s__subclass V__PART tptp.s__Object) (tptp.s__instance V__PART tptp.s__SetOrClass) (tptp.s__instance V__NOTPARTPROB tptp.s__Quantity)) (=> (and (tptp.s__typicallyContainsPart V__PART V__WHOLE) (tptp.s__instance V__Y V__WHOLE) (= V__PARTPROB (tptp.s__ProbabilityFn |tptp.'(? [V__X1] : (s__instance(V__X1,s__Object) & s__instance(V__X1,V__PART) & s__part(V__X1,V__Y)))'|)) (= V__NOTPARTPROB (tptp.s__ProbabilityFn |tptp.'(~ (? [V__X2] : (s__instance(V__X2,s__Object) & s__instance(V__X2,V__PART) & s__part(V__X2,V__Y))))'|))) (tptp.greater V__PARTPROB V__NOTPARTPROB)))) (tptp.s__instance tptp.s__initialPart__m tptp.s__BinaryRelation) (tptp.s__instance tptp.s__initialPart__m tptp.s__SpatialRelation) (tptp.s__relatedInternalConcept tptp.s__initialPart__m tptp.s__part__m) (tptp.s__documentation tptp.s__initialPart__m tptp.s__EnglishLanguage |tptp.'Every instance of the first argument is initially found as part of an instance of the second argument, even though it might lose that part later in its lifetime. While the part must initially exist as part of a whole, this does not say that each whole necessarily initially contains such a part. For example, a thumb must at some time have been part of a hand, but every hand need not have a thumb, even at birth. This is a class-level relation roughly corresponding to &%part.'|) (tptp.s__domainSubclass tptp.s__initialPart__m |"1"| tptp.s__Object) (tptp.s__domainSubclass tptp.s__initialPart__m |"2"| tptp.s__Object) (tptp.s__initialPart tptp.s__AnimalAnatomicalStructure tptp.s__Animal) (tptp.s__instance tptp.s__initiallyContainsPart__m tptp.s__BinaryRelation) (tptp.s__instance tptp.s__initiallyContainsPart__m tptp.s__SpatialRelation) (tptp.s__relatedInternalConcept tptp.s__initiallyContainsPart__m tptp.s__part__m) (tptp.s__documentation tptp.s__initiallyContainsPart__m tptp.s__EnglishLanguage |tptp.'Every instance of the second argument initially contains an instance of the first argument, even though it might lose that part later in its lifetime. Every normal human starts life with an appendix for example. While the whole must initially contain such a part, this does not say that each part necessarily initially exists as part of such a whole. This is a class-level relation roughly corresponding to &%part.'|) (tptp.s__domainSubclass tptp.s__initiallyContainsPart__m |"1"| tptp.s__Object) (tptp.s__domainSubclass tptp.s__initiallyContainsPart__m |"2"| tptp.s__Object) (tptp.s__subclass tptp.s__CausingHappiness tptp.s__Process) (tptp.s__instance tptp.s__CausingHappiness__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__CausingHappiness tptp.s__EnglishLanguage |tptp.'Any &%Process whose result is that the patient of the process is happy.'|) (tptp.s__subclass tptp.s__CausingPain tptp.s__CausingUnhappiness) (tptp.s__instance tptp.s__CausingPain__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__CausingPain tptp.s__EnglishLanguage |tptp.'Any &%Process whose result is that the patient of the process is in &%Pain.'|) (tptp.s__subclass tptp.s__CausingUnhappiness tptp.s__Process) (tptp.s__instance tptp.s__CausingUnhappiness__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__CausingUnhappiness tptp.s__EnglishLanguage |tptp.'Any &%Process whose result is that the patient of the process is unhappy.'|) (tptp.s__subclass tptp.s__Lengthening tptp.s__Increasing) (tptp.s__instance tptp.s__Lengthening__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Lengthening tptp.s__EnglishLanguage |tptp.'&%Increasing the length of something.'|) (tptp.s__subclass tptp.s__Saving tptp.s__Increasing) (tptp.s__instance tptp.s__Saving__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Saving tptp.s__EnglishLanguage |tptp.'Any instance of &%Increasing where the &%PhysicalQuantity involved is a &%CurrencyMeasure. This includes saving in a financial account as well as stuffing gold bars under the matress, or a squirrel saving nuts for winter.'|) (tptp.s__documentation tptp.s__financialAsset__m tptp.s__EnglishLanguage |tptp.'A predicate that relates an &%Agent to any item of economic value owned by the &%Agent. Examples of financial assets are cash, securities, accounts receivable, inventory, office equipment, a house, a car, and other property.'|) (tptp.s__domain tptp.s__financialAsset__m |"1"| tptp.s__Agent) (tptp.s__domain tptp.s__financialAsset__m |"2"| tptp.s__Object) (tptp.s__subrelation tptp.s__financialAsset__m tptp.s__possesses__m) (forall ((V__P $$unsorted) (V__A $$unsorted)) (=> (and (tptp.s__instance V__A tptp.s__Object) (tptp.s__instance V__P tptp.s__Agent)) (=> (tptp.s__financialAsset V__P V__A) (exists ((V__V $$unsorted)) (and (tptp.s__instance V__V tptp.s__CurrencyMeasure) (tptp.s__monetaryValue V__A V__V)))))) (tptp.s__subclass tptp.s__Barking tptp.s__RadiatingSound) (tptp.s__instance tptp.s__Barking__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Barking tptp.s__EnglishLanguage |tptp.'Any instance of &%RadiatingSound which is produced by a &%Canine.'|) (forall ((V__B $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Process) (=> (tptp.s__instance V__B tptp.s__Barking) (exists ((V__D $$unsorted)) (and (tptp.s__instance V__D tptp.s__Agent) (tptp.s__instance V__D tptp.s__Canine) (tptp.s__agent V__B V__D)))))) (tptp.s__subclass tptp.s__Menstruation tptp.s__OrganOrTissueProcess) (tptp.s__instance tptp.s__Menstruation__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Menstruation tptp.s__EnglishLanguage |tptp.'A periodic discharge of &%Blood and other &%BiologicalSubstances by &%Females that is part of a readjustment of the uterus.'|) (tptp.s__subclass tptp.s__Organification tptp.s__OrganOrTissueProcess) (tptp.s__instance tptp.s__Organification__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Organification tptp.s__EnglishLanguage |tptp.'Any &%BiologicalProcess that results in the formation of an &%Organ.'|) (forall ((V__P $$unsorted)) (=> (tptp.s__instance V__P tptp.s__Process) (=> (tptp.s__instance V__P tptp.s__Organification) (exists ((V__O $$unsorted)) (and (tptp.s__instance V__O tptp.s__Organ) (tptp.s__result V__P V__O)))))) (tptp.s__subclass tptp.s__BiologicalConception tptp.s__OrganOrTissueProcess) (tptp.s__instance tptp.s__BiologicalConception__t tptp.s__SetOrClass) (tptp.s__relatedInternalConcept tptp.s__BiologicalConception tptp.s__SexualReproduction) (tptp.s__relatedInternalConcept tptp.s__BiologicalConception tptp.s__Birth) (tptp.s__relatedInternalConcept tptp.s__BiologicalConception tptp.s__Mating) (tptp.s__documentation tptp.s__BiologicalConception tptp.s__EnglishLanguage |tptp.'The production of a zygote from the fusion of a male and female gamete.'|) (forall ((V__SR $$unsorted)) (=> (tptp.s__instance V__SR tptp.s__Process) (=> (tptp.s__instance V__SR tptp.s__SexualReproduction) (exists ((V__C $$unsorted)) (and (tptp.s__instance V__C tptp.s__Process) (tptp.s__instance V__C tptp.s__BiologicalConception) (tptp.s__subProcess V__C V__SR)))))) (tptp.s__subclass tptp.s__ContraceptiveDevice tptp.s__Device) (tptp.s__instance tptp.s__ContraceptiveDevice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ContraceptiveDevice tptp.s__EnglishLanguage |tptp.'&%Devices which permit sexual intercourse but which reduce the likelihood of conception.'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Physical) (=> (tptp.s__instance V__C tptp.s__ContraceptiveDevice) (tptp.s__hasPurpose V__C |tptp.'(? [V__M] : (s__instance(V__M,s__Mating) & s__patient(V__M,V__C) & (~ (? [V__SR] : (s__instance(V__M,s__Process) & s__instance(V__SR,s__BiologicalConception) & s__result(V__M,V__SR))))))'|)))) (tptp.s__subclass tptp.s__BirdEgg tptp.s__Egg) (tptp.s__instance tptp.s__BirdEgg__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__BirdEgg tptp.s__EnglishLanguage |tptp.'Any &%Egg that is produced by a &%Bird.'|) (forall ((V__E $$unsorted)) (=> (tptp.s__instance V__E tptp.s__BirdEgg) (exists ((V__SR $$unsorted) (V__B $$unsorted)) (and (tptp.s__instance V__B tptp.s__Agent) (tptp.s__instance V__SR tptp.s__Process) (tptp.s__instance V__SR tptp.s__SexualReproduction) (tptp.s__agent V__SR V__B) (tptp.s__instance V__B tptp.s__Bird) (tptp.s__result V__SR V__E))))) (tptp.s__subclass tptp.s__Biopsy tptp.s__DiagnosticProcess) (tptp.s__subclass tptp.s__Biopsy tptp.s__Removing) (tptp.s__instance tptp.s__Biopsy__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Biopsy tptp.s__EnglishLanguage |tptp.'Any &%DiagnosticProcess which involves the examination of &%BodySubstances taken from a living &%Organism.'|) (forall ((V__B $$unsorted) (V__BS $$unsorted)) (=> (tptp.s__instance V__B tptp.s__Process) (=> (and (tptp.s__instance V__B tptp.s__Biopsy) (tptp.s__patient V__B V__BS)) (tptp.s__instance V__BS tptp.s__BodySubstance)))) (tptp.s__subclass tptp.s__Mating tptp.s__OrganismProcess) (tptp.s__documentation tptp.s__Mating tptp.s__EnglishLanguage |tptp.'Any process of sexual intercourse between two &%Humans or &%Animals.'|) (tptp.s__subclass tptp.s__Raping tptp.s__Mating) (tptp.s__instance tptp.s__Raping__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Mating__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Raping tptp.s__CriminalAction) (tptp.s__documentation tptp.s__Raping tptp.s__EnglishLanguage |tptp.'Any instance of &%Mating where one participant does not consent. This is limited to acts between &%Humans.'|) (forall ((V__R $$unsorted)) (=> (tptp.s__instance V__R tptp.s__Process) (=> (tptp.s__instance V__R tptp.s__Raping) (exists ((V__A $$unsorted)) (and (tptp.s__instance V__A tptp.s__CognitiveAgent) (tptp.s__experiencer V__R V__A) (not (tptp.s__wants V__A V__R))))))) (tptp.s__subclass tptp.s__LayingEggs tptp.s__OrganismProcess) (tptp.s__instance tptp.s__LayingEggs__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__LayingEggs tptp.s__EnglishLanguage |tptp.'Any &%OrganismProcess where an &%Egg is expelled from the body of a &%Animal, e.g. a &%Bird or &%Reptile laying eggs.'|) (forall ((V__A $$unsorted) (V__L $$unsorted)) (=> (and (tptp.s__instance V__L tptp.s__Process) (tptp.s__instance V__A tptp.s__Agent)) (=> (and (tptp.s__instance V__L tptp.s__LayingEggs) (tptp.s__experiencer V__L V__A)) (and (tptp.s__instance V__A tptp.s__Animal) (tptp.s__attribute V__A tptp.s__Female))))) (tptp.s__instance tptp.s__affiliatedOrganization__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__affiliatedOrganization__m |"1"| tptp.s__Organization) (tptp.s__domain tptp.s__affiliatedOrganization__m |"2"| tptp.s__Organization) (tptp.s__documentation tptp.s__ideologicalAffiliationOfOrganization__m tptp.s__EnglishLanguage |tptp.'(ideologicalAffiliationOfOrganization ?ORG ?GOV) means that one of the goals of ?ORG is to realize the &%FormOfGovernment ?GOV.'|) (tptp.s__instance tptp.s__ideologicalAffiliationOfOrganization__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__ideologicalAffiliationOfOrganization__m |"1"| tptp.s__Organization) (tptp.s__domain tptp.s__ideologicalAffiliationOfOrganization__m |"2"| tptp.s__FormOfGovernment) (tptp.s__documentation tptp.s__religiousAffiliationOfOrganization__m tptp.s__EnglishLanguage |tptp.'(religiousAffiliationOfOrganization ?ORG ?BELIEF) means that one of the goals of ?ORG is to advance the religious teachings of the &%BeliefGroup ?BELIEF.'|) (tptp.s__instance tptp.s__religiousAffiliationOfOrganization__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__religiousAffiliationOfOrganization__m |"1"| tptp.s__Organization) (tptp.s__domain tptp.s__religiousAffiliationOfOrganization__m |"2"| tptp.s__BeliefGroup) (tptp.s__documentation tptp.s__allegiance__m tptp.s__EnglishLanguage |tptp.'(allegiance ?AGENT ?ENTITY) means that the &%CognitiveAgent ?AGENT owes its allegiance to the political entity ?ENTITY.'|) (tptp.s__instance tptp.s__allegiance__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__allegiance__m |"1"| tptp.s__CognitiveAgent) (tptp.s__domain tptp.s__allegiance__m |"2"| tptp.s__CognitiveAgent) (tptp.s__documentation tptp.s__ancestorOrganization__m tptp.s__EnglishLanguage |tptp.'(ancestorOrganization ?ORG1 ?ORG2) means that the &%Organization ?ORG1 descended from the &%Organization ?ORG2.'|) (tptp.s__instance tptp.s__ancestorOrganization__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__ancestorOrganization__m tptp.s__TransitiveRelation) (tptp.s__instance tptp.s__ancestorOrganization__m tptp.s__IrreflexiveRelation) (tptp.s__domain tptp.s__ancestorOrganization__m |"1"| tptp.s__Organization) (tptp.s__domain tptp.s__ancestorOrganization__m |"2"| tptp.s__Organization) (tptp.s__disjointRelation tptp.s__ancestorOrganization__m tptp.s__subOrganization__m) (tptp.s__documentation tptp.s__anniversary__m tptp.s__EnglishLanguage |tptp.'(anniversary ?PHYSICAL ?TIME) means that ?TIME is the class of TimeIntervals which mark the anniversary of ?PHYSICAL. For example, (anniversary Christmas (&%DayFn 35 &%December)) means that Christmas is celebrated each year on the 25th of &%December.'|) (tptp.s__instance tptp.s__anniversary__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__anniversary__m tptp.s__TemporalRelation) (tptp.s__domain tptp.s__anniversary__m |"1"| tptp.s__Physical) (tptp.s__domain tptp.s__anniversary__m |"2"| tptp.s__TimeInterval) (tptp.s__documentation tptp.s__birthday__m tptp.s__EnglishLanguage |tptp.'(birthday ?PERSON ?DAY) means that ?DAY is the anniversary each year of the birth of ?PERSON. For example, (birthday &%WilliamJeffersonClinton (&%DayFn 19 &%August)) means that Bill Clintons birthday is &%August 19th.'|) (tptp.s__domain tptp.s__birthday__m |"1"| tptp.s__Human) (tptp.s__domain tptp.s__birthday__m |"2"| tptp.s__Day) (tptp.s__subrelation tptp.s__birthday__m tptp.s__anniversary__m) (tptp.s__documentation tptp.s__birthplace__m tptp.s__EnglishLanguage |tptp.'(birthplace ?INDIV ?PLACE) means that the &%Animal ?INDIV was born at the location ?PLACE. The location may be a geographic area or a building, such as a hospital.'|) (tptp.s__instance tptp.s__birthplace__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__birthplace__m |"1"| tptp.s__Animal) (tptp.s__domain tptp.s__birthplace__m |"2"| tptp.s__Object) (forall ((V__INDIV $$unsorted) (V__PLACE $$unsorted)) (=> (and (tptp.s__instance V__PLACE tptp.s__Object) (tptp.s__instance V__INDIV tptp.s__Animal)) (=> (tptp.s__birthplace V__INDIV V__PLACE) (exists ((V__BIRTH $$unsorted)) (and (tptp.s__instance V__BIRTH tptp.s__Process) (tptp.s__instance V__BIRTH tptp.s__Birth) (tptp.s__experiencer V__BIRTH V__INDIV) (tptp.s__eventLocated V__BIRTH V__PLACE)))))) (tptp.s__documentation tptp.s__birthdate__m tptp.s__EnglishLanguage |tptp.'(birthdate ?PERSON ?DAY) means that ?DAY is the &%Day on which the ?PERSON was born.'|) (tptp.s__instance tptp.s__birthdate__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__birthdate__m |"1"| tptp.s__Human) (tptp.s__domain tptp.s__birthdate__m |"2"| tptp.s__Day) (forall ((V__P $$unsorted) (V__D $$unsorted)) (=> (and (tptp.s__instance V__D tptp.s__Day) (tptp.s__instance V__P tptp.s__Human)) (=> (tptp.s__birthdate V__P V__D) (exists ((V__B $$unsorted)) (and (tptp.s__instance V__B tptp.s__Process) (tptp.s__instance V__B tptp.s__Birth) (tptp.s__experiencer V__B V__P) (tptp.s__date V__B V__D)))))) (tptp.s__documentation tptp.s__deathdate__m tptp.s__EnglishLanguage |tptp.'(birthdate ?PERSON ?DAY) means that ?DAY is the &%Day on which the ?PERSON died.'|) (tptp.s__domain tptp.s__deathdate__m |"1"| tptp.s__Human) (tptp.s__domain tptp.s__deathdate__m |"2"| tptp.s__Day) (tptp.s__instance tptp.s__deathdate__m tptp.s__BinaryPredicate) (forall ((V__P $$unsorted) (V__T $$unsorted)) (=> (and (tptp.s__instance V__T tptp.s__Day) (tptp.s__instance V__P tptp.s__Human)) (=> (tptp.s__deathdate V__P V__T) (exists ((V__D $$unsorted)) (and (tptp.s__instance V__D tptp.s__Process) (tptp.s__instance V__D tptp.s__Death) (tptp.s__experiencer V__D V__P) (tptp.s__date V__D V__T)))))) (tptp.s__documentation tptp.s__deathplace__m tptp.s__EnglishLanguage |tptp.'(deathplace ?INDIV ?PLACE) means that the &%Animal ?INDIV died at the location ?PLACE. The location may be a geographic area or a building, such as a hospital.'|) (tptp.s__instance tptp.s__deathplace__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__deathplace__m |"1"| tptp.s__Animal) (tptp.s__domain tptp.s__deathplace__m |"2"| tptp.s__Object) (forall ((V__P $$unsorted) (V__L $$unsorted)) (=> (and (tptp.s__instance V__L tptp.s__Object) (tptp.s__instance V__P tptp.s__Animal)) (=> (tptp.s__deathplace V__P V__L) (exists ((V__D $$unsorted)) (and (tptp.s__instance V__D tptp.s__Process) (tptp.s__instance V__D tptp.s__Death) (tptp.s__experiencer V__D V__P) (tptp.s__eventLocated V__D V__L)))))) (tptp.s__instance tptp.s__equipmentCount__m tptp.s__TernaryPredicate) (tptp.s__domain tptp.s__equipmentCount__m |"1"| tptp.s__Object) (tptp.s__domainSubclass tptp.s__equipmentCount__m |"2"| tptp.s__Device) (tptp.s__domain tptp.s__equipmentCount__m |"3"| tptp.s__Quantity) (tptp.s__documentation tptp.s__equipmentCount__m tptp.s__EnglishLanguage |tptp.'(&%equipmentCount ?OBJECT ?TYPE ?QUANTITY) means that ?OBJECT is equipped with devices of the type ?TYPE, in the number ?QUANTITY. Equipment associated with an ?OBJECT may be a &%component of ?OBJECT (such as the emergency oxygen system built into passenger jets) or it may be a device simply located on or with ?OBJECT (such as a first aid kit).'|) (tptp.s__documentation tptp.s__equipmentType__m tptp.s__EnglishLanguage |tptp.'(equipmentType ?THING ?TYPE) means that the &%Artifact ?THING has a component or attachment of &%Device ?TYPE. See also &%equipmentTypeCount.'|) (tptp.s__instance tptp.s__equipmentType__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__equipmentType__m |"1"| tptp.s__Artifact) (tptp.s__domain tptp.s__equipmentType__m |"2"| tptp.s__Device) (forall ((V__O $$unsorted) (V__T $$unsorted)) (=> (and (tptp.s__instance V__T tptp.s__Device) (tptp.s__instance V__T tptp.s__SetOrClass) (tptp.s__instance V__O tptp.s__Artifact)) (=> (tptp.s__equipmentType V__O V__T) (exists ((V__D $$unsorted)) (and (tptp.s__instance V__D tptp.s__Object) (tptp.s__instance V__D V__T) (or (tptp.s__part V__D V__O) (tptp.s__connected V__D V__O))))))) (forall ((V__O $$unsorted) (V__C $$unsorted) (V__T $$unsorted)) (=> (and (tptp.s__subclass V__T tptp.s__Device) (tptp.s__instance V__T tptp.s__Device) (tptp.s__instance V__T tptp.s__SetOrClass) (tptp.s__instance V__C tptp.s__Quantity) (tptp.s__instance V__O tptp.s__Artifact)) (=> (tptp.s__equipmentCount V__O V__T V__C) (tptp.s__equipmentType V__O V__T)))) (forall ((V__O $$unsorted) (V__T $$unsorted)) (=> (and (tptp.s__subclass V__T tptp.s__Device) (tptp.s__instance V__T tptp.s__Device) (tptp.s__instance V__T tptp.s__SetOrClass) (tptp.s__instance V__O tptp.s__Artifact)) (=> (tptp.s__equipmentType V__O V__T) (exists ((V__C $$unsorted)) (and (tptp.s__instance V__C tptp.s__Quantity) (tptp.greatereq V__C |"1"|) (tptp.s__equipmentCount V__O V__T V__C)))))) (tptp.s__documentation tptp.s__grammaticalRelation__m tptp.s__EnglishLanguage |tptp.'(grammaticalRelation ?PHRASE ?SENTENCE) means that the &%Phrase ?PHRASE has a grammatical relation to the Sentence ?SENTENCE, i.e. it is a subject, object, main verb, etc. of the ?SENTENCE.'|) (tptp.s__instance tptp.s__grammaticalRelation__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__grammaticalRelation__m |"1"| tptp.s__Phrase) (tptp.s__domain tptp.s__grammaticalRelation__m |"2"| tptp.s__Sentence) (tptp.s__instance tptp.s__distanceOnPath__m tptp.s__BinaryRelation) (tptp.s__documentation tptp.s__distanceOnPath__m tptp.s__EnglishLanguage |tptp.'(distanceOnPath ?DIST ?PATH) means that for a given path (which is a pathInSystem) that the distance of the route is the measurement ?DIST.'|) (tptp.s__domain tptp.s__distanceOnPath__m |"1"| tptp.s__ConstantQuantity) (tptp.s__domain tptp.s__distanceOnPath__m |"2"| tptp.s__Transitway) (tptp.s__instance tptp.s__inString__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__inString__m |"1"| tptp.s__Character) (tptp.s__domain tptp.s__inString__m |"2"| tptp.s__SymbolicString) (tptp.s__documentation tptp.s__inString__m tptp.s__EnglishLanguage |tptp.'(&%inString ?&%Character ?&%SymbolicString) means that ?&%Character is &%part of ?&%SymbolicString. See also &%subString.'|) (tptp.s__subrelation tptp.s__inString__m tptp.s__part__m) (forall ((V__CHAR $$unsorted) (V__STRING $$unsorted)) (=> (and (tptp.s__instance V__STRING tptp.s__SymbolicString) (tptp.s__part V__CHAR V__STRING) (tptp.s__instance V__CHAR tptp.s__Character)) (tptp.s__inString V__CHAR V__STRING))) (tptp.s__instance tptp.s__subString__m tptp.s__AntisymmetricRelation) (tptp.s__instance tptp.s__subString__m tptp.s__ReflexiveRelation) (tptp.s__instance tptp.s__subString__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__subString__m |"1"| tptp.s__SymbolicString) (tptp.s__domain tptp.s__subString__m |"2"| tptp.s__SymbolicString) (tptp.s__documentation tptp.s__subString__m tptp.s__EnglishLanguage |tptp.'(&%subString ?&%SymbolicString-1 ?&%SymbolicString-2) means that ?&%SymbolicString-1 is &%part of ?&%SymbolicString-2. ?&%SymbolicString-2 includes all the same &%Characters as ?&%SymbolicString-1 and in the same order, but ?&%SymbolicString-2 may include more &%Characters than ?&%SymbolicString-1. See also &%inString.'|) (tptp.s__subrelation tptp.s__subString__m tptp.s__part__m) (forall ((V__S1 $$unsorted) (V__S2 $$unsorted) (V__L1 $$unsorted) (V__L2 $$unsorted)) (=> (and (tptp.s__instance V__L2 tptp.s__Quantity) (tptp.s__instance V__L1 tptp.s__Quantity) (tptp.s__instance V__S2 tptp.s__SymbolicString) (tptp.s__instance V__S1 tptp.s__SymbolicString)) (=> (and (tptp.s__subString V__S1 V__S2) (= V__L1 (tptp.s__StringLengthFn V__S1)) (= V__L2 (tptp.s__StringLengthFn V__S2))) (tptp.lesseq V__L1 V__L2)))) (forall ((V__S1 $$unsorted) (V__S2 $$unsorted) (V__CH $$unsorted)) (=> (and (tptp.s__instance V__CH tptp.s__Character) (tptp.s__instance V__S2 tptp.s__SymbolicString) (tptp.s__instance V__S1 tptp.s__SymbolicString)) (=> (and (tptp.s__subString V__S1 V__S2) (tptp.s__inString V__CH V__S1)) (tptp.s__inString V__CH V__S2)))) (tptp.s__instance tptp.s__SubstringFn__m tptp.s__TernaryFunction) (tptp.s__instance tptp.s__SubstringFn__m tptp.s__PartialValuedRelation) (tptp.s__instance tptp.s__SubstringFn__m tptp.s__SingleValuedRelation) (tptp.s__domain tptp.s__SubstringFn__m |"1"| tptp.s__SymbolicString) (tptp.s__domain tptp.s__SubstringFn__m |"2"| tptp.s__NonnegativeInteger) (tptp.s__domain tptp.s__SubstringFn__m |"3"| tptp.s__NonnegativeInteger) (tptp.s__range tptp.s__SubstringFn__m tptp.s__SymbolicString) (tptp.s__documentation tptp.s__SubstringFn__m tptp.s__EnglishLanguage |tptp.'(&%SubstringFn ?&%SymbolicString ?&%NonnegativeInteger-1 ?&%NonnegativeInteger-2) denotes a string that is a &%subString of ?&%SymbolicString, begins with the &%Character at the index ?&%NonnegativeInteger-1, and ends with the &%Character at the index (&%SubtractionFn ?&%NonnegativeInteger-2 1). The first &%Character in ?&%SymbolicString is denoted by the index 0. If the value of ?&%NonnegativeInteger-1 or ?&%NonnegativeInteger-2 is greater than the value of (&%StringLengthFn ?&%SymbolicString), or if ?&%NonnegativeInteger-1 is greater than ?&%NonnegativeInteger-2, the result of evaluating the &%SubstringFn expression is undefined. Example: (&%equal "Charle" (&%SubstringFn "Charles Darwin" 0 6)).'|) (forall ((V__LEN $$unsorted) (V__START $$unsorted) (V__SUB $$unsorted) (V__END $$unsorted) (V__STRING $$unsorted)) (=> (and (tptp.s__instance V__STRING tptp.s__SymbolicString) (tptp.s__instance V__END tptp.s__NonnegativeInteger) (tptp.s__instance V__START tptp.s__NonnegativeInteger) (tptp.s__instance V__LEN tptp.s__Quantity)) (=> (and (= V__SUB (tptp.s__SubstringFn V__STRING V__START V__END)) (= V__LEN (tptp.s__StringLengthFn V__STRING))) (and (tptp.lesseq V__START V__END) (tptp.less V__START V__LEN) (tptp.lesseq V__END V__LEN))))) (tptp.s__instance tptp.s__StringLengthFn__m tptp.s__UnaryFunction) (tptp.s__instance tptp.s__StringLengthFn__m tptp.s__TotalValuedRelation) (tptp.s__instance tptp.s__StringLengthFn__m tptp.s__SingleValuedRelation) (tptp.s__domain tptp.s__StringLengthFn__m |"1"| tptp.s__SymbolicString) (tptp.s__range tptp.s__StringLengthFn__m tptp.s__NonnegativeInteger) (tptp.s__documentation tptp.s__StringLengthFn__m tptp.s__EnglishLanguage |tptp.'This &%UnaryFunction takes a &%SymbolicString as its sole argument. The result of evaluating a term formed with &%StringLengthFn is a &%NonnegativeInteger that denotes the number of &%Characters in the &%SymbolicString. Example: (&%equal 14 (&%StringLengthFn "Charles Darwin")).'|) (tptp.s__instance tptp.s__stringLength__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__stringLength__m tptp.s__TotalValuedRelation) (tptp.s__instance tptp.s__stringLength__m tptp.s__SingleValuedRelation) (tptp.s__instance tptp.s__stringLength__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__stringLength__m |"1"| tptp.s__NonnegativeInteger) (tptp.s__domain tptp.s__stringLength__m |"2"| tptp.s__SymbolicString) (tptp.s__documentation tptp.s__stringLength__m tptp.s__EnglishLanguage |tptp.'(&%stringLength ?&%NonnegativeInteger ?&%SymbolicString) means that the number of &%Characters in ?&%SymbolicString is ?&%NonnegativeInteger. Example: (&%stringLength 14 "Charles Darwin"), which is a &%True &%Sentence.'|) (forall ((V__INT $$unsorted) (V__STRING $$unsorted)) (=> (and (tptp.s__instance V__STRING tptp.s__SymbolicString) (tptp.s__instance V__INT tptp.s__NonnegativeInteger)) (= (tptp.s__stringLength V__INT V__STRING) (= V__INT (tptp.s__StringLengthFn V__STRING))))) (tptp.s__instance tptp.s__StringConcatenateFn__m tptp.s__BinaryFunction) (tptp.s__instance tptp.s__StringConcatenateFn__m tptp.s__TotalValuedRelation) (tptp.s__instance tptp.s__StringConcatenateFn__m tptp.s__SingleValuedRelation) (tptp.s__domain tptp.s__StringConcatenateFn__m |"1"| tptp.s__SymbolicString) (tptp.s__domain tptp.s__StringConcatenateFn__m |"2"| tptp.s__SymbolicString) (tptp.s__range tptp.s__StringConcatenateFn__m tptp.s__SymbolicString) (tptp.s__documentation tptp.s__StringConcatenateFn__m tptp.s__EnglishLanguage |tptp.'The result of applying this &%Function to two &%SymbolicString arguments is a third &%SymbolicString that is the concatenation of the two arguments. Example: (&%equal "Charles Darwin" (&%StringConcatenateFn "Charles " "Darwin")).'|) (tptp.s__instance tptp.s__stringConcatenation__m tptp.s__TernaryPredicate) (tptp.s__instance tptp.s__stringConcatenation__m tptp.s__TotalValuedRelation) (tptp.s__instance tptp.s__stringConcatenation__m tptp.s__SingleValuedRelation) (tptp.s__domain tptp.s__stringConcatenation__m |"1"| tptp.s__SymbolicString) (tptp.s__domain tptp.s__stringConcatenation__m |"2"| tptp.s__SymbolicString) (tptp.s__domain tptp.s__stringConcatenation__m |"3"| tptp.s__SymbolicString) (tptp.s__documentation tptp.s__stringConcatenation__m tptp.s__EnglishLanguage |tptp.'(&%stringConcatenation ?&%SymbolicString-1 ?&%SymbolicString-2 ?&%SymbolicString-3) means that ?&%SymbolicString-3 can be formed by appending ?&%SymbolicString-1 and ?&%SymbolicString-2, in order. Example: (&%stringConcatenation "Charles " "Darwin" "Charles Darwin") is a &%True &%Sentence.'|) (forall ((V__S1 $$unsorted) (V__S3 $$unsorted) (V__S2 $$unsorted)) (=> (and (tptp.s__instance V__S2 tptp.s__SymbolicString) (tptp.s__instance V__S3 tptp.s__SymbolicString) (tptp.s__instance V__S1 tptp.s__SymbolicString)) (= (tptp.s__stringConcatenation V__S1 V__S1 V__S3) (= V__S3 (tptp.s__StringConcatenateFn V__S1 V__S2))))) (tptp.s__instance tptp.s__precedesInString__m tptp.s__TernaryPredicate) (tptp.s__domain tptp.s__precedesInString__m |"1"| tptp.s__SymbolicString) (tptp.s__domain tptp.s__precedesInString__m |"2"| tptp.s__SymbolicString) (tptp.s__domain tptp.s__precedesInString__m |"3"| tptp.s__SymbolicString) (tptp.s__documentation tptp.s__precedesInString__m tptp.s__EnglishLanguage |tptp.'(&%precedesInString ?&%SymbolicString-1 ?&%SymbolicString-2 ?&%SymbolicString-3) means that ?&%SymbolicString-1 and ?&%SymbolicString-2 are &%subStrings of ?&%SymbolicString-3, and ?&%SymbolicString-1 occurs sequentially before ?&%SymbolicString-2 in ?&%SymbolicString-3. Example: (&%precedesInString "Johann" "Bach" "Johann Sebastian Bach").'|) (tptp.s__subrelation tptp.s__stringConcatenation__m tptp.s__precedesInString__m) (forall ((V__S1 $$unsorted) (V__S3 $$unsorted) (V__S2 $$unsorted)) (=> (and (tptp.s__instance V__S2 tptp.s__SymbolicString) (tptp.s__instance V__S3 tptp.s__SymbolicString) (tptp.s__instance V__S1 tptp.s__SymbolicString)) (=> (tptp.s__precedesInString V__S1 V__S2 V__S3) (and (tptp.s__subString V__S1 V__S3) (tptp.s__subString V__S2 V__S3))))) (forall ((V__S1 $$unsorted) (V__S3 $$unsorted) (V__S2 $$unsorted) (V__S4 $$unsorted)) (=> (and (tptp.s__instance V__S4 tptp.s__SymbolicString) (tptp.s__instance V__S2 tptp.s__SymbolicString) (tptp.s__instance V__S3 tptp.s__SymbolicString) (tptp.s__instance V__S1 tptp.s__SymbolicString)) (=> (and (tptp.s__precedesInString V__S1 V__S2 V__S4) (tptp.s__precedesInString V__S2 V__S3 V__S4)) (tptp.s__precedesInString V__S1 V__S3 V__S4)))) (tptp.s__subclass tptp.s__Descriptor tptp.s__ContentBearingObject) (tptp.s__subclass tptp.s__Name tptp.s__Descriptor) (tptp.s__instance tptp.s__Name__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Descriptor__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Name tptp.s__EnglishLanguage |tptp.'&%Name denotes the &%Class of &%ContentBearingObjects that identify an &%Entity, typically in some linguistic form such as an epithet, given name, street address, etc.'|) (tptp.s__subclass tptp.s__Identifier tptp.s__Name) (tptp.s__instance tptp.s__Identifier__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Identifier tptp.s__EnglishLanguage |tptp.'&%Identifier is the &%Class of &%ContentBearingObjects that identify some entity, such as a bank account, a person, or a location (e.g., as identified by a specific street address or GPS coordinates), perhaps uniquely under some circumstances.'|) (tptp.s__subclass tptp.s__PlaceDescriptor tptp.s__Descriptor) (tptp.s__subclass tptp.s__DescriptorPart tptp.s__ContentBearingObject) (tptp.s__instance tptp.s__DescriptorPart__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__NamePart tptp.s__DescriptorPart) (tptp.s__instance tptp.s__NamePart__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__IdentifierPart tptp.s__NamePart) (tptp.s__instance tptp.s__IdentifierPart__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__PlaceID tptp.s__PlaceDescriptor) (tptp.s__instance tptp.s__PlaceID__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__PlaceDescriptor__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__LocalizablePlaceID tptp.s__PlaceID) (tptp.s__instance tptp.s__LocalizablePlaceID__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__PlaceAddress tptp.s__PlaceID) (tptp.s__subclass tptp.s__ContactSite tptp.s__Object) (tptp.s__documentation tptp.s__ContactSite tptp.s__EnglishLanguage |tptp.'A &%ContactSite is an &%Object, typically a &%Place or a &%Residence or a &%CommunicationDevice such as a &%Telephone, that has some kind of address identifier and can serve as a point of contact for a &%Human or &%Organization.'|) (tptp.s__subclass tptp.s__TelephonyDevice tptp.s__ContactSite) (tptp.s__instance tptp.s__TelephonyDevice__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__ContactSite__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__TelephonyDevice tptp.s__CommunicationDevice) (tptp.s__subclass tptp.s__TelephonyDevice tptp.s__ElectricDevice) (tptp.s__instance tptp.s__ElectricDevice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TelephonyDevice tptp.s__EnglishLanguage |tptp.'A &%TelephonyDevice is a &%CommunicationDevice that, when connected to a &%TelephoneSystem, functions as an access point allowing end users (&%Humans or other &%Agents, such as autonomous/scheduled &%ComputerPrograms) to send or receive signals via the system. &%Telephones and &%FaxMachines are &%TelephonyDevices. A given &%Computer may or may not function as a &%TelephonyDevice, depending on the &%ComputerPrograms it runs and the &%ComputerComponents that are part of it.'|) (tptp.s__subclass tptp.s__Telephone tptp.s__TelephonyDevice) (tptp.s__instance tptp.s__canonicalPlaceName__m tptp.s__TernaryPredicate) (tptp.s__documentation tptp.s__canonicalPlaceName__m tptp.s__EnglishLanguage |tptp.'(&%canonicalPlaceName ?PLACE ?LANG ?STRING) means that in the &%Language ?LANG, the &%SymbolicString ?STRING is a canonical name for the &%GeographicArea ?PLACE'|) (tptp.s__domain tptp.s__canonicalPlaceName__m |"1"| tptp.s__Region) (tptp.s__domain tptp.s__canonicalPlaceName__m |"2"| tptp.s__Language) (tptp.s__domain tptp.s__canonicalPlaceName__m |"3"| tptp.s__SymbolicString) (forall ((V__LANG $$unsorted) (V__PLACE $$unsorted) (V__STR $$unsorted)) (=> (and (tptp.s__instance V__STR tptp.s__SymbolicString) (tptp.s__instance V__PLACE tptp.s__Region) (tptp.s__instance V__LANG tptp.s__Language)) (=> (tptp.s__canonicalPlaceName V__PLACE V__LANG V__STR) (tptp.s__names V__STR V__PLACE)))) (tptp.s__subclass tptp.s__PostalPlace tptp.s__StationaryArtifact) (tptp.s__subclass tptp.s__PostalPlace tptp.s__LocalizablePlace) (tptp.s__subclass tptp.s__PostalPlace tptp.s__ContactSite) (tptp.s__documentation tptp.s__PostalPlace tptp.s__EnglishLanguage |tptp.'A &%PostalPlace is any &%LocalizablePlace that can have a postal address, and to which hardcopy mail (letters, packages, etc.) can be delivered.'|) (tptp.s__subclass tptp.s__MilitaryInstallation tptp.s__PostalPlace) (tptp.s__instance tptp.s__MilitaryInstallation__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Residence tptp.s__PostalPlace) (tptp.s__instance tptp.s__PostalPlace__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__PlaceOfCommerce tptp.s__PostalPlace) (tptp.s__instance tptp.s__siteForContact__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__siteForContact__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__siteForContact__m |"1"| tptp.s__ContactSite) (tptp.s__domain tptp.s__siteForContact__m |"2"| tptp.s__Agent) (tptp.s__documentation tptp.s__siteForContact__m tptp.s__EnglishLanguage |tptp.'(&%siteForContact ?&%ContactSite ?&%Agent) means that the &%Human or &%Organization ?&%Agent can be reached at or via the point of contact ?&%ContactSite.'|) (tptp.s__instance tptp.s__postContactSite__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__postContactSite__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__postContactSite__m |"1"| tptp.s__PostalPlace) (tptp.s__domain tptp.s__postContactSite__m |"2"| tptp.s__Agent) (tptp.s__documentation tptp.s__postContactSite__m tptp.s__EnglishLanguage |tptp.'(&%postContactSite ?&%PostalPlace ?&%Agent) means that the &%Human or &%Organization ?&%Agent can be contacted by post (mail) at the location ?&%PostalPlace.'|) (tptp.s__subrelation tptp.s__postContactSite__m tptp.s__siteForContact__m) (tptp.s__instance tptp.s__unitNumber__m tptp.s__BinaryPredicate) (tptp.s__documentation tptp.s__unitNumber__m tptp.s__EnglishLanguage |tptp.'(&%unitNumber ?STR ?PLACE) means that ?STR represents the particular unit or space within the building that a &%PostalPlace is located'|) (tptp.s__domain tptp.s__unitNumber__m |"1"| tptp.s__SymbolicString) (tptp.s__domain tptp.s__unitNumber__m |"2"| tptp.s__PostalPlace) (tptp.s__instance tptp.s__floorCode__m tptp.s__BinaryPredicate) (tptp.s__documentation tptp.s__floorCode__m tptp.s__EnglishLanguage |tptp.'(&%floorCode ?STR ?PLACE) means that ?STR represents the &%BuildingLevel that a particular &%PostalPlace can be found at'|) (tptp.s__domain tptp.s__floorCode__m |"1"| tptp.s__SymbolicString) (tptp.s__domain tptp.s__floorCode__m |"2"| tptp.s__PostalPlace) (forall ((V__FLRCODE $$unsorted) (V__PLACE $$unsorted) (V__UNITSTR $$unsorted)) (=> (and (tptp.s__instance V__UNITSTR tptp.s__SymbolicString) (tptp.s__instance V__PLACE tptp.s__PostalPlace) (tptp.s__instance V__FLRCODE tptp.s__SymbolicString)) (=> (and (tptp.s__unitNumber V__UNITSTR V__PLACE) (tptp.s__floorCode V__FLRCODE V__PLACE)) (exists ((V__UNIT $$unsorted) (V__FLOOR $$unsorted)) (and (tptp.s__instance V__FLOOR tptp.s__Object) (tptp.s__instance V__UNIT tptp.s__Physical) (tptp.s__instance V__FLOOR tptp.s__BuildingLevel) (tptp.s__instance V__UNIT tptp.s__Room) (tptp.s__located V__UNIT V__FLOOR) (tptp.s__part V__FLOOR V__PLACE) (tptp.s__names V__UNITSTR V__UNIT) (tptp.s__names V__FLRCODE V__FLOOR)))))) (forall ((V__BLDG $$unsorted) (V__PLACE $$unsorted) (V__UNITSTR $$unsorted)) (=> (and (tptp.s__instance V__UNITSTR tptp.s__SymbolicString) (tptp.s__instance V__PLACE tptp.s__PostalPlace) (tptp.s__instance V__BLDG tptp.s__Object)) (=> (and (tptp.s__unitNumber V__UNITSTR V__PLACE) (not (exists ((V__FLR $$unsorted)) (and (tptp.s__instance V__FLR tptp.s__SymbolicString) (tptp.s__floorCode V__FLR V__PLACE))))) (exists ((V__UNIT $$unsorted)) (and (tptp.s__instance V__UNIT tptp.s__Physical) (tptp.s__instance V__UNIT tptp.s__Room) (tptp.s__names V__UNITSTR V__UNIT) (tptp.s__located V__UNIT V__BLDG)))))) (tptp.s__subclass tptp.s__Neighborhood tptp.s__GeographicArea) (tptp.s__instance tptp.s__Neighborhood__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Neighborhood tptp.s__EnglishLanguage |tptp.'&%Neighborhood refers to a &%GeographicArea that is a subregion of a larger geographic area, such as a &%City, normally with a distinctive feature'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Neighborhood tptp.neighborhood) (forall ((V__PLACE $$unsorted)) (=> (tptp.s__instance V__PLACE tptp.s__GeographicArea) (=> (tptp.s__instance V__PLACE tptp.s__Neighborhood) (exists ((V__AREA $$unsorted)) (and (tptp.s__instance V__AREA tptp.s__GeographicArea) (tptp.s__geographicSubregion V__PLACE V__AREA)))))) (tptp.s__instance tptp.s__postNeighborhood__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__postNeighborhood__m tptp.s__AsymmetricRelation) (tptp.s__subrelation tptp.s__postNeighborhood__m tptp.s__located__m) (tptp.s__documentation tptp.s__postNeighborhood__m tptp.s__EnglishLanguage |tptp.'(&%postNeighborhood ?PLACE ?NEIGHBORHOOD) means that ?PLACE is located in ?NEIGHBORHOOD'|) (tptp.s__domain tptp.s__postNeighborhood__m |"1"| tptp.s__PostalPlace) (tptp.s__domain tptp.s__postNeighborhood__m |"2"| tptp.s__Neighborhood) (forall ((V__GEO $$unsorted) (V__PLACE $$unsorted)) (= (and (tptp.s__located V__PLACE V__GEO) (tptp.s__instance V__PLACE tptp.s__PostalPlace) (tptp.s__instance V__GEO tptp.s__Neighborhood)) (tptp.s__postNeighborhood V__PLACE V__GEO))) (forall ((V__CITY $$unsorted) (V__NEIGHBORHOOD $$unsorted) (V__PLACE $$unsorted)) (=> (and (tptp.s__instance V__PLACE tptp.s__PostalPlace) (tptp.s__instance V__NEIGHBORHOOD tptp.s__Neighborhood)) (=> (and (tptp.s__postNeighborhood V__PLACE V__NEIGHBORHOOD) (tptp.s__geographicSubregion V__NEIGHBORHOOD V__CITY) (tptp.s__instance V__CITY tptp.s__City)) (tptp.s__postCity V__PLACE V__CITY)))) (forall ((V__NEIGHBORHOOD $$unsorted) (V__PLACE $$unsorted) (V__STATE $$unsorted)) (=> (and (tptp.s__instance V__PLACE tptp.s__PostalPlace) (tptp.s__instance V__NEIGHBORHOOD tptp.s__Neighborhood)) (=> (and (tptp.s__postNeighborhood V__PLACE V__NEIGHBORHOOD) (tptp.s__geographicSubregion V__NEIGHBORHOOD V__STATE) (tptp.s__instance V__STATE tptp.s__StateOrProvince)) (tptp.s__postDistrict V__PLACE V__STATE)))) (tptp.s__instance tptp.s__postCountry__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__postCountry__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__postCountry__m |"1"| tptp.s__PostalPlace) (tptp.s__domain tptp.s__postCountry__m |"2"| tptp.s__GeopoliticalArea) (tptp.s__subrelation tptp.s__postCountry__m tptp.s__located__m) (tptp.s__documentation tptp.s__postCountry__m tptp.s__EnglishLanguage |tptp.'(&%postCountry ?&%PostalPlace ?&%GeopoliticalArea) means that ?&%PostalPlace is located in the &%Nation or &%DependencyOrSpecialSovereigntyArea ?&%GeopoliticalArea.'|) (forall ((V__PLACE $$unsorted) (V__COUNTRY $$unsorted)) (=> (and (tptp.s__instance V__COUNTRY tptp.s__GeopoliticalArea) (tptp.s__instance V__PLACE tptp.s__PostalPlace)) (=> (tptp.s__postCountry V__PLACE V__COUNTRY) (or (tptp.s__instance V__COUNTRY tptp.s__Nation) (tptp.s__instance V__COUNTRY tptp.s__DependencyOrSpecialSovereigntyArea))))) (forall ((V__GEO $$unsorted) (V__PLACE $$unsorted)) (=> (tptp.s__instance V__GEO tptp.s__GeopoliticalArea) (= (and (tptp.s__located V__PLACE V__GEO) (tptp.s__instance V__PLACE tptp.s__PostalPlace) (or (tptp.s__instance V__GEO tptp.s__Nation) (tptp.s__instance V__GEO tptp.s__DependencyOrSpecialSovereigntyArea))) (tptp.s__postCountry V__PLACE V__GEO)))) (forall ((V__CITY $$unsorted) (V__PLACE $$unsorted) (V__AREA $$unsorted)) (=> (and (tptp.s__instance V__PLACE tptp.s__PostalPlace) (tptp.s__instance V__CITY tptp.s__City)) (=> (and (tptp.s__postCity V__PLACE V__CITY) (tptp.s__geographicSubregion V__CITY V__AREA) (tptp.s__instance V__AREA tptp.s__StateOrProvince)) (tptp.s__postDistrict V__PLACE V__AREA)))) (forall ((V__CITY $$unsorted) (V__PLACE $$unsorted) (V__AREA $$unsorted)) (=> (and (tptp.s__instance V__AREA tptp.s__GeopoliticalArea) (tptp.s__instance V__PLACE tptp.s__PostalPlace) (tptp.s__instance V__CITY tptp.s__City)) (=> (and (tptp.s__postCity V__PLACE V__CITY) (tptp.s__geographicSubregion V__CITY V__AREA) (or (tptp.s__instance V__AREA tptp.s__Nation) (tptp.s__instance V__AREA tptp.s__DependencyOrSpecialSovereigntyArea))) (tptp.s__postCountry V__PLACE V__AREA)))) (tptp.s__instance tptp.s__postDistrict__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__postDistrict__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__postDistrict__m |"1"| tptp.s__PostalPlace) (tptp.s__domain tptp.s__postDistrict__m |"2"| tptp.s__StateOrProvince) (tptp.s__subrelation tptp.s__postDistrict__m tptp.s__located__m) (tptp.s__documentation tptp.s__postDistrict__m tptp.s__EnglishLanguage |tptp.'(&%postDistrict ?&%PostalPlace ?&%StateOrProvince) means that ?&%PostalPlace is located in ?&%StateOrProvince.'|) (forall ((V__GEO $$unsorted) (V__PLACE $$unsorted)) (= (and (tptp.s__located V__PLACE V__GEO) (tptp.s__instance V__PLACE tptp.s__PostalPlace) (tptp.s__instance V__GEO tptp.s__StateOrProvince)) (tptp.s__postDistrict V__PLACE V__GEO))) (tptp.s__instance tptp.s__postCity__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__postCity__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__postCity__m |"1"| tptp.s__PostalPlace) (tptp.s__domain tptp.s__postCity__m |"2"| tptp.s__City) (tptp.s__subrelation tptp.s__postCity__m tptp.s__located__m) (tptp.s__documentation tptp.s__postCity__m tptp.s__EnglishLanguage |tptp.'(&%postCity ?&%PostalPlace ?&%City) means that ?&%PostalPlace is located in ?&%City.'|) (forall ((V__GEO $$unsorted) (V__PLACE $$unsorted)) (= (and (tptp.s__located V__PLACE V__GEO) (tptp.s__instance V__PLACE tptp.s__PostalPlace) (tptp.s__instance V__GEO tptp.s__City)) (tptp.s__postCity V__PLACE V__GEO))) (tptp.s__subclass tptp.s__PostcodeArea tptp.s__LocalizablePlace) (tptp.s__instance tptp.s__PostcodeArea__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PostcodeArea tptp.s__EnglishLanguage |tptp.'An &%instance of &%PostcodeArea is a &%LocalizablePlace that is identified by a &%Postcode.'|) (forall ((V__AREA $$unsorted)) (=> (tptp.s__instance V__AREA tptp.s__GeographicArea) (=> (tptp.s__instance V__AREA tptp.s__PostcodeArea) (exists ((V__GEO $$unsorted)) (and (tptp.s__instance V__GEO tptp.s__GeographicArea) (tptp.s__geographicSubregion V__AREA V__GEO)))))) (tptp.s__instance tptp.s__postPostcodeArea__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__postPostcodeArea__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__postPostcodeArea__m |"1"| tptp.s__PostalPlace) (tptp.s__domain tptp.s__postPostcodeArea__m |"2"| tptp.s__PostcodeArea) (tptp.s__subrelation tptp.s__postPostcodeArea__m tptp.s__located__m) (tptp.s__documentation tptp.s__postPostcodeArea__m tptp.s__EnglishLanguage |tptp.'(&%postPostcodeArea ?&%PostalPlace ?&%PostcodeArea) means that ?&%PostalPlace is located in ?&%PostcodeArea.'|) (forall ((V__PLACE $$unsorted) (V__AREA $$unsorted)) (= (and (tptp.s__located V__PLACE V__AREA) (tptp.s__instance V__PLACE tptp.s__PostalPlace) (tptp.s__instance V__AREA tptp.s__PostcodeArea)) (tptp.s__postPostcodeArea V__PLACE V__AREA))) (forall ((V__CITY $$unsorted) (V__PLACE $$unsorted) (V__AREA $$unsorted)) (=> (and (tptp.s__instance V__AREA tptp.s__PostcodeArea) (tptp.s__instance V__PLACE tptp.s__PostalPlace)) (=> (and (tptp.s__postPostcodeArea V__PLACE V__AREA) (tptp.s__geographicSubregion V__AREA V__CITY) (tptp.s__instance V__CITY tptp.s__City)) (tptp.s__postCity V__PLACE V__CITY)))) (forall ((V__GEO $$unsorted) (V__PLACE $$unsorted) (V__AREA $$unsorted)) (=> (and (tptp.s__instance V__AREA tptp.s__PostcodeArea) (tptp.s__instance V__PLACE tptp.s__PostalPlace)) (=> (and (tptp.s__postPostcodeArea V__PLACE V__AREA) (tptp.s__geographicSubregion V__AREA V__GEO) (tptp.s__instance V__GEO tptp.s__StateOrProvince)) (tptp.s__postDistrict V__PLACE V__GEO)))) (tptp.s__instance tptp.s__postStreet__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__postStreet__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__postStreet__m |"1"| tptp.s__PostalPlace) (tptp.s__domain tptp.s__postStreet__m |"2"| tptp.s__Roadway) (tptp.s__documentation tptp.s__postStreet__m tptp.s__EnglishLanguage |tptp.'(&%postStreet ?&%PostalPlace ?&%Roadway) means that ?&%PostalPlace is &%Adjacent to ?&%Roadway.'|) (forall ((V__POSTPLACE $$unsorted) (V__ROADWAY $$unsorted)) (=> (and (tptp.s__instance V__ROADWAY tptp.s__Roadway) (tptp.s__instance V__POSTPLACE tptp.s__PostalPlace)) (=> (tptp.s__postStreet V__POSTPLACE V__ROADWAY) (tptp.s__orientation V__POSTPLACE V__ROADWAY tptp.s__Adjacent)))) (tptp.s__instance tptp.s__postStreetNumber__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__postStreetNumber__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__postStreetNumber__m |"1"| tptp.s__SymbolicString) (tptp.s__domain tptp.s__postStreetNumber__m |"2"| tptp.s__PostalPlace) (tptp.s__documentation tptp.s__postStreetNumber__m tptp.s__EnglishLanguage |tptp.'(&%postStreetNumber ?&%SymbolicString ?&%PostalPlace) means that ?&%SymbolicString identifies the sub-city block or building level location of a ?&%PostalPlace. ?&%SymbolicString need not consist exclusively of &%DigitCharacters.'|) (tptp.s__instance tptp.s__postPostOfficeBox__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__postPostOfficeBox__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__postPostOfficeBox__m |"1"| tptp.s__SymbolicString) (tptp.s__domain tptp.s__postPostOfficeBox__m |"2"| tptp.s__PostalPlace) (tptp.s__documentation tptp.s__postPostOfficeBox__m tptp.s__EnglishLanguage |tptp.'(&%postPostOfficeBox ?&%SymbolicString ?&%PostalPlace) means that ?&%SymbolicString identifies the post office box of a ?&%PostalPlace. ?&%SymbolicString need not consist exclusively of &%DigitCharacters.'|) (tptp.s__subclass tptp.s__PostalAddressText tptp.s__PlaceAddress) (tptp.s__subclass tptp.s__PostalAddressText tptp.s__LocalizablePlaceID) (tptp.s__subclass tptp.s__PostalAddressText tptp.s__SymbolicString) (tptp.s__instance tptp.s__PostalAddressText__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__PostalAddressText tptp.s__LinguisticExpression) (tptp.s__instance tptp.s__postAddressText__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__postAddressText__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__postAddressText__m |"1"| tptp.s__PostalAddressText) (tptp.s__domain tptp.s__postAddressText__m |"2"| tptp.s__PostalPlace) (tptp.s__documentation tptp.s__postAddressText__m tptp.s__EnglishLanguage |tptp.'(&%postAddressText ?&%PostalAddressText ?&%PostalPlace) means that the &%ContactSite ?&%PostalPlace is identified by ?&%PostalAddressText.'|) (tptp.s__instance tptp.s__telecomContactDevice__m tptp.s__AsymmetricRelation) (tptp.s__instance tptp.s__telecomContactDevice__m tptp.s__BinaryPredicate) (tptp.s__domain tptp.s__telecomContactDevice__m |"1"| tptp.s__TelephonyDevice) (tptp.s__domain tptp.s__telecomContactDevice__m |"2"| tptp.s__Agent) (tptp.s__documentation tptp.s__telecomContactDevice__m tptp.s__EnglishLanguage |tptp.'(&%telecomContactDevice ?&%TelephonyDevice ?&%Agent) means that ?&%TelephonyDevice is a &%ContactSite for the &%Human or &%Organization ?&%Agent.'|) (tptp.s__subrelation tptp.s__telecomContactDevice__m tptp.s__siteForContact__m) (tptp.s__subclass tptp.s__VirtualPlaceID tptp.s__PlaceID) (tptp.s__subclass tptp.s__VirtualAddress tptp.s__PlaceAddress) (tptp.s__instance tptp.s__VirtualAddress__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__PlaceAddress__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__VirtualAddress tptp.s__VirtualPlaceID) (tptp.s__instance tptp.s__VirtualPlaceID__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__TelecomNumber tptp.s__VirtualAddress) (tptp.s__subclass tptp.s__TelecomNumber tptp.s__SymbolicString) (tptp.s__instance tptp.s__TelecomNumber__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__TelecomNumber tptp.s__ContactSite) (tptp.s__instance tptp.s__deviceTelecomNumber__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__deviceTelecomNumber__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__deviceTelecomNumber__m |"1"| tptp.s__TelecomNumber) (tptp.s__domain tptp.s__deviceTelecomNumber__m |"2"| tptp.s__TelephonyDevice) (tptp.s__documentation tptp.s__deviceTelecomNumber__m tptp.s__EnglishLanguage |tptp.'(&%deviceTelecomNumber ?&%TelecomNumber ?&%TelephonyDevice) means that ?&%TelephonyDevice is identified, and can be accessed, by ?&%TelecomNumber.'|) (tptp.s__instance tptp.s__telecomCoreNumber__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__telecomCoreNumber__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__telecomCoreNumber__m |"1"| tptp.s__SymbolicString) (tptp.s__domain tptp.s__telecomCoreNumber__m |"2"| tptp.s__TelecomNumber) (tptp.s__subrelation tptp.s__telecomCoreNumber__m tptp.s__subString__m) (tptp.s__documentation tptp.s__telecomCoreNumber__m tptp.s__EnglishLanguage |tptp.'(&%telecomCoreNumber ?&%SymbolicString ?&%TelecomNumber) means that ?&%SymbolicString is the &%part of a &%TelecomNumber that identifies an individual subscriber line, not including the area code and any possible extensions.'|) (tptp.s__instance tptp.s__telecomCountryCode__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__telecomCountryCode__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__telecomCountryCode__m |"1"| tptp.s__SymbolicString) (tptp.s__domain tptp.s__telecomCountryCode__m |"2"| tptp.s__TelecomNumber) (tptp.s__documentation tptp.s__telecomCountryCode__m tptp.s__EnglishLanguage |tptp.'(&%telecomCountryCode ?&%SymbolicString &%TelecomNumber) means that ?&%SymbolicString is the &%part of ?&%TelecomNumber that identifies the &%Nation in which the device identified by ?&%TelecomNumber is located (or registered). ?&%SymbolicString will be standard code conforming to, and assigned by, ITU-T Recommendation E.164.'|) (tptp.s__subrelation tptp.s__telecomCountryCode__m tptp.s__subString__m) (tptp.s__instance tptp.s__telecomAreaCode__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__telecomAreaCode__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__telecomAreaCode__m |"1"| tptp.s__SymbolicString) (tptp.s__domain tptp.s__telecomAreaCode__m |"2"| tptp.s__TelecomNumber) (tptp.s__documentation tptp.s__telecomAreaCode__m tptp.s__EnglishLanguage |tptp.'(&%telecomAreaCode ?&%SymbolicString &%TelecomNumber) means that ?&%SymbolicString is the &%part of ?&%TelecomNumber that follows the country code. ?&%SymbolicString may denote a &%GeographicArea in which the &%TelephonyDevice identified by ?&%TelecomNumber is located (registered), but it may also denote a call billing plan or status, as for 800 numbers in the North American Numbering Plan.'|) (tptp.s__subrelation tptp.s__telecomAreaCode__m tptp.s__subString__m) (tptp.s__instance tptp.s__telecomCode2__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__telecomCode2__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__telecomCode2__m |"1"| tptp.s__SymbolicString) (tptp.s__domain tptp.s__telecomCode2__m |"2"| tptp.s__TelecomNumber) (tptp.s__documentation tptp.s__telecomCode2__m tptp.s__EnglishLanguage |tptp.'(&%telecomCode2 ?&%SymbolicString ?&%TelecomNumber) means that ?&%SymbolicString is the second code (if there is one, such as a sub-area code) following the part of ?&%TelecomNumber denoted by &%telecomCountryCode.'|) (tptp.s__subrelation tptp.s__telecomCode2__m tptp.s__subString__m) (tptp.s__instance tptp.s__telecomExtension__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__telecomExtension__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__telecomExtension__m |"1"| tptp.s__SymbolicString) (tptp.s__domain tptp.s__telecomExtension__m |"2"| tptp.s__TelecomNumber) (tptp.s__documentation tptp.s__telecomExtension__m tptp.s__EnglishLanguage |tptp.'(&%telecomExtension ?&%SymbolicString ?&%TelecomNumber) means that ?&%SymbolicString is a &%part of ?&%TelecomNumber that identifies a &%TelephonyDevice within a group of such &%Devices, the members of which share a local subscriber line.'|) (forall ((V__CN $$unsorted) (V__WHOLE $$unsorted) (V__AC $$unsorted)) (=> (and (tptp.s__instance V__AC tptp.s__SymbolicString) (tptp.s__instance V__WHOLE tptp.s__TelecomNumber) (tptp.s__instance V__CN tptp.s__SymbolicString)) (=> (and (tptp.s__telecomCoreNumber V__CN V__WHOLE) (tptp.s__telecomAreaCode V__AC V__WHOLE)) (tptp.s__precedesInString V__AC V__CN V__WHOLE)))) (forall ((V__CN $$unsorted) (V__CC $$unsorted) (V__WHOLE $$unsorted)) (=> (and (tptp.s__instance V__WHOLE tptp.s__TelecomNumber) (tptp.s__instance V__CC tptp.s__SymbolicString) (tptp.s__instance V__CN tptp.s__SymbolicString)) (=> (and (tptp.s__telecomCoreNumber V__CN V__WHOLE) (tptp.s__telecomCountryCode V__CC V__WHOLE)) (tptp.s__precedesInString V__CC V__CN V__WHOLE)))) (forall ((V__CC $$unsorted) (V__WHOLE $$unsorted) (V__AC $$unsorted)) (=> (and (tptp.s__instance V__AC tptp.s__SymbolicString) (tptp.s__instance V__WHOLE tptp.s__TelecomNumber) (tptp.s__instance V__CC tptp.s__SymbolicString)) (=> (and (tptp.s__telecomAreaCode V__AC V__WHOLE) (tptp.s__telecomCountryCode V__CC V__WHOLE)) (tptp.s__precedesInString V__CC V__AC V__WHOLE)))) (forall ((V__CN $$unsorted) (V__EX $$unsorted) (V__WHOLE $$unsorted)) (=> (and (tptp.s__instance V__WHOLE tptp.s__TelecomNumber) (tptp.s__instance V__EX tptp.s__SymbolicString) (tptp.s__instance V__CN tptp.s__SymbolicString)) (=> (and (tptp.s__telecomCoreNumber V__CN V__WHOLE) (tptp.s__telecomExtension V__EX V__WHOLE)) (tptp.s__precedesInString V__CN V__EX V__WHOLE)))) (forall ((V__C2 $$unsorted) (V__WHOLE $$unsorted) (V__AC $$unsorted)) (=> (and (tptp.s__instance V__AC tptp.s__SymbolicString) (tptp.s__instance V__WHOLE tptp.s__TelecomNumber) (tptp.s__instance V__C2 tptp.s__SymbolicString)) (=> (and 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((V__NUMBER $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__NUMBER tptp.s__TelecomNumber)) (=> (tptp.s__telephoneNumber V__NUMBER V__AGENT) (tptp.s__siteForContact V__NUMBER V__AGENT)))) (tptp.s__instance tptp.s__personalPhoneNumber__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__personalPhoneNumber__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__personalPhoneNumber__m |"1"| tptp.s__TelecomNumber) (tptp.s__domain tptp.s__personalPhoneNumber__m |"2"| tptp.s__Human) (tptp.s__subrelation tptp.s__personalPhoneNumber__m tptp.s__telephoneNumber__m) (tptp.s__documentation tptp.s__personalPhoneNumber__m tptp.s__EnglishLanguage |tptp.'(&%personalPhoneNumber ?&%TelecomNumber ?&%Human) means that ?&%TelecomNumber identifies a &%Telephone at which ?&%Human can be contacted when not a work, or for purposes other than work.'|) (tptp.s__instance tptp.s__homePhoneNumber__m tptp.s__BinaryPredicate) (tptp.s__instance 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(tptp.s__instance tptp.s__mobilePhoneNumber__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__mobilePhoneNumber__m |"1"| tptp.s__TelecomNumber) (tptp.s__domain tptp.s__mobilePhoneNumber__m |"2"| tptp.s__Agent) (tptp.s__subrelation tptp.s__mobilePhoneNumber__m tptp.s__telephoneNumber__m) (tptp.s__documentation tptp.s__mobilePhoneNumber__m tptp.s__EnglishLanguage |tptp.'(&%mobilePhoneNumber ?&%TelecomNumber ?&%Agent) means that ?&%TelecomNumber identifies a &%MobileCellPhone at which ?&%Agent can be contacted.'|) (forall ((V__NUMBER $$unsorted) (V__TIME $$unsorted) (V__AGENT $$unsorted) (V__DEVICE $$unsorted)) (=> (and (tptp.s__instance V__DEVICE tptp.s__TelephonyDevice) (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__TIME tptp.s__TimePosition) (tptp.s__instance V__NUMBER tptp.s__TelecomNumber)) (=> (tptp.s__holdsDuring V__TIME |tptp.'(s__deviceTelecomNumber(V__NUMBER,V__DEVICE) & s__mobilePhoneNumber(V__NUMBER,V__AGENT))'|) (tptp.s__instance V__DEVICE tptp.s__MobileCellPhone)))) (tptp.s__instance tptp.s__faxNumber__m tptp.s__BinaryPredicate) (tptp.s__instance tptp.s__faxNumber__m tptp.s__AsymmetricRelation) (tptp.s__domain tptp.s__faxNumber__m |"1"| tptp.s__TelecomNumber) (tptp.s__domain tptp.s__faxNumber__m |"2"| tptp.s__Agent) (tptp.s__documentation tptp.s__faxNumber__m tptp.s__EnglishLanguage |tptp.'(&%faxNumber ?&%TelecomNumber ?&%Agent) means that ?&%TelecomNumber identifies a &%FaxMachine at which ?&%Agent can be contacted.'|) (forall ((V__NUMBER $$unsorted) (V__TIME $$unsorted) (V__AGENT $$unsorted) (V__DEVICE $$unsorted)) (=> (and (tptp.s__instance V__DEVICE tptp.s__TelephonyDevice) (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__TIME tptp.s__TimePosition) (tptp.s__instance V__NUMBER tptp.s__TelecomNumber)) (=> (tptp.s__holdsDuring V__TIME |tptp.'(s__deviceTelecomNumber(V__NUMBER,V__DEVICE) & s__faxNumber(V__NUMBER,V__AGENT))'|) (tptp.s__instance V__DEVICE tptp.s__FaxMachine)))) (tptp.s__subclass tptp.s__FabricIron tptp.s__Device) (tptp.s__instance tptp.s__FabricIron__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FabricIron tptp.s__EnglishLanguage |tptp.'&%FabricIron is a type of &%Device that has a flat metal base used to smooth cloth'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__FabricIron tptp.iron) (forall ((V__IRON $$unsorted)) (=> (tptp.s__instance V__IRON tptp.s__SelfConnectedObject) (=> (tptp.s__instance V__IRON tptp.s__FabricIron) (exists ((V__BASE $$unsorted) (V__METAL $$unsorted)) (and (tptp.s__subclass V__METAL tptp.s__Substance) (tptp.s__instance V__BASE tptp.s__CorpuscularObject) (tptp.s__bottom V__BASE V__IRON) (tptp.s__material V__METAL V__BASE) (tptp.s__instance V__METAL tptp.s__Metal) (tptp.s__attribute V__BASE tptp.s__Flat)))))) (tptp.s__subclass tptp.s__IroningBoard tptp.s__Device) (tptp.s__instance tptp.s__IroningBoard__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__IroningBoard tptp.s__EnglishLanguage |tptp.'&%IroningBoard is a type of &%Device consisting of a flat, padded board used as a surface for ironing'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__IroningBoard |tptp.'ironing board'|) (forall ((V__BOARD $$unsorted)) (=> (tptp.s__instance V__BOARD tptp.s__Object) (=> (tptp.s__instance V__BOARD tptp.s__IroningBoard) (tptp.s__hasPurpose V__BOARD |tptp.'(? 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[V__WATER,V__CREATION,V__MOTION] : (s__instance(V__MOTION,s__Physical) & s__instance(V__CREATION,s__Process) & s__instance(V__WATER,s__Object) & s__instance(V__VALVE,s__Object) & s__instance(V__WATER,s__Water) & s__located(V__WATER,V__TUB) & s__instance(V__CREATION,s__Creation) & s__instrument(V__CREATION,V__VALVE) & s__result(V__CREATION,V__MOTION) & s__instance(V__MOTION,s__Motion) & s__located(V__MOTION,V__WATER)))'|)))))) (tptp.s__subclass tptp.s__HotTub tptp.s__WhirlpoolTub) (tptp.s__instance tptp.s__HotTub__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__WhirlpoolTub__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__HotTub tptp.s__EnglishLanguage |tptp.'&%HotTub refers to a &%WhirlpoolTub that is capable of heating the water located in it'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__HotTub |tptp.'hot tub'|) (forall ((V__X $$unsorted) (V__WATER $$unsorted)) (=> (and (tptp.s__instance V__WATER tptp.s__Physical) (tptp.s__instance V__X tptp.s__Object)) (=> (and (tptp.s__instance V__X tptp.s__HotTub) (tptp.s__located V__WATER V__X) (tptp.s__instance V__WATER tptp.s__Water)) (tptp.s__modalAttribute |tptp.'(? [V__HEAT] : (s__instance(V__HEAT,s__Process) & s__instance(V__HEAT,s__Heating) & s__instrument(V__HEAT,V__X) & s__patient(V__HEAT,V__WATER)))'| tptp.s__Possibility)))) (tptp.s__subclass tptp.s__SizeAttribute tptp.s__RelationalAttribute) (tptp.s__documentation tptp.s__SizeAttribute tptp.s__EnglishLanguage |tptp.'&%SizeAttribute refers to attributes that pertain to the &%measure of some &%Object'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__SizeAttribute |tptp.'size attribute'|) (forall ((V__ATTR $$unsorted) (V__X $$unsorted)) (=> (tptp.s__instance V__ATTR tptp.s__Attribute) (=> (and (tptp.s__attribute V__X V__ATTR) (tptp.s__instance V__ATTR tptp.s__SizeAttribute)) (tptp.s__instance V__X tptp.s__Object)))) (tptp.s__instance tptp.s__DoubleSize tptp.s__SizeAttribute) (tptp.s__instance tptp.s__SizeAttribute__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__DoubleSize tptp.s__EnglishLanguage |tptp.'&%DoubleSize refers to how an &%Object can fit 2 of its target users at the same time'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__DoubleSize |tptp.'double size'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (and (tptp.s__instance V__X tptp.s__WhirlpoolTub) (tptp.s__attribute V__X tptp.s__DoubleSize)) (tptp.s__modalAttribute |tptp.'(? [V__T1] : s__holdsDuring(V__T1,(? [V__P1,V__P2] : (s__instance(V__P2,s__Physical) & s__instance(V__P1,s__Physical) & s__instance(V__T1,s__TimePosition) & s__instance(V__P1,s__Human) & s__instance(V__P2,s__Human) & (~ (V__P1 = V__P2)) & s__located(V__P1,V__X) & s__located(V__P2,V__X)))))'| tptp.s__Possibility)))) (tptp.s__subclass tptp.s__Kennel tptp.s__TrapOrCage) (tptp.s__instance tptp.s__Kennel__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Kennel tptp.s__EnglishLanguage |tptp.'&%Kennel is a &%TrapOrCage where a &%DomesticAnimal is &%Confining by its owner'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Kennel tptp.kennel) (forall ((V__KENNEL $$unsorted)) (=> (tptp.s__instance V__KENNEL tptp.s__Object) (=> (tptp.s__instance V__KENNEL tptp.s__Kennel) (tptp.s__hasPurpose V__KENNEL |tptp.'(? [V__ANIMAL,V__CONFINING] : (s__instance(V__CONFINING,s__Process) & s__instance(V__ANIMAL,s__DomesticAnimal) & s__instance(V__CONFINING,s__Confining) & s__patient(V__CONFINING,V__ANIMAL) & s__eventLocated(V__CONFINING,V__KENNEL)))'|)))) (tptp.s__subclass tptp.s__DryingDevice tptp.s__Device) (tptp.s__documentation tptp.s__DryingDevice tptp.s__EnglishLanguage |tptp.'&%DryingDevice refers to any &%Device used as an instrument in the &%Drying process'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__DryingDevice |tptp.'drying device'|) (forall ((V__D $$unsorted)) (=> (tptp.s__instance V__D tptp.s__Object) (=> (tptp.s__instance V__D tptp.s__DryingDevice) (tptp.s__hasPurpose V__D |tptp.'(? [V__DRYING] : (s__instance(V__DRYING,s__Process) & s__instance(V__DRYING,s__Drying) & s__instrument(V__DRYING,V__D)))'|)))) (tptp.s__subclass tptp.s__ClothesDryer tptp.s__DryingDevice) (tptp.s__instance tptp.s__ClothesDryer__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__DryingDevice__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__ClothesWashingMachine tptp.s__WashingDevice) (tptp.s__instance tptp.s__WashingDevice__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__HairDryer tptp.s__DryingDevice) (tptp.s__instance tptp.s__HairDryer__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__HairDryer tptp.s__ElectricDevice) (tptp.s__documentation tptp.s__HairDryer tptp.s__EnglishLanguage |tptp.'&%HairDryer is a type of &%DryingDevice used specifically for &%Drying &%Hair'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__HairDryer |tptp.'hair dryer'|) (forall ((V__HD $$unsorted)) (=> (tptp.s__instance V__HD tptp.s__Object) (=> (tptp.s__instance V__HD tptp.s__HairDryer) (tptp.s__hasPurpose V__HD |tptp.'(? [V__HAIR,V__DRYING] : (s__instance(V__DRYING,s__Process) & s__instance(V__HAIR,s__Hair) & s__instance(V__DRYING,s__Drying) & s__patient(V__DRYING,V__HAIR) & s__instrument(V__DRYING,V__HD)))'|)))) (tptp.s__subclass tptp.s__SelfServiceLaundry tptp.s__Room) (tptp.s__instance tptp.s__SelfServiceLaundry__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SelfServiceLaundry tptp.s__EnglishLanguage |tptp.'&%SelfServiceLaundry is a &%Room where a collection of coin-operatend washing machines and dryers are available for customers'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__SelfServiceLaundry |tptp.'self-service laundry'|) (forall ((V__ROOM $$unsorted)) (=> (tptp.s__instance V__ROOM tptp.s__Object) (=> (tptp.s__instance V__ROOM tptp.s__SelfServiceLaundry) (exists ((V__WASHER $$unsorted) (V__DRYER $$unsorted)) (and (tptp.s__instance V__WASHER tptp.s__Collection) (tptp.s__memberType V__WASHER tptp.s__ClothesWashingMachine) (tptp.s__located V__WASHER V__ROOM) (tptp.s__instance V__DRYER tptp.s__Collection) (tptp.s__memberType V__DRYER tptp.s__ClothesDryer) (tptp.s__located V__DRYER V__ROOM)))))) (forall ((V__ROOM $$unsorted)) (=> (tptp.s__instance V__ROOM tptp.s__Object) (=> (tptp.s__instance V__ROOM tptp.s__SelfServiceLaundry) (tptp.s__attribute V__ROOM tptp.s__CommunalAttribute)))) (tptp.s__subclass tptp.s__Microwave tptp.s__ElectricDevice) (tptp.s__instance tptp.s__Microwave__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Microwave tptp.s__EnglishLanguage |tptp.'&%Microwave is an &%ElectricDevice that heats food by passing an electromagnetic wave through it'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Microwave tptp.microwave) (forall ((V__M $$unsorted)) (=> (tptp.s__instance V__M tptp.s__Object) (=> (tptp.s__instance V__M tptp.s__Microwave) (tptp.s__hasPurpose V__M |tptp.'(? [V__FOOD,V__HEATING] : (s__instance(V__HEATING,s__Process) & s__instance(V__FOOD,s__PreparedFood) & s__instance(V__HEATING,s__Heating) & s__instrument(V__HEATING,V__M) & s__patient(V__HEATING,V__FOOD)))'|)))) (forall ((V__M $$unsorted)) (=> (tptp.s__instance V__M tptp.s__Object) (=> (and (tptp.s__instance V__M tptp.s__Microwave) (tptp.s__attribute V__M tptp.s__DeviceOn)) (exists ((V__PROC $$unsorted)) (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__PROC tptp.s__RadiatingElectromagnetic) (tptp.s__instrument V__PROC V__M)))))) (tptp.s__subclass tptp.s__SmokeDetector tptp.s__Device) (tptp.s__instance tptp.s__SmokeDetector__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SmokeDetector tptp.s__EnglishLanguage |tptp.'&%SmokeDetector is a &%Device that is able to &%Discovering the presence of &%Smoke'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__SmokeDetector |tptp.'smoke detector'|) (forall ((V__D $$unsorted)) (=> (tptp.s__instance V__D tptp.s__Object) (=> (tptp.s__instance V__D tptp.s__SmokeDetector) (tptp.s__hasPurpose V__D |tptp.'(? [V__DISCOVER,V__SMOKE] : (s__instance(V__DISCOVER,s__Process) & s__instance(V__DISCOVER,s__Discovering) & s__instrument(V__DISCOVER,V__D) & s__patient(V__DISCOVER,V__SMOKE) & s__instance(V__SMOKE,s__Smoke)))'|)))) (tptp.s__subclass tptp.s__Sprinkler tptp.s__Device) (tptp.s__instance tptp.s__Sprinkler__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sprinkler tptp.s__EnglishLanguage |tptp.'&%Sprinkler is a type of &%Device that loosely distributes a substance, either solid (e.g. Salt or herbs) or liquid (e.g. water sprinkler)'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Sprinkler tptp.sprinkler) (tptp.s__subclass tptp.s__WaterSprinkler tptp.s__Sprinkler) (tptp.s__instance tptp.s__WaterSprinkler__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__WaterSprinkler tptp.s__EnglishLanguage |tptp.'&%WaterSprinkler is a type of &%Sprinkler that releases &%Water'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__WaterSprinkler |tptp.'water sprinkler'|) (forall ((V__W $$unsorted)) (=> (tptp.s__instance V__W tptp.s__Object) (=> (tptp.s__instance V__W tptp.s__WaterSprinkler) (tptp.s__hasPurpose V__W |tptp.'(? [V__WM] : (s__instance(V__WM,s__Process) & s__instance(V__WM,s__WaterMotion) & s__origin(V__WM,V__W)))'|)))) (tptp.s__subclass tptp.s__FireSprinklerSystem tptp.s__Collection) (tptp.s__instance tptp.s__FireSprinklerSystem__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__FireSprinklerSystem tptp.s__EnglishLanguage |tptp.'&%FireSprinklerSystem is a &%Collection of &%Devices that allow water to be released when a &%Fire is detected'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__FireSprinklerSystem |tptp.'sprinkler system'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Collection) (=> (tptp.s__instance V__X tptp.s__FireSprinklerSystem) (exists ((V__DETECT $$unsorted) (V__SPRINKLER $$unsorted)) (and (tptp.s__instance V__SPRINKLER tptp.s__SelfConnectedObject) (tptp.s__instance V__DETECT tptp.s__SelfConnectedObject) (tptp.s__instance V__DETECT tptp.s__SmokeDetector) (tptp.s__instance V__SPRINKLER tptp.s__WaterSprinkler) (tptp.s__member V__DETECT V__X) (tptp.s__member V__SPRINKLER V__X)))))) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__FireSprinklerSystem) (exists ((V__FIRE $$unsorted) (V__DISCOVER $$unsorted) (V__WM $$unsorted)) (and (tptp.s__instance V__WM tptp.s__Process) (tptp.s__instance V__DISCOVER tptp.s__Process) (tptp.s__instance V__DISCOVER tptp.s__Discovering) (tptp.s__instance V__FIRE tptp.s__Fire) (tptp.s__instrument V__DISCOVER V__X) (tptp.s__patient V__DISCOVER V__FIRE) (tptp.s__instance V__WM tptp.s__WaterMotion) (tptp.s__origin V__WM V__X) (tptp.s__causes V__DISCOVER V__WM)))))) (tptp.s__subclass tptp.s__IceMachine tptp.s__Machine) (tptp.s__instance tptp.s__IceMachine__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__IceMachine tptp.s__EnglishLanguage |tptp.'&%IceMachine is a type of &%Machine that produces &%Ice'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__IceMachine |tptp.'ice machine'|) (forall ((V__IM $$unsorted)) (=> (tptp.s__instance V__IM tptp.s__Object) (=> (tptp.s__instance V__IM tptp.s__IceMachine) (tptp.s__hasPurpose V__IM |tptp.'(? [V__PROC,V__ICE] : (s__instance(V__PROC,s__Process) & s__instrument(V__PROC,V__IM) & s__result(V__PROC,V__ICE) & s__instance(V__ICE,s__Ice)))'|)))) (tptp.s__subclass tptp.s__AlarmClock tptp.s__Clock) (tptp.s__instance tptp.s__AlarmClock__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AlarmClock tptp.s__EnglishLanguage |tptp.'&%AlarmClock is a type of &%Clock that will radiate sound when a certain time is set'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__AlarmClock |tptp.'alarm clock'|) (forall ((V__AC $$unsorted)) (=> (tptp.s__instance V__AC tptp.s__Agent) (=> (tptp.s__instance V__AC tptp.s__AlarmClock) (tptp.s__hasPurpose V__AC |tptp.'(? [V__TIME,V__M,V__Q] : (s__instance(V__M,s__Measuring) & s__agent(V__M,V__AC) & s__result(V__M,V__Q) & (V__Q = V__TIME) & s__holdsDuring(s__WhenFn(V__M),(? [V__S] : (s__instance(V__S,s__Process) & s__instance(V__M,s__Process) & s__instance(V__S,s__RadiatingSound) & s__agent(V__S,V__AC))))))'|)))) (tptp.s__subclass tptp.s__AMFMAlarmClock tptp.s__AlarmClock) (tptp.s__instance tptp.s__AMFMAlarmClock__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__AMFMAlarmClock tptp.s__RadioReceiver) (tptp.s__documentation tptp.s__AMFMAlarmClock tptp.s__EnglishLanguage |tptp.'&%AMFMAlarmClock is a type of &%AlarmClock that is also a &%RadioReceiver, meaning it can get &%RadioBroadcast from &%RadioStation'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__AMFMAlarmClock |tptp.'am / fm alarm clock'|) (tptp.s__subclass tptp.s__ElectricCoffeeMaker tptp.s__ElectricDevice) (tptp.s__instance tptp.s__ElectricCoffeeMaker__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ElectricCoffeeMaker tptp.s__EnglishLanguage |tptp.'&%ElectricCoffeeMaker is a &%Device that makes &%Coffee'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__ElectricCoffeeMaker |tptp.'coffee maker'|) (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Object) (=> (tptp.s__instance V__C tptp.s__ElectricCoffeeMaker) (tptp.s__hasPurpose V__C |tptp.'(? [V__COFFEE,V__M] : (s__instance(V__M,s__Process) & s__instance(V__M,s__Making) & s__instrument(V__M,V__C) & s__result(V__M,V__COFFEE) & s__instance(V__COFFEE,s__Coffee)))'|)))) (tptp.s__instance tptp.s__Clean tptp.s__SubjectiveAssessmentAttribute) (tptp.s__documentation tptp.s__Clean tptp.s__EnglishLanguage |tptp.'&%Clean describes how something is free from dirt or impurities'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Clean tptp.clean) (tptp.s__instance tptp.s__Dirty tptp.s__SubjectiveAssessmentAttribute) (tptp.s__documentation tptp.s__Dirty tptp.s__EnglishLanguage |tptp.'&%Dirty describes how something has been soiled with dirt, dust or grime'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Dirty tptp.dirty) (forall ((V__X $$unsorted)) (=> (tptp.s__attribute V__X tptp.s__Clean) (tptp.s__instance V__X tptp.s__Object))) (forall ((V__X $$unsorted)) (=> (tptp.s__attribute V__X tptp.s__Dirty) (tptp.s__instance V__X tptp.s__Object))) (tptp.s__contraryAttribute_2 tptp.s__Dirty tptp.s__Clean) (tptp.s__subclass tptp.s__DataStorageDevice tptp.s__Device) (tptp.s__documentation tptp.s__DataStorageDevice tptp.s__EnglishLanguage |tptp.'An &%instance of &%DataStorageDevice is a &%Device intended to be used for storing data (information).'|) (tptp.s__subclass tptp.s__Whiteboard tptp.s__DataStorageDevice) (tptp.s__instance tptp.s__Whiteboard__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__DataStorageDevice__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__Whiteboard tptp.s__DisplayArtifact) (tptp.s__documentation tptp.s__Whiteboard tptp.s__EnglishLanguage |tptp.'%&Whiteboard refers to flat surface where information can be encoded using erasable pens. This baord is normally colored White'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Whiteboard tptp.whiteboard) (forall ((V__OBJ $$unsorted)) (=> (tptp.s__instance V__OBJ tptp.s__Object) (=> (tptp.s__instance V__OBJ tptp.s__Whiteboard) (tptp.s__color V__OBJ tptp.s__White)))) (forall ((V__OBJ $$unsorted)) (=> (tptp.s__instance V__OBJ tptp.s__Object) (=> (tptp.s__instance V__OBJ tptp.s__Whiteboard) (tptp.s__structure V__OBJ tptp.s__Flat)))) (forall ((V__OBJ $$unsorted)) (=> (tptp.s__instance V__OBJ tptp.s__Physical) (=> (tptp.s__instance V__OBJ tptp.s__Whiteboard) (tptp.s__hasPurpose V__OBJ |tptp.'(? [V__WRITE] : (s__instance(V__WRITE,s__Process) & s__instance(V__WRITE,s__Writing) & s__destination(V__WRITE,V__OBJ)))'|)))) (tptp.s__subclass tptp.s__Steam tptp.s__Water) (tptp.s__instance tptp.s__Steam__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Steam tptp.s__EnglishLanguage |tptp.'&%Steam refers to the &%Gas form of &%Water that is a result of &%Boiling it and diffusing it into the air'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Steam tptp.steam) (forall ((V__STEAM $$unsorted)) (=> (tptp.s__instance V__STEAM tptp.s__Object) (=> (tptp.s__instance V__STEAM tptp.s__Steam) (exists ((V__BOIL $$unsorted) (V__WATER $$unsorted)) (and (tptp.s__instance V__BOIL tptp.s__Process) (tptp.s__instance V__BOIL tptp.s__Boiling) (tptp.s__instance V__WATER tptp.s__Water) (tptp.s__patient V__BOIL V__WATER) (tptp.s__result V__BOIL V__STEAM) (tptp.s__attribute V__STEAM tptp.s__Gas)))))) (tptp.s__subclass tptp.s__WaterHeater tptp.s__HeatingDevice) (tptp.s__instance tptp.s__WaterHeater__t tptp.s__SetOrClass) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__WaterHeater) (tptp.s__hasPurpose V__X |tptp.'(? [V__HEAT,V__WATER] : (s__instance(V__HEAT,s__Process) & s__instance(V__HEAT,s__Heating) & s__instance(V__WATER,s__Water) & s__patient(V__HEAT,V__WATER) & s__instrument(V__HEAT,V__X)))'|)))) (tptp.s__domain tptp.s__airTemperature__m |"1"| tptp.s__Object) (tptp.s__domain tptp.s__airTemperature__m |"2"| tptp.s__TemperatureMeasure) (tptp.s__subrelation tptp.s__airTemperature__m tptp.s__measure__m) (tptp.s__documentation tptp.s__airTemperature__m tptp.s__EnglishLanguage |tptp.'(&%airTemperature ?AREA ?TEMP) means that the temperature of the air at ?AREA is ?TEMP. Temperature may be expressed in units of &%TemperatureMeasure, including &%CelsiusDegree and &%FahrenheitDegree, among others.'|) (tptp.s__subclass tptp.s__TemperatureAttribute tptp.s__SubjectiveAssessmentAttribute) (tptp.s__instance tptp.s__TemperatureAttribute__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TemperatureAttribute tptp.s__EnglishLanguage |tptp.'&%TemperatureAttribute is an attribute that describes the temperature of a certain object'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__TemperatureAttribute |tptp.'temperature attribute'|) (forall ((V__X $$unsorted) (V__Y $$unsorted)) (=> (tptp.s__instance V__Y tptp.s__Attribute) (=> (and (tptp.s__attribute V__X V__Y) (tptp.s__instance V__Y tptp.s__TemperatureAttribute) (tptp.s__instance V__X tptp.s__Object)) (exists ((V__TEMP $$unsorted)) (and (tptp.s__instance V__TEMP tptp.s__PhysicalQuantity) (tptp.s__instance V__TEMP tptp.s__Object) (tptp.s__measure V__X V__TEMP) (tptp.s__instance V__TEMP tptp.s__TemperatureMeasure) (tptp.s__attribute V__TEMP V__Y)))))) (tptp.s__instance tptp.s__ColdTemperature tptp.s__TemperatureAttribute) (tptp.s__documentation tptp.s__ColdTemperature tptp.s__EnglishLanguage |tptp.'&%ColdTemperature is a type of &%TemperatureAttribute that has a low or inadequate temperature'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__ColdTemperature tptp.cold) (tptp.s__successorAttributeClosure tptp.s__ColdTemperature tptp.s__HotTemperature) (tptp.s__instance tptp.s__CoolTemperature tptp.s__TemperatureAttribute) (tptp.s__documentation tptp.s__CoolTemperature tptp.s__EnglishLanguage |tptp.'&%CoolTemperature describes how there is some relief from heat but not very cold, is between cold and warm'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__CoolTemperature tptp.cool) (tptp.s__successorAttribute tptp.s__ColdTemperature tptp.s__CoolTemperature) (tptp.s__instance tptp.s__WarmTemperature tptp.s__TemperatureAttribute) (tptp.s__documentation tptp.s__WarmTemperature tptp.s__EnglishLanguage |tptp.'&%WarmTemperature describes how there is a comfortable or agreeable degree of heat'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__WarmTemperature tptp.warm) (tptp.s__successorAttribute tptp.s__CoolTemperature tptp.s__WarmTemperature) (tptp.s__instance tptp.s__HotTemperature tptp.s__TemperatureAttribute) (tptp.s__documentation tptp.s__HotTemperature tptp.s__EnglishLanguage |tptp.'&%HotTemperature describes how something has a high temperature'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__HotTemperature tptp.hot) (tptp.s__successorAttribute tptp.s__WarmTemperature tptp.s__HotTemperature) (forall ((V__CLASS $$unsorted) (V__X $$unsorted) (V__Y $$unsorted)) (=> (and (tptp.s__instance V__Y tptp.s__Object) (tptp.s__instance V__X tptp.s__Object) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (and (tptp.s__immediateInstance V__X V__CLASS) (tptp.s__immediateInstance V__Y V__CLASS) (tptp.s__attribute V__X tptp.s__ColdTemperature) (tptp.s__attribute V__Y tptp.s__HotTemperature)) (exists ((V__TEMPX $$unsorted) (V__TEMPY $$unsorted)) (and (tptp.s__instance V__TEMPY tptp.s__PhysicalQuantity) (tptp.s__instance V__TEMPX tptp.s__PhysicalQuantity) (tptp.s__measure V__X V__TEMPX) (tptp.s__instance V__TEMPX tptp.s__TemperatureMeasure) (tptp.s__measure V__Y V__TEMPY) (tptp.s__instance V__TEMPY tptp.s__TemperatureMeasure) (tptp.greater V__TEMPY V__TEMPX)))))) (tptp.s__instance tptp.s__Multilingual tptp.s__RelationalAttribute) (tptp.s__documentation tptp.s__Multilingual tptp.s__EnglishLanguage |tptp.'&%Multilingual describes a person who is able to speak more than one language fluently'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Multilingual tptp.multilingual) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__attribute V__X tptp.s__Multilingual) (tptp.s__instance V__X tptp.s__Human)))) (forall ((V__SPEAK $$unsorted) (V__X $$unsorted)) (=> (and (tptp.s__instance V__X tptp.s__Agent) (tptp.s__instance V__SPEAK tptp.s__Process)) (=> (and (tptp.s__attribute V__X tptp.s__Multilingual) (tptp.s__instance V__SPEAK tptp.s__Speaking) (tptp.s__agent V__SPEAK V__X)) (tptp.s__modalAttribute |tptp.'(? [V__LANG1,V__LANG2] : (s__instance(V__LANG1,s__SpokenHumanLanguage) & s__instance(V__LANG2,s__SpokenHumanLanguage) & (~ (V__LANG1 = V__LANG2)) & (s__patient(V__SPEAK,V__LANG1) _ s__patient(V__SPEAK,V__LANG2))))'| tptp.s__Possibility)))) (tptp.s__subclass tptp.s__RecreationalVehicle tptp.s__Vehicle) (tptp.s__subclass tptp.s__RecreationalVehicle tptp.s__MobileResidence) (tptp.s__instance tptp.s__RecreationalVehicle__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__RecreationalVehicle tptp.s__EnglishLanguage |tptp.'A &%RecreationalVehicle is a type of motorized &%Vehicle that is used for camping or can serve as a &%Residence that is mobile'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__RecreationalVehicle tptp.rv) (forall ((V__RV $$unsorted)) (=> (tptp.s__instance V__RV tptp.s__Object) (=> (tptp.s__instance V__RV tptp.s__RecreationalVehicle) (tptp.s__modalAttribute |tptp.'(? [V__BED,V__DINING,V__KITCHEN] : (s__instance(V__KITCHEN,s__Physical) & s__instance(V__DINING,s__Physical) & s__instance(V__BED,s__Physical) & s__instance(V__BED,s__Bed) & s__instance(V__DINING,s__DiningArea) & s__instance(V__KITCHEN,s__KitchenArea) & s__located(V__BED,V__RV) & s__located(V__DINING,V__RV) & s__located(V__KITCHEN,V__RV)))'| tptp.s__Likely)))) (tptp.s__subclass tptp.s__ElectronicLock tptp.s__Lock) (tptp.s__instance tptp.s__ElectronicLock__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Lock__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ElectronicLock tptp.s__EnglishLanguage |tptp.'&%ElectronicLock is a type of &%Lock that depends on some &%ElectronicSignalling process to open'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__ElectronicLock |tptp.'electronic lock'|) (forall ((V__LOCK $$unsorted)) (=> (tptp.s__instance V__LOCK tptp.s__Object) (=> (tptp.s__instance V__LOCK tptp.s__ElectronicLock) (tptp.s__hasPurpose V__LOCK |tptp.'(? [V__ES,V__PROC] : (s__instance(V__PROC,s__Process) & s__instance(V__ES,s__Process) & s__instance(V__ES,s__ElectronicSignalling) & s__destination(V__ES,V__LOCK) & s__instance(V__PROC,s__Opening) & s__instrument(V__PROC,V__LOCK) & s__before(s__BeginFn(s__WhenFn(V__ES)),s__BeginFn(s__WhenFn(V__PROC)))))'|)))) (tptp.s__subclass tptp.s__RunningTrack tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__RunningTrack__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__RunningTrack tptp.s__LandTransitway) (tptp.s__documentation tptp.s__RunningTrack tptp.s__EnglishLanguage |tptp.'&%RunningTrack is a &%StationaryArtifact which serves as a path for people running'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__RunningTrack |tptp.'running track'|) (forall ((V__TRACK $$unsorted)) (=> (tptp.s__instance V__TRACK tptp.s__Object) (=> (tptp.s__instance V__TRACK tptp.s__RunningTrack) (tptp.s__hasPurpose V__TRACK |tptp.'(? [V__RUN,V__HUMAN] : (s__instance(V__HUMAN,s__Agent) & s__instance(V__RUN,s__Motion) & s__instance(V__HUMAN,s__Human) & s__instance(V__RUN,s__Running) & s__agent(V__RUN,V__HUMAN) & s__path(V__RUN,V__TRACK)))'|)))) (tptp.s__subclass tptp.s__KnockLight tptp.s__Device) (tptp.s__instance tptp.s__KnockLight__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__KnockLight tptp.s__EnglishLanguage |tptp.'&%KnockLight is a type of &%Device that flashes light when a door knock is made. It is used by the hearing impaired'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__KnockLight |tptp.'knock light'|) (forall ((V__DOOR $$unsorted) (V__ROOM $$unsorted) (V__KL $$unsorted)) (=> (and (tptp.s__instance V__KL tptp.s__Agent) (tptp.s__instance V__ROOM tptp.s__Object) (tptp.s__instance V__DOOR tptp.s__Agent)) (=> (and (tptp.s__instance V__KL tptp.s__KnockLight) (tptp.s__instance V__ROOM tptp.s__Room) (tptp.s__located V__KL V__ROOM) (tptp.s__instance V__DOOR tptp.s__Door) (tptp.s__part V__DOOR V__ROOM)) (tptp.s__hasPurpose V__KL |tptp.'(? [V__SOUND,V__LIGHT,V__IMPACT] : (s__instance(V__IMPACT,s__Process) & s__instance(V__LIGHT,s__Process) & s__instance(V__SOUND,s__Process) & s__instance(V__IMPACT,s__Impacting) & s__patient(V__IMPACT,V__DOOR) & s__causes(V__IMPACT,V__SOUND) & s__instance(V__SOUND,s__RadiatingSound) & s__agent(V__SOUND,V__DOOR) & s__causes(V__SOUND,V__LIGHT) & s__instance(V__LIGHT,s__RadiatingLight) & s__agent(V__LIGHT,V__KL)))'|)))) (tptp.s__subclass tptp.s__PrayerMat tptp.s__Rug) (tptp.s__instance tptp.s__PrayerMat__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Rug__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PrayerMat tptp.s__EnglishLanguage |tptp.'&%PrayerMat is a type of &%Rug which is used in &%Praying'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__PrayerMat |tptp.'prayer mat'|) (forall ((V__MAT $$unsorted)) (=> (tptp.s__instance V__MAT tptp.s__Object) (=> (tptp.s__instance V__MAT tptp.s__PrayerMat) (tptp.s__hasPurpose V__MAT |tptp.'(? [V__PRAY,V__PERSON] : (s__instance(V__PERSON,s__Agent) & s__instance(V__PRAY,s__Process) & s__instance(V__PRAY,s__Praying) & s__agent(V__PRAY,V__PERSON) & s__instance(V__PERSON,s__Human) & s__holdsDuring(s__WhenFn(V__PRAY),s__orientation(V__PERSON,V__MAT,s__On))))'|)))) (tptp.s__subclass tptp.s__VideoGame tptp.s__Game) (tptp.s__instance tptp.s__VideoGame__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__VideoGame tptp.s__EnglishLanguage |tptp.'&%VideoGame is a &%Game in &%VideoRecording form'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__VideoGame |tptp.'video game'|) (forall ((V__GAME $$unsorted)) (=> (tptp.s__instance V__GAME tptp.s__VideoGame) (exists ((V__VIDEO $$unsorted)) (and (tptp.s__instance V__VIDEO tptp.s__VideoRecording) (tptp.s__represents V__VIDEO V__GAME))))) (tptp.s__subclass tptp.s__VideoGamePlayer tptp.s__MediaSystem) (tptp.s__instance tptp.s__VideoGamePlayer__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__VideoGamePlayer tptp.s__EnglishLanguage |tptp.'&%VideoGamePlayer is a &%MediaSystem that enables the playing of a &%VideoGame'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__VideoGamePlayer |tptp.'video game player'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Agent) (=> (tptp.s__instance V__X tptp.s__VideoGamePlayer) (tptp.s__hasPurpose V__X |tptp.'(? [V__GAME,V__RL,V__MOVE,V__CONTROLLER,V__PLAYER] : (s__instance(V__PLAYER,s__Agent) & s__instance(V__CONTROLLER,s__Object) & s__instance(V__MOVE,s__Process) & s__instance(V__RL,s__Process) & s__instance(V__GAME,s__Process) & s__instance(V__GAME,s__VideoGame) & s__instrument(V__GAME,V__X) & s__agent(V__GAME,V__PLAYER) & s__instance(V__MOVE,s__Maneuver) & s__instrument(V__MOVE,V__CONTROLLER) & s__agent(V__MOVE,V__PLAYER) & s__subProcess(V__MOVE,V__GAME) & s__part(V__CONTROLLER,V__X) & s__instance(V__RL,s__RadiatingLight) & s__agent(V__RL,V__X) & s__patient(V__RL,V__GAME)))'|)))) (tptp.s__subclass tptp.s__ElectricalOutlet tptp.s__Device) (tptp.s__instance tptp.s__ElectricalOutlet__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ElectricalOutlet tptp.s__EnglishLanguage |tptp.'&%ElectricalOutlet refers to a &%Device that is used to connect a plug to a power source so that &%Electricity can flow from the source to an &%ElectricDevice'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__ElectricalOutlet |tptp.'electrical outlet'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__ElectricalOutlet) (exists ((V__HOLE $$unsorted)) (and (tptp.s__instance V__HOLE tptp.s__Collection) (tptp.s__memberType V__HOLE tptp.s__Hole) (tptp.s__part V__HOLE V__X)))))) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__EngineeringComponent) (=> (tptp.s__instance V__X tptp.s__ElectricalOutlet) (tptp.s__hasPurpose V__X |tptp.'(? [V__POWER,V__WIRE] : (s__instance(V__WIRE,s__EngineeringConnection) & s__instance(V__POWER,s__EngineeringComponent) & s__instance(V__POWER,s__PowerSource) & s__instance(V__WIRE,s__Collection) & s__memberType(V__WIRE,s__WireLine) & s__connectsEngineeringComponents(V__WIRE,V__X,V__POWER)))'|)))) (tptp.s__subclass tptp.s__ElectricalPlug tptp.s__Plug) (tptp.s__instance tptp.s__ElectricalPlug__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__Plug__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ElectricalPlug tptp.s__EnglishLanguage |tptp.'&%ElectricalPlug is a type of &%Plug made of metal that is normally used to conduct electricity from an &%ElectricalOutlet to an &%ElectricDevice'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__ElectricalPlug |tptp.'electrical plug'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__CorpuscularObject) (=> (tptp.s__instance V__X tptp.s__ElectricalPlug) (tptp.s__material tptp.s__Metal V__X)))) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__ElectricalPlug) (tptp.s__hasPurpose V__X |tptp.'(? [V__OUTLET] : (s__instance(V__OUTLET,s__Hole) & s__instance(V__OUTLET,s__ElectricalOutlet) & s__completelyFills(V__X,V__OUTLET)))'|)))) (forall ((V__OUTLET $$unsorted) (V__PLUG $$unsorted) (V__POWER $$unsorted) (V__DEVICE $$unsorted)) (=> (and (tptp.s__instance V__DEVICE tptp.s__EngineeringComponent) (tptp.s__instance V__POWER tptp.s__EngineeringComponent) (tptp.s__instance V__PLUG tptp.s__EngineeringComponent) (tptp.s__instance V__OUTLET tptp.s__Hole) (tptp.s__instance V__OUTLET tptp.s__EngineeringComponent)) (=> (and (tptp.s__instance V__PLUG tptp.s__ElectricalPlug) (tptp.s__instance V__DEVICE tptp.s__ElectricDevice) (tptp.s__instance V__OUTLET tptp.s__ElectricalOutlet) (tptp.s__connectedEngineeringComponents V__DEVICE V__PLUG) (tptp.s__completelyFills V__PLUG V__OUTLET) (tptp.s__instance V__POWER tptp.s__PowerSource) (tptp.s__connectedEngineeringComponents V__POWER V__OUTLET)) (exists ((V__RE $$unsorted)) (and (tptp.s__instance V__RE tptp.s__Process) (tptp.s__instance V__RE tptp.s__RadiatingElectromagnetic) (tptp.s__origin V__RE V__POWER) (tptp.s__destination V__RE V__DEVICE)))))) (tptp.s__subclass tptp.s__OutletAdapter tptp.s__Device) (tptp.s__instance tptp.s__OutletAdapter__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__OutletAdapter tptp.s__EnglishLanguage |tptp.'An &%OutletAdapter is a device that, on one side has &%Hole and on another side has metal prongs so that an &%ElectricalPlug can fit into an &%ElectricalOutlet'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__OutletAdapter |tptp.'outlet adapter'|) (forall ((V__HOLD $$unsorted) (V__ADAPT $$unsorted)) (=> (and (tptp.s__instance V__ADAPT tptp.s__CorpuscularObject) (tptp.s__instance V__HOLD tptp.s__Object)) (=> (tptp.s__instance V__ADAPT tptp.s__OutletAdapter) (exists ((V__HOLE $$unsorted)) (and (tptp.s__instance V__HOLE tptp.s__Collection) (tptp.s__memberType V__HOLE tptp.s__Hole) (tptp.s__part V__HOLD V__ADAPT) (tptp.s__material tptp.s__Metal V__ADAPT)))))) (forall ((V__ADAPT $$unsorted)) (=> (and (tptp.s__instance V__ADAPT tptp.s__Hole) (tptp.s__instance V__ADAPT tptp.s__EngineeringConnection)) (=> (tptp.s__instance V__ADAPT tptp.s__OutletAdapter) (tptp.s__hasPurpose V__ADAPT |tptp.'(? [V__OUTLET,V__PLUG] : (s__instance(V__PLUG,s__EngineeringComponent) & s__instance(V__OUTLET,s__Hole) & s__instance(V__OUTLET,s__EngineeringComponent) & s__instance(V__PLUG,s__ElectricalPlug) & s__instance(V__OUTLET,s__ElectricalOutlet) & s__completelyFills(V__PLUG,V__ADAPT) & s__completelyFills(V__ADAPT,V__OUTLET) & s__connectsEngineeringComponents(V__ADAPT,V__PLUG,V__OUTLET)))'|)))) (tptp.s__subclass tptp.s__AirConditioner tptp.s__ElectricDevice) (tptp.s__instance tptp.s__AirConditioner__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AirConditioner tptp.s__EnglishLanguage |tptp.'&%AirConditioner is a type of &%ElectricDevice that is designed to provide comfort during hot or cold weather by keeping the air in an area a specific temperature'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__AirConditioner |tptp.'air conditioner'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__AirConditioner) (tptp.s__hasPurpose V__X |tptp.'(? [V__PROC,V__TEMP,V__AREA] : (s__instance(V__AREA,s__Object) & s__instance(V__TEMP,s__TemperatureMeasure) & s__located(V__X,V__AREA) & s__instance(V__PROC,s__Process) & s__instrument(V__PROC,V__X) & s__result(V__PROC,s__airTemperature(V__AREA,V__TEMP))))'|)))) (tptp.s__instance tptp.s__Surrounded tptp.s__PositionalAttribute) (tptp.s__documentation tptp.s__Surrounded tptp.s__EnglishLanguage |tptp.'&%Surrounded describes how an object or a collection of objects &%meetsSpatially with all sides of another object'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Surrounded tptp.surrounded) (forall ((V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (tptp.s__orientation V__OBJ1 V__OBJ2 tptp.s__Surrounded) (forall ((V__X $$unsorted)) (=> (and (tptp.s__instance V__X tptp.s__SelfConnectedObject) (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__SelfConnectedObject)) (=> (tptp.s__side V__X V__OBJ1) (tptp.s__meetsSpatially V__X V__OBJ2)))))) (tptp.s__subclass tptp.s__Courtyard tptp.s__StationaryArtifact) (tptp.s__instance tptp.s__Courtyard__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Courtyard tptp.s__EnglishLanguage |tptp.'&%Courtyard is an unroofed area wholly or partly surrounded by walls or buildings'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Courtyard tptp.courtyard) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__SelfConnectedObject) (=> (tptp.s__instance V__X tptp.s__Courtyard) (and (not (exists ((V__ROOF $$unsorted)) (and (tptp.s__instance V__ROOF tptp.s__SelfConnectedObject) (tptp.s__instance V__ROOF tptp.s__Roof) (tptp.s__top V__ROOF V__X)))) (exists ((V__BLDG $$unsorted)) (and (tptp.s__instance V__BLDG tptp.s__Object) (tptp.s__instance V__BLDG tptp.s__Building) (tptp.s__orientation V__X V__BLDG tptp.s__Surrounded))))))) (tptp.s__subclass tptp.s__SpeakerDevice tptp.s__ElectricDevice) (tptp.s__instance tptp.s__SpeakerDevice__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SpeakerDevice tptp.s__EnglishLanguage |tptp.'&%SpeakerDevice is a type of device that converts electrical signals into sounds loud enough to be heard at a distance'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__SpeakerDevice tptp.speaker) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__SpeakerDevice) (tptp.s__hasPurpose V__X |tptp.'(? [V__RS] : (s__instance(V__RS,s__Process) & s__instance(V__RS,s__Object) & s__instance(V__RS,s__RadiatingSound) & s__instrument(V__RS,V__X) & s__attribute(V__RS,s__Audible)))'|)))) (tptp.s__subclass tptp.s__Earphone tptp.s__Device) (tptp.s__instance tptp.s__Earphone__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Earphone tptp.s__EnglishLanguage |tptp.'&%Earphone is a type of &%Device that that converts electric signals into sound and is usually held over or inserted in the ear'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Earphone tptp.earphone) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__Earphone) (tptp.s__hasPurpose V__X |tptp.'(? [V__ES,V__RS,V__SIGNAL,V__EAR,V__PROC] : (s__instance(V__EAR,s__Object) & s__instance(V__RS,s__Process) & s__instance(V__ES,s__Process) & s__instance(V__ES,s__ElectricalSignalling) & s__patient(V__ES,V__SIGNAL) & s__destination(V__ES,V__X) & s__instance(V__PROC,s__Process) & s__instrument(V__PROC,V__X) & s__patient(V__PROC,V__SIGNAL) & s__result(V__PROC,V__RS) & s__instance(V__RS,s__RadiatingSound) & s__origin(V__RS,V__X) & s__before(s__BeginFn(s__WhenFn(V__ES)),s__BeginFn(s__WhenFn(V__PROC))) & s__before(s__BeginFn(s__WhenFn(V__PROC)),s__BeginFn(s__WhenFn(V__RS))) & s__instance(V__EAR,s__Ear) & s__orientation(V__X,V__EAR,s__Adjacent)))'|)))) (tptp.s__subclass tptp.s__Public tptp.s__GroupOfPeople) (tptp.s__instance tptp.s__Public__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Public tptp.s__EnglishLanguage |tptp.'a body of people sharing some common interest; example: the reading public.'|) (forall ((V__T1 $$unsorted) (V__AGENT2 $$unsorted) (V__AGENT1 $$unsorted)) (=> (and (tptp.s__instance V__AGENT1 tptp.s__SelfConnectedObject) (tptp.s__instance V__AGENT1 tptp.s__CognitiveAgent) (tptp.s__instance V__AGENT2 tptp.s__SelfConnectedObject) (tptp.s__instance V__AGENT2 tptp.s__CognitiveAgent) (tptp.s__instance V__T1 tptp.s__TimePosition)) (=> (tptp.s__holdsDuring V__T1 |tptp.'(s__member(V__AGENT1,s__Public) & s__member(V__AGENT2,s__Public) & (~ (V__AGENT1 = V__AGENT2)))'|) (exists ((V__INTEREST $$unsorted)) (and (tptp.s__instance V__INTEREST tptp.s__Formula) (tptp.s__holdsDuring V__T1 |tptp.'(s__desires(V__AGENT1,V__INTEREST) & s__desires(V__AGENT2,V__INTEREST))'|)))))) (tptp.s__subclass tptp.s__PublicAddressSystem tptp.s__CommunicationSystem) (tptp.s__instance tptp.s__PublicAddressSystem__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__PublicAddressSystem tptp.s__EnglishLanguage |tptp.'&%PublicAddressSystem refers to an electronic amplification system used as a communication system in public areas'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__PublicAddressSystem |tptp.'public address system'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Collection) (=> (tptp.s__instance V__X tptp.s__PublicAddressSystem) (and (tptp.s__memberType V__X tptp.s__Microphone) (tptp.s__memberType V__X tptp.s__SpeakerDevice))))) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__PublicAddressSystem) (tptp.s__hasPurpose V__X |tptp.'(? [V__RS,V__AREA,V__GRP] : (s__instance(V__AREA,s__LandArea) & s__located(V__X,V__AREA) & s__instance(V__GRP,s__GroupOfPeople) & s__located(V__GRP,V__AREA) & s__instance(V__RS,s__RadiatingSound) & s__instrument(V__RS,V__X) & (! [V__PERSON] : ((s__instance(V__PERSON,s__SelfConnectedObject) & s__instance(V__PERSON,s__Agent) & s__instance(V__X,s__Object)) => (s__member(V__PERSON,V__GRP) => (? [V__HEAR] : (s__instance(V__HEAR,s__Process) & s__instance(V__GRP,s__Collection) & s__instance(V__AREA,s__Object) & s__instance(V__RS,s__Process) & s__instance(V__HEAR,s__Hearing) & s__patient(V__HEAR,V__RS) & s__agent(V__HEAR,V__PERSON))))))))'|))) (tptp.s__subclass tptp.s__Wheelchair tptp.s__TransportationDevice) (tptp.s__instance tptp.s__Wheelchair__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Wheelchair tptp.s__EnglishLanguage |tptp.'&%Wheelchair is a type of &%LandVehicle that is used to individually transport those who cannot walk'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Wheelchair tptp.wheelchair) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__Wheelchair) (exists ((V__WHEEL $$unsorted) (V__SEAT $$unsorted)) (and (tptp.s__instance V__SEAT tptp.s__Object) (tptp.s__instance V__WHEEL tptp.s__Object) (tptp.s__instance V__SEAT tptp.s__Seat) (tptp.s__instance V__WHEEL tptp.s__Wheel) (tptp.s__part V__SEAT V__X) (tptp.s__part V__WHEEL V__X)))))) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__Wheelchair) (tptp.s__hasPurpose V__X |tptp.'(? [V__TRANSPORT,V__HUMAN] : (s__instance(V__HUMAN,s__Agent) & s__instance(V__TRANSPORT,s__Process) & s__instance(V__HUMAN,s__Human) & (~ s__capability(s__Walking,s__agent__m,V__HUMAN)) & s__instance(V__TRANSPORT,s__Transportation) & s__agent(V__TRANSPORT,V__HUMAN) & s__instrument(V__TRANSPORT,V__X)))'|)))) (tptp.s__instance tptp.s__WheelchairAccessible tptp.s__ObjectiveNorm) (tptp.s__documentation tptp.s__WheelchairAccessible tptp.s__EnglishLanguage |tptp.'&%WheelchairAccessible describes how a location lets a person using a wheelchair move around without interference and with access to all features of that place.'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__WheelchairAccessible |tptp.'wheelchair accessible'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__attribute V__X tptp.s__WheelchairAccessible) (tptp.s__attribute V__X tptp.s__HandicappedFriendly)))) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (and (tptp.s__attribute V__X tptp.s__WheelchairAccessible) (or (tptp.s__instance V__X tptp.s__Building) (tptp.s__instance V__X tptp.s__Room))) (tptp.s__modalAttribute |tptp.'(? [V__MOTION,V__WHEELCHAIR] : (s__instance(V__WHEELCHAIR,s__Object) & s__instance(V__MOTION,s__Process) & s__instance(V__MOTION,s__Motion) & s__instrument(V__MOTION,V__WHEELCHAIR) & s__instance(V__WHEELCHAIR,s__Wheelchair) & s__eventLocated(V__MOTION,V__X)))'| tptp.s__Possibility)))) (tptp.s__instance tptp.s__HandicappedFriendly tptp.s__SubjectiveAssessmentAttribute) (tptp.s__documentation tptp.s__HandicappedFriendly tptp.s__EnglishLanguage |tptp.'&%HandicappedFriendly describes an object that can be easily used by somebody who has some &%Disability'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__HandicappedFriendly |tptp.'handicapped friendly'|) (forall ((V__X $$unsorted)) (=> (tptp.s__attribute V__X tptp.s__HandicappedFriendly) (tptp.s__instance V__X tptp.s__Object))) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__attribute V__X tptp.s__HandicappedFriendly) (exists ((V__ATTR $$unsorted) (V__PERSON $$unsorted)) (and (tptp.s__instance V__PERSON tptp.s__CognitiveAgent) (tptp.s__instance V__ATTR tptp.s__Attribute) (tptp.s__instance V__ATTR tptp.s__Disability) (tptp.s__instance V__PERSON tptp.s__Human) (tptp.s__attribute V__PERSON V__ATTR) (tptp.s__inScopeOfInterest V__PERSON V__X)))))) (tptp.s__subclass tptp.s__Recliner tptp.s__Seat) (tptp.s__instance tptp.s__Recliner__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Recliner tptp.s__EnglishLanguage |tptp.'&%Recliner is a type of &%Seat whose back can be lowered and the foot can be rasied to allow the sitter to recline in it.'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Recliner tptp.recliner) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Recliner) (tptp.s__modalAttribute |tptp.'(? [V__INCLINE] : (s__instance(V__INCLINE,s__Process) & s__instance(V__INCLINE,s__Inclining) & s__patient(V__INCLINE,V__X)))'| tptp.s__Possibility))) (tptp.s__subclass tptp.s__VisualContentBearingPhysical tptp.s__ContentBearingPhysical) (tptp.s__documentation tptp.s__VisualContentBearingPhysical tptp.s__EnglishLanguage |tptp.'Instances of &%VisualContentBearingPhysical are &%ContentBearingPhysicals that are intended to convey meaning as the result of being seen.'|) (tptp.s__subclass tptp.s__VisualContentBearingObject tptp.s__ContentBearingPhysical) (tptp.s__subclass tptp.s__VisualContentBearingObject tptp.s__VisualContentBearingPhysical) (tptp.s__instance tptp.s__VisualContentBearingPhysical__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__VisualContentBearingObject tptp.s__EnglishLanguage |tptp.'Instances of &%VisualContentBearingObject are &%ContentBearingObjects that are intended to convey meaning as the result of being seen.'|) (tptp.s__subclass tptp.s__Image tptp.s__VisualContentBearingObject) (tptp.s__instance tptp.s__Image__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__VisualContentBearingObject__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Image tptp.s__EnglishLanguage |tptp.'Instances of &%Image are &%VisualContentBearingObjects that convey their meaning primarily in non-textual form.'|) (tptp.s__subclass tptp.s__MultimediaProjector tptp.s__MediaSystem) (tptp.s__instance tptp.s__MultimediaProjector__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__MediaSystem__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__MultimediaProjector tptp.s__EnglishLanguage |tptp.'&%MultimediaProjector is a type of &%MediaSystem that projects images on a screen'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__MultimediaProjector |tptp.'multimedia projector'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__MultimediaProjector) (tptp.s__hasPurpose V__X |tptp.'(? [V__RS,V__SCREEN,V__VIDEO] : (s__instance(V__SCREEN,s__Object) & s__instance(V__RS,s__Process) & s__instance(V__RS,s__RadiatingLight) & s__instrument(V__RS,V__X) & s__patient(V__RS,V__VIDEO) & (s__instance(V__VIDEO,s__VideoRecording) _ s__instance(V__VIDEO,s__Image)) & s__destination(V__RS,V__SCREEN) & s__instance(V__SCREEN,s__Artifact) & s__attribute(V__SCREEN,s__Flat) & (~ s__connected(V__X,V__SCREEN))))'|)))) (tptp.s__subclass tptp.s__AudioRecorder tptp.s__Device) (tptp.s__instance tptp.s__AudioRecorder__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__AudioRecorder tptp.s__EnglishLanguage |tptp.'&%AudioRecorder is a type of &%Device that creates an &%AudioRecording by capturing sound and storing it in a &%DataStorageDevice'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__AudioRecorder |tptp.'audio recorder'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__AudioRecorder) (tptp.s__hasPurpose V__X |tptp.'(? [V__RS,V__RECORD,V__PROC] : (s__instance(V__PROC,s__Process) & s__instance(V__RS,s__RadiatingSound) & s__instance(V__PROC,s__IntentionalProcess) & s__instrument(V__PROC,V__X) & s__patient(V__PROC,V__RS) & s__result(V__PROC,V__RECORD) & s__instance(V__RECORD,s__AudioRecording)))'|)))) (tptp.s__subclass tptp.s__VideoDisplay tptp.s__ElectricDevice) (tptp.s__instance tptp.s__VideoDisplay__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__VideoDisplay tptp.s__EnglishLanguage |tptp.'&%VideoDisplay is a type of &%ElectricDevice that can &%RadiatingLight to show &%VideoRecording'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__VideoDisplay |tptp.'video display'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__VideoDisplay) (tptp.s__hasPurpose V__X |tptp.'(? [V__RL,V__VIDEO] : (s__instance(V__RL,s__Process) & s__instance(V__RL,s__RadiatingLight) & s__instance(V__VIDEO,s__VideoRecording) & s__patient(V__RL,V__VIDEO) & s__instrument(V__RL,V__X)))'|)))) (tptp.s__subclass tptp.s__TDDPhone tptp.s__Telephone) (tptp.s__instance tptp.s__TDDPhone__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__TDDPhone tptp.s__EnglishLanguage |tptp.'&%TDDPhone, which stands for Telecommunications Device for the Deaf, describes a &%Telephone that is designed so that &%Deaf people can use it'|) (forall ((V__TDD $$unsorted)) (=> (tptp.s__instance V__TDD tptp.s__Object) (=> (tptp.s__instance V__TDD tptp.s__TDDPhone) (tptp.s__hasPurpose V__TDD |tptp.'(? [V__AGENT,V__PHONING] : (s__instance(V__PHONING,s__Process) & s__instance(V__AGENT,s__Agent) & s__instance(V__PHONING,s__Telephoning) & s__instrument(V__PHONING,V__TDD) & s__agent(V__PHONING,V__AGENT) & s__attribute(V__AGENT,s__Deaf)))'|)))) (tptp.s__subclass tptp.s__Sail tptp.s__Artifact) (tptp.s__instance tptp.s__Sail__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Sail tptp.s__EnglishLanguage |tptp.'&%Sail refers to an &%Artifact made of some type of &%Fabric which by means of which wind is used to propel a sailing vessel'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Sail tptp.sail) (forall ((V__SAIL $$unsorted)) (=> (tptp.s__instance V__SAIL tptp.s__CorpuscularObject) (=> (tptp.s__instance V__SAIL tptp.s__Sail) (exists ((V__MAST $$unsorted)) (and (tptp.s__instance V__MAST tptp.s__Object) (tptp.s__material tptp.s__Fabric V__SAIL) (tptp.s__instance V__MAST tptp.s__Mast) (tptp.s__connected V__SAIL V__MAST)))))) (tptp.s__subclass tptp.s__ACPowerSource tptp.s__PowerSource) (tptp.s__instance tptp.s__PowerSource__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ACPowerSource tptp.s__EnglishLanguage |tptp.'&%ACPowerSource refers to an alternating current &%PowerSource'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__ACPowerSource |tptp.'ac power source'|) (tptp.s__subclass tptp.s__SinglePhasePowerSource tptp.s__ACPowerSource) (tptp.s__instance tptp.s__SinglePhasePowerSource__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__ACPowerSource__t tptp.s__SetOrClass) (tptp.s__subclass tptp.s__ThreePhasePowerSource tptp.s__ACPowerSource) (tptp.s__instance tptp.s__ThreePhasePowerSource__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__voltageMeasure__m tptp.s__BinaryPredicate) (tptp.s__documentation tptp.s__voltageMeasure__m tptp.s__EnglishLanguage |tptp.'(&%voltageMeasure ?OBJ ?MEAS) describes how much electricity ?OBJ, a power source, generates'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__voltageMeasure__m |tptp.'voltage measure'|) (tptp.s__domain tptp.s__voltageMeasure__m |"1"| tptp.s__PowerSource) (tptp.s__domain tptp.s__voltageMeasure__m |"2"| tptp.s__PhysicalQuantity) (forall ((V__OBJ $$unsorted) (V__QUANT $$unsorted) (V__MEAS $$unsorted)) (=> (and (tptp.s__instance V__MEAS tptp.s__PhysicalQuantity) (tptp.s__instance V__QUANT tptp.s__RealNumber) (tptp.s__instance V__OBJ tptp.s__PowerSource)) (=> (tptp.s__voltageMeasure V__OBJ V__MEAS) (= V__MEAS (tptp.s__MeasureFn V__QUANT tptp.s__Volt))))) (forall ((V__OBJ $$unsorted) (V__MEAS $$unsorted)) (=> (and (tptp.s__instance V__MEAS tptp.s__PhysicalQuantity) (tptp.s__instance V__OBJ tptp.s__PowerSource)) (=> (tptp.s__voltageMeasure V__OBJ V__MEAS) (exists ((V__ELEC $$unsorted) (V__PROC $$unsorted)) (and (tptp.s__instance V__ELEC tptp.s__Object) (tptp.s__instance V__ELEC tptp.s__Electricity) (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instrument V__PROC V__OBJ) (tptp.s__result V__PROC V__ELEC) (tptp.s__measure V__ELEC V__MEAS)))))) (tptp.s__subclass tptp.s__Document tptp.s__ContentBearingObject) (tptp.s__subclass tptp.s__Document tptp.s__Artifact) (tptp.s__documentation tptp.s__Document tptp.s__EnglishLanguage |tptp.'Instances of &%Document are &%ContentBearingObjects that are intended to convey propositional content via &%Text (&%LinguisticExpressions, seen or heard), &%Images, or some combination of these (e.g., an audio clip included in an electronic document consisting mostly of &%VisualText and some &%Images). Formally, a &%Document constitutes any &%ContentBearingObject that is an &%Artifact conventionally typically intended to be transmitted and assimilated as a meaningful whole. An &%Article or a &%Book would be a &%Document, but a &%Word or &%Paragraph typically would not.'|) (forall ((V__DOC $$unsorted)) (=> (tptp.s__instance V__DOC tptp.s__Object) (=> (tptp.s__instance V__DOC tptp.s__Document) (tptp.s__hasPurpose V__DOC |tptp.'(? 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[V__OBJ,V__PUT] : (s__instance(V__PUT,s__Process) & s__instance(V__OBJ,s__Object) & s__instance(V__OBJ,s__Artifact) & s__attribute(V__OBJ,s__Flat) & s__instance(V__PUT,s__Putting) & s__patient(V__PUT,V__OBJ) & s__destination(V__PUT,V__X)))'|)))) (tptp.s__subclass tptp.s__Solarium tptp.s__Room) (tptp.s__instance tptp.s__Solarium__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Solarium tptp.s__EnglishLanguage |tptp.'&%Solarium is a type of &%Room part of which is made with &%Transparent material like glass to afford exposure to the sun.'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Solarium tptp.solarium) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__Solarium) (exists ((V__WALL $$unsorted)) (and (tptp.s__instance V__WALL tptp.s__Object) (tptp.s__instance V__WALL tptp.s__Wall) (tptp.s__part V__WALL V__X) (tptp.s__attribute V__WALL tptp.s__Transparent)))))) (tptp.s__subclass tptp.s__ExerciseCenter tptp.s__SportsFacility) (tptp.s__instance tptp.s__ExerciseCenter__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ExerciseCenter tptp.s__EnglishLanguage |tptp.'&%ExerciseCenter refers to a type of &%SportsFacility that has equipment and services for physical training and keeping fit'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__ExerciseCenter |tptp.'exercise center'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__ExerciseCenter) (tptp.s__hasPurpose V__X |tptp.'(? [V__DEVICE] : (s__instance(V__DEVICE,s__Physical) & (s__instance(V__DEVICE,s__AerobicExerciseDevice) _ s__instance(V__DEVICE,s__AnaerobicExerciseDevice)) & s__located(V__DEVICE,V__X)))'|)))) (tptp.s__subclass tptp.s__GameRoom tptp.s__Room) (tptp.s__instance tptp.s__GameRoom__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__GameRoom tptp.s__EnglishLanguage |tptp.'&%GameRoom refers to a type of &%Room that have facilities for &%Game that can be played'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__GameRoom |tptp.'game room'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__GameRoom) (tptp.s__hasPurpose V__X |tptp.'(? [V__GAME] : (s__instance(V__GAME,s__Process) & s__instance(V__GAME,s__Game) & s__eventLocated(V__GAME,V__X)))'|)))) (tptp.s__subclass tptp.s__Nursery tptp.s__Room) (tptp.s__instance tptp.s__Nursery__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__Nursery tptp.s__EnglishLanguage |tptp.'&%Nursery refers to a &%Room for babies'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Nursery tptp.nursery) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__Nursery) (exists ((V__CRIB $$unsorted)) (and (tptp.s__instance V__CRIB tptp.s__Physical) (tptp.s__instance V__CRIB tptp.s__Crib) (tptp.s__located V__CRIB V__X)))))) (tptp.s__subclass tptp.s__SteamBath tptp.s__Room) (tptp.s__instance tptp.s__SteamBath__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SteamBath tptp.s__EnglishLanguage |tptp.'&%SteamBath refers to a room that is filled with &%Steam in order to make people sweat'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__SteamBath |tptp.'steam bath'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__SteamBath) (exists ((V__STEAM $$unsorted)) (and (tptp.s__instance V__STEAM tptp.s__Physical) (tptp.s__instance V__STEAM tptp.s__Steam) (tptp.s__located V__STEAM V__X)))))) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__SteamBath) (tptp.s__hasPurpose V__X |tptp.'(? [V__BATH] : (s__instance(V__BATH,s__Process) & s__instance(V__BATH,s__Bathing) & s__eventLocated(V__BATH,V__X)))'|)))) (tptp.s__subclass tptp.s__HeatedPool tptp.s__SwimmingPool) (tptp.s__instance tptp.s__HeatedPool__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__HeatedPool tptp.s__EnglishLanguage |tptp.'&%HeatedPool is a type of &%SwimmingPool that has &%HotWaterHeater so that the &%Water in the pool is constantly kept at a certain warm temperature'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__HeatedPool |tptp.'heated pool'|) (forall ((V__X $$unsorted) (V__HEATER $$unsorted) (V__WATER $$unsorted)) (=> (and (tptp.s__instance V__WATER tptp.s__Object) (tptp.s__instance V__HEATER tptp.s__Object) (tptp.s__instance V__X tptp.s__SelfConnectedObject)) (=> (and (tptp.s__instance V__X tptp.s__HeatedPool) (tptp.s__contains V__X V__WATER) (tptp.s__instance V__WATER tptp.s__Water) (tptp.s__part V__X V__HEATER) (tptp.s__instance V__HEATER tptp.s__WaterHeater) (tptp.s__attribute V__HEATER tptp.s__DeviceOn)) (tptp.s__attribute V__WATER tptp.s__WarmTemperature)))) (tptp.s__subclass tptp.s__RoomHeater tptp.s__HeatingDevice) (tptp.s__instance tptp.s__RoomHeater__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__RoomHeater tptp.s__EnglishLanguage |tptp.'&%RoomHeater is a type of &%HeatingDevice that heats the air in a confined space'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__RoomHeater |tptp.'room heater'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__instance V__X tptp.s__RoomHeater) (tptp.s__hasPurpose V__X |tptp.'(? [V__AIR,V__HEATING,V__ROOM] : (s__instance(V__ROOM,s__Object) & s__instance(V__HEATING,s__Process) & s__instance(V__AIR,s__Physical) & s__instance(V__AIR,s__Air) & s__instance(V__ROOM,s__Room) & s__located(V__AIR,V__ROOM) & s__instance(V__HEATING,s__Heating) & s__patient(V__HEATING,V__AIR) & s__instrument(V__HEATING,V__X)))'|)))) (tptp.s__subclass tptp.s__DanceHall tptp.s__StationaryArtifact) (tptp.s__documentation tptp.s__DanceHall tptp.s__EnglishLanguage |tptp.'&%DanceHall is a &%StationaryArtifact equipped with floors amenable to &%Dancing and devices that blare out &%MakingMusic'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__DanceHall |tptp.'dance hall'|) (forall ((V__DISCO $$unsorted)) (=> (tptp.s__instance V__DISCO tptp.s__Object) (=> (tptp.s__instance V__DISCO tptp.s__DanceHall) (tptp.s__hasPurpose V__DISCO |tptp.'(? 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[V__PREP,V__FOOD] : (s__instance(V__PREP,s__Process) & s__instance(V__OBJ,s__Object) & s__instance(V__SINK,s__Object) & s__instance(V__PREP,s__Making) & s__result(V__PREP,V__FOOD) & (s__instance(V__FOOD,s__PreparedFood) _ s__instance(V__FOOD,s__Beverage)) & s__eventLocated(V__PREP,V__OBJ)))'|) (tptp.s__part V__OBJ V__X)))))) (tptp.s__subclass tptp.s__SurveillanceSystem tptp.s__Collection) (tptp.s__instance tptp.s__SurveillanceSystem__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__SurveillanceSystem tptp.s__EnglishLanguage |tptp.'&%SurveillanceSystem is a &%Collection of devices that work together to provide security by recording sound or video in a certain location and showing it instantly to people, presumably a &%SecurityUnit'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__SurveillanceSystem |tptp.'surveillance system'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Collection) (=> (tptp.s__instance V__X tptp.s__SurveillanceSystem) (and (tptp.s__memberType V__X tptp.s__Camera) (tptp.s__memberType V__X tptp.s__VideoDisplay))))) (forall ((V__VIDEO $$unsorted) (V__X $$unsorted) (V__LOC1 $$unsorted) (V__LOC2 $$unsorted) (V__DISPLAY $$unsorted)) (=> (and (tptp.s__instance V__DISPLAY tptp.s__Collection) (tptp.s__instance V__LOC2 tptp.s__Object) (tptp.s__instance V__LOC1 tptp.s__Object) (tptp.s__instance V__X tptp.s__SelfConnectedObject) (tptp.s__instance V__VIDEO tptp.s__Collection)) (=> (and (tptp.s__instance V__X tptp.s__SurveillanceSystem) (tptp.s__member V__X V__VIDEO) (tptp.s__member V__X V__DISPLAY) (tptp.s__located V__VIDEO V__LOC1) (tptp.s__instance V__VIDEO tptp.s__Camera) (tptp.s__located V__DISPLAY V__LOC2) (not (= V__LOC1 V__LOC2)) (tptp.s__instance V__DISPLAY tptp.s__VideoDisplay)) (tptp.s__hasPurpose V__X |tptp.'(? [V__PROC,V__VID,V__RL,V__CAPTURE] : (s__instance(V__CAPTURE,s__Process) & s__instance(V__CAPTURE,s__TimeInterval) & s__instance(V__RL,s__Process) & s__instance(V__RL,s__TimeInterval) & s__instance(V__PROC,s__TimeInterval) & s__instance(V__PROC,s__Process) & s__eventLocated(V__PROC,V__LOC1) & s__represents(V__VID,V__PROC) & s__instrument(V__CAPTURE,s__Camera) & s__result(V__CAPTURE,V__VID) & s__instance(V__RL,s__RadiatingLight) & s__instrument(V__RL,V__DISPLAY) & s__patient(V__RL,V__VID) & s__before(s__BeginFn(V__PROC),s__BeginFn(V__CAPTURE)) & s__before(s__BeginFn(V__CAPTURE),s__BeginFn(V__RL))))'|)))) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__CognitiveAgent) (=> (tptp.s__instance V__X tptp.s__SecurityUnit) (tptp.s__modalAttribute |tptp.'(? [V__S] : (s__instance(V__S,s__SurveillanceSystem) & s__inScopeOfInterest(V__X,V__S)))'| tptp.s__Likely)))) (tptp.s__subclass tptp.s__ArtifactMediatedCommunication tptp.s__Communication) (tptp.s__instance tptp.s__ArtifactMediatedCommunication__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__ArtifactMediatedCommunication tptp.s__EnglishLanguage |tptp.'&%ArtifactMediatedCommunication refers to &%Communication that uses some &%Artifact as an &%instrument or &%path for the &%Transfer of messages or information'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__ArtifactMediatedCommunication |tptp.'artifact mediated communication'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Process) (=> (tptp.s__instance V__X tptp.s__ArtifactMediatedCommunication) (exists ((V__OBJ $$unsorted)) (and (tptp.s__instance V__OBJ tptp.s__Object) (tptp.s__instance V__OBJ tptp.s__Artifact) (tptp.s__instrument V__X V__OBJ)))))) (tptp.s__subclass tptp.s__TelephoneCommunication tptp.s__ArtifactMediatedCommunication) (tptp.s__documentation tptp.s__TelephoneCommunication tptp.s__EnglishLanguage |tptp.'&%TelephoneCommunication refers to a &%Communication that is done through the use of the &%TelephoneSystem'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__TelephoneCommunication |tptp.'telephone communication'|) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Process) (=> (tptp.s__instance V__X tptp.s__TelephoneCommunication) (exists ((V__TEL1 $$unsorted) (V__TEL2 $$unsorted) (V__ORIGIN $$unsorted) (V__DEST $$unsorted)) (and (tptp.s__instance V__DEST tptp.s__ContactSite) (tptp.s__instance V__ORIGIN tptp.s__ContactSite) (tptp.s__instance V__TEL2 tptp.s__Agent) (tptp.s__instance V__TEL1 tptp.s__Agent) (tptp.s__origin V__X V__ORIGIN) (tptp.s__destination V__X V__DEST) (tptp.s__siteForContact V__ORIGIN V__TEL1) (tptp.s__siteForContact V__DEST V__TEL2) (tptp.s__instance V__TEL1 tptp.s__Telephone) (tptp.s__instance V__TEL2 tptp.s__Telephone) (tptp.s__instrument V__X V__TEL1) (tptp.s__instrument V__X V__TEL2)))))) (tptp.s__subclass tptp.s__OperatorAssistedTelephoneCommunication tptp.s__TelephoneCommunication) (tptp.s__instance tptp.s__OperatorAssistedTelephoneCommunication__t tptp.s__SetOrClass) (tptp.s__instance tptp.s__TelephoneCommunication__t tptp.s__SetOrClass) (tptp.s__documentation tptp.s__OperatorAssistedTelephoneCommunication tptp.s__EnglishLanguage |tptp.'&%OperatorAssistedTelephoneCommunication refers to &%TelephoneCommunication where an intermediary person connects origin and destination'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__OperatorAssistedTelephoneCommunication |tptp.'operator assisted telephone communication'|) (forall ((V__X $$unsorted) (V__RESULT $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Process) (=> (tptp.s__instance V__X tptp.s__OperatorAssistedTelephoneCommunication) (exists ((V__ORIGIN $$unsorted) (V__DEST $$unsorted) (V__OPERATOR $$unsorted)) (and (tptp.s__origin V__X V__ORIGIN) (tptp.s__destination V__X V__DEST) (tptp.s__instance V__OPERATOR tptp.s__Human) (tptp.s__hasPurpose V__OPERATOR |tptp.'(? [V__PROC] : (s__instance(V__PROC,s__IntentionalProcess) & s__agent(V__PROC,V__OPERATOR) & s__subProcess(V__PROC,V__X) & s__result(V__PROC,V__RESULT) & (V__RESULT = s__modalAttribute((? 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[V__PROC] : (s__instance(V__PROC,s__IntentionalProcess) & s__agent(V__PROC,V__OPERATOR) & s__subProcess(V__PROC,V__X) & s__result(V__PROC,V__RESULT) & (V__RESULT = s__modalAttribute((? 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|tptp.'&%Domestic refers to something within the same &%Nation'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Domestic tptp.domestic) (forall ((V__X $$unsorted)) (=> (and (tptp.s__instance V__X tptp.s__Object) (tptp.s__instance V__X tptp.s__Process)) (=> (and (tptp.s__instance V__X tptp.s__TelephoneCommunication) (tptp.s__attribute V__X tptp.s__Domestic)) (exists ((V__ORIGIN $$unsorted) (V__DEST $$unsorted) (V__COUNTRY $$unsorted)) (and (tptp.s__instance V__COUNTRY tptp.s__Object) (tptp.s__instance V__DEST tptp.s__Physical) (tptp.s__instance V__ORIGIN tptp.s__Object) (tptp.s__origin V__X V__ORIGIN) (tptp.s__destination V__X V__DEST) (tptp.s__located V__ORIGIN V__COUNTRY) (tptp.s__located V__DEST V__COUNTRY) (tptp.s__instance V__COUNTRY tptp.s__Nation)))))) (tptp.s__instance tptp.s__International tptp.s__RelationalAttribute) (tptp.s__documentation tptp.s__International tptp.s__EnglishLanguage |tptp.'&%International refers to something outside of the country'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__International tptp.international) (forall ((V__X $$unsorted)) (=> (and (tptp.s__instance V__X tptp.s__Object) (tptp.s__instance V__X tptp.s__Process)) (=> (and (tptp.s__instance V__X tptp.s__TelephoneCommunication) (tptp.s__attribute V__X tptp.s__International)) (exists ((V__ORIGIN $$unsorted) (V__DEST $$unsorted) (V__CTRY1 $$unsorted) (V__CTRY2 $$unsorted)) (and (tptp.s__instance V__CTRY2 tptp.s__Object) (tptp.s__instance V__CTRY1 tptp.s__Object) (tptp.s__instance V__DEST tptp.s__Physical) (tptp.s__instance V__ORIGIN tptp.s__Object) (tptp.s__origin V__X V__ORIGIN) (tptp.s__destination V__X V__DEST) (tptp.s__located V__ORIGIN V__CTRY1) (tptp.s__located V__DEST V__CTRY2) (tptp.s__instance V__CTRY1 tptp.s__Nation) (tptp.s__instance V__CTRY2 tptp.s__Nation) (not (= V__CTRY1 V__CTRY2))))))) (tptp.s__instance tptp.s__CommunalAttribute tptp.s__RelationalAttribute) (tptp.s__documentation tptp.s__CommunalAttribute tptp.s__EnglishLanguage |tptp.'&%CommunalAttribute describes how an &%Object is shared by many'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__CommunalAttribute tptp.communal) (tptp.s__instance tptp.s__PrivateAttribute tptp.s__RelationalAttribute) (tptp.s__documentation tptp.s__PrivateAttribute tptp.s__EnglishLanguage |tptp.'&%PrivateAttribute describes how an object is not available to other people without the consent of the current owner'|) (forall ((V__X $$unsorted)) (=> (tptp.s__attribute V__X tptp.s__CommunalAttribute) (tptp.s__instance V__X tptp.s__Object))) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__attribute V__X tptp.s__PrivateAttribute) (tptp.s__modalAttribute |tptp.'(~ s__attribute(V__X,s__CommunalAttribute))'| tptp.s__Likely)))) (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Object) (=> (tptp.s__attribute V__X tptp.s__CommunalAttribute) (tptp.s__modalAttribute |tptp.'(~ s__attribute(V__X,s__PrivateAttribute))'| tptp.s__Likely)))) (tptp.s__documentation tptp.s__Policy tptp.s__EnglishLanguage |tptp.'&%Policy is (the contents of) a type of &%Declaring created and enforced by an &%Organization such as a government or a business, which contains guiding principles or a plan or course of action adopted by that organization.'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__Policy tptp.policy) (tptp.s__subclass tptp.s__Policy tptp.s__Proposition) (tptp.s__instance tptp.s__Policy__t tptp.s__SetOrClass) (forall ((V__POLICY $$unsorted)) (=> (tptp.s__instance V__POLICY tptp.s__Policy) (exists ((V__ORG $$unsorted)) (and (tptp.s__instance V__ORG tptp.s__Organization) (tptp.s__policyOwner V__ORG V__POLICY))))) (tptp.s__instance tptp.s__policyOwner__m tptp.s__BinaryPredicate) (tptp.s__documentation tptp.s__policyOwner__m tptp.s__EnglishLanguage |tptp.'(&%policyOwner ?&%Organization ?&%Policy) describes how ?&%Policy is adopted and enforced by ?&%Organization'|) (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__policyOwner__m |tptp.'policy owner'|) (tptp.s__domain tptp.s__policyOwner__m |"1"| tptp.s__Organization) (tptp.s__domain tptp.s__policyOwner__m |"2"| tptp.s__Policy) (forall ((V__POLICY $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Organization) (tptp.s__instance V__POLICY tptp.s__Policy)) (=> (tptp.s__policyOwner V__AGENT V__POLICY) (exists ((V__CREATE $$unsorted)) (and (tptp.s__instance V__CREATE tptp.s__Process) (tptp.s__instance V__CREATE tptp.s__Creation) (tptp.s__agent V__CREATE V__AGENT) (tptp.s__result V__CREATE V__POLICY)))))) (tptp.s__subclass tptp.s__Hydrogen tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Hydrogen__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Hydrogen |tptp.'Hydrogen'|) (tptp.s__conventionalShortName |tptp.'H'| tptp.s__Hydrogen) (tptp.s__atomicNumber tptp.s__Hydrogen |"1"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Hydrogen) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"1.0079"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Hydrogen tptp.s__EnglishLanguage |tptp.'Colourless, odourless gaseous chemical element. Lightest and most abundant element in the universe. Present in water and in all organic compounds. Chemically reacts with most elements. Discovered by Henry Cavendish in 1776.'|) (tptp.s__subclass tptp.s__Helium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Helium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Helium |tptp.'Helium'|) (tptp.s__conventionalShortName |tptp.'He'| tptp.s__Helium) (tptp.s__atomicNumber tptp.s__Helium |"2"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Helium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"4.0026"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Helium tptp.s__EnglishLanguage |tptp.'Colourless, odourless gaseous nonmetallic element. Belongs to group 18 of the periodic table. Lowest boiling point of all elements and can only be solidified under pressure. Chemically inert, no known compounds. Discovered in the solar spectrum in 1868 by Lockyer.'|) (tptp.s__subclass tptp.s__Lithium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Lithium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Lithium |tptp.'Lithium'|) (tptp.s__conventionalShortName |tptp.'Li'| tptp.s__Lithium) (tptp.s__atomicNumber tptp.s__Lithium |"3"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Lithium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"6.939"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Lithium tptp.s__EnglishLanguage |tptp.'Socket silvery metal. First member of group 1 of the periodic table. Lithium salts are used in psychomedicine.'|) (tptp.s__subclass tptp.s__Beryllium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Beryllium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Beryllium |tptp.'Beryllium'|) (tptp.s__conventionalShortName |tptp.'Be'| tptp.s__Beryllium) (tptp.s__atomicNumber tptp.s__Beryllium |"4"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Beryllium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"9.0122"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Beryllium tptp.s__EnglishLanguage |tptp.'Grey metallic element of group 2 of the periodic table. Is toxic and can cause severe lung diseases and dermatitis. Shows high covalent character. It was isolated independently by F. Wohler and A.A. Bussy in 1828.'|) (tptp.s__subclass tptp.s__Boron tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Boron__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Boron |tptp.'Boron'|) (tptp.s__conventionalShortName |tptp.'B'| tptp.s__Boron) (tptp.s__atomicNumber tptp.s__Boron |"5"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Boron) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"10.811"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Boron tptp.s__EnglishLanguage |tptp.'An element of group 13 of the periodic table. There are two allotropes, amorphous boron is a brown power, but metallic boron is black. The metallic form is hard (9.3 on Mohs scale) and a bad conductor in room temperatures. It is never found free in nature. Boron-10 is used in nuclear reactor control rods and shields. It was discovered in 1808 by Sir Humphry Davy and by J.L. Gay-Lussac and L.J. Thenard.'|) (tptp.s__subclass tptp.s__Carbon tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Carbon__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Carbon |tptp.'Carbon'|) (tptp.s__conventionalShortName |tptp.'C'| tptp.s__Carbon) (tptp.s__atomicNumber tptp.s__Carbon |"6"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Carbon) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"12.01115"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Carbon tptp.s__EnglishLanguage |tptp.'Carbon is a member of group 14 of the periodic table. It has three allotropic forms of it, diamonds, graphite and fullerite. Carbon-14 is commonly used in radioactive dating. Carbon occurs in all organic life and is the basis of organic chemistry. Carbon has the interesting chemical property of being able to bond with itself, and a wide variety of other elements.'|) (tptp.s__subclass tptp.s__Nitrogen tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Nitrogen__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Nitrogen |tptp.'Nitrogen'|) (tptp.s__conventionalShortName |tptp.'N'| tptp.s__Nitrogen) (tptp.s__atomicNumber tptp.s__Nitrogen |"7"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Nitrogen) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"14.0067"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Nitrogen tptp.s__EnglishLanguage |tptp.'Colourless, gaseous element which belongs to group 15 of the periodic table. Constitutes ~78 percent of the atmosphere and is an essential part of the ecosystem. Nitrogen for industrial purposes is acquired by the fractional distillation of liquid air. Chemically inactive, reactive generally only at high temperatures or in electrical discharges. It was discovered in 1772 by D. Rutherford.'|) (tptp.s__subclass tptp.s__Oxygen tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Oxygen__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Oxygen |tptp.'Oxygen'|) (tptp.s__conventionalShortName |tptp.'O'| tptp.s__Oxygen) (tptp.s__atomicNumber tptp.s__Oxygen |"8"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Oxygen) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"15.9994"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Oxygen tptp.s__EnglishLanguage |tptp.'A colourless, odourless gaseous element belonging to group 16 of the periodic table. It is the most abundant element present in the earths crust. It also makes up 20.8 percent of the Earths atmosphere. For industrial purposes, it is separated from liquid air by fractional distillation. It is used in high temperature welding, and in breathing. It commonly comes in the form of Oxygen, but is found as Ozone in the upper atmosphere. It was discovered by Priestley in 1774.'|) (tptp.s__subclass tptp.s__Fluorine tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Fluorine__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Fluorine |tptp.'Fluorine'|) (tptp.s__conventionalShortName |tptp.'F'| tptp.s__Fluorine) (tptp.s__atomicNumber tptp.s__Fluorine |"9"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Fluorine) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"18.9984"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Fluorine tptp.s__EnglishLanguage |tptp.'A poisonous pale yellow gaseous element belonging to group 17 of the periodic table (The halogens). It is the most chemically reactive and electronegative element. It is highly dangerous, causing severe chemical burns on contact with flesh. Fluorine was identified by Scheele in 1771 and first isolated by Moissan in 1886.'|) (tptp.s__subclass tptp.s__Neon tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Neon__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Neon |tptp.'Neon'|) (tptp.s__conventionalShortName |tptp.'Ne'| tptp.s__Neon) (tptp.s__atomicNumber tptp.s__Neon |"10"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Neon) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"20.183"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Neon tptp.s__EnglishLanguage |tptp.'Colourless gaseous element of group 18 on the periodic table (noble gases). Neon occurs in the atmosphere, and comprises 0.0018 percent of the volume of the atmosphere. It has a distinct reddish glow when used in discharge tubes and neon based lamps. It forms almost no chemical compounds. Neon was discovered in 1898 by Sir William Ramsey and M.W. Travers. '|) (tptp.s__subclass tptp.s__Sodium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Sodium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Sodium |tptp.'Sodium'|) (tptp.s__conventionalShortName |tptp.'Na'| tptp.s__Sodium) (tptp.s__atomicNumber tptp.s__Sodium |"11"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Sodium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"22.9898"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Sodium tptp.s__EnglishLanguage |tptp.'Soft silvery reactive element belonging to group 1 of the periodic table (alkali metals). It is highly reactive, oxidizing in air and reacting violently with water, forcing it to be kept under oil. It was first isolated by Humphrey Davy in 1807.'|) (tptp.s__subclass tptp.s__Magnesium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Magnesium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Magnesium |tptp.'Magnesium'|) (tptp.s__conventionalShortName |tptp.'Mg'| tptp.s__Magnesium) (tptp.s__atomicNumber tptp.s__Magnesium |"12"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Magnesium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"24.312"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Magnesium tptp.s__EnglishLanguage |tptp.'Silvery metallic element belonging to group 2 of the periodic table (alkaline-earth metals). It is essential for living organisms, and is used in a number of light alloys. Chemically very reactive, it forms a protective oxide coating when exposed to air and burns with an intense white flame. It also reacts with sulphur, nitrogen and the halogens. First isolated by Bussy in 1828.'|) (tptp.s__subclass tptp.s__Aluminum tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Aluminum__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Aluminum |tptp.'Aluminum'|) (tptp.s__conventionalShortName |tptp.'Al'| tptp.s__Aluminum) (tptp.s__atomicNumber tptp.s__Aluminum |"13"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Aluminum) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"26.9815"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Aluminum tptp.s__EnglishLanguage |tptp.'Silvery-white lustrous metallic element of group 3 of the periodic table. Highly reactive but protected by a thin transparent layer of the oxide which quickly forms in air. There are many alloys of aluminum, as well as a good number of industrial uses. Makes up 8.1 percent of the Earths crust, by weight. Isolated in 1825 by H.C. Oersted.'|) (tptp.s__subclass tptp.s__Silicon tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Silicon__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Silicon |tptp.'Silicon'|) (tptp.s__conventionalShortName |tptp.'Si'| tptp.s__Silicon) (tptp.s__atomicNumber tptp.s__Silicon |"14"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Silicon) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"28.086"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Silicon tptp.s__EnglishLanguage |tptp.'Metalloid element belonging to group 14 of the periodic table. It is the second most abundant element in the Earths crust, making up 25.7 percent of it by weight. Chemically less reactive than carbon. First identified by Lavoisier in 1787 and first isolated in 1823 by Berzelius.'|) (tptp.s__subclass tptp.s__Phosphorus tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Phosphorus__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Phosphorus |tptp.'Phosphorus'|) (tptp.s__conventionalShortName |tptp.'P'| tptp.s__Phosphorus) (tptp.s__atomicNumber tptp.s__Phosphorus |"15"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Phosphorus) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"30.9738"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Phosphorus tptp.s__EnglishLanguage |tptp.'Non-metallic element belonging to group 15 of the periodic table. Has a multiple allotropic forms. Essential element for living organisms. It was discovered by Brandt in 1669.'|) (tptp.s__subclass tptp.s__Sulphur tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Sulphur__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Sulphur |tptp.'Sulphur'|) (tptp.s__conventionalShortName |tptp.'S'| tptp.s__Sulphur) (tptp.s__atomicNumber tptp.s__Sulphur |"16"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Sulphur) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"32.064"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Sulphur tptp.s__EnglishLanguage |tptp.'Yellow, nonmetallic element belonging to group 16 of the periodic table. It is an essential element in living organisms, needed in the amino acids cysteine and methionine, and hence in many proteins. Absorbed by plants from the soil as sulphate ion.'|) (tptp.s__subclass tptp.s__Chlorine tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Chlorine__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Chlorine |tptp.'Chlorine'|) (tptp.s__conventionalShortName |tptp.'Cl'| tptp.s__Chlorine) (tptp.s__atomicNumber tptp.s__Chlorine |"17"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Chlorine) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"35.453"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Chlorine tptp.s__EnglishLanguage |tptp.'Halogen element. Poisonous greenish-yellow gas. Occurs widely in nature as sodium chloride in seawater. Reacts directly with many elements and compounds, strong oxidizing agent. Discovered by Karl Scheele in 1774. Humphrey David confirmed it as an element in 1810.'|) (tptp.s__subclass tptp.s__Argon tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Argon__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Argon |tptp.'Argon'|) (tptp.s__conventionalShortName |tptp.'Ar'| tptp.s__Argon) (tptp.s__atomicNumber tptp.s__Argon |"18"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Argon) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"39.948"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Argon tptp.s__EnglishLanguage |tptp.'Monatomic noble gas. Makes up 0.93 percent of the air. Colourless, odorless. Is inert and has no true compounds. Lord Rayleigh and Sir william Ramsey identified argon in 1894.'|) (tptp.s__subclass tptp.s__Potassium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Potassium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Potassium |tptp.'Potassium'|) (tptp.s__conventionalShortName |tptp.'K'| tptp.s__Potassium) (tptp.s__atomicNumber tptp.s__Potassium |"19"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Potassium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"39.0983"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Potassium tptp.s__EnglishLanguage |tptp.'Soft silvery metallic element belonging to group 1 of the periodic table (alkali metals). Occurs naturally in seawater and a many minerals. Highly reactive, chemically, it resembles sodium in its behavior and compounds. Discovered by Sir Humphry Davy in 1807.'|) (tptp.s__subclass tptp.s__Calcium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Calcium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Calcium |tptp.'Calcium'|) (tptp.s__conventionalShortName |tptp.'Ca'| tptp.s__Calcium) (tptp.s__atomicNumber tptp.s__Calcium |"20"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Calcium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"40.08"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Calcium tptp.s__EnglishLanguage |tptp.'Soft grey metallic element belonging to group 2 of the periodic table. Used a reducing agent in the extraction of thorium, zirconium and uranium. Essential element for living organisms.'|) (tptp.s__subclass tptp.s__Scandium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Scandium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Scandium |tptp.'Scandium'|) (tptp.s__conventionalShortName |tptp.'Sc'| tptp.s__Scandium) (tptp.s__atomicNumber tptp.s__Scandium |"21"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Scandium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"44.956"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Scandium tptp.s__EnglishLanguage |tptp.'Rare soft silvery metallic element belonging to group 3 of the periodic table. There are ten isotopes, nine of which are radioactive and have short half-lives. Predicted in 1869 by Mendeleev, isolated by Nilson in 1879.'|) (tptp.s__subclass tptp.s__Titanium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Titanium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Titanium |tptp.'Titanium'|) (tptp.s__conventionalShortName |tptp.'Ti'| tptp.s__Titanium) (tptp.s__atomicNumber tptp.s__Titanium |"22"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Titanium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"47.90"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Titanium tptp.s__EnglishLanguage |tptp.'White metallic transition element. Occurs in numerous minerals. Used in strong, light corrosion-resistant alloys. Forms a passive oxide coating when exposed to air. First discovered by Gregor in 1789.'|) (tptp.s__subclass tptp.s__Vanadium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Vanadium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Vanadium |tptp.'Vanadium'|) (tptp.s__conventionalShortName |tptp.'V'| tptp.s__Vanadium) (tptp.s__atomicNumber tptp.s__Vanadium |"23"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Vanadium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"50.9415"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Vanadium tptp.s__EnglishLanguage |tptp.'Soft and ductile, bright white metal. Good resistance to corrosion by alkalis, sulphuric and hydrochloric acid. It oxidizes readily about 933K. There are two naturally occurring isotopes of vanadium, and 5 radioisotopes, V-49 having the longest half-life at 337 days. Vanadium has nuclear applications, the foil is used in cladding titanium to steel, and vanadium-gallium tape is used to produce a superconductive magnet. Originally discovered by Andres Manuel del Rio of Mexico City in 1801. His discovery went unheeded, however, and in 1820, Nils Gabriel Sefstron of Sweden rediscovered it. Metallic vanadium was isolated by Henry Enfield Roscoe in 1867. The name vanadium comes from {Vanadis}, a goddess of Scandinavian mythology. Silvery-white metallic transition element. Vanadium is essential to {ascidian}s. Rats and chickens are also known to require it. Metal powder is a fire hazard, and vanadium compounds should be considered highly toxic. May cause lung cancer if inhaled.'|) (tptp.s__subclass tptp.s__Chromium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Chromium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Chromium |tptp.'Chromium'|) (tptp.s__conventionalShortName |tptp.'Cr'| tptp.s__Chromium) (tptp.s__atomicNumber tptp.s__Chromium |"24"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Chromium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"51.996"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Chromium tptp.s__EnglishLanguage |tptp.'Hard silvery transition element. Used in decorative electroplating. Discovered in 1797 by Vauquelin.'|) (tptp.s__subclass tptp.s__Manganese tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Manganese__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Manganese |tptp.'Manganese'|) (tptp.s__conventionalShortName |tptp.'Mn'| tptp.s__Manganese) (tptp.s__atomicNumber tptp.s__Manganese |"25"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Manganese) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"54.938"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Manganese tptp.s__EnglishLanguage |tptp.'Grey brittle metallic transition element. Rather electropositive, combines with some non-metals when heated. Discovered in 1774 by Scheele.'|) (tptp.s__subclass tptp.s__Iron tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Iron__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Iron |tptp.'Iron'|) (tptp.s__conventionalShortName |tptp.'Fe'| tptp.s__Iron) (tptp.s__atomicNumber tptp.s__Iron |"26"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Iron) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"55.847"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Iron tptp.s__EnglishLanguage |tptp.'Silvery malleable and ductile metallic transition element. Has nine isotopes and is the fourth most abundant element in the earths crust. Required by living organisms as a trace element (used in hemoglobin in humans.) Quite reactive, oxidizes in moist air, displaces hydrogen from dilute acids and combines with nonmetallic elements.'|) (tptp.s__subclass tptp.s__Cobalt tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Cobalt__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Cobalt |tptp.'Cobalt'|) (tptp.s__conventionalShortName |tptp.'Co'| tptp.s__Cobalt) (tptp.s__atomicNumber tptp.s__Cobalt |"27"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Cobalt) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"58.993"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Cobalt tptp.s__EnglishLanguage |tptp.'Light grey transition element. Some meteorites contain small amounts of metallic cobalt. Generally alloyed for use. Mammals require small amounts of cobalt salts. Cobalt-60, an artificially produced radioactive isotope of Cobalt is an important radioactive tracer and cancer-treatment agent. Discovered by G. Brandt in 1737.'|) (tptp.s__subclass tptp.s__Nickel tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Nickel__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Nickel |tptp.'Nickel'|) (tptp.s__conventionalShortName |tptp.'Ni'| tptp.s__Nickel) (tptp.s__atomicNumber tptp.s__Nickel |"28"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Nickel) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"58.71"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Nickel tptp.s__EnglishLanguage |tptp.'Malleable ductile silvery metallic transition element. Discovered by A.F. Cronstedt in 1751.'|) (tptp.s__subclass tptp.s__Copper tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Copper__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Copper |tptp.'Copper'|) (tptp.s__conventionalShortName |tptp.'Cu'| tptp.s__Copper) (tptp.s__atomicNumber tptp.s__Copper |"29"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Copper) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"63.54"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Copper tptp.s__EnglishLanguage |tptp.'Red-brown transition element. Known by the Romans as cuprum. Extracted and used for thousands of years. Malleable, ductile and an excellent conductor of heat and electricity. When in moist conditions, a greenish layer forms on the outside.'|) (tptp.s__subclass tptp.s__Zinc tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Zinc__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Zinc |tptp.'Zinc'|) (tptp.s__conventionalShortName |tptp.'Zn'| tptp.s__Zinc) (tptp.s__atomicNumber tptp.s__Zinc |"30"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Zinc) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"65.38"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Zinc tptp.s__EnglishLanguage |tptp.'Blue-white metallic element. Occurs in multiple compounds naturally. Five stable isotopes are six radioactive isotopes have been found. Chemically a reactive metal, combines with oxygen and other non-metals, reacts with dilute acids to release hydrogen.'|) (tptp.s__subclass tptp.s__Gallium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Gallium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Gallium |tptp.'Gallium'|) (tptp.s__conventionalShortName |tptp.'Ga'| tptp.s__Gallium) (tptp.s__atomicNumber tptp.s__Gallium |"31"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Gallium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"69.72"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Gallium tptp.s__EnglishLanguage |tptp.'Soft silvery metallic element, belongs to group 13 of the periodic table. The two stable isotopes are Ga-69 and Ga-71. Eight radioactive isotopes are known, all having short half-lives. Gallium Arsenide is used as a semiconductor. Corrodes most other metals by diffusing into their lattice. First identified by Francois Lecoq de Boisbaudran in 1875.'|) (tptp.s__subclass tptp.s__Germanium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Germanium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Germanium |tptp.'Germanium'|) (tptp.s__conventionalShortName |tptp.'Ge'| tptp.s__Germanium) (tptp.s__atomicNumber tptp.s__Germanium |"32"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Germanium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"72.59"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Germanium tptp.s__EnglishLanguage |tptp.'Lustrous hard metalloid element, belongs to group 14 of the periodic table. Forms a large number of organometallic compounds. Predicted by Mendeleev in 1871, it was actually found in 1886 by Winkler.'|) (tptp.s__subclass tptp.s__Arsenic tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Arsenic__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Arsenic |tptp.'Arsenic'|) (tptp.s__conventionalShortName |tptp.'As'| tptp.s__Arsenic) (tptp.s__atomicNumber tptp.s__Arsenic |"33"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Arsenic) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"74.922"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Arsenic tptp.s__EnglishLanguage |tptp.'Metalloid element of group 15. There are three allotropes, yellow, black, and grey. Reacts with halogens, concentrated oxidizing acids and hot alkalis. Albertus Magnus is believed to have been the first to isolate the element in 1250.'|) (tptp.s__subclass tptp.s__Selenium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Selenium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Selenium |tptp.'Selenium'|) (tptp.s__conventionalShortName |tptp.'Se'| tptp.s__Selenium) (tptp.s__atomicNumber tptp.s__Selenium |"34"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Selenium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"78.96"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Selenium tptp.s__EnglishLanguage |tptp.'Metalloid element, belongs to group 16 of the periodic table. Multiple allotropic forms exist. Chemically resembles sulphur. Discovered in 1817 by Jons J. Berzelius.'|) (tptp.s__subclass tptp.s__Bromine tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Bromine__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Bromine |tptp.'Bromine'|) (tptp.s__conventionalShortName |tptp.'Br'| tptp.s__Bromine) (tptp.s__atomicNumber tptp.s__Bromine |"35"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Bromine) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"79.909"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Bromine tptp.s__EnglishLanguage |tptp.'Halogen element. Red volatile liquid at room temperature. Its reactivity is somewhere between chlorine and iodine. Harmful to human tissue in a liquid state, the vapour irritates eyes and throat. Discovered in 1826 by Antoine Balard.'|) (tptp.s__subclass tptp.s__Krypton tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Krypton__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Krypton |tptp.'Krypton'|) (tptp.s__conventionalShortName |tptp.'Kr'| tptp.s__Krypton) (tptp.s__atomicNumber tptp.s__Krypton |"36"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Krypton) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"83.80"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Krypton tptp.s__EnglishLanguage |tptp.'Colorless gaseous element, belongs to the noble gases. Occurs in the air, 0.0001 percent by volume. It can be extracted from liquid air by fractional distillation. Generally not isolated, but used with other inert gases in fluorescent lamps. Five natural isotopes, and five radioactive isotopes. Kr-85, the most stable radioactive isotope, has a half-life of 10.76 years and is produced in fission reactors. Practically inert, though known to form compounds with {fluorine}.'|) (tptp.s__subclass tptp.s__Rubidium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Rubidium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Rubidium |tptp.'Rubidium'|) (tptp.s__conventionalShortName |tptp.'Rb'| tptp.s__Rubidium) (tptp.s__atomicNumber tptp.s__Rubidium |"37"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Rubidium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"85.47"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Rubidium tptp.s__EnglishLanguage |tptp.'Soft silvery metallic element, belongs to group 1 of the periodic table. Rb-97, the naturally occurring isotope, is radioactive. It is highly reactive, with properties similar to other elements in group 1, like igniting spontaneously in air. Discovered spectroscopically in 1861 by W. Bunsen and G.R. Kirchoff.'|) (tptp.s__subclass tptp.s__Strontium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Strontium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Strontium |tptp.'Strontium'|) (tptp.s__conventionalShortName |tptp.'Sr'| tptp.s__Strontium) (tptp.s__atomicNumber tptp.s__Strontium |"38"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Strontium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"87.62"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Strontium tptp.s__EnglishLanguage |tptp.'Soft yellowish metallic element, belongs to group 2 of the periodic table. Highly reactive chemically. Sr-90 is present in radioactive fallout and has a half-life of 28 years. Discovered in 1798 by Klaproth and Hope, isolated in 1808 by Humphry Davy.'|) (tptp.s__subclass tptp.s__Yttrium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Yttrium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Yttrium |tptp.'Yttrium'|) (tptp.s__conventionalShortName |tptp.'Y'| tptp.s__Yttrium) (tptp.s__atomicNumber tptp.s__Yttrium |"39"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Yttrium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"88.905"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Yttrium tptp.s__EnglishLanguage |tptp.'Silvery-grey metallic element of group 3 on the periodic table. Found in uranium ores. The only natural isotope is Y-89, there are 14 other artificial isotopes. Chemically resembles the lanthanoids. Stable in the air below 400 degrees, celsius. Discovered in 1828 by Friedrich Wohler.'|) (tptp.s__subclass tptp.s__Zirconium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Zirconium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Zirconium |tptp.'Zirconium'|) (tptp.s__conventionalShortName |tptp.'Zr'| tptp.s__Zirconium) (tptp.s__atomicNumber tptp.s__Zirconium |"40"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Zirconium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"91.22"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Zirconium tptp.s__EnglishLanguage |tptp.'Grey-white metallic transition element. Five natural isotopes and six radioactive isotopes are known. Used in nuclear reactors for a {neutron} absorber. Discovered in 1789 by Martin Klaproth, isolated in 1824 by Berzelius.'|) (tptp.s__subclass tptp.s__Niobium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Niobium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Niobium |tptp.'Niobium'|) (tptp.s__conventionalShortName |tptp.'Nb'| tptp.s__Niobium) (tptp.s__atomicNumber tptp.s__Niobium |"41"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Niobium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"92.906"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Niobium tptp.s__EnglishLanguage |tptp.'Soft, ductile grey-blue metallic transition element. Used in special steels and in welded joints to increase strength. Combines with halogens and oxidizes in air at 200 degrees celsius. Discovered by Charles Hatchett in 1801 and isolated by Blomstrand in 1864. Called {columbium} originally.'|) (tptp.s__subclass tptp.s__Molybdenum tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Molybdenum__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Molybdenum |tptp.'Molybdenum'|) (tptp.s__conventionalShortName |tptp.'Mo'| tptp.s__Molybdenum) (tptp.s__atomicNumber tptp.s__Molybdenum |"42"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Molybdenum) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"95.94"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Molybdenum tptp.s__EnglishLanguage |tptp.'Silvery-white, hard metallic transition element. It is chemically unreactive and is not affected by most acids. It oxidizes at high temperatures. There are seven natural isotopes, and four radioisotopes, Mo-93 being the most stable with a half-life of 3500 years. Molybdenum is used in almost all high-strength steels, it has nuclear applications, and is a catalyst in petroleum refining. Discovered in 1778 by Carl Welhelm Scheele of Sweden. Impure metal was prepared in 1782 by Peter Jacob Hjelm. The name comes from the Greek word molybdos which means lead. Trace amounts of molybdenum are required for all known forms of life. All molybdenum compounds should be considered highly toxic, and will also cause severe birth defects.'|) (tptp.s__subclass tptp.s__Technetium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Technetium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Technetium |tptp.'Technetium'|) (tptp.s__conventionalShortName |tptp.'Tc'| tptp.s__Technetium) (tptp.s__atomicNumber tptp.s__Technetium |"43"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Technetium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"98"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Technetium tptp.s__EnglishLanguage |tptp.'Radioactive metallic transition element. Can be detected in some stars and the fission products of uranium. First made by Perrier and Segre by bombarding molybdenum with deutrons, giving them Tc-97. Tc-99 is the most stable isotope with a half-life of 2.6*10^6 years. Sixteen isotopes are known. Organic technetium compounds are used in bone imaging. Chemical properties are intermediate between rhenium and manganese.'|) (tptp.s__subclass tptp.s__Ruthenium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Ruthenium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Ruthenium |tptp.'Ruthenium'|) (tptp.s__conventionalShortName |tptp.'Ru'| tptp.s__Ruthenium) (tptp.s__atomicNumber tptp.s__Ruthenium |"44"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Ruthenium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"101.07"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Ruthenium tptp.s__EnglishLanguage |tptp.'Hard white metallic transition element. Found with platinum, used as a catalyst in some platinum alloys. Dissolves in fused alkalis, and is not attacked by acids. Reacts with halogens and oxygen at high temperatures. Isolated in 1844 by K.K. Klaus.'|) (tptp.s__subclass tptp.s__Rhodium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Rhodium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Rhodium |tptp.'Rhodium'|) (tptp.s__conventionalShortName |tptp.'Rh'| tptp.s__Rhodium) (tptp.s__atomicNumber tptp.s__Rhodium |"45"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Rhodium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"102.905"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Rhodium tptp.s__EnglishLanguage |tptp.'Silvery white metallic transition element. Found with platinum and used in some platinum alloys. Not attacked by acids, dissolves only in aqua regia. Discovered in 1803 by W.H. Wollaston.'|) (tptp.s__subclass tptp.s__Palladium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Palladium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Palladium |tptp.'Palladium'|) (tptp.s__conventionalShortName |tptp.'Pd'| tptp.s__Palladium) (tptp.s__atomicNumber tptp.s__Palladium |"46"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Palladium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"106.4"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Palladium tptp.s__EnglishLanguage |tptp.'Soft white ductile transition element. Found with some copper and nickel ores. Does not react with oxygen at normal temperatures. Dissolves slowly in hydrochloric acid. Discovered in 1803 by W.H. Wollaston.'|) (tptp.s__subclass tptp.s__Silver tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Silver__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Silver |tptp.'Silver'|) (tptp.s__conventionalShortName |tptp.'Ag'| tptp.s__Silver) (tptp.s__atomicNumber tptp.s__Silver |"47"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Silver) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"107.870"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Silver tptp.s__EnglishLanguage |tptp.'White lustrous soft metallic transition element. Found in both its elemental form and in minerals. Used in jewellery, tableware and so on. Less reactive than silver, chemically.'|) (tptp.s__subclass tptp.s__Cadmium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Cadmium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Cadmium |tptp.'Cadmium'|) (tptp.s__conventionalShortName |tptp.'Cd'| tptp.s__Cadmium) (tptp.s__atomicNumber tptp.s__Cadmium |"48"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Cadmium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"112.40"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Cadmium tptp.s__EnglishLanguage |tptp.'Soft bluish metal belonging to group 12 of the periodic table. Extremely toxic even in low concentrations. Chemically similar to zinc, but lends itself to more complex compounds. Discovered in 1817 by F. Stromeyer.'|) (tptp.s__subclass tptp.s__Indium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Indium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Indium |tptp.'Indium'|) (tptp.s__conventionalShortName |tptp.'In'| tptp.s__Indium) (tptp.s__atomicNumber tptp.s__Indium |"49"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Indium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"114.82"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Indium tptp.s__EnglishLanguage |tptp.'Soft silvery element belonging to group 13 of the periodic table. The most common natural isotope is In-115, which has a half-life of 6*10^4 years. Five other radioisotopes exist. Discovered in 1863 by Reich and Richter.'|) (tptp.s__subclass tptp.s__Tin tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Tin__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Tin |tptp.'Tin'|) (tptp.s__conventionalShortName |tptp.'Sn'| tptp.s__Tin) (tptp.s__atomicNumber tptp.s__Tin |"50"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Tin) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"118.69"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Tin tptp.s__EnglishLanguage |tptp.'Silvery malleable metallic element belonging to group 14 of the periodic table. Twenty-six isotopes are known, five of which are radioactive. Chemically reactive. Combines directly with chlorine and oxygen and displaces hydrogen from dilute acids. '|) (tptp.s__subclass tptp.s__Antimony tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Antimony__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Antimony |tptp.'Antimony'|) (tptp.s__conventionalShortName |tptp.'Sb'| tptp.s__Antimony) (tptp.s__atomicNumber tptp.s__Antimony |"51"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Antimony) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"121.75"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Antimony tptp.s__EnglishLanguage |tptp.'Element of group 15. Multiple allotropic forms. The stable form of antimony is a blue-white metal. Yellow and black antimony are unstable non-metals. Used in flame-proofing, paints, ceramics, enamels, and rubber. Attacked by oxidizing acids and halogens. First reported by Tholden in 1450.'|) (tptp.s__subclass tptp.s__Tellurium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Tellurium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Tellurium |tptp.'Tellurium'|) (tptp.s__conventionalShortName |tptp.'Te'| tptp.s__Tellurium) (tptp.s__atomicNumber tptp.s__Tellurium |"52"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Tellurium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"127.60"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Tellurium tptp.s__EnglishLanguage |tptp.'Silvery metalloid element of group 16. Eight natural isotopes, nine radioactive isotopes. Used in semiconductors and to a degree in some steels. Chemistry is similar to {sulphur}. Discovered in 1782 by Franz Miller.'|) (tptp.s__subclass tptp.s__Iodine tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Iodine__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Iodine |tptp.'Iodine'|) (tptp.s__conventionalShortName |tptp.'I'| tptp.s__Iodine) (tptp.s__atomicNumber tptp.s__Iodine |"53"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Iodine) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"126.904"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Iodine tptp.s__EnglishLanguage |tptp.'Dark violet nonmetallic element, belongs to group 17 of the periodic table. Insoluble in water. Required as a trace element for living organisms. One stable isotope, I-127 exists, in addition to fourteen radioactive isotopes. Chemically the least reactive of the halogens, and the most electropositive metallic halogen. Discovered in 1812 by Courtois. '|) (tptp.s__subclass tptp.s__Xenon tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Xenon__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Xenon |tptp.'Xenon'|) (tptp.s__conventionalShortName |tptp.'Xe'| tptp.s__Xenon) (tptp.s__atomicNumber tptp.s__Xenon |"54"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Xenon) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"131.30"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Xenon tptp.s__EnglishLanguage |tptp.'Colourless, odourless gas belonging to group 18 on the periodic table (the noble gases.) Nine natural isotopes and seven radioactive isotopes are known. Xenon was part of the first noble-gas compound synthesized. Several others involving Xenon have been found since then. Xenon was discovered by Ramsey and Travers in 1898.'|) (tptp.s__subclass tptp.s__Caesium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Caesium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Caesium |tptp.'Caesium'|) (tptp.s__conventionalShortName |tptp.'Cs'| tptp.s__Caesium) (tptp.s__atomicNumber tptp.s__Caesium |"55"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Caesium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"132.90545"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Caesium tptp.s__EnglishLanguage |tptp.'Soft silvery-white metallic element belonging to group 1 of the periodic table. One of the three metals which are liquid at room temperature. Cs-133 is the natural, and only stable, isotope. Fifteen other radioisotopes exist. Caesium reacts explosively with cold water, and ice at temperatures above 157K. Caesium hydroxide is the strongest base known. Caesium is the most electropositive, most alkaline and has the least ionization potential of all the elements. Known uses include the basis of atomic clocks, catalyst for the hydrogenation of some organic compounds, and in photoelectric cells. Caesium was discovered by Gustav Kirchoff and Robert Bunsen in Germany in 1860 spectroscopically. Its identification was based upon the bright blue lines in its spectrum. The name comes from the latin word caesius, which means sky blue. Caesium should be considered highly toxic. Some of the radioisotopes are even more toxic.'|) (tptp.s__subclass tptp.s__Barium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Barium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Barium |tptp.'Barium'|) (tptp.s__conventionalShortName |tptp.'Ba'| tptp.s__Barium) (tptp.s__atomicNumber tptp.s__Barium |"56"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Barium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"137.34"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Barium tptp.s__EnglishLanguage |tptp.'Silvery-white reactive element, belonging to group 2 of the periodic table. Soluble barium compounds are extremely poisonous. Identified in 1774 by Karl Scheele and extracted in 1808 by Humphry Davy.'|) (tptp.s__subclass tptp.s__Lanthanum tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Lanthanum__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Lanthanum |tptp.'Lanthanum'|) (tptp.s__conventionalShortName |tptp.'La'| tptp.s__Lanthanum) (tptp.s__atomicNumber tptp.s__Lanthanum |"57"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Lanthanum) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"138.9055"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Lanthanum tptp.s__EnglishLanguage |tptp.'(From the Greek word lanthanein, to line hidden) Silvery metallic element belonging to group 3 of the periodic table and oft considered to be one of the lanthanoids. Found in some rare-earth minerals. Twenty-five natural isotopes exist. La-139 which is stable, and La-138 which has a half-life of 10^10 to 10^15 years. The other twenty-three isotopes are radioactive. It resembles the lanthanoids chemically. Lanthanum has a low to moderate level of toxicity, and should be handled with care. Discovered in 1839 by C.G. Mosander.'|) (tptp.s__subclass tptp.s__Cerium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Cerium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Cerium |tptp.'Cerium'|) (tptp.s__conventionalShortName |tptp.'Ce'| tptp.s__Cerium) (tptp.s__atomicNumber tptp.s__Cerium |"58"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Cerium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"140.12"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Cerium tptp.s__EnglishLanguage |tptp.'Silvery metallic element, belongs to the lanthanoids. Four natural isotopes exist, and fifteen radioactive isotopes have been identified. Used in some rare-earth alloys. The oxidized form is used in the glass industry. Discovered by Martin .H. Klaproth in 1803.'|) (tptp.s__subclass tptp.s__Praseodymium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Praseodymium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Praseodymium |tptp.'Praseodymium'|) (tptp.s__conventionalShortName |tptp.'Pr'| tptp.s__Praseodymium) (tptp.s__atomicNumber tptp.s__Praseodymium |"59"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Praseodymium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"140.907"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Praseodymium tptp.s__EnglishLanguage |tptp.'Soft silvery metallic element, belongs to the lanthanoids. Only natural isotope is Pr-141 which is not radioactive. Fourteen radioactive isotopes have been artificially produced. Used in rare-earth alloys. Discovered in 1885 by C.A. von Welsbach.'|) (tptp.s__subclass tptp.s__Neodymium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Neodymium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Neodymium |tptp.'Neodymium'|) (tptp.s__conventionalShortName |tptp.'Nd'| tptp.s__Neodymium) (tptp.s__atomicNumber tptp.s__Neodymium |"60"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Neodymium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"144.24"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Neodymium tptp.s__EnglishLanguage |tptp.'Soft bright silvery metallic element, belongs to the lanthanoids. Seven natural isotopes, Nd-144 being the only radioactive one with a half-life of 10^10 to 10^15 years. Six artificial radioisotopes have been produced. The metal is used in glass works to color class a shade of violet-purple and make it dichroic. One of the more reactive rare-earth metals, quickly reacts with air. Used in some rare-earth alloys. Neodymium is used to color the glass used in welders glasses. Neodymium is also used in very powerful, permanent magnets (Nd2Fe14B). Discovered by Carl F. Auer von Welsbach in Austria in 1885 by separating didymium into its elemental components {praseodymium} and neodymium. The name comes from the Greek words neos didymos which means new twin. Neodymium should be considered highly toxic, however evidence would seem to show that it acts as little more than a skin and eye irritant. The dust however, presents a fire and explosion hazard.'|) (tptp.s__subclass tptp.s__Promethium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Promethium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Promethium |tptp.'Promethium'|) (tptp.s__conventionalShortName |tptp.'Pm'| tptp.s__Promethium) (tptp.s__atomicNumber tptp.s__Promethium |"61"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Promethium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"147"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Promethium tptp.s__EnglishLanguage |tptp.'Soft silvery metallic element, belongs to the lanthanoids. Pm-147, the only natural isotope, is radioactive and has a half-life of 252 years. Eighteen radioisotopes have been produced, but all have very short half-lives. Found only in nuclear decay waste. Pm-147 is of interest as a beta-decay source, however Pm-146 and Pm-148 have to be removed from it first, as they generate gamma radiation. Discovered by J.A. Marinsky, L.E. Glendenin and C.D. Coryell in 1947.'|) (tptp.s__subclass tptp.s__Samarium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Samarium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Samarium |tptp.'Samarium'|) (tptp.s__conventionalShortName |tptp.'Sm'| tptp.s__Samarium) (tptp.s__atomicNumber tptp.s__Samarium |"62"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Samarium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"150.35"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Samarium tptp.s__EnglishLanguage |tptp.'Soft silvery metallic element, belongs to the lanthanoids. Seven natural isotopes, Sm-147 is the only radioisotope, and has a half-life of 2.5*10^11 years. Used for making special alloys needed in the production of nuclear reactors. Also used as a neutron absorber. Small quantities of samarium oxide is used in special optical glasses. The largest use of the element is its ferromagnetic alloy which produces permanent magnets that are five times stronger than magnets produced by any other material. Discovered by Francois Lecoq de Boisbaudran in 1879.'|) (tptp.s__subclass tptp.s__Europium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Europium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Europium |tptp.'Europium'|) (tptp.s__conventionalShortName |tptp.'Eu'| tptp.s__Europium) (tptp.s__atomicNumber tptp.s__Europium |"63"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Europium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"151.25"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Europium tptp.s__EnglishLanguage |tptp.'Soft silvery metallic element belonging to the lanthanoids. Eu-151 and Eu-153 are the only two stable isotopes, both of which are {neutron} absorbers. Discovered in 1889 by Sir William Crookes.'|) (tptp.s__subclass tptp.s__Gadolinium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Gadolinium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Gadolinium |tptp.'Gadolinium'|) (tptp.s__conventionalShortName |tptp.'Gd'| tptp.s__Gadolinium) (tptp.s__atomicNumber tptp.s__Gadolinium |"64"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Gadolinium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"157.25"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Gadolinium tptp.s__EnglishLanguage |tptp.'Soft silvery metallic element belonging to the lanthanoids. Seven natural, stable isotopes are known in addition to eleven artificial isotopes. Gd-155 and Gd-157 and the best neutron absorbers of all elements. Gadolinium compounds are used in electronics. Discovered by J.C.G Marignac in 1880.'|) (tptp.s__subclass tptp.s__Terbium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Terbium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Terbium |tptp.'Terbium'|) (tptp.s__conventionalShortName |tptp.'Tb'| tptp.s__Terbium) (tptp.s__atomicNumber tptp.s__Terbium |"65"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Terbium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"158.924"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Terbium tptp.s__EnglishLanguage |tptp.'Silvery metallic element belonging to the lanthanoids. Tb-159 is the only stable isotope, there are seventeen artificial isotopes. Discovered by G.G. Mosander in 1843.'|) (tptp.s__subclass tptp.s__Dysprosium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Dysprosium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Dysprosium |tptp.'Dysprosium'|) (tptp.s__conventionalShortName |tptp.'Dy'| tptp.s__Dysprosium) (tptp.s__atomicNumber tptp.s__Dysprosium |"66"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Dysprosium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"162.50"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Dysprosium tptp.s__EnglishLanguage |tptp.'Metallic with a bright silvery-white lustre. Dysprosium belongs to the lanthanoids. It is relatively stable in air at room temperatures, it will however dissolve in mineral acids, evolving hydrogen. It is found in from rare-earth minerals. There are seven natural isotopes of dysprosium, and eight radioisotopes, Dy-154 being the most stable with a half-life of 3*10^6 years. Dysprosium is used as a neutron absorber in nuclear fission reactions, and in compact disks. It was discovered by Paul Emile Lecoq de Boisbaudran in 1886 in France. Its name comes from the Greek word dysprositos, which means hard to obtain.'|) (tptp.s__subclass tptp.s__Holmium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Holmium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Holmium |tptp.'Holmium'|) (tptp.s__conventionalShortName |tptp.'Ho'| tptp.s__Holmium) (tptp.s__atomicNumber tptp.s__Holmium |"67"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Holmium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"167.26"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Holmium tptp.s__EnglishLanguage |tptp.'Relatively soft and malleable silvery-white metallic element, which is stable in dry air at room temperature. It oxidizes in moist air and at high temperatures. It belongs to the lanthanoids. A rare-earth metal, it is found in the minerals monazite and gadolinite. It possesses unusual magnetic properties. One natural isotope, Ho-165 exists, six radioisotopes exist, the most stable being Ho-163 with a half-life of 4570 years. Holmium is used in some metal alloys, it is also said to stimulate the metabolism. Discovered by Per Theodor Cleve and J.L. Soret in Switzerland in 1879. The name homium comes from the Greek word Holmia which means Sweden. While all holmium compounds should be considered highly toxic, initial evidence seems to indicate that they do not pose much danger. The metals dust however, is a fire hazard.'|) (tptp.s__subclass tptp.s__Erbium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Erbium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Erbium |tptp.'Erbium'|) (tptp.s__conventionalShortName |tptp.'Er'| tptp.s__Erbium) (tptp.s__atomicNumber tptp.s__Erbium |"68"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Erbium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"167.26"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Erbium tptp.s__EnglishLanguage |tptp.'Soft silvery metallic element which belongs to the lanthanoids. Six natural isotopes that are stable. Twelve artificial isotopes are known. Used in nuclear technology as a neutron absorber. It is being investigated for other possible uses. Discovered by Carl G. Mosander in 1843.'|) (tptp.s__subclass tptp.s__Thulium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Thulium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Thulium |tptp.'Thulium'|) (tptp.s__conventionalShortName |tptp.'Tm'| tptp.s__Thulium) (tptp.s__atomicNumber tptp.s__Thulium |"69"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Thulium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"168.934"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Thulium tptp.s__EnglishLanguage |tptp.'Soft grey metallic element that belongs to the lanthanoids. One natural isotope exists, Tm-169, and seventeen artificial isotopes have been produced. No known uses for the element. Discovered in 1879 by Per Theodor Cleve.'|) (tptp.s__subclass tptp.s__Ytterbium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Ytterbium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Ytterbium |tptp.'Ytterbium'|) (tptp.s__conventionalShortName |tptp.'Yb'| tptp.s__Ytterbium) (tptp.s__atomicNumber tptp.s__Ytterbium |"70"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Ytterbium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"173.04"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Ytterbium tptp.s__EnglishLanguage |tptp.'Silvery metallic element of the lanthanoids. Seven natural isotopes and ten artificial isotopes are known. Used in certain steels. Discovered by J.D.G. Marignac in 1878.'|) (tptp.s__subclass tptp.s__Lutetium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Lutetium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Lutetium |tptp.'Lutetium'|) (tptp.s__conventionalShortName |tptp.'Lu'| tptp.s__Lutetium) (tptp.s__atomicNumber tptp.s__Lutetium |"71"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Lutetium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"194.967"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Lutetium tptp.s__EnglishLanguage |tptp.'Silvery-white rare-earth metal which is relatively stable in air. It happens to be the most expensive rare-earth metal. Its found with almost all rare-earth metals, but is very difficult to separate from other elements. Least abundant of all natural elements. Used in metal alloys, and as a catalyst in various processes. There are two natural, stable isotopes, and seven radioisotopes, the most stable being Lu-174 with a half-life of 3.3 years. The separation of lutetium from {ytterbium} was described by Georges Urbain in 1907. It was discovered at approximately the same time by Carl Auer von Welsbach. The name comes from the Greek word lutetia which means Paris.'|) (tptp.s__subclass tptp.s__Hafnium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Hafnium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Hafnium |tptp.'Hafnium'|) (tptp.s__conventionalShortName |tptp.'Hf'| tptp.s__Hafnium) (tptp.s__atomicNumber tptp.s__Hafnium |"72"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Hafnium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"178.49"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Hafnium tptp.s__EnglishLanguage |tptp.'Silvery lustrous metallic transition element. Used in tungsten alloys in filaments and electrodes, also acts as a neutron absorber. First reported by Urbain in 1911, existence was finally established in 1923 by D. Coster, G.C. de Hevesy in 1923.'|) (tptp.s__subclass tptp.s__Tantalum tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Tantalum__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Tantalum |tptp.'Tantalum'|) (tptp.s__conventionalShortName |tptp.'Ta'| tptp.s__Tantalum) (tptp.s__atomicNumber tptp.s__Tantalum |"73"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Tantalum) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"180.948"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Tantalum tptp.s__EnglishLanguage |tptp.'Heavy blue-grey metallic transition element. Ta-181 is a stable isotope, and Ta-180 is a radioactive isotope, with a half-life in excess of 10^7 years. Used in surgery as it is unreactive. Forms a passive oxide layer in air. Identified in 1802 by Ekeberg and isolated in 1820 by Jons J. Berzelius.'|) (tptp.s__subclass tptp.s__Tungsten tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Tungsten__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Tungsten |tptp.'Tungsten'|) (tptp.s__conventionalShortName |tptp.'W'| tptp.s__Tungsten) (tptp.s__atomicNumber tptp.s__Tungsten |"74"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Tungsten) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"183.85"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Tungsten tptp.s__EnglishLanguage |tptp.'White or grey metallic transition element, formerly called {wolfram}. Forms a protective oxide in air and can be oxidized at high temperature. First isolated by Jose and Fausto de Elhuyer in 1783.'|) (tptp.s__subclass tptp.s__Rhenium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Rhenium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Rhenium |tptp.'Rhenium'|) (tptp.s__conventionalShortName |tptp.'Re'| tptp.s__Rhenium) (tptp.s__atomicNumber tptp.s__Rhenium |"75"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Rhenium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"186.2"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Rhenium tptp.s__EnglishLanguage |tptp.'Silvery-white metallic transition element. Obtained as a by-product of molybdenum refinement. Rhenium-molybdenum alloys are superconducting.'|) (tptp.s__subclass tptp.s__Osmium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Osmium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Osmium |tptp.'Osmium'|) (tptp.s__conventionalShortName |tptp.'Os'| tptp.s__Osmium) (tptp.s__atomicNumber tptp.s__Osmium |"76"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Osmium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"190.2"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Osmium tptp.s__EnglishLanguage |tptp.'Hard blue-white metallic transition element. Found with platinum and used in some alloys with platinum and iridium.'|) (tptp.s__subclass tptp.s__Iridium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Iridium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Iridium |tptp.'Iridium'|) (tptp.s__conventionalShortName |tptp.'Ir'| tptp.s__Iridium) (tptp.s__atomicNumber tptp.s__Iridium |"77"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Iridium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"192.217"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Iridium tptp.s__EnglishLanguage |tptp.'Very hard and brittle, silvery metallic transition element. It has a yellowish cast to it. Salts of iridium are highly colored. It is the most corrosion resistant metal known, not attacked by any acid, but is attacked by molten salts. There are two natural isotopes of iridium, and 4 radioisotopes, the most stable being Ir-192 with a half-life of 73.83 days. Ir-192 decays into {platinum}, while the other radioisotopes decay into {osmium}. Iridium is used in high temperature apparatus, electrical contacts, and as a hardening agent for platinum. Discovered in 1803 by Smithson Tennant in England. The name comes from the Greek word iris, which means rainbow. Iridium metal is generally non-toxic due to its relative unreactivity, but iridium compounds should be considered highly toxic.'|) (tptp.s__subclass tptp.s__Platinum tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Platinum__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Platinum |tptp.'Platinum'|) (tptp.s__conventionalShortName |tptp.'Pt'| tptp.s__Platinum) (tptp.s__atomicNumber tptp.s__Platinum |"78"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Platinum) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"195.078"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Platinum tptp.s__EnglishLanguage |tptp.'Attractive greyish-white metal. When pure, it is malleable and ductile. Does not oxidize in air, insoluble in hydrochloric and nitric acid. Corroded by halogens, cyandies, sulphur and alkalis. {Hydrogen} and {oxygen} react explosively in the presence of platinum. There are six stable isotopes and three radioisotopes, the most stable being Pt-193 with a half-life of 60 years. Platinum is used in jewelry, laboratory equipment, electrical contacts, dentistry, and anti-pollution devices in cars. PtCl2(NH3)2 is used to treat some forms of cancer. Platinum-{cobalt} alloys have magnetic properties. It is also used in the definition of the Standard Hydrogen Electrode. Discovered by Antonio de Ulloa in South America in 1735. The name comes from the Spanish word platina which means silver. Platinum metal is generally not a health concern due to its unreactivity, however platinum compounds should be considered highly toxic.'|) (tptp.s__subclass tptp.s__Gold tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Gold__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Gold |tptp.'Gold'|) (tptp.s__conventionalShortName |tptp.'Au'| tptp.s__Gold) (tptp.s__atomicNumber tptp.s__Gold |"79"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Gold) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"196.96655"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Gold tptp.s__EnglishLanguage |tptp.'Gold is gold colored. It is the most malleable and ductile metal known. There is only one stable isotope of gold, and five radioisotopes of gold, Au-195 being the most stable with a half-life of 186 days. Gold is used as a monetary standard, in jewelry, dentistry, electronics. Au-198 is used in treating cancer and some other medical conditions. Gold has been known to exist as far back as 2600 BC. Gold comes from the Anglo-Saxon word gold. Its symbol, Au, comes from the Latin word aurum, which means gold. Gold is not particularly toxic, however it is known to cause damage to the liver and kidneys in some.'|) (tptp.s__subclass tptp.s__Mercury tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Mercury__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Mercury |tptp.'Mercury'|) (tptp.s__conventionalShortName |tptp.'Hg'| tptp.s__Mercury) (tptp.s__atomicNumber tptp.s__Mercury |"80"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Mercury) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"200.59"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Mercury tptp.s__EnglishLanguage |tptp.'Heavy silvery liquid metallic element, belongs to the zinc group. Used in thermometers, barometers and other scientific apparatus. Less reactive than zinc and cadmium, does not displace hydrogen from acids. Forms a number of complexes and organomercury compounds.'|) (tptp.s__subclass tptp.s__Thallium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Thallium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Thallium |tptp.'Thallium'|) (tptp.s__conventionalShortName |tptp.'Tl'| tptp.s__Thallium) (tptp.s__atomicNumber tptp.s__Thallium |"81"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Thallium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"204.3833"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Thallium tptp.s__EnglishLanguage |tptp.'Pure, unreacted thallium appears silvery-white and exhibits a metallic lustre. Upon reacting with air, it begins to turn bluish-grey and looks like lead. It is very malleable, and can be cut with a knife. There are two stable isotopes, and four radioisotopes, Tl-204 being the most stable with a half-life of 3.78 years. Thallium sulphate was used as a rodenticide. Thallium sulphines conductivity changes with exposure to infrared light, this gives it a use in infrared detectors. Discovered by Sir William Crookes via spectroscopy. Its name comes from the Greek word thallos, which means green twig. Thallium and its compounds are toxic and can cause cancer.'|) (tptp.s__subclass tptp.s__Lead tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Lead__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Lead |tptp.'Lead'|) (tptp.s__conventionalShortName |tptp.'Pb'| tptp.s__Lead) (tptp.s__atomicNumber tptp.s__Lead |"82"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Lead) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"207.19"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Lead tptp.s__EnglishLanguage |tptp.'Heavy dull grey ductile metallic element, belongs to group 14. Used in building construction, lead-place accumulators, bullets and shot, and is part of solder, pewter, bearing metals, type metals and fusible alloys.'|) (tptp.s__subclass tptp.s__Bismuth tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Bismuth__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Bismuth |tptp.'Bismuth'|) (tptp.s__conventionalShortName |tptp.'Bi'| tptp.s__Bismuth) (tptp.s__atomicNumber tptp.s__Bismuth |"83"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Bismuth) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"208.980"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Bismuth tptp.s__EnglishLanguage |tptp.'White crystalline metal with a pink tinge, belongs to group 15. Most diamagnetic of all metals and has the lowest thermal conductivity of all the elements except mercury. Lead-free bismuth compounds are used in cosmetics and medical procedures. Burns in the air and produces a blue flame. In 1753, C.G. Junine first demonstrated that it was different from lead.'|) (tptp.s__subclass tptp.s__Polonium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Polonium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Polonium |tptp.'Polonium'|) (tptp.s__conventionalShortName |tptp.'Po'| tptp.s__Polonium) (tptp.s__atomicNumber tptp.s__Polonium |"84"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Polonium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"210"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Polonium tptp.s__EnglishLanguage |tptp.'Rare radioactive metallic element, belongs to group 16 of the periodic table. Over 30 known isotopes exist, the most of all elements. Po-209 has a half-life of 103 years. Possible uses in heating spacecraft. Discovered by Marie Curie in 1898 in a sample of pitchblende.'|) (tptp.s__subclass tptp.s__Astatine tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Astatine__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Astatine |tptp.'Astatine'|) (tptp.s__conventionalShortName |tptp.'At'| tptp.s__Astatine) (tptp.s__atomicNumber tptp.s__Astatine |"85"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Astatine) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"210"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Astatine tptp.s__EnglishLanguage |tptp.'Radioactive halogen element. Occurs naturally from uranium and thorium decay. At least 20 known isotopes. At-210, the most stable, has a half-life of 8.3 hours. Synthesized by nuclear bombardment in 1940 by D.R. Corson, K.R. MacKenzie and E. Segre at the University of California.'|) (tptp.s__subclass tptp.s__Radon tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Radon__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Radon |tptp.'Radon'|) (tptp.s__conventionalShortName |tptp.'Rn'| tptp.s__Radon) (tptp.s__atomicNumber tptp.s__Radon |"86"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Radon) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"222"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Radon tptp.s__EnglishLanguage |tptp.'Colorless radioactive gaseous element, belongs to the noble gases. Of the twenty known isotopes, the most stable is Rn-222 with a half-life of 3.8 days. Formed by the radioactive decay of {Radium}-226. Radon itself decays into {polonium}. Used in radiotherapy. As a noble gas, it is effectively inert, though radon fluoride has been synthesized. First isolated in 1908 by Ramsey and Gray.'|) (tptp.s__subclass tptp.s__Francium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Francium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Francium |tptp.'Francium'|) (tptp.s__conventionalShortName |tptp.'Fr'| tptp.s__Francium) (tptp.s__atomicNumber tptp.s__Francium |"87"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Francium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"223"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Francium tptp.s__EnglishLanguage |tptp.'Radioactive element, belongs to group 1 of the periodic table. Found in uranium and thorium ores. The 22 known isotopes are all radioactive, with the most stable being Fr-223. Its existence was confirmed in 1939 by Marguerite Perey.'|) (tptp.s__subclass tptp.s__Radium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Radium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Radium |tptp.'Radium'|) (tptp.s__conventionalShortName |tptp.'Ra'| tptp.s__Radium) (tptp.s__atomicNumber tptp.s__Radium |"88"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Radium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"226"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Radium tptp.s__EnglishLanguage |tptp.'Radioactive metallic transuranic element, belongs to group 2 of the periodic table. Most stable isotope, Ra-226 has a half-life of 1602 years, which decays into radon. Isolated from pitchblende in 1898 Marie and Pierre Curie.'|) (tptp.s__subclass tptp.s__Actinium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Actinium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Actinium |tptp.'Actinium'|) (tptp.s__conventionalShortName |tptp.'Ac'| tptp.s__Actinium) (tptp.s__atomicNumber tptp.s__Actinium |"89"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Actinium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"227"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Actinium tptp.s__EnglishLanguage |tptp.'Silvery radioactive metallic element, belongs to group 3 of the periodic table. The most stable isotope, Ac-227, has a half-life of 217 years. Ac-228 (half-life of 6.13 hours) also occurs in nature. There are 22 other artificial isotopes, all radioactive and having very short half-lives. Chemistry similar to lanthanum. Used as a source of alpha particles. Discovered by A. Debierne in 1899.'|) (tptp.s__subclass tptp.s__Thorium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Thorium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Thorium |tptp.'Thorium'|) (tptp.s__conventionalShortName |tptp.'Th'| tptp.s__Thorium) (tptp.s__atomicNumber tptp.s__Thorium |"90"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Thorium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"232.038"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Thorium tptp.s__EnglishLanguage |tptp.'Grey radioactive metallic element. Belongs to actinoids. Found in monazite sand in Brazil, India and the US. Thorium-232 has a half-life of 1.39x10^10 years. Can be used as a nuclear fuel for breeder reactors. Thorium-232 captures slow {neutron}s and breeds uranium-233. Discovered by Jons J. Berzelius in 1829.'|) (tptp.s__subclass tptp.s__Protactinium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Protactinium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Protactinium |tptp.'Protactinium'|) (tptp.s__conventionalShortName |tptp.'Pa'| tptp.s__Protactinium) (tptp.s__atomicNumber tptp.s__Protactinium |"91"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Protactinium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"231"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Protactinium tptp.s__EnglishLanguage |tptp.'Radioactive metallic element, belongs to the actinoids. The most stable isotope, Pa-231 has a half-life of 2.43*10^4 years. At least 10 other radioactive isotopes are known. No practical applications are known. Discovered in 1917 by Lise Meitner and Otto Hahn.'|) (tptp.s__subclass tptp.s__Uranium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Uranium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Uranium |tptp.'Uranium'|) (tptp.s__conventionalShortName |tptp.'U'| tptp.s__Uranium) (tptp.s__atomicNumber tptp.s__Uranium |"92"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Uranium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"231"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Uranium tptp.s__EnglishLanguage |tptp.'White radioactive metallic element belonging to the actinoids. Three natural isotopes, U-238, U-235 and U-234. Uranium-235 is used as the fuel for nuclear reactors and weapons. Discovered by Martin H. Klaproth in 1789.'|) (tptp.s__subclass tptp.s__Neptunium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Neptunium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Neptunium |tptp.'Neptunium'|) (tptp.s__conventionalShortName |tptp.'Np'| tptp.s__Neptunium) (tptp.s__atomicNumber tptp.s__Neptunium |"93"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Neptunium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"237"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Neptunium tptp.s__EnglishLanguage |tptp.'Radioactive metallic transuranic element, belongs to the actinoids. Np-237, the most stable isotope, has a half-life of 2.2*10^6 years and is a by product of nuclear reactors. The other known isotopes have mass numbers 229 through 236, and 238 through 241. Np-236 has a half-life of 5*10^3 years. First produced by Edwin M. McMillan and P.H. Abelson in 1940.'|) (tptp.s__subclass tptp.s__Plutonium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Plutonium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Plutonium |tptp.'Plutonium'|) (tptp.s__conventionalShortName |tptp.'Pu'| tptp.s__Plutonium) (tptp.s__atomicNumber tptp.s__Plutonium |"94"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Plutonium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"242"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Plutonium tptp.s__EnglishLanguage |tptp.'Dense silvery radioactive metallic transuranic element, belongs to the actinoids. Pu-244 is the most stable isotope with a half-life of 7.6*10^7 years. Thirteen isotopes are known. Pu-239 is the most important, it undergoes nuclear fission with slow neutrons and is hence important to nuclear weapons and reactors. Plutonium production is monitored down to the gram to prevent military misuse. First produced by Gleen T. Seaborg, Edwin M. McMillan, J.W. Kennedy and A.C. Wahl in 1940.'|) (tptp.s__subclass tptp.s__Americium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Americium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Americium |tptp.'Americium'|) (tptp.s__conventionalShortName |tptp.'Am'| tptp.s__Americium) (tptp.s__atomicNumber tptp.s__Americium |"95"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Americium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"243"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Americium tptp.s__EnglishLanguage |tptp.'Radioactive metallic transuranic element, belongs to the actinoids. Ten known isotopes. Am-243 is the most stable isotope, with a half-life of 7.95*10^3 years. Discovered by Glenn T. Seaborg and associates in 1945, it was obtained by bombarding {uranium}-238 with alpha particles.'|) (tptp.s__subclass tptp.s__Curium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Curium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Curium |tptp.'Curium'|) (tptp.s__conventionalShortName |tptp.'Cm'| tptp.s__Curium) (tptp.s__atomicNumber tptp.s__Curium |"96"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Curium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"247"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Curium tptp.s__EnglishLanguage |tptp.'Radioactive metallic transuranic element. Belongs to actinoid series. Nine known isotopes, Cm-247 has a half-life of 1.64*10^7 years. First identified by Glenn T. Seaborg and associates in 1944, first produced by L.B. Werner and I. Perlman in 1947 by bombarding americium-241 with {neutron}s. Named for Marie Curie.'|) (tptp.s__subclass tptp.s__Berkelium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Berkelium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Berkelium |tptp.'Berkelium'|) (tptp.s__conventionalShortName |tptp.'Bk'| tptp.s__Berkelium) (tptp.s__atomicNumber tptp.s__Berkelium |"97"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Berkelium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"247"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Berkelium tptp.s__EnglishLanguage |tptp.'Radioactive metallic transuranic element. Belongs to actinoid series. Eight known isotopes, the most common Bk-247, has a half-life of 1.4*10^3 years. First produced by Glenn T. Seaborg and associates in 1949 by bombarding americium-241 with alpha particles.'|) (tptp.s__subclass tptp.s__Californium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Californium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Californium |tptp.'Californium'|) (tptp.s__conventionalShortName |tptp.'Cf'| tptp.s__Californium) (tptp.s__atomicNumber tptp.s__Californium |"98"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Californium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"249"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Californium tptp.s__EnglishLanguage |tptp.'Radioactive metallic transuranic element. Belongs to actinoid series. Cf-251 has a half life of about 700 years. Nine isotopes are known. Cf-252 is an intense {neutron} source, which makes it an intense {neutron} source and gives it a use in {neutron} activation analysis and a possible use as a radiation source in medicine. First produced by Glenn T. Seaborg and associates in 1950.'|) (tptp.s__subclass tptp.s__Einsteinium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Einsteinium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Einsteinium |tptp.'Einsteinium'|) (tptp.s__conventionalShortName |tptp.'Es'| tptp.s__Einsteinium) (tptp.s__atomicNumber tptp.s__Einsteinium |"99"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Einsteinium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"254"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Einsteinium tptp.s__EnglishLanguage |tptp.'Appearance is unknown, however it is most probably metallic and silver or gray in color. Radioactive metallic transuranic element belonging to the actinoids. Es-254 has the longest half-life of the eleven known isotopes at 270 days. First identified by Albert Ghiorso and associates in the debris of the 1952 hydrogen bomb explosion. In 1961 the first microgram quantities of Es-232 were separated. While einsteinium never exists naturally, if a sufficient amount was assembled, it would pose a radiation hazard.'|) (tptp.s__subclass tptp.s__Fermium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Fermium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Fermium |tptp.'Fermium'|) (tptp.s__conventionalShortName |tptp.'Fm'| tptp.s__Fermium) (tptp.s__atomicNumber tptp.s__Fermium |"100"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Fermium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"253"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Fermium tptp.s__EnglishLanguage |tptp.'Radioactive metallic transuranic element, belongs to the actinoids. Ten known isotopes, most stable is Fm-257 with a half-life of 10 days. First identified by Albert Ghiorso and associates in the debris of the first hydrogen-bomb explosion in 1952.'|) (tptp.s__subclass tptp.s__Mendelevium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Mendelevium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Mendelevium |tptp.'Mendelevium'|) (tptp.s__conventionalShortName |tptp.'Md'| tptp.s__Mendelevium) (tptp.s__atomicNumber tptp.s__Mendelevium |"101"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Mendelevium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"256"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Mendelevium tptp.s__EnglishLanguage |tptp.'Radioactive metallic transuranic element. Belongs to the actinoid series. Only known isotope, Md-256 has a half-life of 1.3 hours. First identified by Glenn T. Seaborg, Albert Ghiorso and associates in 1955. Alternative name {unnilunium} has been proposed. Named after the inventor of the periodic table, Dmitri Mendeleev.'|) (tptp.s__subclass tptp.s__Nobelium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Nobelium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Nobelium |tptp.'Nobelium'|) (tptp.s__conventionalShortName |tptp.'No'| tptp.s__Nobelium) (tptp.s__atomicNumber tptp.s__Nobelium |"102"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Nobelium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"254"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Nobelium tptp.s__EnglishLanguage |tptp.'Radioactive metallic transuranic element, belongs to the actinoids. Seven known isotopes exist, the most stable being No-254 with a half-life of 255 seconds. First identified with certainty by Albert Ghiorso and Glenn T. Seaborg in 1966. {Unnilbium} has been proposed as an alternative name.'|) (tptp.s__subclass tptp.s__Lawrencium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Lawrencium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Lawrencium |tptp.'Lawrencium'|) (tptp.s__conventionalShortName |tptp.'Lr'| tptp.s__Lawrencium) (tptp.s__atomicNumber tptp.s__Lawrencium |"103"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Lawrencium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"262"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Lawrencium tptp.s__EnglishLanguage |tptp.'Appearance unknown, however it is most likely silvery-white or grey and metallic. Lawrencium is a synthetic rare-earth metal. There are eight known radioisotopes, the most stable being Lr-262 with a half-life of 3.6 hours. Due to the short half-life of lawrencium, and its radioactivity, there are no known uses for it. Identified by Albert Ghiorso in 1961 at Berkeley. It was produced by bombarding californium with boron ions. The name is temporary {IUPAC} nomenclature, the origin of the name comes from Ernest O. Lawrence, the inventor of the cyclotron. If sufficient amounts of lawrencium were produced, it would pose a radiation hazard.'|) (tptp.s__subclass tptp.s__Unnilquadium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Unnilquadium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Unnilquadium |tptp.'Unnilquadium'|) (tptp.s__conventionalShortName |tptp.'Unq'| tptp.s__Unnilquadium) (tptp.s__atomicNumber tptp.s__Unnilquadium |"104"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Unnilquadium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"261"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Unnilquadium tptp.s__EnglishLanguage |tptp.'Radioactive transactinide element. Expected to have similar chemical properties to those displayed by hafnium. Rf-260 was discovered by the Joint Nuclear Research Institute at Dubna (U.S.S.R.) in 1964. Researchers at Berkeley discovered Unq-257 and Unq-258 in 1964.'|) (tptp.s__subclass tptp.s__Unnilpentium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Unnilpentium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Unnilpentium |tptp.'Unnilpentium'|) (tptp.s__conventionalShortName |tptp.'Unp'| tptp.s__Unnilpentium) (tptp.s__atomicNumber tptp.s__Unnilpentium |"105"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Unnilpentium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"262"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Unnilpentium tptp.s__EnglishLanguage |tptp.'Radioactive transactinide element. Half-life of 1.6s. Discovered in 1970 by Berkeley researchers. So far, seven isotopes have been discovered.'|) (tptp.s__subclass tptp.s__Unnilhexium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Unnilhexium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Unnilhexium |tptp.'Unnilhexium'|) (tptp.s__atomicNumber tptp.s__Unnilhexium |"106"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Unnilhexium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"263"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Unnilhexium tptp.s__EnglishLanguage |tptp.'Half-life of 0.9 +/- 0.2 s. Discovered by the Joint Institute for Nuclear Research at Dubna (U.S.S.R.) in June of 1974. Its existence was confirmed by the Lawrence Berkeley Laboratory and Livermore National Laboratory in September of 1974.'|) (tptp.s__subclass tptp.s__Unnilseptium tptp.s__ElementalSubstance) (tptp.s__instance tptp.s__Unnilseptium__t tptp.s__SetOrClass) (tptp.s__names tptp.s__Unnilseptium |tptp.'Unnilseptium'|) (tptp.s__atomicNumber tptp.s__Unnilseptium |"107"|) (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Object) (=> (and (tptp.s__instance V__ATOM tptp.s__Unnilseptium) (tptp.s__instance V__ATOM tptp.s__Atom)) (tptp.s__measure V__ATOM (tptp.s__MeasureFn |"262"| tptp.s__Amu))))) (tptp.s__documentation tptp.s__Unnilseptium tptp.s__EnglishLanguage |tptp.'Radioactive transition metal. Half-life of approximately 1/500 s. Discovered by the Joint Institute for Nuclear Research at Dubna (U.S.S.R.) in 1976. 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|"78.96"| |"24.312"| |"3314"| |"0.000000000001"| |"1.5"| |"1.60217733E-19"| |"72.59"| |"22"| |"11"| |"18.9984"| |"386"| |"55"| |"6.939"| |"107.870"| |"51"| |"77.4"| |"55.847"| |"51.996"| |"79.909"| |"365"| |"3453"| |"3.785411784"| |"138.9055"| |"147"| |"1320"| |"14.0067"| |"2000"| |"1808"| |"7"| |"921.95"| |"370.95"| |"54.938"| |"32"| |"961"| |"10.811"| |"3727"| |"10"| |"207.19"| |"2.0"| |"24.48"| |"56"| |"89"| |"273.15"| |"0.01"| |"1000"| |"92.906"| |"1024"| |"202"| |"116.55"| |"190.2"| |"33"| |"87.29"| |"0.95"| |"1000000000000"| |"2573"| |"1.0079"| |"527"| |"72"| |"746"| |"58.993"| |"12.01115"| |"74.922"| |"13"| |"195.078"| |"106.4"| |"4300"| |"1.6605402E-24"| |"83.80"| |"53"| |"0.000000001"| |"26"| |"60"| |"85"| |"24"| |"22.9898"| |"41"| |"27.1"| |"9"| |"4"| |"30"| |"0"| |"400"| |"2"| |"210"| |"1"| |"1833"| |"629.73"| |"63.54"| |"92"| |"386.65"| |"69.72"| |"15"| |"29.92"| |"9.0122"| |"256"| |"20"| |"47.90"| |"74"| |"300"| |"1210.55"| |"0.000001"| |"3506"| |"0.0254"| |"457.55"| |"101.07"| |"15.9994"| |"0.001"| |"96"| |"36"| |"3"| |"0.3048"| |"90"| |"150.35"| |"4.1868"| |"3680"| |"262"| |"40"| |"8"| |"118.69"| |"575"| |"20.183"| |"98"| |"1.0"| |"78"| |"83"| |"4.54609"| |"453.59237"| |"17"| |"0.5"| |"1657"| |"4.448222"| |"14.01"| |"-1"| |"91"| |"4.0026"| |"360"| |"18"| |"100"| |"183.85"| |"1180"| |"29"| |"1.35"| |"178.49"| |"1.9"| |"490"| |"1609.344"| |"32.064"| |"1.0E-10"| |"70"| |"265.9"| |"886"| |"1000000000"| |"42"| |"1356.6"| |"95.94"| |"223"| |"5698"| |"243"| |"2045"| |"1000000"| |"0.0002"| |"45"| |"102.905"| |"46"| |"47"| |"112.40"| |"3533"| |"49"| |"114.82"| |"81"| |"50"| |"121.75"| |"1380"| |"67"| |"69"| |"126.904"| |"131.30"| |"54"| |"132.90545"| |"137.34"| |"59"| |"94"| |"58"| |"2013"| |"166.1"| |"1.8"| |"73"| |"88.905"| |"140.907"| |"2485"| |"82"| |"1235.08"| |"12"| |"144.24"| |"4091"| |"254"| |"61"| |"79"| |"151.25"| |"103"| |"64"| |"2205"| |"65"| |"1173"| |"31"| |"232.038"| |"158.924"| |"505.118"| |"66"| |"167.26"| |"1796"| |"1768"| |"87.62"| |"68"| |"1913"| |"37"| |"168.934"| |"48"| |"43"| |"173.04"| |"71"| |"194.967"| |"77"| |"180.948"| |"28"| |"127.60"| |"75"| |"3005"| |"186.2"| |"1413"| |"237"| |"76"| |"57"| |"192.217"| |"200.59"| |"38"| |"84"| |"204.3833"| |"253"| |"208.980"| |"222"| |"87"| |"106"| |"1204"| |"3105"| |"88"| |"101"| |"226"| |"331.93"| |"227"| |"231"| |"600.65"| |"1345"| |"44"| |"93"| |"14"| |"242"| |"1818"| |"2130"| |"95"| |"52"| |"86"| |"247"| |"21"| |"97"| |"102"| |"180"| |"104"| |"1730"| |"1517"| |"3653"| |"261"| |"2823"| |"105"| |"263"| |"1584"| |"107"| |"108"| |"109"| |"6"| |"266"| |"272"|) true)))))))))))))))))))))))
% 135.97/136.23  )
% 135.97/136.23  % SZS output end Proof for CSR085+5
% 135.97/136.23  % cvc5---1.0.5 exiting
% 135.97/136.24  % cvc5---1.0.5 exiting
%------------------------------------------------------------------------------