TSTP Solution File: CSR103+4 by cvc5---1.0.5
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- Process Solution
%------------------------------------------------------------------------------
% File : cvc5---1.0.5
% Problem : CSR103+4 : TPTP v8.2.0. Bugfixed v7.3.0.
% Transfm : none
% Format : tptp:raw
% Command : do_cvc5 %s %d
% Computer : n032.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 May 29 16:40:28 EDT 2024
% Result : Theorem 3.09s 3.30s
% Output : Proof 3.14s
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.84/0.87 % Problem : CSR103+4 : TPTP v8.2.0. Bugfixed v7.3.0.
% 0.84/0.88 % Command : do_cvc5 %s %d
% 0.88/1.07 % Computer : n032.cluster.edu
% 0.88/1.07 % Model : x86_64 x86_64
% 0.88/1.07 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.88/1.07 % Memory : 8042.1875MB
% 0.88/1.07 % OS : Linux 3.10.0-693.el7.x86_64
% 0.88/1.07 % CPULimit : 300
% 0.88/1.07 % WCLimit : 300
% 0.88/1.07 % DateTime : Sun May 26 13:06:54 EDT 2024
% 0.88/1.07 % CPUTime :
% 2.13/2.30 %----Proving TF0_NAR, FOF, or CNF
% 3.09/3.30 --- Run --decision=internal --simplification=none --no-inst-no-entail --no-cbqi --full-saturate-quant at 10...
% 3.09/3.30 % SZS status Theorem for /export/starexec/sandbox/tmp/tmp.pAGibNqKWQ/cvc5---1.0.5_16380.smt2
% 3.09/3.30 % SZS output start Proof for /export/starexec/sandbox/tmp/tmp.pAGibNqKWQ/cvc5---1.0.5_16380.smt2
% 3.09/3.30 (assume a0 (tptp.s__instance tptp.s__instance__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a1 (tptp.s__domain tptp.s__instance__m |"1"| tptp.s__Entity))
% 3.09/3.30 (assume a2 (tptp.s__domain tptp.s__instance__m |"2"| tptp.s__SetOrClass))
% 3.09/3.30 (assume a3 (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.'|))
% 3.09/3.30 (assume a4 (tptp.s__subrelation tptp.s__immediateInstance__m tptp.s__instance__m))
% 3.09/3.30 (assume a5 (tptp.s__instance tptp.s__immediateInstance__m tptp.s__AsymmetricRelation))
% 3.09/3.30 (assume a6 (tptp.s__instance tptp.s__immediateInstance__m tptp.s__IntransitiveRelation))
% 3.09/3.30 (assume a7 (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.'|))
% 3.09/3.30 (assume a8 (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 $$unsorted)) (and (tptp.s__instance V__SUBCLASS tptp.s__SetOrClass) (tptp.s__subclass V__SUBCLASS V__CLASS) (not (= V__SUBCLASS V__CLASS)) (tptp.s__instance V__ENTITY V__SUBCLASS))))))))
% 3.09/3.30 (assume a9 (tptp.s__instance tptp.s__inverse__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a10 (tptp.s__instance tptp.s__inverse__m tptp.s__IrreflexiveRelation))
% 3.09/3.30 (assume a11 (tptp.s__instance tptp.s__inverse__m tptp.s__IntransitiveRelation))
% 3.09/3.30 (assume a12 (tptp.s__instance tptp.s__inverse__m tptp.s__SymmetricRelation))
% 3.09/3.30 (assume a13 (tptp.s__domain tptp.s__inverse__m |"1"| tptp.s__BinaryRelation))
% 3.09/3.30 (assume a14 (tptp.s__domain tptp.s__inverse__m |"2"| tptp.s__BinaryRelation))
% 3.09/3.30 (assume a15 (tptp.s__documentation tptp.s__inverse__m tptp.s__EnglishLanguage |tptp.'The inverse of a &%BinaryRelation is a relation in which all the tuples of the original relation are reversed. In other words, one &%BinaryRelation is the inverse of another if they are equivalent when their arguments are swapped.'|))
% 3.09/3.30 (assume a16 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Woman) (tptp.s__instance V__INST1 tptp.s__Man)) (= (tptp.s__husband V__INST1 V__INST2) (tptp.s__wife V__INST2 V__INST1)))))
% 3.09/3.30 (assume a17 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Quantity) (tptp.s__instance V__INST1 tptp.s__Quantity)) (= (tptp.greater V__INST1 V__INST2) (tptp.less V__INST2 V__INST1)))))
% 3.09/3.30 (assume a18 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Quantity) (tptp.s__instance V__INST1 tptp.s__Quantity)) (= (tptp.greatereq V__INST1 V__INST2) (tptp.lesseq V__INST2 V__INST1)))))
% 3.09/3.30 (assume a19 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Object) (tptp.s__instance V__INST1 tptp.s__Object)) (= (tptp.s__smaller V__INST1 V__INST2) (tptp.s__larger V__INST2 V__INST1)))))
% 3.09/3.30 (assume a20 (tptp.s__instance tptp.s__subclass__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a21 (tptp.s__instance tptp.s__subclass__m tptp.s__PartialOrderingRelation))
% 3.09/3.30 (assume a22 (tptp.s__domain tptp.s__subclass__m |"1"| tptp.s__SetOrClass))
% 3.09/3.30 (assume a23 (tptp.s__domain tptp.s__subclass__m |"2"| tptp.s__SetOrClass))
% 3.09/3.30 (assume a24 (tptp.s__documentation tptp.s__subclass__m tptp.s__EnglishLanguage |tptp.'(&%subclass ?CLASS1 ?CLASS2) means that ?CLASS1 is a subclass of ?CLASS2, i.e. every instance of ?CLASS1 is also an instance of ?CLASS2. A class may have multiple superclasses and subclasses.'|))
% 3.09/3.30 (assume a25 (forall ((V__X $$unsorted) (V__Y $$unsorted)) (=> (tptp.s__subclass V__X V__Y) (and (tptp.s__instance V__X tptp.s__SetOrClass) (tptp.s__instance V__Y tptp.s__SetOrClass)))))
% 3.09/3.30 (assume a26 (forall ((V__X $$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)))))
% 3.09/3.30 (assume a27 (tptp.s__subrelation tptp.s__immediateSubclass__m tptp.s__subclass__m))
% 3.09/3.30 (assume a28 (tptp.s__instance tptp.s__immediateSubclass__m tptp.s__AsymmetricRelation))
% 3.09/3.30 (assume a29 (tptp.s__instance tptp.s__immediateSubclass__m tptp.s__IntransitiveRelation))
% 3.09/3.30 (assume a30 (tptp.s__instance tptp.s__IntransitiveRelation__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a31 (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.'|))
% 3.09/3.30 (assume a32 (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 $$unsorted)) (and (tptp.s__instance V__CLASS3 tptp.s__SetOrClass) (tptp.s__subclass V__CLASS3 V__CLASS2) (tptp.s__subclass V__CLASS1 V__CLASS3) (not (= V__CLASS2 V__CLASS3)) (not (= V__CLASS1 V__CLASS3)))))))))
% 3.09/3.30 (assume a33 (tptp.s__instance tptp.s__subrelation__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a34 (tptp.s__instance tptp.s__subrelation__m tptp.s__PartialOrderingRelation))
% 3.09/3.30 (assume a35 (tptp.s__domain tptp.s__subrelation__m |"1"| tptp.s__Relation))
% 3.09/3.30 (assume a36 (tptp.s__domain tptp.s__subrelation__m |"2"| tptp.s__Relation))
% 3.09/3.30 (assume a37 (tptp.s__documentation tptp.s__subrelation__m tptp.s__EnglishLanguage |tptp.'(&%subrelation ?REL1 ?REL2) means that every tuple of ?REL1 is also a tuple of ?REL2. In other words, if the &%Relation ?REL1 holds for some arguments arg_1, arg_2, ... arg_n, then the &%Relation ?REL2 holds for the same arguments. A consequence of this is that a &%Relation and its subrelations must have the same &%valence.'|))
% 3.09/3.30 (assume a38 (forall ((V__NUMBER $$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)))))
% 3.09/3.30 (assume a39 (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)))))
% 3.09/3.30 (assume a40 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__bottom V__ROW1 V__ROW2) (tptp.s__superficialPart V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a41 (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)))))
% 3.09/3.30 (assume a42 (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__daughter V__ROW1 V__ROW2) (tptp.s__parent V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a43 (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)))))
% 3.09/3.30 (assume a44 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__Language) (tptp.s__instance V__ROW1 tptp.s__SymbolicString)) (=> (tptp.s__synonymousExternalConcept V__ROW1 V__ROW2 V__ROW3) (tptp.s__relatedExternalConcept V__ROW1 V__ROW2 V__ROW3)))))
% 3.09/3.30 (assume a45 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Motion)) (=> (tptp.s__moves V__ROW1 V__ROW2) (tptp.s__involvedInEvent V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a46 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__GeographicArea) (tptp.s__instance V__ROW1 tptp.s__GeographicArea)) (=> (tptp.s__geographicSubregion V__ROW1 V__ROW2) (tptp.s__properPart V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a47 (forall ((V__ROW1 $$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__depth V__ROW1 V__ROW2 V__ROW3) (tptp.s__distance V__ROW1 V__ROW2 V__ROW3)))))
% 3.09/3.30 (assume a48 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__CorpuscularObject) (tptp.s__instance V__ROW1 tptp.s__CorpuscularObject)) (=> (tptp.s__component V__ROW1 V__ROW2) (tptp.s__part V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a49 (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)))))
% 3.09/3.30 (assume a50 (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)))))
% 3.09/3.30 (assume a51 (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)))))
% 3.09/3.30 (assume a52 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Attribute) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__manner V__ROW1 V__ROW2) (tptp.s__property V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a53 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimePoint) (tptp.s__instance V__ROW1 tptp.s__TimePoint)) (=> (tptp.s__before V__ROW1 V__ROW2) (tptp.s__beforeOrEqual V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a54 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__EngineeringComponent) (tptp.s__instance V__ROW1 tptp.s__EngineeringComponent)) (=> (tptp.s__connectedEngineeringComponents V__ROW1 V__ROW2) (tptp.s__connected V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a55 (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__located V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a56 (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__mutualAcquaintance V__ROW1 V__ROW2) (tptp.s__acquaintance V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a57 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__ROW1 tptp.s__ContentBearingPhysical)) (=> (tptp.s__equivalentContentInstance V__ROW1 V__ROW2) (tptp.s__subsumesContentInstance V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a58 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__PermanentResidence) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__home V__ROW1 V__ROW2) (tptp.s__inhabits V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a59 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__EngineeringComponent) (tptp.s__instance V__ROW1 tptp.s__EngineeringComponent)) (=> (tptp.s__engineeringSubcomponent V__ROW1 V__ROW2) (tptp.s__properPart V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a60 (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)))))
% 3.09/3.30 (assume a61 (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__resource V__ROW1 V__ROW2) (tptp.s__patient V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a62 (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__crosses V__ROW1 V__ROW2) (tptp.s__traverses V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a63 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Collection) (tptp.s__instance V__ROW1 tptp.s__Collection)) (=> (tptp.s__subCollection V__ROW1 V__ROW2) (tptp.s__part V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a64 (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)))))
% 3.09/3.30 (assume a65 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Animal)) (=> (tptp.s__grasps V__ROW1 V__ROW2) (tptp.s__meetsSpatially V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a66 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__Demonstrating)) (=> (tptp.s__attends V__ROW1 V__ROW2) (tptp.s__experiencer V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a67 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (=> (tptp.s__immediateInstance V__ROW1 V__ROW2) (tptp.s__instance V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a68 (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__sister V__ROW1 V__ROW2) (tptp.s__sibling V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a69 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__LengthMeasure) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__height V__ROW1 V__ROW2) (tptp.s__linearExtent V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a70 (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__mother V__ROW1 V__ROW2) (tptp.s__parent V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a71 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__located V__ROW1 V__ROW2) (tptp.s__partlyLocated V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a72 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Agent) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__experiencer V__ROW1 V__ROW2) (tptp.s__involvedInEvent V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a73 (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__during V__ROW1 V__ROW2) (tptp.s__temporalPart V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a74 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Collection) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__member V__ROW1 V__ROW2) (tptp.s__part V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a75 (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__properlyFills V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a76 (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__knows V__ROW1 V__ROW2) (tptp.s__inScopeOfInterest V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a77 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__GeopoliticalArea) (tptp.s__instance V__ROW1 tptp.s__GeopoliticalArea)) (=> (tptp.s__geopoliticalSubdivision V__ROW1 V__ROW2) (tptp.s__geographicSubregion V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a78 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TruthValue) (tptp.s__instance V__ROW1 tptp.s__Sentence)) (=> (tptp.s__truth V__ROW1 V__ROW2) (tptp.s__property V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a79 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Physical) (tptp.s__instance V__ROW1 tptp.s__Abstract)) (=> (tptp.s__abstractCounterpart V__ROW1 V__ROW2) (tptp.s__represents V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a80 (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__interiorPart V__ROW1 V__ROW2) (tptp.s__part V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a81 (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__instrument V__ROW1 V__ROW2) (tptp.s__patient V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a82 (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__father V__ROW1 V__ROW2) (tptp.s__parent V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a83 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Proposition) (tptp.s__instance V__ROW1 tptp.s__ContentBearingPhysical)) (=> (tptp.s__containsInformation V__ROW1 V__ROW2) (tptp.s__represents V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a84 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__List) (tptp.s__instance V__ROW1 tptp.s__List)) (=> (tptp.s__initialList V__ROW1 V__ROW2) (tptp.s__subList V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a85 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__CurrencyMeasure) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__monetaryValue V__ROW1 V__ROW2) (tptp.s__measure V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a86 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__causes V__ROW1 V__ROW2) (tptp.s__relatedEvent V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a87 (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__equivalentContentClass V__ROW1 V__ROW2) (tptp.s__subsumesContentClass V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a88 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__TimePoint) (tptp.s__instance V__ROW2 tptp.s__TimePoint) (tptp.s__instance V__ROW1 tptp.s__TimePoint)) (=> (tptp.s__temporallyBetween V__ROW1 V__ROW2 V__ROW3) (tptp.s__temporallyBetweenOrEqual V__ROW1 V__ROW2 V__ROW3)))))
% 3.09/3.30 (assume a89 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__top V__ROW1 V__ROW2) (tptp.s__superficialPart V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a90 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Hole) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__completelyFills V__ROW1 V__ROW2) (tptp.s__partiallyFills V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a91 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__contains V__ROW1 V__ROW2) (tptp.s__partlyLocated V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a92 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__represents V__ROW1 V__ROW2) (tptp.s__refers V__ROW1 V__ROW2))))
% 3.09/3.30 (assume a93 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__spouse V__ROW1 V__ROW2) (tptp.s__legalRelation V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a94 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Organism) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (tptp.s__ancestor V__ROW1 V__ROW2) (tptp.s__familyRelation V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a95 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__exactlyLocated V__ROW1 V__ROW2) (tptp.s__located V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a96 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Organism) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (tptp.s__parent V__ROW1 V__ROW2) (tptp.s__ancestor V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a97 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Motion)) (=> (tptp.s__path V__ROW1 V__ROW2) (tptp.s__eventPartlyLocated V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a98 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__Man)) (=> (tptp.s__brother V__ROW1 V__ROW2) (tptp.s__sibling V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a99 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Substance) (tptp.s__instance V__ROW1 tptp.s__Substance)) (=> (tptp.s__piece V__ROW1 V__ROW2) (tptp.s__part V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a100 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__DirectionalAttribute) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__direction V__ROW1 V__ROW2) (tptp.s__involvedInEvent V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a101 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__LengthMeasure) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__linearExtent V__ROW1 V__ROW2) (tptp.s__measure V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a102 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__SymbolicString) (=> (tptp.s__uniqueIdentifier V__ROW1 V__ROW2) (tptp.s__names V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a103 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Man) (tptp.s__instance V__ROW1 tptp.s__Woman)) (=> (tptp.s__wife V__ROW1 V__ROW2) (tptp.s__spouse V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a104 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__properPart V__ROW1 V__ROW2) (tptp.s__part V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a105 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Organization) (tptp.s__instance V__ROW1 tptp.s__Organization)) (=> (tptp.s__subOrganization V__ROW1 V__ROW2) (tptp.s__subCollection V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a106 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Translocation)) (=> (tptp.s__changesLocation V__ROW1 V__ROW2) (tptp.s__moves V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a107 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__surface V__ROW1 V__ROW2) (tptp.s__superficialPart V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a108 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__origin V__ROW1 V__ROW2) (tptp.s__involvedInEvent V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a109 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimeInterval) (tptp.s__instance V__ROW1 tptp.s__TimeInterval)) (=> (tptp.s__starts V__ROW1 V__ROW2) (tptp.s__temporalPart V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a110 (forall ((V__ROW1 $$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)))))
% 3.09/3.30 (assume a111 (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)))))
% 3.09/3.30 (assume a112 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Process) (=> (tptp.s__result V__ROW1 V__ROW2) (tptp.s__patient V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a113 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__Language) (tptp.s__instance V__ROW1 tptp.s__SymbolicString)) (=> (tptp.s__subsumedExternalConcept V__ROW1 V__ROW2 V__ROW3) (tptp.s__relatedExternalConcept V__ROW1 V__ROW2 V__ROW3)))))
% 3.09/3.30 (assume a114 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__LengthMeasure) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__width V__ROW1 V__ROW2) (tptp.s__linearExtent V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a115 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__penetrates V__ROW1 V__ROW2) (tptp.s__traverses V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a116 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Organism) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (tptp.s__familyRelation V__ROW1 V__ROW2) (tptp.s__relative V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a117 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Agent) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__agent V__ROW1 V__ROW2) (tptp.s__involvedInEvent V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a118 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__GeometricFigure) (tptp.s__instance V__ROW1 tptp.s__TwoDimensionalAngle)) (=> (tptp.s__angleOfFigure V__ROW1 V__ROW2) (tptp.s__geometricPart V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a119 (forall ((V__ROW1 $$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__subsumingExternalConcept V__ROW1 V__ROW2 V__ROW3) (tptp.s__relatedExternalConcept V__ROW1 V__ROW2 V__ROW3)))))
% 3.09/3.30 (assume a120 (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)))))
% 3.09/3.30 (assume a121 (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)))))
% 3.09/3.30 (assume a122 (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__during V__ROW1 V__ROW2) (tptp.s__overlapsTemporally V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a123 (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__length V__ROW1 V__ROW2) (tptp.s__linearExtent V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a124 (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)))))
% 3.09/3.30 (assume a125 (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__overlapsSpatially V__ROW1 V__ROW2) (tptp.s__connected V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a126 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Proposition) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__realization V__ROW1 V__ROW2) (tptp.s__represents V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a127 (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)))))
% 3.09/3.30 (assume a128 (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)))))
% 3.09/3.30 (assume a129 (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)))))
% 3.09/3.30 (assume a130 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__UnitOfAtmosphericPressure) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__barometricPressure V__ROW1 V__ROW2) (tptp.s__measure V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a131 (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)))))
% 3.09/3.30 (assume a132 (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__superficialPart V__ROW1 V__ROW2) (tptp.s__part V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a133 (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__parent V__ROW1 V__ROW2) (tptp.s__familyRelation V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a134 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__EngineeringComponent) (tptp.s__instance V__ROW3 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW2 tptp.s__EngineeringComponent) (tptp.s__instance V__ROW2 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW1 tptp.s__EngineeringConnection) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__connectsEngineeringComponents V__ROW1 V__ROW2 V__ROW3) (tptp.s__connects V__ROW1 V__ROW2 V__ROW3)))))
% 3.09/3.30 (assume a135 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Plan) (tptp.s__instance V__ROW1 tptp.s__Plan)) (=> (tptp.s__subPlan V__ROW1 V__ROW2) (tptp.s__subProposition V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a136 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW2 tptp.s__Set) (=> (tptp.s__element V__ROW1 V__ROW2) (tptp.s__instance V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a137 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Physical) (tptp.s__instance V__ROW1 tptp.s__CognitiveAgent)) (=> (tptp.s__needs V__ROW1 V__ROW2) (tptp.s__inScopeOfInterest V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a138 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__penetrates V__ROW1 V__ROW2) (tptp.s__meetsSpatially V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a139 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__meetsSpatially V__ROW1 V__ROW2) (tptp.s__connected V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a140 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__CognitiveAgent)) (=> (tptp.s__considers V__ROW1 V__ROW2) (tptp.s__inScopeOfInterest V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a141 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__NormativeAttribute) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__modalAttribute V__ROW1 V__ROW2) (tptp.s__property V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a142 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimeInterval) (tptp.s__instance V__ROW1 tptp.s__TimeInterval)) (=> (tptp.s__finishes V__ROW1 V__ROW2) (tptp.s__temporalPart V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a143 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Attribute) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__attribute V__ROW1 V__ROW2) (tptp.s__property V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a144 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Set) (tptp.s__instance V__ROW1 tptp.s__Set)) (=> (tptp.s__subset V__ROW1 V__ROW2) (tptp.s__subclass V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a145 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__eventLocated V__ROW1 V__ROW2) (tptp.s__eventPartlyLocated V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a146 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TemporaryResidence) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__stays V__ROW1 V__ROW2) (tptp.s__inhabits V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a147 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Hole) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__fills V__ROW1 V__ROW2) (tptp.s__completelyFills V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a148 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Process) (=> (tptp.s__patient V__ROW1 V__ROW2) (tptp.s__involvedInEvent V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a149 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Physical) (tptp.s__instance V__ROW1 tptp.s__CognitiveAgent)) (=> (tptp.s__wants V__ROW1 V__ROW2) (tptp.s__inScopeOfInterest V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a150 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Organism) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (tptp.s__sibling V__ROW1 V__ROW2) (tptp.s__familyRelation V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a151 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__CognitiveAgent)) (=> (tptp.s__believes V__ROW1 V__ROW2) (tptp.s__inScopeOfInterest V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a152 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__DevelopmentalAttribute) (tptp.s__instance V__ROW1 tptp.s__OrganicObject)) (=> (tptp.s__developmentalForm V__ROW1 V__ROW2) (tptp.s__attribute V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a153 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__side V__ROW1 V__ROW2) (tptp.s__superficialPart V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a154 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__eventPartlyLocated V__ROW1 V__ROW2) (tptp.s__partlyLocated V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a155 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__GeometricFigure) (tptp.s__instance V__ROW1 tptp.s__GeometricPoint)) (=> (tptp.s__pointOfFigure V__ROW1 V__ROW2) (tptp.s__geometricPart V__ROW1 V__ROW2)))))
% 3.09/3.30 (assume a156 (forall ((V__CLASS $$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)))))
% 3.09/3.30 (assume a157 (tptp.s__instance tptp.s__domain__m tptp.s__TernaryPredicate))
% 3.09/3.30 (assume a158 (tptp.s__domain tptp.s__domain__m |"1"| tptp.s__Relation))
% 3.09/3.30 (assume a159 (tptp.s__domain tptp.s__domain__m |"2"| tptp.s__PositiveInteger))
% 3.09/3.30 (assume a160 (tptp.s__domain tptp.s__domain__m |"3"| tptp.s__SetOrClass))
% 3.09/3.30 (assume a161 (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.'|))
% 3.09/3.30 (assume a162 (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))))))
% 3.09/3.30 (assume a163 (tptp.s__instance tptp.s__domainSubclass__m tptp.s__TernaryPredicate))
% 3.09/3.30 (assume a164 (tptp.s__domain tptp.s__domainSubclass__m |"1"| tptp.s__Relation))
% 3.09/3.30 (assume a165 (tptp.s__domain tptp.s__domainSubclass__m |"2"| tptp.s__PositiveInteger))
% 3.09/3.30 (assume a166 (tptp.s__domain tptp.s__domainSubclass__m |"3"| tptp.s__SetOrClass))
% 3.09/3.30 (assume a167 (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.'|))
% 3.09/3.30 (assume a168 (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)))))
% 3.09/3.30 (assume a169 (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))))))
% 3.09/3.30 (assume a170 (forall ((V__THING2 $$unsorted) (V__THING1 $$unsorted)) (=> (= V__THING1 V__THING2) (forall ((V__ATTR $$unsorted)) (=> (tptp.s__instance V__ATTR tptp.s__Attribute) (= (tptp.s__property V__THING1 V__ATTR) (tptp.s__property V__THING2 V__ATTR)))))))
% 3.09/3.30 (assume a171 (forall ((V__ATTR2 $$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)))))))
% 3.09/3.30 (assume a172 (forall ((V__THING2 $$unsorted) (V__THING1 $$unsorted)) (=> (= V__THING1 V__THING2) (forall ((V__CLASS $$unsorted)) (=> (tptp.s__instance V__CLASS tptp.s__SetOrClass) (= (tptp.s__instance V__THING1 V__CLASS) (tptp.s__instance V__THING2 V__CLASS)))))))
% 3.09/3.30 (assume a173 (forall ((V__CLASS1 $$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)))))))
% 3.09/3.30 (assume a174 (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 $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW11) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW21) V__NUMBER))))))))
% 3.09/3.30 (assume a175 (forall ((V__ROW11 $$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 $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW11) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW21 V__ROW22) V__NUMBER))))))))
% 3.09/3.30 (assume a176 (forall ((V__ROW11 $$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))))))))
% 3.09/3.30 (assume a177 (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))))))))
% 3.09/3.30 (assume a178 (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 $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW11) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25) V__NUMBER))))))))
% 3.09/3.30 (assume a179 (forall ((V__ROW11 $$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 $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW11) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26) V__NUMBER))))))))
% 3.09/3.30 (assume a180 (forall ((V__ROW27 $$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))))))))
% 3.09/3.30 (assume a181 (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))))))))
% 3.09/3.30 (assume a182 (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 $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW11 V__ROW12) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW21 V__ROW22) V__NUMBER))))))))
% 3.09/3.30 (assume a183 (forall ((V__ROW12 $$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 $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW11 V__ROW12) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW21 V__ROW22 V__ROW23) V__NUMBER))))))))
% 3.09/3.30 (assume a184 (forall ((V__ROW12 $$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))))))))
% 3.09/3.30 (assume a185 (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))))))))
% 3.09/3.30 (assume a186 (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 $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW11 V__ROW12) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26) V__NUMBER))))))))
% 3.09/3.30 (assume a187 (forall ((V__ROW27 $$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 $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW11 V__ROW12) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_7 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26 V__ROW27) V__NUMBER))))))))
% 3.09/3.30 (assume a188 (forall ((V__ROW12 $$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))))))))
% 3.09/3.30 (assume a189 (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))))))))
% 3.09/3.30 (assume a190 (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 $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW11 V__ROW12 V__ROW13) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW21 V__ROW22 V__ROW23) V__NUMBER))))))))
% 3.09/3.30 (assume a191 (forall ((V__ROW12 $$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 $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW11 V__ROW12 V__ROW13) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24) V__NUMBER))))))))
% 3.09/3.30 (assume a192 (forall ((V__ROW12 $$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))))))))
% 3.09/3.30 (assume a193 (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))))))))
% 3.09/3.30 (assume a194 (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 $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW11 V__ROW12 V__ROW13) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_7 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26 V__ROW27) V__NUMBER))))))))
% 3.09/3.30 (assume a195 (forall ((V__ROW12 $$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 $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW11 V__ROW12 V__ROW13 V__ROW14) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW21) V__NUMBER))))))))
% 3.09/3.30 (assume a196 (forall ((V__ROW12 $$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))))))))
% 3.09/3.30 (assume a197 (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))))))))
% 3.09/3.30 (assume a198 (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 $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW11 V__ROW12 V__ROW13 V__ROW14) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24) V__NUMBER))))))))
% 3.09/3.30 (assume a199 (forall ((V__ROW12 $$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 $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW11 V__ROW12 V__ROW13 V__ROW14) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25) V__NUMBER))))))))
% 3.09/3.30 (assume a200 (forall ((V__ROW12 $$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))))))))
% 3.09/3.30 (assume a201 (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 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_4 V__ROW11 V__ROW12 V__ROW13 V__ROW14)) (= V__LIST2 (tptp.s__ListFn_7 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26 V__ROW27))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW11 V__ROW12 V__ROW13 V__ROW14) 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))))))))
% 3.09/3.30 (assume a202 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW14 $$unsorted) (V__ROW15 $$unsorted) (V__ROW11 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_5 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15)) (= V__LIST2 (tptp.s__ListFn_1 V__ROW21))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_5 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW21) V__NUMBER))))))))
% 3.09/3.30 (assume a203 (forall ((V__ROW12 $$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__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_5 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15)) (= V__LIST2 (tptp.s__ListFn_2 V__ROW21 V__ROW22))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_5 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW21 V__ROW22) V__NUMBER))))))))
% 3.09/3.30 (assume a204 (forall ((V__ROW12 $$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__ROW23 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_5 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15)) (= V__LIST2 (tptp.s__ListFn_3 V__ROW21 V__ROW22 V__ROW23))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_5 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW21 V__ROW22 V__ROW23) V__NUMBER))))))))
% 3.09/3.30 (assume a205 (forall ((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 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_5 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15)) (= V__LIST2 (tptp.s__ListFn_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_5 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24) V__NUMBER))))))))
% 3.09/3.30 (assume a206 (forall ((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 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_5 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15)) (= V__LIST2 (tptp.s__ListFn_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_5 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25) V__NUMBER))))))))
% 3.09/3.30 (assume a207 (forall ((V__ROW12 $$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_5 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15)) (= V__LIST2 (tptp.s__ListFn_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_5 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26) V__NUMBER))))))))
% 3.09/3.30 (assume a208 (forall ((V__ROW27 $$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 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_5 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15)) (= V__LIST2 (tptp.s__ListFn_7 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26 V__ROW27))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_5 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15) 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))))))))
% 3.09/3.30 (assume a209 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW16 $$unsorted) (V__ROW14 $$unsorted) (V__ROW15 $$unsorted) (V__ROW11 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_6 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16)) (= V__LIST2 (tptp.s__ListFn_1 V__ROW21))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_6 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW21) V__NUMBER))))))))
% 3.09/3.30 (assume a210 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW16 $$unsorted) (V__ROW14 $$unsorted) (V__ROW15 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_6 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16)) (= V__LIST2 (tptp.s__ListFn_2 V__ROW21 V__ROW22))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_6 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW21 V__ROW22) V__NUMBER))))))))
% 3.09/3.30 (assume a211 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW16 $$unsorted) (V__ROW14 $$unsorted) (V__ROW15 $$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_6 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16)) (= V__LIST2 (tptp.s__ListFn_3 V__ROW21 V__ROW22 V__ROW23))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_6 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW21 V__ROW22 V__ROW23) V__NUMBER))))))))
% 3.09/3.30 (assume a212 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW16 $$unsorted) (V__ROW14 $$unsorted) (V__ROW15 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_6 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16)) (= V__LIST2 (tptp.s__ListFn_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_6 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24) V__NUMBER))))))))
% 3.09/3.30 (assume a213 (forall ((V__ROW16 $$unsorted) (V__ROW12 $$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__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_6 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16)) (= V__LIST2 (tptp.s__ListFn_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_6 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25) V__NUMBER))))))))
% 3.09/3.30 (assume a214 (forall ((V__ROW16 $$unsorted) (V__ROW12 $$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_6 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16)) (= V__LIST2 (tptp.s__ListFn_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_6 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26) V__NUMBER))))))))
% 3.09/3.30 (assume a215 (forall ((V__ROW27 $$unsorted) (V__ROW16 $$unsorted) (V__ROW12 $$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_6 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16)) (= V__LIST2 (tptp.s__ListFn_7 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26 V__ROW27))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_6 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_7 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26 V__ROW27) V__NUMBER))))))))
% 3.09/3.30 (assume a216 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW16 $$unsorted) (V__ROW14 $$unsorted) (V__ROW17 $$unsorted) (V__ROW15 $$unsorted) (V__ROW11 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_7 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16 V__ROW17)) (= V__LIST2 (tptp.s__ListFn_1 V__ROW21))) (forall ((V__NUMBER $$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_1 V__ROW21) V__NUMBER))))))))
% 3.09/3.30 (assume a217 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW16 $$unsorted) (V__ROW14 $$unsorted) (V__ROW17 $$unsorted) (V__ROW15 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__LIST2 $$unsorted) (V__LIST1 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_7 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16 V__ROW17)) (= V__LIST2 (tptp.s__ListFn_2 V__ROW21 V__ROW22))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_7 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16 V__ROW17) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW21 V__ROW22) V__NUMBER))))))))
% 3.09/3.30 (assume a218 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW16 $$unsorted) (V__ROW14 $$unsorted) (V__ROW17 $$unsorted) (V__ROW15 $$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_7 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16 V__ROW17)) (= V__LIST2 (tptp.s__ListFn_3 V__ROW21 V__ROW22 V__ROW23))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_7 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16 V__ROW17) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW21 V__ROW22 V__ROW23) V__NUMBER))))))))
% 3.09/3.30 (assume a219 (forall ((V__ROW16 $$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__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_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_7 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16 V__ROW17) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24) V__NUMBER))))))))
% 3.09/3.30 (assume a220 (forall ((V__ROW16 $$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__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_7 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16 V__ROW17)) (= V__LIST2 (tptp.s__ListFn_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25))) (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_7 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16 V__ROW17) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25) V__NUMBER))))))))
% 3.09/3.30 (assume a221 (forall ((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 $$unsorted)) (=> (= V__LIST1 V__LIST2) (=> (and (= V__LIST1 (tptp.s__ListFn_7 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16 V__ROW17)) (= V__LIST2 (tptp.s__ListFn_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26))) (forall ((V__NUMBER $$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))))))))
% 3.09/3.30 (assume a222 (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 $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn (tptp.s__ListFn_7 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16 V__ROW17) V__NUMBER) (tptp.s__ListOrderFn (tptp.s__ListFn_7 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26 V__ROW27) V__NUMBER))))))))
% 3.09/3.30 (assume a223 (tptp.s__instance tptp.s__range__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a224 (tptp.s__instance tptp.s__range__m tptp.s__AsymmetricRelation))
% 3.09/3.30 (assume a225 (tptp.s__domain tptp.s__range__m |"1"| tptp.s__Function))
% 3.09/3.30 (assume a226 (tptp.s__domain tptp.s__range__m |"2"| tptp.s__SetOrClass))
% 3.09/3.30 (assume a227 (tptp.s__documentation tptp.s__range__m tptp.s__EnglishLanguage |tptp.'Gives the range of a function. In other words, (&%range ?FUNCTION ?CLASS) means that all of the values assigned by ?FUNCTION are &%instances of ?CLASS.'|))
% 3.09/3.30 (assume a228 (forall ((V__VALUE $$unsorted) (V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__FUNCTION $$unsorted)) (=> (and (tptp.s__instance V__FUNCTION tptp.s__Function) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (and (tptp.s__range V__FUNCTION V__CLASS) (= (tptp.s__AssignmentFn_2 V__FUNCTION V__ROW1) V__VALUE)) (tptp.s__instance V__VALUE V__CLASS)))))
% 3.09/3.30 (assume a229 (forall ((V__VALUE $$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)))))
% 3.09/3.30 (assume a230 (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)))))
% 3.09/3.30 (assume a231 (forall ((V__VALUE $$unsorted) (V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__FUNCTION $$unsorted)) (=> (and (tptp.s__instance V__FUNCTION tptp.s__Function) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (and (tptp.s__range V__FUNCTION V__CLASS) (= (tptp.s__AssignmentFn_5 V__FUNCTION V__ROW1 V__ROW2 V__ROW3 V__ROW4) V__VALUE)) (tptp.s__instance V__VALUE V__CLASS)))))
% 3.09/3.30 (assume a232 (forall ((V__VALUE $$unsorted) (V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__FUNCTION $$unsorted)) (=> (and (tptp.s__instance V__FUNCTION tptp.s__Function) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (and (tptp.s__range V__FUNCTION V__CLASS) (= (tptp.s__AssignmentFn_6 V__FUNCTION V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) V__VALUE)) (tptp.s__instance V__VALUE V__CLASS)))))
% 3.09/3.30 (assume a233 (forall ((V__VALUE $$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)))))
% 3.09/3.30 (assume a234 (forall ((V__REL2 $$unsorted) (V__CLASS1 $$unsorted) (V__REL1 $$unsorted)) (=> (and (tptp.s__instance V__REL1 tptp.s__Function) (tptp.s__instance V__CLASS1 tptp.s__SetOrClass) (tptp.s__instance V__REL2 tptp.s__Function)) (=> (and (tptp.s__subrelation V__REL1 V__REL2) (tptp.s__range V__REL2 V__CLASS1)) (tptp.s__range V__REL1 V__CLASS1)))))
% 3.09/3.30 (assume a235 (forall ((V__CLASS1 $$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))))))
% 3.09/3.30 (assume a236 (tptp.s__instance tptp.s__rangeSubclass__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a237 (tptp.s__instance tptp.s__rangeSubclass__m tptp.s__AsymmetricRelation))
% 3.09/3.30 (assume a238 (tptp.s__domain tptp.s__rangeSubclass__m |"1"| tptp.s__Function))
% 3.09/3.30 (assume a239 (tptp.s__domainSubclass tptp.s__rangeSubclass__m |"2"| tptp.s__SetOrClass))
% 3.09/3.30 (assume a240 (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.'|))
% 3.09/3.30 (assume a241 (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)))))
% 3.09/3.30 (assume a242 (forall ((V__VALUE $$unsorted) (V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__FUNCTION $$unsorted)) (=> (and (tptp.s__instance V__FUNCTION tptp.s__Function) (tptp.s__subclass V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__VALUE tptp.s__SetOrClass)) (=> (and (tptp.s__rangeSubclass V__FUNCTION V__CLASS) (= (tptp.s__AssignmentFn_3 V__FUNCTION V__ROW1 V__ROW2) V__VALUE)) (tptp.s__subclass V__VALUE V__CLASS)))))
% 3.09/3.30 (assume a243 (forall ((V__VALUE $$unsorted) (V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__FUNCTION $$unsorted)) (=> (and (tptp.s__instance V__FUNCTION tptp.s__Function) (tptp.s__subclass V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__VALUE tptp.s__SetOrClass)) (=> (and (tptp.s__rangeSubclass V__FUNCTION V__CLASS) (= (tptp.s__AssignmentFn_4 V__FUNCTION V__ROW1 V__ROW2 V__ROW3) V__VALUE)) (tptp.s__subclass V__VALUE V__CLASS)))))
% 3.09/3.30 (assume a244 (forall ((V__VALUE $$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)))))
% 3.09/3.30 (assume a245 (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)))))
% 3.09/3.30 (assume a246 (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 $$unsorted)) (=> (and (tptp.s__instance V__FUNCTION tptp.s__Function) (tptp.s__subclass V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__VALUE tptp.s__SetOrClass)) (=> (and (tptp.s__rangeSubclass V__FUNCTION V__CLASS) (= (tptp.s__AssignmentFn_7 V__FUNCTION V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) V__VALUE)) (tptp.s__subclass V__VALUE V__CLASS)))))
% 3.09/3.30 (assume a247 (forall ((V__REL2 $$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)))))
% 3.09/3.30 (assume a248 (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))))))
% 3.09/3.30 (assume a249 (tptp.s__instance tptp.s__valence__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a250 (tptp.s__instance tptp.s__valence__m tptp.s__AsymmetricRelation))
% 3.09/3.30 (assume a251 (tptp.s__instance tptp.s__valence__m tptp.s__SingleValuedRelation))
% 3.09/3.30 (assume a252 (tptp.s__domain tptp.s__valence__m |"1"| tptp.s__Relation))
% 3.09/3.30 (assume a253 (tptp.s__domain tptp.s__valence__m |"2"| tptp.s__PositiveInteger))
% 3.09/3.30 (assume a254 (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.'|))
% 3.09/3.30 (assume a255 (tptp.s__instance tptp.s__documentation__m tptp.s__TernaryPredicate))
% 3.09/3.30 (assume a256 (tptp.s__domain tptp.s__documentation__m |"1"| tptp.s__Entity))
% 3.09/3.30 (assume a257 (tptp.s__domain tptp.s__documentation__m |"2"| tptp.s__HumanLanguage))
% 3.09/3.30 (assume a258 (tptp.s__domain tptp.s__documentation__m |"3"| tptp.s__SymbolicString))
% 3.09/3.30 (assume a259 (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.'|))
% 3.09/3.30 (assume a260 (tptp.s__instance tptp.s__format__m tptp.s__TernaryPredicate))
% 3.09/3.30 (assume a261 (tptp.s__domain tptp.s__format__m |"1"| tptp.s__Language))
% 3.09/3.30 (assume a262 (tptp.s__domain tptp.s__format__m |"2"| tptp.s__Entity))
% 3.09/3.30 (assume a263 (tptp.s__domain tptp.s__format__m |"3"| tptp.s__SymbolicString))
% 3.09/3.30 (assume a264 (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.'|))
% 3.09/3.30 (assume a265 (tptp.s__instance tptp.s__termFormat__m tptp.s__TernaryPredicate))
% 3.09/3.30 (assume a266 (tptp.s__domain tptp.s__termFormat__m |"1"| tptp.s__Language))
% 3.09/3.30 (assume a267 (tptp.s__domain tptp.s__termFormat__m |"2"| tptp.s__Entity))
% 3.09/3.30 (assume a268 (tptp.s__domain tptp.s__termFormat__m |"3"| tptp.s__SymbolicString))
% 3.09/3.30 (assume a269 (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.'|))
% 3.09/3.30 (assume a270 (tptp.s__instance tptp.s__disjoint__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a271 (tptp.s__instance tptp.s__disjoint__m tptp.s__SymmetricRelation))
% 3.09/3.30 (assume a272 (tptp.s__domain tptp.s__disjoint__m |"1"| tptp.s__SetOrClass))
% 3.09/3.30 (assume a273 (tptp.s__domain tptp.s__disjoint__m |"2"| tptp.s__SetOrClass))
% 3.09/3.30 (assume a274 (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.'|))
% 3.09/3.30 (assume a275 (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))))))))
% 3.09/3.30 (assume a276 (tptp.s__instance tptp.s__disjointRelation__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a277 (tptp.s__instance tptp.s__disjointRelation__m tptp.s__IrreflexiveRelation))
% 3.09/3.30 (assume a278 (tptp.s__domain tptp.s__disjointRelation__m |"1"| tptp.s__Relation))
% 3.09/3.30 (assume a279 (tptp.s__domain tptp.s__disjointRelation__m |"2"| tptp.s__Relation))
% 3.09/3.30 (assume a280 (tptp.s__relatedInternalConcept tptp.s__disjointRelation__m tptp.s__disjoint__m))
% 3.09/3.30 (assume a281 (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.'|))
% 3.09/3.30 (assume a282 (forall ((V__REL2 $$unsorted) (V__NUMBER $$unsorted) (V__CLASS1 $$unsorted) (V__CLASS2 $$unsorted) (V__REL1 $$unsorted)) (=> (and (tptp.s__instance V__REL1 tptp.s__Relation) (tptp.s__instance V__CLASS2 tptp.s__SetOrClass) (tptp.s__instance V__CLASS1 tptp.s__SetOrClass) (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (tptp.s__instance V__REL2 tptp.s__Relation)) (=> (and (tptp.s__domain V__REL1 V__NUMBER V__CLASS1) (tptp.s__domain V__REL2 V__NUMBER V__CLASS2) (tptp.s__disjoint V__CLASS1 V__CLASS2)) (tptp.s__disjointRelation V__REL1 V__REL2)))))
% 3.09/3.30 (assume a283 (forall ((V__REL2 $$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)))))
% 3.09/3.30 (assume a284 (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)))))
% 3.09/3.30 (assume a285 (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)))))
% 3.09/3.30 (assume a286 (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))))))
% 3.09/3.30 (assume a287 (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__instance V__ROW23 tptp.s__Language) (tptp.s__instance V__ROW21 tptp.s__SymbolicString)) (=> (and (not (= tptp.s__subsumedExternalConcept__m tptp.s__subsumingExternalConcept__m)) (tptp.s__subsumedExternalConcept V__ROW21 V__ROW22 V__ROW23)) (not (tptp.s__subsumingExternalConcept V__ROW21 V__ROW22 V__ROW23))))))
% 3.09/3.30 (assume a288 (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__instance V__ROW21 tptp.s__Object) (tptp.s__instance V__ROW22 tptp.s__Object)) (=> (and (not (= tptp.s__crosses__m tptp.s__connected__m)) (tptp.s__crosses V__ROW21 V__ROW22)) (not (tptp.s__connected V__ROW21 V__ROW22))))))
% 3.09/3.30 (assume a289 (forall ((V__ROW22 $$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))))))
% 3.09/3.30 (assume a290 (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))))))
% 3.09/3.30 (assume a291 (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__instance V__ROW23 tptp.s__Language) (tptp.s__instance V__ROW21 tptp.s__SymbolicString)) (=> (and (not (= tptp.s__synonymousExternalConcept__m tptp.s__subsumedExternalConcept__m)) (tptp.s__synonymousExternalConcept V__ROW21 V__ROW22 V__ROW23)) (not (tptp.s__subsumedExternalConcept V__ROW21 V__ROW22 V__ROW23))))))
% 3.09/3.30 (assume a292 (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__instance V__ROW21 tptp.s__Process) (tptp.s__instance V__ROW22 tptp.s__Object)) (=> (and (not (= tptp.s__resource__m tptp.s__instrument__m)) (tptp.s__resource V__ROW21 V__ROW22)) (not (tptp.s__instrument V__ROW21 V__ROW22))))))
% 3.09/3.30 (assume a293 (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__instance V__ROW21 tptp.s__Formula) (tptp.s__instance V__ROW22 tptp.s__Formula)) (=> (and (not (= tptp.s__decreasesLikelihood__m tptp.s__independentProbability__m)) (tptp.s__decreasesLikelihood V__ROW21 V__ROW22)) (not (tptp.s__independentProbability V__ROW21 V__ROW22))))))
% 3.09/3.30 (assume a294 (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__instance V__ROW21 tptp.s__Process) (tptp.s__instance V__ROW21 tptp.s__Object) (tptp.s__instance V__ROW22 tptp.s__Attribute)) (=> (and (not (= tptp.s__manner__m tptp.s__attribute__m)) (tptp.s__manner V__ROW21 V__ROW22)) (not (tptp.s__attribute V__ROW21 V__ROW22))))))
% 3.09/3.30 (assume a295 (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__instance V__ROW21 tptp.s__Process) (tptp.s__instance V__ROW22 tptp.s__Object)) (=> (and (not (= tptp.s__result__m tptp.s__instrument__m)) (tptp.s__result V__ROW21 V__ROW22)) (not (tptp.s__instrument V__ROW21 V__ROW22))))))
% 3.09/3.30 (assume a296 (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__instance V__ROW21 tptp.s__Attribute) (tptp.s__instance V__ROW22 tptp.s__Attribute)) (=> (and (not (= tptp.s__subAttribute__m tptp.s__successorAttribute__m)) (tptp.s__subAttribute V__ROW21 V__ROW22)) (not (tptp.s__successorAttribute V__ROW21 V__ROW22))))))
% 3.09/3.30 (assume a297 (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__instance V__ROW21 tptp.s__Formula) (tptp.s__instance V__ROW22 tptp.s__Formula)) (=> (and (not (= tptp.s__increasesLikelihood__m tptp.s__decreasesLikelihood__m)) (tptp.s__increasesLikelihood V__ROW21 V__ROW22)) (not (tptp.s__decreasesLikelihood V__ROW21 V__ROW22))))))
% 3.09/3.30 (assume a298 (forall ((V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__instance V__ROW21 tptp.s__Object) (tptp.s__instance V__ROW22 tptp.s__Object)) (=> (and (not (= tptp.s__meetsSpatially__m tptp.s__overlapsSpatially__m)) (tptp.s__meetsSpatially V__ROW21 V__ROW22)) (not (tptp.s__overlapsSpatially V__ROW21 V__ROW22))))))
% 3.09/3.30 (assume a299 (forall ((V__ROW22 $$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))))))
% 3.09/3.30 (assume a300 (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))))))
% 3.09/3.30 (assume a301 (tptp.s__instance tptp.s__contraryAttribute__m tptp.s__Predicate))
% 3.09/3.30 (assume a302 (tptp.s__instance tptp.s__Predicate__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a303 (tptp.s__instance tptp.s__contraryAttribute__m tptp.s__VariableArityRelation))
% 3.09/3.30 (assume a304 (tptp.s__instance tptp.s__VariableArityRelation__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a305 (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.'|))
% 3.09/3.30 (assume a306 (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)))))
% 3.09/3.30 (assume a307 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__contraryAttribute_2 V__ROW1 V__ROW2) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_2 V__ROW1 V__ROW2)) (tptp.s__instance V__ELEMENT tptp.s__Attribute)))))
% 3.09/3.30 (assume a308 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__contraryAttribute_3 V__ROW1 V__ROW2 V__ROW3) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) (tptp.s__instance V__ELEMENT tptp.s__Attribute)))))
% 3.09/3.30 (assume a309 (forall ((V__ROW1 $$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)))))
% 3.09/3.30 (assume a310 (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)))))
% 3.09/3.30 (assume a311 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__contraryAttribute_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6)) (tptp.s__instance V__ELEMENT tptp.s__Attribute)))))
% 3.09/3.30 (assume a312 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ROW7 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__contraryAttribute_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7)) (tptp.s__instance V__ELEMENT tptp.s__Attribute)))))
% 3.09/3.30 (assume a313 (forall ((V__ROW11 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__contraryAttribute_1 V__ROW11) (tptp.s__identicalListItems (tptp.s__ListFn_1 V__ROW11) (tptp.s__ListFn_1 V__ROW21))) (tptp.s__contraryAttribute_1 V__ROW21))))
% 3.09/3.30 (assume a314 (forall ((V__ROW11 $$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))))
% 3.09/3.30 (assume a315 (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))))
% 3.09/3.30 (assume a316 (forall ((V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_1 V__ROW11) (tptp.s__identicalListItems (tptp.s__ListFn_1 V__ROW11) (tptp.s__ListFn_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24))) (tptp.s__contraryAttribute_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24))))
% 3.09/3.30 (assume a317 (forall ((V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_1 V__ROW11) (tptp.s__identicalListItems (tptp.s__ListFn_1 V__ROW11) (tptp.s__ListFn_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25))) (tptp.s__contraryAttribute_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25))))
% 3.09/3.30 (assume a318 (forall ((V__ROW11 $$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))))
% 3.09/3.30 (assume a319 (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))))
% 3.09/3.30 (assume a320 (forall ((V__ROW12 $$unsorted) (V__ROW11 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__contraryAttribute_2 V__ROW11 V__ROW12) (tptp.s__identicalListItems (tptp.s__ListFn_2 V__ROW11 V__ROW12) (tptp.s__ListFn_1 V__ROW21))) (tptp.s__contraryAttribute_1 V__ROW21))))
% 3.09/3.30 (assume a321 (forall ((V__ROW12 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__contraryAttribute_2 V__ROW11 V__ROW12) (tptp.s__identicalListItems (tptp.s__ListFn_2 V__ROW11 V__ROW12) (tptp.s__ListFn_2 V__ROW21 V__ROW22))) (tptp.s__contraryAttribute_2 V__ROW21 V__ROW22))))
% 3.09/3.30 (assume a322 (forall ((V__ROW12 $$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))))
% 3.09/3.30 (assume a323 (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))))
% 3.09/3.30 (assume a324 (forall ((V__ROW12 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_2 V__ROW11 V__ROW12) (tptp.s__identicalListItems (tptp.s__ListFn_2 V__ROW11 V__ROW12) (tptp.s__ListFn_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25))) (tptp.s__contraryAttribute_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25))))
% 3.09/3.30 (assume a325 (forall ((V__ROW12 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW26 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_2 V__ROW11 V__ROW12) (tptp.s__identicalListItems (tptp.s__ListFn_2 V__ROW11 V__ROW12) (tptp.s__ListFn_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26))) (tptp.s__contraryAttribute_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26))))
% 3.09/3.30 (assume a326 (forall ((V__ROW27 $$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))))
% 3.09/3.30 (assume a327 (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))))
% 3.09/3.30 (assume a328 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__contraryAttribute_3 V__ROW11 V__ROW12 V__ROW13) (tptp.s__identicalListItems (tptp.s__ListFn_3 V__ROW11 V__ROW12 V__ROW13) (tptp.s__ListFn_2 V__ROW21 V__ROW22))) (tptp.s__contraryAttribute_2 V__ROW21 V__ROW22))))
% 3.09/3.30 (assume a329 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_3 V__ROW11 V__ROW12 V__ROW13) (tptp.s__identicalListItems (tptp.s__ListFn_3 V__ROW11 V__ROW12 V__ROW13) (tptp.s__ListFn_3 V__ROW21 V__ROW22 V__ROW23))) (tptp.s__contraryAttribute_3 V__ROW21 V__ROW22 V__ROW23))))
% 3.09/3.30 (assume a330 (forall ((V__ROW12 $$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))))
% 3.09/3.30 (assume a331 (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))))
% 3.09/3.30 (assume a332 (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 $$unsorted)) (=> (and (tptp.s__contraryAttribute_3 V__ROW11 V__ROW12 V__ROW13) (tptp.s__identicalListItems (tptp.s__ListFn_3 V__ROW11 V__ROW12 V__ROW13) (tptp.s__ListFn_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26))) (tptp.s__contraryAttribute_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26))))
% 3.09/3.30 (assume a333 (forall ((V__ROW27 $$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 $$unsorted)) (=> (and (tptp.s__contraryAttribute_3 V__ROW11 V__ROW12 V__ROW13) (tptp.s__identicalListItems (tptp.s__ListFn_3 V__ROW11 V__ROW12 V__ROW13) (tptp.s__ListFn_7 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26 V__ROW27))) (tptp.s__contraryAttribute_7 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26 V__ROW27))))
% 3.09/3.30 (assume a334 (forall ((V__ROW12 $$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))))
% 3.09/3.30 (assume a335 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW14 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$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_2 V__ROW21 V__ROW22))) (tptp.s__contraryAttribute_2 V__ROW21 V__ROW22))))
% 3.09/3.30 (assume a336 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW14 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_4 V__ROW11 V__ROW12 V__ROW13 V__ROW14) (tptp.s__identicalListItems (tptp.s__ListFn_4 V__ROW11 V__ROW12 V__ROW13 V__ROW14) (tptp.s__ListFn_3 V__ROW21 V__ROW22 V__ROW23))) (tptp.s__contraryAttribute_3 V__ROW21 V__ROW22 V__ROW23))))
% 3.09/3.30 (assume a337 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW14 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_4 V__ROW11 V__ROW12 V__ROW13 V__ROW14) (tptp.s__identicalListItems (tptp.s__ListFn_4 V__ROW11 V__ROW12 V__ROW13 V__ROW14) (tptp.s__ListFn_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24))) (tptp.s__contraryAttribute_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24))))
% 3.09/3.30 (assume a338 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW14 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$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_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))))
% 3.09/3.30 (assume a339 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW14 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW26 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_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_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))))
% 3.09/3.30 (assume a340 (forall ((V__ROW27 $$unsorted) (V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW14 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW26 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_4 V__ROW11 V__ROW12 V__ROW13 V__ROW14) (tptp.s__identicalListItems (tptp.s__ListFn_4 V__ROW11 V__ROW12 V__ROW13 V__ROW14) (tptp.s__ListFn_7 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26 V__ROW27))) (tptp.s__contraryAttribute_7 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26 V__ROW27))))
% 3.09/3.30 (assume a341 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW14 $$unsorted) (V__ROW15 $$unsorted) (V__ROW11 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__contraryAttribute_5 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15) (tptp.s__identicalListItems (tptp.s__ListFn_5 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15) (tptp.s__ListFn_1 V__ROW21))) (tptp.s__contraryAttribute_1 V__ROW21))))
% 3.09/3.30 (assume a342 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW14 $$unsorted) (V__ROW15 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__contraryAttribute_5 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15) (tptp.s__identicalListItems (tptp.s__ListFn_5 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15) (tptp.s__ListFn_2 V__ROW21 V__ROW22))) (tptp.s__contraryAttribute_2 V__ROW21 V__ROW22))))
% 3.09/3.30 (assume a343 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW14 $$unsorted) (V__ROW15 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_5 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15) (tptp.s__identicalListItems (tptp.s__ListFn_5 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15) (tptp.s__ListFn_3 V__ROW21 V__ROW22 V__ROW23))) (tptp.s__contraryAttribute_3 V__ROW21 V__ROW22 V__ROW23))))
% 3.09/3.30 (assume a344 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW14 $$unsorted) (V__ROW15 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_5 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15) (tptp.s__identicalListItems (tptp.s__ListFn_5 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15) (tptp.s__ListFn_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24))) (tptp.s__contraryAttribute_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24))))
% 3.09/3.30 (assume a345 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW14 $$unsorted) (V__ROW15 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_5 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15) (tptp.s__identicalListItems (tptp.s__ListFn_5 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15) (tptp.s__ListFn_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25))) (tptp.s__contraryAttribute_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25))))
% 3.09/3.30 (assume a346 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW14 $$unsorted) (V__ROW15 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW26 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_5 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15) (tptp.s__identicalListItems (tptp.s__ListFn_5 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15) (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))))
% 3.09/3.30 (assume a347 (forall ((V__ROW27 $$unsorted) (V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW14 $$unsorted) (V__ROW15 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW26 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_5 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15) (tptp.s__identicalListItems (tptp.s__ListFn_5 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15) (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))))
% 3.09/3.30 (assume a348 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW16 $$unsorted) (V__ROW14 $$unsorted) (V__ROW15 $$unsorted) (V__ROW11 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__contraryAttribute_6 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16) (tptp.s__identicalListItems (tptp.s__ListFn_6 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16) (tptp.s__ListFn_1 V__ROW21))) (tptp.s__contraryAttribute_1 V__ROW21))))
% 3.09/3.30 (assume a349 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW16 $$unsorted) (V__ROW14 $$unsorted) (V__ROW15 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__contraryAttribute_6 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16) (tptp.s__identicalListItems (tptp.s__ListFn_6 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16) (tptp.s__ListFn_2 V__ROW21 V__ROW22))) (tptp.s__contraryAttribute_2 V__ROW21 V__ROW22))))
% 3.09/3.30 (assume a350 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW16 $$unsorted) (V__ROW14 $$unsorted) (V__ROW15 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_6 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16) (tptp.s__identicalListItems (tptp.s__ListFn_6 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16) (tptp.s__ListFn_3 V__ROW21 V__ROW22 V__ROW23))) (tptp.s__contraryAttribute_3 V__ROW21 V__ROW22 V__ROW23))))
% 3.09/3.30 (assume a351 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW16 $$unsorted) (V__ROW14 $$unsorted) (V__ROW15 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_6 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16) (tptp.s__identicalListItems (tptp.s__ListFn_6 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16) (tptp.s__ListFn_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24))) (tptp.s__contraryAttribute_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24))))
% 3.09/3.30 (assume a352 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW16 $$unsorted) (V__ROW14 $$unsorted) (V__ROW15 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_6 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16) (tptp.s__identicalListItems (tptp.s__ListFn_6 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16) (tptp.s__ListFn_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25))) (tptp.s__contraryAttribute_5 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25))))
% 3.09/3.30 (assume a353 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW16 $$unsorted) (V__ROW14 $$unsorted) (V__ROW15 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW26 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_6 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16) (tptp.s__identicalListItems (tptp.s__ListFn_6 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16) (tptp.s__ListFn_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26))) (tptp.s__contraryAttribute_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26))))
% 3.09/3.30 (assume a354 (forall ((V__ROW27 $$unsorted) (V__ROW16 $$unsorted) (V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW14 $$unsorted) (V__ROW15 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW26 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_6 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16) (tptp.s__identicalListItems (tptp.s__ListFn_6 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16) (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))))
% 3.09/3.30 (assume a355 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW16 $$unsorted) (V__ROW14 $$unsorted) (V__ROW17 $$unsorted) (V__ROW15 $$unsorted) (V__ROW11 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__contraryAttribute_7 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16 V__ROW17) (tptp.s__identicalListItems (tptp.s__ListFn_7 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16 V__ROW17) (tptp.s__ListFn_1 V__ROW21))) (tptp.s__contraryAttribute_1 V__ROW21))))
% 3.09/3.30 (assume a356 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW16 $$unsorted) (V__ROW14 $$unsorted) (V__ROW17 $$unsorted) (V__ROW15 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted)) (=> (and (tptp.s__contraryAttribute_7 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16 V__ROW17) (tptp.s__identicalListItems (tptp.s__ListFn_7 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16 V__ROW17) (tptp.s__ListFn_2 V__ROW21 V__ROW22))) (tptp.s__contraryAttribute_2 V__ROW21 V__ROW22))))
% 3.09/3.30 (assume a357 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW16 $$unsorted) (V__ROW14 $$unsorted) (V__ROW17 $$unsorted) (V__ROW15 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_7 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16 V__ROW17) (tptp.s__identicalListItems (tptp.s__ListFn_7 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16 V__ROW17) (tptp.s__ListFn_3 V__ROW21 V__ROW22 V__ROW23))) (tptp.s__contraryAttribute_3 V__ROW21 V__ROW22 V__ROW23))))
% 3.09/3.30 (assume a358 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW16 $$unsorted) (V__ROW14 $$unsorted) (V__ROW17 $$unsorted) (V__ROW15 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_7 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16 V__ROW17) (tptp.s__identicalListItems (tptp.s__ListFn_7 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16 V__ROW17) (tptp.s__ListFn_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24))) (tptp.s__contraryAttribute_4 V__ROW21 V__ROW22 V__ROW23 V__ROW24))))
% 3.09/3.30 (assume a359 (forall ((V__ROW12 $$unsorted) (V__ROW13 $$unsorted) (V__ROW16 $$unsorted) (V__ROW14 $$unsorted) (V__ROW17 $$unsorted) (V__ROW15 $$unsorted) (V__ROW11 $$unsorted) (V__ROW22 $$unsorted) (V__ROW21 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_7 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16 V__ROW17) (tptp.s__identicalListItems (tptp.s__ListFn_7 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16 V__ROW17) (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))))
% 3.09/3.30 (assume a360 (forall ((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 $$unsorted) (V__ROW26 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_7 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16 V__ROW17) (tptp.s__identicalListItems (tptp.s__ListFn_7 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16 V__ROW17) (tptp.s__ListFn_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26))) (tptp.s__contraryAttribute_6 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26))))
% 3.09/3.30 (assume a361 (forall ((V__ROW27 $$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 $$unsorted) (V__ROW26 $$unsorted) (V__ROW25 $$unsorted) (V__ROW24 $$unsorted) (V__ROW23 $$unsorted)) (=> (and (tptp.s__contraryAttribute_7 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16 V__ROW17) (tptp.s__identicalListItems (tptp.s__ListFn_7 V__ROW11 V__ROW12 V__ROW13 V__ROW14 V__ROW15 V__ROW16 V__ROW17) (tptp.s__ListFn_7 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26 V__ROW27))) (tptp.s__contraryAttribute_7 V__ROW21 V__ROW22 V__ROW23 V__ROW24 V__ROW25 V__ROW26 V__ROW27))))
% 3.09/3.30 (assume a362 (forall ((V__OBJ $$unsorted) (V__ROW1 $$unsorted) (V__NUMBER2 $$unsorted) (V__NUMBER1 $$unsorted)) (=> (tptp.s__contraryAttribute_1 V__ROW1) (forall ((V__ATTR1 $$unsorted) (V__ATTR2 $$unsorted)) (=> (and (tptp.s__instance V__ATTR2 tptp.s__Attribute) (tptp.s__instance V__ATTR1 tptp.s__Attribute) (tptp.s__instance V__NUMBER1 tptp.s__PositiveInteger) (tptp.s__instance V__NUMBER2 tptp.s__PositiveInteger)) (=> (and (= V__ATTR1 (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW1) V__NUMBER1)) (= V__ATTR2 (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW1) V__NUMBER2)) (not (= V__NUMBER1 V__NUMBER2))) (=> (tptp.s__property V__OBJ V__ATTR1) (not (tptp.s__property V__OBJ V__ATTR2)))))))))
% 3.09/3.30 (assume a363 (forall ((V__OBJ $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__NUMBER2 $$unsorted) (V__NUMBER1 $$unsorted)) (=> (tptp.s__contraryAttribute_2 V__ROW1 V__ROW2) (forall ((V__ATTR1 $$unsorted) (V__ATTR2 $$unsorted)) (=> (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 (tptp.s__ListFn_2 V__ROW1 V__ROW2) V__NUMBER1)) (= V__ATTR2 (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) V__NUMBER2)) (not (= V__NUMBER1 V__NUMBER2))) (=> (tptp.s__property V__OBJ V__ATTR1) (not (tptp.s__property V__OBJ V__ATTR2)))))))))
% 3.09/3.30 (assume a364 (forall ((V__OBJ $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__NUMBER2 $$unsorted) (V__NUMBER1 $$unsorted)) (=> (tptp.s__contraryAttribute_3 V__ROW1 V__ROW2 V__ROW3) (forall ((V__ATTR1 $$unsorted) (V__ATTR2 $$unsorted)) (=> (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 (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) V__NUMBER1)) (= V__ATTR2 (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) V__NUMBER2)) (not (= V__NUMBER1 V__NUMBER2))) (=> (tptp.s__property V__OBJ V__ATTR1) (not (tptp.s__property V__OBJ V__ATTR2)))))))))
% 3.09/3.30 (assume a365 (forall ((V__OBJ $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__NUMBER2 $$unsorted) (V__NUMBER1 $$unsorted)) (=> (tptp.s__contraryAttribute_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4) (forall ((V__ATTR1 $$unsorted) (V__ATTR2 $$unsorted)) (=> (and (tptp.s__instance V__ATTR2 tptp.s__Attribute) (tptp.s__instance V__ATTR1 tptp.s__Attribute) (tptp.s__instance V__NUMBER1 tptp.s__PositiveInteger) (tptp.s__instance V__NUMBER2 tptp.s__PositiveInteger)) (=> (and (= V__ATTR1 (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4) V__NUMBER1)) (= V__ATTR2 (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4) V__NUMBER2)) (not (= V__NUMBER1 V__NUMBER2))) (=> (tptp.s__property V__OBJ V__ATTR1) (not (tptp.s__property V__OBJ V__ATTR2)))))))))
% 3.09/3.30 (assume a366 (forall ((V__OBJ $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__NUMBER2 $$unsorted) (V__NUMBER1 $$unsorted)) (=> (tptp.s__contraryAttribute_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) (forall ((V__ATTR1 $$unsorted) (V__ATTR2 $$unsorted)) (=> (and (tptp.s__instance V__ATTR2 tptp.s__Attribute) (tptp.s__instance V__ATTR1 tptp.s__Attribute) (tptp.s__instance V__NUMBER1 tptp.s__PositiveInteger) (tptp.s__instance V__NUMBER2 tptp.s__PositiveInteger)) (=> (and (= V__ATTR1 (tptp.s__ListOrderFn (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) V__NUMBER1)) (= V__ATTR2 (tptp.s__ListOrderFn (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) V__NUMBER2)) (not (= V__NUMBER1 V__NUMBER2))) (=> (tptp.s__property V__OBJ V__ATTR1) (not (tptp.s__property V__OBJ V__ATTR2)))))))))
% 3.09/3.30 (assume a367 (forall ((V__OBJ $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__NUMBER2 $$unsorted) (V__NUMBER1 $$unsorted)) (=> (tptp.s__contraryAttribute_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) (forall ((V__ATTR1 $$unsorted) (V__ATTR2 $$unsorted)) (=> (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 (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) V__NUMBER1)) (= V__ATTR2 (tptp.s__ListOrderFn (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) V__NUMBER2)) (not (= V__NUMBER1 V__NUMBER2))) (=> (tptp.s__property V__OBJ V__ATTR1) (not (tptp.s__property V__OBJ V__ATTR2)))))))))
% 3.09/3.30 (assume a368 (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)) (=> (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 (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7) V__NUMBER1)) (= V__ATTR2 (tptp.s__ListOrderFn (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7) V__NUMBER2)) (not (= V__NUMBER1 V__NUMBER2))) (=> (tptp.s__property V__OBJ V__ATTR1) (not (tptp.s__property V__OBJ V__ATTR2)))))))))
% 3.09/3.30 (assume a369 (tptp.s__instance tptp.s__exhaustiveAttribute__m tptp.s__Predicate))
% 3.09/3.30 (assume a370 (tptp.s__instance tptp.s__exhaustiveAttribute__m tptp.s__VariableArityRelation))
% 3.09/3.30 (assume a371 (tptp.s__domainSubclass tptp.s__exhaustiveAttribute__m |"1"| tptp.s__Attribute))
% 3.09/3.30 (assume a372 (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.'|))
% 3.09/3.30 (assume a373 (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ATTR $$unsorted)) (=> (and (tptp.s__subclass V__CLASS tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__exhaustiveAttribute_2 V__CLASS V__ROW1) (=> (tptp.s__inList V__ATTR (tptp.s__ListFn_1 V__ROW1)) (tptp.s__instance V__ATTR tptp.s__Attribute))))))
% 3.09/3.30 (assume a374 (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ATTR $$unsorted)) (=> (and (tptp.s__subclass V__CLASS tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__exhaustiveAttribute_3 V__CLASS V__ROW1 V__ROW2) (=> (tptp.s__inList V__ATTR (tptp.s__ListFn_2 V__ROW1 V__ROW2)) (tptp.s__instance V__ATTR tptp.s__Attribute))))))
% 3.09/3.30 (assume a375 (forall ((V__ROW1 $$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))))))
% 3.09/3.30 (assume a376 (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))))))
% 3.09/3.30 (assume a377 (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ATTR $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted)) (=> (and (tptp.s__subclass V__CLASS tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__exhaustiveAttribute_6 V__CLASS V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) (=> (tptp.s__inList V__ATTR (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5)) (tptp.s__instance V__ATTR tptp.s__Attribute))))))
% 3.09/3.30 (assume a378 (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ATTR $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted)) (=> (and (tptp.s__subclass V__CLASS tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__exhaustiveAttribute_7 V__CLASS V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) (=> (tptp.s__inList V__ATTR (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6)) (tptp.s__instance V__ATTR tptp.s__Attribute))))))
% 3.09/3.30 (assume a379 (forall ((V__ROW1 $$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))))))
% 3.09/3.30 (assume a380 (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)))))))))
% 3.09/3.30 (assume a381 (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 $$unsorted)) (and (tptp.s__inList V__ATTR2 (tptp.s__ListFn_2 V__ROW1 V__ROW2)) (= V__ATTR1 V__ATTR2)))))))))
% 3.09/3.30 (assume a382 (forall ((V__ROW1 $$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 $$unsorted)) (and (tptp.s__inList V__ATTR2 (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) (= V__ATTR1 V__ATTR2)))))))))
% 3.09/3.30 (assume a383 (forall ((V__ROW1 $$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)))))))))
% 3.09/3.30 (assume a384 (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)))))))))
% 3.09/3.30 (assume a385 (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 $$unsorted)) (and (tptp.s__inList V__ATTR2 (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6)) (= V__ATTR1 V__ATTR2)))))))))
% 3.09/3.30 (assume a386 (forall ((V__ROW1 $$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 $$unsorted)) (and (tptp.s__inList V__ATTR2 (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7)) (= V__ATTR1 V__ATTR2)))))))))
% 3.09/3.30 (assume a387 (forall ((V__ROW1 $$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))))))))))))
% 3.09/3.30 (assume a388 (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))))))))))))
% 3.09/3.30 (assume a389 (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 $$unsorted)) (and (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= V__EL V__ATTR) (= V__ATTR (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) V__NUMBER))))))))))))
% 3.09/3.30 (assume a390 (forall ((V__ROW1 $$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 $$unsorted)) (and (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= V__EL V__ATTR) (= V__ATTR (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4) V__NUMBER))))))))))))
% 3.09/3.30 (assume a391 (forall ((V__ROW1 $$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))))))))))))
% 3.09/3.30 (assume a392 (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))))))))))))
% 3.09/3.30 (assume a393 (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 $$unsorted)) (and (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= V__EL V__ATTR) (= V__ATTR (tptp.s__ListOrderFn (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7) V__NUMBER))))))))))))
% 3.09/3.30 (assume a394 (tptp.s__instance tptp.s__exhaustiveDecomposition__m tptp.s__Predicate))
% 3.09/3.30 (assume a395 (tptp.s__instance tptp.s__exhaustiveDecomposition__m tptp.s__VariableArityRelation))
% 3.09/3.30 (assume a396 (tptp.s__domain tptp.s__exhaustiveDecomposition__m |"1"| tptp.s__Class))
% 3.09/3.30 (assume a397 (tptp.s__relatedInternalConcept tptp.s__exhaustiveDecomposition__m tptp.s__partition__m))
% 3.09/3.30 (assume a398 (tptp.s__documentation tptp.s__exhaustiveDecomposition__m tptp.s__EnglishLanguage |tptp.'An &%exhaustiveDecomposition of a &%Class C is a set of subclasses of C such that every instance of C is an instance of one of the subclasses in the set. Note: this does not necessarily mean that the elements of the set are disjoint (see &%partition - a &%partition is a disjoint exhaustive decomposition).'|))
% 3.09/3.30 (assume a399 (forall ((V__ROW1 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__exhaustiveDecomposition_1 V__ROW1) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_1 V__ROW1)) (tptp.s__instance V__ELEMENT tptp.s__Class))))))
% 3.09/3.30 (assume a400 (forall ((V__ROW1 $$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))))))
% 3.09/3.30 (assume a401 (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))))))
% 3.09/3.30 (assume a402 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__exhaustiveDecomposition_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4)) (tptp.s__instance V__ELEMENT tptp.s__Class))))))
% 3.09/3.30 (assume a403 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__exhaustiveDecomposition_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5)) (tptp.s__instance V__ELEMENT tptp.s__Class))))))
% 3.09/3.30 (assume a404 (forall ((V__ROW1 $$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))))))
% 3.09/3.30 (assume a405 (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))))))
% 3.09/3.30 (assume a406 (tptp.s__instance tptp.s__disjointDecomposition__m tptp.s__Predicate))
% 3.09/3.30 (assume a407 (tptp.s__instance tptp.s__disjointDecomposition__m tptp.s__VariableArityRelation))
% 3.09/3.30 (assume a408 (tptp.s__domain tptp.s__disjointDecomposition__m |"1"| tptp.s__Class))
% 3.09/3.30 (assume a409 (tptp.s__relatedInternalConcept tptp.s__disjointDecomposition__m tptp.s__exhaustiveDecomposition__m))
% 3.09/3.30 (assume a410 (tptp.s__relatedInternalConcept tptp.s__disjointDecomposition__m tptp.s__disjoint__m))
% 3.09/3.30 (assume a411 (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.'|))
% 3.09/3.30 (assume a412 (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))))))
% 3.09/3.30 (assume a413 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__disjointDecomposition_2 V__ROW1 V__ROW2) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_2 V__ROW1 V__ROW2)) (tptp.s__instance V__ELEMENT tptp.s__Class))))))
% 3.09/3.30 (assume a414 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__disjointDecomposition_3 V__ROW1 V__ROW2 V__ROW3) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) (tptp.s__instance V__ELEMENT tptp.s__Class))))))
% 3.09/3.30 (assume a415 (forall ((V__ROW1 $$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))))))
% 3.09/3.30 (assume a416 (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))))))
% 3.09/3.30 (assume a417 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__disjointDecomposition_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6)) (tptp.s__instance V__ELEMENT tptp.s__Class))))))
% 3.09/3.30 (assume a418 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ROW7 $$unsorted) (V__ELEMENT $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__disjointDecomposition_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7)) (tptp.s__instance V__ELEMENT tptp.s__Class))))))
% 3.09/3.30 (assume a419 (tptp.s__instance tptp.s__partition__m tptp.s__Predicate))
% 3.09/3.30 (assume a420 (tptp.s__instance tptp.s__partition__m tptp.s__VariableArityRelation))
% 3.09/3.30 (assume a421 (tptp.s__domain tptp.s__partition__m |"1"| tptp.s__Class))
% 3.09/3.30 (assume a422 (tptp.s__documentation tptp.s__partition__m tptp.s__EnglishLanguage |tptp.'A &%partition of a class C is a set of mutually &%disjoint classes (a subclass partition) which covers C. Every instance of C is an instance of exactly one of the subclasses in the partition.'|))
% 3.09/3.30 (assume a423 (forall ((V__ROW1 $$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))))))
% 3.09/3.30 (assume a424 (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))))))
% 3.09/3.30 (assume a425 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (= (tptp.s__partition_3 V__ROW1 V__ROW2 V__ROW3) (and (tptp.s__exhaustiveDecomposition_3 V__ROW1 V__ROW2 V__ROW3) (tptp.s__disjointDecomposition_3 V__ROW1 V__ROW2 V__ROW3))))))
% 3.09/3.30 (assume a426 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (= (tptp.s__partition_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4) (and (tptp.s__exhaustiveDecomposition_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4) (tptp.s__disjointDecomposition_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4))))))
% 3.09/3.30 (assume a427 (forall ((V__ROW1 $$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))))))
% 3.09/3.30 (assume a428 (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))))))
% 3.09/3.30 (assume a429 (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))))))
% 3.09/3.30 (assume a430 (tptp.s__instance tptp.s__relatedInternalConcept__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a431 (tptp.s__instance tptp.s__relatedInternalConcept__m tptp.s__EquivalenceRelation))
% 3.09/3.30 (assume a432 (tptp.s__domain tptp.s__relatedInternalConcept__m |"1"| tptp.s__Entity))
% 3.09/3.30 (assume a433 (tptp.s__domain tptp.s__relatedInternalConcept__m |"2"| tptp.s__Entity))
% 3.09/3.30 (assume a434 (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.'|))
% 3.09/3.30 (assume a435 (tptp.s__instance tptp.s__relatedExternalConcept__m tptp.s__TernaryPredicate))
% 3.09/3.30 (assume a436 (tptp.s__domain tptp.s__relatedExternalConcept__m |"1"| tptp.s__SymbolicString))
% 3.09/3.30 (assume a437 (tptp.s__domain tptp.s__relatedExternalConcept__m |"2"| tptp.s__Entity))
% 3.09/3.30 (assume a438 (tptp.s__domain tptp.s__relatedExternalConcept__m |"3"| tptp.s__Language))
% 3.09/3.30 (assume a439 (tptp.s__relatedInternalConcept tptp.s__relatedExternalConcept__m tptp.s__relatedInternalConcept__m))
% 3.09/3.30 (assume a440 (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.'|))
% 3.09/3.30 (assume a441 (tptp.s__subrelation tptp.s__synonymousExternalConcept__m tptp.s__relatedExternalConcept__m))
% 3.09/3.30 (assume a442 (tptp.s__disjointRelation tptp.s__synonymousExternalConcept__m tptp.s__subsumedExternalConcept__m))
% 3.09/3.30 (assume a443 (tptp.s__disjointRelation tptp.s__synonymousExternalConcept__m tptp.s__subsumingExternalConcept__m))
% 3.09/3.30 (assume a444 (tptp.s__disjointRelation tptp.s__subsumedExternalConcept__m tptp.s__subsumingExternalConcept__m))
% 3.09/3.30 (assume a445 (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.'|))
% 3.09/3.30 (assume a446 (tptp.s__subrelation tptp.s__subsumingExternalConcept__m tptp.s__relatedExternalConcept__m))
% 3.09/3.30 (assume a447 (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.'|))
% 3.09/3.30 (assume a448 (tptp.s__subrelation tptp.s__subsumedExternalConcept__m tptp.s__relatedExternalConcept__m))
% 3.09/3.30 (assume a449 (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.'|))
% 3.09/3.30 (assume a450 (tptp.s__instance tptp.s__externalImage__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a451 (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.'|))
% 3.09/3.30 (assume a452 (tptp.s__domain tptp.s__externalImage__m |"1"| tptp.s__Entity))
% 3.09/3.30 (assume a453 (tptp.s__domain tptp.s__externalImage__m |"2"| tptp.s__SymbolicString))
% 3.09/3.30 (assume a454 (tptp.s__instance tptp.s__subAttribute__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a455 (tptp.s__instance tptp.s__subAttribute__m tptp.s__PartialOrderingRelation))
% 3.09/3.30 (assume a456 (tptp.s__domain tptp.s__subAttribute__m |"1"| tptp.s__Attribute))
% 3.09/3.30 (assume a457 (tptp.s__domain tptp.s__subAttribute__m |"2"| tptp.s__Attribute))
% 3.09/3.30 (assume a458 (tptp.s__disjointRelation tptp.s__subAttribute__m tptp.s__successorAttribute__m))
% 3.09/3.30 (assume a459 (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.'|))
% 3.09/3.30 (assume a460 (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)))))))
% 3.09/3.30 (assume a461 (forall ((V__CLASS $$unsorted) (V__ATTR2 $$unsorted) (V__ATTR1 $$unsorted)) (=> (and (tptp.s__instance V__ATTR1 tptp.s__Attribute) (tptp.s__instance V__ATTR2 tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (and (tptp.s__subAttribute V__ATTR1 V__ATTR2) (tptp.s__instance V__ATTR2 V__CLASS)) (tptp.s__instance V__ATTR1 V__CLASS)))))
% 3.09/3.30 (assume a462 (tptp.s__instance tptp.s__successorAttribute__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a463 (tptp.s__instance tptp.s__successorAttribute__m tptp.s__AsymmetricRelation))
% 3.09/3.30 (assume a464 (tptp.s__domain tptp.s__successorAttribute__m |"1"| tptp.s__Attribute))
% 3.09/3.30 (assume a465 (tptp.s__domain tptp.s__successorAttribute__m |"2"| tptp.s__Attribute))
% 3.09/3.30 (assume a466 (tptp.s__documentation tptp.s__successorAttribute__m tptp.s__EnglishLanguage |tptp.'(&%successorAttribute ?ATTR1 ?ATTR2) means that ?ATTR2 is the &%Attribute that comes immediately after ?ATTR1 on the scale that they share.'|))
% 3.09/3.30 (assume a467 (tptp.s__instance tptp.s__successorAttributeClosure__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a468 (tptp.s__instance tptp.s__successorAttributeClosure__m tptp.s__TransitiveRelation))
% 3.09/3.30 (assume a469 (tptp.s__instance tptp.s__successorAttributeClosure__m tptp.s__IrreflexiveRelation))
% 3.09/3.30 (assume a470 (tptp.s__domain tptp.s__successorAttributeClosure__m |"1"| tptp.s__Attribute))
% 3.09/3.30 (assume a471 (tptp.s__domain tptp.s__successorAttributeClosure__m |"2"| tptp.s__Attribute))
% 3.09/3.30 (assume a472 (tptp.s__relatedInternalConcept tptp.s__successorAttributeClosure__m tptp.s__successorAttribute__m))
% 3.09/3.30 (assume a473 (tptp.s__documentation tptp.s__successorAttributeClosure__m tptp.s__EnglishLanguage |tptp.'The transitive closure of &%successorAttribute. (&%successorAttributeClosure ?ATTR1 ?ATTR2) means that there is a chain of &%successorAttribute assertions connecting ?ATTR1 and ?ATTR2.'|))
% 3.09/3.30 (assume a474 (forall ((V__ATTR2 $$unsorted) (V__ATTR1 $$unsorted)) (=> (and (tptp.s__instance V__ATTR1 tptp.s__Attribute) (tptp.s__instance V__ATTR2 tptp.s__Attribute)) (=> (tptp.s__successorAttribute V__ATTR1 V__ATTR2) (tptp.s__successorAttributeClosure V__ATTR1 V__ATTR2)))))
% 3.09/3.30 (assume a475 (tptp.s__instance tptp.s__greaterThanByQuality__m tptp.s__TernaryPredicate))
% 3.09/3.30 (assume a476 (tptp.s__documentation tptp.s__greaterThanByQuality__m tptp.s__EnglishLanguage |tptp.'(greaterThanByQuality ?ENTITY1 ?ENTITY2 ?ATT) means that ?ENTITY1 has more of the given quality ?ATT than ?ENTITY2)'|))
% 3.09/3.30 (assume a477 (tptp.s__domain tptp.s__greaterThanByQuality__m |"1"| tptp.s__Entity))
% 3.09/3.30 (assume a478 (tptp.s__domain tptp.s__greaterThanByQuality__m |"2"| tptp.s__Entity))
% 3.09/3.30 (assume a479 (tptp.s__domain tptp.s__greaterThanByQuality__m |"3"| tptp.s__Attribute))
% 3.09/3.30 (assume a480 (forall ((V__E3 $$unsorted) (V__E2 $$unsorted) (V__ATT $$unsorted) (V__E1 $$unsorted)) (=> (tptp.s__instance V__ATT tptp.s__Attribute) (=> (and (tptp.s__greaterThanByQuality V__E1 V__E2 V__ATT) (tptp.s__greaterThanByQuality V__E2 V__E3 V__ATT)) (tptp.s__greaterThanByQuality V__E1 V__E3 V__ATT)))))
% 3.09/3.30 (assume a481 (forall ((V__E2 $$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))))))
% 3.09/3.30 (assume a482 (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))))))
% 3.09/3.30 (assume a483 (tptp.s__instance tptp.s__entails__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a484 (tptp.s__domain tptp.s__entails__m |"1"| tptp.s__Formula))
% 3.09/3.30 (assume a485 (tptp.s__domain tptp.s__entails__m |"2"| tptp.s__Formula))
% 3.09/3.30 (assume a486 (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.'|))
% 3.09/3.30 (assume a487 (tptp.s__instance tptp.s__AssignmentFn__m tptp.s__Function))
% 3.09/3.30 (assume a488 (tptp.s__instance tptp.s__Function__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a489 (tptp.s__instance tptp.s__AssignmentFn__m tptp.s__VariableArityRelation))
% 3.09/3.30 (assume a490 (tptp.s__domain tptp.s__AssignmentFn__m |"1"| tptp.s__Function))
% 3.09/3.30 (assume a491 (tptp.s__range tptp.s__AssignmentFn__m tptp.s__Entity))
% 3.09/3.30 (assume a492 (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.'|))
% 3.09/3.30 (assume a493 (tptp.s__instance tptp.s__PowerSetFn__m tptp.s__UnaryFunction))
% 3.09/3.30 (assume a494 (tptp.s__instance tptp.s__PowerSetFn__m tptp.s__TotalValuedRelation))
% 3.09/3.30 (assume a495 (tptp.s__domain tptp.s__PowerSetFn__m |"1"| tptp.s__SetOrClass))
% 3.09/3.30 (assume a496 (tptp.s__rangeSubclass tptp.s__PowerSetFn__m tptp.s__SetOrClass))
% 3.09/3.30 (assume a497 (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.'|))
% 3.09/3.30 (assume a498 (tptp.s__partition_3 tptp.s__Entity tptp.s__Physical tptp.s__Abstract))
% 3.09/3.30 (assume a499 (tptp.s__documentation tptp.s__Entity tptp.s__EnglishLanguage |tptp.'The universal class of individuals. This is the root node of the ontology.'|))
% 3.09/3.30 (assume a500 (forall ((V__THING $$unsorted)) (tptp.s__instance V__THING tptp.s__Entity)))
% 3.09/3.30 (assume a501 (exists ((V__THING $$unsorted)) (tptp.s__instance V__THING tptp.s__Entity)))
% 3.09/3.30 (assume a502 (forall ((V__CLASS $$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)))))
% 3.09/3.30 (assume a503 (tptp.s__subclass tptp.s__Physical tptp.s__Entity))
% 3.09/3.30 (assume a504 (tptp.s__instance tptp.s__Physical__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a505 (tptp.s__partition_3 tptp.s__Physical tptp.s__Object tptp.s__Process))
% 3.09/3.30 (assume a506 (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.'|))
% 3.09/3.30 (assume a507 (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))))))
% 3.09/3.30 (assume a508 (tptp.s__subclass tptp.s__Object tptp.s__Physical))
% 3.09/3.30 (assume a509 (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.'|))
% 3.09/3.30 (assume a510 (tptp.s__subclass tptp.s__SelfConnectedObject tptp.s__Object))
% 3.09/3.30 (assume a511 (tptp.s__instance tptp.s__SelfConnectedObject__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a512 (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.'|))
% 3.09/3.30 (assume a513 (tptp.s__subclass tptp.s__OrganicThing tptp.s__SelfConnectedObject))
% 3.09/3.30 (assume a514 (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.'|))
% 3.09/3.30 (assume a515 (tptp.s__instance tptp.s__FrontFn__m tptp.s__SpatialRelation))
% 3.09/3.30 (assume a516 (tptp.s__instance tptp.s__SpatialRelation__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a517 (tptp.s__instance tptp.s__FrontFn__m tptp.s__PartialValuedRelation))
% 3.09/3.30 (assume a518 (tptp.s__instance tptp.s__FrontFn__m tptp.s__UnaryFunction))
% 3.09/3.30 (assume a519 (tptp.s__instance tptp.s__FrontFn__m tptp.s__AsymmetricRelation))
% 3.09/3.30 (assume a520 (tptp.s__instance tptp.s__FrontFn__m tptp.s__IrreflexiveRelation))
% 3.09/3.30 (assume a521 (tptp.s__domain tptp.s__FrontFn__m |"1"| tptp.s__SelfConnectedObject))
% 3.09/3.30 (assume a522 (tptp.s__range tptp.s__FrontFn__m tptp.s__SelfConnectedObject))
% 3.09/3.30 (assume a523 (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.'|))
% 3.09/3.30 (assume a524 (forall ((V__OBJ $$unsorted)) (=> (tptp.s__instance V__OBJ tptp.s__SelfConnectedObject) (tptp.s__side (tptp.s__FrontFn V__OBJ) V__OBJ))))
% 3.09/3.30 (assume a525 (tptp.s__instance tptp.s__BackFn__m tptp.s__SpatialRelation))
% 3.09/3.30 (assume a526 (tptp.s__instance tptp.s__BackFn__m tptp.s__PartialValuedRelation))
% 3.09/3.30 (assume a527 (tptp.s__instance tptp.s__PartialValuedRelation__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a528 (tptp.s__instance tptp.s__BackFn__m tptp.s__UnaryFunction))
% 3.09/3.30 (assume a529 (tptp.s__instance tptp.s__BackFn__m tptp.s__AsymmetricRelation))
% 3.09/3.30 (assume a530 (tptp.s__instance tptp.s__BackFn__m tptp.s__IrreflexiveRelation))
% 3.09/3.30 (assume a531 (tptp.s__domain tptp.s__BackFn__m |"1"| tptp.s__SelfConnectedObject))
% 3.09/3.30 (assume a532 (tptp.s__range tptp.s__BackFn__m tptp.s__SelfConnectedObject))
% 3.09/3.30 (assume a533 (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.'|))
% 3.09/3.30 (assume a534 (forall ((V__OBJ $$unsorted)) (=> (tptp.s__instance V__OBJ tptp.s__SelfConnectedObject) (tptp.s__side (tptp.s__BackFn V__OBJ) V__OBJ))))
% 3.09/3.30 (assume a535 (tptp.s__instance tptp.s__part__m tptp.s__SpatialRelation))
% 3.09/3.30 (assume a536 (tptp.s__instance tptp.s__part__m tptp.s__PartialOrderingRelation))
% 3.09/3.30 (assume a537 (tptp.s__domain tptp.s__part__m |"1"| tptp.s__Object))
% 3.09/3.30 (assume a538 (tptp.s__domain tptp.s__part__m |"2"| tptp.s__Object))
% 3.09/3.30 (assume a539 (tptp.s__documentation tptp.s__part__m tptp.s__EnglishLanguage |tptp.'The basic mereological relation. All other mereological relations are defined in terms of this one. (&%part ?PART ?WHOLE) simply means that the &%Object ?PART is part of the &%Object ?WHOLE. Note that, since &%part is a &%ReflexiveRelation, every &%Object is a part of itself.'|))
% 3.09/3.30 (assume a540 (tptp.s__instance tptp.s__properPart__m tptp.s__AsymmetricRelation))
% 3.09/3.30 (assume a541 (tptp.s__instance tptp.s__properPart__m tptp.s__TransitiveRelation))
% 3.09/3.30 (assume a542 (tptp.s__subrelation tptp.s__properPart__m tptp.s__part__m))
% 3.09/3.30 (assume a543 (tptp.s__documentation tptp.s__properPart__m tptp.s__EnglishLanguage |tptp.'(&%properPart ?OBJ1 ?OBJ2) means that ?OBJ1 is a part of ?OBJ2 other than ?OBJ2 itself. This is a &%TransitiveRelation and &%AsymmetricRelation (hence an &%IrreflexiveRelation).'|))
% 3.09/3.30 (assume a544 (forall ((V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__Object)) (= (tptp.s__properPart V__OBJ1 V__OBJ2) (and (tptp.s__part V__OBJ1 V__OBJ2) (not (tptp.s__part V__OBJ2 V__OBJ1)))))))
% 3.09/3.30 (assume a545 (tptp.s__subrelation tptp.s__piece__m tptp.s__part__m))
% 3.09/3.30 (assume a546 (tptp.s__domain tptp.s__piece__m |"1"| tptp.s__Substance))
% 3.09/3.30 (assume a547 (tptp.s__domain tptp.s__piece__m |"2"| tptp.s__Substance))
% 3.09/3.30 (assume a548 (tptp.s__documentation tptp.s__piece__m tptp.s__EnglishLanguage |tptp.'A specialized common sense notion of part for arbitrary parts of &%Substances. Quasi-synonyms are: chunk, hunk, bit, etc. Compare &%component, another subrelation of &%part.'|))
% 3.09/3.30 (assume a549 (forall ((V__SUBSTANCE1 $$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)))))))
% 3.09/3.30 (assume a550 (tptp.s__subrelation tptp.s__component__m tptp.s__part__m))
% 3.09/3.30 (assume a551 (tptp.s__domain tptp.s__component__m |"1"| tptp.s__CorpuscularObject))
% 3.09/3.30 (assume a552 (tptp.s__domain tptp.s__component__m |"2"| tptp.s__CorpuscularObject))
% 3.09/3.30 (assume a553 (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.'|))
% 3.09/3.30 (assume a554 (tptp.s__instance tptp.s__material__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a555 (tptp.s__domainSubclass tptp.s__material__m |"1"| tptp.s__Substance))
% 3.09/3.30 (assume a556 (tptp.s__domain tptp.s__material__m |"2"| tptp.s__CorpuscularObject))
% 3.09/3.30 (assume a557 (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.'|))
% 3.09/3.30 (assume a558 (tptp.s__subrelation tptp.s__contains__m tptp.s__partlyLocated__m))
% 3.09/3.30 (assume a559 (tptp.s__instance tptp.s__contains__m tptp.s__SpatialRelation))
% 3.09/3.30 (assume a560 (tptp.s__instance tptp.s__contains__m tptp.s__AsymmetricRelation))
% 3.09/3.30 (assume a561 (tptp.s__disjointRelation tptp.s__contains__m tptp.s__part__m))
% 3.09/3.30 (assume a562 (tptp.s__domain tptp.s__contains__m |"1"| tptp.s__SelfConnectedObject))
% 3.09/3.30 (assume a563 (tptp.s__domain tptp.s__contains__m |"2"| tptp.s__Object))
% 3.09/3.30 (assume a564 (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.'|))
% 3.09/3.30 (assume a565 (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 $$unsorted)) (and (tptp.s__instance V__HOLE tptp.s__Hole) (tptp.s__hole V__HOLE V__OBJ1) (tptp.s__properlyFills V__OBJ2 V__HOLE)))))))
% 3.09/3.30 (assume a566 (tptp.s__subclass tptp.s__Substance tptp.s__SelfConnectedObject))
% 3.09/3.30 (assume a567 (tptp.s__partition_3 tptp.s__Substance tptp.s__PureSubstance tptp.s__Mixture))
% 3.09/3.30 (assume a568 (tptp.s__partition_3 tptp.s__Substance tptp.s__SyntheticSubstance tptp.s__NaturalSubstance))
% 3.09/3.30 (assume a569 (tptp.s__documentation tptp.s__Substance tptp.s__EnglishLanguage |tptp.'An &%Object in which every part is similar to every other in every relevant respect. More precisely, something is a &%Substance when it has only arbitrary pieces as parts - any parts have properties which are similar to those of the whole. Note that a &%Substance may nonetheless have physical properties that vary. For example, the temperature, chemical constitution, density, etc. may change from one part to another. An example would be a body of water.'|))
% 3.09/3.30 (assume a570 (forall ((V__OBJECT $$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)))))
% 3.09/3.30 (assume a571 (forall ((V__OBJ $$unsorted) (V__PART $$unsorted) (V__ATTR $$unsorted)) (=> (and (tptp.s__instance V__ATTR tptp.s__Attribute) (tptp.s__instance V__PART tptp.s__Object) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (and (tptp.s__instance V__OBJ tptp.s__Substance) (tptp.s__attribute V__OBJ V__ATTR) (tptp.s__part V__PART V__OBJ)) (tptp.s__attribute V__PART V__ATTR)))))
% 3.09/3.30 (assume a572 (tptp.s__subclass tptp.s__SyntheticSubstance tptp.s__Substance))
% 3.09/3.30 (assume a573 (tptp.s__instance tptp.s__SyntheticSubstance__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a574 (tptp.s__documentation tptp.s__SyntheticSubstance tptp.s__EnglishLanguage |tptp.'Any &%Substance that is the result of an &%IntentionalProcess, i.e. any substance that is created by &%Humans.'|))
% 3.09/3.30 (assume a575 (forall ((V__SUBSTANCE $$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))))))
% 3.09/3.30 (assume a576 (tptp.s__subclass tptp.s__NaturalSubstance tptp.s__Substance))
% 3.09/3.30 (assume a577 (tptp.s__instance tptp.s__NaturalSubstance__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a578 (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.'|))
% 3.09/3.30 (assume a579 (tptp.s__subclass tptp.s__PureSubstance tptp.s__Substance))
% 3.09/3.30 (assume a580 (tptp.s__instance tptp.s__PureSubstance__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a581 (tptp.s__partition_3 tptp.s__PureSubstance tptp.s__CompoundSubstance tptp.s__ElementalSubstance))
% 3.09/3.30 (assume a582 (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).'|))
% 3.09/3.30 (assume a583 (tptp.s__subclass tptp.s__ElementalSubstance tptp.s__PureSubstance))
% 3.09/3.30 (assume a584 (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.'|))
% 3.09/3.30 (assume a585 (tptp.s__subclass tptp.s__Metal tptp.s__ElementalSubstance))
% 3.09/3.30 (assume a586 (tptp.s__instance tptp.s__Metal__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a587 (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.'|))
% 3.09/3.30 (assume a588 (tptp.s__subclass tptp.s__Atom tptp.s__ElementalSubstance))
% 3.09/3.30 (assume a589 (tptp.s__instance tptp.s__Atom__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a590 (tptp.s__instance tptp.s__ElementalSubstance__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a591 (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.'|))
% 3.09/3.30 (assume a592 (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)))))))
% 3.09/3.30 (assume a593 (forall ((V__ATOM $$unsorted)) (=> (tptp.s__instance V__ATOM tptp.s__Atom) (forall ((V__NUCLEUS1 $$unsorted) (V__NUCLEUS2 $$unsorted)) (=> (and (tptp.s__instance V__NUCLEUS2 tptp.s__CorpuscularObject) (tptp.s__instance V__NUCLEUS1 tptp.s__CorpuscularObject) (tptp.s__instance V__ATOM tptp.s__CorpuscularObject)) (=> (and (tptp.s__component V__NUCLEUS1 V__ATOM) (tptp.s__component V__NUCLEUS2 V__ATOM) (tptp.s__instance V__NUCLEUS1 tptp.s__AtomicNucleus) (tptp.s__instance V__NUCLEUS2 tptp.s__AtomicNucleus)) (= V__NUCLEUS1 V__NUCLEUS2)))))))
% 3.09/3.30 (assume a594 (tptp.s__subclass tptp.s__SubatomicParticle tptp.s__ElementalSubstance))
% 3.09/3.30 (assume a595 (tptp.s__documentation tptp.s__SubatomicParticle tptp.s__EnglishLanguage |tptp.'The class of &%ElementalSubstances that are smaller than &%Atoms and compose &%Atoms.'|))
% 3.09/3.30 (assume a596 (forall ((V__PARTICLE $$unsorted)) (=> (tptp.s__instance V__PARTICLE tptp.s__Object) (=> (tptp.s__instance V__PARTICLE tptp.s__SubatomicParticle) (exists ((V__ATOM $$unsorted)) (and (tptp.s__instance V__ATOM tptp.s__Object) (tptp.s__instance V__ATOM tptp.s__Atom) (tptp.s__part V__PARTICLE V__ATOM)))))))
% 3.09/3.30 (assume a597 (tptp.s__subclass tptp.s__AtomicNucleus tptp.s__SubatomicParticle))
% 3.09/3.30 (assume a598 (tptp.s__instance tptp.s__AtomicNucleus__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a599 (tptp.s__documentation tptp.s__AtomicNucleus tptp.s__EnglishLanguage |tptp.'The core of the &%Atom. It is composed of &%Protons and &%Neutrons.'|))
% 3.09/3.30 (assume a600 (forall ((V__NUCLEUS $$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)))))))
% 3.09/3.30 (assume a601 (tptp.s__subclass tptp.s__Electron tptp.s__SubatomicParticle))
% 3.09/3.30 (assume a602 (tptp.s__instance tptp.s__Electron__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a603 (tptp.s__documentation tptp.s__Electron tptp.s__EnglishLanguage |tptp.'&%SubatomicParticles that surround the &%AtomicNucleus. They have a negative charge.'|))
% 3.09/3.30 (assume a604 (tptp.s__subclass tptp.s__Proton tptp.s__SubatomicParticle))
% 3.09/3.30 (assume a605 (tptp.s__instance tptp.s__Proton__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a606 (tptp.s__instance tptp.s__SubatomicParticle__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a607 (tptp.s__documentation tptp.s__Proton tptp.s__EnglishLanguage |tptp.'Components of the &%AtomicNucleus. They have a positive charge.'|))
% 3.09/3.30 (assume a608 (tptp.s__subclass tptp.s__Neutron tptp.s__SubatomicParticle))
% 3.09/3.30 (assume a609 (tptp.s__instance tptp.s__Neutron__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a610 (tptp.s__documentation tptp.s__Neutron tptp.s__EnglishLanguage |tptp.'Components of the &%AtomicNucleus. They have no charge.'|))
% 3.09/3.30 (assume a611 (tptp.s__subclass tptp.s__CompoundSubstance tptp.s__PureSubstance))
% 3.09/3.30 (assume a612 (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). '|))
% 3.09/3.30 (assume a613 (tptp.s__subclass tptp.s__Mixture tptp.s__Substance))
% 3.09/3.30 (assume a614 (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. '|))
% 3.09/3.30 (assume a615 (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 $$unsorted)) (and (tptp.s__instance V__PURE2 tptp.s__Object) (tptp.s__instance V__PURE1 tptp.s__Object) (tptp.s__instance V__PURE1 tptp.s__PureSubstance) (tptp.s__instance V__PURE2 tptp.s__PureSubstance) (not (= V__PURE1 V__PURE2)) (tptp.s__part V__PURE1 V__MIXTURE) (tptp.s__part V__PURE2 V__MIXTURE)))))))
% 3.09/3.30 (assume a616 (forall ((V__SUBSTANCE $$unsorted) (V__MIXTURE $$unsorted)) (=> (and (tptp.s__instance V__MIXTURE tptp.s__Object) (tptp.s__instance V__SUBSTANCE tptp.s__Object)) (=> (and (tptp.s__instance V__MIXTURE tptp.s__Mixture) (tptp.s__part V__SUBSTANCE V__MIXTURE) (not (tptp.s__instance V__SUBSTANCE tptp.s__Mixture))) (tptp.s__instance V__SUBSTANCE tptp.s__PureSubstance)))))
% 3.09/3.30 (assume a617 (tptp.s__subclass tptp.s__CorpuscularObject tptp.s__SelfConnectedObject))
% 3.09/3.30 (assume a618 (tptp.s__disjoint tptp.s__CorpuscularObject tptp.s__Substance))
% 3.09/3.30 (assume a619 (tptp.s__documentation tptp.s__CorpuscularObject tptp.s__EnglishLanguage |tptp.'A &%SelfConnectedObject whose parts have properties that are not shared by the whole.'|))
% 3.09/3.30 (assume a620 (forall ((V__OBJ $$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)))))))
% 3.09/3.30 (assume a621 (tptp.s__subclass tptp.s__Region tptp.s__Object))
% 3.09/3.30 (assume a622 (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.'|))
% 3.09/3.30 (assume a623 (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)))))))
% 3.09/3.30 (assume a624 (tptp.s__subclass tptp.s__Collection tptp.s__Object))
% 3.09/3.30 (assume a625 (tptp.s__instance tptp.s__Collection__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a626 (tptp.s__disjoint tptp.s__Collection tptp.s__SelfConnectedObject))
% 3.09/3.30 (assume a627 (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.'|))
% 3.09/3.30 (assume a628 (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))))))
% 3.09/3.30 (assume a629 (tptp.s__subrelation tptp.s__member__m tptp.s__part__m))
% 3.09/3.30 (assume a630 (tptp.s__instance tptp.s__member__m tptp.s__AsymmetricRelation))
% 3.09/3.30 (assume a631 (tptp.s__instance tptp.s__member__m tptp.s__IntransitiveRelation))
% 3.09/3.30 (assume a632 (tptp.s__domain tptp.s__member__m |"1"| tptp.s__SelfConnectedObject))
% 3.09/3.30 (assume a633 (tptp.s__domain tptp.s__member__m |"2"| tptp.s__Collection))
% 3.09/3.30 (assume a634 (tptp.s__relatedInternalConcept tptp.s__member__m tptp.s__instance__m))
% 3.09/3.30 (assume a635 (tptp.s__relatedInternalConcept tptp.s__member__m tptp.s__element__m))
% 3.09/3.30 (assume a636 (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.'|))
% 3.09/3.30 (assume a637 (tptp.s__instance tptp.s__subCollection__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a638 (tptp.s__instance tptp.s__subCollection__m tptp.s__PartialOrderingRelation))
% 3.09/3.30 (assume a639 (tptp.s__domain tptp.s__subCollection__m |"1"| tptp.s__Collection))
% 3.09/3.30 (assume a640 (tptp.s__domain tptp.s__subCollection__m |"2"| tptp.s__Collection))
% 3.09/3.30 (assume a641 (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.'|))
% 3.09/3.30 (assume a642 (tptp.s__subrelation tptp.s__subCollection__m tptp.s__part__m))
% 3.09/3.30 (assume a643 (forall ((V__COLL1 $$unsorted) (V__COLL2 $$unsorted)) (= (tptp.s__subCollection V__COLL1 V__COLL2) (forall ((V__MEMBER $$unsorted)) (=> (and (tptp.s__instance V__MEMBER tptp.s__SelfConnectedObject) (tptp.s__instance V__COLL2 tptp.s__Collection) (tptp.s__instance V__COLL1 tptp.s__Collection)) (=> (tptp.s__member V__MEMBER V__COLL1) (tptp.s__member V__MEMBER V__COLL2)))))))
% 3.09/3.30 (assume a644 (tptp.s__subclass tptp.s__ContentBearingPhysical tptp.s__Physical))
% 3.09/3.30 (assume a645 (tptp.s__documentation tptp.s__ContentBearingPhysical tptp.s__EnglishLanguage |tptp.'Any &%Object or &%Process that expresses content. This covers &%Objects that contain a &%Proposition, such as a book, as well as &%ManualSignLanguage, which may similarly contain a &%Proposition.'|))
% 3.09/3.30 (assume a646 (forall ((V__OBJ $$unsorted)) (=> (tptp.s__instance V__OBJ tptp.s__ContentBearingPhysical) (exists ((V__THING $$unsorted)) (tptp.s__represents V__OBJ V__THING)))))
% 3.09/3.30 (assume a647 (tptp.s__subclass tptp.s__ContentBearingProcess tptp.s__ContentBearingPhysical))
% 3.09/3.30 (assume a648 (tptp.s__subclass tptp.s__ContentBearingProcess tptp.s__Process))
% 3.09/3.30 (assume a649 (tptp.s__instance tptp.s__ContentBearingProcess__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a650 (tptp.s__documentation tptp.s__ContentBearingProcess tptp.s__EnglishLanguage |tptp.'Any &%Process, for example &%ManualHumanLanguage, which may contain a &%Proposition.'|))
% 3.09/3.30 (assume a651 (tptp.s__subclass tptp.s__ContentBearingObject tptp.s__CorpuscularObject))
% 3.09/3.30 (assume a652 (tptp.s__subclass tptp.s__ContentBearingObject tptp.s__ContentBearingPhysical))
% 3.09/3.30 (assume a653 (tptp.s__relatedInternalConcept tptp.s__ContentBearingObject tptp.s__containsInformation__m))
% 3.09/3.30 (assume a654 (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.'|))
% 3.09/3.30 (assume a655 (tptp.s__subclass tptp.s__SymbolicString tptp.s__ContentBearingObject))
% 3.09/3.30 (assume a656 (tptp.s__documentation tptp.s__SymbolicString tptp.s__EnglishLanguage |tptp.'The &%Class of alphanumeric sequences.'|))
% 3.09/3.30 (assume a657 (tptp.s__subclass tptp.s__Character tptp.s__SymbolicString))
% 3.09/3.30 (assume a658 (tptp.s__instance tptp.s__Character__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a659 (tptp.s__instance tptp.s__SymbolicString__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a660 (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.'|))
% 3.09/3.30 (assume a661 (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)))))))
% 3.09/3.30 (assume a662 (tptp.s__instance tptp.s__containsInformation__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a663 (tptp.s__instance tptp.s__containsInformation__m tptp.s__AsymmetricRelation))
% 3.09/3.30 (assume a664 (tptp.s__subrelation tptp.s__containsInformation__m tptp.s__represents__m))
% 3.09/3.30 (assume a665 (tptp.s__domain tptp.s__containsInformation__m |"1"| tptp.s__ContentBearingPhysical))
% 3.09/3.30 (assume a666 (tptp.s__domain tptp.s__containsInformation__m |"2"| tptp.s__Proposition))
% 3.09/3.30 (assume a667 (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.'|))
% 3.09/3.30 (assume a668 (tptp.s__subclass tptp.s__Icon tptp.s__ContentBearingPhysical))
% 3.09/3.30 (assume a669 (tptp.s__instance tptp.s__Icon__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a670 (tptp.s__instance tptp.s__ContentBearingPhysical__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a671 (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.'|))
% 3.09/3.30 (assume a672 (tptp.s__subclass tptp.s__MotionPicture tptp.s__Text))
% 3.09/3.30 (assume a673 (tptp.s__instance tptp.s__MotionPicture__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a674 (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.'|))
% 3.09/3.30 (assume a675 (tptp.s__subclass tptp.s__LinguisticExpression tptp.s__ContentBearingPhysical))
% 3.09/3.30 (assume a676 (tptp.s__disjoint tptp.s__LinguisticExpression tptp.s__Icon))
% 3.09/3.30 (assume a677 (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.'|))
% 3.09/3.30 (assume a678 (tptp.s__subclass tptp.s__Language tptp.s__LinguisticExpression))
% 3.09/3.30 (assume a679 (tptp.s__disjointDecomposition_4 tptp.s__Language tptp.s__AnimalLanguage tptp.s__HumanLanguage tptp.s__ComputerLanguage))
% 3.09/3.30 (assume a680 (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.'|))
% 3.09/3.30 (assume a681 (tptp.s__subclass tptp.s__AnimalLanguage tptp.s__Language))
% 3.09/3.30 (assume a682 (tptp.s__instance tptp.s__AnimalLanguage__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a683 (tptp.s__documentation tptp.s__AnimalLanguage tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Languages used by &%Animals other than &%Humans.'|))
% 3.09/3.30 (assume a684 (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)))))))
% 3.09/3.30 (assume a685 (tptp.s__subclass tptp.s__ArtificialLanguage tptp.s__Language))
% 3.09/3.30 (assume a686 (tptp.s__instance tptp.s__ArtificialLanguage__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a687 (tptp.s__documentation tptp.s__ArtificialLanguage tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Languages that are designed by &%Humans.'|))
% 3.09/3.30 (assume a688 (tptp.s__subclass tptp.s__ComputerLanguage tptp.s__ArtificialLanguage))
% 3.09/3.30 (assume a689 (tptp.s__instance tptp.s__ComputerLanguage__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a690 (tptp.s__documentation tptp.s__ComputerLanguage tptp.s__EnglishLanguage |tptp.'The class of &%Languages designed for and interpreted by a computer.'|))
% 3.09/3.30 (assume a691 (forall ((V__LANG $$unsorted) (V__AGENT $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__LANG tptp.s__Object)) (=> (and (tptp.s__instance V__LANG tptp.s__ComputerLanguage) (tptp.s__agent V__PROC V__AGENT) (tptp.s__instrument V__PROC V__LANG)) (tptp.s__instance V__AGENT tptp.s__Machine)))))
% 3.09/3.30 (assume a692 (tptp.s__subclass tptp.s__HumanLanguage tptp.s__Language))
% 3.09/3.30 (assume a693 (tptp.s__instance tptp.s__HumanLanguage__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a694 (tptp.s__instance tptp.s__Language__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a695 (tptp.s__partition_3 tptp.s__HumanLanguage tptp.s__NaturalLanguage tptp.s__ConstructedLanguage))
% 3.09/3.30 (assume a696 (tptp.s__partition_3 tptp.s__HumanLanguage tptp.s__SpokenHumanLanguage tptp.s__ManualHumanLanguage))
% 3.09/3.30 (assume a697 (tptp.s__documentation tptp.s__HumanLanguage tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Languages used by &%Humans.'|))
% 3.09/3.30 (assume a698 (forall ((V__LANG $$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)))))
% 3.09/3.30 (assume a699 (tptp.s__subclass tptp.s__ConstructedLanguage tptp.s__HumanLanguage))
% 3.09/3.30 (assume a700 (tptp.s__instance tptp.s__ConstructedLanguage__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a701 (tptp.s__subclass tptp.s__ConstructedLanguage tptp.s__ArtificialLanguage))
% 3.09/3.30 (assume a702 (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'|))
% 3.09/3.30 (assume a703 (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))))))
% 3.09/3.30 (assume a704 (tptp.s__subclass tptp.s__NaturalLanguage tptp.s__HumanLanguage))
% 3.09/3.30 (assume a705 (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.'|))
% 3.09/3.30 (assume a706 (tptp.s__subclass tptp.s__ManualHumanLanguage tptp.s__HumanLanguage))
% 3.09/3.30 (assume a707 (tptp.s__instance tptp.s__ManualHumanLanguage__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a708 (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.'|))
% 3.09/3.30 (assume a709 (tptp.s__subclass tptp.s__SpokenHumanLanguage tptp.s__HumanLanguage))
% 3.09/3.30 (assume a710 (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.'|))
% 3.09/3.30 (assume a711 (tptp.s__instance tptp.s__EnglishLanguage tptp.s__NaturalLanguage))
% 3.09/3.30 (assume a712 (tptp.s__instance tptp.s__NaturalLanguage__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a713 (tptp.s__instance tptp.s__EnglishLanguage tptp.s__SpokenHumanLanguage))
% 3.09/3.30 (assume a714 (tptp.s__instance tptp.s__SpokenHumanLanguage__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a715 (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.'|))
% 3.09/3.30 (assume a716 (tptp.s__subclass tptp.s__Word tptp.s__LinguisticExpression))
% 3.09/3.30 (assume a717 (tptp.s__documentation tptp.s__Word tptp.s__EnglishLanguage |tptp.'A term of a &%Language that represents a concept.'|))
% 3.09/3.30 (assume a718 (tptp.s__subclass tptp.s__Formula tptp.s__Sentence))
% 3.09/3.30 (assume a719 (tptp.s__instance tptp.s__Formula__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a720 (tptp.s__documentation tptp.s__Formula tptp.s__EnglishLanguage |tptp.'A syntactically well-formed formula in the SUO-KIF knowledge representation language.'|))
% 3.09/3.30 (assume a721 (tptp.s__subclass tptp.s__Agent tptp.s__Object))
% 3.09/3.30 (assume a722 (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.'|))
% 3.09/3.30 (assume a723 (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))))))
% 3.09/3.30 (assume a724 (tptp.s__subclass tptp.s__SentientAgent tptp.s__Agent))
% 3.09/3.30 (assume a725 (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.'|))
% 3.09/3.30 (assume a726 (tptp.s__subclass tptp.s__CognitiveAgent tptp.s__SentientAgent))
% 3.09/3.30 (assume a727 (tptp.s__instance tptp.s__SentientAgent__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a728 (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.'|))
% 3.09/3.30 (assume a729 (tptp.s__subclass tptp.s__LegalAgent tptp.s__Agent))
% 3.09/3.30 (assume a730 (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>.'|))
% 3.09/3.30 (assume a731 (tptp.s__instance tptp.s__leader__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a732 (tptp.s__instance tptp.s__leader__m tptp.s__AsymmetricRelation))
% 3.09/3.30 (assume a733 (tptp.s__instance tptp.s__leader__m tptp.s__SingleValuedRelation))
% 3.09/3.30 (assume a734 (tptp.s__domain tptp.s__leader__m |"1"| tptp.s__Agent))
% 3.09/3.30 (assume a735 (tptp.s__domain tptp.s__leader__m |"2"| tptp.s__Human))
% 3.09/3.30 (assume a736 (tptp.s__documentation tptp.s__leader__m tptp.s__EnglishLanguage |tptp.'(&%leader ?INSTITUTION ?PERSON) means that the leader of ?INSTITUTION is ?PERSON.'|))
% 3.09/3.30 (assume a737 (tptp.s__subclass tptp.s__Process tptp.s__Physical))
% 3.09/3.30 (assume a738 (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.'|))
% 3.09/3.30 (assume a739 (tptp.s__subclass tptp.s__DualObjectProcess tptp.s__Process))
% 3.09/3.30 (assume a740 (tptp.s__documentation tptp.s__DualObjectProcess tptp.s__EnglishLanguage |tptp.'Any &%Process that requires two, nonidentical &%patients.'|))
% 3.09/3.30 (assume a741 (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 $$unsorted)) (and (tptp.s__patient V__PROCESS V__OBJ1) (tptp.s__patient V__PROCESS V__OBJ2) (not (= V__OBJ1 V__OBJ2))))))))
% 3.09/3.30 (assume a742 (tptp.s__subclass tptp.s__SingleAgentProcess tptp.s__Process))
% 3.09/3.30 (assume a743 (tptp.s__instance tptp.s__SingleAgentProcess__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a744 (tptp.s__documentation tptp.s__SingleAgentProcess tptp.s__EnglishLanguage |tptp.'&%SingleAgentProcess is the &%Class of all &%Processes that require exactly one &%agent in order to occur.'|))
% 3.09/3.30 (assume a745 (forall ((V__PROC $$unsorted)) (=> (tptp.s__instance V__PROC tptp.s__Process) (=> (tptp.s__instance V__PROC tptp.s__SingleAgentProcess) (exists ((V__AGENT $$unsorted)) (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__agent V__PROC V__AGENT)))))))
% 3.09/3.30 (assume a746 (forall ((V__AGENT_1 $$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)))))
% 3.09/3.30 (assume a747 (tptp.s__subclass tptp.s__Abstract tptp.s__Entity))
% 3.09/3.30 (assume a748 (tptp.s__instance tptp.s__Abstract__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a749 (tptp.s__instance tptp.s__Entity__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a750 (tptp.s__disjointDecomposition_6 tptp.s__Abstract tptp.s__Quantity tptp.s__Attribute tptp.s__SetOrClass tptp.s__Relation tptp.s__Proposition))
% 3.09/3.30 (assume a751 (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.'|))
% 3.09/3.30 (assume a752 (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)))))))))
% 3.09/3.30 (assume a753 (tptp.s__subclass tptp.s__Quantity tptp.s__Abstract))
% 3.09/3.30 (assume a754 (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).'|))
% 3.09/3.30 (assume a755 (tptp.s__subclass tptp.s__Attribute tptp.s__Abstract))
% 3.09/3.30 (assume a756 (tptp.s__partition_3 tptp.s__Attribute tptp.s__InternalAttribute tptp.s__RelationalAttribute))
% 3.09/3.30 (assume a757 (tptp.s__documentation tptp.s__Attribute tptp.s__EnglishLanguage |tptp.'Qualities which we cannot or choose not to reify into subclasses of &%Object.'|))
% 3.09/3.30 (assume a758 (tptp.s__instance tptp.s__property__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a759 (tptp.s__domain tptp.s__property__m |"1"| tptp.s__Entity))
% 3.09/3.30 (assume a760 (tptp.s__domain tptp.s__property__m |"2"| tptp.s__Attribute))
% 3.09/3.30 (assume a761 (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.'|))
% 3.09/3.30 (assume a762 (tptp.s__instance tptp.s__attribute__m tptp.s__AsymmetricRelation))
% 3.09/3.30 (assume a763 (tptp.s__instance tptp.s__attribute__m tptp.s__IrreflexiveRelation))
% 3.09/3.30 (assume a764 (tptp.s__subrelation tptp.s__attribute__m tptp.s__property__m))
% 3.09/3.30 (assume a765 (tptp.s__domain tptp.s__attribute__m |"1"| tptp.s__Object))
% 3.09/3.30 (assume a766 (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).'|))
% 3.09/3.30 (assume a767 (tptp.s__instance tptp.s__manner__m tptp.s__AsymmetricRelation))
% 3.09/3.30 (assume a768 (tptp.s__instance tptp.s__manner__m tptp.s__IrreflexiveRelation))
% 3.09/3.30 (assume a769 (tptp.s__subrelation tptp.s__manner__m tptp.s__property__m))
% 3.09/3.30 (assume a770 (tptp.s__domain tptp.s__manner__m |"1"| tptp.s__Process))
% 3.09/3.30 (assume a771 (tptp.s__disjointRelation tptp.s__manner__m tptp.s__attribute__m))
% 3.09/3.30 (assume a772 (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.'|))
% 3.09/3.30 (assume a773 (tptp.s__instance tptp.s__ExtensionFn__m tptp.s__UnaryFunction))
% 3.09/3.30 (assume a774 (tptp.s__instance tptp.s__ExtensionFn__m tptp.s__PartialValuedRelation))
% 3.09/3.30 (assume a775 (tptp.s__domain tptp.s__ExtensionFn__m |"1"| tptp.s__Attribute))
% 3.09/3.30 (assume a776 (tptp.s__range tptp.s__ExtensionFn__m tptp.s__Class))
% 3.09/3.30 (assume a777 (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.'|))
% 3.09/3.30 (assume a778 (tptp.s__subclass tptp.s__InternalAttribute tptp.s__Attribute))
% 3.09/3.30 (assume a779 (tptp.s__instance tptp.s__InternalAttribute__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a780 (tptp.s__instance tptp.s__Attribute__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a781 (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.'|))
% 3.09/3.30 (assume a782 (tptp.s__documentation tptp.s__PhysicalAttribute tptp.s__EnglishLanguage |tptp.'An &%InternalAttribute given by physical properties of the object.'|))
% 3.09/3.30 (assume a783 (tptp.s__subclass tptp.s__PhysicalAttribute tptp.s__InternalAttribute))
% 3.09/3.30 (assume a784 (tptp.s__instance tptp.s__PhysicalAttribute__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a785 (tptp.s__subclass tptp.s__RelationalAttribute tptp.s__Attribute))
% 3.09/3.30 (assume a786 (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.'|))
% 3.09/3.30 (assume a787 (tptp.s__subclass tptp.s__Number tptp.s__Quantity))
% 3.09/3.30 (assume a788 (tptp.s__partition_4 tptp.s__Number tptp.s__RealNumber tptp.s__ImaginaryNumber tptp.s__ComplexNumber))
% 3.09/3.30 (assume a789 (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.'|))
% 3.09/3.30 (assume a790 (tptp.s__instance tptp.less__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a791 (tptp.s__instance tptp.less__m tptp.s__TransitiveRelation))
% 3.09/3.30 (assume a792 (tptp.s__instance tptp.less__m tptp.s__IrreflexiveRelation))
% 3.09/3.30 (assume a793 (tptp.s__instance tptp.less__m tptp.s__RelationExtendedToQuantities))
% 3.09/3.30 (assume a794 (tptp.s__trichotomizingOn tptp.less__m tptp.s__RealNumber))
% 3.09/3.30 (assume a795 (tptp.s__domain tptp.less__m |"1"| tptp.s__Quantity))
% 3.09/3.30 (assume a796 (tptp.s__domain tptp.less__m |"2"| tptp.s__Quantity))
% 3.09/3.30 (assume a797 (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.'|))
% 3.09/3.30 (assume a798 (tptp.s__instance tptp.greater__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a799 (tptp.s__instance tptp.greater__m tptp.s__TransitiveRelation))
% 3.09/3.30 (assume a800 (tptp.s__instance tptp.greater__m tptp.s__IrreflexiveRelation))
% 3.09/3.30 (assume a801 (tptp.s__instance tptp.greater__m tptp.s__RelationExtendedToQuantities))
% 3.09/3.30 (assume a802 (tptp.s__trichotomizingOn tptp.greater__m tptp.s__RealNumber))
% 3.09/3.30 (assume a803 (tptp.s__domain tptp.greater__m |"1"| tptp.s__Quantity))
% 3.09/3.30 (assume a804 (tptp.s__domain tptp.greater__m |"2"| tptp.s__Quantity))
% 3.09/3.30 (assume a805 (tptp.s__inverse tptp.greater__m tptp.less__m))
% 3.09/3.30 (assume a806 (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.'|))
% 3.09/3.30 (assume a807 (tptp.s__instance tptp.lesseq__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a808 (tptp.s__instance tptp.lesseq__m tptp.s__PartialOrderingRelation))
% 3.09/3.30 (assume a809 (tptp.s__instance tptp.lesseq__m tptp.s__RelationExtendedToQuantities))
% 3.09/3.30 (assume a810 (tptp.s__trichotomizingOn tptp.lesseq__m tptp.s__RealNumber))
% 3.09/3.30 (assume a811 (tptp.s__domain tptp.lesseq__m |"1"| tptp.s__Quantity))
% 3.09/3.30 (assume a812 (tptp.s__domain tptp.lesseq__m |"2"| tptp.s__Quantity))
% 3.09/3.30 (assume a813 (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.'|))
% 3.09/3.30 (assume a814 (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))))))
% 3.09/3.30 (assume a815 (tptp.s__instance tptp.greatereq__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a816 (tptp.s__instance tptp.greatereq__m tptp.s__PartialOrderingRelation))
% 3.09/3.30 (assume a817 (tptp.s__instance tptp.greatereq__m tptp.s__RelationExtendedToQuantities))
% 3.09/3.30 (assume a818 (tptp.s__trichotomizingOn tptp.greatereq__m tptp.s__RealNumber))
% 3.09/3.30 (assume a819 (tptp.s__domain tptp.greatereq__m |"1"| tptp.s__Quantity))
% 3.09/3.30 (assume a820 (tptp.s__domain tptp.greatereq__m |"2"| tptp.s__Quantity))
% 3.09/3.30 (assume a821 (tptp.s__inverse tptp.greatereq__m tptp.lesseq__m))
% 3.09/3.30 (assume a822 (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.'|))
% 3.09/3.30 (assume a823 (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))))))
% 3.09/3.30 (assume a824 (tptp.s__subclass tptp.s__RealNumber tptp.s__Number))
% 3.09/3.30 (assume a825 (tptp.s__partition_3 tptp.s__RealNumber tptp.s__NegativeRealNumber tptp.s__NonnegativeRealNumber))
% 3.09/3.30 (assume a826 (tptp.s__partition_3 tptp.s__RealNumber tptp.s__RationalNumber tptp.s__IrrationalNumber))
% 3.09/3.30 (assume a827 (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.'|))
% 3.09/3.30 (assume a828 (tptp.s__subclass tptp.s__ImaginaryNumber tptp.s__Number))
% 3.09/3.30 (assume a829 (tptp.s__instance tptp.s__ImaginaryNumber__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a830 (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.'|))
% 3.09/3.30 (assume a831 (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"|))))))))
% 3.09/3.30 (assume a832 (tptp.s__subclass tptp.s__RationalNumber tptp.s__RealNumber))
% 3.09/3.30 (assume a833 (tptp.s__instance tptp.s__RationalNumber__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a834 (tptp.s__documentation tptp.s__RationalNumber tptp.s__EnglishLanguage |tptp.'Any &%RealNumber that is the product of dividing two &%Integers.'|))
% 3.09/3.30 (assume a835 (tptp.s__subclass tptp.s__IrrationalNumber tptp.s__RealNumber))
% 3.09/3.30 (assume a836 (tptp.s__instance tptp.s__IrrationalNumber__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a837 (tptp.s__documentation tptp.s__IrrationalNumber tptp.s__EnglishLanguage |tptp.'Any &%RealNumber that is not also a &%RationalNumber.'|))
% 3.09/3.30 (assume a838 (tptp.s__subclass tptp.s__NonnegativeRealNumber tptp.s__RealNumber))
% 3.09/3.30 (assume a839 (tptp.s__instance tptp.s__NonnegativeRealNumber__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a840 (tptp.s__documentation tptp.s__NonnegativeRealNumber tptp.s__EnglishLanguage |tptp.'A &%RealNumber that is greater than or equal to zero.'|))
% 3.09/3.30 (assume a841 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__Quantity) (= (tptp.s__instance V__NUMBER tptp.s__NonnegativeRealNumber) (and (tptp.greatereq V__NUMBER |"0"|) (tptp.s__instance V__NUMBER tptp.s__RealNumber))))))
% 3.09/3.30 (assume a842 (tptp.s__subclass tptp.s__PositiveRealNumber tptp.s__NonnegativeRealNumber))
% 3.09/3.30 (assume a843 (tptp.s__documentation tptp.s__PositiveRealNumber tptp.s__EnglishLanguage |tptp.'A &%RealNumber that is greater than zero.'|))
% 3.09/3.30 (assume a844 (forall ((V__NUMBER $$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))))))
% 3.09/3.30 (assume a845 (tptp.s__subclass tptp.s__NegativeRealNumber tptp.s__RealNumber))
% 3.09/3.30 (assume a846 (tptp.s__instance tptp.s__NegativeRealNumber__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a847 (tptp.s__documentation tptp.s__NegativeRealNumber tptp.s__EnglishLanguage |tptp.'A &%RealNumber that is less than zero.'|))
% 3.09/3.30 (assume a848 (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))))))
% 3.09/3.30 (assume a849 (tptp.s__subclass tptp.s__Integer tptp.s__RationalNumber))
% 3.09/3.30 (assume a850 (tptp.s__partition_3 tptp.s__Integer tptp.s__OddInteger tptp.s__EvenInteger))
% 3.09/3.30 (assume a851 (tptp.s__partition_3 tptp.s__Integer tptp.s__NegativeInteger tptp.s__NonnegativeInteger))
% 3.09/3.30 (assume a852 (tptp.s__documentation tptp.s__Integer tptp.s__EnglishLanguage |tptp.'A negative or nonnegative whole number.'|))
% 3.09/3.30 (assume a853 (tptp.s__subclass tptp.s__EvenInteger tptp.s__Integer))
% 3.09/3.30 (assume a854 (tptp.s__instance tptp.s__EvenInteger__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a855 (tptp.s__documentation tptp.s__EvenInteger tptp.s__EnglishLanguage |tptp.'An &%Integer that is evenly divisible by 2.'|))
% 3.09/3.30 (assume a856 (tptp.s__subclass tptp.s__OddInteger tptp.s__Integer))
% 3.09/3.30 (assume a857 (tptp.s__instance tptp.s__OddInteger__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a858 (tptp.s__instance tptp.s__Integer__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a859 (tptp.s__documentation tptp.s__OddInteger tptp.s__EnglishLanguage |tptp.'An &%Integer that is not evenly divisible by 2.'|))
% 3.09/3.30 (assume a860 (tptp.s__subclass tptp.s__PrimeNumber tptp.s__Integer))
% 3.09/3.30 (assume a861 (tptp.s__instance tptp.s__PrimeNumber__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a862 (tptp.s__documentation tptp.s__PrimeNumber tptp.s__EnglishLanguage |tptp.'An &%Integer that is evenly divisible only by itself and 1.'|))
% 3.09/3.30 (assume a863 (tptp.s__subclass tptp.s__NonnegativeInteger tptp.s__Integer))
% 3.09/3.30 (assume a864 (tptp.s__instance tptp.s__NonnegativeInteger__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a865 (tptp.s__subclass tptp.s__NonnegativeInteger tptp.s__NonnegativeRealNumber))
% 3.09/3.30 (assume a866 (tptp.s__documentation tptp.s__NonnegativeInteger tptp.s__EnglishLanguage |tptp.'An &%Integer that is greater than or equal to zero.'|))
% 3.09/3.30 (assume a867 (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"|)))))
% 3.09/3.30 (assume a868 (tptp.s__subclass tptp.s__NegativeInteger tptp.s__Integer))
% 3.09/3.30 (assume a869 (tptp.s__instance tptp.s__NegativeInteger__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a870 (tptp.s__subclass tptp.s__NegativeInteger tptp.s__NegativeRealNumber))
% 3.09/3.30 (assume a871 (tptp.s__documentation tptp.s__NegativeInteger tptp.s__EnglishLanguage |tptp.'An &%Integer that is less than zero.'|))
% 3.09/3.30 (assume a872 (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Quantity) (=> (tptp.s__instance V__X tptp.s__NegativeInteger) (tptp.greater |"0"| V__X)))))
% 3.09/3.30 (assume a873 (tptp.s__subclass tptp.s__PositiveInteger tptp.s__NonnegativeInteger))
% 3.09/3.30 (assume a874 (tptp.s__subclass tptp.s__PositiveInteger tptp.s__PositiveRealNumber))
% 3.09/3.30 (assume a875 (tptp.s__instance tptp.s__PositiveInteger__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a876 (tptp.s__documentation tptp.s__PositiveInteger tptp.s__EnglishLanguage |tptp.'An &%Integer that is greater than zero.'|))
% 3.09/3.30 (assume a877 (forall ((V__X $$unsorted)) (=> (tptp.s__instance V__X tptp.s__Quantity) (=> (tptp.s__instance V__X tptp.s__PositiveInteger) (tptp.greater V__X |"0"|)))))
% 3.09/3.30 (assume a878 (tptp.s__subclass tptp.s__BinaryNumber tptp.s__RealNumber))
% 3.09/3.30 (assume a879 (tptp.s__instance tptp.s__BinaryNumber__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a880 (tptp.s__instance tptp.s__RealNumber__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a881 (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.'|))
% 3.09/3.30 (assume a882 (tptp.s__subclass tptp.s__ComplexNumber tptp.s__Number))
% 3.09/3.30 (assume a883 (tptp.s__instance tptp.s__ComplexNumber__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a884 (tptp.s__instance tptp.s__Number__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a885 (tptp.s__disjoint tptp.s__ComplexNumber tptp.s__RealNumber))
% 3.09/3.30 (assume a886 (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.'|))
% 3.09/3.30 (assume a887 (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"|)))))))))
% 3.09/3.30 (assume a888 (tptp.s__subclass tptp.s__PhysicalQuantity tptp.s__Quantity))
% 3.09/3.30 (assume a889 (tptp.s__instance tptp.s__PhysicalQuantity__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a890 (tptp.s__instance tptp.s__Quantity__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a891 (tptp.s__partition_3 tptp.s__PhysicalQuantity tptp.s__ConstantQuantity tptp.s__FunctionQuantity))
% 3.09/3.30 (assume a892 (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.'|))
% 3.09/3.30 (assume a893 (tptp.s__subclass tptp.s__ConstantQuantity tptp.s__PhysicalQuantity))
% 3.09/3.30 (assume a894 (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).'|))
% 3.09/3.30 (assume a895 (tptp.s__subclass tptp.s__TimeMeasure tptp.s__ConstantQuantity))
% 3.09/3.30 (assume a896 (tptp.s__instance tptp.s__TimeMeasure__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a897 (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).'|))
% 3.09/3.30 (assume a898 (tptp.s__subclass tptp.s__TimeDuration tptp.s__TimeMeasure))
% 3.09/3.30 (assume a899 (tptp.s__instance tptp.s__TimeDuration__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a900 (tptp.s__documentation tptp.s__TimeDuration tptp.s__EnglishLanguage |tptp.'Any measure of length of time, with or without respect to the universal timeline.'|))
% 3.09/3.30 (assume a901 (tptp.s__subclass tptp.s__TimePosition tptp.s__TimeMeasure))
% 3.09/3.30 (assume a902 (tptp.s__partition_3 tptp.s__TimePosition tptp.s__TimeInterval tptp.s__TimePoint))
% 3.09/3.30 (assume a903 (tptp.s__documentation tptp.s__TimePosition tptp.s__EnglishLanguage |tptp.'Any &%TimePoint or &%TimeInterval along the universal timeline from &%NegativeInfinity to &%PositiveInfinity.'|))
% 3.09/3.30 (assume a904 (tptp.s__subclass tptp.s__TimeInterval tptp.s__TimePosition))
% 3.09/3.30 (assume a905 (tptp.s__instance tptp.s__TimeInterval__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a906 (tptp.s__instance tptp.s__TimePosition__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a907 (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.'|))
% 3.09/3.30 (assume a908 (tptp.s__subclass tptp.s__TimePoint tptp.s__TimePosition))
% 3.09/3.30 (assume a909 (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.'|))
% 3.09/3.30 (assume a910 (tptp.s__subclass tptp.s__FunctionQuantity tptp.s__PhysicalQuantity))
% 3.09/3.30 (assume a911 (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.'|))
% 3.09/3.30 (assume a912 (tptp.s__subclass tptp.s__UnaryConstantFunctionQuantity tptp.s__FunctionQuantity))
% 3.09/3.30 (assume a913 (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.'|))
% 3.09/3.30 (assume a914 (tptp.s__subclass tptp.s__TimeDependentQuantity tptp.s__UnaryConstantFunctionQuantity))
% 3.09/3.30 (assume a915 (tptp.s__instance tptp.s__TimeDependentQuantity__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a916 (tptp.s__instance tptp.s__UnaryConstantFunctionQuantity__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a917 (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.'|))
% 3.09/3.30 (assume a918 (tptp.s__subclass tptp.s__SetOrClass tptp.s__Abstract))
% 3.09/3.30 (assume a919 (tptp.s__partition_3 tptp.s__SetOrClass tptp.s__Set tptp.s__Class))
% 3.09/3.30 (assume a920 (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.'|))
% 3.09/3.30 (assume a921 (tptp.s__subclass tptp.s__Class tptp.s__SetOrClass))
% 3.09/3.30 (assume a922 (tptp.s__instance tptp.s__Class__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a923 (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.'|))
% 3.09/3.30 (assume a924 (tptp.s__subclass tptp.s__Set tptp.s__SetOrClass))
% 3.09/3.30 (assume a925 (tptp.s__instance tptp.s__Set__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a926 (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.'|))
% 3.09/3.30 (assume a927 (tptp.s__subclass tptp.s__Relation tptp.s__Abstract))
% 3.09/3.30 (assume a928 (tptp.s__disjointDecomposition_6 tptp.s__Relation tptp.s__BinaryRelation tptp.s__TernaryRelation tptp.s__QuaternaryRelation tptp.s__QuintaryRelation tptp.s__VariableArityRelation))
% 3.09/3.30 (assume a929 (tptp.s__partition_4 tptp.s__Relation tptp.s__Predicate tptp.s__Function tptp.s__List))
% 3.09/3.30 (assume a930 (tptp.s__partition_3 tptp.s__Relation tptp.s__TotalValuedRelation tptp.s__PartialValuedRelation))
% 3.09/3.30 (assume a931 (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.'|))
% 3.09/3.30 (assume a932 (tptp.s__subclass tptp.s__SingleValuedRelation tptp.s__Relation))
% 3.09/3.30 (assume a933 (tptp.s__subclass tptp.s__SingleValuedRelation tptp.s__InheritableRelation))
% 3.09/3.30 (assume a934 (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.'|))
% 3.09/3.30 (assume a935 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__LengthMeasure) (tptp.s__instance V__ITEM1 tptp.s__LengthMeasure) (tptp.s__instance V__ROW2 tptp.s__Physical) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (and (tptp.s__depth V__ROW1 V__ROW2 V__ITEM1) (tptp.s__depth V__ROW1 V__ROW2 V__ITEM2)) (= V__ITEM1 V__ITEM2)))))
% 3.09/3.30 (assume a936 (forall ((V__ROW1 $$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)))))
% 3.09/3.30 (assume a937 (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__LengthMeasure) (tptp.s__instance V__ITEM1 tptp.s__LengthMeasure) (tptp.s__instance V__ROW1 tptp.s__Circle)) (=> (and (tptp.s__radius V__ROW1 V__ITEM1) (tptp.s__radius V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))))
% 3.09/3.30 (assume a938 (forall ((V__ROW1 $$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)))))
% 3.09/3.30 (assume a939 (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__LengthMeasure) (tptp.s__instance V__ITEM1 tptp.s__LengthMeasure) (tptp.s__instance V__ROW1 tptp.s__Circle)) (=> (and (tptp.s__diameter V__ROW1 V__ITEM1) (tptp.s__diameter V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))))
% 3.09/3.30 (assume a940 (forall ((V__ROW1 $$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)))))
% 3.09/3.30 (assume a941 (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)))))
% 3.09/3.30 (assume a942 (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__Quantity) (tptp.s__instance V__ITEM1 tptp.s__Quantity) (tptp.s__instance V__ROW1 tptp.s__GraphArc)) (=> (and (tptp.s__arcWeight V__ROW1 V__ITEM1) (tptp.s__arcWeight V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))))
% 3.09/3.30 (assume a943 (forall ((V__ROW1 $$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)))))
% 3.09/3.30 (assume a944 (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__TimeDuration) (tptp.s__instance V__ITEM1 tptp.s__TimeDuration) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (and (tptp.s__age V__ROW1 V__ITEM1) (tptp.s__age V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))))
% 3.09/3.30 (assume a945 (forall ((V__ROW1 $$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)))))
% 3.09/3.30 (assume a946 (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)))))
% 3.09/3.30 (assume a947 (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__Proposition) (tptp.s__instance V__ITEM1 tptp.s__Proposition) (tptp.s__instance V__ROW1 tptp.s__Argument)) (=> (and (tptp.s__conclusion V__ROW1 V__ITEM1) (tptp.s__conclusion V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))))
% 3.09/3.30 (assume a948 (forall ((V__ROW1 $$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)))))
% 3.09/3.30 (assume a949 (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)))))
% 3.09/3.30 (assume a950 (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__LengthMeasure) (tptp.s__instance V__ITEM1 tptp.s__LengthMeasure) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (and (tptp.s__length V__ROW1 V__ITEM1) (tptp.s__length V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))))
% 3.09/3.30 (assume a951 (forall ((V__ROW1 $$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)))))
% 3.09/3.30 (assume a952 (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__Organism) (tptp.s__instance V__ITEM1 tptp.s__Organism) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (and (tptp.s__mother V__ROW1 V__ITEM1) (tptp.s__mother V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))))
% 3.09/3.30 (assume a953 (forall ((V__ROW1 $$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)))))
% 3.09/3.30 (assume a954 (forall ((V__ROW1 $$unsorted) (V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__RealNumber) (tptp.s__instance V__ITEM1 tptp.s__RealNumber) (tptp.s__instance V__ROW1 tptp.s__List)) (=> (and (tptp.s__average V__ROW1 V__ITEM1) (tptp.s__average V__ROW1 V__ITEM2)) (= V__ITEM1 V__ITEM2)))))
% 3.09/3.30 (assume a955 (tptp.s__subclass tptp.s__TotalValuedRelation tptp.s__Relation))
% 3.09/3.30 (assume a956 (tptp.s__subclass tptp.s__TotalValuedRelation tptp.s__InheritableRelation))
% 3.09/3.30 (assume a957 (tptp.s__documentation tptp.s__TotalValuedRelation tptp.s__EnglishLanguage |tptp.'A &%Relation is a &%TotalValuedRelation just in case there exists an assignment for the last argument position of the &%Relation given any assignment of values to every argument position except the last one. Note that declaring a &%Relation to be both a &%TotalValuedRelation and a &%SingleValuedRelation means that it is a total function.'|))
% 3.09/3.30 (assume a958 (forall ((V__ROW1 $$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)))))))))
% 3.09/3.30 (assume a959 (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)))))))))
% 3.09/3.30 (assume a960 (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)))))))))
% 3.09/3.30 (assume a961 (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)))))))))
% 3.09/3.30 (assume a962 (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)))))))))
% 3.09/3.30 (assume a963 (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)))))))))
% 3.09/3.30 (assume a964 (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 $$unsorted)) (=> (and (tptp.s__instance V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__NUMBER tptp.s__PositiveInteger)) (=> (and (tptp.less V__NUMBER V__VALENCE) (= V__ELEMENT (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW1) V__NUMBER))) (tptp.s__instance V__ELEMENT V__CLASS)))) (exists ((V__ITEM $$unsorted)) (and (tptp.s__instance V__ITEM tptp.s__LengthMeasure) (tptp.s__instance V__VALENCE tptp.s__Quantity) (tptp.s__radius V__ROW1 V__ITEM)))))))))
% 3.09/3.30 (assume a965 (forall ((V__ROW1 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__FinancialTransaction) (exists ((V__VALENCE $$unsorted)) (and (tptp.s__instance tptp.s__transactionAmount__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__CurrencyMeasure) (tptp.s__instance V__VALENCE tptp.s__Quantity) (tptp.s__transactionAmount V__ROW1 V__ITEM)))))))))
% 3.09/3.30 (assume a966 (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)))))))))
% 3.09/3.30 (assume a967 (tptp.s__subclass tptp.s__PartialValuedRelation tptp.s__Relation))
% 3.09/3.30 (assume a968 (tptp.s__documentation tptp.s__PartialValuedRelation tptp.s__EnglishLanguage |tptp.'A &%Relation is a &%PartialValuedRelation just in case it is not a &%TotalValuedRelation, i.e. just in case assigning values to every argument position except the last one does not necessarily mean that there is a value assignment for the last argument position. Note that, if a &%Relation is both a &%PartialValuedRelation and a &%SingleValuedRelation, then it is a partial function.'|))
% 3.09/3.30 (assume a969 (tptp.s__subclass tptp.s__BinaryRelation tptp.s__Relation))
% 3.09/3.30 (assume a970 (tptp.s__subclass tptp.s__BinaryRelation tptp.s__InheritableRelation))
% 3.09/3.30 (assume a971 (tptp.s__documentation tptp.s__BinaryRelation tptp.s__EnglishLanguage |tptp.'&%BinaryRelations are relations that are true only of pairs of things. &%BinaryRelations are represented as slots in frame systems.'|))
% 3.09/3.30 (assume a972 (tptp.s__subclass tptp.s__ReflexiveRelation tptp.s__BinaryRelation))
% 3.09/3.30 (assume a973 (tptp.s__documentation tptp.s__ReflexiveRelation tptp.s__EnglishLanguage |tptp.'&%Relation ?REL is reflexive iff (?REL ?INST ?INST) for all ?INST.'|))
% 3.09/3.30 (assume a974 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__List) (tptp.s__identicalListItems V__INST V__INST))))
% 3.09/3.30 (assume a975 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__GeometricFigure) (tptp.s__geometricPart V__INST V__INST))))
% 3.09/3.30 (assume a976 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Organism) (tptp.s__familyRelation V__INST V__INST))))
% 3.09/3.30 (assume a977 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__TimePosition) (tptp.s__temporalPart V__INST V__INST))))
% 3.09/3.30 (assume a978 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__TimeInterval) (tptp.s__overlapsTemporally V__INST V__INST))))
% 3.09/3.30 (assume a979 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Attribute) (tptp.s__subAttribute V__INST V__INST))))
% 3.09/3.30 (assume a980 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Collection) (tptp.s__subCollection V__INST V__INST))))
% 3.09/3.30 (assume a981 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Quantity) (tptp.greatereq V__INST V__INST))))
% 3.09/3.30 (assume a982 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__ContentBearingPhysical) (tptp.s__instance V__INST tptp.s__SetOrClass)) (tptp.s__equivalentContentClass V__INST V__INST))))
% 3.09/3.30 (assume a983 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__subclass V__INST V__INST))))
% 3.09/3.30 (assume a984 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Graph) (tptp.s__subGraph V__INST V__INST))))
% 3.09/3.30 (assume a985 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Relation) (tptp.s__subrelation V__INST V__INST))))
% 3.09/3.30 (assume a986 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__ContentBearingPhysical) (tptp.s__equivalentContentInstance V__INST V__INST))))
% 3.09/3.30 (assume a987 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__List) (tptp.s__subList V__INST V__INST))))
% 3.09/3.30 (assume a988 (forall ((V__INST $$unsorted)) (tptp.s__relatedInternalConcept V__INST V__INST)))
% 3.09/3.30 (assume a989 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__ContentBearingPhysical) (tptp.s__instance V__INST tptp.s__SetOrClass)) (tptp.s__subsumesContentClass V__INST V__INST))))
% 3.09/3.30 (assume a990 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Object) (tptp.s__connected V__INST V__INST))))
% 3.09/3.30 (assume a991 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__List) (tptp.s__initialList V__INST V__INST))))
% 3.09/3.30 (assume a992 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__ContentBearingPhysical) (tptp.s__subsumesContentInstance V__INST V__INST))))
% 3.09/3.30 (assume a993 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Object) (tptp.s__copy V__INST V__INST))))
% 3.09/3.30 (assume a994 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Quantity) (tptp.lesseq V__INST V__INST))))
% 3.09/3.30 (assume a995 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Organization) (tptp.s__subOrganization V__INST V__INST))))
% 3.09/3.30 (assume a996 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__TimePoint) (tptp.s__beforeOrEqual V__INST V__INST))))
% 3.09/3.30 (assume a997 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Object) (tptp.s__overlapsSpatially V__INST V__INST))))
% 3.09/3.30 (assume a998 (forall ((V__INST $$unsorted)) (= V__INST V__INST)))
% 3.09/3.30 (assume a999 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Physical) (tptp.s__cooccur V__INST V__INST))))
% 3.09/3.30 (assume a1000 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Process) (tptp.s__subProcess V__INST V__INST))))
% 3.09/3.30 (assume a1001 (tptp.s__subclass tptp.s__IrreflexiveRelation tptp.s__BinaryRelation))
% 3.09/3.30 (assume a1002 (tptp.s__documentation tptp.s__IrreflexiveRelation tptp.s__EnglishLanguage |tptp.'&%Relation ?REL is irreflexive iff (?REL ?INST ?INST) holds for no value of ?INST.'|))
% 3.09/3.30 (assume a1003 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Object) (not (tptp.s__smaller V__INST V__INST)))))
% 3.09/3.30 (assume a1004 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__INST tptp.s__NormativeAttribute)) (not (tptp.s__modalAttribute V__INST V__INST)))))
% 3.09/3.30 (assume a1005 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Process) (not (tptp.s__patient V__INST V__INST)))))
% 3.09/3.30 (assume a1006 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Hole) (not (tptp.s__fills V__INST V__INST)))))
% 3.09/3.30 (assume a1007 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Woman) (tptp.s__instance V__INST tptp.s__Man)) (not (tptp.s__wife V__INST V__INST)))))
% 3.09/3.30 (assume a1008 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__TimePoint) (not (tptp.s__before V__INST V__INST)))))
% 3.09/3.30 (assume a1009 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__Object)) (not (tptp.s__origin V__INST V__INST)))))
% 3.09/3.30 (assume a1010 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Process) (not (tptp.s__involvedInEvent V__INST V__INST)))))
% 3.09/3.30 (assume a1011 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Quantity) (not (tptp.greater V__INST V__INST)))))
% 3.09/3.30 (assume a1012 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Man) (not (tptp.s__brother V__INST V__INST)))))
% 3.09/3.30 (assume a1013 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Organism) (not (tptp.s__sibling V__INST V__INST)))))
% 3.09/3.30 (assume a1014 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Text) (tptp.s__instance V__INST tptp.s__Agent) (tptp.s__instance V__INST tptp.s__SetOrClass)) (not (tptp.s__authors V__INST V__INST)))))
% 3.09/3.30 (assume a1015 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__GeographicArea) (not (tptp.s__geographicSubregion V__INST V__INST)))))
% 3.09/3.30 (assume a1016 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__TimeInterval) (not (tptp.s__finishes V__INST V__INST)))))
% 3.09/3.30 (assume a1017 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Translocation) (tptp.s__instance V__INST tptp.s__Object)) (not (tptp.s__changesLocation V__INST V__INST)))))
% 3.09/3.30 (assume a1018 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Process) (not (tptp.s__destination V__INST V__INST)))))
% 3.09/3.30 (assume a1019 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Quantity) (not (tptp.less V__INST V__INST)))))
% 3.09/3.30 (assume a1020 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__SetOrClass) (not (tptp.s__immediateSubclass V__INST V__INST)))))
% 3.09/3.30 (assume a1021 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__Proposition)) (not (tptp.s__realization V__INST V__INST)))))
% 3.09/3.30 (assume a1022 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__TimeInterval) (tptp.s__instance V__INST tptp.s__TimeDuration)) (not (tptp.s__duration V__INST V__INST)))))
% 3.09/3.30 (assume a1023 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__BinaryRelation) (tptp.s__instance V__INST tptp.s__SetOrClass)) (not (tptp.s__reflexiveOn V__INST V__INST)))))
% 3.09/3.30 (assume a1024 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Hole) (not (tptp.s__completelyFills V__INST V__INST)))))
% 3.09/3.30 (assume a1025 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Woman) (not (tptp.s__sister V__INST V__INST)))))
% 3.09/3.30 (assume a1026 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Set) (not (tptp.s__element V__INST V__INST)))))
% 3.09/3.30 (assume a1027 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__CognitiveAgent) (tptp.s__instance V__INST tptp.s__Formula)) (not (tptp.s__considers V__INST V__INST)))))
% 3.09/3.30 (assume a1028 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Process) (not (tptp.s__causes V__INST V__INST)))))
% 3.09/3.30 (assume a1029 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__INST tptp.s__UnitOfAtmosphericPressure)) (not (tptp.s__barometricPressure V__INST V__INST)))))
% 3.09/3.30 (assume a1030 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Relation) (tptp.s__instance V__INST tptp.s__PositiveInteger)) (not (tptp.s__valence V__INST V__INST)))))
% 3.09/3.30 (assume a1031 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SelfConnectedObject) (tptp.s__instance V__INST tptp.s__Collection)) (not (tptp.s__member V__INST V__INST)))))
% 3.09/3.30 (assume a1032 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Object) (not (tptp.s__superficialPart V__INST V__INST)))))
% 3.09/3.30 (assume a1033 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__Attribute)) (not (tptp.s__manner V__INST V__INST)))))
% 3.09/3.30 (assume a1034 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__SetOrClass)) (not (tptp.s__causesSubclass V__INST V__INST)))))
% 3.09/3.30 (assume a1035 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Function) (tptp.s__instance V__INST tptp.s__SetOrClass)) (not (tptp.s__closedOn V__INST V__INST)))))
% 3.09/3.30 (assume a1036 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__INST tptp.s__Attribute)) (not (tptp.s__attribute V__INST V__INST)))))
% 3.09/3.30 (assume a1037 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__INST tptp.s__CognitiveAgent)) (not (tptp.s__holdsObligation V__INST V__INST)))))
% 3.09/3.30 (assume a1038 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Formula) (not (tptp.s__decreasesLikelihood V__INST V__INST)))))
% 3.09/3.30 (assume a1039 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Attribute) (not (tptp.s__successorAttributeClosure V__INST V__INST)))))
% 3.09/3.30 (assume a1040 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__Agent)) (not (tptp.s__experiencer V__INST V__INST)))))
% 3.09/3.30 (assume a1041 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__BinaryRelation) (tptp.s__instance V__INST tptp.s__SetOrClass)) (not (tptp.s__irreflexiveOn V__INST V__INST)))))
% 3.09/3.30 (assume a1042 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Formula) (not (tptp.s__causesProposition V__INST V__INST)))))
% 3.09/3.30 (assume a1043 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__INST tptp.s__PhysicalQuantity)) (not (tptp.s__measure V__INST V__INST)))))
% 3.09/3.30 (assume a1044 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__SetOrClass)) (not (tptp.s__precondition V__INST V__INST)))))
% 3.09/3.30 (assume a1045 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Proposition) (not (tptp.s__subProposition V__INST V__INST)))))
% 3.09/3.30 (assume a1046 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Object) (not (tptp.s__penetrates V__INST V__INST)))))
% 3.09/3.30 (assume a1047 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Hole) (tptp.s__instance V__INST tptp.s__SelfConnectedObject)) (not (tptp.s__hole V__INST V__INST)))))
% 3.09/3.30 (assume a1048 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Object) (not (tptp.s__crosses V__INST V__INST)))))
% 3.09/3.30 (assume a1049 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Function) (tptp.s__instance V__INST tptp.s__SetOrClass)) (not (tptp.s__range V__INST V__INST)))))
% 3.09/3.30 (assume a1050 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Motion) (tptp.s__instance V__INST tptp.s__Object)) (not (tptp.s__path V__INST V__INST)))))
% 3.09/3.30 (assume a1051 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__TimeInterval) (not (tptp.s__earlier V__INST V__INST)))))
% 3.09/3.30 (assume a1052 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__TimeInterval) (not (tptp.s__starts V__INST V__INST)))))
% 3.09/3.30 (assume a1053 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Text) (tptp.s__instance V__INST tptp.s__Agent) (tptp.s__instance V__INST tptp.s__SetOrClass)) (not (tptp.s__editor V__INST V__INST)))))
% 3.09/3.30 (assume a1054 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__ElementalSubstance) (tptp.s__instance V__INST tptp.s__PositiveInteger) (tptp.s__instance V__INST tptp.s__SetOrClass)) (not (tptp.s__atomicNumber V__INST V__INST)))))
% 3.09/3.30 (assume a1055 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__CognitiveAgent) (tptp.s__instance V__INST tptp.s__Formula)) (not (tptp.s__believes V__INST V__INST)))))
% 3.09/3.30 (assume a1056 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__BinaryRelation) (tptp.s__instance V__INST tptp.s__SetOrClass)) (not (tptp.s__trichotomizingOn V__INST V__INST)))))
% 3.09/3.30 (assume a1057 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__INST tptp.s__CognitiveAgent)) (not (tptp.s__holdsRight V__INST V__INST)))))
% 3.09/3.30 (assume a1058 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Agent) (not (tptp.s__possesses V__INST V__INST)))))
% 3.09/3.30 (assume a1059 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Hole) (not (tptp.s__partiallyFills V__INST V__INST)))))
% 3.09/3.30 (assume a1060 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__GeopoliticalArea) (not (tptp.s__geopoliticalSubdivision V__INST V__INST)))))
% 3.09/3.30 (assume a1061 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Organism) (not (tptp.s__inhabits V__INST V__INST)))))
% 3.09/3.30 (assume a1062 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Object) (not (tptp.s__overlapsPartially V__INST V__INST)))))
% 3.09/3.30 (assume a1063 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Text) (tptp.s__instance V__INST tptp.s__Organization) (tptp.s__instance V__INST tptp.s__SetOrClass)) (not (tptp.s__publishes V__INST V__INST)))))
% 3.09/3.30 (assume a1064 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__CognitiveAgent) (tptp.s__instance V__INST tptp.s__Formula)) (not (tptp.s__knows V__INST V__INST)))))
% 3.09/3.30 (assume a1065 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Human) (not (tptp.s__spouse V__INST V__INST)))))
% 3.09/3.30 (assume a1066 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__TimePosition) (tptp.s__instance V__INST tptp.s__Formula)) (not (tptp.s__holdsDuring V__INST V__INST)))))
% 3.09/3.30 (assume a1067 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__DirectionalAttribute)) (not (tptp.s__direction V__INST V__INST)))))
% 3.09/3.30 (assume a1068 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Motion) (tptp.s__instance V__INST tptp.s__Object)) (not (tptp.s__moves V__INST V__INST)))))
% 3.09/3.30 (assume a1069 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__Agent) (tptp.s__instance V__INST tptp.s__SetOrClass)) (not (tptp.s__hasSkill V__INST V__INST)))))
% 3.09/3.30 (assume a1070 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Organism) (not (tptp.s__parent V__INST V__INST)))))
% 3.09/3.30 (assume a1071 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Organism) (not (tptp.s__ancestor V__INST V__INST)))))
% 3.09/3.30 (assume a1072 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Agent) (not (tptp.s__exploits V__INST V__INST)))))
% 3.09/3.30 (assume a1073 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Agent) (not (tptp.s__uses V__INST V__INST)))))
% 3.09/3.30 (assume a1074 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__ContentBearingPhysical) (tptp.s__instance V__INST tptp.s__Proposition)) (not (tptp.s__containsInformation V__INST V__INST)))))
% 3.09/3.30 (assume a1075 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__GraphPath) (tptp.s__instance V__INST tptp.s__PositiveInteger)) (not (tptp.s__pathLength V__INST V__INST)))))
% 3.09/3.30 (assume a1076 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Object) (not (tptp.s__meetsSpatially V__INST V__INST)))))
% 3.09/3.30 (assume a1077 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Object) (not (tptp.s__properPart V__INST V__INST)))))
% 3.09/3.30 (assume a1078 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__TimeDuration) (tptp.s__instance V__INST tptp.s__SetOrClass)) (not (tptp.s__frequency V__INST V__INST)))))
% 3.09/3.30 (assume a1079 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Man) (tptp.s__instance V__INST tptp.s__Woman)) (not (tptp.s__husband V__INST V__INST)))))
% 3.09/3.30 (assume a1080 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__SelfConnectedObject) (not (tptp.s__contains V__INST V__INST)))))
% 3.09/3.30 (assume a1081 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__SetOrClass) (tptp.s__instance V__INST tptp.s__Function) (tptp.s__instance V__INST tptp.s__SetOrClass)) (not (tptp.s__rangeSubclass V__INST V__INST)))))
% 3.09/3.30 (assume a1082 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Human) (tptp.s__instance V__INST tptp.s__Nation)) (not (tptp.s__citizen V__INST V__INST)))))
% 3.09/3.30 (assume a1083 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Object) (not (tptp.s__interiorPart V__INST V__INST)))))
% 3.09/3.30 (assume a1084 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__SetOrClass) (not (tptp.s__immediateInstance V__INST V__INST)))))
% 3.09/3.30 (assume a1085 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__List) (not (tptp.s__inList V__INST V__INST)))))
% 3.09/3.30 (assume a1086 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Object) (not (tptp.s__larger V__INST V__INST)))))
% 3.09/3.30 (assume a1087 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__EngineeringComponent) (not (tptp.s__connectedEngineeringComponents V__INST V__INST)))))
% 3.09/3.30 (assume a1088 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__Agent)) (not (tptp.s__agent V__INST V__INST)))))
% 3.09/3.30 (assume a1089 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__Object)) (not (tptp.s__eventPartlyLocated V__INST V__INST)))))
% 3.09/3.30 (assume a1090 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__CognitiveAgent) (tptp.s__instance V__INST tptp.s__Formula)) (not (tptp.s__desires V__INST V__INST)))))
% 3.09/3.30 (assume a1091 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__BinaryRelation) (tptp.s__instance V__INST tptp.s__SetOrClass)) (not (tptp.s__equivalenceRelationOn V__INST V__INST)))))
% 3.09/3.30 (assume a1092 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Language) (not (tptp.s__expressedInLanguage V__INST V__INST)))))
% 3.09/3.30 (assume a1093 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Physical) (tptp.s__instance V__INST tptp.s__Day)) (not (tptp.s__date V__INST V__INST)))))
% 3.09/3.30 (assume a1094 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__BinaryRelation) (tptp.s__instance V__INST tptp.s__SetOrClass)) (not (tptp.s__totalOrderingOn V__INST V__INST)))))
% 3.09/3.30 (assume a1095 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__SetOrClass)) (not (tptp.s__prevents V__INST V__INST)))))
% 3.09/3.30 (assume a1096 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Attribute) (not (tptp.s__successorAttribute V__INST V__INST)))))
% 3.09/3.30 (assume a1097 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Physical) (tptp.s__instance V__INST tptp.s__TimePosition)) (not (tptp.s__time V__INST V__INST)))))
% 3.09/3.30 (assume a1098 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Formula) (not (tptp.s__hasPurpose V__INST V__INST)))))
% 3.09/3.30 (assume a1099 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__GraphElement) (tptp.s__instance V__INST tptp.s__Graph)) (not (tptp.s__graphPart V__INST V__INST)))))
% 3.09/3.30 (assume a1100 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__BinaryRelation) (tptp.s__instance V__INST tptp.s__SetOrClass)) (not (tptp.s__partialOrderingOn V__INST V__INST)))))
% 3.09/3.30 (assume a1101 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__BinaryRelation) (not (tptp.s__inverse V__INST V__INST)))))
% 3.09/3.30 (assume a1102 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__BinaryFunction) (not (tptp.s__identityElement V__INST V__INST)))))
% 3.09/3.30 (assume a1103 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__OrganicObject) (tptp.s__instance V__INST tptp.s__DevelopmentalAttribute)) (not (tptp.s__developmentalForm V__INST V__INST)))))
% 3.09/3.30 (assume a1104 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Formula) (not (tptp.s__increasesLikelihood V__INST V__INST)))))
% 3.09/3.30 (assume a1105 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Relation) (not (tptp.s__disjointRelation V__INST V__INST)))))
% 3.09/3.30 (assume a1106 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Plan) (not (tptp.s__subPlan V__INST V__INST)))))
% 3.09/3.30 (assume a1107 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__TimeInterval) (not (tptp.s__meetsTemporally V__INST V__INST)))))
% 3.09/3.30 (assume a1108 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__SetOrClass)) (not (tptp.s__inhibits V__INST V__INST)))))
% 3.09/3.30 (assume a1109 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__TimeInterval) (not (tptp.s__during V__INST V__INST)))))
% 3.09/3.30 (assume a1110 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__SelfConnectedObject) (not (tptp.s__surface V__INST V__INST)))))
% 3.09/3.30 (assume a1111 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Hole) (not (tptp.s__properlyFills V__INST V__INST)))))
% 3.09/3.30 (assume a1112 (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Artifact) (tptp.s__instance V__INST tptp.s__SetOrClass)) (not (tptp.s__version V__INST V__INST)))))
% 3.09/3.30 (assume a1113 (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__INST tptp.s__Human) (not (tptp.s__leader V__INST V__INST)))))
% 3.09/3.30 (assume a1114 (tptp.s__subclass tptp.s__SymmetricRelation tptp.s__BinaryRelation))
% 3.09/3.30 (assume a1115 (tptp.s__documentation tptp.s__SymmetricRelation tptp.s__EnglishLanguage |tptp.'A &%BinaryRelation ?REL is symmetric just iff (?REL ?INST1 ?INST2) imples (?REL ?INST2 ?INST1), for all ?INST1 and ?INST2.'|))
% 3.09/3.30 (assume a1116 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Process) (tptp.s__instance V__INST1 tptp.s__Process)) (=> (tptp.s__relatedEvent V__INST1 V__INST2) (tptp.s__relatedEvent V__INST2 V__INST1)))))
% 3.09/3.30 (assume a1117 (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__overlapsPartially V__INST1 V__INST2) (tptp.s__overlapsPartially V__INST2 V__INST1)))))
% 3.09/3.30 (assume a1118 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (= V__INST1 V__INST2) (= V__INST2 V__INST1))))
% 3.09/3.30 (assume a1119 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Human) (tptp.s__instance V__INST1 tptp.s__Human)) (=> (tptp.s__mutualAcquaintance V__INST1 V__INST2) (tptp.s__mutualAcquaintance V__INST2 V__INST1)))))
% 3.09/3.30 (assume a1120 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Physical) (tptp.s__instance V__INST1 tptp.s__Physical)) (=> (tptp.s__cooccur V__INST1 V__INST2) (tptp.s__cooccur V__INST2 V__INST1)))))
% 3.09/3.30 (assume a1121 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__subclass V__INST2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__subclass V__INST1 tptp.s__ContentBearingPhysical) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (tptp.s__equivalentContentClass V__INST1 V__INST2) (tptp.s__equivalentContentClass V__INST2 V__INST1)))))
% 3.09/3.30 (assume a1122 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Organism) (tptp.s__instance V__INST1 tptp.s__Organism)) (=> (tptp.s__sibling V__INST1 V__INST2) (tptp.s__sibling V__INST2 V__INST1)))))
% 3.09/3.30 (assume a1123 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Organism) (tptp.s__instance V__INST1 tptp.s__Organism)) (=> (tptp.s__relative V__INST1 V__INST2) (tptp.s__relative V__INST2 V__INST1)))))
% 3.09/3.30 (assume a1124 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Formula) (tptp.s__instance V__INST1 tptp.s__Formula)) (=> (tptp.s__independentProbability V__INST1 V__INST2) (tptp.s__independentProbability V__INST2 V__INST1)))))
% 3.09/3.30 (assume a1125 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Human) (tptp.s__instance V__INST1 tptp.s__Human)) (=> (tptp.s__spouse V__INST1 V__INST2) (tptp.s__spouse V__INST2 V__INST1)))))
% 3.09/3.30 (assume a1126 (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__meetsSpatially V__INST1 V__INST2) (tptp.s__meetsSpatially V__INST2 V__INST1)))))
% 3.09/3.30 (assume a1127 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__BinaryRelation) (tptp.s__instance V__INST1 tptp.s__BinaryRelation)) (=> (tptp.s__inverse V__INST1 V__INST2) (tptp.s__inverse V__INST2 V__INST1)))))
% 3.09/3.30 (assume a1128 (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__copy V__INST1 V__INST2) (tptp.s__copy V__INST2 V__INST1)))))
% 3.09/3.30 (assume a1129 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__INST1 tptp.s__ContentBearingPhysical)) (=> (tptp.s__equivalentContentInstance V__INST1 V__INST2) (tptp.s__equivalentContentInstance V__INST2 V__INST1)))))
% 3.09/3.30 (assume a1130 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Proposition) (tptp.s__instance V__INST1 tptp.s__Proposition)) (=> (tptp.s__consistent V__INST1 V__INST2) (tptp.s__consistent V__INST2 V__INST1)))))
% 3.09/3.30 (assume a1131 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__List) (tptp.s__instance V__INST1 tptp.s__List)) (=> (tptp.s__identicalListItems V__INST1 V__INST2) (tptp.s__identicalListItems V__INST2 V__INST1)))))
% 3.09/3.30 (assume a1132 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__TimeInterval) (tptp.s__instance V__INST1 tptp.s__TimeInterval)) (=> (tptp.s__overlapsTemporally V__INST1 V__INST2) (tptp.s__overlapsTemporally V__INST2 V__INST1)))))
% 3.09/3.30 (assume a1133 (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__overlapsSpatially V__INST1 V__INST2) (tptp.s__overlapsSpatially V__INST2 V__INST1)))))
% 3.09/3.30 (assume a1134 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Organism) (tptp.s__instance V__INST1 tptp.s__Organism)) (=> (tptp.s__familyRelation V__INST1 V__INST2) (tptp.s__familyRelation V__INST2 V__INST1)))))
% 3.09/3.30 (assume a1135 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (tptp.s__relatedInternalConcept V__INST1 V__INST2) (tptp.s__relatedInternalConcept V__INST2 V__INST1))))
% 3.09/3.30 (assume a1136 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Human) (tptp.s__instance V__INST1 tptp.s__Human)) (=> (tptp.s__legalRelation V__INST1 V__INST2) (tptp.s__legalRelation V__INST2 V__INST1)))))
% 3.09/3.30 (assume a1137 (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__connected V__INST1 V__INST2) (tptp.s__connected V__INST2 V__INST1)))))
% 3.09/3.30 (assume a1138 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (tptp.s__disjoint V__INST1 V__INST2) (tptp.s__disjoint V__INST2 V__INST1)))))
% 3.09/3.30 (assume a1139 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__EngineeringComponent) (tptp.s__instance V__INST1 tptp.s__EngineeringComponent)) (=> (tptp.s__connectedEngineeringComponents V__INST1 V__INST2) (tptp.s__connectedEngineeringComponents V__INST2 V__INST1)))))
% 3.09/3.30 (assume a1140 (tptp.s__subclass tptp.s__AsymmetricRelation tptp.s__IrreflexiveRelation))
% 3.09/3.30 (assume a1141 (tptp.s__subclass tptp.s__AsymmetricRelation tptp.s__AntisymmetricRelation))
% 3.09/3.30 (assume a1142 (tptp.s__documentation tptp.s__AsymmetricRelation tptp.s__EnglishLanguage |tptp.'A &%BinaryRelation is asymmetric if and only if it is both an &%AntisymmetricRelation and an &%IrreflexiveRelation.'|))
% 3.09/3.30 (assume a1143 (forall ((V__REL $$unsorted)) (= (tptp.s__instance V__REL tptp.s__AsymmetricRelation) (and (tptp.s__instance V__REL tptp.s__AntisymmetricRelation) (tptp.s__instance V__REL tptp.s__IrreflexiveRelation)))))
% 3.09/3.30 (assume a1144 (tptp.s__subclass tptp.s__AntisymmetricRelation tptp.s__BinaryRelation))
% 3.09/3.30 (assume a1145 (tptp.s__instance tptp.s__AntisymmetricRelation__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a1146 (tptp.s__documentation tptp.s__AntisymmetricRelation tptp.s__EnglishLanguage |tptp.'&%BinaryRelation ?REL is an &%AntisymmetricRelation if for distinct ?INST1 and ?INST2, (?REL ?INST1 ?INST2) implies not (?REL ?INST2 ?INST1). In other words, for all ?INST1 and ?INST2, (?REL ?INST1 ?INST2) and (?REL ?INST2 ?INST1) imply that ?INST1 and ?INST2 are identical. Note that it is possible for an &%AntisymmetricRelation to be a &%ReflexiveRelation.'|))
% 3.09/3.30 (assume a1147 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__INST1 tptp.s__ContentBearingPhysical)) (=> (and (tptp.s__subsumesContentInstance V__INST1 V__INST2) (tptp.s__subsumesContentInstance V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1148 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Agent) (tptp.s__instance V__INST2 tptp.s__Process) (tptp.s__instance V__INST1 tptp.s__Process) (tptp.s__instance V__INST1 tptp.s__Agent)) (=> (and (tptp.s__agent V__INST1 V__INST2) (tptp.s__agent V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1149 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Formula) (tptp.s__instance V__INST1 tptp.s__Formula)) (=> (and (tptp.s__hasPurpose V__INST1 V__INST2) (tptp.s__hasPurpose V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1150 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__subclass V__INST2 tptp.s__ElementalSubstance) (tptp.s__instance V__INST2 tptp.s__PositiveInteger) (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__subclass V__INST1 tptp.s__ElementalSubstance) (tptp.s__instance V__INST1 tptp.s__PositiveInteger) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (and (tptp.s__atomicNumber V__INST1 V__INST2) (tptp.s__atomicNumber V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1151 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Man) (tptp.s__instance V__INST2 tptp.s__Woman) (tptp.s__instance V__INST1 tptp.s__Woman) (tptp.s__instance V__INST1 tptp.s__Man)) (=> (and (tptp.s__wife V__INST1 V__INST2) (tptp.s__wife V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1152 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Hole) (tptp.s__instance V__INST1 tptp.s__Hole)) (=> (and (tptp.s__fills V__INST1 V__INST2) (tptp.s__fills V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1153 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__instance V__INST2 tptp.s__BinaryRelation) (tptp.s__instance V__INST1 tptp.s__BinaryRelation) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (and (tptp.s__totalOrderingOn V__INST1 V__INST2) (tptp.s__totalOrderingOn V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1154 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Process) (tptp.s__instance V__INST1 tptp.s__Process)) (=> (and (tptp.s__causes V__INST1 V__INST2) (tptp.s__causes V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1155 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Set) (tptp.s__instance V__INST1 tptp.s__Set)) (=> (and (tptp.s__element V__INST1 V__INST2) (tptp.s__element V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1156 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__instance V__INST2 tptp.s__Function) (tptp.s__instance V__INST1 tptp.s__Function) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (and (tptp.s__range V__INST1 V__INST2) (tptp.s__range V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1157 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Human) (tptp.s__instance V__INST1 tptp.s__Human)) (=> (and (tptp.s__leader V__INST1 V__INST2) (tptp.s__leader V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1158 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__instance V__INST2 tptp.s__BinaryRelation) (tptp.s__instance V__INST1 tptp.s__BinaryRelation) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (and (tptp.s__partialOrderingOn V__INST1 V__INST2) (tptp.s__partialOrderingOn V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1159 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Process) (tptp.s__instance V__INST1 tptp.s__Process)) (=> (and (tptp.s__involvedInEvent V__INST1 V__INST2) (tptp.s__involvedInEvent V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1160 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Hole) (tptp.s__instance V__INST1 tptp.s__Hole)) (=> (and (tptp.s__properlyFills V__INST1 V__INST2) (tptp.s__properlyFills V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1161 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__PositiveInteger) (tptp.s__instance V__INST2 tptp.s__Relation) (tptp.s__instance V__INST1 tptp.s__Relation) (tptp.s__instance V__INST1 tptp.s__PositiveInteger)) (=> (and (tptp.s__valence V__INST1 V__INST2) (tptp.s__valence V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1162 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__PositiveInteger) (tptp.s__instance V__INST2 tptp.s__GraphPath) (tptp.s__instance V__INST1 tptp.s__GraphPath) (tptp.s__instance V__INST1 tptp.s__PositiveInteger)) (=> (and (tptp.s__pathLength V__INST1 V__INST2) (tptp.s__pathLength V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1163 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Day) (tptp.s__instance V__INST2 tptp.s__Physical) (tptp.s__instance V__INST1 tptp.s__Physical) (tptp.s__instance V__INST1 tptp.s__Day)) (=> (and (tptp.s__date V__INST1 V__INST2) (tptp.s__date V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1164 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Nation) (tptp.s__instance V__INST2 tptp.s__Human) (tptp.s__instance V__INST1 tptp.s__Human) (tptp.s__instance V__INST1 tptp.s__Nation)) (=> (and (tptp.s__citizen V__INST1 V__INST2) (tptp.s__citizen V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1165 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Proposition) (tptp.s__instance V__INST2 tptp.s__Process) (tptp.s__instance V__INST1 tptp.s__Process) (tptp.s__instance V__INST1 tptp.s__Proposition)) (=> (and (tptp.s__realization V__INST1 V__INST2) (tptp.s__realization V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1166 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__SelfConnectedObject) (tptp.s__instance V__INST2 tptp.s__Hole) (tptp.s__instance V__INST1 tptp.s__Hole) (tptp.s__instance V__INST1 tptp.s__SelfConnectedObject)) (=> (and (tptp.s__hole V__INST1 V__INST2) (tptp.s__hole V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1167 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Collection) (tptp.s__instance V__INST2 tptp.s__SelfConnectedObject) (tptp.s__instance V__INST1 tptp.s__SelfConnectedObject) (tptp.s__instance V__INST1 tptp.s__Collection)) (=> (and (tptp.s__member V__INST1 V__INST2) (tptp.s__member V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1168 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__CognitiveAgent) (tptp.s__instance V__INST2 tptp.s__Formula) (tptp.s__instance V__INST1 tptp.s__Formula) (tptp.s__instance V__INST1 tptp.s__CognitiveAgent)) (=> (and (tptp.s__holdsObligation V__INST1 V__INST2) (tptp.s__holdsObligation V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1169 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__List) (tptp.s__instance V__INST1 tptp.s__List)) (=> (and (tptp.s__inList V__INST1 V__INST2) (tptp.s__inList V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1170 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Quantity) (tptp.s__instance V__INST1 tptp.s__Quantity)) (=> (and (tptp.lesseq V__INST1 V__INST2) (tptp.lesseq V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1171 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__PhysicalQuantity) (tptp.s__instance V__INST2 tptp.s__Object) (tptp.s__instance V__INST1 tptp.s__Object) (tptp.s__instance V__INST1 tptp.s__PhysicalQuantity)) (=> (and (tptp.s__measure V__INST1 V__INST2) (tptp.s__measure V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1172 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Language) (tptp.s__instance V__INST1 tptp.s__Language)) (=> (and (tptp.s__expressedInLanguage V__INST1 V__INST2) (tptp.s__expressedInLanguage V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1173 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Agent) (tptp.s__instance V__INST1 tptp.s__Agent)) (=> (and (tptp.s__uses V__INST1 V__INST2) (tptp.s__uses V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1174 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__GeopoliticalArea) (tptp.s__instance V__INST1 tptp.s__GeopoliticalArea)) (=> (and (tptp.s__geopoliticalSubdivision V__INST1 V__INST2) (tptp.s__geopoliticalSubdivision V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1175 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Object) (tptp.s__instance V__INST2 tptp.s__Process) (tptp.s__instance V__INST1 tptp.s__Process) (tptp.s__instance V__INST1 tptp.s__Object)) (=> (and (tptp.s__eventPartlyLocated V__INST1 V__INST2) (tptp.s__eventPartlyLocated V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1176 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__List) (tptp.s__instance V__INST1 tptp.s__List)) (=> (and (tptp.s__initialList V__INST1 V__INST2) (tptp.s__initialList V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1177 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Hole) (tptp.s__instance V__INST1 tptp.s__Hole)) (=> (and (tptp.s__completelyFills V__INST1 V__INST2) (tptp.s__completelyFills V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1178 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__TimePoint) (tptp.s__instance V__INST1 tptp.s__TimePoint)) (=> (and (tptp.s__beforeOrEqual V__INST1 V__INST2) (tptp.s__beforeOrEqual V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1179 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Object) (tptp.s__instance V__INST1 tptp.s__Object)) (=> (and (tptp.s__penetrates V__INST1 V__INST2) (tptp.s__penetrates V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1180 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Object) (tptp.s__instance V__INST1 tptp.s__Object)) (=> (and (tptp.s__crosses V__INST1 V__INST2) (tptp.s__crosses V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1181 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Proposition) (tptp.s__instance V__INST2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__INST1 tptp.s__ContentBearingPhysical) (tptp.s__instance V__INST1 tptp.s__Proposition)) (=> (and (tptp.s__containsInformation V__INST1 V__INST2) (tptp.s__containsInformation V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1182 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__DevelopmentalAttribute) (tptp.s__instance V__INST2 tptp.s__OrganicObject) (tptp.s__instance V__INST1 tptp.s__OrganicObject) (tptp.s__instance V__INST1 tptp.s__DevelopmentalAttribute)) (=> (and (tptp.s__developmentalForm V__INST1 V__INST2) (tptp.s__developmentalForm V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1183 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__TimePosition) (tptp.s__instance V__INST1 tptp.s__TimePosition)) (=> (and (tptp.s__temporalPart V__INST1 V__INST2) (tptp.s__temporalPart V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1184 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__CognitiveAgent) (tptp.s__instance V__INST2 tptp.s__Formula) (tptp.s__instance V__INST1 tptp.s__Formula) (tptp.s__instance V__INST1 tptp.s__CognitiveAgent)) (=> (and (tptp.s__holdsRight V__INST1 V__INST2) (tptp.s__holdsRight V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1185 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__GeographicArea) (tptp.s__instance V__INST1 tptp.s__GeographicArea)) (=> (and (tptp.s__geographicSubregion V__INST1 V__INST2) (tptp.s__geographicSubregion V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1186 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__SelfConnectedObject) (tptp.s__instance V__INST1 tptp.s__SelfConnectedObject)) (=> (and (tptp.s__contains V__INST1 V__INST2) (tptp.s__contains V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1187 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Formula) (tptp.s__instance V__INST2 tptp.s__CognitiveAgent) (tptp.s__instance V__INST1 tptp.s__CognitiveAgent) (tptp.s__instance V__INST1 tptp.s__Formula)) (=> (and (tptp.s__desires V__INST1 V__INST2) (tptp.s__desires V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1188 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Formula) (tptp.s__instance V__INST2 tptp.s__CognitiveAgent) (tptp.s__instance V__INST1 tptp.s__CognitiveAgent) (tptp.s__instance V__INST1 tptp.s__Formula)) (=> (and (tptp.s__knows V__INST1 V__INST2) (tptp.s__knows V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1189 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Graph) (tptp.s__instance V__INST2 tptp.s__GraphElement) (tptp.s__instance V__INST1 tptp.s__GraphElement) (tptp.s__instance V__INST1 tptp.s__Graph)) (=> (and (tptp.s__graphPart V__INST1 V__INST2) (tptp.s__graphPart V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1190 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__List) (tptp.s__instance V__INST1 tptp.s__List)) (=> (and (tptp.s__subList V__INST1 V__INST2) (tptp.s__subList V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1191 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__instance V__INST2 tptp.s__BinaryRelation) (tptp.s__instance V__INST1 tptp.s__BinaryRelation) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (and (tptp.s__reflexiveOn V__INST1 V__INST2) (tptp.s__reflexiveOn V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1192 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__SelfConnectedObject) (tptp.s__instance V__INST1 tptp.s__SelfConnectedObject)) (=> (and (tptp.s__surface V__INST1 V__INST2) (tptp.s__surface V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1193 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Process) (tptp.s__instance V__INST1 tptp.s__Process)) (=> (and (tptp.s__destination V__INST1 V__INST2) (tptp.s__destination V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1194 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (and (tptp.s__immediateSubclass V__INST1 V__INST2) (tptp.s__immediateSubclass V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1195 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__subclass V__INST2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__subclass V__INST1 tptp.s__ContentBearingPhysical) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (and (tptp.s__subsumesContentClass V__INST1 V__INST2) (tptp.s__subsumesContentClass V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1196 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__TimePosition) (tptp.s__instance V__INST2 tptp.s__Physical) (tptp.s__instance V__INST1 tptp.s__Physical) (tptp.s__instance V__INST1 tptp.s__TimePosition)) (=> (and (tptp.s__time V__INST1 V__INST2) (tptp.s__time V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1197 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Relation) (tptp.s__instance V__INST1 tptp.s__Relation)) (=> (and (tptp.s__subrelation V__INST1 V__INST2) (tptp.s__subrelation V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1198 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__subclass V__INST2 tptp.s__Process) (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__subclass V__INST1 tptp.s__Process) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (and (tptp.s__causesSubclass V__INST1 V__INST2) (tptp.s__causesSubclass V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1199 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Object) (tptp.s__instance V__INST2 tptp.s__Motion) (tptp.s__instance V__INST1 tptp.s__Motion) (tptp.s__instance V__INST1 tptp.s__Object)) (=> (and (tptp.s__moves V__INST1 V__INST2) (tptp.s__moves V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1200 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__subclass V__INST2 tptp.s__Text) (tptp.s__instance V__INST2 tptp.s__Agent) (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__subclass V__INST1 tptp.s__Text) (tptp.s__instance V__INST1 tptp.s__Agent) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (and (tptp.s__authors V__INST1 V__INST2) (tptp.s__authors V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1201 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Attribute) (tptp.s__instance V__INST2 tptp.s__Process) (tptp.s__instance V__INST1 tptp.s__Process) (tptp.s__instance V__INST1 tptp.s__Attribute)) (=> (and (tptp.s__manner V__INST1 V__INST2) (tptp.s__manner V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1202 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Hole) (tptp.s__instance V__INST1 tptp.s__Hole)) (=> (and (tptp.s__partiallyFills V__INST1 V__INST2) (tptp.s__partiallyFills V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1203 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Object) (tptp.s__instance V__INST2 tptp.s__Translocation) (tptp.s__instance V__INST1 tptp.s__Translocation) (tptp.s__instance V__INST1 tptp.s__Object)) (=> (and (tptp.s__changesLocation V__INST1 V__INST2) (tptp.s__changesLocation V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1204 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Collection) (tptp.s__instance V__INST1 tptp.s__Collection)) (=> (and (tptp.s__subCollection V__INST1 V__INST2) (tptp.s__subCollection V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1205 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__subclass V__INST2 tptp.s__Process) (tptp.s__instance V__INST2 tptp.s__Agent) (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__subclass V__INST1 tptp.s__Process) (tptp.s__instance V__INST1 tptp.s__Agent) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (and (tptp.s__hasSkill V__INST1 V__INST2) (tptp.s__hasSkill V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1206 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Object) (tptp.s__instance V__INST2 tptp.s__Motion) (tptp.s__instance V__INST1 tptp.s__Motion) (tptp.s__instance V__INST1 tptp.s__Object)) (=> (and (tptp.s__path V__INST1 V__INST2) (tptp.s__path V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1207 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__subclass V__INST2 tptp.s__Process) (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__subclass V__INST1 tptp.s__Process) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (and (tptp.s__precondition V__INST1 V__INST2) (tptp.s__precondition V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1208 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Formula) (tptp.s__instance V__INST2 tptp.s__TimePosition) (tptp.s__instance V__INST1 tptp.s__TimePosition) (tptp.s__instance V__INST1 tptp.s__Formula)) (=> (and (tptp.s__holdsDuring V__INST1 V__INST2) (tptp.s__holdsDuring V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1209 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Organism) (tptp.s__instance V__INST1 tptp.s__Organism)) (=> (and (tptp.s__parent V__INST1 V__INST2) (tptp.s__parent V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1210 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Quantity) (tptp.s__instance V__INST1 tptp.s__Quantity)) (=> (and (tptp.greatereq V__INST1 V__INST2) (tptp.greatereq V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1211 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Attribute) (tptp.s__instance V__INST1 tptp.s__Attribute)) (=> (and (tptp.s__successorAttribute V__INST1 V__INST2) (tptp.s__successorAttribute V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1212 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (and (tptp.s__immediateInstance V__INST1 V__INST2) (tptp.s__immediateInstance V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1213 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Process) (tptp.s__instance V__INST1 tptp.s__Process)) (=> (and (tptp.s__patient V__INST1 V__INST2) (tptp.s__patient V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1214 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Agent) (tptp.s__instance V__INST1 tptp.s__Agent)) (=> (and (tptp.s__possesses V__INST1 V__INST2) (tptp.s__possesses V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1215 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__GeometricFigure) (tptp.s__instance V__INST1 tptp.s__GeometricFigure)) (=> (and (tptp.s__geometricPart V__INST1 V__INST2) (tptp.s__geometricPart V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1216 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (and (tptp.s__subclass V__INST1 V__INST2) (tptp.s__subclass V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1217 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Attribute) (tptp.s__instance V__INST2 tptp.s__Object) (tptp.s__instance V__INST1 tptp.s__Object) (tptp.s__instance V__INST1 tptp.s__Attribute)) (=> (and (tptp.s__attribute V__INST1 V__INST2) (tptp.s__attribute V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1218 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Organism) (tptp.s__instance V__INST1 tptp.s__Organism)) (=> (and (tptp.s__inhabits V__INST1 V__INST2) (tptp.s__inhabits V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1219 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__instance V__INST2 tptp.s__Function) (tptp.s__instance V__INST1 tptp.s__Function) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (and (tptp.s__closedOn V__INST1 V__INST2) (tptp.s__closedOn V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1220 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Process) (tptp.s__instance V__INST1 tptp.s__Process)) (=> (and (tptp.s__subProcess V__INST1 V__INST2) (tptp.s__subProcess V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1221 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__BinaryFunction) (tptp.s__instance V__INST1 tptp.s__BinaryFunction)) (=> (and (tptp.s__identityElement V__INST1 V__INST2) (tptp.s__identityElement V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1222 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Object) (tptp.s__instance V__INST1 tptp.s__Object)) (=> (and (tptp.s__located V__INST1 V__INST2) (tptp.s__located V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1223 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Organization) (tptp.s__instance V__INST1 tptp.s__Organization)) (=> (and (tptp.s__subOrganization V__INST1 V__INST2) (tptp.s__subOrganization V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1224 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Woman) (tptp.s__instance V__INST2 tptp.s__Man) (tptp.s__instance V__INST1 tptp.s__Man) (tptp.s__instance V__INST1 tptp.s__Woman)) (=> (and (tptp.s__husband V__INST1 V__INST2) (tptp.s__husband V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1225 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__subclass V__INST2 tptp.s__SetOrClass) (tptp.s__instance V__INST2 tptp.s__Function) (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__subclass V__INST1 tptp.s__SetOrClass) (tptp.s__instance V__INST1 tptp.s__Function) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (and (tptp.s__rangeSubclass V__INST1 V__INST2) (tptp.s__rangeSubclass V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1226 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Object) (tptp.s__instance V__INST1 tptp.s__Object)) (=> (and (tptp.s__properPart V__INST1 V__INST2) (tptp.s__properPart V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1227 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Object) (tptp.s__instance V__INST2 tptp.s__Process) (tptp.s__instance V__INST1 tptp.s__Process) (tptp.s__instance V__INST1 tptp.s__Object)) (=> (and (tptp.s__origin V__INST1 V__INST2) (tptp.s__origin V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1228 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Formula) (tptp.s__instance V__INST1 tptp.s__Formula)) (=> (and (tptp.s__causesProposition V__INST1 V__INST2) (tptp.s__causesProposition V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1229 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__TimeDuration) (tptp.s__instance V__INST2 tptp.s__TimeInterval) (tptp.s__instance V__INST1 tptp.s__TimeInterval) (tptp.s__instance V__INST1 tptp.s__TimeDuration)) (=> (and (tptp.s__duration V__INST1 V__INST2) (tptp.s__duration V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1230 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__subclass V__INST2 tptp.s__Artifact) (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__subclass V__INST1 tptp.s__Artifact) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (and (tptp.s__version V__INST1 V__INST2) (tptp.s__version V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1231 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Agent) (tptp.s__instance V__INST1 tptp.s__Agent)) (=> (and (tptp.s__exploits V__INST1 V__INST2) (tptp.s__exploits V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1232 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__DirectionalAttribute) (tptp.s__instance V__INST2 tptp.s__Process) (tptp.s__instance V__INST1 tptp.s__Process) (tptp.s__instance V__INST1 tptp.s__DirectionalAttribute)) (=> (and (tptp.s__direction V__INST1 V__INST2) (tptp.s__direction V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1233 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Agent) (tptp.s__instance V__INST2 tptp.s__Process) (tptp.s__instance V__INST1 tptp.s__Process) (tptp.s__instance V__INST1 tptp.s__Agent)) (=> (and (tptp.s__experiencer V__INST1 V__INST2) (tptp.s__experiencer V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1234 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__subclass V__INST2 tptp.s__Text) (tptp.s__instance V__INST2 tptp.s__Agent) (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__subclass V__INST1 tptp.s__Text) (tptp.s__instance V__INST1 tptp.s__Agent) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (and (tptp.s__editor V__INST1 V__INST2) (tptp.s__editor V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1235 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Object) (tptp.s__instance V__INST1 tptp.s__Object)) (=> (and (tptp.s__interiorPart V__INST1 V__INST2) (tptp.s__interiorPart V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1236 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__UnitOfAtmosphericPressure) (tptp.s__instance V__INST2 tptp.s__Object) (tptp.s__instance V__INST1 tptp.s__Object) (tptp.s__instance V__INST1 tptp.s__UnitOfAtmosphericPressure)) (=> (and (tptp.s__barometricPressure V__INST1 V__INST2) (tptp.s__barometricPressure V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1237 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Attribute) (tptp.s__instance V__INST1 tptp.s__Attribute)) (=> (and (tptp.s__subAttribute V__INST1 V__INST2) (tptp.s__subAttribute V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1238 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__subclass V__INST2 tptp.s__Process) (tptp.s__instance V__INST2 tptp.s__TimeDuration) (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__subclass V__INST1 tptp.s__Process) (tptp.s__instance V__INST1 tptp.s__TimeDuration) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (and (tptp.s__frequency V__INST1 V__INST2) (tptp.s__frequency V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1239 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__TimeInterval) (tptp.s__instance V__INST1 tptp.s__TimeInterval)) (=> (and (tptp.s__meetsTemporally V__INST1 V__INST2) (tptp.s__meetsTemporally V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1240 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Formula) (tptp.s__instance V__INST2 tptp.s__CognitiveAgent) (tptp.s__instance V__INST1 tptp.s__CognitiveAgent) (tptp.s__instance V__INST1 tptp.s__Formula)) (=> (and (tptp.s__considers V__INST1 V__INST2) (tptp.s__considers V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1241 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__instance V__INST2 tptp.s__BinaryRelation) (tptp.s__instance V__INST1 tptp.s__BinaryRelation) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (and (tptp.s__equivalenceRelationOn V__INST1 V__INST2) (tptp.s__equivalenceRelationOn V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1242 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__instance V__INST2 tptp.s__BinaryRelation) (tptp.s__instance V__INST1 tptp.s__BinaryRelation) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (and (tptp.s__irreflexiveOn V__INST1 V__INST2) (tptp.s__irreflexiveOn V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1243 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__NormativeAttribute) (tptp.s__instance V__INST2 tptp.s__Formula) (tptp.s__instance V__INST1 tptp.s__Formula) (tptp.s__instance V__INST1 tptp.s__NormativeAttribute)) (=> (and (tptp.s__modalAttribute V__INST1 V__INST2) (tptp.s__modalAttribute V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1244 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__instance V__INST2 tptp.s__BinaryRelation) (tptp.s__instance V__INST1 tptp.s__BinaryRelation) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (and (tptp.s__trichotomizingOn V__INST1 V__INST2) (tptp.s__trichotomizingOn V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1245 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__INST2 tptp.s__Formula) (tptp.s__instance V__INST2 tptp.s__CognitiveAgent) (tptp.s__instance V__INST1 tptp.s__CognitiveAgent) (tptp.s__instance V__INST1 tptp.s__Formula)) (=> (and (tptp.s__believes V__INST1 V__INST2) (tptp.s__believes V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1246 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__subclass V__INST2 tptp.s__Text) (tptp.s__instance V__INST2 tptp.s__Organization) (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__subclass V__INST1 tptp.s__Text) (tptp.s__instance V__INST1 tptp.s__Organization) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (and (tptp.s__publishes V__INST1 V__INST2) (tptp.s__publishes V__INST2 V__INST1)) (= V__INST1 V__INST2)))))
% 3.09/3.30 (assume a1247 (tptp.s__subclass tptp.s__TrichotomizingRelation tptp.s__BinaryRelation))
% 3.09/3.30 (assume a1248 (tptp.s__instance tptp.s__TrichotomizingRelation__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a1249 (tptp.s__documentation tptp.s__TrichotomizingRelation tptp.s__EnglishLanguage |tptp.'A &%BinaryRelation ?REL is a &%TrichotomizingRelation just in case all ordered pairs consisting of distinct individuals are elements of ?REL.'|))
% 3.09/3.30 (assume a1250 (tptp.s__subclass tptp.s__TransitiveRelation tptp.s__BinaryRelation))
% 3.09/3.30 (assume a1251 (tptp.s__instance tptp.s__TransitiveRelation__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a1252 (tptp.s__documentation tptp.s__TransitiveRelation tptp.s__EnglishLanguage |tptp.'A &%BinaryRelation ?REL is transitive if (?REL ?INST1 ?INST2) and (?REL ?INST2 ?INST3) imply (?REL ?INST1 ?INST3), for all ?INST1, ?INST2, and ?INST3.'|))
% 3.09/3.30 (assume a1253 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Graph) (tptp.s__instance V__INST2 tptp.s__Graph) (tptp.s__instance V__INST1 tptp.s__Graph)) (=> (and (tptp.s__subGraph V__INST1 V__INST2) (tptp.s__subGraph V__INST2 V__INST3)) (tptp.s__subGraph V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1254 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Object) (tptp.s__instance V__INST2 tptp.s__Object) (tptp.s__instance V__INST1 tptp.s__Object)) (=> (and (tptp.s__superficialPart V__INST1 V__INST2) (tptp.s__superficialPart V__INST2 V__INST3)) (tptp.s__superficialPart V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1255 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Relation) (tptp.s__instance V__INST2 tptp.s__Relation) (tptp.s__instance V__INST1 tptp.s__Relation)) (=> (and (tptp.s__subrelation V__INST1 V__INST2) (tptp.s__subrelation V__INST2 V__INST3)) (tptp.s__subrelation V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1256 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Object) (tptp.s__instance V__INST2 tptp.s__Object) (tptp.s__instance V__INST1 tptp.s__Object)) (=> (and (tptp.s__copy V__INST1 V__INST2) (tptp.s__copy V__INST2 V__INST3)) (tptp.s__copy V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1257 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Proposition) (tptp.s__instance V__INST2 tptp.s__Proposition) (tptp.s__instance V__INST1 tptp.s__Proposition)) (=> (and (tptp.s__subProposition V__INST1 V__INST2) (tptp.s__subProposition V__INST2 V__INST3)) (tptp.s__subProposition V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1258 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__TimePosition) (tptp.s__instance V__INST2 tptp.s__TimePosition) (tptp.s__instance V__INST1 tptp.s__TimePosition)) (=> (and (tptp.s__temporalPart V__INST1 V__INST2) (tptp.s__temporalPart V__INST2 V__INST3)) (tptp.s__temporalPart V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1259 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Quantity) (tptp.s__instance V__INST2 tptp.s__Quantity) (tptp.s__instance V__INST1 tptp.s__Quantity)) (=> (and (tptp.greater V__INST1 V__INST2) (tptp.greater V__INST2 V__INST3)) (tptp.greater V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1260 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__subclass V__INST3 tptp.s__Process) (tptp.s__instance V__INST3 tptp.s__SetOrClass) (tptp.s__subclass V__INST2 tptp.s__Process) (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__subclass V__INST1 tptp.s__Process) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (and (tptp.s__precondition V__INST1 V__INST2) (tptp.s__precondition V__INST2 V__INST3)) (tptp.s__precondition V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1261 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Organism) (tptp.s__instance V__INST2 tptp.s__Organism) (tptp.s__instance V__INST1 tptp.s__Organism)) (=> (and (tptp.s__ancestor V__INST1 V__INST2) (tptp.s__ancestor V__INST2 V__INST3)) (tptp.s__ancestor V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1262 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__subclass V__INST3 tptp.s__Artifact) (tptp.s__instance V__INST3 tptp.s__SetOrClass) (tptp.s__subclass V__INST2 tptp.s__Artifact) (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__subclass V__INST1 tptp.s__Artifact) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (and (tptp.s__version V__INST1 V__INST2) (tptp.s__version V__INST2 V__INST3)) (tptp.s__version V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1263 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Object) (tptp.s__instance V__INST2 tptp.s__Object) (tptp.s__instance V__INST1 tptp.s__Object)) (=> (and (tptp.s__crosses V__INST1 V__INST2) (tptp.s__crosses V__INST2 V__INST3)) (tptp.s__crosses V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1264 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Attribute) (tptp.s__instance V__INST2 tptp.s__Attribute) (tptp.s__instance V__INST1 tptp.s__Attribute)) (=> (and (tptp.s__successorAttributeClosure V__INST1 V__INST2) (tptp.s__successorAttributeClosure V__INST2 V__INST3)) (tptp.s__successorAttributeClosure V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1265 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__List) (tptp.s__instance V__INST2 tptp.s__List) (tptp.s__instance V__INST1 tptp.s__List)) (=> (and (tptp.s__identicalListItems V__INST1 V__INST2) (tptp.s__identicalListItems V__INST2 V__INST3)) (tptp.s__identicalListItems V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1266 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__TimeInterval) (tptp.s__instance V__INST2 tptp.s__TimeInterval) (tptp.s__instance V__INST1 tptp.s__TimeInterval)) (=> (and (tptp.s__starts V__INST1 V__INST2) (tptp.s__starts V__INST2 V__INST3)) (tptp.s__starts V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1267 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Object) (tptp.s__instance V__INST2 tptp.s__Object) (tptp.s__instance V__INST1 tptp.s__Object)) (=> (and (tptp.s__larger V__INST1 V__INST2) (tptp.s__larger V__INST2 V__INST3)) (tptp.s__larger V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1268 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__TimeInterval) (tptp.s__instance V__INST2 tptp.s__TimeInterval) (tptp.s__instance V__INST1 tptp.s__TimeInterval)) (=> (and (tptp.s__earlier V__INST1 V__INST2) (tptp.s__earlier V__INST2 V__INST3)) (tptp.s__earlier V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1269 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__List) (tptp.s__instance V__INST2 tptp.s__List) (tptp.s__instance V__INST1 tptp.s__List)) (=> (and (tptp.s__initialList V__INST1 V__INST2) (tptp.s__initialList V__INST2 V__INST3)) (tptp.s__initialList V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1270 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Integer) (tptp.s__instance V__INST2 tptp.s__Integer) (tptp.s__instance V__INST1 tptp.s__Integer)) (=> (and (tptp.s__multiplicativeFactor V__INST1 V__INST2) (tptp.s__multiplicativeFactor V__INST2 V__INST3)) (tptp.s__multiplicativeFactor V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1271 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Quantity) (tptp.s__instance V__INST2 tptp.s__Quantity) (tptp.s__instance V__INST1 tptp.s__Quantity)) (=> (and (tptp.lesseq V__INST1 V__INST2) (tptp.lesseq V__INST2 V__INST3)) (tptp.lesseq V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1272 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__DevelopmentalAttribute) (tptp.s__instance V__INST2 tptp.s__DevelopmentalAttribute) (tptp.s__instance V__INST2 tptp.s__OrganicObject) (tptp.s__instance V__INST1 tptp.s__OrganicObject)) (=> (and (tptp.s__developmentalForm V__INST1 V__INST2) (tptp.s__developmentalForm V__INST2 V__INST3)) (tptp.s__developmentalForm V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1273 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__TimePoint) (tptp.s__instance V__INST2 tptp.s__TimePoint) (tptp.s__instance V__INST1 tptp.s__TimePoint)) (=> (and (tptp.s__before V__INST1 V__INST2) (tptp.s__before V__INST2 V__INST3)) (tptp.s__before V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1274 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Object) (tptp.s__instance V__INST2 tptp.s__Object) (tptp.s__instance V__INST1 tptp.s__Object)) (=> (and (tptp.s__interiorPart V__INST1 V__INST2) (tptp.s__interiorPart V__INST2 V__INST3)) (tptp.s__interiorPart V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1275 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__subclass V__INST3 tptp.s__ContentBearingPhysical) (tptp.s__instance V__INST3 tptp.s__SetOrClass) (tptp.s__subclass V__INST2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__subclass V__INST1 tptp.s__ContentBearingPhysical) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (and (tptp.s__subsumesContentClass V__INST1 V__INST2) (tptp.s__subsumesContentClass V__INST2 V__INST3)) (tptp.s__subsumesContentClass V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1276 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__GeographicArea) (tptp.s__instance V__INST2 tptp.s__GeographicArea) (tptp.s__instance V__INST1 tptp.s__GeographicArea)) (=> (and (tptp.s__geographicSubregion V__INST1 V__INST2) (tptp.s__geographicSubregion V__INST2 V__INST3)) (tptp.s__geographicSubregion V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1277 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Object) (tptp.s__instance V__INST2 tptp.s__Object) (tptp.s__instance V__INST1 tptp.s__Object)) (=> (and (tptp.s__smaller V__INST1 V__INST2) (tptp.s__smaller V__INST2 V__INST3)) (tptp.s__smaller V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1278 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Quantity) (tptp.s__instance V__INST2 tptp.s__Quantity) (tptp.s__instance V__INST1 tptp.s__Quantity)) (=> (and (tptp.less V__INST1 V__INST2) (tptp.less V__INST2 V__INST3)) (tptp.less V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1279 (forall ((V__INST1 $$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__finishes V__INST1 V__INST2) (tptp.s__finishes V__INST2 V__INST3)) (tptp.s__finishes V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1280 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (= V__INST1 V__INST2) (= V__INST2 V__INST3)) (= V__INST1 V__INST3))))
% 3.09/3.30 (assume a1281 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Attribute) (tptp.s__instance V__INST2 tptp.s__Attribute) (tptp.s__instance V__INST1 tptp.s__Attribute)) (=> (and (tptp.s__subAttribute V__INST1 V__INST2) (tptp.s__subAttribute V__INST2 V__INST3)) (tptp.s__subAttribute V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1282 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Plan) (tptp.s__instance V__INST2 tptp.s__Plan) (tptp.s__instance V__INST1 tptp.s__Plan)) (=> (and (tptp.s__subPlan V__INST1 V__INST2) (tptp.s__subPlan V__INST2 V__INST3)) (tptp.s__subPlan V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1283 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Organism) (tptp.s__instance V__INST2 tptp.s__Organism) (tptp.s__instance V__INST1 tptp.s__Organism)) (=> (and (tptp.s__familyRelation V__INST1 V__INST2) (tptp.s__familyRelation V__INST2 V__INST3)) (tptp.s__familyRelation V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1284 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Human) (tptp.s__instance V__INST2 tptp.s__Man) (tptp.s__instance V__INST1 tptp.s__Man)) (=> (and (tptp.s__brother V__INST1 V__INST2) (tptp.s__brother V__INST2 V__INST3)) (tptp.s__brother V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1285 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Quantity) (tptp.s__instance V__INST2 tptp.s__Quantity) (tptp.s__instance V__INST1 tptp.s__Quantity)) (=> (and (tptp.greatereq V__INST1 V__INST2) (tptp.greatereq V__INST2 V__INST3)) (tptp.greatereq V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1286 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__subclass V__INST3 tptp.s__ContentBearingPhysical) (tptp.s__instance V__INST3 tptp.s__SetOrClass) (tptp.s__subclass V__INST2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__subclass V__INST1 tptp.s__ContentBearingPhysical) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (and (tptp.s__equivalentContentClass V__INST1 V__INST2) (tptp.s__equivalentContentClass V__INST2 V__INST3)) (tptp.s__equivalentContentClass V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1287 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Organization) (tptp.s__instance V__INST2 tptp.s__Organization) (tptp.s__instance V__INST1 tptp.s__Organization)) (=> (and (tptp.s__subOrganization V__INST1 V__INST2) (tptp.s__subOrganization V__INST2 V__INST3)) (tptp.s__subOrganization V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1288 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__ContentBearingPhysical) (tptp.s__instance V__INST2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__INST1 tptp.s__ContentBearingPhysical)) (=> (and (tptp.s__subsumesContentInstance V__INST1 V__INST2) (tptp.s__subsumesContentInstance V__INST2 V__INST3)) (tptp.s__subsumesContentInstance V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1289 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__List) (tptp.s__instance V__INST2 tptp.s__List) (tptp.s__instance V__INST1 tptp.s__List)) (=> (and (tptp.s__subList V__INST1 V__INST2) (tptp.s__subList V__INST2 V__INST3)) (tptp.s__subList V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1290 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__SetOrClass) (tptp.s__instance V__INST2 tptp.s__SetOrClass) (tptp.s__instance V__INST1 tptp.s__SetOrClass)) (=> (and (tptp.s__subclass V__INST1 V__INST2) (tptp.s__subclass V__INST2 V__INST3)) (tptp.s__subclass V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1291 (forall ((V__INST1 $$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__during V__INST1 V__INST2) (tptp.s__during V__INST2 V__INST3)) (tptp.s__during V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1292 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Process) (tptp.s__instance V__INST2 tptp.s__Process) (tptp.s__instance V__INST1 tptp.s__Process)) (=> (and (tptp.s__subProcess V__INST1 V__INST2) (tptp.s__subProcess V__INST2 V__INST3)) (tptp.s__subProcess V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1293 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Object) (tptp.s__instance V__INST2 tptp.s__Object) (tptp.s__instance V__INST1 tptp.s__Physical)) (=> (and (tptp.s__located V__INST1 V__INST2) (tptp.s__located V__INST2 V__INST3)) (tptp.s__located V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1294 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Object) (tptp.s__instance V__INST2 tptp.s__Object) (tptp.s__instance V__INST1 tptp.s__Object)) (=> (and (tptp.s__properPart V__INST1 V__INST2) (tptp.s__properPart V__INST2 V__INST3)) (tptp.s__properPart V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1295 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Collection) (tptp.s__instance V__INST2 tptp.s__Collection) (tptp.s__instance V__INST1 tptp.s__Collection)) (=> (and (tptp.s__subCollection V__INST1 V__INST2) (tptp.s__subCollection V__INST2 V__INST3)) (tptp.s__subCollection V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1296 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__relatedInternalConcept V__INST1 V__INST2) (tptp.s__relatedInternalConcept V__INST2 V__INST3)) (tptp.s__relatedInternalConcept V__INST1 V__INST3))))
% 3.09/3.30 (assume a1297 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__GeopoliticalArea) (tptp.s__instance V__INST2 tptp.s__GeopoliticalArea) (tptp.s__instance V__INST1 tptp.s__GeopoliticalArea)) (=> (and (tptp.s__geopoliticalSubdivision V__INST1 V__INST2) (tptp.s__geopoliticalSubdivision V__INST2 V__INST3)) (tptp.s__geopoliticalSubdivision V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1298 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__ContentBearingPhysical) (tptp.s__instance V__INST2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__INST1 tptp.s__ContentBearingPhysical)) (=> (and (tptp.s__equivalentContentInstance V__INST1 V__INST2) (tptp.s__equivalentContentInstance V__INST2 V__INST3)) (tptp.s__equivalentContentInstance V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1299 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Human) (tptp.s__instance V__INST2 tptp.s__Woman) (tptp.s__instance V__INST1 tptp.s__Woman)) (=> (and (tptp.s__sister V__INST1 V__INST2) (tptp.s__sister V__INST2 V__INST3)) (tptp.s__sister V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1300 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__TimePoint) (tptp.s__instance V__INST2 tptp.s__TimePoint) (tptp.s__instance V__INST1 tptp.s__TimePoint)) (=> (and (tptp.s__beforeOrEqual V__INST1 V__INST2) (tptp.s__beforeOrEqual V__INST2 V__INST3)) (tptp.s__beforeOrEqual V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1301 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__GeometricFigure) (tptp.s__instance V__INST2 tptp.s__GeometricFigure) (tptp.s__instance V__INST1 tptp.s__GeometricFigure)) (=> (and (tptp.s__geometricPart V__INST1 V__INST2) (tptp.s__geometricPart V__INST2 V__INST3)) (tptp.s__geometricPart V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1302 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Physical) (tptp.s__instance V__INST2 tptp.s__Physical) (tptp.s__instance V__INST1 tptp.s__Physical)) (=> (and (tptp.s__cooccur V__INST1 V__INST2) (tptp.s__cooccur V__INST2 V__INST3)) (tptp.s__cooccur V__INST1 V__INST3)))))
% 3.09/3.30 (assume a1303 (tptp.s__subclass tptp.s__IntransitiveRelation tptp.s__BinaryRelation))
% 3.09/3.30 (assume a1304 (tptp.s__documentation tptp.s__IntransitiveRelation tptp.s__EnglishLanguage |tptp.'A &%BinaryRelation ?REL is intransitive only if (?REL ?INST1 ?INST2) and (?REL ?INST2 ?INST3) imply not (?REL ?INST1 ?INST3), for all ?INST1, ?INST2, and ?INST3.'|))
% 3.09/3.30 (assume a1305 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Object) (tptp.s__instance V__INST2 tptp.s__Object) (tptp.s__instance V__INST1 tptp.s__Object)) (=> (and (tptp.s__penetrates V__INST1 V__INST2) (tptp.s__penetrates V__INST2 V__INST3)) (not (tptp.s__penetrates V__INST1 V__INST3))))))
% 3.09/3.30 (assume a1306 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Organism) (tptp.s__instance V__INST2 tptp.s__Organism) (tptp.s__instance V__INST1 tptp.s__Organism)) (=> (and (tptp.s__parent V__INST1 V__INST2) (tptp.s__parent V__INST2 V__INST3)) (not (tptp.s__parent V__INST1 V__INST3))))))
% 3.09/3.30 (assume a1307 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__Collection) (tptp.s__instance V__INST2 tptp.s__Collection) (tptp.s__instance V__INST2 tptp.s__SelfConnectedObject) (tptp.s__instance V__INST1 tptp.s__SelfConnectedObject)) (=> (and (tptp.s__member V__INST1 V__INST2) (tptp.s__member V__INST2 V__INST3)) (not (tptp.s__member V__INST1 V__INST3))))))
% 3.09/3.30 (assume a1308 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__SetOrClass) (tptp.s__instance V__INST2 tptp.s__SetOrClass)) (=> (and (tptp.s__immediateInstance V__INST1 V__INST2) (tptp.s__immediateInstance V__INST2 V__INST3)) (not (tptp.s__immediateInstance V__INST1 V__INST3))))))
% 3.09/3.30 (assume a1309 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__BinaryRelation) (tptp.s__instance V__INST2 tptp.s__BinaryRelation) (tptp.s__instance 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))))))
% 3.09/3.30 (assume a1310 (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__INST3 tptp.s__TimeInterval) (tptp.s__instance V__INST2 tptp.s__TimeInterval) (tptp.s__instance V__INST1 tptp.s__TimeInterval)) (=> (and (tptp.s__meetsTemporally V__INST1 V__INST2) (tptp.s__meetsTemporally V__INST2 V__INST3)) (not (tptp.s__meetsTemporally V__INST1 V__INST3))))))
% 3.09/3.30 (assume a1311 (forall ((V__INST1 $$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))))))
% 3.09/3.30 (assume a1312 (tptp.s__subclass tptp.s__PartialOrderingRelation tptp.s__TransitiveRelation))
% 3.09/3.30 (assume a1313 (tptp.s__subclass tptp.s__PartialOrderingRelation tptp.s__AntisymmetricRelation))
% 3.09/3.30 (assume a1314 (tptp.s__subclass tptp.s__PartialOrderingRelation tptp.s__ReflexiveRelation))
% 3.09/3.30 (assume a1315 (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.'|))
% 3.09/3.30 (assume a1316 (tptp.s__subclass tptp.s__TotalOrderingRelation tptp.s__PartialOrderingRelation))
% 3.09/3.30 (assume a1317 (tptp.s__instance tptp.s__TotalOrderingRelation__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a1318 (tptp.s__subclass tptp.s__TotalOrderingRelation tptp.s__TrichotomizingRelation))
% 3.09/3.30 (assume a1319 (tptp.s__documentation tptp.s__TotalOrderingRelation tptp.s__EnglishLanguage |tptp.'A &%BinaryRelation is a &%TotalOrderingRelation if it is a &%PartialOrderingRelation and a &%TrichotomizingRelation.'|))
% 3.09/3.30 (assume a1320 (tptp.s__subclass tptp.s__EquivalenceRelation tptp.s__TransitiveRelation))
% 3.09/3.30 (assume a1321 (tptp.s__subclass tptp.s__EquivalenceRelation tptp.s__SymmetricRelation))
% 3.09/3.30 (assume a1322 (tptp.s__subclass tptp.s__EquivalenceRelation tptp.s__ReflexiveRelation))
% 3.09/3.30 (assume a1323 (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.'|))
% 3.09/3.30 (assume a1324 (tptp.s__subclass tptp.s__CaseRole tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a1325 (tptp.s__subclass tptp.s__CaseRole tptp.s__InheritableRelation))
% 3.09/3.30 (assume a1326 (tptp.s__instance tptp.s__CaseRole__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a1327 (tptp.s__subclass tptp.s__CaseRole tptp.s__AsymmetricRelation))
% 3.09/3.30 (assume a1328 (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.'|))
% 3.09/3.30 (assume a1329 (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.'|))
% 3.09/3.30 (assume a1330 (tptp.s__instance tptp.s__involvedInEvent__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a1331 (tptp.s__instance tptp.s__involvedInEvent__m tptp.s__AsymmetricRelation))
% 3.09/3.30 (assume a1332 (tptp.s__domain tptp.s__involvedInEvent__m |"1"| tptp.s__Process))
% 3.09/3.30 (assume a1333 (tptp.s__domain tptp.s__involvedInEvent__m |"2"| tptp.s__Entity))
% 3.09/3.30 (assume a1334 (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)))))
% 3.09/3.30 (assume a1335 (tptp.s__instance tptp.s__agent__m tptp.s__CaseRole))
% 3.09/3.30 (assume a1336 (tptp.s__domain tptp.s__agent__m |"1"| tptp.s__Process))
% 3.09/3.30 (assume a1337 (tptp.s__domain tptp.s__agent__m |"2"| tptp.s__Agent))
% 3.09/3.30 (assume a1338 (tptp.s__subrelation tptp.s__agent__m tptp.s__involvedInEvent__m))
% 3.09/3.30 (assume a1339 (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.'|))
% 3.09/3.30 (assume a1340 (tptp.s__instance tptp.s__destination__m tptp.s__CaseRole))
% 3.09/3.30 (assume a1341 (tptp.s__domain tptp.s__destination__m |"1"| tptp.s__Process))
% 3.09/3.30 (assume a1342 (tptp.s__domain tptp.s__destination__m |"2"| tptp.s__Entity))
% 3.09/3.30 (assume a1343 (tptp.s__subrelation tptp.s__destination__m tptp.s__involvedInEvent__m))
% 3.09/3.30 (assume a1344 (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.'|))
% 3.09/3.30 (assume a1345 (tptp.s__instance tptp.s__experiencer__m tptp.s__CaseRole))
% 3.09/3.30 (assume a1346 (tptp.s__domain tptp.s__experiencer__m |"1"| tptp.s__Process))
% 3.09/3.30 (assume a1347 (tptp.s__domain tptp.s__experiencer__m |"2"| tptp.s__Agent))
% 3.09/3.30 (assume a1348 (tptp.s__subrelation tptp.s__experiencer__m tptp.s__involvedInEvent__m))
% 3.09/3.30 (assume a1349 (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.'|))
% 3.09/3.30 (assume a1350 (tptp.s__subrelation tptp.s__instrument__m tptp.s__patient__m))
% 3.09/3.30 (assume a1351 (tptp.s__domain tptp.s__instrument__m |"1"| tptp.s__Process))
% 3.09/3.30 (assume a1352 (tptp.s__domain tptp.s__instrument__m |"2"| tptp.s__Object))
% 3.09/3.30 (assume a1353 (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.'|))
% 3.09/3.30 (assume a1354 (tptp.s__instance tptp.s__origin__m tptp.s__CaseRole))
% 3.09/3.30 (assume a1355 (tptp.s__domain tptp.s__origin__m |"1"| tptp.s__Process))
% 3.09/3.30 (assume a1356 (tptp.s__domain tptp.s__origin__m |"2"| tptp.s__Object))
% 3.09/3.30 (assume a1357 (tptp.s__subrelation tptp.s__origin__m tptp.s__involvedInEvent__m))
% 3.09/3.30 (assume a1358 (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.'|))
% 3.09/3.30 (assume a1359 (tptp.s__instance tptp.s__patient__m tptp.s__CaseRole))
% 3.09/3.30 (assume a1360 (tptp.s__domain tptp.s__patient__m |"1"| tptp.s__Process))
% 3.09/3.30 (assume a1361 (tptp.s__domain tptp.s__patient__m |"2"| tptp.s__Entity))
% 3.09/3.30 (assume a1362 (tptp.s__subrelation tptp.s__patient__m tptp.s__involvedInEvent__m))
% 3.09/3.30 (assume a1363 (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.'|))
% 3.09/3.30 (assume a1364 (tptp.s__subrelation tptp.s__resource__m tptp.s__patient__m))
% 3.09/3.30 (assume a1365 (tptp.s__domain tptp.s__resource__m |"1"| tptp.s__Process))
% 3.09/3.30 (assume a1366 (tptp.s__domain tptp.s__resource__m |"2"| tptp.s__Object))
% 3.09/3.30 (assume a1367 (tptp.s__disjointRelation tptp.s__resource__m tptp.s__result__m))
% 3.09/3.30 (assume a1368 (tptp.s__disjointRelation tptp.s__resource__m tptp.s__instrument__m))
% 3.09/3.30 (assume a1369 (tptp.s__disjointRelation tptp.s__result__m tptp.s__instrument__m))
% 3.09/3.30 (assume a1370 (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.'|))
% 3.09/3.30 (assume a1371 (tptp.s__subrelation tptp.s__result__m tptp.s__patient__m))
% 3.09/3.30 (assume a1372 (tptp.s__domain tptp.s__result__m |"1"| tptp.s__Process))
% 3.09/3.30 (assume a1373 (tptp.s__domain tptp.s__result__m |"2"| tptp.s__Entity))
% 3.09/3.30 (assume a1374 (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.'|))
% 3.09/3.30 (assume a1375 (tptp.s__subclass tptp.s__InheritableRelation tptp.s__Relation))
% 3.09/3.30 (assume a1376 (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.'|))
% 3.09/3.30 (assume a1377 (tptp.s__subclass tptp.s__ProbabilityRelation tptp.s__Relation))
% 3.09/3.30 (assume a1378 (tptp.s__subclass tptp.s__ProbabilityRelation tptp.s__InheritableRelation))
% 3.09/3.30 (assume a1379 (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.'|))
% 3.09/3.30 (assume a1380 (tptp.s__instance tptp.s__ProbabilityFn__m tptp.s__ProbabilityRelation))
% 3.09/3.30 (assume a1381 (tptp.s__instance tptp.s__ProbabilityFn__m tptp.s__TotalValuedRelation))
% 3.09/3.30 (assume a1382 (tptp.s__instance tptp.s__ProbabilityFn__m tptp.s__UnaryFunction))
% 3.09/3.30 (assume a1383 (tptp.s__domain tptp.s__ProbabilityFn__m |"1"| tptp.s__Formula))
% 3.09/3.30 (assume a1384 (tptp.s__range tptp.s__ProbabilityFn__m tptp.s__RealNumber))
% 3.09/3.30 (assume a1385 (tptp.s__instance tptp.s__ProbabilityFn__m tptp.s__AsymmetricRelation))
% 3.09/3.30 (assume a1386 (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.'|))
% 3.09/3.30 (assume a1387 (tptp.s__instance tptp.s__conditionalProbability__m tptp.s__ProbabilityRelation))
% 3.09/3.30 (assume a1388 (tptp.s__instance tptp.s__conditionalProbability__m tptp.s__TernaryPredicate))
% 3.09/3.30 (assume a1389 (tptp.s__domain tptp.s__conditionalProbability__m |"1"| tptp.s__Formula))
% 3.09/3.30 (assume a1390 (tptp.s__domain tptp.s__conditionalProbability__m |"2"| tptp.s__Formula))
% 3.09/3.30 (assume a1391 (tptp.s__domain tptp.s__conditionalProbability__m |"3"| tptp.s__RealNumber))
% 3.09/3.30 (assume a1392 (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.'|))
% 3.09/3.30 (assume a1393 (tptp.s__instance tptp.s__increasesLikelihood__m tptp.s__ProbabilityRelation))
% 3.09/3.30 (assume a1394 (tptp.s__instance tptp.s__increasesLikelihood__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a1395 (tptp.s__instance tptp.s__increasesLikelihood__m tptp.s__IrreflexiveRelation))
% 3.09/3.30 (assume a1396 (tptp.s__domain tptp.s__increasesLikelihood__m |"1"| tptp.s__Formula))
% 3.09/3.30 (assume a1397 (tptp.s__domain tptp.s__increasesLikelihood__m |"2"| tptp.s__Formula))
% 3.09/3.30 (assume a1398 (tptp.s__disjointRelation tptp.s__increasesLikelihood__m tptp.s__decreasesLikelihood__m))
% 3.09/3.30 (assume a1399 (tptp.s__disjointRelation tptp.s__increasesLikelihood__m tptp.s__independentProbability__m))
% 3.09/3.30 (assume a1400 (tptp.s__disjointRelation tptp.s__decreasesLikelihood__m tptp.s__independentProbability__m))
% 3.09/3.30 (assume a1401 (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.'|))
% 3.09/3.30 (assume a1402 (forall ((V__NUMBER2 $$unsorted) (V__FORMULA1 $$unsorted) (V__NUMBER1 $$unsorted) (V__FORMULA2 $$unsorted)) (=> (and (tptp.s__instance V__FORMULA2 tptp.s__Formula) (tptp.s__instance V__NUMBER1 tptp.s__Quantity) (tptp.s__instance V__FORMULA1 tptp.s__Formula) (tptp.s__instance V__NUMBER2 tptp.s__RealNumber)) (=> (and (tptp.s__increasesLikelihood V__FORMULA1 V__FORMULA2) (= (tptp.s__ProbabilityFn V__FORMULA2) V__NUMBER1) (tptp.s__conditionalProbability V__FORMULA1 V__FORMULA2 V__NUMBER2)) (tptp.greater V__NUMBER2 V__NUMBER1)))))
% 3.09/3.30 (assume a1403 (tptp.s__instance tptp.s__decreasesLikelihood__m tptp.s__ProbabilityRelation))
% 3.09/3.30 (assume a1404 (tptp.s__instance tptp.s__ProbabilityRelation__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a1405 (tptp.s__instance tptp.s__decreasesLikelihood__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a1406 (tptp.s__instance tptp.s__decreasesLikelihood__m tptp.s__IrreflexiveRelation))
% 3.09/3.30 (assume a1407 (tptp.s__domain tptp.s__decreasesLikelihood__m |"1"| tptp.s__Formula))
% 3.09/3.30 (assume a1408 (tptp.s__domain tptp.s__decreasesLikelihood__m |"2"| tptp.s__Formula))
% 3.09/3.30 (assume a1409 (tptp.s__documentation tptp.s__decreasesLikelihood__m tptp.s__EnglishLanguage |tptp.'One of the basic &%ProbabilityRelations. (&%decreasesLikelihood ?FORMULA1 ?FORMULA2) means that ?FORMULA2 is less likely to be true if ?FORMULA1 is true.'|))
% 3.09/3.30 (assume a1410 (forall ((V__NUMBER2 $$unsorted) (V__FORMULA1 $$unsorted) (V__NUMBER1 $$unsorted) (V__FORMULA2 $$unsorted)) (=> (and (tptp.s__instance V__FORMULA2 tptp.s__Formula) (tptp.s__instance V__NUMBER1 tptp.s__Quantity) (tptp.s__instance V__FORMULA1 tptp.s__Formula) (tptp.s__instance V__NUMBER2 tptp.s__RealNumber)) (=> (and (tptp.s__decreasesLikelihood V__FORMULA1 V__FORMULA2) (= (tptp.s__ProbabilityFn V__FORMULA2) V__NUMBER1) (tptp.s__conditionalProbability V__FORMULA1 V__FORMULA2 V__NUMBER2)) (tptp.less V__NUMBER2 V__NUMBER1)))))
% 3.09/3.30 (assume a1411 (tptp.s__instance tptp.s__independentProbability__m tptp.s__ProbabilityRelation))
% 3.09/3.30 (assume a1412 (tptp.s__instance tptp.s__independentProbability__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a1413 (tptp.s__instance tptp.s__independentProbability__m tptp.s__SymmetricRelation))
% 3.09/3.30 (assume a1414 (tptp.s__domain tptp.s__independentProbability__m |"1"| tptp.s__Formula))
% 3.09/3.30 (assume a1415 (tptp.s__domain tptp.s__independentProbability__m |"2"| tptp.s__Formula))
% 3.09/3.30 (assume a1416 (tptp.s__documentation tptp.s__independentProbability__m tptp.s__EnglishLanguage |tptp.'One of the basic &%ProbabilityRelations. (&%independentProbability ?FORMULA1 ?FORMULA2) means that the probabilities of ?FORMULA1 and ?FORMULA2 being true are independent.'|))
% 3.09/3.30 (assume a1417 (forall ((V__NUMBER2 $$unsorted) (V__FORMULA1 $$unsorted) (V__NUMBER1 $$unsorted) (V__FORMULA2 $$unsorted)) (=> (and (tptp.s__instance V__FORMULA2 tptp.s__Formula) (tptp.s__instance V__FORMULA1 tptp.s__Formula) (tptp.s__instance V__NUMBER2 tptp.s__RealNumber)) (=> (and (tptp.s__independentProbability V__FORMULA1 V__FORMULA2) (= (tptp.s__ProbabilityFn V__FORMULA2) V__NUMBER1) (tptp.s__conditionalProbability V__FORMULA1 V__FORMULA2 V__NUMBER2)) (= V__NUMBER2 V__NUMBER1)))))
% 3.09/3.30 (assume a1418 (forall ((V__FORMULA1 $$unsorted) (V__FORMULA2 $$unsorted)) (=> (and (tptp.s__instance V__FORMULA1 tptp.s__Formula) (tptp.s__instance V__FORMULA2 tptp.s__Formula)) (or (tptp.s__increasesLikelihood V__FORMULA1 V__FORMULA2) (tptp.s__decreasesLikelihood V__FORMULA1 V__FORMULA2) (tptp.s__independentProbability V__FORMULA1 V__FORMULA2)))))
% 3.09/3.30 (assume a1419 (tptp.s__subclass tptp.s__SpatialRelation tptp.s__Relation))
% 3.09/3.30 (assume a1420 (tptp.s__subclass tptp.s__SpatialRelation tptp.s__InheritableRelation))
% 3.09/3.30 (assume a1421 (tptp.s__documentation tptp.s__SpatialRelation tptp.s__EnglishLanguage |tptp.'The &%Class of &%Relations that are spatial in a wide sense. This &%Class includes mereological relations and topological relations.'|))
% 3.09/3.30 (assume a1422 (tptp.s__subclass tptp.s__TemporalRelation tptp.s__Relation))
% 3.09/3.30 (assume a1423 (tptp.s__instance tptp.s__Relation__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a1424 (tptp.s__subclass tptp.s__TemporalRelation tptp.s__InheritableRelation))
% 3.09/3.30 (assume a1425 (tptp.s__documentation tptp.s__TemporalRelation tptp.s__EnglishLanguage |tptp.'The &%Class of temporal &%Relations. This &%Class includes notions of (temporal) topology of intervals, (temporal) schemata, and (temporal) extension.'|))
% 3.09/3.30 (assume a1426 (tptp.s__subclass tptp.s__IntentionalRelation tptp.s__InheritableRelation))
% 3.09/3.30 (assume a1427 (tptp.s__subclass tptp.s__IntentionalRelation tptp.s__Relation))
% 3.09/3.30 (assume a1428 (tptp.s__documentation tptp.s__IntentionalRelation tptp.s__EnglishLanguage |tptp.'The &%Class of &%Relations between an &%Agent and one or more &%Entities, where the &%Relation requires that the &%Agent have awareness of the &%Entity.'|))
% 3.09/3.30 (assume a1429 (forall ((V__OBJ $$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) (tptp.s__inList V__OBJ (tptp.s__ListFn_1 V__ROW1))) (tptp.s__inScopeOfInterest V__AGENT V__OBJ)))))
% 3.09/3.30 (assume a1430 (forall ((V__OBJ $$unsorted) (V__ROW1 $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (and (tptp.s__believes V__AGENT V__ROW1) (tptp.s__inList V__OBJ (tptp.s__ListFn_1 V__ROW1))) (tptp.s__inScopeOfInterest V__AGENT V__OBJ)))))
% 3.09/3.30 (assume a1431 (forall ((V__OBJ $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (and (tptp.s__prefers V__AGENT V__ROW1 V__ROW2) (tptp.s__inList V__OBJ (tptp.s__ListFn_2 V__ROW1 V__ROW2))) (tptp.s__inScopeOfInterest V__AGENT V__OBJ)))))
% 3.09/3.30 (assume a1432 (forall ((V__OBJ $$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)))))
% 3.09/3.30 (assume a1433 (forall ((V__OBJ $$unsorted) (V__ROW1 $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (and (tptp.s__knows V__AGENT V__ROW1) (tptp.s__inList V__OBJ (tptp.s__ListFn_1 V__ROW1))) (tptp.s__inScopeOfInterest V__AGENT V__OBJ)))))
% 3.09/3.30 (assume a1434 (forall ((V__OBJ $$unsorted) (V__ROW1 $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (and (tptp.s__wants V__AGENT V__ROW1) (tptp.s__inList V__OBJ (tptp.s__ListFn_1 V__ROW1))) (tptp.s__inScopeOfInterest V__AGENT V__OBJ)))))
% 3.09/3.30 (assume a1435 (forall ((V__OBJ $$unsorted) (V__ROW1 $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (and (tptp.s__needs V__AGENT V__ROW1) (tptp.s__inList V__OBJ (tptp.s__ListFn_1 V__ROW1))) (tptp.s__inScopeOfInterest V__AGENT V__OBJ)))))
% 3.09/3.30 (assume a1436 (forall ((V__OBJ $$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)))))
% 3.09/3.30 (assume a1437 (tptp.s__instance tptp.s__prefers__m tptp.s__TernaryPredicate))
% 3.09/3.30 (assume a1438 (tptp.s__instance tptp.s__prefers__m tptp.s__IntentionalRelation))
% 3.09/3.30 (assume a1439 (tptp.s__instance tptp.s__IntentionalRelation__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a1440 (tptp.s__domain tptp.s__prefers__m |"1"| tptp.s__CognitiveAgent))
% 3.09/3.30 (assume a1441 (tptp.s__domain tptp.s__prefers__m |"2"| tptp.s__Formula))
% 3.09/3.30 (assume a1442 (tptp.s__domain tptp.s__prefers__m |"3"| tptp.s__Formula))
% 3.09/3.30 (assume a1443 (tptp.s__documentation tptp.s__prefers__m tptp.s__EnglishLanguage |tptp.'(&%prefers ?AGENT ?FORMULA1 ?FORMULA2) means that &%CognitiveAgent ?AGENT prefers the state of affairs expressed by ?FORMULA1 over the state of affairs expressed by ?FORMULA2 all things being equal.'|))
% 3.09/3.30 (assume a1444 (tptp.s__subclass tptp.s__PropositionalAttitude tptp.s__IntentionalRelation))
% 3.09/3.30 (assume a1445 (tptp.s__instance tptp.s__PropositionalAttitude__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a1446 (tptp.s__subclass tptp.s__PropositionalAttitude tptp.s__AsymmetricRelation))
% 3.09/3.30 (assume a1447 (tptp.s__subclass tptp.s__PropositionalAttitude tptp.s__InheritableRelation))
% 3.09/3.30 (assume a1448 (tptp.s__documentation tptp.s__PropositionalAttitude tptp.s__EnglishLanguage |tptp.'The &%Class of &%IntentionalRelations where the &%Agent has awareness of a &%Proposition.'|))
% 3.09/3.30 (assume a1449 (forall ((V__FORMULA $$unsorted) (V__AGENT $$unsorted)) (=> (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (=> (tptp.s__knows V__AGENT V__FORMULA) (tptp.s__instance V__FORMULA tptp.s__Formula)))))
% 3.09/3.30 (assume a1450 (forall ((V__FORMULA $$unsorted) (V__AGENT $$unsorted)) (=> (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (=> (tptp.s__considers V__AGENT V__FORMULA) (tptp.s__instance V__FORMULA tptp.s__Formula)))))
% 3.09/3.30 (assume a1451 (forall ((V__FORMULA $$unsorted) (V__AGENT $$unsorted)) (=> (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (=> (tptp.s__believes V__AGENT V__FORMULA) (tptp.s__instance V__FORMULA tptp.s__Formula)))))
% 3.09/3.30 (assume a1452 (forall ((V__FORMULA $$unsorted) (V__AGENT $$unsorted)) (=> (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (=> (tptp.s__desires V__AGENT V__FORMULA) (tptp.s__instance V__FORMULA tptp.s__Formula)))))
% 3.09/3.30 (assume a1453 (tptp.s__subclass tptp.s__ObjectAttitude tptp.s__IntentionalRelation))
% 3.09/3.30 (assume a1454 (tptp.s__subclass tptp.s__ObjectAttitude tptp.s__InheritableRelation))
% 3.09/3.30 (assume a1455 (tptp.s__disjoint tptp.s__ObjectAttitude tptp.s__PropositionalAttitude))
% 3.09/3.30 (assume a1456 (tptp.s__documentation tptp.s__ObjectAttitude tptp.s__EnglishLanguage |tptp.'The &%Class of &%IntentionalRelations where the &%Agent has awareness of an instance of &%Physical.'|))
% 3.09/3.30 (assume a1457 (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)))))
% 3.09/3.30 (assume a1458 (forall ((V__AGENT $$unsorted) (V__THING $$unsorted)) (=> (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (=> (tptp.s__needs V__AGENT V__THING) (tptp.s__instance V__THING tptp.s__Physical)))))
% 3.09/3.30 (assume a1459 (tptp.s__instance tptp.s__inScopeOfInterest__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a1460 (tptp.s__instance tptp.s__inScopeOfInterest__m tptp.s__IntentionalRelation))
% 3.09/3.30 (assume a1461 (tptp.s__domain tptp.s__inScopeOfInterest__m |"1"| tptp.s__CognitiveAgent))
% 3.09/3.30 (assume a1462 (tptp.s__domain tptp.s__inScopeOfInterest__m |"2"| tptp.s__Entity))
% 3.09/3.30 (assume a1463 (tptp.s__documentation tptp.s__inScopeOfInterest__m tptp.s__EnglishLanguage |tptp.'A very general &%Predicate. (&%inScopeOfInterest ?AGENT ?ENTITY) means that ?ENTITY is within the scope of interest of ?AGENT. Note that the interest indicated can be either positive or negative, i.e. the ?AGENT can have an interest in avoiding or promoting ?ENTITY.'|))
% 3.09/3.30 (assume a1464 (forall ((V__OBJECT $$unsorted) (V__AGENT $$unsorted)) (=> (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (= (exists ((V__PROCESS $$unsorted)) (and (tptp.s__instance V__PROCESS tptp.s__Process) (tptp.s__instance V__PROCESS tptp.s__IntentionalProcess) (tptp.s__agent V__PROCESS V__AGENT) (tptp.s__patient V__PROCESS V__OBJECT))) (tptp.s__inScopeOfInterest V__AGENT V__OBJECT)))))
% 3.09/3.30 (assume a1465 (tptp.s__instance tptp.s__needs__m tptp.s__ObjectAttitude))
% 3.09/3.30 (assume a1466 (tptp.s__instance tptp.s__needs__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a1467 (tptp.s__subrelation tptp.s__needs__m tptp.s__inScopeOfInterest__m))
% 3.09/3.30 (assume a1468 (tptp.s__domain tptp.s__needs__m |"1"| tptp.s__CognitiveAgent))
% 3.09/3.30 (assume a1469 (tptp.s__domain tptp.s__needs__m |"2"| tptp.s__Physical))
% 3.09/3.30 (assume a1470 (tptp.s__documentation tptp.s__needs__m tptp.s__EnglishLanguage |tptp.'(&%needs ?AGENT ?OBJECT) means that ?OBJECT is physically required for the continued existence of ?AGENT.'|))
% 3.09/3.30 (assume a1471 (forall ((V__OBJECT $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__OBJECT tptp.s__Physical)) (=> (tptp.s__needs V__AGENT V__OBJECT) (tptp.s__wants V__AGENT V__OBJECT)))))
% 3.09/3.30 (assume a1472 (tptp.s__instance tptp.s__wants__m tptp.s__ObjectAttitude))
% 3.09/3.30 (assume a1473 (tptp.s__instance tptp.s__ObjectAttitude__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a1474 (tptp.s__instance tptp.s__wants__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a1475 (tptp.s__subrelation tptp.s__wants__m tptp.s__inScopeOfInterest__m))
% 3.09/3.30 (assume a1476 (tptp.s__relatedInternalConcept tptp.s__wants__m tptp.s__desires__m))
% 3.09/3.30 (assume a1477 (tptp.s__domain tptp.s__wants__m |"1"| tptp.s__CognitiveAgent))
% 3.09/3.30 (assume a1478 (tptp.s__domain tptp.s__wants__m |"2"| tptp.s__Physical))
% 3.09/3.30 (assume a1479 (tptp.s__documentation tptp.s__wants__m tptp.s__EnglishLanguage |tptp.'(&%wants ?AGENT ?OBJECT) means that ?OBJECT is desired by ?AGENT, i.e. ?AGENT believes that ?OBJECT will satisfy one of its goals. Note that there is no implication that what is wanted by an agent is not already possessed by the agent.'|))
% 3.09/3.30 (assume a1480 (forall ((V__OBJ $$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)))))))
% 3.09/3.30 (assume a1481 (tptp.s__instance tptp.s__desires__m tptp.s__PropositionalAttitude))
% 3.09/3.30 (assume a1482 (tptp.s__instance tptp.s__desires__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a1483 (tptp.s__subrelation tptp.s__desires__m tptp.s__inScopeOfInterest__m))
% 3.09/3.30 (assume a1484 (tptp.s__relatedInternalConcept tptp.s__desires__m tptp.s__wants__m))
% 3.09/3.30 (assume a1485 (tptp.s__domain tptp.s__desires__m |"1"| tptp.s__CognitiveAgent))
% 3.09/3.30 (assume a1486 (tptp.s__domain tptp.s__desires__m |"2"| tptp.s__Formula))
% 3.09/3.30 (assume a1487 (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.'|))
% 3.09/3.30 (assume a1488 (tptp.s__instance tptp.s__considers__m tptp.s__PropositionalAttitude))
% 3.09/3.30 (assume a1489 (tptp.s__instance tptp.s__considers__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a1490 (tptp.s__subrelation tptp.s__considers__m tptp.s__inScopeOfInterest__m))
% 3.09/3.30 (assume a1491 (tptp.s__domain tptp.s__considers__m |"1"| tptp.s__CognitiveAgent))
% 3.09/3.30 (assume a1492 (tptp.s__domain tptp.s__considers__m |"2"| tptp.s__Formula))
% 3.09/3.30 (assume a1493 (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.'|))
% 3.09/3.30 (assume a1494 (tptp.s__instance tptp.s__believes__m tptp.s__PropositionalAttitude))
% 3.09/3.30 (assume a1495 (tptp.s__instance tptp.s__believes__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a1496 (tptp.s__subrelation tptp.s__believes__m tptp.s__inScopeOfInterest__m))
% 3.09/3.30 (assume a1497 (tptp.s__domain tptp.s__believes__m |"1"| tptp.s__CognitiveAgent))
% 3.09/3.30 (assume a1498 (tptp.s__domain tptp.s__believes__m |"2"| tptp.s__Formula))
% 3.09/3.30 (assume a1499 (tptp.s__documentation tptp.s__believes__m tptp.s__EnglishLanguage |tptp.'The epistemic predicate of belief. (&%believes ?AGENT ?FORMULA) means that ?AGENT believes the proposition expressed by ?FORMULA.'|))
% 3.09/3.30 (assume a1500 (tptp.s__instance tptp.s__knows__m tptp.s__PropositionalAttitude))
% 3.09/3.30 (assume a1501 (tptp.s__instance tptp.s__knows__m tptp.s__BinaryPredicate))
% 3.09/3.30 (assume a1502 (tptp.s__subrelation tptp.s__knows__m tptp.s__inScopeOfInterest__m))
% 3.09/3.30 (assume a1503 (tptp.s__domain tptp.s__knows__m |"1"| tptp.s__CognitiveAgent))
% 3.09/3.30 (assume a1504 (tptp.s__domain tptp.s__knows__m |"2"| tptp.s__Formula))
% 3.09/3.30 (assume a1505 (tptp.s__documentation tptp.s__knows__m tptp.s__EnglishLanguage |tptp.'The epistemic predicate of knowing. (&%knows ?AGENT ?FORMULA) means that ?AGENT knows the proposition expressed by ?FORMULA. Note that &%knows entails conscious awareness, so this &%Predicate cannot be used to express tacit or subconscious or unconscious knowledge.'|))
% 3.09/3.30 (assume a1506 (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)))))
% 3.09/3.30 (assume a1507 (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'|)))))
% 3.09/3.30 (assume a1508 (tptp.s__subclass tptp.s__TernaryRelation tptp.s__Relation))
% 3.09/3.30 (assume a1509 (tptp.s__subclass tptp.s__TernaryRelation tptp.s__InheritableRelation))
% 3.09/3.30 (assume a1510 (tptp.s__documentation tptp.s__TernaryRelation tptp.s__EnglishLanguage |tptp.'&%TernaryRelations relate three items. The two &%subclasses of &%TernaryRelation are &%TernaryPredicate and &%BinaryFunction.'|))
% 3.09/3.30 (assume a1511 (tptp.s__subclass tptp.s__QuaternaryRelation tptp.s__Relation))
% 3.09/3.30 (assume a1512 (tptp.s__subclass tptp.s__QuaternaryRelation tptp.s__InheritableRelation))
% 3.09/3.30 (assume a1513 (tptp.s__documentation tptp.s__QuaternaryRelation tptp.s__EnglishLanguage |tptp.'&%QuaternaryRelations relate four items. The two &%subclasses of &%QuaternaryRelation are &%QuaternaryPredicate and &%TernaryFunction.'|))
% 3.09/3.30 (assume a1514 (tptp.s__subclass tptp.s__QuintaryRelation tptp.s__Relation))
% 3.09/3.30 (assume a1515 (tptp.s__subclass tptp.s__QuintaryRelation tptp.s__InheritableRelation))
% 3.09/3.30 (assume a1516 (tptp.s__instance tptp.s__QuintaryRelation__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a1517 (tptp.s__documentation tptp.s__QuintaryRelation tptp.s__EnglishLanguage |tptp.'&%QuintaryRelations relate five items. The two &%subclasses of &%QuintaryRelation are &%QuintaryPredicate and &%QuaternaryFunction.'|))
% 3.09/3.30 (assume a1518 (tptp.s__subclass tptp.s__List tptp.s__Relation))
% 3.09/3.30 (assume a1519 (tptp.s__documentation tptp.s__List tptp.s__EnglishLanguage |tptp.'Every &%List is a particular ordered n-tuple of items. Generally speaking, &%Lists are created by means of the &%ListFn &%Function, which takes any number of items as arguments and returns a &%List with the items in the same order. Anything, including other &%Lists, may be an item in a &%List. Note too that &%Lists are extensional - two lists that have the same items in the same order are identical. Note too that a &%List may contain no items. In that case, the &%List is the &%NullList.'|))
% 3.09/3.30 (assume a1520 (forall ((V__LIST $$unsorted)) (=> (and (tptp.s__instance V__LIST tptp.s__List) (not (tptp.s__instance V__LIST tptp.s__NullList__m))) (exists ((V__NUMBER1 $$unsorted) (V__ITEM1 $$unsorted)) (and (not (= (tptp.s__ListOrderFn V__LIST V__NUMBER1) V__ITEM1)) (forall ((V__NUMBER2 $$unsorted)) (=> (tptp.s__instance V__LIST tptp.s__List) (=> (and (tptp.s__instance V__NUMBER2 tptp.s__PositiveInteger) (tptp.less V__NUMBER2 V__NUMBER1)) (exists ((V__ITEM2 $$unsorted)) (and (tptp.s__instance V__NUMBER1 tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn V__LIST V__NUMBER2) V__ITEM2)))))))))))
% 3.09/3.30 (assume a1521 (tptp.s__subclass tptp.s__UniqueList tptp.s__List))
% 3.09/3.30 (assume a1522 (tptp.s__instance tptp.s__UniqueList__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a1523 (tptp.s__documentation tptp.s__UniqueList tptp.s__EnglishLanguage |tptp.'A &%List in which no item appears more than once, i.e. a &%List for which there are no distinct numbers ?NUMBER1 and ?NUMBER2 such that (&%ListOrderFn ?LIST ?NUMBER1) and (&%ListOrderFn ?LIST ?NUMBER2) return the same value.'|))
% 3.09/3.30 (assume a1524 (forall ((V__LIST $$unsorted)) (=> (tptp.s__instance V__LIST tptp.s__UniqueList) (forall ((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__LIST tptp.s__List)) (=> (= (tptp.s__ListOrderFn V__LIST V__NUMBER1) (tptp.s__ListOrderFn V__LIST V__NUMBER2)) (= V__NUMBER1 V__NUMBER2)))))))
% 3.09/3.30 (assume a1525 (tptp.s__instance tptp.s__NullList__m tptp.s__List))
% 3.09/3.30 (assume a1526 (tptp.s__instance tptp.s__List__t tptp.s__SetOrClass))
% 3.09/3.30 (assume a1527 (tptp.s__documentation tptp.s__NullList__m tptp.s__EnglishLanguage |tptp.'The &%List that has no items. The uniqueness of &%NullList follows from the extensionality of &%Lists, i.e. the fact that two &%Lists with the same items in the same order are identical.'|))
% 3.09/3.30 (assume a1528 (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)))))))
% 3.09/3.30 (assume a1529 (tptp.s__instance tptp.s__ListFn__m tptp.s__Function))
% 3.09/3.30 (assume a1530 (tptp.s__instance tptp.s__ListFn__m tptp.s__VariableArityRelation))
% 3.09/3.30 (assume a1531 (tptp.s__range tptp.s__ListFn__m tptp.s__List))
% 3.09/3.30 (assume a1532 (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.'|))
% 3.09/3.30 (assume a1533 (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)))))))))
% 3.09/3.30 (assume a1534 (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 $$unsorted)) (and (tptp.s__instance V__ITEM tptp.s__SetOrClass) (tptp.s__inList V__ITEM (tptp.s__ListFn_2 V__ROW1 V__ROW2)) (tptp.s__instance V__OBJ V__ITEM)))))))))
% 3.09/3.30 (assume a1535 (forall ((V__ROW1 $$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 $$unsorted)) (and (tptp.s__instance V__ITEM tptp.s__SetOrClass) (tptp.s__inList V__ITEM (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) (tptp.s__instance V__OBJ V__ITEM)))))))))
% 3.09/3.30 (assume a1536 (forall ((V__ROW1 $$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)))))))))
% 3.09/3.30 (assume a1537 (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)))))))))
% 3.09/3.30 (assume a1538 (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 $$unsorted)) (and (tptp.s__instance V__ITEM tptp.s__SetOrClass) (tptp.s__inList V__ITEM (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6)) (tptp.s__instance V__OBJ V__ITEM)))))))))
% 3.09/3.30 (assume a1539 (forall ((V__ROW1 $$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 $$unsorted)) (and (tptp.s__instance V__ITEM tptp.s__SetOrClass) (tptp.s__inList V__ITEM (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7)) (tptp.s__instance V__OBJ V__ITEM)))))))))
% 3.09/3.30 (assume a1540 (forall ((V__ROW1 $$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)))))))
% 3.09/3.30 (assume a1541 (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)))))))
% 3.09/3.30 (assume a1542 (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 $$unsorted)) (=> (and (tptp.s__instance V__ITEM tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__Class)) (=> (tptp.s__inList V__ITEM (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) (tptp.s__subclass V__ITEM V__CLASS)))))))
% 3.09/3.30 (assume a1543 (forall ((V__ROW1 $$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 $$unsorted)) (=> (and (tptp.s__instance V__ITEM tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__Class)) (=> (tptp.s__inList V__ITEM (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4)) (tptp.s__subclass V__ITEM V__CLASS)))))))
% 3.09/3.30 (assume a1544 (forall ((V__ROW1 $$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)))))))
% 3.09/3.30 (assume a1545 (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)))))))
% 3.09/3.30 (assume a1546 (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 $$unsorted)) (=> (and (tptp.s__instance V__ITEM tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__Class)) (=> (tptp.s__inList V__ITEM (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7)) (tptp.s__subclass V__ITEM V__CLASS)))))))
% 3.09/3.30 (assume a1547 (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted)) (=> (tptp.s__disjointDecomposition_2 V__CLASS V__ROW1) (forall ((V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__SetOrClass) (tptp.s__instance V__ITEM1 tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__Class)) (=> (and (tptp.s__inList V__ITEM1 (tptp.s__ListFn_1 V__ROW1)) (tptp.s__inList V__ITEM2 (tptp.s__ListFn_1 V__ROW1)) (not (= V__ITEM1 V__ITEM2))) (tptp.s__disjoint V__ITEM1 V__ITEM2)))))))
% 3.09/3.30 (assume a1548 (forall ((V__ROW1 $$unsorted) (V__CLASS $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__disjointDecomposition_3 V__CLASS V__ROW1 V__ROW2) (forall ((V__ITEM1 $$unsorted) (V__ITEM2 $$unsorted)) (=> (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 (tptp.s__ListFn_2 V__ROW1 V__ROW2)) (tptp.s__inList V__ITEM2 (tptp.s__ListFn_2 V__ROW1 V__ROW2)) (not (= V__ITEM1 V__ITEM2))) (tptp.s__disjoint V__ITEM1 V__ITEM2)))))))
% 3.09/3.30 (assume a1549 (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)) (=> (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 (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) (tptp.s__inList V__ITEM2 (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) (not (= V__ITEM1 V__ITEM2))) (tptp.s__disjoint V__ITEM1 V__ITEM2)))))))
% 3.09/3.30 (assume a1550 (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 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__SetOrClass) (tptp.s__instance V__ITEM1 tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__Class)) (=> (and (tptp.s__inList V__ITEM1 (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4)) (tptp.s__inList V__ITEM2 (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4)) (not (= V__ITEM1 V__ITEM2))) (tptp.s__disjoint V__ITEM1 V__ITEM2)))))))
% 3.09/3.30 (assume a1551 (forall ((V__ROW1 $$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 $$unsorted)) (=> (and (tptp.s__instance V__ITEM2 tptp.s__SetOrClass) (tptp.s__instance V__ITEM1 tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__Class)) (=> (and (tptp.s__inList V__ITEM1 (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5)) (tptp.s__inList V__ITEM2 (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5)) (not (= V__ITEM1 V__ITEM2))) (tptp.s__disjoint V__ITEM1 V__ITEM2)))))))
% 3.09/3.30 (assume a1552 (forall ((V__ROW1 $$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)) (=> (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 (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6)) (tptp.s__inList V__ITEM2 (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6)) (not (= V__ITEM1 V__ITEM2))) (tptp.s__disjoint V__ITEM1 V__ITEM2)))))))
% 3.09/3.30 (assume a1553 (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)) (=> (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 (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7)) (tptp.s__inList V__ITEM2 (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7)) (not (= V__ITEM1 V__ITEM2))) (tptp.s__disjoint V__ITEM1 V__ITEM2)))))))
% 3.09/3.30 (assume a1554 (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))))))
% 3.09/3.30 (assume a1555 (tptp.s__instance tptp.s__ListOrderFn__m tptp.s__BinaryFunction))
% 3.09/3.30 (assume a1556 (tptp.s__instance tptp.s__ListOrderFn__m tptp.s__PartialValuedRelation))
% 3.09/3.30 (assume a1557 (tptp.s__domain tptp.s__ListOrderFn__m |"1"| tptp.s__List))
% 3.09/3.30 (assume a1558 (tptp.s__domain tptp.s__ListOrderFn__m |"2"| tptp.s__PositiveInteger))
% 3.09/3.30 (assume a1559 (tptp.s__range tptp.s__ListOrderFn__m tptp.s__Entity))
% 3.09/3.30 (assume a1560 (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.'|))
% 3.09/3.30 (assume a1561 (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 $$unsorted)) (=> (and (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (tptp.s__instance V__LIST1 tptp.s__List) (tptp.s__instance V__LIST2 tptp.s__List)) (= (tptp.s__ListOrderFn V__LIST1 V__NUMBER) (tptp.s__ListOrderFn V__LIST2 V__NUMBER))))) (= V__LIST1 V__LIST2))))
% 3.09/3.30 (assume a1562 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__Function)) (=> (tptp.s__closedOn V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Function)))))
% 3.09/3.30 (assume a1563 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Organism) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (tptp.s__son V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Organism)))))
% 3.09/3.30 (assume a1564 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Substance) (tptp.s__instance V__ROW1 tptp.s__Substance)) (=> (tptp.s__piece V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Substance)))))
% 3.09/3.30 (assume a1565 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Organism) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (tptp.s__ancestor V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Organism)))))
% 3.09/3.30 (assume a1566 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__eventPartlyLocated V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Process)))))
% 3.09/3.30 (assume a1567 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__subclass V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__SetOrClass)))))
% 3.09/3.30 (assume a1568 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__smaller V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Object)))))
% 3.09/3.30 (assume a1569 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__resource V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Object)))))
% 3.09/3.30 (assume a1570 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__causesProposition V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Formula)))))
% 3.09/3.30 (assume a1571 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__Function)) (=> (tptp.s__closedOn V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__SetOrClass)))))
% 3.09/3.30 (assume a1572 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Quantity) (tptp.s__instance V__ROW1 tptp.s__Quantity)) (=> (tptp.greater V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Quantity)))))
% 3.09/3.30 (assume a1573 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted)) (=> (and (tptp.s__instance V__ROW4 tptp.s__Object) (tptp.s__instance V__ROW3 tptp.s__Object) (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__betweenOnPath V__ROW1 V__ROW2 V__ROW3 V__ROW4) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4) |"4"|) tptp.s__Object)))))
% 3.09/3.30 (assume a1574 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimeInterval) (tptp.s__instance V__ROW1 tptp.s__TimeInterval)) (=> (tptp.s__during V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__TimeInterval)))))
% 3.09/3.30 (assume a1575 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Hole) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__fills V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Object)))))
% 3.09/3.30 (assume a1576 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__CognitiveAgent) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__holdsRight V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Formula)))))
% 3.09/3.30 (assume a1577 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TemperatureMeasure) (tptp.s__subclass V__ROW1 tptp.s__PureSubstance) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__meltingPoint V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__TemperatureMeasure)))))
% 3.09/3.30 (assume a1578 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__CurrencyMeasure) (tptp.s__instance V__ROW1 tptp.s__FinancialTransaction)) (=> (tptp.s__transactionAmount V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__FinancialTransaction)))))
% 3.09/3.30 (assume a1579 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__partlyLocated V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Physical)))))
% 3.09/3.31 (assume a1580 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__UnitOfAtmosphericPressure) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__barometricPressure V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__UnitOfAtmosphericPressure)))))
% 3.09/3.31 (assume a1581 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__CognitiveAgent) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__confersRight V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__Entity)))))
% 3.09/3.31 (assume a1582 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Nation) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__citizen V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Nation)))))
% 3.09/3.31 (assume a1583 (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__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Man)))))
% 3.09/3.31 (assume a1584 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__refers V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Entity))))
% 3.09/3.31 (assume a1585 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__ObjectiveNorm) (tptp.s__instance V__ROW2 tptp.s__Formula)) (=> (tptp.s__confersNorm V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"3"|) tptp.s__ObjectiveNorm)))))
% 3.09/3.31 (assume a1586 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__UnitOfMeasure) (tptp.s__instance V__ROW1 tptp.s__Graph)) (=> (tptp.s__graphMeasure V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Graph)))))
% 3.09/3.31 (assume a1587 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Organism) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (tptp.s__son V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Organism)))))
% 3.09/3.31 (assume a1588 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimeInterval) (tptp.s__instance V__ROW1 tptp.s__TimeInterval)) (=> (tptp.s__finishes V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__TimeInterval)))))
% 3.09/3.31 (assume a1589 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__CognitiveAgent) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__confersRight V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__Formula)))))
% 3.09/3.31 (assume a1590 (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__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1591 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__SetOrClass) (tptp.s__instance V__ROW2 tptp.s__PositiveInteger) (tptp.s__instance V__ROW1 tptp.s__Relation)) (=> (tptp.s__domain V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__PositiveInteger)))))
% 3.09/3.31 (assume a1592 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__UnitOfMeasure) (tptp.s__instance V__ROW1 tptp.s__Graph)) (=> (tptp.s__graphMeasure V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__UnitOfMeasure)))))
% 3.09/3.31 (assume a1593 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Physical) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__cooccur V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Physical)))))
% 3.09/3.31 (assume a1594 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__List) (tptp.s__instance V__ROW1 tptp.s__List)) (=> (tptp.s__identicalListItems V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__List)))))
% 3.09/3.31 (assume a1595 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__SymbolicString) (tptp.s__instance V__ROW1 tptp.s__Language)) (=> (tptp.s__format V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"3"|) tptp.s__SymbolicString)))))
% 3.09/3.31 (assume a1596 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__SymbolicString) (tptp.s__instance V__ROW2 tptp.s__HumanLanguage)) (=> (tptp.s__documentation V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"3"|) tptp.s__SymbolicString)))))
% 3.09/3.31 (assume a1597 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__PhysicalQuantity) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__measure V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1598 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__ROW1 tptp.s__ContentBearingPhysical)) (=> (tptp.s__equivalentContentInstance V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__ContentBearingPhysical)))))
% 3.09/3.31 (assume a1599 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__GeometricPoint) (tptp.s__instance V__ROW2 tptp.s__OneDimensionalFigure) (tptp.s__instance V__ROW1 tptp.s__OneDimensionalFigure)) (=> (tptp.s__pointOfIntersection V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__OneDimensionalFigure)))))
% 3.09/3.31 (assume a1600 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__PhysicalQuantity) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__measure V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__PhysicalQuantity)))))
% 3.09/3.31 (assume a1601 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__PositionalAttribute) (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__orientation V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1602 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__DevelopmentalAttribute) (tptp.s__instance V__ROW1 tptp.s__OrganicObject)) (=> (tptp.s__developmentalForm V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__OrganicObject)))))
% 3.09/3.31 (assume a1603 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Man) (tptp.s__instance V__ROW1 tptp.s__Woman)) (=> (tptp.s__wife V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Woman)))))
% 3.09/3.31 (assume a1604 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Process) (=> (tptp.s__patient V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Entity)))))
% 3.09/3.31 (assume a1605 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__LengthMeasure) (tptp.s__instance V__ROW1 tptp.s__Circle)) (=> (tptp.s__radius V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__LengthMeasure)))))
% 3.09/3.31 (assume a1606 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__CognitiveAgent) (tptp.s__instance V__ROW1 tptp.s__Organization)) (=> (tptp.s__employs V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__CognitiveAgent)))))
% 3.09/3.31 (assume a1607 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__LengthMeasure) (tptp.s__instance V__ROW1 tptp.s__Circle)) (=> (tptp.s__radius V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Circle)))))
% 3.09/3.31 (assume a1608 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Quantity) (tptp.s__instance V__ROW1 tptp.s__Quantity)) (=> (tptp.less V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Quantity)))))
% 3.09/3.31 (assume a1609 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__connected V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1610 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__EngineeringComponent) (tptp.s__instance V__ROW2 tptp.s__EngineeringComponent) (tptp.s__instance V__ROW1 tptp.s__EngineeringConnection)) (=> (tptp.s__connectsEngineeringComponents V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__EngineeringConnection)))))
% 3.09/3.31 (assume a1611 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__CognitiveAgent) (=> (tptp.s__inScopeOfInterest V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__CognitiveAgent)))))
% 3.09/3.31 (assume a1612 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__LengthMeasure) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__height V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__LengthMeasure)))))
% 3.09/3.31 (assume a1613 (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__independentProbability V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Formula)))))
% 3.09/3.31 (assume a1614 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Relation) (tptp.s__instance V__ROW1 tptp.s__Relation)) (=> (tptp.s__disjointRelation V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Relation)))))
% 3.09/3.31 (assume a1615 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Man) (tptp.s__instance V__ROW1 tptp.s__Woman)) (=> (tptp.s__wife V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Man)))))
% 3.09/3.31 (assume a1616 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Set) (tptp.s__instance V__ROW1 tptp.s__Set)) (=> (tptp.s__subset V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Set)))))
% 3.09/3.31 (assume a1617 (forall ((V__ROW1 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__exhaustiveDecomposition_1 V__ROW1) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW1) |"1"|) tptp.s__Class)))))
% 3.09/3.31 (assume a1618 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__exhaustiveDecomposition_2 V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Class)))))
% 3.09/3.31 (assume a1619 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__exhaustiveDecomposition_3 V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__Class)))))
% 3.09/3.31 (assume a1620 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__exhaustiveDecomposition_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4) |"1"|) tptp.s__Class)))))
% 3.09/3.31 (assume a1621 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__exhaustiveDecomposition_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) |"1"|) tptp.s__Class)))))
% 3.09/3.31 (assume a1622 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__exhaustiveDecomposition_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) |"1"|) tptp.s__Class)))))
% 3.09/3.31 (assume a1623 (forall ((V__ROW1 $$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__exhaustiveDecomposition_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7) |"1"|) tptp.s__Class)))))
% 3.09/3.31 (assume a1624 (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__earlier V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__TimeInterval)))))
% 3.09/3.31 (assume a1625 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Agent) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__agent V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Process)))))
% 3.09/3.31 (assume a1626 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__TimePoint) (tptp.s__instance V__ROW2 tptp.s__TimePoint) (tptp.s__instance V__ROW1 tptp.s__TimePoint)) (=> (tptp.s__temporallyBetween V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__TimePoint)))))
% 3.09/3.31 (assume a1627 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__PhysicalSystem) (tptp.s__instance V__ROW1 tptp.s__PhysicalSystem)) (=> (tptp.s__subSystem V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__PhysicalSystem)))))
% 3.09/3.31 (assume a1628 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__GeometricFigure) (tptp.s__instance V__ROW1 tptp.s__TwoDimensionalAngle)) (=> (tptp.s__angleOfFigure V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__TwoDimensionalAngle)))))
% 3.09/3.31 (assume a1629 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__SymbolicString) (tptp.s__instance V__ROW1 tptp.s__Language)) (=> (tptp.s__termFormat V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__Entity)))))
% 3.09/3.31 (assume a1630 (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__brother V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Man)))))
% 3.09/3.31 (assume a1631 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Agent) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__exploits V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Agent)))))
% 3.09/3.31 (assume a1632 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__Formula) (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__CognitiveAgent)) (=> (tptp.s__prefers V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__CognitiveAgent)))))
% 3.09/3.31 (assume a1633 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__SetOrClass) (tptp.s__instance V__ROW2 tptp.s__PositiveInteger) (tptp.s__instance V__ROW1 tptp.s__Relation)) (=> (tptp.s__domain V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__Relation)))))
% 3.09/3.31 (assume a1634 (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__copy V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1635 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__SymbolicString) (tptp.s__instance V__ROW2 tptp.s__HumanLanguage)) (=> (tptp.s__documentation V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__Entity)))))
% 3.09/3.31 (assume a1636 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Organization) (tptp.s__instance V__ROW1 tptp.s__Organization)) (=> (tptp.s__subOrganization V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Organization)))))
% 3.09/3.31 (assume a1637 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__surface V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__SelfConnectedObject)))))
% 3.09/3.31 (assume a1638 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__CognitiveAgent)) (=> (tptp.s__believes V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__CognitiveAgent)))))
% 3.09/3.31 (assume a1639 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (=> (tptp.s__instance V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Entity)))))
% 3.09/3.31 (assume a1640 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Language) (tptp.s__instance V__ROW1 tptp.s__LinguisticExpression)) (=> (tptp.s__expressedInLanguage V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Language)))))
% 3.09/3.31 (assume a1641 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__SymbolicString) (tptp.s__instance V__ROW1 tptp.s__Language)) (=> (tptp.s__termFormat V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"3"|) tptp.s__SymbolicString)))))
% 3.09/3.31 (assume a1642 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (=> (tptp.s__instance V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__SetOrClass)))))
% 3.09/3.31 (assume a1643 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__Language) (tptp.s__instance V__ROW1 tptp.s__LinguisticExpression)) (=> (tptp.s__representsInLanguage V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"3"|) tptp.s__Language)))))
% 3.09/3.31 (assume a1644 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__subProcess V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Process)))))
% 3.09/3.31 (assume a1645 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__Function)) (=> (tptp.s__range V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__SetOrClass)))))
% 3.09/3.31 (assume a1646 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__GeopoliticalArea) (tptp.s__instance V__ROW1 tptp.s__GeopoliticalArea)) (=> (tptp.s__geopoliticalSubdivision V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__GeopoliticalArea)))))
% 3.09/3.31 (assume a1647 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__CognitiveAgent) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__holdsObligation V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__CognitiveAgent)))))
% 3.09/3.31 (assume a1648 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Attribute) (tptp.s__instance V__ROW1 tptp.s__Attribute)) (=> (tptp.s__successorAttributeClosure V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Attribute)))))
% 3.09/3.31 (assume a1649 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__disjoint V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__SetOrClass)))))
% 3.09/3.31 (assume a1650 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Plan) (tptp.s__instance V__ROW1 tptp.s__Plan)) (=> (tptp.s__subPlan V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Plan)))))
% 3.09/3.31 (assume a1651 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW2 tptp.s__List) (=> (tptp.s__inList V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__List)))))
% 3.09/3.31 (assume a1652 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimeInterval) (tptp.s__instance V__ROW1 tptp.s__TimeInterval)) (=> (tptp.s__meetsTemporally V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__TimeInterval)))))
% 3.09/3.31 (assume a1653 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Plan) (tptp.s__instance V__ROW1 tptp.s__Plan)) (=> (tptp.s__subPlan V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Plan)))))
% 3.09/3.31 (assume a1654 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__CognitiveAgent)) (=> (tptp.s__desires V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__CognitiveAgent)))))
% 3.09/3.31 (assume a1655 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW1 tptp.s__Hole)) (=> (tptp.s__hole V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__SelfConnectedObject)))))
% 3.09/3.31 (assume a1656 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__CognitiveAgent) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__confersObligation V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"3"|) tptp.s__CognitiveAgent)))))
% 3.09/3.31 (assume a1657 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__Organization) (tptp.s__instance V__ROW2 tptp.s__Position) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__occupiesPosition V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"3"|) tptp.s__Organization)))))
% 3.09/3.31 (assume a1658 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__independentProbability V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Formula)))))
% 3.09/3.31 (assume a1659 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__List) (tptp.s__instance V__ROW1 tptp.s__List)) (=> (tptp.s__subList V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__List)))))
% 3.09/3.31 (assume a1660 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__CognitiveAgent) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__confersRight V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"3"|) tptp.s__CognitiveAgent)))))
% 3.09/3.31 (assume a1661 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__OneDimensionalFigure) (tptp.s__instance V__ROW1 tptp.s__OneDimensionalFigure)) (=> (tptp.s__parallel V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__OneDimensionalFigure)))))
% 3.09/3.31 (assume a1662 (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__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__CognitiveAgent)))))
% 3.09/3.31 (assume a1663 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__CognitiveAgent) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__confersObligation V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__Entity)))))
% 3.09/3.31 (assume a1664 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Agent) (tptp.s__subclass V__ROW1 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__hasSkill V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Agent)))))
% 3.09/3.31 (assume a1665 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__legalRelation V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Human)))))
% 3.09/3.31 (assume a1666 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__RealNumber) (tptp.s__instance V__ROW1 tptp.s__List)) (=> (tptp.s__average V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__RealNumber)))))
% 3.09/3.31 (assume a1667 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__entails V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Formula)))))
% 3.09/3.31 (assume a1668 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__relatedInternalConcept V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Entity))))
% 3.09/3.31 (assume a1669 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Relation) (tptp.s__instance V__ROW1 tptp.s__Relation)) (=> (tptp.s__disjointRelation V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Relation)))))
% 3.09/3.31 (assume a1670 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__LengthMeasure) (tptp.s__instance V__ROW1 tptp.s__Circle)) (=> (tptp.s__diameter V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Circle)))))
% 3.09/3.31 (assume a1671 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__LengthMeasure) (tptp.s__instance V__ROW1 tptp.s__OneDimensionalFigure)) (=> (tptp.s__lineMeasure V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__LengthMeasure)))))
% 3.09/3.31 (assume a1672 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Proposition) (tptp.s__instance V__ROW1 tptp.s__ContentBearingPhysical)) (=> (tptp.s__containsInformation V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Proposition)))))
% 3.09/3.31 (assume a1673 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__GraphArc) (tptp.s__instance V__ROW2 tptp.s__GraphNode) (tptp.s__instance V__ROW1 tptp.s__GraphNode)) (=> (tptp.s__links V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__GraphNode)))))
% 3.09/3.31 (assume a1674 (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__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Human)))))
% 3.09/3.31 (assume a1675 (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__increasesLikelihood V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Formula)))))
% 3.09/3.31 (assume a1676 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__PositiveInteger) (tptp.s__instance V__ROW1 tptp.s__GraphPath)) (=> (tptp.s__pathLength V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__PositiveInteger)))))
% 3.09/3.31 (assume a1677 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__GeopoliticalArea) (tptp.s__instance V__ROW1 tptp.s__GeopoliticalArea)) (=> (tptp.s__geopoliticalSubdivision V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__GeopoliticalArea)))))
% 3.09/3.31 (assume a1678 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__Agent)) (=> (tptp.s__leader V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Agent)))))
% 3.09/3.31 (assume a1679 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__SymbolicString) (tptp.s__instance V__ROW2 tptp.s__SymbolicString)) (=> (tptp.s__comment V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__Entity)))))
% 3.09/3.31 (assume a1680 (forall ((V__ROW1 $$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__relatedExternalConcept V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__SymbolicString)))))
% 3.09/3.31 (assume a1681 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__BinaryRelation) (tptp.s__instance V__ROW1 tptp.s__BinaryRelation)) (=> (tptp.s__inverse V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__BinaryRelation)))))
% 3.09/3.31 (assume a1682 (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__path V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1683 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__PermanentResidence) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__home V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__PermanentResidence)))))
% 3.09/3.31 (assume a1684 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Proposition) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__realization V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Proposition)))))
% 3.09/3.31 (assume a1685 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Agent) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__agent V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Agent)))))
% 3.09/3.31 (assume a1686 (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__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__GeographicArea)))))
% 3.09/3.31 (assume a1687 (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__resource V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Process)))))
% 3.09/3.31 (assume a1688 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Set) (tptp.s__instance V__ROW1 tptp.s__Set)) (=> (tptp.s__subset V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Set)))))
% 3.09/3.31 (assume a1689 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Attribute) (tptp.s__instance V__ROW1 tptp.s__Attribute)) (=> (tptp.s__subAttribute V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Attribute)))))
% 3.09/3.31 (assume a1690 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__surface V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__SelfConnectedObject)))))
% 3.09/3.31 (assume a1691 (forall ((V__ROW1 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__partition_1 V__ROW1) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW1) |"1"|) tptp.s__Class)))))
% 3.09/3.31 (assume a1692 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__partition_2 V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Class)))))
% 3.09/3.31 (assume a1693 (forall ((V__ROW1 $$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) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__Class)))))
% 3.09/3.31 (assume a1694 (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) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4) |"1"|) tptp.s__Class)))))
% 3.09/3.31 (assume a1695 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__partition_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) |"1"|) tptp.s__Class)))))
% 3.09/3.31 (assume a1696 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__partition_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) |"1"|) tptp.s__Class)))))
% 3.09/3.31 (assume a1697 (forall ((V__ROW1 $$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) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7) |"1"|) tptp.s__Class)))))
% 3.09/3.31 (assume a1698 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Physical) (tptp.s__instance V__ROW1 tptp.s__Abstract)) (=> (tptp.s__abstractCounterpart V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Abstract)))))
% 3.09/3.31 (assume a1699 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__List) (tptp.s__instance V__ROW1 tptp.s__List)) (=> (tptp.s__subList V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__List)))))
% 3.09/3.31 (assume a1700 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Attribute) (tptp.s__instance V__ROW1 tptp.s__Attribute)) (=> (tptp.s__subAttribute V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Attribute)))))
% 3.09/3.31 (assume a1701 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__NormativeAttribute) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__modalAttribute V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Formula)))))
% 3.09/3.31 (assume a1702 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__BinaryFunction) (tptp.s__instance V__ROW1 tptp.s__BinaryFunction)) (=> (tptp.s__distributes V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__BinaryFunction)))))
% 3.09/3.31 (assume a1703 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__BinaryRelation)) (=> (tptp.s__trichotomizingOn V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__SetOrClass)))))
% 3.09/3.31 (assume a1704 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__GeometricFigure) (tptp.s__instance V__ROW1 tptp.s__GeometricFigure)) (=> (tptp.s__geometricPart V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__GeometricFigure)))))
% 3.09/3.31 (assume a1705 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__GraphArc) (tptp.s__instance V__ROW2 tptp.s__GraphNode) (tptp.s__instance V__ROW1 tptp.s__GraphNode)) (=> (tptp.s__links V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__GraphNode)))))
% 3.09/3.31 (assume a1706 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__relatedInternalConcept V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Entity))))
% 3.09/3.31 (assume a1707 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__EngineeringComponent) (tptp.s__instance V__ROW1 tptp.s__EngineeringComponent)) (=> (tptp.s__engineeringSubcomponent V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__EngineeringComponent)))))
% 3.09/3.31 (assume a1708 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__ObjectiveNorm) (tptp.s__instance V__ROW2 tptp.s__Formula)) (=> (tptp.s__deprivesNorm V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__Formula)))))
% 3.09/3.31 (assume a1709 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW2 tptp.s__Attribute) (=> (tptp.s__property V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Attribute)))))
% 3.09/3.31 (assume a1710 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Agent) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__experiencer V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Agent)))))
% 3.09/3.31 (assume a1711 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__ObjectiveNorm) (tptp.s__instance V__ROW2 tptp.s__Formula)) (=> (tptp.s__deprivesNorm V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"3"|) tptp.s__ObjectiveNorm)))))
% 3.09/3.31 (assume a1712 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (tptp.s__instance V__ROW3 tptp.s__Attribute) (=> (tptp.s__greaterThanByQuality V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"3"|) tptp.s__Attribute)))))
% 3.09/3.31 (assume a1713 (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__diameter V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__LengthMeasure)))))
% 3.09/3.31 (assume a1714 (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__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Day)))))
% 3.09/3.31 (assume a1715 (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__overlapsTemporally V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__TimeInterval)))))
% 3.09/3.31 (assume a1716 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__SymbolicString) (tptp.s__instance V__ROW1 tptp.s__Language)) (=> (tptp.s__termFormat V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__Language)))))
% 3.09/3.31 (assume a1717 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Hole) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__properlyFills V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Hole)))))
% 3.09/3.31 (assume a1718 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__PermanentResidence) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__home V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Human)))))
% 3.09/3.31 (assume a1719 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted)) (=> (and (tptp.s__instance V__ROW4 tptp.s__Object) (tptp.s__instance V__ROW3 tptp.s__Object) (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__betweenOnPath V__ROW1 V__ROW2 V__ROW3 V__ROW4) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4) |"2"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1720 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimeInterval) (tptp.s__instance V__ROW1 tptp.s__TimeInterval)) (=> (tptp.s__starts V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__TimeInterval)))))
% 3.09/3.31 (assume a1721 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Organism) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (tptp.s__sibling V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Organism)))))
% 3.09/3.31 (assume a1722 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__GeometricFigure) (tptp.s__instance V__ROW1 tptp.s__GeometricPoint)) (=> (tptp.s__pointOfFigure V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__GeometricPoint)))))
% 3.09/3.31 (assume a1723 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Proposition) (tptp.s__instance V__ROW1 tptp.s__Argument)) (=> (tptp.s__premise V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Argument)))))
% 3.09/3.31 (assume a1724 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__LengthMeasure) (tptp.s__instance V__ROW2 tptp.s__GeometricPoint) (tptp.s__instance V__ROW1 tptp.s__GeometricPoint)) (=> (tptp.s__geometricDistance V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__GeometricPoint)))))
% 3.09/3.31 (assume a1725 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__DirectionalAttribute) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__direction V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Process)))))
% 3.09/3.31 (assume a1726 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (tptp.s__instance V__ROW3 tptp.s__Attribute) (=> (tptp.s__greaterThanByQuality V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__Entity)))))
% 3.09/3.31 (assume a1727 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Proposition) (tptp.s__instance V__ROW1 tptp.s__Proposition)) (=> (tptp.s__subProposition V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Proposition)))))
% 3.09/3.31 (assume a1728 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__DirectionalAttribute) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__faces V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1729 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__decreasesLikelihood V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Formula)))))
% 3.09/3.31 (assume a1730 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__BinaryRelation)) (=> (tptp.s__totalOrderingOn V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__SetOrClass)))))
% 3.09/3.31 (assume a1731 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (= V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Entity))))
% 3.09/3.31 (assume a1732 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Animal)) (=> (tptp.s__grasps V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Animal)))))
% 3.09/3.31 (assume a1733 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Physical) (tptp.s__instance V__ROW1 tptp.s__Abstract)) (=> (tptp.s__abstractCounterpart V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Physical)))))
% 3.09/3.31 (assume a1734 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TemporaryResidence) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__stays V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__TemporaryResidence)))))
% 3.09/3.31 (assume a1735 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__RealNumber) (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__conditionalProbability V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__Formula)))))
% 3.09/3.31 (assume a1736 (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__instrument V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Process)))))
% 3.09/3.31 (assume a1737 (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__mutualAcquaintance V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Human)))))
% 3.09/3.31 (assume a1738 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Attribute) (tptp.s__instance V__ROW1 tptp.s__Attribute)) (=> (tptp.s__successorAttribute V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Attribute)))))
% 3.09/3.31 (assume a1739 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__Object) (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__between V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1740 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__BinaryRelation)) (=> (tptp.s__reflexiveOn V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__SetOrClass)))))
% 3.09/3.31 (assume a1741 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__side V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__SelfConnectedObject)))))
% 3.09/3.31 (assume a1742 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Substance) (tptp.s__instance V__ROW1 tptp.s__Substance)) (=> (tptp.s__piece V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Substance)))))
% 3.09/3.31 (assume a1743 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__SymbolicString) (=> (tptp.s__names V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__SymbolicString)))))
% 3.09/3.31 (assume a1744 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__traverses V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1745 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__LengthMeasure) (tptp.s__instance V__ROW2 tptp.s__GeometricPoint) (tptp.s__instance V__ROW1 tptp.s__GeometricPoint)) (=> (tptp.s__geometricDistance V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"3"|) tptp.s__LengthMeasure)))))
% 3.09/3.31 (assume a1746 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__SymbolicString) (tptp.s__instance V__ROW2 tptp.s__HumanLanguage)) (=> (tptp.s__documentation V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__HumanLanguage)))))
% 3.09/3.31 (assume a1747 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__WearableItem) (tptp.s__instance V__ROW1 tptp.s__Animal)) (=> (tptp.s__wears V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Animal)))))
% 3.09/3.31 (assume a1748 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (tptp.s__instance V__ROW3 tptp.s__Agent) (=> (tptp.s__representsForAgent V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"3"|) tptp.s__Agent)))))
% 3.09/3.31 (assume a1749 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__PositionalAttribute) (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__orientation V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1750 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimeDuration) (tptp.s__subclass V__ROW1 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__frequency V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__TimeDuration)))))
% 3.09/3.31 (assume a1751 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__SymbolicString) (tptp.s__instance V__ROW1 tptp.s__Language)) (=> (tptp.s__format V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__Language)))))
% 3.09/3.31 (assume a1752 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Proposition) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__realization V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Process)))))
% 3.09/3.31 (assume a1753 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__LengthMeasure) (tptp.s__instance V__ROW2 tptp.s__GeometricPoint) (tptp.s__instance V__ROW1 tptp.s__GeometricPoint)) (=> (tptp.s__geometricDistance V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__GeometricPoint)))))
% 3.09/3.31 (assume a1754 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__TimePoint) (tptp.s__instance V__ROW2 tptp.s__TimePoint) (tptp.s__instance V__ROW1 tptp.s__TimePoint)) (=> (tptp.s__temporallyBetweenOrEqual V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__TimePoint)))))
% 3.09/3.31 (assume a1755 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__Agent)) (=> (tptp.s__leader V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Human)))))
% 3.09/3.31 (assume a1756 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__Language) (tptp.s__instance V__ROW1 tptp.s__LinguisticExpression)) (=> (tptp.s__representsInLanguage V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__Entity)))))
% 3.09/3.31 (assume a1757 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__CurrencyMeasure) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__monetaryValue V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Physical)))))
% 3.09/3.31 (assume a1758 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__contains V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__SelfConnectedObject)))))
% 3.09/3.31 (assume a1759 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__PlaneAngleMeasure) (tptp.s__instance V__ROW1 tptp.s__TwoDimensionalAngle)) (=> (tptp.s__angularMeasure V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__TwoDimensionalAngle)))))
% 3.09/3.31 (assume a1760 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__CurrencyMeasure) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__monetaryValue V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__CurrencyMeasure)))))
% 3.09/3.31 (assume a1761 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__decreasesLikelihood V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Formula)))))
% 3.09/3.31 (assume a1762 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__contains V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1763 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__PositiveInteger) (tptp.s__instance V__ROW1 tptp.s__Relation)) (=> (tptp.s__valence V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Relation)))))
% 3.09/3.31 (assume a1764 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Motion)) (=> (tptp.s__path V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Motion)))))
% 3.09/3.31 (assume a1765 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__SetOrClass) (tptp.s__instance V__ROW2 tptp.s__PositiveInteger) (tptp.s__instance V__ROW1 tptp.s__Relation)) (=> (tptp.s__domainSubclass V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__Relation)))))
% 3.09/3.31 (assume a1766 (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__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Hole)))))
% 3.09/3.31 (assume a1767 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__GeometricFigure) (tptp.s__instance V__ROW1 tptp.s__GeometricPoint)) (=> (tptp.s__pointOfFigure V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__GeometricFigure)))))
% 3.09/3.31 (assume a1768 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__partlyLocated V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1769 (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) |"1"|) tptp.s__SetOrClass)))))
% 3.09/3.31 (assume a1770 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Collection) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__member V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__SelfConnectedObject)))))
% 3.09/3.31 (assume a1771 (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__Agent)) (=> (tptp.s__authors V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Agent)))))
% 3.09/3.31 (assume a1772 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__Organization) (tptp.s__instance V__ROW2 tptp.s__Position) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__occupiesPosition V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__Human)))))
% 3.09/3.31 (assume a1773 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__PhysicalSystem) (tptp.s__instance V__ROW1 tptp.s__PhysicalSystem)) (=> (tptp.s__subSystem V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__PhysicalSystem)))))
% 3.09/3.31 (assume a1774 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Translocation)) (=> (tptp.s__changesLocation V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1775 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__Woman)) (=> (tptp.s__sister V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Woman)))))
% 3.09/3.31 (assume a1776 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__BinaryRelation)) (=> (tptp.s__partialOrderingOn V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__BinaryRelation)))))
% 3.09/3.31 (assume a1777 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (tptp.s__instance V__ROW3 tptp.s__Agent) (=> (tptp.s__representsForAgent V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__Entity)))))
% 3.09/3.31 (assume a1778 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Process) (=> (tptp.s__involvedInEvent V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Entity)))))
% 3.09/3.31 (assume a1779 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW2 tptp.s__Set) (=> (tptp.s__element V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Entity)))))
% 3.09/3.31 (assume a1780 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__GeometricPoint) (tptp.s__instance V__ROW2 tptp.s__OneDimensionalFigure) (tptp.s__instance V__ROW1 tptp.s__OneDimensionalFigure)) (=> (tptp.s__pointOfIntersection V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"3"|) tptp.s__GeometricPoint)))))
% 3.09/3.31 (assume a1781 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__origin V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1782 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__CognitiveAgent) (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__hasPurposeForAgent V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__Physical)))))
% 3.09/3.31 (assume a1783 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__PositiveInteger) (tptp.s__instance V__ROW1 tptp.s__GraphPath)) (=> (tptp.s__pathLength V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__GraphPath)))))
% 3.09/3.31 (assume a1784 (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__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1785 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__OneDimensionalFigure) (tptp.s__instance V__ROW1 tptp.s__OneDimensionalFigure)) (=> (tptp.s__parallel V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__OneDimensionalFigure)))))
% 3.09/3.31 (assume a1786 (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__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__DevelopmentalAttribute)))))
% 3.09/3.31 (assume a1787 (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__copy V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1788 (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__disjoint V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__SetOrClass)))))
% 3.09/3.31 (assume a1789 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Quantity) (tptp.s__instance V__ROW1 tptp.s__Quantity)) (=> (tptp.less V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Quantity)))))
% 3.09/3.31 (assume a1790 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__RealNumber) (tptp.s__instance V__ROW1 tptp.s__List)) (=> (tptp.s__average V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__List)))))
% 3.09/3.31 (assume a1791 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW2 tptp.s__SymbolicString) (=> (tptp.s__externalImage V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Entity)))))
% 3.09/3.31 (assume a1792 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__hasPurpose V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Formula)))))
% 3.09/3.31 (assume a1793 (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__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__TimeDuration)))))
% 3.09/3.31 (assume a1794 (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__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1795 (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__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__MassMeasure)))))
% 3.09/3.31 (assume a1796 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__bottom V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__SelfConnectedObject)))))
% 3.09/3.31 (assume a1797 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW2 tptp.s__Set) (=> (tptp.s__element V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Set)))))
% 3.09/3.31 (assume a1798 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW2 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__connects V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__SelfConnectedObject)))))
% 3.09/3.31 (assume a1799 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Nation) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__citizen V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Human)))))
% 3.09/3.31 (assume a1800 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Animal)) (=> (tptp.s__grasps V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1801 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__BinaryRelation)) (=> (tptp.s__irreflexiveOn V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__SetOrClass)))))
% 3.09/3.31 (assume a1802 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__mutualAcquaintance V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Human)))))
% 3.09/3.31 (assume a1803 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Process) (=> (tptp.s__result V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Entity)))))
% 3.09/3.31 (assume a1804 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Quantity) (tptp.s__instance V__ROW1 tptp.s__GraphArc)) (=> (tptp.s__arcWeight V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__GraphArc)))))
% 3.09/3.31 (assume a1805 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__Object) (tptp.s__instance V__ROW2 tptp.s__CaseRole) (tptp.s__subclass V__ROW1 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__capability V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__CaseRole)))))
% 3.09/3.31 (assume a1806 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Relation) (tptp.s__instance V__ROW1 tptp.s__Relation)) (=> (tptp.s__subrelation V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Relation)))))
% 3.09/3.31 (assume a1807 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW2 tptp.s__Attribute) (=> (tptp.s__property V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Entity)))))
% 3.09/3.31 (assume a1808 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Attribute) (tptp.s__instance V__ROW1 tptp.s__Attribute)) (=> (tptp.s__successorAttributeClosure V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Attribute)))))
% 3.09/3.31 (assume a1809 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__EngineeringComponent) (tptp.s__instance V__ROW2 tptp.s__EngineeringComponent) (tptp.s__instance V__ROW1 tptp.s__EngineeringConnection)) (=> (tptp.s__connectsEngineeringComponents V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"3"|) tptp.s__EngineeringComponent)))))
% 3.09/3.31 (assume a1810 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Agent)) (=> (tptp.s__possesses V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Agent)))))
% 3.09/3.31 (assume a1811 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimeInterval) (tptp.s__instance V__ROW1 tptp.s__TimeInterval)) (=> (tptp.s__overlapsTemporally V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__TimeInterval)))))
% 3.09/3.31 (assume a1812 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Agent) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__uses V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1813 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__TimePoint) (tptp.s__instance V__ROW2 tptp.s__TimePoint) (tptp.s__instance V__ROW1 tptp.s__TimePoint)) (=> (tptp.s__temporallyBetween V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"3"|) tptp.s__TimePoint)))))
% 3.09/3.31 (assume a1814 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TruthValue) (tptp.s__instance V__ROW1 tptp.s__Sentence)) (=> (tptp.s__truth V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Sentence)))))
% 3.09/3.31 (assume a1815 (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__traverses V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1816 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Proposition) (tptp.s__instance V__ROW1 tptp.s__ContentBearingPhysical)) (=> (tptp.s__containsInformation V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__ContentBearingPhysical)))))
% 3.09/3.31 (assume a1817 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__CognitiveAgent) (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__hasPurposeForAgent V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"3"|) tptp.s__CognitiveAgent)))))
% 3.09/3.31 (assume a1818 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Attribute) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__manner V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Process)))))
% 3.09/3.31 (assume a1819 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimeInterval) (tptp.s__instance V__ROW1 tptp.s__TimeInterval)) (=> (tptp.s__during V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__TimeInterval)))))
% 3.09/3.31 (assume a1820 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__ObjectiveNorm) (tptp.s__instance V__ROW2 tptp.s__Formula)) (=> (tptp.s__confersNorm V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__Entity)))))
% 3.09/3.31 (assume a1821 (forall ((V__ROW1 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__disjointDecomposition_1 V__ROW1) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW1) |"1"|) tptp.s__Class)))))
% 3.09/3.31 (assume a1822 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__disjointDecomposition_2 V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Class)))))
% 3.09/3.31 (assume a1823 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__disjointDecomposition_3 V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__Class)))))
% 3.09/3.31 (assume a1824 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__disjointDecomposition_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4) |"1"|) tptp.s__Class)))))
% 3.09/3.31 (assume a1825 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__disjointDecomposition_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) |"1"|) tptp.s__Class)))))
% 3.09/3.31 (assume a1826 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Class) (=> (tptp.s__disjointDecomposition_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) |"1"|) tptp.s__Class)))))
% 3.09/3.31 (assume a1827 (forall ((V__ROW1 $$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__disjointDecomposition_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7) |"1"|) tptp.s__Class)))))
% 3.09/3.31 (assume a1828 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Integer) (tptp.s__instance V__ROW1 tptp.s__Integer)) (=> (tptp.s__multiplicativeFactor V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Integer)))))
% 3.09/3.31 (assume a1829 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Attribute) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__attribute V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1830 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimePoint) (tptp.s__instance V__ROW1 tptp.s__TimePoint)) (=> (tptp.s__before V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__TimePoint)))))
% 3.09/3.31 (assume a1831 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Quantity) (tptp.s__instance V__ROW1 tptp.s__Quantity)) (=> (tptp.greatereq V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Quantity)))))
% 3.09/3.31 (assume a1832 (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__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__CurrencyMeasure)))))
% 3.09/3.31 (assume a1833 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (= V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Entity))))
% 3.09/3.31 (assume a1834 (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__considers V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__CognitiveAgent)))))
% 3.09/3.31 (assume a1835 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__SymbolicString) (tptp.s__instance V__ROW1 tptp.s__Language)) (=> (tptp.s__format V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__Entity)))))
% 3.09/3.31 (assume a1836 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Organism) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (tptp.s__mother V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Organism)))))
% 3.09/3.31 (assume a1837 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__ObjectiveNorm) (tptp.s__instance V__ROW2 tptp.s__Formula)) (=> (tptp.s__deprivesNorm V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__Entity)))))
% 3.09/3.31 (assume a1838 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__PositiveInteger) (tptp.s__instance V__ROW1 tptp.s__Relation)) (=> (tptp.s__valence V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__PositiveInteger)))))
% 3.09/3.31 (assume a1839 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__top V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__SelfConnectedObject)))))
% 3.09/3.31 (assume a1840 (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__relative V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Organism)))))
% 3.09/3.31 (assume a1841 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimeDuration) (tptp.s__instance V__ROW1 tptp.s__TimeInterval)) (=> (tptp.s__duration V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__TimeInterval)))))
% 3.09/3.31 (assume a1842 (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__daughter V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Organism)))))
% 3.09/3.31 (assume a1843 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted)) (=> (and (tptp.s__instance V__ROW4 tptp.s__Object) (tptp.s__instance V__ROW3 tptp.s__Object) (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__betweenOnPath V__ROW1 V__ROW2 V__ROW3 V__ROW4) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4) |"3"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1844 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__RealNumber) (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__conditionalProbability V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__Formula)))))
% 3.09/3.31 (assume a1845 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Language) (tptp.s__instance V__ROW1 tptp.s__LinguisticExpression)) (=> (tptp.s__expressedInLanguage V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__LinguisticExpression)))))
% 3.09/3.31 (assume a1846 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Relation) (tptp.s__instance V__ROW1 tptp.s__Relation)) (=> (tptp.s__subrelation V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Relation)))))
% 3.09/3.31 (assume a1847 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Organism) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (tptp.s__parent V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Organism)))))
% 3.09/3.31 (assume a1848 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__PositiveInteger) (tptp.s__subclass V__ROW1 tptp.s__ElementalSubstance) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__atomicNumber V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__PositiveInteger)))))
% 3.09/3.31 (assume a1849 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Agent)) (=> (tptp.s__possesses V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1850 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__Demonstrating)) (=> (tptp.s__attends V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Demonstrating)))))
% 3.09/3.31 (assume a1851 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__LengthMeasure) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__linearExtent V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__LengthMeasure)))))
% 3.09/3.31 (assume a1852 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__Object) (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__between V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"3"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1853 (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__acquaintance V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Human)))))
% 3.09/3.31 (assume a1854 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW2 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__connects V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__SelfConnectedObject)))))
% 3.09/3.31 (assume a1855 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__GraphArc) (tptp.s__instance V__ROW2 tptp.s__GraphNode) (tptp.s__instance V__ROW1 tptp.s__GraphNode)) (=> (tptp.s__links V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"3"|) tptp.s__GraphArc)))))
% 3.09/3.31 (assume a1856 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__CognitiveAgent) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__holdsRight V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__CognitiveAgent)))))
% 3.09/3.31 (assume a1857 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__UnitOfAtmosphericPressure) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__barometricPressure V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1858 (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__daughter V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Organism)))))
% 3.09/3.31 (assume a1859 (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__boilingPoint V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__TemperatureMeasure)))))
% 3.09/3.31 (assume a1860 (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__earlier V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__TimeInterval)))))
% 3.09/3.31 (assume a1861 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Proposition) (tptp.s__instance V__ROW1 tptp.s__Proposition)) (=> (tptp.s__consistent V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Proposition)))))
% 3.09/3.31 (assume a1862 (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__mother V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Organism)))))
% 3.09/3.31 (assume a1863 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__SetOrClass) (tptp.s__instance V__ROW2 tptp.s__PositiveInteger) (tptp.s__instance V__ROW1 tptp.s__Relation)) (=> (tptp.s__domainSubclass V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"3"|) tptp.s__SetOrClass)))))
% 3.09/3.31 (assume a1864 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Attribute) (tptp.s__instance V__ROW1 tptp.s__Attribute)) (=> (tptp.s__successorAttribute V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Attribute)))))
% 3.09/3.31 (assume a1865 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__relatedEvent V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Process)))))
% 3.09/3.31 (assume a1866 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__CognitiveAgent)) (=> (tptp.s__believes V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Formula)))))
% 3.09/3.31 (assume a1867 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__Object) (tptp.s__instance V__ROW2 tptp.s__CaseRole) (tptp.s__subclass V__ROW1 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__capability V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"3"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1868 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__PositionalAttribute) (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__orientation V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"3"|) tptp.s__PositionalAttribute)))))
% 3.09/3.31 (assume a1869 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__causes V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Process)))))
% 3.09/3.31 (assume a1870 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Process) (=> (tptp.s__destination V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Process)))))
% 3.09/3.31 (assume a1871 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Collection) (tptp.s__instance V__ROW1 tptp.s__Collection)) (=> (tptp.s__subCollection V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Collection)))))
% 3.09/3.31 (assume a1872 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__LengthMeasure) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__height V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__SelfConnectedObject)))))
% 3.09/3.31 (assume a1873 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimePoint) (tptp.s__instance V__ROW1 tptp.s__TimePoint)) (=> (tptp.s__before V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__TimePoint)))))
% 3.09/3.31 (assume a1874 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__EngineeringComponent) (tptp.s__instance V__ROW1 tptp.s__EngineeringComponent)) (=> (tptp.s__connectedEngineeringComponents V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__EngineeringComponent)))))
% 3.09/3.31 (assume a1875 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__subProcess V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Process)))))
% 3.09/3.31 (assume a1876 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__TimePoint) (tptp.s__instance V__ROW2 tptp.s__TimePoint) (tptp.s__instance V__ROW1 tptp.s__TimePoint)) (=> (tptp.s__temporallyBetween V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__TimePoint)))))
% 3.09/3.31 (assume a1877 (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__ancestor V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Organism)))))
% 3.09/3.31 (assume a1878 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Translocation)) (=> (tptp.s__changesLocation V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Translocation)))))
% 3.09/3.31 (assume a1879 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__BinaryRelation)) (=> (tptp.s__partialOrderingOn V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__SetOrClass)))))
% 3.09/3.31 (assume a1880 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__Language) (tptp.s__instance V__ROW1 tptp.s__LinguisticExpression)) (=> (tptp.s__representsInLanguage V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__LinguisticExpression)))))
% 3.09/3.31 (assume a1881 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Quantity) (tptp.s__instance V__ROW1 tptp.s__Quantity)) (=> (tptp.lesseq V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Quantity)))))
% 3.09/3.31 (assume a1882 (forall ((V__ROW1 $$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__relatedExternalConcept V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"3"|) tptp.s__Language)))))
% 3.09/3.31 (assume a1883 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__GeometricPoint) (tptp.s__instance V__ROW2 tptp.s__OneDimensionalFigure) (tptp.s__instance V__ROW1 tptp.s__OneDimensionalFigure)) (=> (tptp.s__pointOfIntersection V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__OneDimensionalFigure)))))
% 3.09/3.31 (assume a1884 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__origin V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Process)))))
% 3.09/3.31 (assume a1885 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Proposition) (tptp.s__instance V__ROW1 tptp.s__Argument)) (=> (tptp.s__conclusion V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Proposition)))))
% 3.09/3.31 (assume a1886 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__DirectionalAttribute) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__direction V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__DirectionalAttribute)))))
% 3.09/3.31 (assume a1887 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Organism) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (tptp.s__familyRelation V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Organism)))))
% 3.09/3.31 (assume a1888 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__increasesLikelihood V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Formula)))))
% 3.09/3.31 (assume a1889 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__larger V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1890 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW2 tptp.s__List) (=> (tptp.s__inList V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Entity)))))
% 3.09/3.31 (assume a1891 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__CognitiveAgent) (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__hasPurposeForAgent V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__Formula)))))
% 3.09/3.31 (assume a1892 (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__relative V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Organism)))))
% 3.09/3.31 (assume a1893 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW1 tptp.s__Hole)) (=> (tptp.s__hole V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Hole)))))
% 3.09/3.31 (assume a1894 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__LengthMeasure) (tptp.s__instance V__ROW1 tptp.s__OneDimensionalFigure)) (=> (tptp.s__lineMeasure V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__OneDimensionalFigure)))))
% 3.09/3.31 (assume a1895 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__BinaryRelation)) (=> (tptp.s__equivalenceRelationOn V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__SetOrClass)))))
% 3.09/3.31 (assume a1896 (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__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Formula)))))
% 3.09/3.31 (assume a1897 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__ObjectiveNorm) (tptp.s__instance V__ROW2 tptp.s__Formula)) (=> (tptp.s__confersNorm V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__Formula)))))
% 3.09/3.31 (assume a1898 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__TimePosition)) (=> (tptp.s__holdsDuring V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Formula)))))
% 3.09/3.31 (assume a1899 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__NormativeAttribute) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__modalAttribute V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__NormativeAttribute)))))
% 3.09/3.31 (assume a1900 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__ROW1 tptp.s__ContentBearingPhysical)) (=> (tptp.s__subsumesContentInstance V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__ContentBearingPhysical)))))
% 3.09/3.31 (assume a1901 (forall ((V__ROW1 $$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__distance V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__Physical)))))
% 3.09/3.31 (assume a1902 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__LengthMeasure) (tptp.s__instance V__ROW2 tptp.s__Physical) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__distance V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__Physical)))))
% 3.09/3.31 (assume a1903 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Graph) (tptp.s__instance V__ROW1 tptp.s__GraphElement)) (=> (tptp.s__graphPart V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Graph)))))
% 3.09/3.31 (assume a1904 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__legalRelation V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Human)))))
% 3.09/3.31 (assume a1905 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__EngineeringComponent) (tptp.s__instance V__ROW1 tptp.s__EngineeringComponent)) (=> (tptp.s__engineeringSubcomponent V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__EngineeringComponent)))))
% 3.09/3.31 (assume a1906 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__refers V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Entity))))
% 3.09/3.31 (assume a1907 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Quantity) (tptp.s__instance V__ROW1 tptp.s__Quantity)) (=> (tptp.lesseq V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Quantity)))))
% 3.09/3.31 (assume a1908 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__Woman)) (=> (tptp.s__sister V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Human)))))
% 3.09/3.31 (assume a1909 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimePosition) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__time V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__TimePosition)))))
% 3.09/3.31 (assume a1910 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (tptp.s__inhabits V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1911 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__CognitiveAgent) (tptp.s__instance V__ROW1 tptp.s__Organization)) (=> (tptp.s__employs V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Organization)))))
% 3.09/3.31 (assume a1912 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__BinaryRelation)) (=> (tptp.s__equivalenceRelationOn V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__BinaryRelation)))))
% 3.09/3.31 (assume a1913 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__smaller V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1914 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__CognitiveAgent) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__confersObligation V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__Formula)))))
% 3.09/3.31 (assume a1915 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__Organization) (tptp.s__instance V__ROW2 tptp.s__Position) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__occupiesPosition V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__Position)))))
% 3.09/3.31 (assume a1916 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW2 tptp.s__SymbolicString) (=> (tptp.s__externalImage V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__SymbolicString)))))
% 3.09/3.31 (assume a1917 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__subclass V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__Function)) (=> (tptp.s__rangeSubclass V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Function)))))
% 3.09/3.31 (assume a1918 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Organism) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (tptp.s__parent V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Organism)))))
% 3.09/3.31 (assume a1919 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__Function)) (=> (tptp.s__range V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Function)))))
% 3.09/3.31 (assume a1920 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__instrument V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1921 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__GeometricFigure) (tptp.s__instance V__ROW1 tptp.s__GeometricFigure)) (=> (tptp.s__geometricPart V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__GeometricFigure)))))
% 3.09/3.31 (assume a1922 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__BinaryRelation)) (=> (tptp.s__irreflexiveOn V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__BinaryRelation)))))
% 3.09/3.31 (assume a1923 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Organism) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (tptp.s__father V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Organism)))))
% 3.09/3.31 (assume a1924 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__hasPurpose V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Physical)))))
% 3.09/3.31 (assume a1925 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Collection) (tptp.s__instance V__ROW1 tptp.s__Collection)) (=> (tptp.s__subCollection V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Collection)))))
% 3.09/3.31 (assume a1926 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Proposition) (tptp.s__instance V__ROW1 tptp.s__Proposition)) (=> (tptp.s__subProposition V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Proposition)))))
% 3.09/3.31 (assume a1927 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__GeometricFigure) (tptp.s__instance V__ROW1 tptp.s__TwoDimensionalAngle)) (=> (tptp.s__angleOfFigure V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__GeometricFigure)))))
% 3.09/3.31 (assume a1928 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__relatedEvent V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Process)))))
% 3.09/3.31 (assume a1929 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Physical) (tptp.s__instance V__ROW1 tptp.s__CognitiveAgent)) (=> (tptp.s__wants V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__CognitiveAgent)))))
% 3.09/3.31 (assume a1930 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Proposition) (tptp.s__instance V__ROW1 tptp.s__Argument)) (=> (tptp.s__conclusion V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Argument)))))
% 3.09/3.31 (assume a1931 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Agent) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__exploits V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1932 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__DirectionalAttribute) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__faces V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__DirectionalAttribute)))))
% 3.09/3.31 (assume a1933 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Quantity) (tptp.s__instance V__ROW1 tptp.s__GraphArc)) (=> (tptp.s__arcWeight V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Quantity)))))
% 3.09/3.31 (assume a1934 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Process) (=> (tptp.s__involvedInEvent V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Process)))))
% 3.09/3.31 (assume a1935 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__Object) (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__between V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1936 (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__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Human)))))
% 3.09/3.31 (assume a1937 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__SymbolicString) (tptp.s__instance V__ROW2 tptp.s__SymbolicString)) (=> (tptp.s__comment V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"3"|) tptp.s__SymbolicString)))))
% 3.09/3.31 (assume a1938 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__larger V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1939 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimeDuration) (tptp.s__instance V__ROW1 tptp.s__TimeInterval)) (=> (tptp.s__duration V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__TimeDuration)))))
% 3.09/3.31 (assume a1940 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimePosition) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__time V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Physical)))))
% 3.09/3.31 (assume a1941 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__CognitiveAgent)) (=> (tptp.s__knows V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__CognitiveAgent)))))
% 3.09/3.31 (assume a1942 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__BinaryFunction) (=> (tptp.s__identityElement V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__BinaryFunction)))))
% 3.09/3.31 (assume a1943 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__BinaryFunction) (=> (tptp.s__identityElement V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Entity)))))
% 3.09/3.31 (assume a1944 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimeInterval) (tptp.s__instance V__ROW1 tptp.s__TimeInterval)) (=> (tptp.s__starts V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__TimeInterval)))))
% 3.09/3.31 (assume a1945 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__Man)) (=> (tptp.s__brother V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Human)))))
% 3.09/3.31 (assume a1946 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__BinaryRelation)) (=> (tptp.s__totalOrderingOn V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__BinaryRelation)))))
% 3.09/3.31 (assume a1947 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__entails V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Formula)))))
% 3.09/3.31 (assume a1948 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__WearableItem) (tptp.s__instance V__ROW1 tptp.s__Animal)) (=> (tptp.s__wears V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__WearableItem)))))
% 3.09/3.31 (assume a1949 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Process) (=> (tptp.s__result V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Process)))))
% 3.09/3.31 (assume a1950 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimePoint) (tptp.s__instance V__ROW1 tptp.s__TimePoint)) (=> (tptp.s__beforeOrEqual V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__TimePoint)))))
% 3.09/3.31 (assume a1951 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__CognitiveAgent) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__holdsObligation V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Formula)))))
% 3.09/3.31 (assume a1952 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__BinaryFunction) (tptp.s__instance V__ROW1 tptp.s__BinaryFunction)) (=> (tptp.s__distributes V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__BinaryFunction)))))
% 3.09/3.31 (assume a1953 (forall ((V__ROW1 $$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__distance V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"3"|) tptp.s__LengthMeasure)))))
% 3.09/3.31 (assume a1954 (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__wants V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Physical)))))
% 3.09/3.31 (assume a1955 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__CorpuscularObject) (tptp.s__subclass V__ROW1 tptp.s__Substance) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__material V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__CorpuscularObject)))))
% 3.09/3.31 (assume a1956 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Agent) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__uses V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Agent)))))
% 3.09/3.31 (assume a1957 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (tptp.s__instance V__ROW3 tptp.s__Attribute) (=> (tptp.s__greaterThanByQuality V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__Entity)))))
% 3.09/3.31 (assume a1958 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__PlaneAngleMeasure) (tptp.s__instance V__ROW1 tptp.s__TwoDimensionalAngle)) (=> (tptp.s__angularMeasure V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__PlaneAngleMeasure)))))
% 3.09/3.31 (assume a1959 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__top V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__SelfConnectedObject)))))
% 3.09/3.31 (assume a1960 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Quantity) (tptp.s__instance V__ROW1 tptp.s__Quantity)) (=> (tptp.greatereq V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Quantity)))))
% 3.09/3.31 (assume a1961 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__EngineeringComponent) (tptp.s__instance V__ROW2 tptp.s__EngineeringComponent) (tptp.s__instance V__ROW1 tptp.s__EngineeringConnection)) (=> (tptp.s__connectsEngineeringComponents V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__EngineeringComponent)))))
% 3.09/3.31 (assume a1962 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Graph) (tptp.s__instance V__ROW1 tptp.s__Graph)) (=> (tptp.s__subGraph V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Graph)))))
% 3.09/3.31 (assume a1963 (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__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Formula)))))
% 3.09/3.31 (assume a1964 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Proposition) (tptp.s__instance V__ROW1 tptp.s__Proposition)) (=> (tptp.s__consistent V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Proposition)))))
% 3.09/3.31 (assume a1965 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimePoint) (tptp.s__instance V__ROW1 tptp.s__TimePoint)) (=> (tptp.s__beforeOrEqual V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__TimePoint)))))
% 3.09/3.31 (assume a1966 (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__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Organization)))))
% 3.09/3.31 (assume a1967 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TruthValue) (tptp.s__instance V__ROW1 tptp.s__Sentence)) (=> (tptp.s__truth V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__TruthValue)))))
% 3.09/3.31 (assume a1968 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted)) (=> (and (tptp.s__instance V__ROW4 tptp.s__Object) (tptp.s__instance V__ROW3 tptp.s__Object) (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__betweenOnPath V__ROW1 V__ROW2 V__ROW3 V__ROW4) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4) |"1"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1969 (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__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Motion)))))
% 3.09/3.31 (assume a1970 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__EngineeringComponent) (tptp.s__instance V__ROW1 tptp.s__EngineeringComponent)) (=> (tptp.s__connectedEngineeringComponents V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__EngineeringComponent)))))
% 3.09/3.31 (assume a1971 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__SetOrClass) (tptp.s__instance V__ROW2 tptp.s__PositiveInteger) (tptp.s__instance V__ROW1 tptp.s__Relation)) (=> (tptp.s__domain V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"3"|) tptp.s__SetOrClass)))))
% 3.09/3.31 (assume a1972 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__ROW1 tptp.s__ContentBearingPhysical)) (=> (tptp.s__subsumesContentInstance V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__ContentBearingPhysical)))))
% 3.09/3.31 (assume a1973 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__side V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__SelfConnectedObject)))))
% 3.09/3.31 (assume a1974 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Hole) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__partiallyFills V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Hole)))))
% 3.09/3.31 (assume a1975 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Organism) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (tptp.s__familyRelation V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Organism)))))
% 3.09/3.31 (assume a1976 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__CognitiveAgent) (=> (tptp.s__inScopeOfInterest V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Entity)))))
% 3.09/3.31 (assume a1977 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Integer) (tptp.s__instance V__ROW1 tptp.s__Integer)) (=> (tptp.s__multiplicativeFactor V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Integer)))))
% 3.09/3.31 (assume a1978 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Agent) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__experiencer V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Process)))))
% 3.09/3.31 (assume a1979 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Process) (=> (tptp.s__destination V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Entity)))))
% 3.09/3.31 (assume a1980 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Woman) (tptp.s__instance V__ROW1 tptp.s__Man)) (=> (tptp.s__husband V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Woman)))))
% 3.09/3.31 (assume a1981 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__Demonstrating)) (=> (tptp.s__attends V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Human)))))
% 3.09/3.31 (assume a1982 (forall ((V__ROW1 $$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__relatedExternalConcept V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__Entity)))))
% 3.09/3.31 (assume a1983 (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__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1984 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__CorpuscularObject) (tptp.s__instance V__ROW1 tptp.s__CorpuscularObject)) (=> (tptp.s__component V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__CorpuscularObject)))))
% 3.09/3.31 (assume a1985 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__SetOrClass) (tptp.s__instance V__ROW2 tptp.s__PositiveInteger) (tptp.s__instance V__ROW1 tptp.s__Relation)) (=> (tptp.s__domainSubclass V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__PositiveInteger)))))
% 3.09/3.31 (assume a1986 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Organism) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (tptp.s__sibling V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Organism)))))
% 3.09/3.31 (assume a1987 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Organization) (tptp.s__instance V__ROW1 tptp.s__Organization)) (=> (tptp.s__subOrganization V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Organization)))))
% 3.09/3.31 (assume a1988 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Day) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__date V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Physical)))))
% 3.09/3.31 (assume a1989 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__BinaryRelation)) (=> (tptp.s__reflexiveOn V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__BinaryRelation)))))
% 3.09/3.31 (assume a1990 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Organism) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (tptp.s__father V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Organism)))))
% 3.09/3.31 (assume a1991 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__connected V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Object)))))
% 3.09/3.31 (assume a1992 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__causes V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Process)))))
% 3.09/3.31 (assume a1993 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__subclass V__ROW2 tptp.s__Text) (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__Agent)) (=> (tptp.s__editor V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Agent)))))
% 3.09/3.31 (assume a1994 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__CognitiveAgent)) (=> (tptp.s__knows V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Formula)))))
% 3.09/3.31 (assume a1995 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__bottom V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__SelfConnectedObject)))))
% 3.09/3.31 (assume a1996 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__CognitiveAgent)) (=> (tptp.s__considers V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Formula)))))
% 3.09/3.31 (assume a1997 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Physical) (tptp.s__instance V__ROW1 tptp.s__CognitiveAgent)) (=> (tptp.s__needs V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Physical)))))
% 3.09/3.31 (assume a1998 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__PhysicalSystem) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__systemPart V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Physical)))))
% 3.09/3.31 (assume a1999 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__RealNumber) (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__conditionalProbability V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"3"|) tptp.s__RealNumber)))))
% 3.09/3.31 (assume a2000 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Graph) (tptp.s__instance V__ROW1 tptp.s__GraphElement)) (=> (tptp.s__graphPart V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__GraphElement)))))
% 3.09/3.31 (assume a2001 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Process) (=> (tptp.s__patient V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Process)))))
% 3.09/3.31 (assume a2002 (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__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__SelfConnectedObject)))))
% 3.09/3.31 (assume a2003 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Quantity) (tptp.s__instance V__ROW1 tptp.s__Quantity)) (=> (tptp.greater V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Quantity)))))
% 3.09/3.31 (assume a2004 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (tptp.s__inhabits V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Organism)))))
% 3.09/3.31 (assume a2005 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__ROW1 tptp.s__ContentBearingPhysical)) (=> (tptp.s__equivalentContentInstance V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__ContentBearingPhysical)))))
% 3.09/3.31 (assume a2006 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__BinaryRelation) (tptp.s__instance V__ROW1 tptp.s__BinaryRelation)) (=> (tptp.s__inverse V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__BinaryRelation)))))
% 3.09/3.31 (assume a2007 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Collection) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__member V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Collection)))))
% 3.09/3.31 (assume a2008 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW2 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__connects V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"3"|) tptp.s__SelfConnectedObject)))))
% 3.09/3.31 (assume a2009 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__CorpuscularObject) (tptp.s__instance V__ROW1 tptp.s__CorpuscularObject)) (=> (tptp.s__component V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__CorpuscularObject)))))
% 3.09/3.31 (assume a2010 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__List) (tptp.s__instance V__ROW1 tptp.s__List)) (=> (tptp.s__identicalListItems V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__List)))))
% 3.09/3.31 (assume a2011 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimePosition) (tptp.s__instance V__ROW1 tptp.s__TimePosition)) (=> (tptp.s__temporalPart V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__TimePosition)))))
% 3.09/3.31 (assume a2012 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__TimePoint) (tptp.s__instance V__ROW2 tptp.s__TimePoint) (tptp.s__instance V__ROW1 tptp.s__TimePoint)) (=> (tptp.s__temporallyBetweenOrEqual V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__TimePoint)))))
% 3.09/3.31 (assume a2013 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Proposition) (tptp.s__instance V__ROW1 tptp.s__Argument)) (=> (tptp.s__premise V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Proposition)))))
% 3.09/3.31 (assume a2014 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Physical) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__cooccur V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Physical)))))
% 3.09/3.31 (assume a2015 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__Formula) (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__CognitiveAgent)) (=> (tptp.s__prefers V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__Formula)))))
% 3.09/3.31 (assume a2016 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__BinaryRelation)) (=> (tptp.s__trichotomizingOn V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__BinaryRelation)))))
% 3.09/3.31 (assume a2017 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__TimePosition)) (=> (tptp.s__holdsDuring V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__TimePosition)))))
% 3.09/3.31 (assume a2018 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimePosition) (tptp.s__instance V__ROW1 tptp.s__TimePosition)) (=> (tptp.s__temporalPart V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__TimePosition)))))
% 3.09/3.31 (assume a2019 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimeInterval) (tptp.s__instance V__ROW1 tptp.s__TimeInterval)) (=> (tptp.s__finishes V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__TimeInterval)))))
% 3.09/3.31 (assume a2020 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimeInterval) (tptp.s__instance V__ROW1 tptp.s__TimeInterval)) (=> (tptp.s__meetsTemporally V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__TimeInterval)))))
% 3.09/3.31 (assume a2021 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__acquaintance V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Human)))))
% 3.09/3.31 (assume a2022 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__TimePoint) (tptp.s__instance V__ROW2 tptp.s__TimePoint) (tptp.s__instance V__ROW1 tptp.s__TimePoint)) (=> (tptp.s__temporallyBetweenOrEqual V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"3"|) tptp.s__TimePoint)))))
% 3.09/3.31 (assume a2023 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TemporaryResidence) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__stays V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Human)))))
% 3.09/3.31 (assume a2024 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__PhysicalSystem) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__systemPart V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__PhysicalSystem)))))
% 3.09/3.31 (assume a2025 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (tptp.s__instance V__ROW3 tptp.s__Agent) (=> (tptp.s__representsForAgent V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"1"|) tptp.s__Entity)))))
% 3.09/3.31 (assume a2026 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__GeographicArea) (tptp.s__instance V__ROW1 tptp.s__GeographicArea)) (=> (tptp.s__geographicSubregion V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__GeographicArea)))))
% 3.09/3.31 (assume a2027 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__Formula) (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__CognitiveAgent)) (=> (tptp.s__prefers V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"3"|) tptp.s__Formula)))))
% 3.09/3.31 (assume a2028 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__SymbolicString) (tptp.s__instance V__ROW2 tptp.s__SymbolicString)) (=> (tptp.s__comment V__ROW1 V__ROW2 V__ROW3) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) |"2"|) tptp.s__SymbolicString)))))
% 3.09/3.31 (assume a2029 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Graph) (tptp.s__instance V__ROW1 tptp.s__Graph)) (=> (tptp.s__subGraph V__ROW1 V__ROW2) (tptp.s__instance (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Graph)))))
% 3.09/3.31 (assume a2030 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__subclass V__ROW2 tptp.s__Process) (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__subclass V__ROW1 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__prevents V__ROW1 V__ROW2) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Process)))))
% 3.09/3.31 (assume a2031 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__subclass V__ROW2 tptp.s__Process) (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__subclass V__ROW1 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__causesSubclass V__ROW1 V__ROW2) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Process)))))
% 3.09/3.31 (assume a2032 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__CorpuscularObject) (tptp.s__subclass V__ROW1 tptp.s__Substance) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__material V__ROW1 V__ROW2) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Substance)))))
% 3.09/3.31 (assume a2033 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__subclass V__ROW2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__subclass V__ROW1 tptp.s__ContentBearingPhysical) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__equivalentContentClass V__ROW1 V__ROW2) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__ContentBearingPhysical)))))
% 3.09/3.31 (assume a2034 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__subclass V__ROW2 tptp.s__Process) (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__subclass V__ROW1 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__causesSubclass V__ROW1 V__ROW2) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Process)))))
% 3.09/3.31 (assume a2035 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__subclass V__ROW2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__subclass V__ROW1 tptp.s__ContentBearingPhysical) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__subsumesContentClass V__ROW1 V__ROW2) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__ContentBearingPhysical)))))
% 3.09/3.31 (assume a2036 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__subclass V__ROW2 tptp.s__Text) (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__Agent)) (=> (tptp.s__authors V__ROW1 V__ROW2) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Text)))))
% 3.09/3.31 (assume a2037 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__subclass V__ROW2 tptp.s__Text) (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__Agent)) (=> (tptp.s__editor V__ROW1 V__ROW2) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Text)))))
% 3.09/3.31 (assume a2038 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TemperatureMeasure) (tptp.s__subclass V__ROW1 tptp.s__PureSubstance) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__boilingPoint V__ROW1 V__ROW2) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__PureSubstance)))))
% 3.09/3.31 (assume a2039 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__subclass V__ROW2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__subclass V__ROW1 tptp.s__ContentBearingPhysical) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__equivalentContentClass V__ROW1 V__ROW2) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__ContentBearingPhysical)))))
% 3.09/3.31 (assume a2040 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimeDuration) (tptp.s__subclass V__ROW1 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__frequency V__ROW1 V__ROW2) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Process)))))
% 3.09/3.31 (assume a2041 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__subclass V__ROW2 tptp.s__Artifact) (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__subclass V__ROW1 tptp.s__Artifact) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__version V__ROW1 V__ROW2) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Artifact)))))
% 3.09/3.31 (assume a2042 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__subclass V__ROW2 tptp.s__Artifact) (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__subclass V__ROW1 tptp.s__Artifact) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__version V__ROW1 V__ROW2) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__Artifact)))))
% 3.09/3.31 (assume a2043 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__subclass V__ROW2 tptp.s__Process) (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__subclass V__ROW1 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__precondition V__ROW1 V__ROW2) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Process)))))
% 3.09/3.31 (assume a2044 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__subclass V__ROW2 tptp.s__Process) (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__subclass V__ROW1 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__prevents V__ROW1 V__ROW2) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Process)))))
% 3.09/3.31 (assume a2045 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__Object) (tptp.s__instance V__ROW2 tptp.s__CaseRole) (tptp.s__subclass V__ROW1 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__capability 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__Process)))))
% 3.09/3.31 (assume a2046 (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__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"2"|) tptp.s__SetOrClass)))))
% 3.09/3.31 (assume a2047 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Agent) (tptp.s__subclass V__ROW1 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__hasSkill V__ROW1 V__ROW2) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Process)))))
% 3.09/3.31 (assume a2048 (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) |"2"|) tptp.s__Process)))))
% 3.09/3.31 (assume a2049 (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)))))
% 3.09/3.31 (assume a2050 (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)))))
% 3.09/3.31 (assume a2051 (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)))))
% 3.09/3.31 (assume a2052 (forall ((V__ROW1 $$unsorted)) (=> (and (tptp.s__subclass V__ROW1 tptp.s__Attribute) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__exhaustiveAttribute_1 V__ROW1) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_1 V__ROW1) |"1"|) tptp.s__Attribute)))))
% 3.09/3.31 (assume a2053 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__subclass V__ROW1 tptp.s__Attribute) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__exhaustiveAttribute_2 V__ROW1 V__ROW2) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ROW2) |"1"|) tptp.s__Attribute)))))
% 3.09/3.31 (assume a2054 (forall ((V__ROW1 $$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)))))
% 3.09/3.31 (assume a2055 (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)))))
% 3.09/3.31 (assume a2056 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted)) (=> (and (tptp.s__subclass V__ROW1 tptp.s__Attribute) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__exhaustiveAttribute_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5) |"1"|) tptp.s__Attribute)))))
% 3.09/3.31 (assume a2057 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted)) (=> (and (tptp.s__subclass V__ROW1 tptp.s__Attribute) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__exhaustiveAttribute_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) (tptp.s__subclass (tptp.s__ListOrderFn (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) |"1"|) tptp.s__Attribute)))))
% 3.09/3.31 (assume a2058 (forall ((V__ROW1 $$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)))))
% 3.09/3.31 (assume a2059 (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)))))
% 3.09/3.31 (assume a2060 (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)))))
% 3.09/3.31 (assume a2061 (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)))))
% 3.09/3.31 (assume a2062 (tptp.s__instance tptp.s__ListLengthFn__m tptp.s__UnaryFunction))
% 3.09/3.31 (assume a2063 (tptp.s__instance tptp.s__ListLengthFn__m tptp.s__TotalValuedRelation))
% 3.09/3.31 (assume a2064 (tptp.s__domain tptp.s__ListLengthFn__m |"1"| tptp.s__List))
% 3.09/3.31 (assume a2065 (tptp.s__range tptp.s__ListLengthFn__m tptp.s__NonnegativeInteger))
% 3.09/3.31 (assume a2066 (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.'|))
% 3.09/3.31 (assume a2067 (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)))))))
% 3.09/3.31 (assume a2068 (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))))))
% 3.09/3.31 (assume a2069 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ITEM $$unsorted)) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ITEM)) (tptp.s__SuccessorFn (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2))))))
% 3.09/3.31 (assume a2070 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ITEM $$unsorted)) (= (tptp.s__ListLengthFn (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ITEM)) (tptp.s__SuccessorFn (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3))))))
% 3.09/3.31 (assume a2071 (forall ((V__ROW1 $$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))))))
% 3.09/3.31 (assume a2072 (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))))))
% 3.09/3.31 (assume a2073 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ITEM $$unsorted)) (= (tptp.s__ListLengthFn (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ITEM)) (tptp.s__SuccessorFn (tptp.s__ListLengthFn (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6))))))
% 3.09/3.31 (assume a2074 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ROW7 $$unsorted) (V__ITEM $$unsorted)) (= (tptp.s__ListLengthFn (tptp.s__ListFn_8 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7 V__ITEM)) (tptp.s__SuccessorFn (tptp.s__ListLengthFn (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7))))))
% 3.09/3.31 (assume a2075 (forall ((V__ROW1 $$unsorted) (V__ITEM $$unsorted)) (= (tptp.s__ListOrderFn (tptp.s__ListFn_2 V__ROW1 V__ITEM) (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ITEM))) V__ITEM)))
% 3.09/3.31 (assume a2076 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ITEM $$unsorted)) (= (tptp.s__ListOrderFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ITEM) (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ITEM))) V__ITEM)))
% 3.09/3.31 (assume a2077 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ITEM $$unsorted)) (= (tptp.s__ListOrderFn (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ITEM) (tptp.s__ListLengthFn (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ITEM))) V__ITEM)))
% 3.09/3.31 (assume a2078 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ITEM $$unsorted)) (= (tptp.s__ListOrderFn (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ITEM) (tptp.s__ListLengthFn (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ITEM))) V__ITEM)))
% 3.09/3.31 (assume a2079 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ITEM $$unsorted)) (= (tptp.s__ListOrderFn (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ITEM) (tptp.s__ListLengthFn (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ITEM))) V__ITEM)))
% 3.09/3.31 (assume a2080 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ITEM $$unsorted)) (= (tptp.s__ListOrderFn (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ITEM) (tptp.s__ListLengthFn (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ITEM))) V__ITEM)))
% 3.09/3.31 (assume a2081 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__Agent)) (=> (tptp.s__leader V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2082 (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"|)))))
% 3.09/3.31 (assume a2083 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__PhysicalSystem) (tptp.s__instance V__ROW1 tptp.s__PhysicalSystem)) (=> (tptp.s__subSystem V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2084 (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"|)))))
% 3.09/3.31 (assume a2085 (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"|)))))
% 3.09/3.31 (assume a2086 (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"|)))))
% 3.09/3.31 (assume a2087 (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"|)))))
% 3.09/3.31 (assume a2088 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimePosition) (tptp.s__instance V__ROW1 tptp.s__TimePosition)) (=> (tptp.s__temporalPart V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2089 (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"|)))))
% 3.09/3.31 (assume a2090 (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"|)))))
% 3.09/3.31 (assume a2091 (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__disjoint V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2092 (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__crosses V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2093 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Translocation)) (=> (tptp.s__changesLocation V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2094 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (tptp.s__instance V__ROW3 tptp.s__Attribute) (=> (tptp.s__greaterThanByQuality V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2095 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Organism) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (tptp.s__father V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2096 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Hole) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__completelyFills V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2097 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (=> (tptp.s__immediateInstance V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2098 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__subclass V__ROW2 tptp.s__Artifact) (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__subclass V__ROW1 tptp.s__Artifact) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__version V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2099 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Process) (=> (tptp.s__result V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2100 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Physical) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__cooccur V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2101 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__UnitOfMeasure) (tptp.s__instance V__ROW1 tptp.s__Graph)) (=> (tptp.s__graphMeasure V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2102 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__UnitOfAtmosphericPressure) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__barometricPressure V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2103 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Collection) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__member V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2104 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__PhysicalSystem) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__systemPart V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2105 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__relatedInternalConcept V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|))))
% 3.09/3.31 (assume a2106 (forall ((V__ROW1 $$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__distance V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2107 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__GeopoliticalArea) (tptp.s__instance V__ROW1 tptp.s__GeopoliticalArea)) (=> (tptp.s__geopoliticalSubdivision V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2108 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimePoint) (tptp.s__instance V__ROW1 tptp.s__TimePoint)) (=> (tptp.s__beforeOrEqual V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2109 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__BinaryRelation)) (=> (tptp.s__trichotomizingOn V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2110 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (= V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|))))
% 3.09/3.31 (assume a2111 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (tptp.s__inhabits V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2112 (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__daughter V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2113 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW2 tptp.s__SymbolicString) (=> (tptp.s__externalImage V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2114 (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__equivalentContentClass V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2115 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__CognitiveAgent) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__confersRight V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2116 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimeInterval) (tptp.s__instance V__ROW1 tptp.s__TimeInterval)) (=> (tptp.s__during V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2117 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__List) (tptp.s__instance V__ROW1 tptp.s__List)) (=> (tptp.s__identicalListItems V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2118 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW2 tptp.s__List) (=> (tptp.s__inList V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2119 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__smaller V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2120 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__hasPurpose V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2121 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__superficialPart V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2122 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Attribute) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__attribute V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2123 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Proposition) (tptp.s__instance V__ROW1 tptp.s__ContentBearingPhysical)) (=> (tptp.s__containsInformation V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2124 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__CognitiveAgent) (=> (tptp.s__inScopeOfInterest V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2125 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__partlyLocated V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2126 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Attribute) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__manner V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2127 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__surface V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2128 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__ROW1 tptp.s__ContentBearingPhysical)) (=> (tptp.s__subsumesContentInstance V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2129 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimeDuration) (tptp.s__instance V__ROW1 tptp.s__TimeInterval)) (=> (tptp.s__duration V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2130 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__decreasesLikelihood V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2131 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__OneDimensionalFigure) (tptp.s__instance V__ROW1 tptp.s__OneDimensionalFigure)) (=> (tptp.s__parallel V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2132 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__EngineeringComponent) (tptp.s__instance V__ROW1 tptp.s__EngineeringComponent)) (=> (tptp.s__engineeringSubcomponent V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2133 (forall ((V__ROW1 $$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__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2134 (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__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2135 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW1 tptp.s__Hole)) (=> (tptp.s__hole V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2136 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__represents V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|))))
% 3.09/3.31 (assume a2137 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__GeometricFigure) (tptp.s__instance V__ROW1 tptp.s__GeometricFigure)) (=> (tptp.s__geometricPart V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2138 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__PhysicalQuantity) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__measure V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2139 (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__Agent)) (=> (tptp.s__authors V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2140 (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__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2141 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__Formula) (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__CognitiveAgent)) (=> (tptp.s__prefers V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2142 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Collection) (tptp.s__instance V__ROW1 tptp.s__Collection)) (=> (tptp.s__subCollection V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2143 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__subclass V__ROW2 tptp.s__Process) (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__subclass V__ROW1 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__prevents V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2144 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Day) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__date V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2145 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__meetsSpatially V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2146 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TemporaryResidence) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__stays V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2147 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimeInterval) (tptp.s__instance V__ROW1 tptp.s__TimeInterval)) (=> (tptp.s__meetsTemporally V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2148 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW2 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__connects V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2149 (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__legalRelation V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2150 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Man) (tptp.s__instance V__ROW1 tptp.s__Woman)) (=> (tptp.s__wife V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2151 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__CognitiveAgent) (tptp.s__instance V__ROW1 tptp.s__Organization)) (=> (tptp.s__employs V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2152 (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__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2153 (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__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2154 (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__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2155 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__contains V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2156 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__CorpuscularObject) (tptp.s__instance V__ROW1 tptp.s__CorpuscularObject)) (=> (tptp.s__component V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2157 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Graph) (tptp.s__instance V__ROW1 tptp.s__Graph)) (=> (tptp.s__subGraph V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2158 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__BinaryRelation)) (=> (tptp.s__totalOrderingOn V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2159 (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__parent V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2160 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__PermanentResidence) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__home V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2161 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Quantity) (tptp.s__instance V__ROW1 tptp.s__Quantity)) (=> (tptp.less V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2162 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TruthValue) (tptp.s__instance V__ROW1 tptp.s__Sentence)) (=> (tptp.s__truth V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2163 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Proposition) (tptp.s__instance V__ROW1 tptp.s__Argument)) (=> (tptp.s__conclusion V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2164 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__NormativeAttribute) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__modalAttribute V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2165 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__bottom V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2166 (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__subOrganization V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2167 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Agent)) (=> (tptp.s__possesses V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2168 (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__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2169 (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__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2170 (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__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2171 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__RealNumber) (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__conditionalProbability V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2172 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__subProcess V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2173 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__BinaryFunction) (tptp.s__instance V__ROW1 tptp.s__BinaryFunction)) (=> (tptp.s__distributes V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2174 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__SetOrClass) (tptp.s__instance V__ROW2 tptp.s__PositiveInteger) (tptp.s__instance V__ROW1 tptp.s__Relation)) (=> (tptp.s__domain V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2175 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Process) (=> (tptp.s__involvedInEvent V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2176 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__SymbolicString) (tptp.s__instance V__ROW2 tptp.s__SymbolicString)) (=> (tptp.s__comment V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2177 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__GeographicArea) (tptp.s__instance V__ROW1 tptp.s__GeographicArea)) (=> (tptp.s__geographicSubregion V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2178 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__resource V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2179 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__entails V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2180 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Organism) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (tptp.s__son V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2181 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__ROW1 tptp.s__ContentBearingPhysical)) (=> (tptp.s__equivalentContentInstance V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2182 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Hole) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__fills V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2183 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__independentProbability V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2184 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__MassMeasure) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__weight V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2185 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__SetOrClass) (tptp.s__instance V__ROW2 tptp.s__PositiveInteger) (tptp.s__instance V__ROW1 tptp.s__Relation)) (=> (tptp.s__domainSubclass V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2186 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__RealNumber) (tptp.s__instance V__ROW1 tptp.s__List)) (=> (tptp.s__average V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2187 (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__connected V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2188 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__Language) (tptp.s__instance V__ROW1 tptp.s__LinguisticExpression)) (=> (tptp.s__representsInLanguage V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2189 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__TimePoint) (tptp.s__instance V__ROW2 tptp.s__TimePoint) (tptp.s__instance V__ROW1 tptp.s__TimePoint)) (=> (tptp.s__temporallyBetweenOrEqual V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2190 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Process) (=> (tptp.s__patient V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2191 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Proposition) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__realization V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2192 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__Language) (tptp.s__instance V__ROW1 tptp.s__SymbolicString)) (=> (tptp.s__relatedExternalConcept V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2193 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__Object) (tptp.s__instance V__ROW2 tptp.s__CaseRole) (tptp.s__subclass V__ROW1 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__capability V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2194 (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__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2195 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__CognitiveAgent) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__holdsRight V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2196 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Proposition) (tptp.s__instance V__ROW1 tptp.s__Argument)) (=> (tptp.s__premise V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2197 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimePosition) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__time V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2198 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__GraphArc) (tptp.s__instance V__ROW2 tptp.s__GraphNode) (tptp.s__instance V__ROW1 tptp.s__GraphNode)) (=> (tptp.s__links V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2199 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__BinaryRelation)) (=> (tptp.s__equivalenceRelationOn V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2200 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__LengthMeasure) (tptp.s__instance V__ROW1 tptp.s__OneDimensionalFigure)) (=> (tptp.s__lineMeasure V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2201 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__CurrencyMeasure) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__monetaryValue V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2202 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Physical) (tptp.s__instance V__ROW1 tptp.s__Abstract)) (=> (tptp.s__abstractCounterpart V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2203 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__EngineeringComponent) (tptp.s__instance V__ROW2 tptp.s__EngineeringComponent) (tptp.s__instance V__ROW1 tptp.s__EngineeringConnection)) (=> (tptp.s__connectsEngineeringComponents V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2204 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimePoint) (tptp.s__instance V__ROW1 tptp.s__TimePoint)) (=> (tptp.s__before V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2205 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__GeometricFigure) (tptp.s__instance V__ROW1 tptp.s__GeometricPoint)) (=> (tptp.s__pointOfFigure V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2206 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Proposition) (tptp.s__instance V__ROW1 tptp.s__Proposition)) (=> (tptp.s__subProposition V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2207 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Agent) (tptp.s__subclass V__ROW1 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__hasSkill V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2208 (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__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2209 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Agent) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__exploits V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2210 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__SymbolicString) (tptp.s__instance V__ROW1 tptp.s__Language)) (=> (tptp.s__termFormat V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2211 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Motion)) (=> (tptp.s__path V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2212 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Organism) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (tptp.s__sibling V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2213 (forall ((V__ROW1 $$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__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2214 (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__length V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2215 (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__believes V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2216 (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__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2217 (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__earlier V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2218 (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__wants V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2219 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__List) (tptp.s__instance V__ROW1 tptp.s__List)) (=> (tptp.s__subList V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2220 (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__interiorPart V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2221 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__LengthMeasure) (tptp.s__instance V__ROW2 tptp.s__GeometricPoint) (tptp.s__instance V__ROW1 tptp.s__GeometricPoint)) (=> (tptp.s__geometricDistance V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2222 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Integer) (tptp.s__instance V__ROW1 tptp.s__Integer)) (=> (tptp.s__multiplicativeFactor V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2223 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Agent) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__uses V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2224 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__LengthMeasure) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__linearExtent V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2225 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__TimePoint) (tptp.s__instance V__ROW2 tptp.s__TimePoint) (tptp.s__instance V__ROW1 tptp.s__TimePoint)) (=> (tptp.s__temporallyBetween V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2226 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (tptp.s__instance V__ROW3 tptp.s__Agent) (=> (tptp.s__representsForAgent V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2227 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Animal)) (=> (tptp.s__grasps V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2228 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__Function)) (=> (tptp.s__range V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2229 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Set) (tptp.s__instance V__ROW1 tptp.s__Set)) (=> (tptp.s__subset V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2230 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__refers V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|))))
% 3.09/3.31 (assume a2231 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Organism) (tptp.s__instance V__ROW1 tptp.s__Organism)) (=> (tptp.s__ancestor V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2232 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__exactlyLocated V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2233 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__larger V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2234 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__GeometricFigure) (tptp.s__instance V__ROW1 tptp.s__TwoDimensionalAngle)) (=> (tptp.s__angleOfFigure V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2235 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Attribute) (tptp.s__instance V__ROW1 tptp.s__Attribute)) (=> (tptp.s__subAttribute V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2236 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__top V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2237 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__CorpuscularObject) (tptp.s__subclass V__ROW1 tptp.s__Substance) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__material V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2238 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Relation) (tptp.s__instance V__ROW1 tptp.s__Relation)) (=> (tptp.s__subrelation V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2239 (forall ((V__ROW1 $$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__subsumingExternalConcept V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2240 (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__considers V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2241 (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__mutualAcquaintance V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2242 (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__overlapsTemporally V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2243 (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__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2244 (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__increasesLikelihood V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2245 (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__knows V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2246 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__ObjectiveNorm) (tptp.s__instance V__ROW2 tptp.s__Formula)) (=> (tptp.s__confersNorm V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2247 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted)) (=> (and (tptp.s__instance V__ROW4 tptp.s__Object) (tptp.s__instance V__ROW3 tptp.s__Object) (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__betweenOnPath V__ROW1 V__ROW2 V__ROW3 V__ROW4) (= (tptp.s__ListLengthFn (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4)) |"4"|)))))
% 3.09/3.31 (assume a2248 (forall ((V__ROW1 $$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__depth V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2249 (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__instrument V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2250 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__BinaryRelation) (tptp.s__instance V__ROW1 tptp.s__BinaryRelation)) (=> (tptp.s__inverse V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2251 (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__traverses V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2252 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (=> (tptp.s__instance V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2253 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Agent) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__experiencer V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2254 (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__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2255 (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__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2256 (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__relative V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2257 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimeDuration) (tptp.s__subclass V__ROW1 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__frequency V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2258 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__PositiveInteger) (tptp.s__instance V__ROW1 tptp.s__GraphPath)) (=> (tptp.s__pathLength V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2259 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__SymbolicString) (=> (tptp.s__names V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2260 (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__properPart V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2261 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SelfConnectedObject) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__side V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2262 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Nation) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__citizen V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2263 (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__sister V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2264 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__GeometricPoint) (tptp.s__instance V__ROW2 tptp.s__OneDimensionalFigure) (tptp.s__instance V__ROW1 tptp.s__OneDimensionalFigure)) (=> (tptp.s__pointOfIntersection V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2265 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__DirectionalAttribute) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__direction V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2266 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__SymbolicString) (tptp.s__instance V__ROW2 tptp.s__HumanLanguage)) (=> (tptp.s__documentation V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2267 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__List) (tptp.s__instance V__ROW1 tptp.s__List)) (=> (tptp.s__initialList V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2268 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Attribute) (tptp.s__instance V__ROW1 tptp.s__Attribute)) (=> (tptp.s__successorAttribute V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2269 (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__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2270 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Attribute) (tptp.s__instance V__ROW1 tptp.s__Attribute)) (=> (tptp.s__successorAttributeClosure V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2271 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Quantity) (tptp.s__instance V__ROW1 tptp.s__Quantity)) (=> (tptp.greater V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2272 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__LengthMeasure) (tptp.s__instance V__ROW1 tptp.s__SelfConnectedObject)) (=> (tptp.s__height V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2273 (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__mother V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2274 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Proposition) (tptp.s__instance V__ROW1 tptp.s__Proposition)) (=> (tptp.s__consistent V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2275 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Quantity) (tptp.s__instance V__ROW1 tptp.s__Quantity)) (=> (tptp.greatereq V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2276 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__BinaryFunction) (=> (tptp.s__identityElement V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2277 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW2 tptp.s__Attribute) (=> (tptp.s__property V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2278 (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__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2279 (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__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2280 (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__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2281 (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__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2282 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__PositionalAttribute) (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__orientation V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2283 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TemperatureMeasure) (tptp.s__subclass V__ROW1 tptp.s__PureSubstance) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__boilingPoint V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2284 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Graph) (tptp.s__instance V__ROW1 tptp.s__GraphElement)) (=> (tptp.s__graphPart V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2285 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__TimePosition)) (=> (tptp.s__holdsDuring V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2286 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__overlapsSpatially V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2287 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__subclass V__ROW2 tptp.s__Process) (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__subclass V__ROW1 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__inhibits V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2288 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__located V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2289 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Quantity) (tptp.s__instance V__ROW1 tptp.s__Quantity)) (=> (tptp.lesseq V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2290 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__TimeInterval) (tptp.s__instance V__ROW1 tptp.s__TimeInterval)) (=> (tptp.s__starts V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2291 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Language) (tptp.s__instance V__ROW1 tptp.s__LinguisticExpression)) (=> (tptp.s__expressedInLanguage V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2292 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__BinaryRelation)) (=> (tptp.s__reflexiveOn V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2293 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__Object) (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__between V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2294 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__DirectionalAttribute) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__faces V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2295 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__EngineeringComponent) (tptp.s__instance V__ROW1 tptp.s__EngineeringComponent)) (=> (tptp.s__connectedEngineeringComponents V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2296 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__Language) (tptp.s__instance V__ROW1 tptp.s__SymbolicString)) (=> (tptp.s__synonymousExternalConcept V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2297 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__CognitiveAgent) (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__Physical)) (=> (tptp.s__hasPurposeForAgent V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2298 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Relation) (tptp.s__instance V__ROW1 tptp.s__Relation)) (=> (tptp.s__disjointRelation V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2299 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__SymbolicString) (tptp.s__instance V__ROW1 tptp.s__Language)) (=> (tptp.s__format V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2300 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__BinaryRelation)) (=> (tptp.s__partialOrderingOn V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2301 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__relatedEvent V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2302 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__PositiveInteger) (tptp.s__instance V__ROW1 tptp.s__Relation)) (=> (tptp.s__valence V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2303 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__penetrates V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2304 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__Organization) (tptp.s__instance V__ROW2 tptp.s__Position) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__occupiesPosition V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2305 (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__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2306 (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__diameter V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2307 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Quantity) (tptp.s__instance V__ROW1 tptp.s__GraphArc)) (=> (tptp.s__arcWeight V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2308 (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__finishes V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2309 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__causes V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2310 (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__Agent)) (=> (tptp.s__editor V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2311 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__Demonstrating)) (=> (tptp.s__attends V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2312 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__WearableItem) (tptp.s__instance V__ROW1 tptp.s__Animal)) (=> (tptp.s__wears V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2313 (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__brother V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2314 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__SymbolicString) (=> (tptp.s__uniqueIdentifier V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2315 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__PlaneAngleMeasure) (tptp.s__instance V__ROW1 tptp.s__TwoDimensionalAngle)) (=> (tptp.s__angularMeasure V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2316 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__instance V__ROW1 tptp.s__BinaryRelation)) (=> (tptp.s__irreflexiveOn V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2317 (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__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2318 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__CognitiveAgent) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__confersObligation V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2319 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Agent) (tptp.s__instance V__ROW1 tptp.s__Process)) (=> (tptp.s__agent V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2320 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Formula) (tptp.s__instance V__ROW1 tptp.s__CognitiveAgent)) (=> (tptp.s__desires V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2321 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Object) (tptp.s__instance V__ROW1 tptp.s__Object)) (=> (tptp.s__copy V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2322 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__CognitiveAgent) (tptp.s__instance V__ROW1 tptp.s__Formula)) (=> (tptp.s__holdsObligation V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2323 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__Human) (tptp.s__instance V__ROW1 tptp.s__Human)) (=> (tptp.s__acquaintance V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2324 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__subclass V__ROW2 tptp.s__Process) (tptp.s__instance V__ROW2 tptp.s__SetOrClass) (tptp.s__subclass V__ROW1 tptp.s__Process) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__causesSubclass V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2325 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (and (tptp.s__instance V__ROW2 tptp.s__PositiveInteger) (tptp.s__subclass V__ROW1 tptp.s__ElementalSubstance) (tptp.s__instance V__ROW1 tptp.s__SetOrClass)) (=> (tptp.s__atomicNumber V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2326 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (tptp.s__instance V__ROW1 tptp.s__Process) (=> (tptp.s__destination V__ROW1 V__ROW2) (= (tptp.s__ListLengthFn (tptp.s__ListFn_2 V__ROW1 V__ROW2)) |"2"|)))))
% 3.09/3.31 (assume a2327 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted)) (=> (and (tptp.s__instance V__ROW3 tptp.s__ObjectiveNorm) (tptp.s__instance V__ROW2 tptp.s__Formula)) (=> (tptp.s__deprivesNorm V__ROW1 V__ROW2 V__ROW3) (= (tptp.s__ListLengthFn (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) |"3"|)))))
% 3.09/3.31 (assume a2328 (forall ((V__NUMBER $$unsorted) (V__LIST1 $$unsorted) (V__NUMBER1 $$unsorted) (V__LIST $$unsorted)) (=> (and (tptp.s__instance V__LIST1 tptp.s__List) (tptp.s__instance V__NUMBER tptp.s__Integer)) (=> (and (= (tptp.s__ListLengthFn V__LIST1) V__NUMBER) (tptp.s__instance V__LIST tptp.s__List) (not (= V__LIST tptp.s__NullList__m)) (tptp.s__instance V__NUMBER1 tptp.s__PositiveInteger)) (exists ((V__LIST2 $$unsorted) (V__ITEM $$unsorted)) (and (tptp.s__instance V__LIST2 tptp.s__List) (tptp.s__initialList V__LIST1 V__LIST2) (= (tptp.s__SuccessorFn V__NUMBER) (tptp.s__ListLengthFn V__LIST2)) (= (tptp.s__ListOrderFn V__LIST2 (tptp.s__SuccessorFn V__NUMBER)) V__ITEM)))))))
% 3.09/3.31 (assume a2329 (tptp.s__instance tptp.s__ListConcatenateFn__m tptp.s__BinaryFunction))
% 3.09/3.31 (assume a2330 (tptp.s__instance tptp.s__ListConcatenateFn__m tptp.s__TotalValuedRelation))
% 3.09/3.31 (assume a2331 (tptp.s__domain tptp.s__ListConcatenateFn__m |"1"| tptp.s__List))
% 3.09/3.31 (assume a2332 (tptp.s__domain tptp.s__ListConcatenateFn__m |"2"| tptp.s__List))
% 3.09/3.31 (assume a2333 (tptp.s__range tptp.s__ListConcatenateFn__m tptp.s__List))
% 3.09/3.31 (assume a2334 (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).'|))
% 3.09/3.31 (assume a2335 (tptp.s__instance tptp.s__inList__m tptp.s__BinaryPredicate))
% 3.09/3.31 (assume a2336 (tptp.s__instance tptp.s__inList__m tptp.s__IrreflexiveRelation))
% 3.09/3.31 (assume a2337 (tptp.s__instance tptp.s__inList__m tptp.s__AsymmetricRelation))
% 3.09/3.31 (assume a2338 (tptp.s__domain tptp.s__inList__m |"1"| tptp.s__Entity))
% 3.09/3.31 (assume a2339 (tptp.s__domain tptp.s__inList__m |"2"| tptp.s__List))
% 3.09/3.31 (assume a2340 (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.'|))
% 3.09/3.31 (assume a2341 (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 $$unsorted)) (and (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (= (tptp.s__ListOrderFn V__LIST V__NUMBER) V__ITEM)))))))
% 3.09/3.31 (assume a2342 (tptp.s__instance tptp.s__subList__m tptp.s__BinaryPredicate))
% 3.09/3.31 (assume a2343 (tptp.s__instance tptp.s__subList__m tptp.s__PartialOrderingRelation))
% 3.09/3.31 (assume a2344 (tptp.s__domain tptp.s__subList__m |"1"| tptp.s__List))
% 3.09/3.31 (assume a2345 (tptp.s__domain tptp.s__subList__m |"2"| tptp.s__List))
% 3.09/3.31 (assume a2346 (tptp.s__documentation tptp.s__subList__m tptp.s__EnglishLanguage |tptp.'(&%subList ?LIST1 ?LIST2) means that ?LIST1 is a sublist of ?LIST2, i.e. every element of ?LIST1 is an element of ?LIST2 and the elements that are common to both &%Lists have the same order in both &%Lists. Elements that are common to both Lists and are consecutive in one list must also be consecutive in the other list. (Therefore - the list of prime numbers smaller than 10 [1 2 3 5 7] is not a subList of the natural numbers smaller than 10 [1 2 3 4 5 6 7 8 9]).'|))
% 3.09/3.31 (assume a2347 (forall ((V__LIST2 $$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)))))))
% 3.09/3.31 (assume a2348 (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)))))))))))
% 3.09/3.31 (assume a2349 (tptp.s__instance tptp.s__initialList__m tptp.s__BinaryPredicate))
% 3.09/3.31 (assume a2350 (tptp.s__instance tptp.s__initialList__m tptp.s__PartialOrderingRelation))
% 3.09/3.31 (assume a2351 (tptp.s__subrelation tptp.s__initialList__m tptp.s__subList__m))
% 3.09/3.31 (assume a2352 (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.'|))
% 3.09/3.31 (assume a2353 (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))))))))
% 3.09/3.31 (assume a2354 (forall ((V__ROW1 $$unsorted) (V__ITEM $$unsorted)) (tptp.s__initialList (tptp.s__ListFn_1 V__ROW1) (tptp.s__ListFn_2 V__ROW1 V__ITEM))))
% 3.09/3.31 (assume a2355 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ITEM $$unsorted)) (tptp.s__initialList (tptp.s__ListFn_2 V__ROW1 V__ROW2) (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ITEM))))
% 3.09/3.31 (assume a2356 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ITEM $$unsorted)) (tptp.s__initialList (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3) (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ITEM))))
% 3.09/3.31 (assume a2357 (forall ((V__ROW1 $$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))))
% 3.09/3.31 (assume a2358 (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))))
% 3.09/3.31 (assume a2359 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ROW4 $$unsorted) (V__ROW5 $$unsorted) (V__ROW6 $$unsorted) (V__ITEM $$unsorted)) (tptp.s__initialList (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6) (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ITEM))))
% 3.09/3.31 (assume a2360 (tptp.s__instance tptp.s__identicalListItems__m tptp.s__BinaryPredicate))
% 3.09/3.31 (assume a2361 (tptp.s__instance tptp.s__identicalListItems__m tptp.s__EquivalenceRelation))
% 3.09/3.31 (assume a2362 (tptp.s__domain tptp.s__identicalListItems__m |"1"| tptp.s__List))
% 3.09/3.31 (assume a2363 (tptp.s__domain tptp.s__identicalListItems__m |"2"| tptp.s__List))
% 3.09/3.31 (assume a2364 (tptp.s__documentation tptp.s__identicalListItems__m tptp.s__EnglishLanguage |tptp.'(&%identicalListItems ?LIST1 ?LIST2) means that ?LIST1 and ?LIST2 have exactly the same items in their respective lists. Although ?LIST1 and ?LIST2 are required to share exactly the same items, they may order these items differently.'|))
% 3.09/3.31 (assume a2365 (forall ((V__ITEM $$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))))))
% 3.09/3.31 (assume a2366 (tptp.s__subclass tptp.s__Predicate tptp.s__Relation))
% 3.09/3.31 (assume a2367 (tptp.s__subclass tptp.s__Predicate tptp.s__InheritableRelation))
% 3.09/3.31 (assume a2368 (tptp.s__instance tptp.s__Predicate__t tptp.s__SetOrClass))
% 3.09/3.31 (assume a2369 (tptp.s__instance tptp.s__InheritableRelation__t tptp.s__SetOrClass))
% 3.09/3.31 (assume a2370 (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.'|))
% 3.09/3.31 (assume a2371 (tptp.s__subclass tptp.s__Function tptp.s__SingleValuedRelation))
% 3.09/3.31 (assume a2372 (tptp.s__subclass tptp.s__Function tptp.s__InheritableRelation))
% 3.09/3.31 (assume a2373 (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.'|))
% 3.09/3.31 (assume a2374 (tptp.s__subclass tptp.s__UnaryFunction tptp.s__Function))
% 3.09/3.31 (assume a2375 (tptp.s__subclass tptp.s__UnaryFunction tptp.s__BinaryRelation))
% 3.09/3.31 (assume a2376 (tptp.s__subclass tptp.s__UnaryFunction tptp.s__InheritableRelation))
% 3.09/3.31 (assume a2377 (tptp.s__documentation tptp.s__UnaryFunction tptp.s__EnglishLanguage |tptp.'The &%Class of &%Functions that require a single argument.'|))
% 3.09/3.31 (assume a2378 (forall ((V__FUNCTION $$unsorted)) (=> (tptp.s__instance V__FUNCTION tptp.s__Relation) (=> (tptp.s__instance V__FUNCTION tptp.s__UnaryFunction) (tptp.s__valence V__FUNCTION |"1"|)))))
% 3.09/3.31 (assume a2379 (tptp.s__subclass tptp.s__OneToOneFunction tptp.s__UnaryFunction))
% 3.09/3.31 (assume a2380 (tptp.s__instance tptp.s__OneToOneFunction__t tptp.s__SetOrClass))
% 3.09/3.31 (assume a2381 (tptp.s__documentation tptp.s__OneToOneFunction tptp.s__EnglishLanguage |tptp.'The &%Class of &%UnaryFunctions which are one to one. A function F is one to one just in case for all X, Y in the domain of F, if X is not identical to Y, then F(X) is not identical to F(Y).'|))
% 3.09/3.31 (assume a2382 (forall ((V__FUN $$unsorted) (V__CLASS $$unsorted)) (=> (tptp.s__instance V__FUN tptp.s__OneToOneFunction) (forall ((V__ARG1 $$unsorted) (V__ARG2 $$unsorted)) (=> (and (tptp.s__instance V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__FUN tptp.s__Function)) (=> (and (tptp.s__domain V__FUN |"1"| V__CLASS) (tptp.s__instance V__ARG1 V__CLASS) (tptp.s__instance V__ARG2 V__CLASS) (not (= V__ARG1 V__ARG2))) (not (= (tptp.s__AssignmentFn_2 V__FUN V__ARG1) (tptp.s__AssignmentFn_2 V__FUN V__ARG2)))))))))
% 3.09/3.31 (assume a2383 (tptp.s__subclass tptp.s__SequenceFunction tptp.s__OneToOneFunction))
% 3.09/3.31 (assume a2384 (tptp.s__instance tptp.s__SequenceFunction__t tptp.s__SetOrClass))
% 3.09/3.31 (assume a2385 (tptp.s__documentation tptp.s__SequenceFunction tptp.s__EnglishLanguage |tptp.'The &%Class of &%OneToOneFunctions whose range is a subclass of the &%PositiveIntegers.'|))
% 3.09/3.31 (assume a2386 (forall ((V__CLASS $$unsorted) (V__SEQ $$unsorted)) (=> (and (tptp.s__instance V__SEQ tptp.s__Function) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (and (tptp.s__instance V__SEQ tptp.s__SequenceFunction) (tptp.s__range V__SEQ V__CLASS)) (tptp.s__subclass V__CLASS tptp.s__Integer)))))
% 3.09/3.31 (assume a2387 (tptp.s__subclass tptp.s__BinaryFunction tptp.s__Function))
% 3.09/3.31 (assume a2388 (tptp.s__subclass tptp.s__BinaryFunction tptp.s__TernaryRelation))
% 3.09/3.31 (assume a2389 (tptp.s__subclass tptp.s__BinaryFunction tptp.s__InheritableRelation))
% 3.09/3.31 (assume a2390 (tptp.s__documentation tptp.s__BinaryFunction tptp.s__EnglishLanguage |tptp.'The &%Class of &%Functions that require two arguments.'|))
% 3.09/3.31 (assume a2391 (forall ((V__FUNCTION $$unsorted)) (=> (tptp.s__instance V__FUNCTION tptp.s__Relation) (=> (tptp.s__instance V__FUNCTION tptp.s__BinaryFunction) (tptp.s__valence V__FUNCTION |"2"|)))))
% 3.09/3.31 (assume a2392 (tptp.s__subclass tptp.s__AssociativeFunction tptp.s__BinaryFunction))
% 3.09/3.31 (assume a2393 (tptp.s__instance tptp.s__AssociativeFunction__t tptp.s__SetOrClass))
% 3.09/3.31 (assume a2394 (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.'|))
% 3.09/3.31 (assume a2395 (forall ((V__CLASS $$unsorted) (V__FUNCTION $$unsorted)) (=> (tptp.s__instance V__FUNCTION tptp.s__AssociativeFunction) (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted) (V__INST3 $$unsorted)) (=> (and (tptp.s__instance V__FUNCTION tptp.s__Function) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (and (tptp.s__domain V__FUNCTION |"1"| V__CLASS) (tptp.s__instance V__INST1 V__CLASS) (tptp.s__instance V__INST2 V__CLASS) (tptp.s__instance V__INST3 V__CLASS)) (= (tptp.s__AssignmentFn_3 V__FUNCTION V__INST1 (tptp.s__AssignmentFn_3 V__FUNCTION V__INST2 V__INST3)) (tptp.s__AssignmentFn_3 V__FUNCTION (tptp.s__AssignmentFn_3 V__FUNCTION V__INST1 V__INST2) V__INST3))))))))
% 3.09/3.31 (assume a2396 (tptp.s__subclass tptp.s__CommutativeFunction tptp.s__BinaryFunction))
% 3.09/3.31 (assume a2397 (tptp.s__documentation tptp.s__CommutativeFunction tptp.s__EnglishLanguage |tptp.'A &%BinaryFunction is commutative if the ordering of the arguments of the function has no effect on the value returned by the function. More precisely, a function ?FUNCTION is commutative just in case (?FUNCTION ?INST1 ?INST2) is equal to (?FUNCTION ?INST2 ?INST1), for all ?INST1 and ?INST2.'|))
% 3.09/3.31 (assume a2398 (forall ((V__CLASS $$unsorted) (V__FUNCTION $$unsorted)) (=> (tptp.s__instance V__FUNCTION tptp.s__CommutativeFunction) (forall ((V__INST1 $$unsorted) (V__INST2 $$unsorted)) (=> (and (tptp.s__instance V__FUNCTION tptp.s__Function) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (and (tptp.s__domain V__FUNCTION |"1"| V__CLASS) (tptp.s__instance V__INST1 V__CLASS) (tptp.s__instance V__INST2 V__CLASS)) (= (tptp.s__AssignmentFn_3 V__FUNCTION V__INST1 V__INST2) (tptp.s__AssignmentFn_3 V__FUNCTION V__INST2 V__INST1))))))))
% 3.09/3.31 (assume a2399 (tptp.s__subclass tptp.s__TernaryFunction tptp.s__Function))
% 3.09/3.31 (assume a2400 (tptp.s__instance tptp.s__TernaryFunction__t tptp.s__SetOrClass))
% 3.09/3.31 (assume a2401 (tptp.s__instance tptp.s__Function__t tptp.s__SetOrClass))
% 3.09/3.31 (assume a2402 (tptp.s__subclass tptp.s__TernaryFunction tptp.s__QuaternaryRelation))
% 3.09/3.31 (assume a2403 (tptp.s__instance tptp.s__QuaternaryRelation__t tptp.s__SetOrClass))
% 3.09/3.31 (assume a2404 (tptp.s__subclass tptp.s__TernaryFunction tptp.s__InheritableRelation))
% 3.09/3.31 (assume a2405 (tptp.s__documentation tptp.s__TernaryFunction tptp.s__EnglishLanguage |tptp.'The &%Class of &%Functions that require exactly three arguments.'|))
% 3.09/3.31 (assume a2406 (forall ((V__FUNCTION $$unsorted)) (=> (tptp.s__instance V__FUNCTION tptp.s__Relation) (=> (tptp.s__instance V__FUNCTION tptp.s__TernaryFunction) (tptp.s__valence V__FUNCTION |"3"|)))))
% 3.09/3.31 (assume a2407 (tptp.s__subclass tptp.s__QuaternaryFunction tptp.s__Function))
% 3.09/3.31 (assume a2408 (tptp.s__subclass tptp.s__QuaternaryFunction tptp.s__QuintaryRelation))
% 3.09/3.31 (assume a2409 (tptp.s__subclass tptp.s__QuaternaryFunction tptp.s__InheritableRelation))
% 3.09/3.31 (assume a2410 (tptp.s__documentation tptp.s__QuaternaryFunction tptp.s__EnglishLanguage |tptp.'The &%Class of &%Functions that require exactly four arguments.'|))
% 3.09/3.31 (assume a2411 (forall ((V__FUNCTION $$unsorted)) (=> (tptp.s__instance V__FUNCTION tptp.s__Relation) (=> (tptp.s__instance V__FUNCTION tptp.s__QuaternaryFunction) (tptp.s__valence V__FUNCTION |"4"|)))))
% 3.09/3.31 (assume a2412 (tptp.s__subclass tptp.s__ContinuousFunction tptp.s__Function))
% 3.09/3.31 (assume a2413 (tptp.s__instance tptp.s__ContinuousFunction__t tptp.s__SetOrClass))
% 3.09/3.31 (assume a2414 (tptp.s__documentation tptp.s__ContinuousFunction tptp.s__EnglishLanguage |tptp.'&%Functions which are continuous. This concept is taken as primitive until representations for limits are devised.'|))
% 3.09/3.31 (assume a2415 (tptp.s__subclass tptp.s__BinaryPredicate tptp.s__Predicate))
% 3.09/3.31 (assume a2416 (tptp.s__subclass tptp.s__BinaryPredicate tptp.s__BinaryRelation))
% 3.09/3.31 (assume a2417 (tptp.s__instance tptp.s__BinaryRelation__t tptp.s__SetOrClass))
% 3.09/3.31 (assume a2418 (tptp.s__subclass tptp.s__BinaryPredicate tptp.s__InheritableRelation))
% 3.09/3.31 (assume a2419 (tptp.s__documentation tptp.s__BinaryPredicate tptp.s__EnglishLanguage |tptp.'A &%Predicate relating two items - its valence is two.'|))
% 3.09/3.31 (assume a2420 (forall ((V__REL $$unsorted)) (=> (tptp.s__instance V__REL tptp.s__Relation) (=> (tptp.s__instance V__REL tptp.s__BinaryPredicate) (tptp.s__valence V__REL |"2"|)))))
% 3.09/3.31 (assume a2421 (tptp.s__subclass tptp.s__TernaryPredicate tptp.s__Predicate))
% 3.09/3.31 (assume a2422 (tptp.s__subclass tptp.s__TernaryPredicate tptp.s__TernaryRelation))
% 3.09/3.31 (assume a2423 (tptp.s__instance tptp.s__TernaryRelation__t tptp.s__SetOrClass))
% 3.09/3.31 (assume a2424 (tptp.s__subclass tptp.s__TernaryPredicate tptp.s__InheritableRelation))
% 3.09/3.31 (assume a2425 (tptp.s__documentation tptp.s__TernaryPredicate tptp.s__EnglishLanguage |tptp.'The &%Class of &%Predicates that require exactly three arguments.'|))
% 3.09/3.31 (assume a2426 (forall ((V__REL $$unsorted)) (=> (tptp.s__instance V__REL tptp.s__Relation) (=> (tptp.s__instance V__REL tptp.s__TernaryPredicate) (tptp.s__valence V__REL |"3"|)))))
% 3.09/3.31 (assume a2427 (tptp.s__subclass tptp.s__QuaternaryPredicate tptp.s__Predicate))
% 3.09/3.31 (assume a2428 (tptp.s__subclass tptp.s__QuaternaryPredicate tptp.s__QuaternaryRelation))
% 3.09/3.31 (assume a2429 (tptp.s__subclass tptp.s__QuaternaryPredicate tptp.s__InheritableRelation))
% 3.09/3.31 (assume a2430 (tptp.s__instance tptp.s__QuaternaryPredicate__t tptp.s__SetOrClass))
% 3.09/3.31 (assume a2431 (tptp.s__documentation tptp.s__QuaternaryPredicate tptp.s__EnglishLanguage |tptp.'The &%Class of &%Predicates that require four arguments.'|))
% 3.09/3.31 (assume a2432 (forall ((V__REL $$unsorted)) (=> (tptp.s__instance V__REL tptp.s__Relation) (=> (tptp.s__instance V__REL tptp.s__QuaternaryPredicate) (tptp.s__valence V__REL |"4"|)))))
% 3.09/3.31 (assume a2433 (tptp.s__subclass tptp.s__QuintaryPredicate tptp.s__Predicate))
% 3.09/3.31 (assume a2434 (tptp.s__subclass tptp.s__QuintaryPredicate tptp.s__QuintaryRelation))
% 3.09/3.31 (assume a2435 (tptp.s__subclass tptp.s__QuintaryPredicate tptp.s__InheritableRelation))
% 3.09/3.31 (assume a2436 (tptp.s__instance tptp.s__QuintaryPredicate__t tptp.s__SetOrClass))
% 3.09/3.31 (assume a2437 (tptp.s__documentation tptp.s__QuintaryPredicate tptp.s__EnglishLanguage |tptp.'The &%Class of &%Predicates that require five arguments.'|))
% 3.09/3.31 (assume a2438 (forall ((V__REL $$unsorted)) (=> (tptp.s__instance V__REL tptp.s__Relation) (=> (tptp.s__instance V__REL tptp.s__QuintaryPredicate) (tptp.s__valence V__REL |"5"|)))))
% 3.09/3.31 (assume a2439 (tptp.s__subclass tptp.s__VariableArityRelation tptp.s__Relation))
% 3.09/3.31 (assume a2440 (tptp.s__documentation tptp.s__VariableArityRelation tptp.s__EnglishLanguage |tptp.'The &%Class of &%Relations that do not have a fixed number of arguments.'|))
% 3.09/3.31 (assume a2441 (forall ((V__REL $$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))))))))
% 3.09/3.31 (assume a2442 (tptp.s__subclass tptp.s__RelationExtendedToQuantities tptp.s__Relation))
% 3.09/3.31 (assume a2443 (tptp.s__subclass tptp.s__RelationExtendedToQuantities tptp.s__InheritableRelation))
% 3.09/3.31 (assume a2444 (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.'|))
% 3.09/3.31 (assume a2445 (tptp.s__subclass tptp.s__LogicalOperator tptp.s__Predicate))
% 3.09/3.31 (assume a2446 (tptp.s__instance tptp.s__LogicalOperator__t tptp.s__SetOrClass))
% 3.09/3.31 (assume a2447 (tptp.s__documentation tptp.s__LogicalOperator tptp.s__EnglishLanguage |tptp.'This &%Class comprises all of the logical operators (viz. and, or, not, =>, and <=>).'|))
% 3.09/3.31 (assume a2448 (tptp.s__subclass tptp.s__Proposition tptp.s__Abstract))
% 3.09/3.31 (assume a2449 (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'|))
% 3.09/3.31 (assume a2450 (tptp.s__instance tptp.s__closedOn__m tptp.s__BinaryPredicate))
% 3.09/3.31 (assume a2451 (tptp.s__instance tptp.s__closedOn__m tptp.s__AsymmetricRelation))
% 3.09/3.31 (assume a2452 (tptp.s__domain tptp.s__closedOn__m |"1"| tptp.s__Function))
% 3.09/3.31 (assume a2453 (tptp.s__domain tptp.s__closedOn__m |"2"| tptp.s__SetOrClass))
% 3.09/3.31 (assume a2454 (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.'|))
% 3.09/3.31 (assume a2455 (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)))))))
% 3.09/3.31 (assume a2456 (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)))))))
% 3.09/3.31 (assume a2457 (tptp.s__instance tptp.s__reflexiveOn__m tptp.s__BinaryPredicate))
% 3.09/3.31 (assume a2458 (tptp.s__instance tptp.s__reflexiveOn__m tptp.s__AsymmetricRelation))
% 3.09/3.31 (assume a2459 (tptp.s__domain tptp.s__reflexiveOn__m |"1"| tptp.s__BinaryRelation))
% 3.09/3.31 (assume a2460 (tptp.s__domain tptp.s__reflexiveOn__m |"2"| tptp.s__SetOrClass))
% 3.09/3.31 (assume a2461 (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.'|))
% 3.09/3.31 (assume a2462 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__distributes__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__BinaryFunction) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__distributes V__INST V__INST)))))))
% 3.09/3.31 (assume a2463 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__manner__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__manner V__INST V__INST)))))))
% 3.09/3.31 (assume a2464 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__relatedEvent__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__relatedEvent V__INST V__INST)))))))
% 3.09/3.31 (assume a2465 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__identicalListItems__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__List) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__identicalListItems V__INST V__INST)))))))
% 3.09/3.31 (assume a2466 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__acquaintance__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Human) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__acquaintance V__INST V__INST)))))))
% 3.09/3.31 (assume a2467 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__spouse__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Human) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__spouse V__INST V__INST)))))))
% 3.09/3.31 (assume a2468 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__exploits__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (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__exploits V__INST V__INST)))))))
% 3.09/3.31 (assume a2469 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__believes__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__CognitiveAgent) (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__believes V__INST V__INST)))))))
% 3.09/3.31 (assume a2470 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__resource__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (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__resource V__INST V__INST)))))))
% 3.09/3.31 (assume a2471 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__closedOn__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Function) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__closedOn V__INST V__INST)))))))
% 3.09/3.31 (assume a2472 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__brother__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Man) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__brother V__INST V__INST)))))))
% 3.09/3.31 (assume a2473 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__conclusion__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Argument) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__conclusion V__INST V__INST)))))))
% 3.09/3.31 (assume a2474 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__subsumesContentInstance__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__ContentBearingPhysical) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__subsumesContentInstance V__INST V__INST)))))))
% 3.09/3.31 (assume a2475 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__employs__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Organization) (tptp.s__instance V__INST tptp.s__CognitiveAgent) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__employs V__INST V__INST)))))))
% 3.09/3.31 (assume a2476 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__containsInformation__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__ContentBearingPhysical) (tptp.s__instance V__INST tptp.s__Proposition) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__containsInformation V__INST V__INST)))))))
% 3.09/3.31 (assume a2477 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__properlyFills__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Hole) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__properlyFills V__INST V__INST)))))))
% 3.09/3.31 (assume a2478 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__barometricPressure__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__INST tptp.s__UnitOfAtmosphericPressure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__barometricPressure V__INST V__INST)))))))
% 3.09/3.31 (assume a2479 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__finishes__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__TimeInterval) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__finishes V__INST V__INST)))))))
% 3.09/3.31 (assume a2480 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__parent__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Organism) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__parent V__INST V__INST)))))))
% 3.09/3.31 (assume a2481 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__located__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (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__located V__INST V__INST)))))))
% 3.09/3.31 (assume a2482 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__partialOrderingOn__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__BinaryRelation) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__partialOrderingOn V__INST V__INST)))))))
% 3.09/3.31 (assume a2483 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__average__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__List) (tptp.s__instance V__INST tptp.s__RealNumber) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__average V__INST V__INST)))))))
% 3.09/3.31 (assume a2484 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__lineMeasure__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__OneDimensionalFigure) (tptp.s__instance V__INST tptp.s__LengthMeasure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__lineMeasure V__INST V__INST)))))))
% 3.09/3.31 (assume a2485 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__abstractCounterpart__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Abstract) (tptp.s__instance V__INST tptp.s__Physical) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__abstractCounterpart V__INST V__INST)))))))
% 3.09/3.31 (assume a2486 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__date__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Physical) (tptp.s__instance V__INST tptp.s__Day) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__date V__INST V__INST)))))))
% 3.09/3.31 (assume a2487 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__member__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SelfConnectedObject) (tptp.s__instance V__INST tptp.s__Collection) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__member V__INST V__INST)))))))
% 3.09/3.31 (assume a2488 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__meetsTemporally__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__TimeInterval) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__meetsTemporally V__INST V__INST)))))))
% 3.09/3.31 (assume a2489 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__diameter__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Circle) (tptp.s__instance V__INST tptp.s__LengthMeasure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__diameter V__INST V__INST)))))))
% 3.09/3.31 (assume a2490 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.greater__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Quantity) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.greater V__INST V__INST)))))))
% 3.09/3.31 (assume a2491 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__entails__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__entails V__INST V__INST)))))))
% 3.09/3.31 (assume a2492 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__subCollection__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Collection) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__subCollection V__INST V__INST)))))))
% 3.09/3.31 (assume a2493 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__expressedInLanguage__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Language) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__expressedInLanguage V__INST V__INST)))))))
% 3.09/3.31 (assume a2494 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__sister__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Woman) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__sister V__INST V__INST)))))))
% 3.09/3.31 (assume a2495 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__irreflexiveOn__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__BinaryRelation) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__irreflexiveOn V__INST V__INST)))))))
% 3.09/3.31 (assume a2496 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__boilingPoint__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__PureSubstance) (tptp.s__instance V__INST tptp.s__TemperatureMeasure) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__boilingPoint V__INST V__INST)))))))
% 3.09/3.31 (assume a2497 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__crosses__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (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__crosses V__INST V__INST)))))))
% 3.09/3.31 (assume a2498 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__angularMeasure__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__TwoDimensionalAngle) (tptp.s__instance V__INST tptp.s__PlaneAngleMeasure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__angularMeasure V__INST V__INST)))))))
% 3.09/3.31 (assume a2499 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__precondition__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__precondition V__INST V__INST)))))))
% 3.09/3.31 (assume a2500 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__trichotomizingOn__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__BinaryRelation) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__trichotomizingOn V__INST V__INST)))))))
% 3.09/3.31 (assume a2501 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__inScopeOfInterest__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__CognitiveAgent) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__inScopeOfInterest V__INST V__INST)))))))
% 3.09/3.31 (assume a2502 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__disjointRelation__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Relation) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__disjointRelation V__INST V__INST)))))))
% 3.09/3.31 (assume a2503 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__atomicNumber__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__ElementalSubstance) (tptp.s__instance V__INST tptp.s__PositiveInteger) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__atomicNumber V__INST V__INST)))))))
% 3.09/3.31 (assume a2504 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__origin__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (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__origin V__INST V__INST)))))))
% 3.09/3.31 (assume a2505 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__ancestor__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Organism) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__ancestor V__INST V__INST)))))))
% 3.09/3.31 (assume a2506 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__angleOfFigure__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__TwoDimensionalAngle) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__angleOfFigure V__INST V__INST)))))))
% 3.09/3.31 (assume a2507 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__uniqueIdentifier__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SymbolicString) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__uniqueIdentifier V__INST V__INST)))))))
% 3.09/3.31 (assume a2508 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__valence__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Relation) (tptp.s__instance V__INST tptp.s__PositiveInteger) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__valence V__INST V__INST)))))))
% 3.09/3.31 (assume a2509 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__temporalPart__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__TimePosition) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__temporalPart V__INST V__INST)))))))
% 3.09/3.31 (assume a2510 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__mother__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Organism) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__mother V__INST V__INST)))))))
% 3.09/3.31 (assume a2511 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__attribute__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__INST tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__attribute V__INST V__INST)))))))
% 3.09/3.31 (assume a2512 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__destination__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__destination V__INST V__INST)))))))
% 3.09/3.31 (assume a2513 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__mutualAcquaintance__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Human) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__mutualAcquaintance V__INST V__INST)))))))
% 3.09/3.31 (assume a2514 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__arcWeight__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__GraphArc) (tptp.s__instance V__INST tptp.s__Quantity) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__arcWeight V__INST V__INST)))))))
% 3.09/3.31 (assume a2515 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__developmentalForm__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__OrganicObject) (tptp.s__instance V__INST tptp.s__DevelopmentalAttribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__developmentalForm V__INST V__INST)))))))
% 3.09/3.31 (assume a2516 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__home__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Human) (tptp.s__instance V__INST tptp.s__PermanentResidence) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__home V__INST V__INST)))))))
% 3.09/3.31 (assume a2517 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__connected__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (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__connected V__INST V__INST)))))))
% 3.09/3.31 (assume a2518 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__relative__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Organism) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__relative V__INST V__INST)))))))
% 3.09/3.31 (assume a2519 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__sibling__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Organism) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__sibling V__INST V__INST)))))))
% 3.09/3.31 (assume a2520 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__top__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SelfConnectedObject) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__top V__INST V__INST)))))))
% 3.09/3.31 (assume a2521 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__equivalentContentClass__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__ContentBearingPhysical) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__equivalentContentClass V__INST V__INST)))))))
% 3.09/3.31 (assume a2522 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__patient__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__patient V__INST V__INST)))))))
% 3.09/3.31 (assume a2523 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__agent__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (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__agent V__INST V__INST)))))))
% 3.09/3.31 (assume a2524 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__totalOrderingOn__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__BinaryRelation) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__totalOrderingOn V__INST V__INST)))))))
% 3.09/3.31 (assume a2525 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__beforeOrEqual__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__TimePoint) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__beforeOrEqual V__INST V__INST)))))))
% 3.09/3.31 (assume a2526 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__material__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Substance) (tptp.s__instance V__INST tptp.s__CorpuscularObject) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__material V__INST V__INST)))))))
% 3.09/3.31 (assume a2527 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__identityElement__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__BinaryFunction) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__identityElement V__INST V__INST)))))))
% 3.09/3.31 (assume a2528 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__smaller__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (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__smaller V__INST V__INST)))))))
% 3.09/3.31 (assume a2529 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__subProposition__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Proposition) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__subProposition V__INST V__INST)))))))
% 3.09/3.31 (assume a2530 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__cooccur__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Physical) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__cooccur V__INST V__INST)))))))
% 3.09/3.31 (assume a2531 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__subAttribute__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__subAttribute V__INST V__INST)))))))
% 3.09/3.31 (assume a2532 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__needs__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__CognitiveAgent) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__needs V__INST V__INST)))))))
% 3.09/3.31 (assume a2533 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__realization__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__Proposition) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__realization V__INST V__INST)))))))
% 3.09/3.31 (assume a2534 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__geopoliticalSubdivision__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__GeopoliticalArea) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__geopoliticalSubdivision V__INST V__INST)))))))
% 3.09/3.31 (assume a2535 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__authors__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Text) (tptp.s__instance V__INST tptp.s__Agent) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__authors V__INST V__INST)))))))
% 3.09/3.31 (assume a2536 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__superficialPart__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (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__superficialPart V__INST V__INST)))))))
% 3.09/3.31 (assume a2537 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__during__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__TimeInterval) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__during V__INST V__INST)))))))
% 3.09/3.31 (assume a2538 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__parallel__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__OneDimensionalFigure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__parallel V__INST V__INST)))))))
% 3.09/3.31 (assume a2539 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__piece__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Substance) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__piece V__INST V__INST)))))))
% 3.09/3.31 (assume a2540 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__inhibits__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__inhibits V__INST V__INST)))))))
% 3.09/3.31 (assume a2541 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__causesSubclass__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__causesSubclass V__INST V__INST)))))))
% 3.09/3.31 (assume a2542 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__changesLocation__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Translocation) (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__changesLocation V__INST V__INST)))))))
% 3.09/3.31 (assume a2543 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__bottom__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SelfConnectedObject) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__bottom V__INST V__INST)))))))
% 3.09/3.31 (assume a2544 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__time__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Physical) (tptp.s__instance V__INST tptp.s__TimePosition) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__time V__INST V__INST)))))))
% 3.09/3.31 (assume a2545 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__considers__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__CognitiveAgent) (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__considers V__INST V__INST)))))))
% 3.09/3.31 (assume a2546 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__independentProbability__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__independentProbability V__INST V__INST)))))))
% 3.09/3.31 (assume a2547 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__eventPartlyLocated__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (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__eventPartlyLocated V__INST V__INST)))))))
% 3.09/3.31 (assume a2548 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__path__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Motion) (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__path V__INST V__INST)))))))
% 3.09/3.31 (assume a2549 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__subPlan__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Plan) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__subPlan V__INST V__INST)))))))
% 3.09/3.31 (assume a2550 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__editor__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Text) (tptp.s__instance V__INST tptp.s__Agent) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__editor V__INST V__INST)))))))
% 3.09/3.31 (assume a2551 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__measure__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__INST tptp.s__PhysicalQuantity) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__measure V__INST V__INST)))))))
% 3.09/3.31 (assume a2552 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__age__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__INST tptp.s__TimeDuration) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__age V__INST V__INST)))))))
% 3.09/3.31 (assume a2553 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__transactionAmount__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__FinancialTransaction) (tptp.s__instance V__INST tptp.s__CurrencyMeasure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__transactionAmount V__INST V__INST)))))))
% 3.09/3.31 (assume a2554 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__frequency__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__TimeDuration) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__frequency V__INST V__INST)))))))
% 3.09/3.31 (assume a2555 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__equivalentContentInstance__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__ContentBearingPhysical) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__equivalentContentInstance V__INST V__INST)))))))
% 3.09/3.31 (assume a2556 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__wife__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Woman) (tptp.s__instance V__INST tptp.s__Man) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__wife V__INST V__INST)))))))
% 3.09/3.31 (assume a2557 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__uses__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (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__uses V__INST V__INST)))))))
% 3.09/3.31 (assume a2558 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__legalRelation__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Human) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__legalRelation V__INST V__INST)))))))
% 3.09/3.31 (assume a2559 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__linearExtent__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__INST tptp.s__LengthMeasure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__linearExtent V__INST V__INST)))))))
% 3.09/3.31 (assume a2560 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__experiencer__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (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__experiencer V__INST V__INST)))))))
% 3.09/3.31 (assume a2561 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__larger__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (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__larger V__INST V__INST)))))))
% 3.09/3.31 (assume a2562 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__result__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__result V__INST V__INST)))))))
% 3.09/3.31 (assume a2563 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.lesseq__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Quantity) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.lesseq V__INST V__INST)))))))
% 3.09/3.31 (assume a2564 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__element__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Set) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__element V__INST V__INST)))))))
% 3.09/3.31 (assume a2565 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__component__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__CorpuscularObject) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__component V__INST V__INST)))))))
% 3.09/3.31 (assume a2566 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__decreasesLikelihood__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__decreasesLikelihood V__INST V__INST)))))))
% 3.09/3.31 (assume a2567 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__moves__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Motion) (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__moves V__INST V__INST)))))))
% 3.09/3.31 (assume a2568 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__stays__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Human) (tptp.s__instance V__INST tptp.s__TemporaryResidence) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__stays V__INST V__INST)))))))
% 3.09/3.31 (assume a2569 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__externalImage__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SymbolicString) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__externalImage V__INST V__INST)))))))
% 3.09/3.31 (assume a2570 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__overlapsTemporally__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__TimeInterval) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__overlapsTemporally V__INST V__INST)))))))
% 3.09/3.31 (assume a2571 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__version__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Artifact) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__version V__INST V__INST)))))))
% 3.09/3.31 (assume a2572 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__length__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__INST tptp.s__LengthMeasure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__length V__INST V__INST)))))))
% 3.09/3.31 (assume a2573 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__property__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__property V__INST V__INST)))))))
% 3.09/3.31 (assume a2574 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__wants__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__CognitiveAgent) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__wants V__INST V__INST)))))))
% 3.09/3.31 (assume a2575 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__familyRelation__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Organism) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__familyRelation V__INST V__INST)))))))
% 3.09/3.31 (assume a2576 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__subset__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Set) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__subset V__INST V__INST)))))))
% 3.09/3.31 (assume a2577 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__inList__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__List) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__inList V__INST V__INST)))))))
% 3.09/3.31 (assume a2578 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__subclass__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__subclass V__INST V__INST)))))))
% 3.09/3.31 (assume a2579 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__side__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SelfConnectedObject) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__side V__INST V__INST)))))))
% 3.09/3.31 (assume a2580 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__grasps__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Animal) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__grasps V__INST V__INST)))))))
% 3.09/3.31 (assume a2581 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__exactlyLocated__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (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__exactlyLocated V__INST V__INST)))))))
% 3.09/3.31 (assume a2582 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__meltingPoint__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__PureSubstance) (tptp.s__instance V__INST tptp.s__TemperatureMeasure) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__meltingPoint V__INST V__INST)))))))
% 3.09/3.31 (assume a2583 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__pathLength__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__GraphPath) (tptp.s__instance V__INST tptp.s__PositiveInteger) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__pathLength V__INST V__INST)))))))
% 3.09/3.31 (assume a2584 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__possesses__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (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__possesses V__INST V__INST)))))))
% 3.09/3.31 (assume a2585 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__premise__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Argument) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__premise V__INST V__INST)))))))
% 3.09/3.31 (assume a2586 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__successorAttribute__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__successorAttribute V__INST V__INST)))))))
% 3.09/3.31 (assume a2587 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__subGraph__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Graph) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__subGraph V__INST V__INST)))))))
% 3.09/3.31 (assume a2588 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__leader__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Human) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__leader V__INST V__INST)))))))
% 3.09/3.31 (assume a2589 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__properPart__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (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__properPart V__INST V__INST)))))))
% 3.09/3.31 (assume a2590 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.greatereq__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Quantity) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.greatereq V__INST V__INST)))))))
% 3.09/3.31 (assume a2591 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__represents__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__CLASS tptp.s__SetOrClass) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__represents V__INST V__INST)))))))
% 3.09/3.31 (assume a2592 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__height__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SelfConnectedObject) (tptp.s__instance V__INST tptp.s__LengthMeasure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__height V__INST V__INST)))))))
% 3.09/3.31 (assume a2593 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__immediateInstance__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__immediateInstance V__INST V__INST)))))))
% 3.09/3.31 (assume a2594 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__completelyFills__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Hole) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__completelyFills V__INST V__INST)))))))
% 3.09/3.31 (assume a2595 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__publishes__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Text) (tptp.s__instance V__INST tptp.s__Organization) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__publishes V__INST V__INST)))))))
% 3.09/3.31 (assume a2596 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__subProcess__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__subProcess V__INST V__INST)))))))
% 3.09/3.31 (assume a2597 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__engineeringSubcomponent__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__EngineeringComponent) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__engineeringSubcomponent V__INST V__INST)))))))
% 3.09/3.31 (assume a2598 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__prevents__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__prevents V__INST V__INST)))))))
% 3.09/3.31 (assume a2599 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__desires__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__CognitiveAgent) (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__desires V__INST V__INST)))))))
% 3.09/3.31 (assume a2600 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__equivalenceRelationOn__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__BinaryRelation) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__equivalenceRelationOn V__INST V__INST)))))))
% 3.09/3.31 (assume a2601 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__graphPart__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__GraphElement) (tptp.s__instance V__INST tptp.s__Graph) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__graphPart V__INST V__INST)))))))
% 3.09/3.31 (assume a2602 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__subList__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__List) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__subList V__INST V__INST)))))))
% 3.09/3.31 (assume a2603 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__direction__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__DirectionalAttribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__direction V__INST V__INST)))))))
% 3.09/3.31 (assume a2604 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__involvedInEvent__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__involvedInEvent V__INST V__INST)))))))
% 3.09/3.31 (assume a2605 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__son__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Organism) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__son V__INST V__INST)))))))
% 3.09/3.31 (assume a2606 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__holdsObligation__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__INST tptp.s__CognitiveAgent) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__holdsObligation V__INST V__INST)))))))
% 3.09/3.31 (assume a2607 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__instance__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__instance V__INST V__INST)))))))
% 3.09/3.31 (assume a2608 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__hasSkill__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__Agent) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__hasSkill V__INST V__INST)))))))
% 3.09/3.31 (assume a2609 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__immediateSubclass__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__immediateSubclass V__INST V__INST)))))))
% 3.09/3.31 (assume a2610 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__daughter__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Organism) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__daughter V__INST V__INST)))))))
% 3.09/3.31 (assume a2611 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__traverses__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (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__traverses V__INST V__INST)))))))
% 3.09/3.31 (assume a2612 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__attends__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Demonstrating) (tptp.s__instance V__INST tptp.s__Human) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__attends V__INST V__INST)))))))
% 3.09/3.31 (assume a2613 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__overlapsPartially__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (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__overlapsPartially V__INST V__INST)))))))
% 3.09/3.31 (assume a2614 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__subsumesContentClass__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__ContentBearingPhysical) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__subsumesContentClass V__INST V__INST)))))))
% 3.09/3.31 (assume a2615 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__holdsDuring__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__TimePosition) (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__holdsDuring V__INST V__INST)))))))
% 3.09/3.31 (assume a2616 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__partlyLocated__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (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__partlyLocated V__INST V__INST)))))))
% 3.09/3.31 (assume a2617 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__geometricPart__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__GeometricFigure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__geometricPart V__INST V__INST)))))))
% 3.09/3.31 (assume a2618 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__meetsSpatially__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (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__meetsSpatially V__INST V__INST)))))))
% 3.09/3.31 (assume a2619 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__before__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__TimePoint) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__before V__INST V__INST)))))))
% 3.09/3.31 (assume a2620 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__initialList__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__List) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__initialList V__INST V__INST)))))))
% 3.09/3.31 (assume a2621 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__consistent__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Proposition) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__consistent V__INST V__INST)))))))
% 3.09/3.31 (assume a2622 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__contains__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SelfConnectedObject) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__contains V__INST V__INST)))))))
% 3.09/3.31 (assume a2623 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__overlapsSpatially__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (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__overlapsSpatially V__INST V__INST)))))))
% 3.09/3.31 (assume a2624 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__weight__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SelfConnectedObject) (tptp.s__instance V__INST tptp.s__MassMeasure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__weight V__INST V__INST)))))))
% 3.09/3.31 (assume a2625 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__truth__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Sentence) (tptp.s__instance V__INST tptp.s__TruthValue) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__truth V__INST V__INST)))))))
% 3.09/3.31 (assume a2626 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__radius__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Circle) (tptp.s__instance V__INST tptp.s__LengthMeasure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__radius V__INST V__INST)))))))
% 3.09/3.31 (assume a2627 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__monetaryValue__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Physical) (tptp.s__instance V__INST tptp.s__CurrencyMeasure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__monetaryValue V__INST V__INST)))))))
% 3.09/3.31 (assume a2628 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__names__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SymbolicString) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__names V__INST V__INST)))))))
% 3.09/3.31 (assume a2629 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__starts__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__TimeInterval) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__starts V__INST V__INST)))))))
% 3.09/3.31 (assume a2630 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__instrument__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (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__instrument V__INST V__INST)))))))
% 3.09/3.31 (assume a2631 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__multiplicativeFactor__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Integer) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__multiplicativeFactor V__INST V__INST)))))))
% 3.09/3.31 (assume a2632 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__faces__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__INST tptp.s__DirectionalAttribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__faces V__INST V__INST)))))))
% 3.09/3.31 (assume a2633 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__father__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Organism) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__father V__INST V__INST)))))))
% 3.09/3.31 (assume a2634 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__surface__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SelfConnectedObject) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__surface V__INST V__INST)))))))
% 3.09/3.31 (assume a2635 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__knows__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__CognitiveAgent) (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__knows V__INST V__INST)))))))
% 3.09/3.31 (assume a2636 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__subSystem__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__PhysicalSystem) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__subSystem V__INST V__INST)))))))
% 3.09/3.31 (assume a2637 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__citizen__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Human) (tptp.s__instance V__INST tptp.s__Nation) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__citizen V__INST V__INST)))))))
% 3.09/3.31 (assume a2638 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.less__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Quantity) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.less V__INST V__INST)))))))
% 3.09/3.31 (assume a2639 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__successorAttributeClosure__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__successorAttributeClosure V__INST V__INST)))))))
% 3.09/3.31 (assume a2640 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__increasesLikelihood__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__increasesLikelihood V__INST V__INST)))))))
% 3.09/3.31 (assume a2641 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__modalAttribute__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__INST tptp.s__NormativeAttribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__modalAttribute V__INST V__INST)))))))
% 3.09/3.31 (assume a2642 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__pointOfFigure__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__GeometricPoint) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__pointOfFigure V__INST V__INST)))))))
% 3.09/3.31 (assume a2643 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__causesProposition__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__causesProposition V__INST V__INST)))))))
% 3.09/3.31 (assume a2644 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__connectedEngineeringComponents__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__EngineeringComponent) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__connectedEngineeringComponents V__INST V__INST)))))))
% 3.09/3.31 (assume a2645 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__fills__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Hole) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__fills V__INST V__INST)))))))
% 3.09/3.31 (assume a2646 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__eventLocated__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (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__eventLocated V__INST V__INST)))))))
% 3.09/3.31 (assume a2647 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__causes__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__causes V__INST V__INST)))))))
% 3.09/3.31 (assume a2648 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__husband__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Man) (tptp.s__instance V__INST tptp.s__Woman) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__husband V__INST V__INST)))))))
% 3.09/3.31 (assume a2649 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__hole__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Hole) (tptp.s__instance V__INST tptp.s__SelfConnectedObject) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__hole V__INST V__INST)))))))
% 3.09/3.31 (assume a2650 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__wears__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Animal) (tptp.s__instance V__INST tptp.s__WearableItem) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__wears V__INST V__INST)))))))
% 3.09/3.31 (assume a2651 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__duration__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__TimeInterval) (tptp.s__instance V__INST tptp.s__TimeDuration) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__duration V__INST V__INST)))))))
% 3.09/3.31 (assume a2652 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__penetrates__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (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__penetrates V__INST V__INST)))))))
% 3.09/3.31 (assume a2653 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__part__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (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__part V__INST V__INST)))))))
% 3.09/3.31 (assume a2654 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__range__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Function) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__range V__INST V__INST)))))))
% 3.09/3.31 (assume a2655 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__partiallyFills__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Hole) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__partiallyFills V__INST V__INST)))))))
% 3.09/3.31 (assume a2656 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__subOrganization__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Organization) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__subOrganization V__INST V__INST)))))))
% 3.09/3.31 (assume a2657 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__systemPart__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__PhysicalSystem) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__systemPart V__INST V__INST)))))))
% 3.09/3.31 (assume a2658 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__geographicSubregion__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__GeographicArea) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__geographicSubregion V__INST V__INST)))))))
% 3.09/3.31 (assume a2659 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__rangeSubclass__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__SetOrClass) (tptp.s__instance V__INST tptp.s__Function) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__rangeSubclass V__INST V__INST)))))))
% 3.09/3.31 (assume a2660 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__graphMeasure__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Graph) (tptp.s__instance V__INST tptp.s__UnitOfMeasure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__graphMeasure V__INST V__INST)))))))
% 3.09/3.31 (assume a2661 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__inverse__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__BinaryRelation) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__inverse V__INST V__INST)))))))
% 3.09/3.31 (assume a2662 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__relatedInternalConcept__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__CLASS tptp.s__SetOrClass) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__relatedInternalConcept V__INST V__INST)))))))
% 3.09/3.31 (assume a2663 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__earlier__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__TimeInterval) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__earlier V__INST V__INST)))))))
% 3.09/3.31 (assume a2664 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__hasPurpose__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__hasPurpose V__INST V__INST)))))))
% 3.09/3.31 (assume a2665 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__reflexiveOn__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__BinaryRelation) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__reflexiveOn V__INST V__INST)))))))
% 3.09/3.31 (assume a2666 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__subrelation__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Relation) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__subrelation V__INST V__INST)))))))
% 3.09/3.31 (assume a2667 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__interiorPart__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (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__interiorPart V__INST V__INST)))))))
% 3.09/3.31 (assume a2668 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__copy__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (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__copy V__INST V__INST)))))))
% 3.09/3.31 (assume a2669 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__disjoint__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__disjoint V__INST V__INST)))))))
% 3.09/3.31 (assume a2670 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__holdsRight__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__INST tptp.s__CognitiveAgent) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__holdsRight V__INST V__INST)))))))
% 3.09/3.31 (assume a2671 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__inhabits__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Organism) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__inhabits V__INST V__INST)))))))
% 3.09/3.31 (assume a2672 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__refers__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__CLASS tptp.s__SetOrClass) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__refers V__INST V__INST)))))))
% 3.09/3.31 (assume a2673 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__reflexiveOn tptp.s__width__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__INST tptp.s__LengthMeasure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (tptp.s__width V__INST V__INST)))))))
% 3.09/3.31 (assume a2674 (tptp.s__instance tptp.s__irreflexiveOn__m tptp.s__BinaryPredicate))
% 3.09/3.31 (assume a2675 (tptp.s__instance tptp.s__irreflexiveOn__m tptp.s__AsymmetricRelation))
% 3.09/3.31 (assume a2676 (tptp.s__domain tptp.s__irreflexiveOn__m |"1"| tptp.s__BinaryRelation))
% 3.09/3.31 (assume a2677 (tptp.s__domain tptp.s__irreflexiveOn__m |"2"| tptp.s__SetOrClass))
% 3.09/3.31 (assume a2678 (tptp.s__documentation tptp.s__irreflexiveOn__m tptp.s__EnglishLanguage |tptp.'A &%BinaryRelation is irreflexive on a &%SetOrClass only if no instance of the &%SetOrClass bears the relation to itself.'|))
% 3.09/3.31 (assume a2679 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__starts__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__TimeInterval) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__starts V__INST V__INST))))))))
% 3.09/3.31 (assume a2680 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__time__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Physical) (tptp.s__instance V__INST tptp.s__TimePosition) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__time V__INST V__INST))))))))
% 3.09/3.31 (assume a2681 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__geopoliticalSubdivision__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__GeopoliticalArea) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__geopoliticalSubdivision V__INST V__INST))))))))
% 3.09/3.31 (assume a2682 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__truth__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Sentence) (tptp.s__instance V__INST tptp.s__TruthValue) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__truth V__INST V__INST))))))))
% 3.09/3.31 (assume a2683 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__wife__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Woman) (tptp.s__instance V__INST tptp.s__Man) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__wife V__INST V__INST))))))))
% 3.09/3.31 (assume a2684 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__overlapsSpatially__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__overlapsSpatially V__INST V__INST))))))))
% 3.09/3.31 (assume a2685 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__weight__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SelfConnectedObject) (tptp.s__instance V__INST tptp.s__MassMeasure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__weight V__INST V__INST))))))))
% 3.09/3.31 (assume a2686 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__meltingPoint__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__PureSubstance) (tptp.s__instance V__INST tptp.s__TemperatureMeasure) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__meltingPoint V__INST V__INST))))))))
% 3.09/3.31 (assume a2687 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__result__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__result V__INST V__INST))))))))
% 3.09/3.31 (assume a2688 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__subOrganization__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Organization) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__subOrganization V__INST V__INST))))))))
% 3.09/3.31 (assume a2689 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__subProposition__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Proposition) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__subProposition V__INST V__INST))))))))
% 3.09/3.31 (assume a2690 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__height__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SelfConnectedObject) (tptp.s__instance V__INST tptp.s__LengthMeasure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__height V__INST V__INST))))))))
% 3.09/3.31 (assume a2691 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__relatedInternalConcept__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__CLASS tptp.s__SetOrClass) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__relatedInternalConcept V__INST V__INST))))))))
% 3.09/3.31 (assume a2692 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__involvedInEvent__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__involvedInEvent V__INST V__INST))))))))
% 3.09/3.31 (assume a2693 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__publishes__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Text) (tptp.s__instance V__INST tptp.s__Organization) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__publishes V__INST V__INST))))))))
% 3.09/3.31 (assume a2694 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__citizen__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Human) (tptp.s__instance V__INST tptp.s__Nation) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__citizen V__INST V__INST))))))))
% 3.09/3.31 (assume a2695 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__measure__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__INST tptp.s__PhysicalQuantity) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__measure V__INST V__INST))))))))
% 3.09/3.31 (assume a2696 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__width__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__INST tptp.s__LengthMeasure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__width V__INST V__INST))))))))
% 3.09/3.31 (assume a2697 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__subclass__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__subclass V__INST V__INST))))))))
% 3.09/3.31 (assume a2698 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__experiencer__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__Agent) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__experiencer V__INST V__INST))))))))
% 3.09/3.31 (assume a2699 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__range__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Function) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__range V__INST V__INST))))))))
% 3.09/3.31 (assume a2700 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__legalRelation__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Human) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__legalRelation V__INST V__INST))))))))
% 3.09/3.31 (assume a2701 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__multiplicativeFactor__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Integer) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__multiplicativeFactor V__INST V__INST))))))))
% 3.09/3.31 (assume a2702 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__cooccur__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Physical) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__cooccur V__INST V__INST))))))))
% 3.09/3.31 (assume a2703 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__editor__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Text) (tptp.s__instance V__INST tptp.s__Agent) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__editor V__INST V__INST))))))))
% 3.09/3.31 (assume a2704 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__before__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__TimePoint) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__before V__INST V__INST))))))))
% 3.09/3.31 (assume a2705 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__hasPurpose__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__hasPurpose V__INST V__INST))))))))
% 3.09/3.31 (assume a2706 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__causesSubclass__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__causesSubclass V__INST V__INST))))))))
% 3.09/3.31 (assume a2707 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__trichotomizingOn__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__BinaryRelation) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__trichotomizingOn V__INST V__INST))))))))
% 3.09/3.31 (assume a2708 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__husband__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Man) (tptp.s__instance V__INST tptp.s__Woman) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__husband V__INST V__INST))))))))
% 3.09/3.31 (assume a2709 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__totalOrderingOn__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__BinaryRelation) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__totalOrderingOn V__INST V__INST))))))))
% 3.09/3.31 (assume a2710 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__member__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SelfConnectedObject) (tptp.s__instance V__INST tptp.s__Collection) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__member V__INST V__INST))))))))
% 3.09/3.31 (assume a2711 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__father__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Organism) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__father V__INST V__INST))))))))
% 3.09/3.31 (assume a2712 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__larger__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__larger V__INST V__INST))))))))
% 3.09/3.31 (assume a2713 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__subAttribute__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__subAttribute V__INST V__INST))))))))
% 3.09/3.31 (assume a2714 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__overlapsPartially__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__overlapsPartially V__INST V__INST))))))))
% 3.09/3.31 (assume a2715 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__instrument__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__instrument V__INST V__INST))))))))
% 3.09/3.31 (assume a2716 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__sister__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Woman) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__sister V__INST V__INST))))))))
% 3.09/3.31 (assume a2717 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__boilingPoint__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__PureSubstance) (tptp.s__instance V__INST tptp.s__TemperatureMeasure) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__boilingPoint V__INST V__INST))))))))
% 3.09/3.31 (assume a2718 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__material__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Substance) (tptp.s__instance V__INST tptp.s__CorpuscularObject) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__material V__INST V__INST))))))))
% 3.09/3.31 (assume a2719 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__ancestor__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Organism) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__ancestor V__INST V__INST))))))))
% 3.09/3.31 (assume a2720 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__parent__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Organism) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__parent V__INST V__INST))))))))
% 3.09/3.31 (assume a2721 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__increasesLikelihood__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__increasesLikelihood V__INST V__INST))))))))
% 3.09/3.31 (assume a2722 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__partiallyFills__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Hole) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__partiallyFills V__INST V__INST))))))))
% 3.09/3.31 (assume a2723 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__developmentalForm__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__OrganicObject) (tptp.s__instance V__INST tptp.s__DevelopmentalAttribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__developmentalForm V__INST V__INST))))))))
% 3.09/3.31 (assume a2724 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__abstractCounterpart__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Abstract) (tptp.s__instance V__INST tptp.s__Physical) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__abstractCounterpart V__INST V__INST))))))))
% 3.09/3.31 (assume a2725 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__diameter__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Circle) (tptp.s__instance V__INST tptp.s__LengthMeasure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__diameter V__INST V__INST))))))))
% 3.09/3.31 (assume a2726 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.greater__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Quantity) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.greater V__INST V__INST))))))))
% 3.09/3.31 (assume a2727 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__subPlan__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Plan) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__subPlan V__INST V__INST))))))))
% 3.09/3.31 (assume a2728 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__prevents__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__prevents V__INST V__INST))))))))
% 3.09/3.31 (assume a2729 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__radius__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Circle) (tptp.s__instance V__INST tptp.s__LengthMeasure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__radius V__INST V__INST))))))))
% 3.09/3.31 (assume a2730 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__externalImage__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SymbolicString) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__externalImage V__INST V__INST))))))))
% 3.09/3.31 (assume a2731 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__son__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Organism) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__son V__INST V__INST))))))))
% 3.09/3.31 (assume a2732 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__side__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SelfConnectedObject) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__side V__INST V__INST))))))))
% 3.09/3.31 (assume a2733 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__inList__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__List) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__inList V__INST V__INST))))))))
% 3.09/3.31 (assume a2734 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__employs__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Organization) (tptp.s__instance V__INST tptp.s__CognitiveAgent) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__employs V__INST V__INST))))))))
% 3.09/3.31 (assume a2735 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.lesseq__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Quantity) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.lesseq V__INST V__INST))))))))
% 3.09/3.31 (assume a2736 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__realization__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__Proposition) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__realization V__INST V__INST))))))))
% 3.09/3.31 (assume a2737 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__rangeSubclass__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__SetOrClass) (tptp.s__instance V__INST tptp.s__Function) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__rangeSubclass V__INST V__INST))))))))
% 3.09/3.31 (assume a2738 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__geographicSubregion__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__GeographicArea) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__geographicSubregion V__INST V__INST))))))))
% 3.09/3.31 (assume a2739 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__conclusion__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Argument) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__conclusion V__INST V__INST))))))))
% 3.09/3.31 (assume a2740 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__attends__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Demonstrating) (tptp.s__instance V__INST tptp.s__Human) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__attends V__INST V__INST))))))))
% 3.09/3.31 (assume a2741 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__engineeringSubcomponent__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__EngineeringComponent) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__engineeringSubcomponent V__INST V__INST))))))))
% 3.09/3.31 (assume a2742 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__authors__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Text) (tptp.s__instance V__INST tptp.s__Agent) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__authors V__INST V__INST))))))))
% 3.09/3.31 (assume a2743 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__traverses__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__traverses V__INST V__INST))))))))
% 3.09/3.31 (assume a2744 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__subProcess__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__subProcess V__INST V__INST))))))))
% 3.09/3.31 (assume a2745 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__identityElement__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__BinaryFunction) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__identityElement V__INST V__INST))))))))
% 3.09/3.31 (assume a2746 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__interiorPart__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__interiorPart V__INST V__INST))))))))
% 3.09/3.31 (assume a2747 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__resource__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__resource V__INST V__INST))))))))
% 3.09/3.31 (assume a2748 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__connectedEngineeringComponents__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__EngineeringComponent) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__connectedEngineeringComponents V__INST V__INST))))))))
% 3.09/3.31 (assume a2749 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__pathLength__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__GraphPath) (tptp.s__instance V__INST tptp.s__PositiveInteger) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__pathLength V__INST V__INST))))))))
% 3.09/3.31 (assume a2750 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__wants__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__CognitiveAgent) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__wants V__INST V__INST))))))))
% 3.09/3.31 (assume a2751 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__eventLocated__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__eventLocated V__INST V__INST))))))))
% 3.09/3.31 (assume a2752 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__earlier__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__TimeInterval) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__earlier V__INST V__INST))))))))
% 3.09/3.31 (assume a2753 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__subset__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Set) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__subset V__INST V__INST))))))))
% 3.09/3.31 (assume a2754 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__subSystem__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__PhysicalSystem) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__subSystem V__INST V__INST))))))))
% 3.09/3.31 (assume a2755 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__subCollection__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Collection) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__subCollection V__INST V__INST))))))))
% 3.09/3.31 (assume a2756 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__causesProposition__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__causesProposition V__INST V__INST))))))))
% 3.09/3.31 (assume a2757 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__inScopeOfInterest__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__CognitiveAgent) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__inScopeOfInterest V__INST V__INST))))))))
% 3.09/3.31 (assume a2758 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__successorAttributeClosure__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__successorAttributeClosure V__INST V__INST))))))))
% 3.09/3.31 (assume a2759 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__subGraph__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Graph) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__subGraph V__INST V__INST))))))))
% 3.09/3.31 (assume a2760 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__hole__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Hole) (tptp.s__instance V__INST tptp.s__SelfConnectedObject) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__hole V__INST V__INST))))))))
% 3.09/3.31 (assume a2761 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__independentProbability__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__independentProbability V__INST V__INST))))))))
% 3.09/3.31 (assume a2762 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__connected__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__connected V__INST V__INST))))))))
% 3.09/3.31 (assume a2763 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__linearExtent__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__INST tptp.s__LengthMeasure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__linearExtent V__INST V__INST))))))))
% 3.09/3.31 (assume a2764 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__reflexiveOn__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__BinaryRelation) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__reflexiveOn V__INST V__INST))))))))
% 3.09/3.31 (assume a2765 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__identicalListItems__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__List) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__identicalListItems V__INST V__INST))))))))
% 3.09/3.31 (assume a2766 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__disjointRelation__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Relation) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__disjointRelation V__INST V__INST))))))))
% 3.09/3.31 (assume a2767 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__disjoint__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__disjoint V__INST V__INST))))))))
% 3.09/3.31 (assume a2768 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__bottom__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SelfConnectedObject) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__bottom V__INST V__INST))))))))
% 3.09/3.31 (assume a2769 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__consistent__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Proposition) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__consistent V__INST V__INST))))))))
% 3.09/3.31 (assume a2770 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__superficialPart__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__superficialPart V__INST V__INST))))))))
% 3.09/3.31 (assume a2771 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__destination__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__destination V__INST V__INST))))))))
% 3.09/3.31 (assume a2772 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__penetrates__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__penetrates V__INST V__INST))))))))
% 3.09/3.31 (assume a2773 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__moves__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Motion) (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__moves V__INST V__INST))))))))
% 3.09/3.31 (assume a2774 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__equivalentContentInstance__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__ContentBearingPhysical) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__equivalentContentInstance V__INST V__INST))))))))
% 3.09/3.31 (assume a2775 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__partlyLocated__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__partlyLocated V__INST V__INST))))))))
% 3.09/3.31 (assume a2776 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__stays__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Human) (tptp.s__instance V__INST tptp.s__TemporaryResidence) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__stays V__INST V__INST))))))))
% 3.09/3.31 (assume a2777 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__believes__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__CognitiveAgent) (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__believes V__INST V__INST))))))))
% 3.09/3.31 (assume a2778 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__subList__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__List) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__subList V__INST V__INST))))))))
% 3.09/3.31 (assume a2779 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__initialList__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__List) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__initialList V__INST V__INST))))))))
% 3.09/3.31 (assume a2780 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__direction__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__DirectionalAttribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__direction V__INST V__INST))))))))
% 3.09/3.31 (assume a2781 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__barometricPressure__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__INST tptp.s__UnitOfAtmosphericPressure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__barometricPressure V__INST V__INST))))))))
% 3.09/3.31 (assume a2782 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__inhabits__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Organism) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__inhabits V__INST V__INST))))))))
% 3.09/3.31 (assume a2783 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__needs__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__CognitiveAgent) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__needs V__INST V__INST))))))))
% 3.09/3.31 (assume a2784 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__subsumesContentClass__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__ContentBearingPhysical) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__subsumesContentClass V__INST V__INST))))))))
% 3.09/3.31 (assume a2785 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__equivalentContentClass__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__ContentBearingPhysical) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__equivalentContentClass V__INST V__INST))))))))
% 3.09/3.31 (assume a2786 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__knows__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__CognitiveAgent) (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__knows V__INST V__INST))))))))
% 3.09/3.31 (assume a2787 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__entails__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__entails V__INST V__INST))))))))
% 3.09/3.31 (assume a2788 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__wears__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Animal) (tptp.s__instance V__INST tptp.s__WearableItem) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__wears V__INST V__INST))))))))
% 3.09/3.31 (assume a2789 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__hasSkill__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__Agent) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__hasSkill V__INST V__INST))))))))
% 3.09/3.31 (assume a2790 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__names__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SymbolicString) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__names V__INST V__INST))))))))
% 3.09/3.31 (assume a2791 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__valence__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Relation) (tptp.s__instance V__INST tptp.s__PositiveInteger) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__valence V__INST V__INST))))))))
% 3.09/3.31 (assume a2792 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__origin__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__origin V__INST V__INST))))))))
% 3.09/3.31 (assume a2793 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__average__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__List) (tptp.s__instance V__INST tptp.s__RealNumber) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__average V__INST V__INST))))))))
% 3.09/3.31 (assume a2794 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__graphPart__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__GraphElement) (tptp.s__instance V__INST tptp.s__Graph) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__graphPart V__INST V__INST))))))))
% 3.09/3.31 (assume a2795 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__immediateSubclass__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__immediateSubclass V__INST V__INST))))))))
% 3.09/3.31 (assume a2796 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__familyRelation__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Organism) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__familyRelation V__INST V__INST))))))))
% 3.09/3.31 (assume a2797 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__causes__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__causes V__INST V__INST))))))))
% 3.09/3.31 (assume a2798 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__uniqueIdentifier__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SymbolicString) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__uniqueIdentifier V__INST V__INST))))))))
% 3.09/3.31 (assume a2799 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__acquaintance__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Human) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__acquaintance V__INST V__INST))))))))
% 3.09/3.31 (assume a2800 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__successorAttribute__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__successorAttribute V__INST V__INST))))))))
% 3.09/3.31 (assume a2801 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__instance__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__instance V__INST V__INST))))))))
% 3.09/3.31 (assume a2802 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__manner__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__manner V__INST V__INST))))))))
% 3.09/3.31 (assume a2803 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__mother__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Organism) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__mother V__INST V__INST))))))))
% 3.09/3.31 (assume a2804 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__meetsTemporally__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__TimeInterval) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__meetsTemporally V__INST V__INST))))))))
% 3.09/3.31 (assume a2805 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__pointOfFigure__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__GeometricPoint) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__pointOfFigure V__INST V__INST))))))))
% 3.09/3.31 (assume a2806 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__contains__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SelfConnectedObject) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__contains V__INST V__INST))))))))
% 3.09/3.31 (assume a2807 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__daughter__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Organism) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__daughter V__INST V__INST))))))))
% 3.09/3.31 (assume a2808 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__temporalPart__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__TimePosition) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__temporalPart V__INST V__INST))))))))
% 3.09/3.31 (assume a2809 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__located__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__located V__INST V__INST))))))))
% 3.09/3.31 (assume a2810 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__piece__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Substance) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__piece V__INST V__INST))))))))
% 3.09/3.31 (assume a2811 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__mutualAcquaintance__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Human) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__mutualAcquaintance V__INST V__INST))))))))
% 3.09/3.31 (assume a2812 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__exploits__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Agent) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__exploits V__INST V__INST))))))))
% 3.09/3.31 (assume a2813 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__properPart__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__properPart V__INST V__INST))))))))
% 3.09/3.31 (assume a2814 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__version__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Artifact) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__version V__INST V__INST))))))))
% 3.09/3.31 (assume a2815 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__date__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Physical) (tptp.s__instance V__INST tptp.s__Day) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__date V__INST V__INST))))))))
% 3.09/3.31 (assume a2816 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__systemPart__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__PhysicalSystem) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__systemPart V__INST V__INST))))))))
% 3.09/3.31 (assume a2817 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__attribute__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__INST tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__attribute V__INST V__INST))))))))
% 3.09/3.31 (assume a2818 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__brother__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Man) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__brother V__INST V__INST))))))))
% 3.09/3.31 (assume a2819 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__graphMeasure__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Graph) (tptp.s__instance V__INST tptp.s__UnitOfMeasure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__graphMeasure V__INST V__INST))))))))
% 3.09/3.31 (assume a2820 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__properlyFills__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Hole) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__properlyFills V__INST V__INST))))))))
% 3.09/3.31 (assume a2821 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__age__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__INST tptp.s__TimeDuration) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__age V__INST V__INST))))))))
% 3.09/3.31 (assume a2822 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__copy__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__copy V__INST V__INST))))))))
% 3.09/3.31 (assume a2823 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__surface__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SelfConnectedObject) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__surface V__INST V__INST))))))))
% 3.09/3.31 (assume a2824 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__crosses__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__crosses V__INST V__INST))))))))
% 3.09/3.31 (assume a2825 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__transactionAmount__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__FinancialTransaction) (tptp.s__instance V__INST tptp.s__CurrencyMeasure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__transactionAmount V__INST V__INST))))))))
% 3.09/3.31 (assume a2826 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__expressedInLanguage__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Language) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__expressedInLanguage V__INST V__INST))))))))
% 3.09/3.31 (assume a2827 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__leader__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Human) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__leader V__INST V__INST))))))))
% 3.09/3.31 (assume a2828 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__represents__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__CLASS tptp.s__SetOrClass) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__represents V__INST V__INST))))))))
% 3.09/3.31 (assume a2829 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__decreasesLikelihood__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__decreasesLikelihood V__INST V__INST))))))))
% 3.09/3.31 (assume a2830 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__grasps__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Animal) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__grasps V__INST V__INST))))))))
% 3.09/3.31 (assume a2831 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__meetsSpatially__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__meetsSpatially V__INST V__INST))))))))
% 3.09/3.31 (assume a2832 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__overlapsTemporally__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__TimeInterval) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__overlapsTemporally V__INST V__INST))))))))
% 3.09/3.31 (assume a2833 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__smaller__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__smaller V__INST V__INST))))))))
% 3.09/3.31 (assume a2834 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__monetaryValue__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Physical) (tptp.s__instance V__INST tptp.s__CurrencyMeasure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__monetaryValue V__INST V__INST))))))))
% 3.09/3.31 (assume a2835 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__irreflexiveOn__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__BinaryRelation) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__irreflexiveOn V__INST V__INST))))))))
% 3.09/3.31 (assume a2836 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.less__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Quantity) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.less V__INST V__INST))))))))
% 3.09/3.31 (assume a2837 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__equivalenceRelationOn__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__BinaryRelation) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__equivalenceRelationOn V__INST V__INST))))))))
% 3.09/3.31 (assume a2838 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__closedOn__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Function) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__closedOn V__INST V__INST))))))))
% 3.09/3.31 (assume a2839 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__angularMeasure__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__TwoDimensionalAngle) (tptp.s__instance V__INST tptp.s__PlaneAngleMeasure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__angularMeasure V__INST V__INST))))))))
% 3.09/3.31 (assume a2840 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__inhibits__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__inhibits V__INST V__INST))))))))
% 3.09/3.31 (assume a2841 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__home__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Human) (tptp.s__instance V__INST tptp.s__PermanentResidence) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__home V__INST V__INST))))))))
% 3.09/3.31 (assume a2842 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__modalAttribute__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__INST tptp.s__NormativeAttribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__modalAttribute V__INST V__INST))))))))
% 3.09/3.31 (assume a2843 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__during__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__TimeInterval) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__during V__INST V__INST))))))))
% 3.09/3.31 (assume a2844 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__top__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SelfConnectedObject) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__top V__INST V__INST))))))))
% 3.09/3.31 (assume a2845 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__fills__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Hole) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__fills V__INST V__INST))))))))
% 3.09/3.31 (assume a2846 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__desires__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__CognitiveAgent) (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__desires V__INST V__INST))))))))
% 3.09/3.31 (assume a2847 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__faces__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__INST tptp.s__DirectionalAttribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__faces V__INST V__INST))))))))
% 3.09/3.31 (assume a2848 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__distributes__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__BinaryFunction) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__distributes V__INST V__INST))))))))
% 3.09/3.31 (assume a2849 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__holdsRight__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__INST tptp.s__CognitiveAgent) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__holdsRight V__INST V__INST))))))))
% 3.09/3.31 (assume a2850 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__sibling__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Organism) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__sibling V__INST V__INST))))))))
% 3.09/3.31 (assume a2851 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__spouse__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Human) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__spouse V__INST V__INST))))))))
% 3.09/3.31 (assume a2852 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__angleOfFigure__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__TwoDimensionalAngle) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__angleOfFigure V__INST V__INST))))))))
% 3.09/3.31 (assume a2853 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__holdsDuring__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__TimePosition) (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__holdsDuring V__INST V__INST))))))))
% 3.09/3.31 (assume a2854 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__holdsObligation__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__INST tptp.s__CognitiveAgent) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__holdsObligation V__INST V__INST))))))))
% 3.09/3.31 (assume a2855 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__partialOrderingOn__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__BinaryRelation) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__partialOrderingOn V__INST V__INST))))))))
% 3.09/3.31 (assume a2856 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__subsumesContentInstance__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__ContentBearingPhysical) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__subsumesContentInstance V__INST V__INST))))))))
% 3.09/3.31 (assume a2857 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__inverse__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__BinaryRelation) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__inverse V__INST V__INST))))))))
% 3.09/3.31 (assume a2858 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__containsInformation__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__ContentBearingPhysical) (tptp.s__instance V__INST tptp.s__Proposition) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__containsInformation V__INST V__INST))))))))
% 3.09/3.31 (assume a2859 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__beforeOrEqual__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__TimePoint) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__beforeOrEqual V__INST V__INST))))))))
% 3.09/3.31 (assume a2860 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__eventPartlyLocated__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__eventPartlyLocated V__INST V__INST))))))))
% 3.09/3.31 (assume a2861 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__element__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Set) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__element V__INST V__INST))))))))
% 3.09/3.31 (assume a2862 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__frequency__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__TimeDuration) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__frequency V__INST V__INST))))))))
% 3.09/3.31 (assume a2863 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__agent__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__Agent) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__agent V__INST V__INST))))))))
% 3.09/3.31 (assume a2864 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__premise__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Argument) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__premise V__INST V__INST))))))))
% 3.09/3.31 (assume a2865 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__considers__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__CognitiveAgent) (tptp.s__instance V__INST tptp.s__Formula) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__considers V__INST V__INST))))))))
% 3.09/3.31 (assume a2866 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__precondition__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__Process) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__precondition V__INST V__INST))))))))
% 3.09/3.31 (assume a2867 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__relative__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Organism) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__relative V__INST V__INST))))))))
% 3.09/3.31 (assume a2868 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__component__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__CorpuscularObject) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__component V__INST V__INST))))))))
% 3.09/3.31 (assume a2869 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.greatereq__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Quantity) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.greatereq V__INST V__INST))))))))
% 3.09/3.31 (assume a2870 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__exactlyLocated__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__exactlyLocated V__INST V__INST))))))))
% 3.09/3.31 (assume a2871 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__subrelation__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Relation) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__subrelation V__INST V__INST))))))))
% 3.09/3.31 (assume a2872 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__property__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Attribute) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__property V__INST V__INST))))))))
% 3.09/3.31 (assume a2873 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__duration__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__TimeInterval) (tptp.s__instance V__INST tptp.s__TimeDuration) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__duration V__INST V__INST))))))))
% 3.09/3.31 (assume a2874 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__uses__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Agent) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__uses V__INST V__INST))))))))
% 3.09/3.31 (assume a2875 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__finishes__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__TimeInterval) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__finishes V__INST V__INST))))))))
% 3.09/3.31 (assume a2876 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__refers__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (tptp.s__instance V__CLASS tptp.s__SetOrClass) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__refers V__INST V__INST))))))))
% 3.09/3.31 (assume a2877 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__parallel__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__OneDimensionalFigure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__parallel V__INST V__INST))))))))
% 3.09/3.31 (assume a2878 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__geometricPart__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__GeometricFigure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__geometricPart V__INST V__INST))))))))
% 3.09/3.31 (assume a2879 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__arcWeight__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__GraphArc) (tptp.s__instance V__INST tptp.s__Quantity) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__arcWeight V__INST V__INST))))))))
% 3.09/3.31 (assume a2880 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__possesses__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Agent) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__possesses V__INST V__INST))))))))
% 3.09/3.31 (assume a2881 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__immediateInstance__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__immediateInstance V__INST V__INST))))))))
% 3.09/3.31 (assume a2882 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__patient__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__patient V__INST V__INST))))))))
% 3.09/3.31 (assume a2883 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__changesLocation__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Translocation) (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__changesLocation V__INST V__INST))))))))
% 3.09/3.31 (assume a2884 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__completelyFills__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Hole) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__completelyFills V__INST V__INST))))))))
% 3.09/3.31 (assume a2885 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__length__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__INST tptp.s__LengthMeasure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__length V__INST V__INST))))))))
% 3.09/3.31 (assume a2886 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__lineMeasure__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__OneDimensionalFigure) (tptp.s__instance V__INST tptp.s__LengthMeasure) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__lineMeasure V__INST V__INST))))))))
% 3.09/3.31 (assume a2887 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__path__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Motion) (tptp.s__instance V__INST tptp.s__Object) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__path V__INST V__INST))))))))
% 3.09/3.31 (assume a2888 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__atomicNumber__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__subclass V__INST tptp.s__ElementalSubstance) (tptp.s__instance V__INST tptp.s__PositiveInteger) (tptp.s__instance V__INST tptp.s__SetOrClass) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__atomicNumber V__INST V__INST))))))))
% 3.09/3.31 (assume a2889 (forall ((V__CLASS $$unsorted)) (=> (tptp.s__irreflexiveOn tptp.s__relatedEvent__m V__CLASS) (forall ((V__INST $$unsorted)) (=> (and (tptp.s__instance V__INST tptp.s__Process) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (tptp.s__instance V__INST V__CLASS) (not (tptp.s__relatedEvent V__INST V__INST))))))))
% 3.09/3.31 (assume a2890 (tptp.s__instance tptp.s__partialOrderingOn__m tptp.s__BinaryPredicate))
% 3.09/3.31 (assume a2891 (tptp.s__instance tptp.s__partialOrderingOn__m tptp.s__AsymmetricRelation))
% 3.09/3.31 (assume a2892 (tptp.s__domain tptp.s__partialOrderingOn__m |"1"| tptp.s__BinaryRelation))
% 3.09/3.31 (assume a2893 (tptp.s__domain tptp.s__partialOrderingOn__m |"2"| tptp.s__SetOrClass))
% 3.09/3.31 (assume a2894 (tptp.s__documentation tptp.s__partialOrderingOn__m tptp.s__EnglishLanguage |tptp.'A &%BinaryRelation is a partial ordering on a &%SetOrClass only if the relation is &%reflexiveOn the &%SetOrClass, and it is both an &%AntisymmetricRelation, and a &%TransitiveRelation.'|))
% 3.09/3.31 (assume a2895 (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__partialOrderingOn V__RELATION V__CLASS) (and (tptp.s__reflexiveOn V__RELATION V__CLASS) (tptp.s__instance V__RELATION tptp.s__TransitiveRelation) (tptp.s__instance V__RELATION tptp.s__AntisymmetricRelation))))))
% 3.09/3.31 (assume a2896 (tptp.s__instance tptp.s__totalOrderingOn__m tptp.s__BinaryPredicate))
% 3.09/3.31 (assume a2897 (tptp.s__instance tptp.s__totalOrderingOn__m tptp.s__AsymmetricRelation))
% 3.09/3.31 (assume a2898 (tptp.s__domain tptp.s__totalOrderingOn__m |"1"| tptp.s__BinaryRelation))
% 3.09/3.31 (assume a2899 (tptp.s__domain tptp.s__totalOrderingOn__m |"2"| tptp.s__SetOrClass))
% 3.09/3.31 (assume a2900 (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.'|))
% 3.09/3.31 (assume a2901 (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))))))
% 3.09/3.31 (assume a2902 (tptp.s__instance tptp.s__trichotomizingOn__m tptp.s__BinaryPredicate))
% 3.09/3.31 (assume a2903 (tptp.s__instance tptp.s__trichotomizingOn__m tptp.s__AsymmetricRelation))
% 3.09/3.31 (assume a2904 (tptp.s__domain tptp.s__trichotomizingOn__m |"1"| tptp.s__BinaryRelation))
% 3.09/3.31 (assume a2905 (tptp.s__domain tptp.s__trichotomizingOn__m |"2"| tptp.s__SetOrClass))
% 3.09/3.31 (assume a2906 (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).'|))
% 3.09/3.31 (assume a2907 (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))))))
% 3.09/3.31 (assume a2908 (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))))))
% 3.09/3.31 (assume a2909 (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))))))
% 3.09/3.31 (assume a2910 (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))))))
% 3.09/3.31 (assume a2911 (tptp.s__instance tptp.s__equivalenceRelationOn__m tptp.s__BinaryPredicate))
% 3.09/3.31 (assume a2912 (tptp.s__instance tptp.s__equivalenceRelationOn__m tptp.s__AsymmetricRelation))
% 3.09/3.31 (assume a2913 (tptp.s__domain tptp.s__equivalenceRelationOn__m |"1"| tptp.s__BinaryRelation))
% 3.09/3.31 (assume a2914 (tptp.s__domain tptp.s__equivalenceRelationOn__m |"2"| tptp.s__SetOrClass))
% 3.09/3.31 (assume a2915 (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.'|))
% 3.09/3.31 (assume a2916 (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))))))
% 3.09/3.31 (assume a2917 (tptp.s__instance tptp.s__distributes__m tptp.s__BinaryPredicate))
% 3.09/3.31 (assume a2918 (tptp.s__instance tptp.s__distributes__m tptp.s__BinaryRelation))
% 3.09/3.31 (assume a2919 (tptp.s__domain tptp.s__distributes__m |"1"| tptp.s__BinaryFunction))
% 3.09/3.31 (assume a2920 (tptp.s__domain tptp.s__distributes__m |"2"| tptp.s__BinaryFunction))
% 3.09/3.31 (assume a2921 (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.'|))
% 3.09/3.31 (assume a2922 (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 $$unsorted)) (=> (and (tptp.s__instance V__CLASS2 tptp.s__SetOrClass) (tptp.s__instance V__CLASS1 tptp.s__SetOrClass) (tptp.s__instance V__FUNCTION2 tptp.s__BinaryFunction) (tptp.s__instance V__FUNCTION1 tptp.s__BinaryFunction)) (=> (and (tptp.s__domain V__FUNCTION1 |"1"| V__CLASS1) (tptp.s__instance V__INST1 V__CLASS1) (tptp.s__instance V__INST2 V__CLASS1) (tptp.s__instance V__INST3 V__CLASS1) (tptp.s__domain V__FUNCTION2 |"1"| V__CLASS2) (tptp.s__instance V__INST1 V__CLASS2) (tptp.s__instance V__INST2 V__CLASS2) (tptp.s__instance V__INST3 V__CLASS2)) (= (tptp.s__AssignmentFn_3 V__FUNCTION1 V__INST1 (tptp.s__AssignmentFn_3 V__FUNCTION2 V__INST2 V__INST3)) (tptp.s__AssignmentFn_3 V__FUNCTION2 (tptp.s__AssignmentFn_3 V__FUNCTION1 V__INST1 V__INST2) (tptp.s__AssignmentFn_3 V__FUNCTION1 V__INST1 V__INST3)))))))))
% 3.09/3.31 (assume a2923 (tptp.s__documentation tptp.s__relatedEvent__m tptp.s__EnglishLanguage |tptp.'(relatedEvent ?EVENT1 ?EVENT2) means that the &%Process ?EVENT1 is related to the Process ?EVENT2. The relationship is between separate individual events, not events and their subprocesses. On the other hand, two &%subProcesses of the same overarching event may be &%relatedEvents. The argument order does not imply temporal ordering.'|))
% 3.09/3.31 (assume a2924 (tptp.s__instance tptp.s__relatedEvent__m tptp.s__BinaryPredicate))
% 3.09/3.31 (assume a2925 (tptp.s__instance tptp.s__relatedEvent__m tptp.s__SymmetricRelation))
% 3.09/3.31 (assume a2926 (tptp.s__domain tptp.s__relatedEvent__m |"1"| tptp.s__Process))
% 3.09/3.31 (assume a2927 (tptp.s__domain tptp.s__relatedEvent__m |"2"| tptp.s__Process))
% 3.09/3.31 (assume a2928 (forall ((V__P $$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)))))
% 3.09/3.31 (assume a2929 (tptp.s__instance tptp.s__causes__m tptp.s__BinaryPredicate))
% 3.09/3.31 (assume a2930 (tptp.s__instance tptp.s__causes__m tptp.s__AsymmetricRelation))
% 3.09/3.31 (assume a2931 (tptp.s__domain tptp.s__causes__m |"1"| tptp.s__Process))
% 3.09/3.31 (assume a2932 (tptp.s__domain tptp.s__causes__m |"2"| tptp.s__Process))
% 3.09/3.31 (assume a2933 (tptp.s__relatedInternalConcept tptp.s__causes__m tptp.s__causesSubclass__m))
% 3.09/3.31 (assume a2934 (tptp.s__subrelation tptp.s__causes__m tptp.s__relatedEvent__m))
% 3.14/3.31 (assume a2935 (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.'|))
% 3.14/3.31 (assume a2936 (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))))))
% 3.14/3.31 (assume a2937 (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))))))
% 3.14/3.31 (assume a2938 (tptp.s__instance tptp.s__causesSubclass__m tptp.s__BinaryPredicate))
% 3.14/3.31 (assume a2939 (tptp.s__instance tptp.s__causesSubclass__m tptp.s__AsymmetricRelation))
% 3.14/3.31 (assume a2940 (tptp.s__domainSubclass tptp.s__causesSubclass__m |"1"| tptp.s__Process))
% 3.14/3.31 (assume a2941 (tptp.s__domainSubclass tptp.s__causesSubclass__m |"2"| tptp.s__Process))
% 3.14/3.31 (assume a2942 (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).'|))
% 3.14/3.31 (assume a2943 (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)))))))))
% 3.14/3.31 (assume a2944 (tptp.s__instance tptp.s__causesProposition__m tptp.s__BinaryPredicate))
% 3.14/3.31 (assume a2945 (tptp.s__instance tptp.s__causesProposition__m tptp.s__AsymmetricRelation))
% 3.14/3.31 (assume a2946 (tptp.s__domain tptp.s__causesProposition__m |"1"| tptp.s__Formula))
% 3.14/3.31 (assume a2947 (tptp.s__domain tptp.s__causesProposition__m |"2"| tptp.s__Formula))
% 3.14/3.31 (assume a2948 (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))).'|))
% 3.14/3.31 (assume a2949 (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))))))
% 3.14/3.31 (assume a2950 (tptp.s__instance tptp.s__copy__m tptp.s__BinaryPredicate))
% 3.14/3.31 (assume a2951 (tptp.s__instance tptp.s__copy__m tptp.s__EquivalenceRelation))
% 3.14/3.31 (assume a2952 (tptp.s__domain tptp.s__copy__m |"1"| tptp.s__Object))
% 3.14/3.31 (assume a2953 (tptp.s__domain tptp.s__copy__m |"2"| tptp.s__Object))
% 3.14/3.31 (assume a2954 (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.'|))
% 3.14/3.31 (assume a2955 (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)))))))
% 3.14/3.31 (assume a2956 (tptp.s__instance tptp.s__time__m tptp.s__BinaryPredicate))
% 3.14/3.31 (assume a2957 (tptp.s__instance tptp.s__time__m tptp.s__TemporalRelation))
% 3.14/3.31 (assume a2958 (tptp.s__instance tptp.s__time__m tptp.s__AsymmetricRelation))
% 3.14/3.31 (assume a2959 (tptp.s__domain tptp.s__time__m |"1"| tptp.s__Physical))
% 3.14/3.31 (assume a2960 (tptp.s__domain tptp.s__time__m |"2"| tptp.s__TimePosition))
% 3.14/3.31 (assume a2961 (tptp.s__relatedInternalConcept tptp.s__time__m tptp.s__located__m))
% 3.14/3.31 (assume a2962 (tptp.s__relatedInternalConcept tptp.s__time__m tptp.s__holdsDuring__m))
% 3.14/3.31 (assume a2963 (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.'|))
% 3.14/3.31 (assume a2964 (tptp.s__instance tptp.s__holdsDuring__m tptp.s__BinaryPredicate))
% 3.14/3.31 (assume a2965 (tptp.s__instance tptp.s__holdsDuring__m tptp.s__AsymmetricRelation))
% 3.14/3.31 (assume a2966 (tptp.s__domain tptp.s__holdsDuring__m |"1"| tptp.s__TimePosition))
% 3.14/3.31 (assume a2967 (tptp.s__domain tptp.s__holdsDuring__m |"2"| tptp.s__Formula))
% 3.14/3.31 (assume a2968 (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.'|))
% 3.14/3.31 (assume a2969 (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)))))
% 3.14/3.31 (assume a2970 (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))))))
% 3.14/3.31 (assume a2971 (tptp.s__instance tptp.s__capability__m tptp.s__TernaryPredicate))
% 3.14/3.31 (assume a2972 (tptp.s__domainSubclass tptp.s__capability__m |"1"| tptp.s__Process))
% 3.14/3.31 (assume a2973 (tptp.s__domain tptp.s__capability__m |"2"| tptp.s__CaseRole))
% 3.14/3.31 (assume a2974 (tptp.s__domain tptp.s__capability__m |"3"| tptp.s__Object))
% 3.14/3.31 (assume a2975 (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.'|))
% 3.14/3.31 (assume a2976 (forall ((V__ARG1 $$unsorted) (V__ARG2 $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__SetOrClass) (tptp.s__instance V__ARG2 tptp.s__Object) (tptp.s__instance V__ARG1 tptp.s__Process)) (=> (and (tptp.s__eventPartlyLocated V__ARG1 V__ARG2) (tptp.s__instance V__ARG1 V__PROC) (tptp.s__subclass V__PROC tptp.s__Process)) (tptp.s__capability V__PROC tptp.s__eventPartlyLocated__m V__ARG2)))))
% 3.14/3.31 (assume a2977 (forall ((V__ARG1 $$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)))))
% 3.14/3.31 (assume a2978 (forall ((V__ARG1 $$unsorted) (V__ARG2 $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__SetOrClass) (tptp.s__instance V__ARG2 tptp.s__DirectionalAttribute) (tptp.s__instance V__ARG2 tptp.s__Object) (tptp.s__instance V__ARG1 tptp.s__Process)) (=> (and (tptp.s__direction V__ARG1 V__ARG2) (tptp.s__instance V__ARG1 V__PROC) (tptp.s__subclass V__PROC tptp.s__Process)) (tptp.s__capability V__PROC tptp.s__direction__m V__ARG2)))))
% 3.14/3.31 (assume a2979 (forall ((V__ARG1 $$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)))))
% 3.14/3.31 (assume a2980 (forall ((V__ARG1 $$unsorted) (V__ARG2 $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__SetOrClass) (tptp.s__instance V__ARG2 tptp.s__Agent) (tptp.s__instance V__ARG1 tptp.s__Process)) (=> (and (tptp.s__agent V__ARG1 V__ARG2) (tptp.s__instance V__ARG1 V__PROC) (tptp.s__subclass V__PROC tptp.s__Process)) (tptp.s__capability V__PROC tptp.s__agent__m V__ARG2)))))
% 3.14/3.31 (assume a2981 (forall ((V__ARG1 $$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)))))
% 3.14/3.31 (assume a2982 (forall ((V__ARG1 $$unsorted) (V__ARG2 $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__SetOrClass) (tptp.s__instance V__ARG2 tptp.s__Object) (tptp.s__instance V__ARG1 tptp.s__Motion)) (=> (and (tptp.s__moves V__ARG1 V__ARG2) (tptp.s__instance V__ARG1 V__PROC) (tptp.s__subclass V__PROC tptp.s__Process)) (tptp.s__capability V__PROC tptp.s__moves__m V__ARG2)))))
% 3.14/3.31 (assume a2983 (forall ((V__ARG1 $$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)))))
% 3.14/3.31 (assume a2984 (forall ((V__ARG1 $$unsorted) (V__ARG2 $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__SetOrClass) (tptp.s__instance V__ARG2 tptp.s__Object) (tptp.s__instance V__ARG1 tptp.s__Process)) (=> (and (tptp.s__origin V__ARG1 V__ARG2) (tptp.s__instance V__ARG1 V__PROC) (tptp.s__subclass V__PROC tptp.s__Process)) (tptp.s__capability V__PROC tptp.s__origin__m V__ARG2)))))
% 3.14/3.31 (assume a2985 (forall ((V__ARG1 $$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)))))
% 3.14/3.31 (assume a2986 (tptp.s__instance tptp.s__exploits__m tptp.s__BinaryPredicate))
% 3.14/3.31 (assume a2987 (tptp.s__instance tptp.s__exploits__m tptp.s__AsymmetricRelation))
% 3.14/3.31 (assume a2988 (tptp.s__domain tptp.s__exploits__m |"1"| tptp.s__Object))
% 3.14/3.31 (assume a2989 (tptp.s__domain tptp.s__exploits__m |"2"| tptp.s__Agent))
% 3.14/3.31 (assume a2990 (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.'|))
% 3.14/3.31 (assume a2991 (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)))))))
% 3.14/3.31 (assume a2992 (tptp.s__instance tptp.s__hasPurpose__m tptp.s__BinaryPredicate))
% 3.14/3.31 (assume a2993 (tptp.s__instance tptp.s__hasPurpose__m tptp.s__AsymmetricRelation))
% 3.14/3.31 (assume a2994 (tptp.s__domain tptp.s__hasPurpose__m |"1"| tptp.s__Physical))
% 3.14/3.31 (assume a2995 (tptp.s__domain tptp.s__hasPurpose__m |"2"| tptp.s__Formula))
% 3.14/3.31 (assume a2996 (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.'|))
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% 3.14/3.31 (assume a3110 (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.'|))
% 3.14/3.31 (assume a3111 (tptp.s__instance tptp.s__prevents__m tptp.s__BinaryPredicate))
% 3.14/3.31 (assume a3112 (tptp.s__instance tptp.s__prevents__m tptp.s__IrreflexiveRelation))
% 3.14/3.31 (assume a3113 (tptp.s__domainSubclass tptp.s__prevents__m |"1"| tptp.s__Process))
% 3.14/3.31 (assume a3114 (tptp.s__domainSubclass tptp.s__prevents__m |"2"| tptp.s__Process))
% 3.14/3.31 (assume a3115 (tptp.s__relatedInternalConcept tptp.s__prevents__m tptp.s__inhibits__m))
% 3.14/3.31 (assume a3116 (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.'|))
% 3.14/3.31 (assume a3117 (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)))'|))))))))
% 3.14/3.31 (assume a3118 (tptp.s__instance tptp.s__refers__m tptp.s__BinaryPredicate))
% 3.14/3.31 (assume a3119 (tptp.s__domain tptp.s__refers__m |"1"| tptp.s__Entity))
% 3.14/3.31 (assume a3120 (tptp.s__domain tptp.s__refers__m |"2"| tptp.s__Entity))
% 3.14/3.31 (assume a3121 (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.'|))
% 3.14/3.31 (assume a3122 (tptp.s__subrelation tptp.s__names__m tptp.s__refers__m))
% 3.14/3.31 (assume a3123 (tptp.s__domain tptp.s__names__m |"1"| tptp.s__SymbolicString))
% 3.14/3.31 (assume a3124 (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.'|))
% 3.14/3.31 (assume a3125 (tptp.s__subrelation tptp.s__uniqueIdentifier__m tptp.s__names__m))
% 3.14/3.31 (assume a3126 (tptp.s__instance tptp.s__uniqueIdentifier__m tptp.s__SingleValuedRelation))
% 3.14/3.31 (assume a3127 (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).'|))
% 3.14/3.31 (assume a3128 (tptp.s__subrelation tptp.s__represents__m tptp.s__refers__m))
% 3.14/3.31 (assume a3129 (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.'|))
% 3.14/3.31 (assume a3130 (tptp.s__instance tptp.s__representsForAgent__m tptp.s__TernaryPredicate))
% 3.14/3.31 (assume a3131 (tptp.s__domain tptp.s__representsForAgent__m |"1"| tptp.s__Entity))
% 3.14/3.31 (assume a3132 (tptp.s__domain tptp.s__representsForAgent__m |"2"| tptp.s__Entity))
% 3.14/3.31 (assume a3133 (tptp.s__domain tptp.s__representsForAgent__m |"3"| tptp.s__Agent))
% 3.14/3.31 (assume a3134 (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.'|))
% 3.14/3.31 (assume a3135 (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)))))
% 3.14/3.31 (assume a3136 (tptp.s__instance tptp.s__representsInLanguage__m tptp.s__TernaryPredicate))
% 3.14/3.31 (assume a3137 (tptp.s__domain tptp.s__representsInLanguage__m |"1"| tptp.s__LinguisticExpression))
% 3.14/3.31 (assume a3138 (tptp.s__domain tptp.s__representsInLanguage__m |"2"| tptp.s__Entity))
% 3.14/3.31 (assume a3139 (tptp.s__domain tptp.s__representsInLanguage__m |"3"| tptp.s__Language))
% 3.14/3.31 (assume a3140 (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.'|))
% 3.14/3.31 (assume a3141 (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)))))))
% 3.14/3.31 (assume a3142 (tptp.s__subrelation tptp.s__equivalentContentClass__m tptp.s__subsumesContentClass__m))
% 3.14/3.31 (assume a3143 (tptp.s__instance tptp.s__equivalentContentClass__m tptp.s__EquivalenceRelation))
% 3.14/3.31 (assume a3144 (tptp.s__instance tptp.s__EquivalenceRelation__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3145 (tptp.s__domainSubclass tptp.s__equivalentContentClass__m |"1"| tptp.s__ContentBearingPhysical))
% 3.14/3.31 (assume a3146 (tptp.s__domainSubclass tptp.s__equivalentContentClass__m |"2"| tptp.s__ContentBearingPhysical))
% 3.14/3.31 (assume a3147 (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).'|))
% 3.14/3.31 (assume a3148 (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)))))
% 3.14/3.31 (assume a3149 (tptp.s__instance tptp.s__subsumesContentClass__m tptp.s__BinaryPredicate))
% 3.14/3.31 (assume a3150 (tptp.s__instance tptp.s__subsumesContentClass__m tptp.s__PartialOrderingRelation))
% 3.14/3.31 (assume a3151 (tptp.s__domainSubclass tptp.s__subsumesContentClass__m |"1"| tptp.s__ContentBearingPhysical))
% 3.14/3.31 (assume a3152 (tptp.s__domainSubclass tptp.s__subsumesContentClass__m |"2"| tptp.s__ContentBearingPhysical))
% 3.14/3.31 (assume a3153 (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.'|))
% 3.14/3.31 (assume a3154 (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 $$unsorted)) (and (tptp.s__instance V__OBJ1 tptp.s__ContentBearingPhysical) (tptp.s__instance V__OBJ1 V__CLASS1) (tptp.s__containsInformation V__OBJ1 V__INFO)))))))))
% 3.14/3.31 (assume a3155 (tptp.s__subrelation tptp.s__equivalentContentInstance__m tptp.s__subsumesContentInstance__m))
% 3.14/3.31 (assume a3156 (tptp.s__instance tptp.s__equivalentContentInstance__m tptp.s__EquivalenceRelation))
% 3.14/3.31 (assume a3157 (tptp.s__domain tptp.s__equivalentContentInstance__m |"1"| tptp.s__ContentBearingPhysical))
% 3.14/3.31 (assume a3158 (tptp.s__domain tptp.s__equivalentContentInstance__m |"2"| tptp.s__ContentBearingPhysical))
% 3.14/3.31 (assume a3159 (tptp.s__relatedInternalConcept tptp.s__equivalentContentInstance__m tptp.s__equivalentContentClass__m))
% 3.14/3.31 (assume a3160 (tptp.s__documentation tptp.s__equivalentContentInstance__m tptp.s__EnglishLanguage |tptp.'A &%BinaryPredicate relating two instances of &%ContentBearingPhysical. (&%equivalentContentInstance ?OBJ1 ?OBJ2) means that the content expressed by ?OBJ1 is identical to the content expressed by ?OBJ2. An example would be the relationship between a handwritten draft of a letter to ones lawyer and a typed copy of the same letter. Note that (&%equivalentContentInstance ?OBJ1 ?OBJ2) implies (&%subsumesContentInstance ?OBJ1 ?OBJ2) and (&%subsumesContentInstance ?OBJ2 ?OBJ2).'|))
% 3.14/3.31 (assume a3161 (forall ((V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__OBJ1 tptp.s__ContentBearingPhysical)) (= (and (tptp.s__subsumesContentInstance V__OBJ1 V__OBJ2) (tptp.s__subsumesContentInstance V__OBJ2 V__OBJ1)) (tptp.s__equivalentContentInstance V__OBJ1 V__OBJ2)))))
% 3.14/3.31 (assume a3162 (tptp.s__instance tptp.s__subsumesContentInstance__m tptp.s__BinaryPredicate))
% 3.14/3.31 (assume a3163 (tptp.s__instance tptp.s__subsumesContentInstance__m tptp.s__PartialOrderingRelation))
% 3.14/3.31 (assume a3164 (tptp.s__domain tptp.s__subsumesContentInstance__m |"1"| tptp.s__ContentBearingPhysical))
% 3.14/3.31 (assume a3165 (tptp.s__domain tptp.s__subsumesContentInstance__m |"2"| tptp.s__ContentBearingPhysical))
% 3.14/3.31 (assume a3166 (tptp.s__relatedInternalConcept tptp.s__subsumesContentInstance__m tptp.s__subsumesContentClass__m))
% 3.14/3.31 (assume a3167 (tptp.s__documentation tptp.s__subsumesContentInstance__m tptp.s__EnglishLanguage |tptp.'A &%BinaryPredicate relating two instances of &%ContentBearingPhysical. (&%subsumesContentInstance ?OBJ1 ?OBJ2) means that the content expressed by ?OBJ2 is part of the content expressed by ?OBJ1. An example is the relationship between a handwritten poem and one of its stanzas. Note that this is a relation between instances, rather than &%Classes. If one wants to assert a content relationship between &%Classes, e.g. between the version of an intellectual work and a part of that work, the relation &%subsumesContentClass should be used.'|))
% 3.14/3.31 (assume a3168 (forall ((V__OBJ1 $$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)))))))
% 3.14/3.31 (assume a3169 (tptp.s__subrelation tptp.s__realization__m tptp.s__represents__m))
% 3.14/3.31 (assume a3170 (tptp.s__instance tptp.s__realization__m tptp.s__AsymmetricRelation))
% 3.14/3.31 (assume a3171 (tptp.s__domain tptp.s__realization__m |"1"| tptp.s__Process))
% 3.14/3.31 (assume a3172 (tptp.s__domain tptp.s__realization__m |"2"| tptp.s__Proposition))
% 3.14/3.31 (assume a3173 (tptp.s__relatedInternalConcept tptp.s__realization__m tptp.s__equivalentContentInstance__m))
% 3.14/3.31 (assume a3174 (tptp.s__relatedInternalConcept tptp.s__realization__m tptp.s__containsInformation__m))
% 3.14/3.31 (assume a3175 (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.'|))
% 3.14/3.31 (assume a3176 (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 $$unsorted)) (and (tptp.s__instance V__OBJ tptp.s__ContentBearingPhysical) (tptp.s__instance V__OBJ tptp.s__ContentBearingObject) (tptp.s__containsInformation V__OBJ V__PROP)))))))
% 3.14/3.31 (assume a3177 (tptp.s__instance tptp.s__expressedInLanguage__m tptp.s__BinaryPredicate))
% 3.14/3.31 (assume a3178 (tptp.s__instance tptp.s__expressedInLanguage__m tptp.s__AsymmetricRelation))
% 3.14/3.31 (assume a3179 (tptp.s__domain tptp.s__expressedInLanguage__m |"1"| tptp.s__LinguisticExpression))
% 3.14/3.31 (assume a3180 (tptp.s__domain tptp.s__expressedInLanguage__m |"2"| tptp.s__Language))
% 3.14/3.31 (assume a3181 (tptp.s__documentation tptp.s__expressedInLanguage__m tptp.s__EnglishLanguage |tptp.'(&%expressedInLanguage ?EXPRESS ?LANG) means that the &%LinguisticExpression ?EXPRESS is part of the &%Language ?LANG.'|))
% 3.14/3.31 (assume a3182 (forall ((V__EXPRESS $$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))))))
% 3.14/3.31 (assume a3183 (tptp.s__instance tptp.s__subProposition__m tptp.s__BinaryPredicate))
% 3.14/3.31 (assume a3184 (tptp.s__instance tptp.s__subProposition__m tptp.s__TransitiveRelation))
% 3.14/3.31 (assume a3185 (tptp.s__instance tptp.s__subProposition__m tptp.s__IrreflexiveRelation))
% 3.14/3.31 (assume a3186 (tptp.s__domain tptp.s__subProposition__m |"1"| tptp.s__Proposition))
% 3.14/3.31 (assume a3187 (tptp.s__domain tptp.s__subProposition__m |"2"| tptp.s__Proposition))
% 3.14/3.31 (assume a3188 (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.'|))
% 3.14/3.31 (assume a3189 (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)))))))
% 3.14/3.31 (assume a3190 (tptp.s__subrelation tptp.s__subPlan__m tptp.s__subProposition__m))
% 3.14/3.31 (assume a3191 (tptp.s__instance tptp.s__subPlan__m tptp.s__TransitiveRelation))
% 3.14/3.31 (assume a3192 (tptp.s__instance tptp.s__subPlan__m tptp.s__IrreflexiveRelation))
% 3.14/3.31 (assume a3193 (tptp.s__domain tptp.s__subPlan__m |"1"| tptp.s__Plan))
% 3.14/3.31 (assume a3194 (tptp.s__domain tptp.s__subPlan__m |"2"| tptp.s__Plan))
% 3.14/3.31 (assume a3195 (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.'|))
% 3.14/3.31 (assume a3196 (tptp.s__instance tptp.s__uses__m tptp.s__BinaryPredicate))
% 3.14/3.31 (assume a3197 (tptp.s__instance tptp.s__BinaryPredicate__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3198 (tptp.s__instance tptp.s__uses__m tptp.s__AsymmetricRelation))
% 3.14/3.31 (assume a3199 (tptp.s__domain tptp.s__uses__m |"1"| tptp.s__Object))
% 3.14/3.31 (assume a3200 (tptp.s__domain tptp.s__uses__m |"2"| tptp.s__Agent))
% 3.14/3.31 (assume a3201 (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.'|))
% 3.14/3.31 (assume a3202 (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)))))))
% 3.14/3.31 (assume a3203 (tptp.s__instance tptp.times__m tptp.s__BinaryFunction))
% 3.14/3.31 (assume a3204 (tptp.s__instance tptp.times__m tptp.s__AssociativeFunction))
% 3.14/3.31 (assume a3205 (tptp.s__instance tptp.times__m tptp.s__CommutativeFunction))
% 3.14/3.31 (assume a3206 (tptp.s__instance tptp.s__CommutativeFunction__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3207 (tptp.s__instance tptp.times__m tptp.s__RelationExtendedToQuantities))
% 3.14/3.31 (assume a3208 (tptp.s__instance tptp.times__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3209 (tptp.s__domain tptp.times__m |"1"| tptp.s__Quantity))
% 3.14/3.31 (assume a3210 (tptp.s__domain tptp.times__m |"2"| tptp.s__Quantity))
% 3.14/3.31 (assume a3211 (tptp.s__range tptp.times__m tptp.s__Quantity))
% 3.14/3.31 (assume a3212 (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.'|))
% 3.14/3.31 (assume a3213 (tptp.s__instance tptp.plus__m tptp.s__BinaryFunction))
% 3.14/3.31 (assume a3214 (tptp.s__instance tptp.plus__m tptp.s__AssociativeFunction))
% 3.14/3.31 (assume a3215 (tptp.s__instance tptp.plus__m tptp.s__CommutativeFunction))
% 3.14/3.31 (assume a3216 (tptp.s__instance tptp.plus__m tptp.s__RelationExtendedToQuantities))
% 3.14/3.31 (assume a3217 (tptp.s__instance tptp.plus__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3218 (tptp.s__domain tptp.plus__m |"1"| tptp.s__Quantity))
% 3.14/3.31 (assume a3219 (tptp.s__domain tptp.plus__m |"2"| tptp.s__Quantity))
% 3.14/3.31 (assume a3220 (tptp.s__range tptp.plus__m tptp.s__Quantity))
% 3.14/3.31 (assume a3221 (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.'|))
% 3.14/3.31 (assume a3222 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__Integer) (= (tptp.s__SuccessorFn V__NUMBER) (tptp.plus V__NUMBER |"1"|)))))
% 3.14/3.31 (assume a3223 (tptp.s__instance tptp.minus__m tptp.s__BinaryFunction))
% 3.14/3.31 (assume a3224 (tptp.s__instance tptp.minus__m tptp.s__AssociativeFunction))
% 3.14/3.31 (assume a3225 (tptp.s__instance tptp.minus__m tptp.s__RelationExtendedToQuantities))
% 3.14/3.31 (assume a3226 (tptp.s__instance tptp.minus__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3227 (tptp.s__domain tptp.minus__m |"1"| tptp.s__Quantity))
% 3.14/3.31 (assume a3228 (tptp.s__domain tptp.minus__m |"2"| tptp.s__Quantity))
% 3.14/3.31 (assume a3229 (tptp.s__range tptp.minus__m tptp.s__Quantity))
% 3.14/3.31 (assume a3230 (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.'|))
% 3.14/3.31 (assume a3231 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__Integer) (= (tptp.s__PredecessorFn V__NUMBER) (tptp.minus V__NUMBER |"1"|)))))
% 3.14/3.31 (assume a3232 (tptp.s__instance tptp.divide__m tptp.s__BinaryFunction))
% 3.14/3.31 (assume a3233 (tptp.s__instance tptp.divide__m tptp.s__AssociativeFunction))
% 3.14/3.31 (assume a3234 (tptp.s__instance tptp.divide__m tptp.s__RelationExtendedToQuantities))
% 3.14/3.31 (assume a3235 (tptp.s__instance tptp.divide__m tptp.s__PartialValuedRelation))
% 3.14/3.31 (assume a3236 (tptp.s__domain tptp.divide__m |"1"| tptp.s__Quantity))
% 3.14/3.31 (assume a3237 (tptp.s__domain tptp.divide__m |"2"| tptp.s__Quantity))
% 3.14/3.31 (assume a3238 (tptp.s__range tptp.divide__m tptp.s__Quantity))
% 3.14/3.31 (assume a3239 (tptp.s__documentation tptp.divide__m tptp.s__EnglishLanguage |tptp.'If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%DivisionFn ?NUMBER1 ?NUMBER2) is the result of dividing ?NUMBER1 by ?NUMBER2. Note that when ?NUMBER1 = 1 (&%DivisionFn ?NUMBER1 ?NUMBER2) is the reciprocal of ?NUMBER2. Note too that (&%DivisionFn ?NUMBER1 ?NUMBER2) is undefined when ?NUMBER2 = 0.'|))
% 3.14/3.31 (assume a3240 (forall ((V__NUMBER $$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)))))))
% 3.14/3.31 (assume a3241 (tptp.s__instance tptp.s__AbsoluteValueFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3242 (tptp.s__instance tptp.s__AbsoluteValueFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3243 (tptp.s__domain tptp.s__AbsoluteValueFn__m |"1"| tptp.s__RealNumber))
% 3.14/3.31 (assume a3244 (tptp.s__range tptp.s__AbsoluteValueFn__m tptp.s__NonnegativeRealNumber))
% 3.14/3.31 (assume a3245 (tptp.s__documentation tptp.s__AbsoluteValueFn__m tptp.s__EnglishLanguage |tptp.'The value of (&%AbsoluteValueFn ?NUMBER) is the absolute value of the &%RealNumber ?NUMBER.'|))
% 3.14/3.31 (assume a3246 (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)))))))
% 3.14/3.31 (assume a3247 (tptp.s__instance tptp.s__CeilingFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3248 (tptp.s__instance tptp.s__UnaryFunction__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3249 (tptp.s__instance tptp.s__CeilingFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3250 (tptp.s__domain tptp.s__CeilingFn__m |"1"| tptp.s__RealNumber))
% 3.14/3.31 (assume a3251 (tptp.s__range tptp.s__CeilingFn__m tptp.s__Integer))
% 3.14/3.31 (assume a3252 (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.'|))
% 3.14/3.31 (assume a3253 (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))))))))
% 3.14/3.31 (assume a3254 (tptp.s__instance tptp.s__CosineFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3255 (tptp.s__instance tptp.s__CosineFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3256 (tptp.s__domain tptp.s__CosineFn__m |"1"| tptp.s__PlaneAngleMeasure))
% 3.14/3.31 (assume a3257 (tptp.s__range tptp.s__CosineFn__m tptp.s__RealNumber))
% 3.14/3.31 (assume a3258 (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.'|))
% 3.14/3.31 (assume a3259 (tptp.s__instance tptp.s__DenominatorFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3260 (tptp.s__instance tptp.s__DenominatorFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3261 (tptp.s__domain tptp.s__DenominatorFn__m |"1"| tptp.s__RealNumber))
% 3.14/3.31 (assume a3262 (tptp.s__range tptp.s__DenominatorFn__m tptp.s__Integer))
% 3.14/3.31 (assume a3263 (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.'|))
% 3.14/3.31 (assume a3264 (tptp.s__instance tptp.s__ExponentiationFn__m tptp.s__BinaryFunction))
% 3.14/3.31 (assume a3265 (tptp.s__instance tptp.s__ExponentiationFn__m tptp.s__RelationExtendedToQuantities))
% 3.14/3.31 (assume a3266 (tptp.s__instance tptp.s__RelationExtendedToQuantities__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3267 (tptp.s__instance tptp.s__ExponentiationFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3268 (tptp.s__domain tptp.s__ExponentiationFn__m |"1"| tptp.s__Quantity))
% 3.14/3.31 (assume a3269 (tptp.s__domain tptp.s__ExponentiationFn__m |"2"| tptp.s__Integer))
% 3.14/3.31 (assume a3270 (tptp.s__range tptp.s__ExponentiationFn__m tptp.s__Quantity))
% 3.14/3.31 (assume a3271 (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.'|))
% 3.14/3.31 (assume a3272 (tptp.s__instance tptp.s__FloorFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3273 (tptp.s__instance tptp.s__FloorFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3274 (tptp.s__domain tptp.s__FloorFn__m |"1"| tptp.s__RealNumber))
% 3.14/3.31 (assume a3275 (tptp.s__range tptp.s__FloorFn__m tptp.s__Integer))
% 3.14/3.31 (assume a3276 (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.'|))
% 3.14/3.31 (assume a3277 (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))))))))
% 3.14/3.31 (assume a3278 (tptp.s__instance tptp.s__GreatestCommonDivisorFn__m tptp.s__Function))
% 3.14/3.31 (assume a3279 (tptp.s__instance tptp.s__GreatestCommonDivisorFn__m tptp.s__VariableArityRelation))
% 3.14/3.31 (assume a3280 (tptp.s__instance tptp.s__GreatestCommonDivisorFn__m tptp.s__PartialValuedRelation))
% 3.14/3.31 (assume a3281 (tptp.s__instance tptp.s__PartialValuedRelation__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3282 (tptp.s__range tptp.s__GreatestCommonDivisorFn__m tptp.s__Integer))
% 3.14/3.31 (assume a3283 (tptp.s__documentation tptp.s__GreatestCommonDivisorFn__m tptp.s__EnglishLanguage |tptp.'(&%GreatestCommonDivisorFn ?NUMBER1 ?NUMBER2 ... ?NUMBER) returns the greatest common divisor of ?NUMBER1 through ?NUMBER.'|))
% 3.14/3.31 (assume a3284 (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted)) (=> (= (tptp.s__GreatestCommonDivisorFn_1 V__ROW1) V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_1 V__ROW1)) (= (tptp.s__RemainderFn V__ELEMENT V__NUMBER) |"0"|)))))))
% 3.14/3.31 (assume a3285 (forall ((V__NUMBER $$unsorted) (V__ROW1 $$unsorted) (V__ROW2 $$unsorted)) (=> (= (tptp.s__GreatestCommonDivisorFn_2 V__ROW1 V__ROW2) V__NUMBER) (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_2 V__ROW1 V__ROW2)) (= (tptp.s__RemainderFn V__ELEMENT V__NUMBER) |"0"|)))))))
% 3.14/3.31 (assume a3286 (forall ((V__NUMBER $$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"|)))))))
% 3.14/3.31 (assume a3287 (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"|)))))))
% 3.14/3.31 (assume a3288 (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 $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5)) (= (tptp.s__RemainderFn V__ELEMENT V__NUMBER) |"0"|)))))))
% 3.14/3.31 (assume a3289 (forall ((V__NUMBER $$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 $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6)) (= (tptp.s__RemainderFn V__ELEMENT V__NUMBER) |"0"|)))))))
% 3.14/3.31 (assume a3290 (forall ((V__NUMBER $$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"|)))))))
% 3.14/3.31 (assume a3291 (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"|))))))))))
% 3.14/3.31 (assume a3292 (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 $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_2 V__ROW1 V__ROW2)) (= (tptp.s__RemainderFn V__ELEMENT V__GREATER) |"0"|))))))))))
% 3.14/3.31 (assume a3293 (forall ((V__NUMBER $$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 $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) (= (tptp.s__RemainderFn V__ELEMENT V__GREATER) |"0"|))))))))))
% 3.14/3.31 (assume a3294 (forall ((V__NUMBER $$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"|))))))))))
% 3.14/3.31 (assume a3295 (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"|))))))))))
% 3.14/3.31 (assume a3296 (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 $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_6 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6)) (= (tptp.s__RemainderFn V__ELEMENT V__GREATER) |"0"|))))))))))
% 3.14/3.31 (assume a3297 (forall ((V__NUMBER $$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 $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7)) (= (tptp.s__RemainderFn V__ELEMENT V__GREATER) |"0"|))))))))))
% 3.14/3.31 (assume a3298 (tptp.s__documentation tptp.s__multiplicativeFactor__m tptp.s__EnglishLanguage |tptp.'(multiplicativeFactor ?NUMBER1 ?NUMBER2) means that ?NUMBER1 is a factor of ?NUMBER2, i.e. ?NUMBER1 can be multiplied by some &%Integer to give ?NUMBER2 as a result.'|))
% 3.14/3.31 (assume a3299 (tptp.s__instance tptp.s__multiplicativeFactor__m tptp.s__BinaryPredicate))
% 3.14/3.31 (assume a3300 (tptp.s__instance tptp.s__multiplicativeFactor__m tptp.s__TransitiveRelation))
% 3.14/3.31 (assume a3301 (tptp.s__domain tptp.s__multiplicativeFactor__m |"1"| tptp.s__Integer))
% 3.14/3.31 (assume a3302 (tptp.s__domain tptp.s__multiplicativeFactor__m |"2"| tptp.s__Integer))
% 3.14/3.31 (assume a3303 (forall ((V__N2 $$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))))))))
% 3.14/3.31 (assume a3304 (tptp.s__instance tptp.s__ImaginaryPartFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3305 (tptp.s__instance tptp.s__ImaginaryPartFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3306 (tptp.s__domain tptp.s__ImaginaryPartFn__m |"1"| tptp.s__ComplexNumber))
% 3.14/3.31 (assume a3307 (tptp.s__range tptp.s__ImaginaryPartFn__m tptp.s__ImaginaryNumber))
% 3.14/3.31 (assume a3308 (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.'|))
% 3.14/3.31 (assume a3309 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__ComplexNumber) (exists ((V__PART1 $$unsorted) (V__PART2 $$unsorted)) (and (= V__PART1 (tptp.s__RealNumberFn V__NUMBER)) (= V__PART2 (tptp.s__ImaginaryPartFn V__NUMBER)))))))
% 3.14/3.31 (assume a3310 (tptp.s__instance tptp.s__IntegerSquareRootFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3311 (tptp.s__instance tptp.s__IntegerSquareRootFn__m tptp.s__PartialValuedRelation))
% 3.14/3.31 (assume a3312 (tptp.s__domain tptp.s__IntegerSquareRootFn__m |"1"| tptp.s__RealNumber))
% 3.14/3.31 (assume a3313 (tptp.s__range tptp.s__IntegerSquareRootFn__m tptp.s__NonnegativeInteger))
% 3.14/3.31 (assume a3314 (tptp.s__documentation tptp.s__IntegerSquareRootFn__m tptp.s__EnglishLanguage |tptp.'(&%IntegerSquareRootFn ?NUMBER) returns the integer square root of ?NUMBER.'|))
% 3.14/3.31 (assume a3315 (tptp.s__instance tptp.s__LeastCommonMultipleFn__m tptp.s__Function))
% 3.14/3.31 (assume a3316 (tptp.s__instance tptp.s__LeastCommonMultipleFn__m tptp.s__PartialValuedRelation))
% 3.14/3.31 (assume a3317 (tptp.s__instance tptp.s__LeastCommonMultipleFn__m tptp.s__VariableArityRelation))
% 3.14/3.31 (assume a3318 (tptp.s__range tptp.s__LeastCommonMultipleFn__m tptp.s__Integer))
% 3.14/3.31 (assume a3319 (tptp.s__documentation tptp.s__LeastCommonMultipleFn__m tptp.s__EnglishLanguage |tptp.'(&%LeastCommonMultipleFn ?NUMBER1 ?NUMBER2 ... ?NUMBER) returns the least common multiple of ?NUMBER1 through ?NUMBER.'|))
% 3.14/3.31 (assume a3320 (forall ((V__NUMBER $$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"|)))))))
% 3.14/3.31 (assume a3321 (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"|)))))))
% 3.14/3.31 (assume a3322 (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 $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) (= (tptp.s__RemainderFn V__NUMBER V__ELEMENT) |"0"|)))))))
% 3.14/3.31 (assume a3323 (forall ((V__NUMBER $$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 $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4)) (= (tptp.s__RemainderFn V__NUMBER V__ELEMENT) |"0"|)))))))
% 3.14/3.31 (assume a3324 (forall ((V__NUMBER $$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"|)))))))
% 3.14/3.31 (assume a3325 (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"|)))))))
% 3.14/3.31 (assume a3326 (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 $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_7 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5 V__ROW6 V__ROW7)) (= (tptp.s__RemainderFn V__NUMBER V__ELEMENT) |"0"|)))))))
% 3.14/3.31 (assume a3327 (forall ((V__NUMBER $$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 $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_1 V__ROW1)) (= (tptp.s__RemainderFn V__LESS V__ELEMENT) |"0"|))))))))))
% 3.14/3.31 (assume a3328 (forall ((V__NUMBER $$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"|))))))))))
% 3.14/3.31 (assume a3329 (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"|))))))))))
% 3.14/3.31 (assume a3330 (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 $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_4 V__ROW1 V__ROW2 V__ROW3 V__ROW4)) (= (tptp.s__RemainderFn V__LESS V__ELEMENT) |"0"|))))))))))
% 3.14/3.31 (assume a3331 (forall ((V__NUMBER $$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 $$unsorted)) (=> (and (tptp.s__instance V__ELEMENT tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (=> (tptp.s__inList V__ELEMENT (tptp.s__ListFn_5 V__ROW1 V__ROW2 V__ROW3 V__ROW4 V__ROW5)) (= (tptp.s__RemainderFn V__LESS V__ELEMENT) |"0"|))))))))))
% 3.14/3.31 (assume a3332 (forall ((V__NUMBER $$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"|))))))))))
% 3.14/3.31 (assume a3333 (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"|))))))))))
% 3.14/3.31 (assume a3334 (tptp.s__instance tptp.s__LogFn__m tptp.s__BinaryFunction))
% 3.14/3.31 (assume a3335 (tptp.s__domain tptp.s__LogFn__m |"1"| tptp.s__RealNumber))
% 3.14/3.31 (assume a3336 (tptp.s__domain tptp.s__LogFn__m |"2"| tptp.s__PositiveInteger))
% 3.14/3.31 (assume a3337 (tptp.s__range tptp.s__LogFn__m tptp.s__RealNumber))
% 3.14/3.31 (assume a3338 (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.'|))
% 3.14/3.31 (assume a3339 (tptp.s__instance tptp.s__MaxFn__m tptp.s__BinaryFunction))
% 3.14/3.31 (assume a3340 (tptp.s__instance tptp.s__MaxFn__m tptp.s__AssociativeFunction))
% 3.14/3.31 (assume a3341 (tptp.s__instance tptp.s__MaxFn__m tptp.s__CommutativeFunction))
% 3.14/3.31 (assume a3342 (tptp.s__instance tptp.s__MaxFn__m tptp.s__RelationExtendedToQuantities))
% 3.14/3.31 (assume a3343 (tptp.s__instance tptp.s__MaxFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3344 (tptp.s__domain tptp.s__MaxFn__m |"1"| tptp.s__Quantity))
% 3.14/3.31 (assume a3345 (tptp.s__domain tptp.s__MaxFn__m |"2"| tptp.s__Quantity))
% 3.14/3.31 (assume a3346 (tptp.s__range tptp.s__MaxFn__m tptp.s__Quantity))
% 3.14/3.31 (assume a3347 (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.'|))
% 3.14/3.31 (assume a3348 (forall ((V__NUMBER $$unsorted) (V__NUMBER2 $$unsorted) (V__NUMBER1 $$unsorted)) (=> (and (tptp.s__instance V__NUMBER1 tptp.s__Quantity) (tptp.s__instance V__NUMBER2 tptp.s__Quantity)) (=> (= (tptp.s__MaxFn V__NUMBER1 V__NUMBER2) V__NUMBER) (or (and (= V__NUMBER V__NUMBER1) (tptp.greater V__NUMBER1 V__NUMBER2)) (and (= V__NUMBER V__NUMBER2) (tptp.greater V__NUMBER2 V__NUMBER1)) (and (= V__NUMBER V__NUMBER1) (= V__NUMBER V__NUMBER2)))))))
% 3.14/3.31 (assume a3349 (tptp.s__instance tptp.s__MinFn__m tptp.s__BinaryFunction))
% 3.14/3.31 (assume a3350 (tptp.s__instance tptp.s__MinFn__m tptp.s__AssociativeFunction))
% 3.14/3.31 (assume a3351 (tptp.s__instance tptp.s__MinFn__m tptp.s__CommutativeFunction))
% 3.14/3.31 (assume a3352 (tptp.s__instance tptp.s__MinFn__m tptp.s__RelationExtendedToQuantities))
% 3.14/3.31 (assume a3353 (tptp.s__instance tptp.s__MinFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3354 (tptp.s__domain tptp.s__MinFn__m |"1"| tptp.s__Quantity))
% 3.14/3.31 (assume a3355 (tptp.s__domain tptp.s__MinFn__m |"2"| tptp.s__Quantity))
% 3.14/3.31 (assume a3356 (tptp.s__range tptp.s__MinFn__m tptp.s__Quantity))
% 3.14/3.31 (assume a3357 (tptp.s__documentation tptp.s__MinFn__m tptp.s__EnglishLanguage |tptp.'(&%MinFn ?NUMBER1 ?NUMBER2) is the smallest of ?NUMBER1 and ?NUMBER2. In cases where ?NUMBER1 is equal to ?NUMBER2, &%MinFn returns one of its arguments.'|))
% 3.14/3.31 (assume a3358 (forall ((V__NUMBER $$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__MinFn V__NUMBER1 V__NUMBER2) V__NUMBER) (or (and (= V__NUMBER V__NUMBER1) (tptp.less V__NUMBER1 V__NUMBER2)) (and (= V__NUMBER V__NUMBER2) (tptp.less V__NUMBER2 V__NUMBER1)) (and (= V__NUMBER V__NUMBER1) (= V__NUMBER V__NUMBER2)))))))
% 3.14/3.31 (assume a3359 (tptp.s__instance tptp.s__NumeratorFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3360 (tptp.s__instance tptp.s__NumeratorFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3361 (tptp.s__domain tptp.s__NumeratorFn__m |"1"| tptp.s__RealNumber))
% 3.14/3.31 (assume a3362 (tptp.s__range tptp.s__NumeratorFn__m tptp.s__Integer))
% 3.14/3.31 (assume a3363 (tptp.s__documentation tptp.s__NumeratorFn__m tptp.s__EnglishLanguage |tptp.'(&%NumeratorFn ?NUMBER) returns the numerator of the canonical reduced form ?NUMBER.'|))
% 3.14/3.31 (assume a3364 (tptp.s__instance tptp.s__Pi tptp.s__PositiveRealNumber))
% 3.14/3.31 (assume a3365 (tptp.s__instance tptp.s__PositiveRealNumber__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3366 (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.'|))
% 3.14/3.31 (assume a3367 (tptp.s__instance tptp.s__NumberE tptp.s__PositiveRealNumber))
% 3.14/3.31 (assume a3368 (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.'|))
% 3.14/3.31 (assume a3369 (tptp.s__instance tptp.s__RationalNumberFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3370 (tptp.s__domain tptp.s__RationalNumberFn__m |"1"| tptp.s__Number))
% 3.14/3.31 (assume a3371 (tptp.s__range tptp.s__RationalNumberFn__m tptp.s__RationalNumber))
% 3.14/3.31 (assume a3372 (tptp.s__documentation tptp.s__RationalNumberFn__m tptp.s__EnglishLanguage |tptp.'(&%RationalNumberFn ?NUMBER) returns the rational representation of ?NUMBER.'|))
% 3.14/3.31 (assume a3373 (tptp.s__instance tptp.s__RealNumberFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3374 (tptp.s__domain tptp.s__RealNumberFn__m |"1"| tptp.s__Number))
% 3.14/3.31 (assume a3375 (tptp.s__range tptp.s__RealNumberFn__m tptp.s__RealNumber))
% 3.14/3.31 (assume a3376 (tptp.s__documentation tptp.s__RealNumberFn__m tptp.s__EnglishLanguage |tptp.'(RealNumberFn ?NUMBER) returns the part of ?NUMBER that is a &%RealNumber.'|))
% 3.14/3.31 (assume a3377 (tptp.s__instance tptp.s__ReciprocalFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3378 (tptp.s__instance tptp.s__ReciprocalFn__m tptp.s__RelationExtendedToQuantities))
% 3.14/3.31 (assume a3379 (tptp.s__instance tptp.s__ReciprocalFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3380 (tptp.s__domain tptp.s__ReciprocalFn__m |"1"| tptp.s__Quantity))
% 3.14/3.31 (assume a3381 (tptp.s__range tptp.s__ReciprocalFn__m tptp.s__Quantity))
% 3.14/3.31 (assume a3382 (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.'|))
% 3.14/3.31 (assume a3383 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__Quantity) (= (tptp.s__ReciprocalFn V__NUMBER) (tptp.s__ExponentiationFn V__NUMBER |"-1"|)))))
% 3.14/3.31 (assume a3384 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__Quantity) (= |"1"| (tptp.times V__NUMBER (tptp.s__ReciprocalFn V__NUMBER))))))
% 3.14/3.31 (assume a3385 (tptp.s__instance tptp.s__RemainderFn__m tptp.s__BinaryFunction))
% 3.14/3.31 (assume a3386 (tptp.s__instance tptp.s__RemainderFn__m tptp.s__RelationExtendedToQuantities))
% 3.14/3.31 (assume a3387 (tptp.s__instance tptp.s__RemainderFn__m tptp.s__PartialValuedRelation))
% 3.14/3.31 (assume a3388 (tptp.s__domain tptp.s__RemainderFn__m |"1"| tptp.s__Quantity))
% 3.14/3.31 (assume a3389 (tptp.s__domain tptp.s__RemainderFn__m |"2"| tptp.s__Quantity))
% 3.14/3.31 (assume a3390 (tptp.s__range tptp.s__RemainderFn__m tptp.s__Quantity))
% 3.14/3.31 (assume a3391 (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.'|))
% 3.14/3.31 (assume a3392 (forall ((V__NUMBER $$unsorted) (V__NUMBER2 $$unsorted) (V__NUMBER1 $$unsorted)) (=> (and (tptp.s__instance V__NUMBER1 tptp.s__Quantity) (tptp.s__instance V__NUMBER2 tptp.s__Quantity) (tptp.s__instance V__NUMBER tptp.s__Quantity)) (= (= (tptp.s__RemainderFn V__NUMBER1 V__NUMBER2) V__NUMBER) (= (tptp.plus (tptp.times (tptp.s__FloorFn (tptp.divide V__NUMBER1 V__NUMBER2)) V__NUMBER2) V__NUMBER) V__NUMBER1)))))
% 3.14/3.31 (assume a3393 (forall ((V__NUMBER $$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))))))
% 3.14/3.31 (assume a3394 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__Quantity) (=> (tptp.s__instance V__NUMBER tptp.s__EvenInteger) (= (tptp.s__RemainderFn V__NUMBER |"2"|) |"0"|)))))
% 3.14/3.31 (assume a3395 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__Quantity) (=> (tptp.s__instance V__NUMBER tptp.s__OddInteger) (= (tptp.s__RemainderFn V__NUMBER |"2"|) |"1"|)))))
% 3.14/3.31 (assume a3396 (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))))))))
% 3.14/3.31 (assume a3397 (tptp.s__instance tptp.s__RoundFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3398 (tptp.s__instance tptp.s__RoundFn__m tptp.s__RelationExtendedToQuantities))
% 3.14/3.31 (assume a3399 (tptp.s__instance tptp.s__RoundFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3400 (tptp.s__domain tptp.s__RoundFn__m |"1"| tptp.s__Quantity))
% 3.14/3.31 (assume a3401 (tptp.s__range tptp.s__RoundFn__m tptp.s__Quantity))
% 3.14/3.31 (assume a3402 (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.'|))
% 3.14/3.31 (assume a3403 (forall ((V__NUMBER2 $$unsorted) (V__NUMBER1 $$unsorted)) (=> (tptp.s__instance V__NUMBER1 tptp.s__RealNumber) (=> (= (tptp.s__RoundFn V__NUMBER1) V__NUMBER2) (or (=> (tptp.less (tptp.minus V__NUMBER1 (tptp.s__FloorFn V__NUMBER1)) |"0.5"|) (= V__NUMBER2 (tptp.s__FloorFn V__NUMBER1))) (=> (tptp.greatereq (tptp.minus V__NUMBER1 (tptp.s__FloorFn V__NUMBER1)) |"0.5"|) (= V__NUMBER2 (tptp.s__CeilingFn V__NUMBER1))))))))
% 3.14/3.31 (assume a3404 (tptp.s__instance tptp.s__SignumFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3405 (tptp.s__instance tptp.s__SignumFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3406 (tptp.s__domain tptp.s__SignumFn__m |"1"| tptp.s__RealNumber))
% 3.14/3.31 (assume a3407 (tptp.s__range tptp.s__SignumFn__m tptp.s__Integer))
% 3.14/3.31 (assume a3408 (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.'|))
% 3.14/3.31 (assume a3409 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (tptp.s__instance V__NUMBER tptp.s__NonnegativeRealNumber) (or (= (tptp.s__SignumFn V__NUMBER) |"1"|) (= (tptp.s__SignumFn V__NUMBER) |"0"|))))))
% 3.14/3.31 (assume a3410 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (tptp.s__instance V__NUMBER tptp.s__PositiveRealNumber) (= (tptp.s__SignumFn V__NUMBER) |"1"|)))))
% 3.14/3.31 (assume a3411 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (tptp.s__instance V__NUMBER tptp.s__NegativeRealNumber) (= (tptp.s__SignumFn V__NUMBER) |"-1"|)))))
% 3.14/3.31 (assume a3412 (tptp.s__instance tptp.s__SineFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3413 (tptp.s__instance tptp.s__SineFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3414 (tptp.s__domain tptp.s__SineFn__m |"1"| tptp.s__PlaneAngleMeasure))
% 3.14/3.31 (assume a3415 (tptp.s__range tptp.s__SineFn__m tptp.s__RealNumber))
% 3.14/3.31 (assume a3416 (tptp.s__documentation tptp.s__SineFn__m tptp.s__EnglishLanguage |tptp.'(&%SineFn ?DEGREE) is the sine of the &%PlaneAngleMeasure ?DEGREE. The sine of ?DEGREE is the ratio of the side opposite ?DEGREE to the hypotenuse in a right-angled triangle.'|))
% 3.14/3.31 (assume a3417 (tptp.s__instance tptp.s__SquareRootFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3418 (tptp.s__domain tptp.s__SquareRootFn__m |"1"| tptp.s__RealNumber))
% 3.14/3.31 (assume a3419 (tptp.s__range tptp.s__SquareRootFn__m tptp.s__Number))
% 3.14/3.31 (assume a3420 (tptp.s__documentation tptp.s__SquareRootFn__m tptp.s__EnglishLanguage |tptp.'(SquareRootFn ?NUMBER) is the principal square root of ?NUMBER.'|))
% 3.14/3.31 (assume a3421 (forall ((V__NUMBER2 $$unsorted) (V__NUMBER1 $$unsorted)) (=> (and (tptp.s__instance V__NUMBER1 tptp.s__RealNumber) (tptp.s__instance V__NUMBER2 tptp.s__Quantity)) (=> (= (tptp.s__SquareRootFn V__NUMBER1) V__NUMBER2) (= (tptp.times V__NUMBER2 V__NUMBER2) V__NUMBER1)))))
% 3.14/3.31 (assume a3422 (tptp.s__instance tptp.s__TangentFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3423 (tptp.s__instance tptp.s__TangentFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3424 (tptp.s__domain tptp.s__TangentFn__m |"1"| tptp.s__PlaneAngleMeasure))
% 3.14/3.31 (assume a3425 (tptp.s__range tptp.s__TangentFn__m tptp.s__RealNumber))
% 3.14/3.31 (assume a3426 (tptp.s__documentation tptp.s__TangentFn__m tptp.s__EnglishLanguage |tptp.'(&%TangentFn ?DEGREE) is the tangent of the &%PlaneAngleMeasure ?DEGREE. The tangent of ?DEGREE is the ratio of the side opposite ?DEGREE to the side next to ?DEGREE in a right-angled triangle.'|))
% 3.14/3.31 (assume a3427 (forall ((V__DEGREE $$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))))))
% 3.14/3.31 (assume a3428 (tptp.s__instance tptp.s__identityElement__m tptp.s__BinaryPredicate))
% 3.14/3.31 (assume a3429 (tptp.s__instance tptp.s__identityElement__m tptp.s__AsymmetricRelation))
% 3.14/3.31 (assume a3430 (tptp.s__domain tptp.s__identityElement__m |"1"| tptp.s__BinaryFunction))
% 3.14/3.31 (assume a3431 (tptp.s__domain tptp.s__identityElement__m |"2"| tptp.s__Entity))
% 3.14/3.31 (assume a3432 (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.'|))
% 3.14/3.31 (assume a3433 (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)))))))
% 3.14/3.31 (assume a3434 (tptp.s__identityElement tptp.times__m |"1"|))
% 3.14/3.31 (assume a3435 (tptp.s__identityElement tptp.plus__m |"0"|))
% 3.14/3.31 (assume a3436 (tptp.s__identityElement tptp.minus__m |"0"|))
% 3.14/3.31 (assume a3437 (tptp.s__identityElement tptp.divide__m |"1"|))
% 3.14/3.31 (assume a3438 (tptp.s__instance tptp.s__SuccessorFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3439 (tptp.s__instance tptp.s__SuccessorFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3440 (tptp.s__instance tptp.s__TotalValuedRelation__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3441 (tptp.s__domain tptp.s__SuccessorFn__m |"1"| tptp.s__Integer))
% 3.14/3.31 (assume a3442 (tptp.s__range tptp.s__SuccessorFn__m tptp.s__Integer))
% 3.14/3.31 (assume a3443 (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.'|))
% 3.14/3.31 (assume a3444 (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)))))
% 3.14/3.31 (assume a3445 (forall ((V__INT $$unsorted)) (=> (tptp.s__instance V__INT tptp.s__Integer) (tptp.less V__INT (tptp.s__SuccessorFn V__INT)))))
% 3.14/3.31 (assume a3446 (forall ((V__INT2 $$unsorted) (V__INT1 $$unsorted)) (=> (tptp.s__instance V__INT2 tptp.s__Quantity) (=> (and (tptp.s__instance V__INT1 tptp.s__Integer) (tptp.s__instance V__INT2 tptp.s__Integer)) (not (and (tptp.less V__INT1 V__INT2) (tptp.less V__INT2 (tptp.s__SuccessorFn V__INT1))))))))
% 3.14/3.31 (assume a3447 (forall ((V__INT $$unsorted)) (=> (tptp.s__instance V__INT tptp.s__Integer) (= V__INT (tptp.s__SuccessorFn (tptp.s__PredecessorFn V__INT))))))
% 3.14/3.31 (assume a3448 (forall ((V__INT $$unsorted)) (=> (tptp.s__instance V__INT tptp.s__Integer) (= V__INT (tptp.s__PredecessorFn (tptp.s__SuccessorFn V__INT))))))
% 3.14/3.31 (assume a3449 (tptp.s__instance tptp.s__PredecessorFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3450 (tptp.s__instance tptp.s__PredecessorFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3451 (tptp.s__domain tptp.s__PredecessorFn__m |"1"| tptp.s__Integer))
% 3.14/3.31 (assume a3452 (tptp.s__range tptp.s__PredecessorFn__m tptp.s__Integer))
% 3.14/3.31 (assume a3453 (tptp.s__documentation tptp.s__PredecessorFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps an &%Integer to its predecessor, e.g. the predecessor of 5 is 4.'|))
% 3.14/3.31 (assume a3454 (forall ((V__INT2 $$unsorted) (V__INT1 $$unsorted)) (=> (and (tptp.s__instance V__INT1 tptp.s__Integer) (tptp.s__instance V__INT2 tptp.s__Integer)) (=> (= (tptp.s__PredecessorFn V__INT1) (tptp.s__PredecessorFn V__INT2)) (= V__INT1 V__INT2)))))
% 3.14/3.31 (assume a3455 (forall ((V__INT $$unsorted)) (=> (tptp.s__instance V__INT tptp.s__Integer) (tptp.greater V__INT (tptp.s__PredecessorFn V__INT)))))
% 3.14/3.31 (assume a3456 (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)))))))
% 3.14/3.31 (assume a3457 (tptp.s__instance tptp.s__average__m tptp.s__PartialValuedRelation))
% 3.14/3.31 (assume a3458 (tptp.s__instance tptp.s__average__m tptp.s__BinaryPredicate))
% 3.14/3.31 (assume a3459 (tptp.s__instance tptp.s__average__m tptp.s__SingleValuedRelation))
% 3.14/3.31 (assume a3460 (tptp.s__domain tptp.s__average__m |"1"| tptp.s__List))
% 3.14/3.31 (assume a3461 (tptp.s__domain tptp.s__average__m |"2"| tptp.s__RealNumber))
% 3.14/3.31 (assume a3462 (tptp.s__synonymousExternalConcept tptp.average tptp.s__average__m tptp.s__EnglishLanguage))
% 3.14/3.31 (assume a3463 (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.'|))
% 3.14/3.31 (assume a3464 (forall ((V__AVERAGE $$unsorted) (V__LIST $$unsorted)) (=> (tptp.s__average V__LIST V__AVERAGE) (forall ((V__LISTITEM $$unsorted)) (=> (and (tptp.s__instance V__LIST tptp.s__List) (tptp.s__instance V__AVERAGE tptp.s__RealNumber)) (=> (tptp.s__inList V__LISTITEM V__LIST) (tptp.s__instance V__LISTITEM tptp.s__RealNumber)))))))
% 3.14/3.31 (assume a3465 (tptp.s__subrelation tptp.s__subset__m tptp.s__subclass__m))
% 3.14/3.31 (assume a3466 (tptp.s__domain tptp.s__subset__m |"1"| tptp.s__Set))
% 3.14/3.31 (assume a3467 (tptp.s__domain tptp.s__subset__m |"2"| tptp.s__Set))
% 3.14/3.31 (assume a3468 (tptp.s__documentation tptp.s__subset__m tptp.s__EnglishLanguage |tptp.'(subset ?SET1 ?SET2) is true just in case the &%elements of the &%Set ?SET1 are also &%elements of the &%Set ?SET2.'|))
% 3.14/3.31 (assume a3469 (forall ((V__SUBSET $$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)))))))
% 3.14/3.31 (assume a3470 (tptp.s__instance tptp.s__element__m tptp.s__BinaryPredicate))
% 3.14/3.31 (assume a3471 (tptp.s__instance tptp.s__element__m tptp.s__AsymmetricRelation))
% 3.14/3.31 (assume a3472 (tptp.s__subrelation tptp.s__element__m tptp.s__instance__m))
% 3.14/3.31 (assume a3473 (tptp.s__domain tptp.s__element__m |"1"| tptp.s__Entity))
% 3.14/3.31 (assume a3474 (tptp.s__domain tptp.s__element__m |"2"| tptp.s__Set))
% 3.14/3.31 (assume a3475 (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.'|))
% 3.14/3.31 (assume a3476 (forall ((V__SET2 $$unsorted) (V__SET1 $$unsorted)) (=> (forall ((V__ELEMENT $$unsorted)) (=> (and (tptp.s__instance V__SET1 tptp.s__Set) (tptp.s__instance V__SET2 tptp.s__Set)) (= (tptp.s__element V__ELEMENT V__SET1) (tptp.s__element V__ELEMENT V__SET2)))) (= V__SET1 V__SET2))))
% 3.14/3.31 (assume a3477 (tptp.s__instance tptp.s__UnionFn__m tptp.s__BinaryFunction))
% 3.14/3.31 (assume a3478 (tptp.s__instance tptp.s__UnionFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3479 (tptp.s__domain tptp.s__UnionFn__m |"1"| tptp.s__SetOrClass))
% 3.14/3.31 (assume a3480 (tptp.s__domain tptp.s__UnionFn__m |"2"| tptp.s__SetOrClass))
% 3.14/3.31 (assume a3481 (tptp.s__range tptp.s__UnionFn__m tptp.s__SetOrClass))
% 3.14/3.31 (assume a3482 (tptp.s__documentation tptp.s__UnionFn__m tptp.s__EnglishLanguage |tptp.'A &%BinaryFunction that maps two &%SetOrClasses to the union of these &%SetOrClasses. An object is an &%element of the union of two &%SetOrClasses just in case it is an &%instance of either &%SetOrClass.'|))
% 3.14/3.31 (assume a3483 (forall ((V__C2 $$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)))))))))
% 3.14/3.31 (assume a3484 (tptp.s__instance tptp.s__IntersectionFn__m tptp.s__BinaryFunction))
% 3.14/3.31 (assume a3485 (tptp.s__instance tptp.s__IntersectionFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3486 (tptp.s__domain tptp.s__IntersectionFn__m |"1"| tptp.s__SetOrClass))
% 3.14/3.31 (assume a3487 (tptp.s__domain tptp.s__IntersectionFn__m |"2"| tptp.s__SetOrClass))
% 3.14/3.31 (assume a3488 (tptp.s__range tptp.s__IntersectionFn__m tptp.s__SetOrClass))
% 3.14/3.31 (assume a3489 (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.'|))
% 3.14/3.31 (assume a3490 (tptp.s__instance tptp.s__RelativeComplementFn__m tptp.s__BinaryFunction))
% 3.14/3.31 (assume a3491 (tptp.s__instance tptp.s__RelativeComplementFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3492 (tptp.s__domain tptp.s__RelativeComplementFn__m |"1"| tptp.s__SetOrClass))
% 3.14/3.31 (assume a3493 (tptp.s__domain tptp.s__RelativeComplementFn__m |"2"| tptp.s__SetOrClass))
% 3.14/3.31 (assume a3494 (tptp.s__range tptp.s__RelativeComplementFn__m tptp.s__SetOrClass))
% 3.14/3.31 (assume a3495 (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.'|))
% 3.14/3.31 (assume a3496 (tptp.s__instance tptp.s__ComplementFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3497 (tptp.s__instance tptp.s__ComplementFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3498 (tptp.s__domain tptp.s__ComplementFn__m |"1"| tptp.s__SetOrClass))
% 3.14/3.31 (assume a3499 (tptp.s__range tptp.s__ComplementFn__m tptp.s__SetOrClass))
% 3.14/3.31 (assume a3500 (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.'|))
% 3.14/3.31 (assume a3501 (tptp.s__instance tptp.s__GeneralizedUnionFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3502 (tptp.s__instance tptp.s__GeneralizedUnionFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3503 (tptp.s__domainSubclass tptp.s__GeneralizedUnionFn__m |"1"| tptp.s__SetOrClass))
% 3.14/3.31 (assume a3504 (tptp.s__range tptp.s__GeneralizedUnionFn__m tptp.s__SetOrClass))
% 3.14/3.31 (assume a3505 (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.'|))
% 3.14/3.31 (assume a3506 (tptp.s__instance tptp.s__GeneralizedIntersectionFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3507 (tptp.s__instance tptp.s__GeneralizedIntersectionFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3508 (tptp.s__domainSubclass tptp.s__GeneralizedIntersectionFn__m |"1"| tptp.s__SetOrClass))
% 3.14/3.31 (assume a3509 (tptp.s__range tptp.s__GeneralizedIntersectionFn__m tptp.s__SetOrClass))
% 3.14/3.31 (assume a3510 (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.'|))
% 3.14/3.31 (assume a3511 (tptp.s__instance tptp.s__CardinalityFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3512 (tptp.s__instance tptp.s__CardinalityFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3513 (tptp.s__instance tptp.s__CardinalityFn__m tptp.s__AsymmetricRelation))
% 3.14/3.31 (assume a3514 (tptp.s__domain tptp.s__CardinalityFn__m |"1"| (tptp.s__UnionFn tptp.s__SetOrClass tptp.s__Collection)))
% 3.14/3.31 (assume a3515 (tptp.s__range tptp.s__CardinalityFn__m tptp.s__Number))
% 3.14/3.31 (assume a3516 (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.'|))
% 3.14/3.31 (assume a3517 (tptp.s__instance tptp.s__NullSet__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3518 (tptp.s__documentation tptp.s__NullSet tptp.s__EnglishLanguage |tptp.'Any &%SetOrClass that contains no instances.'|))
% 3.14/3.31 (assume a3519 (forall ((V__SET $$unsorted)) (=> (tptp.s__instance V__SET tptp.s__SetOrClass) (=> (tptp.s__instance V__SET tptp.s__NullSet) (not (exists ((V__INST $$unsorted)) (tptp.s__instance V__INST V__SET)))))))
% 3.14/3.31 (assume a3520 (tptp.s__subclass tptp.s__NonNullSet tptp.s__SetOrClass))
% 3.14/3.31 (assume a3521 (tptp.s__instance tptp.s__NonNullSet__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3522 (tptp.s__documentation tptp.s__NonNullSet tptp.s__EnglishLanguage |tptp.'Any &%SetOrClass that contains at least one instance.'|))
% 3.14/3.31 (assume a3523 (forall ((V__SET $$unsorted)) (=> (tptp.s__instance V__SET tptp.s__SetOrClass) (=> (tptp.s__instance V__SET tptp.s__NonNullSet) (exists ((V__INST $$unsorted)) (tptp.s__instance V__INST V__SET))))))
% 3.14/3.31 (assume a3524 (tptp.s__subclass tptp.s__FiniteSet tptp.s__Set))
% 3.14/3.31 (assume a3525 (tptp.s__instance tptp.s__FiniteSet__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3526 (tptp.s__documentation tptp.s__FiniteSet tptp.s__EnglishLanguage |tptp.'A &%Set containing a finite number of elements.'|))
% 3.14/3.31 (assume a3527 (forall ((V__SET $$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 $$unsorted)) (and (tptp.s__instance V__NUMBER tptp.s__NonnegativeInteger) (= V__NUMBER (tptp.s__CardinalityFn V__SET))))))))
% 3.14/3.31 (assume a3528 (tptp.s__subclass tptp.s__PairwiseDisjointClass tptp.s__SetOrClass))
% 3.14/3.31 (assume a3529 (tptp.s__instance tptp.s__PairwiseDisjointClass__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3530 (tptp.s__documentation tptp.s__PairwiseDisjointClass tptp.s__EnglishLanguage |tptp.'A &%SetOrClass is a &%PairwiseDisjointClass just in case every instance of the &%SetOrClass is either &%equal to or &%disjoint from every other instance of the &%SetOrClass.'|))
% 3.14/3.31 (assume a3531 (forall ((V__SUPERCLASS $$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))))))))
% 3.14/3.31 (assume a3532 (tptp.s__subclass tptp.s__MutuallyDisjointClass tptp.s__SetOrClass))
% 3.14/3.31 (assume a3533 (tptp.s__instance tptp.s__MutuallyDisjointClass__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3534 (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.'|))
% 3.14/3.31 (assume a3535 (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))))))))))
% 3.14/3.31 (assume a3536 (tptp.s__instance tptp.s__KappaFn__m tptp.s__BinaryFunction))
% 3.14/3.31 (assume a3537 (tptp.s__domain tptp.s__KappaFn__m |"1"| tptp.s__SymbolicString))
% 3.14/3.31 (assume a3538 (tptp.s__domain tptp.s__KappaFn__m |"2"| tptp.s__Formula))
% 3.14/3.31 (assume a3539 (tptp.s__range tptp.s__KappaFn__m tptp.s__Class))
% 3.14/3.31 (assume a3540 (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.'|))
% 3.14/3.31 (assume a3541 (tptp.s__subclass tptp.s__Graph tptp.s__Abstract))
% 3.14/3.31 (assume a3542 (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.'|))
% 3.14/3.31 (assume a3543 (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 $$unsorted)) (and (tptp.s__instance V__ARC tptp.s__GraphArc) (or (tptp.s__links V__NODE1 V__NODE2 V__ARC) (and (tptp.s__subGraph V__PATH V__GRAPH) (tptp.s__instance V__PATH tptp.s__GraphPath) (or (and (= (tptp.s__BeginNodeFn V__PATH) V__NODE1) (= (tptp.s__EndNodeFn V__PATH) V__NODE2)) (and (= (tptp.s__BeginNodeFn V__PATH) V__NODE2) (= (tptp.s__EndNodeFn V__PATH) V__NODE1))))))))))
% 3.14/3.31 (assume a3544 (forall ((V__GRAPH $$unsorted)) (=> (tptp.s__instance V__GRAPH tptp.s__Graph) (exists ((V__NODE1 $$unsorted) (V__NODE2 $$unsorted) (V__NODE3 $$unsorted) (V__ARC1 $$unsorted) (V__ARC2 $$unsorted)) (and (tptp.s__instance V__ARC2 tptp.s__GraphArc) (tptp.s__instance V__ARC1 tptp.s__GraphArc) (tptp.s__instance V__NODE3 tptp.s__GraphNode) (tptp.s__instance V__NODE2 tptp.s__GraphNode) (tptp.s__instance V__NODE1 tptp.s__GraphNode) (tptp.s__graphPart V__NODE1 V__GRAPH) (tptp.s__graphPart V__NODE2 V__GRAPH) (tptp.s__graphPart V__NODE3 V__GRAPH) (tptp.s__graphPart V__ARC1 V__GRAPH) (tptp.s__graphPart V__ARC2 V__GRAPH) (tptp.s__links V__NODE1 V__NODE2 V__ARC1) (tptp.s__links V__NODE2 V__NODE3 V__ARC2) (not (= V__NODE1 V__NODE2)) (not (= V__NODE2 V__NODE3)) (not (= V__NODE1 V__NODE3)) (not (= V__ARC1 V__ARC2)))))))
% 3.14/3.31 (assume a3545 (tptp.s__subclass tptp.s__DirectedGraph tptp.s__Graph))
% 3.14/3.31 (assume a3546 (tptp.s__documentation tptp.s__DirectedGraph tptp.s__EnglishLanguage |tptp.'The &%Class of directed graphs. A directed graph is a &%Graph in which all &%GraphArcs have direction, i.e. every &%GraphArc has an initial node (see &%InitialNodeFn) and a terminal node (see &%TerminalNodeFn).'|))
% 3.14/3.31 (assume a3547 (forall ((V__GRAPH $$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 $$unsorted)) (and (= (tptp.s__InitialNodeFn V__ARC) V__NODE1) (= (tptp.s__TerminalNodeFn V__ARC) V__NODE2)))))))
% 3.14/3.31 (assume a3548 (tptp.s__subclass tptp.s__Tree tptp.s__DirectedGraph))
% 3.14/3.31 (assume a3549 (tptp.s__instance tptp.s__Tree__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3550 (tptp.s__instance tptp.s__DirectedGraph__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3551 (tptp.s__documentation tptp.s__Tree tptp.s__EnglishLanguage |tptp.'A Tree is a &%DirectedGraph that has no &%GraphLoops.'|))
% 3.14/3.31 (assume a3552 (forall ((V__GRAPH $$unsorted)) (=> (tptp.s__instance V__GRAPH tptp.s__Graph) (=> (tptp.s__instance V__GRAPH tptp.s__Tree) (not (exists ((V__LOOP $$unsorted)) (and (tptp.s__instance V__LOOP tptp.s__GraphElement) (tptp.s__instance V__LOOP tptp.s__GraphLoop) (tptp.s__graphPart V__LOOP V__GRAPH))))))))
% 3.14/3.31 (assume a3553 (forall ((V__GRAPH $$unsorted)) (=> (tptp.s__instance V__GRAPH tptp.s__Graph) (=> (tptp.s__instance V__GRAPH tptp.s__Tree) (not (exists ((V__LOOP $$unsorted)) (and (tptp.s__instance V__LOOP tptp.s__GraphElement) (tptp.s__instance V__LOOP tptp.s__GraphCircuit) (tptp.s__graphPart V__LOOP V__GRAPH))))))))
% 3.14/3.31 (assume a3554 (forall ((V__GRAPH $$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 $$unsorted)) (and (tptp.s__instance V__NODE tptp.s__GraphElement) (tptp.s__instance V__ARC2 tptp.s__GraphArc) (tptp.s__instance V__ARC1 tptp.s__GraphArc) (tptp.s__graphPart V__ARC1 V__GRAPH) (tptp.s__graphPart V__ARC2 V__GRAPH) (tptp.s__graphPart V__NODE V__GRAPH) (= (tptp.s__TerminalNodeFn V__ARC1) V__NODE) (= (tptp.s__TerminalNodeFn V__ARC2) V__NODE) (not (= V__ARC1 V__ARC2)))))))))
% 3.14/3.31 (assume a3555 (tptp.s__subclass tptp.s__GraphPath tptp.s__DirectedGraph))
% 3.14/3.31 (assume a3556 (tptp.s__documentation tptp.s__GraphPath tptp.s__EnglishLanguage |tptp.'Informally, a single, directed route between two &%GraphNodes in a &%Graph. Formally, a &%DirectedGraph that is a &%subGraph of the original &%Graph and such that no two &%GraphArcs in the &%DirectedGraph have the same intial node (see &%InitialNodeFn) or the same terminal node (see &%TerminalNodeFn).'|))
% 3.14/3.31 (assume a3557 (forall ((V__NODE $$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 $$unsorted)) (and (tptp.s__instance V__OTHER tptp.s__GraphArc) (= (tptp.s__InitialNodeFn V__OTHER) V__NODE) (not (= V__OTHER V__ARC))))))))))
% 3.14/3.31 (assume a3558 (forall ((V__NODE $$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 $$unsorted)) (and (tptp.s__instance V__OTHER tptp.s__GraphArc) (= (tptp.s__TerminalNodeFn V__OTHER) V__NODE) (not (= V__OTHER V__ARC))))))))))
% 3.14/3.31 (assume a3559 (tptp.s__subclass tptp.s__GraphCircuit tptp.s__GraphPath))
% 3.14/3.31 (assume a3560 (tptp.s__instance tptp.s__GraphCircuit__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3561 (tptp.s__instance tptp.s__GraphPath__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3562 (tptp.s__documentation tptp.s__GraphCircuit tptp.s__EnglishLanguage |tptp.'A &%GraphPath that begins (see &%BeginNodeFn) and ends (see &%EndNodeFn) at the same &%GraphNode.'|))
% 3.14/3.31 (assume a3563 (forall ((V__GRAPH $$unsorted)) (=> (tptp.s__instance V__GRAPH tptp.s__GraphPath) (= (tptp.s__instance V__GRAPH tptp.s__GraphCircuit) (exists ((V__NODE $$unsorted)) (and (= (tptp.s__BeginNodeFn V__GRAPH) V__NODE) (= (tptp.s__EndNodeFn V__GRAPH) V__NODE)))))))
% 3.14/3.31 (assume a3564 (tptp.s__subclass tptp.s__MultiGraph tptp.s__Graph))
% 3.14/3.31 (assume a3565 (tptp.s__instance tptp.s__MultiGraph__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3566 (tptp.s__documentation tptp.s__MultiGraph tptp.s__EnglishLanguage |tptp.'The &%Class of multigraphs. A multigraph is a &%Graph containing at least one pair of &%GraphNodes that are connected by more than one &%GraphArc.'|))
% 3.14/3.31 (assume a3567 (forall ((V__GRAPH $$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))))))))
% 3.14/3.31 (assume a3568 (tptp.s__subclass tptp.s__PseudoGraph tptp.s__Graph))
% 3.14/3.31 (assume a3569 (tptp.s__instance tptp.s__PseudoGraph__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3570 (tptp.s__instance tptp.s__Graph__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3571 (tptp.s__documentation tptp.s__PseudoGraph tptp.s__EnglishLanguage |tptp.'The &%Class of pseudographs. A pseudograph is a &%Graph containing at least one &%GraphLoop.'|))
% 3.14/3.31 (assume a3572 (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)))))))
% 3.14/3.31 (assume a3573 (tptp.s__subclass tptp.s__GraphElement tptp.s__Abstract))
% 3.14/3.31 (assume a3574 (tptp.s__instance tptp.s__GraphElement__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3575 (tptp.s__partition_3 tptp.s__GraphElement tptp.s__GraphNode tptp.s__GraphArc))
% 3.14/3.31 (assume a3576 (tptp.s__documentation tptp.s__GraphElement tptp.s__EnglishLanguage |tptp.'Noncompositional parts of &%Graphs. These parts are restricted to &%GraphNodes and &%GraphArcs.'|))
% 3.14/3.31 (assume a3577 (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))))))
% 3.14/3.31 (assume a3578 (tptp.s__subclass tptp.s__GraphNode tptp.s__GraphElement))
% 3.14/3.31 (assume a3579 (tptp.s__instance tptp.s__GraphNode__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3580 (tptp.s__documentation tptp.s__GraphNode tptp.s__EnglishLanguage |tptp.'&%Graphs are comprised of &%GraphNodes and &%GraphArcs. Every &%GraphNode is linked by a &%GraphArc.'|))
% 3.14/3.31 (assume a3581 (forall ((V__NODE $$unsorted)) (=> (tptp.s__instance V__NODE tptp.s__GraphNode) (exists ((V__OTHER $$unsorted) (V__ARC $$unsorted)) (and (tptp.s__instance V__ARC tptp.s__GraphArc) (tptp.s__instance V__OTHER tptp.s__GraphNode) (tptp.s__links V__NODE V__OTHER V__ARC))))))
% 3.14/3.31 (assume a3582 (tptp.s__subclass tptp.s__GraphArc tptp.s__GraphElement))
% 3.14/3.31 (assume a3583 (tptp.s__instance tptp.s__GraphArc__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3584 (tptp.s__documentation tptp.s__GraphArc tptp.s__EnglishLanguage |tptp.'&%Graphs are comprised of &%GraphNodes and &%GraphArcs. Every &%GraphArc links two &%GraphNodes.'|))
% 3.14/3.31 (assume a3585 (forall ((V__ARC $$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))))))
% 3.14/3.31 (assume a3586 (tptp.s__subclass tptp.s__GraphLoop tptp.s__GraphArc))
% 3.14/3.31 (assume a3587 (tptp.s__instance tptp.s__GraphLoop__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3588 (tptp.s__documentation tptp.s__GraphLoop tptp.s__EnglishLanguage |tptp.'A &%GraphArc in which a &%GraphNode is linked to itself.'|))
% 3.14/3.31 (assume a3589 (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)))))))
% 3.14/3.31 (assume a3590 (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)))))
% 3.14/3.31 (assume a3591 (tptp.s__instance tptp.s__links__m tptp.s__TernaryPredicate))
% 3.14/3.31 (assume a3592 (tptp.s__domain tptp.s__links__m |"1"| tptp.s__GraphNode))
% 3.14/3.31 (assume a3593 (tptp.s__domain tptp.s__links__m |"2"| tptp.s__GraphNode))
% 3.14/3.31 (assume a3594 (tptp.s__domain tptp.s__links__m |"3"| tptp.s__GraphArc))
% 3.14/3.31 (assume a3595 (tptp.s__documentation tptp.s__links__m tptp.s__EnglishLanguage |tptp.'a &%TernaryPredicate that specifies the &%GraphArc connecting two &%GraphNodes.'|))
% 3.14/3.31 (assume a3596 (forall ((V__ARC $$unsorted) (V__NODE1 $$unsorted) (V__NODE2 $$unsorted)) (=> (and (tptp.s__instance V__NODE2 tptp.s__GraphNode) (tptp.s__instance V__NODE1 tptp.s__GraphNode) (tptp.s__instance V__ARC tptp.s__GraphArc)) (=> (tptp.s__links V__NODE1 V__NODE2 V__ARC) (tptp.s__links V__NODE2 V__NODE1 V__ARC)))))
% 3.14/3.31 (assume a3597 (tptp.s__instance tptp.s__graphPart__m tptp.s__BinaryPredicate))
% 3.14/3.31 (assume a3598 (tptp.s__instance tptp.s__graphPart__m tptp.s__AsymmetricRelation))
% 3.14/3.31 (assume a3599 (tptp.s__instance tptp.s__graphPart__m tptp.s__IrreflexiveRelation))
% 3.14/3.31 (assume a3600 (tptp.s__domain tptp.s__graphPart__m |"1"| tptp.s__GraphElement))
% 3.14/3.31 (assume a3601 (tptp.s__domain tptp.s__graphPart__m |"2"| tptp.s__Graph))
% 3.14/3.31 (assume a3602 (tptp.s__documentation tptp.s__graphPart__m tptp.s__EnglishLanguage |tptp.'A basic relation for &%Graphs and their parts. (&%graphPart ?PART ?GRAPH) means that ?PART is a &%GraphArc or &%GraphNode of the &%Graph ?GRAPH.'|))
% 3.14/3.31 (assume a3603 (tptp.s__instance tptp.s__subGraph__m tptp.s__BinaryPredicate))
% 3.14/3.31 (assume a3604 (tptp.s__instance tptp.s__subGraph__m tptp.s__ReflexiveRelation))
% 3.14/3.31 (assume a3605 (tptp.s__instance tptp.s__subGraph__m tptp.s__TransitiveRelation))
% 3.14/3.31 (assume a3606 (tptp.s__domain tptp.s__subGraph__m |"1"| tptp.s__Graph))
% 3.14/3.31 (assume a3607 (tptp.s__domain tptp.s__subGraph__m |"2"| tptp.s__Graph))
% 3.14/3.31 (assume a3608 (tptp.s__documentation tptp.s__subGraph__m tptp.s__EnglishLanguage |tptp.'The relation between two &%Graphs when one &%Graph is a part of the other. (&%subGraph ?GRAPH1 ?GRAPH2) means that ?GRAPH1 is a part of ?GRAPH2.'|))
% 3.14/3.31 (assume a3609 (forall ((V__GRAPH2 $$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)))))
% 3.14/3.31 (assume a3610 (tptp.s__instance tptp.s__pathLength__m tptp.s__BinaryPredicate))
% 3.14/3.31 (assume a3611 (tptp.s__instance tptp.s__pathLength__m tptp.s__AsymmetricRelation))
% 3.14/3.31 (assume a3612 (tptp.s__instance tptp.s__pathLength__m tptp.s__IrreflexiveRelation))
% 3.14/3.31 (assume a3613 (tptp.s__domain tptp.s__pathLength__m |"1"| tptp.s__GraphPath))
% 3.14/3.31 (assume a3614 (tptp.s__domain tptp.s__pathLength__m |"2"| tptp.s__PositiveInteger))
% 3.14/3.31 (assume a3615 (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.'|))
% 3.14/3.31 (assume a3616 (tptp.s__instance tptp.s__InitialNodeFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3617 (tptp.s__instance tptp.s__InitialNodeFn__m tptp.s__PartialValuedRelation))
% 3.14/3.31 (assume a3618 (tptp.s__domain tptp.s__InitialNodeFn__m |"1"| tptp.s__GraphArc))
% 3.14/3.31 (assume a3619 (tptp.s__range tptp.s__InitialNodeFn__m tptp.s__GraphNode))
% 3.14/3.31 (assume a3620 (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.'|))
% 3.14/3.31 (assume a3621 (tptp.s__instance tptp.s__TerminalNodeFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3622 (tptp.s__instance tptp.s__TerminalNodeFn__m tptp.s__PartialValuedRelation))
% 3.14/3.31 (assume a3623 (tptp.s__domain tptp.s__TerminalNodeFn__m |"1"| tptp.s__GraphArc))
% 3.14/3.31 (assume a3624 (tptp.s__range tptp.s__TerminalNodeFn__m tptp.s__GraphNode))
% 3.14/3.31 (assume a3625 (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.'|))
% 3.14/3.31 (assume a3626 (tptp.s__instance tptp.s__BeginNodeFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3627 (tptp.s__instance tptp.s__BeginNodeFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3628 (tptp.s__domain tptp.s__BeginNodeFn__m |"1"| tptp.s__GraphPath))
% 3.14/3.31 (assume a3629 (tptp.s__range tptp.s__BeginNodeFn__m tptp.s__GraphNode))
% 3.14/3.31 (assume a3630 (tptp.s__relatedInternalConcept tptp.s__BeginNodeFn__m tptp.s__InitialNodeFn__m))
% 3.14/3.31 (assume a3631 (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.'|))
% 3.14/3.31 (assume a3632 (tptp.s__instance tptp.s__EndNodeFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3633 (tptp.s__instance tptp.s__EndNodeFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3634 (tptp.s__domain tptp.s__EndNodeFn__m |"1"| tptp.s__GraphPath))
% 3.14/3.31 (assume a3635 (tptp.s__range tptp.s__EndNodeFn__m tptp.s__GraphNode))
% 3.14/3.31 (assume a3636 (tptp.s__relatedInternalConcept tptp.s__EndNodeFn__m tptp.s__TerminalNodeFn__m))
% 3.14/3.31 (assume a3637 (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.'|))
% 3.14/3.31 (assume a3638 (tptp.s__instance tptp.s__arcWeight__m tptp.s__BinaryPredicate))
% 3.14/3.31 (assume a3639 (tptp.s__instance tptp.s__arcWeight__m tptp.s__SingleValuedRelation))
% 3.14/3.31 (assume a3640 (tptp.s__domain tptp.s__arcWeight__m |"1"| tptp.s__GraphArc))
% 3.14/3.31 (assume a3641 (tptp.s__domain tptp.s__arcWeight__m |"2"| tptp.s__Quantity))
% 3.14/3.31 (assume a3642 (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.'|))
% 3.14/3.31 (assume a3643 (tptp.s__instance tptp.s__PathWeightFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3644 (tptp.s__domain tptp.s__PathWeightFn__m |"1"| tptp.s__GraphPath))
% 3.14/3.31 (assume a3645 (tptp.s__range tptp.s__PathWeightFn__m tptp.s__Quantity))
% 3.14/3.31 (assume a3646 (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.'|))
% 3.14/3.31 (assume a3647 (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))))))
% 3.14/3.31 (assume a3648 (forall ((V__PATH $$unsorted) (V__ARC2 $$unsorted) (V__ARC1 $$unsorted) (V__NUMBER2 $$unsorted) (V__SUM $$unsorted) (V__NUMBER1 $$unsorted)) (=> (and (= (tptp.s__PathWeightFn V__PATH) 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 $$unsorted)) (=> (and (tptp.s__instance V__ARC3 tptp.s__GraphElement) (tptp.s__instance V__NUMBER1 tptp.s__Quantity) (tptp.s__instance V__NUMBER2 tptp.s__Quantity) (tptp.s__instance V__ARC1 tptp.s__GraphArc) (tptp.s__instance V__ARC2 tptp.s__GraphArc) (tptp.s__instance V__PATH tptp.s__GraphPath)) (=> (tptp.s__graphPart V__ARC3 V__PATH) (or (= V__ARC3 V__ARC1) (= V__ARC3 V__ARC2)))))) (= (tptp.s__PathWeightFn V__PATH) (tptp.plus V__NUMBER1 V__NUMBER2)))))
% 3.14/3.31 (assume a3649 (tptp.s__instance tptp.s__MinimalWeightedPathFn__m tptp.s__BinaryFunction))
% 3.14/3.31 (assume a3650 (tptp.s__domain tptp.s__MinimalWeightedPathFn__m |"1"| tptp.s__GraphNode))
% 3.14/3.31 (assume a3651 (tptp.s__domain tptp.s__MinimalWeightedPathFn__m |"2"| tptp.s__GraphNode))
% 3.14/3.31 (assume a3652 (tptp.s__range tptp.s__MinimalWeightedPathFn__m tptp.s__GraphPath))
% 3.14/3.31 (assume a3653 (tptp.s__documentation tptp.s__MinimalWeightedPathFn__m tptp.s__EnglishLanguage |tptp.'This &%BinaryFunction assigns two &%GraphNodes to the &%GraphPath with the smallest sum of weighted arcs between the two &%GraphNodes.'|))
% 3.14/3.31 (assume a3654 (forall ((V__PATH $$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))))))
% 3.14/3.31 (assume a3655 (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 $$unsorted)) (=> (and (tptp.s__instance V__PATH2 tptp.s__GraphPath) (tptp.s__instance V__NODE2 tptp.s__GraphNode) (tptp.s__instance V__NUMBER1 tptp.s__Quantity) (tptp.s__instance V__NODE1 tptp.s__GraphNode) (tptp.s__instance V__NUMBER2 tptp.s__Quantity) (tptp.s__instance V__PATH tptp.s__GraphPath)) (=> (and (tptp.s__instance V__PATH2 (tptp.s__GraphPathFn V__NODE1 V__NODE2)) (= (tptp.s__PathWeightFn V__PATH2) V__NUMBER2)) (tptp.greatereq V__NUMBER2 V__NUMBER1)))))))
% 3.14/3.31 (assume a3656 (tptp.s__instance tptp.s__MaximalWeightedPathFn__m tptp.s__BinaryFunction))
% 3.14/3.31 (assume a3657 (tptp.s__domain tptp.s__MaximalWeightedPathFn__m |"1"| tptp.s__GraphNode))
% 3.14/3.31 (assume a3658 (tptp.s__domain tptp.s__MaximalWeightedPathFn__m |"2"| tptp.s__GraphNode))
% 3.14/3.31 (assume a3659 (tptp.s__range tptp.s__MaximalWeightedPathFn__m tptp.s__GraphPath))
% 3.14/3.31 (assume a3660 (tptp.s__documentation tptp.s__MaximalWeightedPathFn__m tptp.s__EnglishLanguage |tptp.'This &%BinaryFunction assigns two &%GraphNodes to the &%GraphPath with the largest sum of weighted arcs between the two &%GraphNodes.'|))
% 3.14/3.31 (assume a3661 (forall ((V__PATH $$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))))))
% 3.14/3.31 (assume a3662 (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 $$unsorted)) (=> (and (tptp.s__instance V__PATH2 tptp.s__GraphPath) (tptp.s__instance V__NODE2 tptp.s__GraphNode) (tptp.s__instance V__NUMBER1 tptp.s__Quantity) (tptp.s__instance V__NODE1 tptp.s__GraphNode) (tptp.s__instance V__NUMBER2 tptp.s__Quantity) (tptp.s__instance V__PATH tptp.s__GraphPath)) (=> (and (tptp.s__instance V__PATH2 (tptp.s__GraphPathFn V__NODE1 V__NODE2)) (= (tptp.s__PathWeightFn V__PATH2) V__NUMBER2)) (tptp.lesseq V__NUMBER2 V__NUMBER1)))))))
% 3.14/3.31 (assume a3663 (tptp.s__instance tptp.s__GraphPathFn__m tptp.s__BinaryFunction))
% 3.14/3.31 (assume a3664 (tptp.s__instance tptp.s__GraphPathFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3665 (tptp.s__domain tptp.s__GraphPathFn__m |"1"| tptp.s__GraphNode))
% 3.14/3.31 (assume a3666 (tptp.s__domain tptp.s__GraphPathFn__m |"2"| tptp.s__GraphNode))
% 3.14/3.31 (assume a3667 (tptp.s__rangeSubclass tptp.s__GraphPathFn__m tptp.s__GraphPath))
% 3.14/3.31 (assume a3668 (tptp.s__documentation tptp.s__GraphPathFn__m tptp.s__EnglishLanguage |tptp.'A &%BinaryFunction that maps two &%GraphNodes to the &%Class of &%GraphPaths between those two nodes. Note that the two &%GraphNodes must belong to the same &%Graph.'|))
% 3.14/3.31 (assume a3669 (forall ((V__GRAPH $$unsorted) (V__PATH $$unsorted) (V__NODE1 $$unsorted) (V__NODE2 $$unsorted)) (=> (and (tptp.s__instance V__NODE2 tptp.s__GraphNode) (tptp.s__instance V__NODE1 tptp.s__GraphNode) (tptp.s__instance V__PATH tptp.s__GraphElement) (tptp.s__instance V__GRAPH tptp.s__Graph)) (=> (and (tptp.s__graphPart V__PATH V__GRAPH) (not (tptp.s__instance V__GRAPH tptp.s__DirectedGraph))) (= (= (tptp.s__GraphPathFn V__NODE1 V__NODE2) V__PATH) (= (tptp.s__GraphPathFn V__NODE2 V__NODE1) V__PATH))))))
% 3.14/3.31 (assume a3670 (tptp.s__instance tptp.s__CutSetFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3671 (tptp.s__domain tptp.s__CutSetFn__m |"1"| tptp.s__Graph))
% 3.14/3.31 (assume a3672 (tptp.s__rangeSubclass tptp.s__CutSetFn__m tptp.s__GraphPath))
% 3.14/3.31 (assume a3673 (tptp.s__documentation tptp.s__CutSetFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that assigns a &%Graph the &%Class of &%GraphPaths that partition the graph into two separate graphs if cut. There may be more than one cutset for a given graph.'|))
% 3.14/3.31 (assume a3674 (tptp.s__instance tptp.s__MinimalCutSetFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3675 (tptp.s__domain tptp.s__MinimalCutSetFn__m |"1"| tptp.s__Graph))
% 3.14/3.31 (assume a3676 (tptp.s__rangeSubclass tptp.s__MinimalCutSetFn__m tptp.s__GraphPath))
% 3.14/3.31 (assume a3677 (tptp.s__relatedInternalConcept tptp.s__MinimalCutSetFn__m tptp.s__CutSetFn__m))
% 3.14/3.31 (assume a3678 (tptp.s__documentation tptp.s__MinimalCutSetFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that assigns a &%Graph the &%Class of &%GraphPaths which comprise cutsets for the &%Graph and which have the least number of &%GraphArcs.'|))
% 3.14/3.31 (assume a3679 (forall ((V__GRAPH $$unsorted)) (=> (tptp.s__instance V__GRAPH tptp.s__Graph) (tptp.s__subclass (tptp.s__MinimalCutSetFn V__GRAPH) (tptp.s__CutSetFn V__GRAPH)))))
% 3.14/3.31 (assume a3680 (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)))))))))
% 3.14/3.31 (assume a3681 (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)))))))
% 3.14/3.31 (assume a3682 (tptp.s__instance tptp.s__abstractCounterpart__m tptp.s__BinaryPredicate))
% 3.14/3.31 (assume a3683 (tptp.s__domain tptp.s__abstractCounterpart__m |"1"| tptp.s__Abstract))
% 3.14/3.31 (assume a3684 (tptp.s__domain tptp.s__abstractCounterpart__m |"2"| tptp.s__Physical))
% 3.14/3.31 (assume a3685 (tptp.s__subrelation tptp.s__abstractCounterpart__m tptp.s__represents__m))
% 3.14/3.31 (assume a3686 (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.'|))
% 3.14/3.31 (assume a3687 (tptp.s__subclass tptp.s__PhysicalSystem tptp.s__Physical))
% 3.14/3.31 (assume a3688 (tptp.s__instance tptp.s__PhysicalSystem__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3689 (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.'|))
% 3.14/3.31 (assume a3690 (tptp.s__instance tptp.s__subSystem__m tptp.s__BinaryPredicate))
% 3.14/3.31 (assume a3691 (tptp.s__domain tptp.s__subSystem__m |"1"| tptp.s__PhysicalSystem))
% 3.14/3.31 (assume a3692 (tptp.s__domain tptp.s__subSystem__m |"2"| tptp.s__PhysicalSystem))
% 3.14/3.31 (assume a3693 (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.'|))
% 3.14/3.31 (assume a3694 (tptp.s__instance tptp.s__systemPart__m tptp.s__BinaryPredicate))
% 3.14/3.31 (assume a3695 (tptp.s__domain tptp.s__systemPart__m |"1"| tptp.s__Physical))
% 3.14/3.31 (assume a3696 (tptp.s__domain tptp.s__systemPart__m |"2"| tptp.s__PhysicalSystem))
% 3.14/3.31 (assume a3697 (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.'|))
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% 3.14/3.31 (assume a3794 (forall ((V__UNIT $$unsorted)) (=> (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (=> (tptp.s__instance V__UNIT tptp.s__CompositeUnitOfMeasure) (tptp.s__instance (tptp.s__KiloFn V__UNIT) tptp.s__CompositeUnitOfMeasure)))))
% 3.14/3.31 (assume a3795 (forall ((V__UNIT $$unsorted)) (=> (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (=> (tptp.s__instance V__UNIT tptp.s__CompositeUnitOfMeasure) (tptp.s__instance (tptp.s__GigaFn V__UNIT) tptp.s__CompositeUnitOfMeasure)))))
% 3.14/3.31 (assume a3796 (forall ((V__UNIT $$unsorted)) (=> (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (=> (tptp.s__instance V__UNIT tptp.s__CompositeUnitOfMeasure) (tptp.s__instance (tptp.s__NanoFn V__UNIT) tptp.s__CompositeUnitOfMeasure)))))
% 3.14/3.31 (assume a3797 (forall ((V__UNIT $$unsorted)) (=> (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (=> (tptp.s__instance V__UNIT tptp.s__CompositeUnitOfMeasure) (tptp.s__instance (tptp.s__MegaFn V__UNIT) tptp.s__CompositeUnitOfMeasure)))))
% 3.14/3.31 (assume a3798 (forall ((V__UNIT $$unsorted)) (=> (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (=> (tptp.s__instance V__UNIT tptp.s__CompositeUnitOfMeasure) (tptp.s__instance (tptp.s__MilliFn V__UNIT) tptp.s__CompositeUnitOfMeasure)))))
% 3.14/3.31 (assume a3799 (forall ((V__UNIT $$unsorted)) (=> (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (=> (tptp.s__instance V__UNIT tptp.s__CompositeUnitOfMeasure) (tptp.s__instance (tptp.s__MicroFn V__UNIT) tptp.s__CompositeUnitOfMeasure)))))
% 3.14/3.31 (assume a3800 (forall ((V__UNIT $$unsorted)) (=> (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (=> (tptp.s__instance V__UNIT tptp.s__CompositeUnitOfMeasure) (tptp.s__instance (tptp.s__TeraFn V__UNIT) tptp.s__CompositeUnitOfMeasure)))))
% 3.14/3.31 (assume a3801 (forall ((V__UNIT $$unsorted)) (=> (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (=> (tptp.s__instance V__UNIT tptp.s__CompositeUnitOfMeasure) (tptp.s__instance (tptp.s__PicoFn V__UNIT) tptp.s__CompositeUnitOfMeasure)))))
% 3.14/3.31 (assume a3802 (forall ((V__UNIT $$unsorted)) (=> (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (=> (tptp.s__instance V__UNIT tptp.s__NonCompositeUnitOfMeasure) (tptp.s__instance (tptp.s__GigaFn V__UNIT) tptp.s__NonCompositeUnitOfMeasure)))))
% 3.14/3.31 (assume a3803 (forall ((V__UNIT $$unsorted)) (=> (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (=> (tptp.s__instance V__UNIT tptp.s__NonCompositeUnitOfMeasure) (tptp.s__instance (tptp.s__MilliFn V__UNIT) tptp.s__NonCompositeUnitOfMeasure)))))
% 3.14/3.31 (assume a3804 (forall ((V__UNIT $$unsorted)) (=> (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (=> (tptp.s__instance V__UNIT tptp.s__NonCompositeUnitOfMeasure) (tptp.s__instance (tptp.s__KiloFn V__UNIT) tptp.s__NonCompositeUnitOfMeasure)))))
% 3.14/3.31 (assume a3805 (forall ((V__UNIT $$unsorted)) (=> (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (=> (tptp.s__instance V__UNIT tptp.s__NonCompositeUnitOfMeasure) (tptp.s__instance (tptp.s__PicoFn V__UNIT) tptp.s__NonCompositeUnitOfMeasure)))))
% 3.14/3.31 (assume a3806 (forall ((V__UNIT $$unsorted)) (=> (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (=> (tptp.s__instance V__UNIT tptp.s__NonCompositeUnitOfMeasure) (tptp.s__instance (tptp.s__MegaFn V__UNIT) tptp.s__NonCompositeUnitOfMeasure)))))
% 3.14/3.31 (assume a3807 (forall ((V__UNIT $$unsorted)) (=> (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (=> (tptp.s__instance V__UNIT tptp.s__NonCompositeUnitOfMeasure) (tptp.s__instance (tptp.s__MicroFn V__UNIT) tptp.s__NonCompositeUnitOfMeasure)))))
% 3.14/3.31 (assume a3808 (forall ((V__UNIT $$unsorted)) (=> (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (=> (tptp.s__instance V__UNIT tptp.s__NonCompositeUnitOfMeasure) (tptp.s__instance (tptp.s__TeraFn V__UNIT) tptp.s__NonCompositeUnitOfMeasure)))))
% 3.14/3.31 (assume a3809 (forall ((V__UNIT $$unsorted)) (=> (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (=> (tptp.s__instance V__UNIT tptp.s__NonCompositeUnitOfMeasure) (tptp.s__instance (tptp.s__NanoFn V__UNIT) tptp.s__NonCompositeUnitOfMeasure)))))
% 3.14/3.31 (assume a3810 (tptp.s__instance tptp.s__KiloFn__m tptp.s__UnitOfMeasureMultiplier))
% 3.14/3.31 (assume a3811 (tptp.s__domain tptp.s__KiloFn__m |"1"| tptp.s__UnitOfMeasure))
% 3.14/3.31 (assume a3812 (tptp.s__range tptp.s__KiloFn__m tptp.s__UnitOfMeasure))
% 3.14/3.31 (assume a3813 (tptp.s__documentation tptp.s__KiloFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to 1,000 units of the original &%UnitOfMeasure. For example, (&%KiloFn &%Gram) is 1,000 &%Grams.'|))
% 3.14/3.31 (assume a3814 (forall ((V__KILOUNIT $$unsorted) (V__UNIT $$unsorted)) (=> (tptp.s__instance V__KILOUNIT tptp.s__UnitOfMeasure) (=> (and (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (= V__KILOUNIT (tptp.s__KiloFn V__UNIT))) (= (tptp.s__MeasureFn |"1"| V__KILOUNIT) (tptp.s__MeasureFn |"1000"| V__UNIT))))))
% 3.14/3.31 (assume a3815 (tptp.s__instance tptp.s__MegaFn__m tptp.s__UnitOfMeasureMultiplier))
% 3.14/3.31 (assume a3816 (tptp.s__domain tptp.s__MegaFn__m |"1"| tptp.s__UnitOfMeasure))
% 3.14/3.31 (assume a3817 (tptp.s__range tptp.s__MegaFn__m tptp.s__UnitOfMeasure))
% 3.14/3.31 (assume a3818 (tptp.s__documentation tptp.s__MegaFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to 1,000,000 units of the original &%UnitOfMeasure. For example, (&%MegaFn &%Hertz) is 1,000,000 &%Hertz.'|))
% 3.14/3.31 (assume a3819 (forall ((V__UNIT $$unsorted) (V__MEGAUNIT $$unsorted)) (=> (tptp.s__instance V__MEGAUNIT tptp.s__UnitOfMeasure) (=> (and (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (= V__MEGAUNIT (tptp.s__MegaFn V__UNIT))) (= (tptp.s__MeasureFn |"1"| V__MEGAUNIT) (tptp.s__MeasureFn |"1000000"| V__UNIT))))))
% 3.14/3.31 (assume a3820 (tptp.s__instance tptp.s__GigaFn__m tptp.s__UnitOfMeasureMultiplier))
% 3.14/3.31 (assume a3821 (tptp.s__domain tptp.s__GigaFn__m |"1"| tptp.s__UnitOfMeasure))
% 3.14/3.31 (assume a3822 (tptp.s__range tptp.s__GigaFn__m tptp.s__UnitOfMeasure))
% 3.14/3.31 (assume a3823 (tptp.s__documentation tptp.s__GigaFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to 1,000,000,000 units of the original &%UnitOfMeasure. For example, (&%GigaFn &%Hertz) is 1,000,000,000 &%Hertz.'|))
% 3.14/3.31 (assume a3824 (forall ((V__GIGAUNIT $$unsorted) (V__UNIT $$unsorted)) (=> (tptp.s__instance V__GIGAUNIT tptp.s__UnitOfMeasure) (=> (and (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (= V__GIGAUNIT (tptp.s__GigaFn V__UNIT))) (= (tptp.s__MeasureFn |"1"| V__GIGAUNIT) (tptp.s__MeasureFn |"1000000000"| V__UNIT))))))
% 3.14/3.31 (assume a3825 (tptp.s__instance tptp.s__TeraFn__m tptp.s__UnitOfMeasureMultiplier))
% 3.14/3.31 (assume a3826 (tptp.s__domain tptp.s__TeraFn__m |"1"| tptp.s__UnitOfMeasure))
% 3.14/3.31 (assume a3827 (tptp.s__range tptp.s__TeraFn__m tptp.s__UnitOfMeasure))
% 3.14/3.31 (assume a3828 (tptp.s__documentation tptp.s__TeraFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to 1,000,000,000,000 units of the original &%UnitOfMeasure. For example, (&%TeraFn &%Hertz) is 1,000,000,000,000 &%Hertz.'|))
% 3.14/3.31 (assume a3829 (forall ((V__UNIT $$unsorted) (V__TERAUNIT $$unsorted)) (=> (tptp.s__instance V__TERAUNIT tptp.s__UnitOfMeasure) (=> (and (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (= V__TERAUNIT (tptp.s__TeraFn V__UNIT))) (= (tptp.s__MeasureFn |"1"| V__TERAUNIT) (tptp.s__MeasureFn |"1000000000000"| V__UNIT))))))
% 3.14/3.31 (assume a3830 (tptp.s__instance tptp.s__MilliFn__m tptp.s__UnitOfMeasureMultiplier))
% 3.14/3.31 (assume a3831 (tptp.s__instance tptp.s__UnitOfMeasureMultiplier__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3832 (tptp.s__domain tptp.s__MilliFn__m |"1"| tptp.s__UnitOfMeasure))
% 3.14/3.31 (assume a3833 (tptp.s__range tptp.s__MilliFn__m tptp.s__UnitOfMeasure))
% 3.14/3.31 (assume a3834 (tptp.s__documentation tptp.s__MilliFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to .001 units of the original &%UnitOfMeasure. For example, (&%MilliFn &%Gram) is .001 &%Grams.'|))
% 3.14/3.31 (assume a3835 (forall ((V__MILLIUNIT $$unsorted) (V__UNIT $$unsorted)) (=> (tptp.s__instance V__MILLIUNIT tptp.s__UnitOfMeasure) (=> (and (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (= V__MILLIUNIT (tptp.s__MilliFn V__UNIT))) (= (tptp.s__MeasureFn |"1"| V__MILLIUNIT) (tptp.s__MeasureFn |"0.001"| V__UNIT))))))
% 3.14/3.31 (assume a3836 (tptp.s__instance tptp.s__MicroFn__m tptp.s__UnitOfMeasureMultiplier))
% 3.14/3.31 (assume a3837 (tptp.s__domain tptp.s__MicroFn__m |"1"| tptp.s__UnitOfMeasure))
% 3.14/3.31 (assume a3838 (tptp.s__range tptp.s__MicroFn__m tptp.s__UnitOfMeasure))
% 3.14/3.31 (assume a3839 (tptp.s__documentation tptp.s__MicroFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to .000001 units of the original &%UnitOfMeasure. For example, (&%MicroFn &%Meter) is .000001 &%Meters.'|))
% 3.14/3.31 (assume a3840 (forall ((V__UNIT $$unsorted) (V__MICROUNIT $$unsorted)) (=> (tptp.s__instance V__MICROUNIT tptp.s__UnitOfMeasure) (=> (and (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (= V__MICROUNIT (tptp.s__MicroFn V__UNIT))) (= (tptp.s__MeasureFn |"1"| V__MICROUNIT) (tptp.s__MeasureFn |"0.000001"| V__UNIT))))))
% 3.14/3.31 (assume a3841 (tptp.s__instance tptp.s__NanoFn__m tptp.s__UnitOfMeasureMultiplier))
% 3.14/3.31 (assume a3842 (tptp.s__domain tptp.s__NanoFn__m |"1"| tptp.s__UnitOfMeasure))
% 3.14/3.31 (assume a3843 (tptp.s__range tptp.s__NanoFn__m tptp.s__UnitOfMeasure))
% 3.14/3.31 (assume a3844 (tptp.s__documentation tptp.s__NanoFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to .000000001 units of the original &%UnitOfMeasure. For example, (&%MicroFn &%SecondDuration) is .000000001 &%SecondDurations.'|))
% 3.14/3.31 (assume a3845 (forall ((V__NANOUNIT $$unsorted) (V__UNIT $$unsorted)) (=> (tptp.s__instance V__NANOUNIT tptp.s__UnitOfMeasure) (=> (and (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (= V__NANOUNIT (tptp.s__NanoFn V__UNIT))) (= (tptp.s__MeasureFn |"1"| V__NANOUNIT) (tptp.s__MeasureFn |"0.000000001"| V__UNIT))))))
% 3.14/3.31 (assume a3846 (tptp.s__instance tptp.s__PicoFn__m tptp.s__UnitOfMeasureMultiplier))
% 3.14/3.31 (assume a3847 (tptp.s__domain tptp.s__PicoFn__m |"1"| tptp.s__UnitOfMeasure))
% 3.14/3.31 (assume a3848 (tptp.s__range tptp.s__PicoFn__m tptp.s__UnitOfMeasure))
% 3.14/3.31 (assume a3849 (tptp.s__documentation tptp.s__PicoFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to .000000000001 units of the original &%UnitOfMeasure. For example, (&%PicoFn &%SecondDuration) is .000000000001 &%SecondDurations.'|))
% 3.14/3.31 (assume a3850 (forall ((V__PICOUNIT $$unsorted) (V__UNIT $$unsorted)) (=> (tptp.s__instance V__PICOUNIT tptp.s__UnitOfMeasure) (=> (and (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (= V__PICOUNIT (tptp.s__PicoFn V__UNIT))) (= (tptp.s__MeasureFn |"1"| V__PICOUNIT) (tptp.s__MeasureFn |"0.000000000001"| V__UNIT))))))
% 3.14/3.31 (assume a3851 (tptp.s__instance tptp.s__IntervalFn__m tptp.s__BinaryFunction))
% 3.14/3.31 (assume a3852 (tptp.s__domain tptp.s__IntervalFn__m |"1"| tptp.s__ConstantQuantity))
% 3.14/3.31 (assume a3853 (tptp.s__domain tptp.s__IntervalFn__m |"2"| tptp.s__ConstantQuantity))
% 3.14/3.31 (assume a3854 (tptp.s__rangeSubclass tptp.s__IntervalFn__m tptp.s__ConstantQuantity))
% 3.14/3.31 (assume a3855 (tptp.s__relatedInternalConcept tptp.s__IntervalFn__m tptp.s__RecurrentTimeIntervalFn__m))
% 3.14/3.31 (assume a3856 (tptp.s__documentation tptp.s__IntervalFn__m tptp.s__EnglishLanguage |tptp.'A &%BinaryFunction that maps two instances of &%ConstantQuantity to the &%subclass of &%ConstantQuantity that comprises the interval from the first &%ConstantQuantity to the second &%ConstantQuantity. For example, (&%IntervalFn (&%MeasureFn 8 &%Meter) (&%MeasureFn 14 &%Meter)) would return the &%subclass of &%ConstantQuantity comprising quantities between 8 and 14 meters in length.'|))
% 3.14/3.31 (assume a3857 (forall ((V__FROM $$unsorted) (V__QUANTITY $$unsorted) (V__CLASS $$unsorted) (V__TO $$unsorted)) (=> (and (tptp.s__instance V__TO tptp.s__ConstantQuantity) (tptp.s__instance V__CLASS tptp.s__SetOrClass) (tptp.s__instance V__FROM tptp.s__ConstantQuantity)) (=> (and (tptp.s__instance V__QUANTITY (tptp.s__IntervalFn V__FROM V__TO)) (tptp.s__instance V__FROM V__CLASS) (tptp.s__instance V__TO V__CLASS)) (tptp.s__instance V__QUANTITY V__CLASS)))))
% 3.14/3.31 (assume a3858 (forall ((V__FROM $$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))))))
% 3.14/3.31 (assume a3859 (tptp.s__instance tptp.s__MagnitudeFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3860 (tptp.s__domain tptp.s__MagnitudeFn__m |"1"| tptp.s__PhysicalQuantity))
% 3.14/3.31 (assume a3861 (tptp.s__range tptp.s__MagnitudeFn__m tptp.s__RealNumber))
% 3.14/3.31 (assume a3862 (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.'|))
% 3.14/3.31 (assume a3863 (forall ((V__NUMBER $$unsorted) (V__QUANT $$unsorted) (V__UNIT $$unsorted)) (=> (and (tptp.s__instance V__QUANT tptp.s__PhysicalQuantity) (tptp.s__instance V__NUMBER tptp.s__RealNumber)) (=> (and (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (= V__QUANT (tptp.s__MeasureFn V__NUMBER V__UNIT))) (= (tptp.s__MagnitudeFn V__QUANT) V__NUMBER)))))
% 3.14/3.31 (assume a3864 (tptp.s__instance tptp.s__UnitFn__m tptp.s__UnaryFunction))
% 3.14/3.31 (assume a3865 (tptp.s__domain tptp.s__UnitFn__m |"1"| tptp.s__PhysicalQuantity))
% 3.14/3.31 (assume a3866 (tptp.s__range tptp.s__UnitFn__m tptp.s__UnitOfMeasure))
% 3.14/3.31 (assume a3867 (tptp.s__documentation tptp.s__UnitFn__m tptp.s__EnglishLanguage |tptp.'&%UnitFn returns just the &%UnitOfMeasure of a &%PhysicalQuantity with an associated &%UnitOfMeasure and &%RealNumber magnitude. For example, the unit of the &%ConstantQuantity (&%MeasureFn 2 &%Kilometer) is the &%UnitOfMeasure &%Kilometer.'|))
% 3.14/3.31 (assume a3868 (forall ((V__NUMBER $$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)))))
% 3.14/3.31 (assume a3869 (tptp.s__instance tptp.s__PerFn__m tptp.s__BinaryFunction))
% 3.14/3.31 (assume a3870 (tptp.s__instance tptp.s__PerFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3871 (tptp.s__domain tptp.s__PerFn__m |"1"| tptp.s__PhysicalQuantity))
% 3.14/3.31 (assume a3872 (tptp.s__domain tptp.s__PerFn__m |"2"| tptp.s__PhysicalQuantity))
% 3.14/3.31 (assume a3873 (tptp.s__range tptp.s__PerFn__m tptp.s__FunctionQuantity))
% 3.14/3.31 (assume a3874 (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.'|))
% 3.14/3.31 (assume a3875 (tptp.s__subrelation tptp.s__DensityFn__m tptp.s__PerFn__m))
% 3.14/3.31 (assume a3876 (tptp.s__instance tptp.s__DensityFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3877 (tptp.s__domain tptp.s__DensityFn__m |"1"| tptp.s__MassMeasure))
% 3.14/3.31 (assume a3878 (tptp.s__domain tptp.s__DensityFn__m |"2"| tptp.s__VolumeMeasure))
% 3.14/3.31 (assume a3879 (tptp.s__range tptp.s__DensityFn__m tptp.s__FunctionQuantity))
% 3.14/3.31 (assume a3880 (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.'|))
% 3.14/3.31 (assume a3881 (tptp.s__subrelation tptp.s__SpeedFn__m tptp.s__PerFn__m))
% 3.14/3.31 (assume a3882 (tptp.s__instance tptp.s__SpeedFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3883 (tptp.s__domain tptp.s__SpeedFn__m |"1"| tptp.s__LengthMeasure))
% 3.14/3.31 (assume a3884 (tptp.s__domain tptp.s__SpeedFn__m |"2"| tptp.s__TimeDuration))
% 3.14/3.31 (assume a3885 (tptp.s__range tptp.s__SpeedFn__m tptp.s__FunctionQuantity))
% 3.14/3.31 (assume a3886 (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.'|))
% 3.14/3.31 (assume a3887 (tptp.s__instance tptp.s__VelocityFn__m tptp.s__QuaternaryFunction))
% 3.14/3.31 (assume a3888 (tptp.s__instance tptp.s__QuaternaryFunction__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3889 (tptp.s__instance tptp.s__VelocityFn__m tptp.s__TotalValuedRelation))
% 3.14/3.31 (assume a3890 (tptp.s__domain tptp.s__VelocityFn__m |"1"| tptp.s__LengthMeasure))
% 3.14/3.31 (assume a3891 (tptp.s__domain tptp.s__VelocityFn__m |"2"| tptp.s__TimeDuration))
% 3.14/3.31 (assume a3892 (tptp.s__domain tptp.s__VelocityFn__m |"3"| tptp.s__Region))
% 3.14/3.31 (assume a3893 (tptp.s__domain tptp.s__VelocityFn__m |"4"| tptp.s__DirectionalAttribute))
% 3.14/3.31 (assume a3894 (tptp.s__range tptp.s__VelocityFn__m tptp.s__FunctionQuantity))
% 3.14/3.31 (assume a3895 (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.'|))
% 3.14/3.31 (assume a3896 (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))))))
% 3.14/3.31 (assume a3897 (tptp.s__instance tptp.s__Meter tptp.s__UnitOfLength))
% 3.14/3.31 (assume a3898 (tptp.s__instance tptp.s__Meter tptp.s__SystemeInternationalUnit))
% 3.14/3.31 (assume a3899 (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.'|))
% 3.14/3.31 (assume a3900 (tptp.s__instance tptp.s__Gram tptp.s__UnitOfMass))
% 3.14/3.31 (assume a3901 (tptp.s__instance tptp.s__Gram tptp.s__SystemeInternationalUnit))
% 3.14/3.31 (assume a3902 (tptp.s__documentation tptp.s__Gram tptp.s__EnglishLanguage |tptp.'Submultiple of kilogram. Symbol: g. 1 kilogram = 1000 &%Grams.'|))
% 3.14/3.31 (assume a3903 (tptp.s__instance tptp.s__SecondDuration tptp.s__UnitOfDuration))
% 3.14/3.31 (assume a3904 (tptp.s__instance tptp.s__SecondDuration tptp.s__SystemeInternationalUnit))
% 3.14/3.31 (assume a3905 (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.'|))
% 3.14/3.31 (assume a3906 (tptp.s__instance tptp.s__Ampere tptp.s__CompositeUnitOfMeasure))
% 3.14/3.31 (assume a3907 (tptp.s__instance tptp.s__Ampere tptp.s__SystemeInternationalUnit))
% 3.14/3.31 (assume a3908 (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.'|))
% 3.14/3.31 (assume a3909 (tptp.s__instance tptp.s__KelvinDegree tptp.s__UnitOfTemperature))
% 3.14/3.31 (assume a3910 (tptp.s__instance tptp.s__KelvinDegree tptp.s__SystemeInternationalUnit))
% 3.14/3.31 (assume a3911 (tptp.s__instance tptp.s__SystemeInternationalUnit__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3912 (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.'|))
% 3.14/3.31 (assume a3913 (tptp.s__instance tptp.s__Mole tptp.s__UnitOfMass))
% 3.14/3.31 (assume a3914 (tptp.s__instance tptp.s__Mole tptp.s__SystemeInternationalUnit))
% 3.14/3.31 (assume a3915 (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.'|))
% 3.14/3.31 (assume a3916 (tptp.s__instance tptp.s__Candela tptp.s__CompositeUnitOfMeasure))
% 3.14/3.31 (assume a3917 (tptp.s__instance tptp.s__Candela tptp.s__SystemeInternationalUnit))
% 3.14/3.31 (assume a3918 (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.'|))
% 3.14/3.31 (assume a3919 (tptp.s__instance tptp.s__Liter tptp.s__UnitOfVolume))
% 3.14/3.31 (assume a3920 (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.'|))
% 3.14/3.31 (assume a3921 (tptp.s__instance tptp.s__Centimeter tptp.s__UnitOfLength))
% 3.14/3.31 (assume a3922 (tptp.s__documentation tptp.s__Centimeter tptp.s__EnglishLanguage |tptp.'Submultiple of &%Meter. Symbol: cm. It is the 100th part of a &%Meter'|))
% 3.14/3.31 (assume a3923 (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))))))
% 3.14/3.31 (assume a3924 (tptp.s__documentation tptp.s__Millimeter tptp.s__EnglishLanguage |tptp.'Submultiple of Meter. Symbol: mm. A millimeter is the 1000th part of a meter'|))
% 3.14/3.31 (assume a3925 (tptp.s__instance tptp.s__Millimeter tptp.s__UnitOfLength))
% 3.14/3.31 (assume a3926 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__Millimeter) (tptp.s__MeasureFn (tptp.times V__NUMBER |"0.001"|) tptp.s__Meter))))))
% 3.14/3.31 (assume a3927 (tptp.s__instance tptp.s__Kilometer tptp.s__UnitOfLength))
% 3.14/3.31 (assume a3928 (tptp.s__documentation tptp.s__Kilometer tptp.s__EnglishLanguage |tptp.'Supermultiple of &%Meter. Symbol: km. A &%Meter is the 1000th part of a &%Kilometer'|))
% 3.14/3.31 (assume a3929 (forall ((V__NUMBER $$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))))))
% 3.14/3.31 (assume a3930 (tptp.s__instance tptp.s__Radian tptp.s__UnitOfAngularMeasure))
% 3.14/3.31 (assume a3931 (tptp.s__instance tptp.s__Radian tptp.s__SystemeInternationalUnit))
% 3.14/3.31 (assume a3932 (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.'|))
% 3.14/3.31 (assume a3933 (tptp.s__instance tptp.s__Steradian tptp.s__UnitOfAngularMeasure))
% 3.14/3.31 (assume a3934 (tptp.s__instance tptp.s__Steradian tptp.s__SystemeInternationalUnit))
% 3.14/3.31 (assume a3935 (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.'|))
% 3.14/3.31 (assume a3936 (tptp.s__subclass tptp.s__FrequencyMeasure tptp.s__TimeDependentQuantity))
% 3.14/3.31 (assume a3937 (tptp.s__instance tptp.s__FrequencyMeasure__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3938 (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.'|))
% 3.14/3.31 (assume a3939 (tptp.s__subclass tptp.s__UnitOfFrequency tptp.s__CompositeUnitOfMeasure))
% 3.14/3.31 (assume a3940 (tptp.s__instance tptp.s__UnitOfFrequency__t tptp.s__SetOrClass))
% 3.14/3.31 (assume a3941 (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.'|))
% 3.14/3.31 (assume a3942 (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)))))
% 3.14/3.31 (assume a3943 (tptp.s__instance tptp.s__Hertz tptp.s__UnitOfFrequency))
% 3.14/3.31 (assume a3944 (tptp.s__instance tptp.s__Hertz tptp.s__SystemeInternationalUnit))
% 3.14/3.31 (assume a3945 (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.'|))
% 3.14/3.31 (assume a3946 (tptp.s__instance tptp.s__Newton tptp.s__CompositeUnitOfMeasure))
% 3.14/3.31 (assume a3947 (tptp.s__instance tptp.s__Newton tptp.s__SystemeInternationalUnit))
% 3.14/3.31 (assume a3948 (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).'|))
% 3.14/3.31 (assume a3949 (tptp.s__instance tptp.s__Pascal tptp.s__CompositeUnitOfMeasure))
% 3.14/3.31 (assume a3950 (tptp.s__instance tptp.s__Pascal tptp.s__SystemeInternationalUnit))
% 3.14/3.31 (assume a3951 (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).'|))
% 3.14/3.31 (assume a3952 (tptp.s__instance tptp.s__Joule tptp.s__CompositeUnitOfMeasure))
% 3.14/3.31 (assume a3953 (tptp.s__instance tptp.s__Joule tptp.s__SystemeInternationalUnit))
% 3.14/3.31 (assume a3954 (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).'|))
% 3.14/3.31 (assume a3955 (tptp.s__instance tptp.s__Watt tptp.s__CompositeUnitOfMeasure))
% 3.14/3.31 (assume a3956 (tptp.s__instance tptp.s__Watt tptp.s__SystemeInternationalUnit))
% 3.14/3.31 (assume a3957 (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).'|))
% 3.14/3.31 (assume a3958 (tptp.s__instance tptp.s__Horsepower tptp.s__CompositeUnitOfMeasure))
% 3.14/3.31 (assume a3959 (tptp.s__documentation tptp.s__Horsepower tptp.s__EnglishLanguage |tptp.'A power measure that is equal to 746 &%Watts.'|))
% 3.14/3.31 (assume a3960 (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)))))
% 3.14/3.31 (assume a3961 (tptp.s__instance tptp.s__Coulomb tptp.s__CompositeUnitOfMeasure))
% 3.14/3.31 (assume a3962 (tptp.s__instance tptp.s__Coulomb tptp.s__SystemeInternationalUnit))
% 3.14/3.31 (assume a3963 (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.'|))
% 3.14/3.31 (assume a3964 (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)))))
% 3.14/3.31 (assume a3965 (tptp.s__instance tptp.s__Volt tptp.s__CompositeUnitOfMeasure))
% 3.14/3.31 (assume a3966 (tptp.s__instance tptp.s__Volt tptp.s__SystemeInternationalUnit))
% 3.14/3.32 (assume a3967 (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).'|))
% 3.14/3.32 (assume a3968 (tptp.s__instance tptp.s__Farad tptp.s__CompositeUnitOfMeasure))
% 3.14/3.32 (assume a3969 (tptp.s__instance tptp.s__Farad tptp.s__SystemeInternationalUnit))
% 3.14/3.32 (assume a3970 (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.'|))
% 3.14/3.32 (assume a3971 (tptp.s__instance tptp.s__Ohm tptp.s__CompositeUnitOfMeasure))
% 3.14/3.32 (assume a3972 (tptp.s__instance tptp.s__Ohm tptp.s__SystemeInternationalUnit))
% 3.14/3.32 (assume a3973 (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).'|))
% 3.14/3.32 (assume a3974 (tptp.s__instance tptp.s__Siemens tptp.s__CompositeUnitOfMeasure))
% 3.14/3.32 (assume a3975 (tptp.s__instance tptp.s__Siemens tptp.s__SystemeInternationalUnit))
% 3.14/3.32 (assume a3976 (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.'|))
% 3.14/3.32 (assume a3977 (tptp.s__instance tptp.s__Weber tptp.s__CompositeUnitOfMeasure))
% 3.14/3.32 (assume a3978 (tptp.s__instance tptp.s__Weber tptp.s__SystemeInternationalUnit))
% 3.14/3.32 (assume a3979 (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).'|))
% 3.14/3.32 (assume a3980 (tptp.s__instance tptp.s__Tesla tptp.s__CompositeUnitOfMeasure))
% 3.14/3.32 (assume a3981 (tptp.s__instance tptp.s__Tesla tptp.s__SystemeInternationalUnit))
% 3.14/3.32 (assume a3982 (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).'|))
% 3.14/3.32 (assume a3983 (tptp.s__instance tptp.s__Henry tptp.s__CompositeUnitOfMeasure))
% 3.14/3.32 (assume a3984 (tptp.s__instance tptp.s__Henry tptp.s__SystemeInternationalUnit))
% 3.14/3.32 (assume a3985 (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).'|))
% 3.14/3.32 (assume a3986 (tptp.s__subclass tptp.s__CelsiusDegree tptp.s__UnitOfTemperature))
% 3.14/3.32 (assume a3987 (tptp.s__instance tptp.s__CelsiusDegree__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a3988 (tptp.s__instance tptp.s__UnitOfTemperature__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a3989 (tptp.s__instance tptp.s__CelsiusDegree tptp.s__SystemeInternationalUnit))
% 3.14/3.32 (assume a3990 (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.'|))
% 3.14/3.32 (assume a3991 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__CelsiusDegree) (tptp.s__MeasureFn (tptp.minus V__NUMBER |"273.15"|) tptp.s__KelvinDegree))))))
% 3.14/3.32 (assume a3992 (forall ((V__NUMBER $$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))))))
% 3.14/3.32 (assume a3993 (tptp.s__instance tptp.s__Lumen tptp.s__CompositeUnitOfMeasure))
% 3.14/3.32 (assume a3994 (tptp.s__instance tptp.s__Lumen tptp.s__SystemeInternationalUnit))
% 3.14/3.32 (assume a3995 (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.'|))
% 3.14/3.32 (assume a3996 (tptp.s__instance tptp.s__Lux tptp.s__CompositeUnitOfMeasure))
% 3.14/3.32 (assume a3997 (tptp.s__instance tptp.s__Lux tptp.s__SystemeInternationalUnit))
% 3.14/3.32 (assume a3998 (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.'|))
% 3.14/3.32 (assume a3999 (tptp.s__instance tptp.s__Becquerel tptp.s__CompositeUnitOfMeasure))
% 3.14/3.32 (assume a4000 (tptp.s__instance tptp.s__Becquerel tptp.s__SystemeInternationalUnit))
% 3.14/3.32 (assume a4001 (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).'|))
% 3.14/3.32 (assume a4002 (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)))))
% 3.14/3.32 (assume a4003 (tptp.s__instance tptp.s__Gray tptp.s__CompositeUnitOfMeasure))
% 3.14/3.32 (assume a4004 (tptp.s__instance tptp.s__Gray tptp.s__SystemeInternationalUnit))
% 3.14/3.32 (assume a4005 (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).'|))
% 3.14/3.32 (assume a4006 (tptp.s__instance tptp.s__Sievert tptp.s__CompositeUnitOfMeasure))
% 3.14/3.32 (assume a4007 (tptp.s__instance tptp.s__Sievert tptp.s__SystemeInternationalUnit))
% 3.14/3.32 (assume a4008 (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)'|))
% 3.14/3.32 (assume a4009 (tptp.s__instance tptp.s__DayDuration tptp.s__UnitOfDuration))
% 3.14/3.32 (assume a4010 (tptp.s__documentation tptp.s__DayDuration tptp.s__EnglishLanguage |tptp.'Time unit. 1 day = 24 hours.'|))
% 3.14/3.32 (assume a4011 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__DayDuration) (tptp.s__MeasureFn (tptp.times V__NUMBER |"24"|) tptp.s__HourDuration))))))
% 3.14/3.32 (assume a4012 (tptp.s__instance tptp.s__HourDuration tptp.s__UnitOfDuration))
% 3.14/3.32 (assume a4013 (tptp.s__documentation tptp.s__HourDuration tptp.s__EnglishLanguage |tptp.'Time unit. 1 hour = 60 minutes.'|))
% 3.14/3.32 (assume a4014 (forall ((V__NUMBER $$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))))))
% 3.14/3.32 (assume a4015 (tptp.s__instance tptp.s__MinuteDuration tptp.s__UnitOfDuration))
% 3.14/3.32 (assume a4016 (tptp.s__documentation tptp.s__MinuteDuration tptp.s__EnglishLanguage |tptp.'Time unit. 1 minute = 60 seconds. '|))
% 3.14/3.32 (assume a4017 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__MinuteDuration) (tptp.s__MeasureFn (tptp.times V__NUMBER |"60"|) tptp.s__SecondDuration))))))
% 3.14/3.32 (assume a4018 (tptp.s__instance tptp.s__WeekDuration tptp.s__UnitOfDuration))
% 3.14/3.32 (assume a4019 (tptp.s__documentation tptp.s__WeekDuration tptp.s__EnglishLanguage |tptp.'Time unit. A weeks duration is seven days.'|))
% 3.14/3.32 (assume a4020 (forall ((V__NUMBER $$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))))))
% 3.14/3.32 (assume a4021 (tptp.s__instance tptp.s__MonthDuration tptp.s__UnitOfDuration))
% 3.14/3.32 (assume a4022 (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.'|))
% 3.14/3.32 (assume a4023 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (tptp.greatereq (tptp.s__MeasureFn V__NUMBER tptp.s__MonthDuration) (tptp.s__MeasureFn (tptp.times V__NUMBER |"28"|) tptp.s__DayDuration))))))
% 3.14/3.32 (assume a4024 (forall ((V__NUMBER $$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))))))
% 3.14/3.32 (assume a4025 (tptp.s__instance tptp.s__YearDuration tptp.s__UnitOfDuration))
% 3.14/3.32 (assume a4026 (tptp.s__documentation tptp.s__YearDuration tptp.s__EnglishLanguage |tptp.'Time unit. one calendar year. 1 year = 365 days = 31536000 seconds.'|))
% 3.14/3.32 (assume a4027 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__YearDuration) (tptp.s__MeasureFn (tptp.times V__NUMBER |"365"|) tptp.s__DayDuration))))))
% 3.14/3.32 (assume a4028 (tptp.s__instance tptp.s__Amu tptp.s__UnitOfMass))
% 3.14/3.32 (assume a4029 (tptp.s__documentation tptp.s__Amu tptp.s__EnglishLanguage |tptp.'Atomic mass unit. Symbol: u. It is the mass of the twelfth part of an atom of the Carbon 12 isotope.'|))
% 3.14/3.32 (assume a4030 (forall ((V__NUMBER $$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))))))
% 3.14/3.32 (assume a4031 (tptp.s__instance tptp.s__ElectronVolt tptp.s__CompositeUnitOfMeasure))
% 3.14/3.32 (assume a4032 (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.'|))
% 3.14/3.32 (assume a4033 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__ElectronVolt) (tptp.s__MeasureFn (tptp.times V__NUMBER |"1.60217733E-19"|) tptp.s__Joule))))))
% 3.14/3.32 (assume a4034 (tptp.s__instance tptp.s__Angstrom tptp.s__UnitOfLength))
% 3.14/3.32 (assume a4035 (tptp.s__documentation tptp.s__Angstrom tptp.s__EnglishLanguage |tptp.'The &%Angstrom is a &%LengthMeasure. 1 &%Angstrom = 10^(-10) m'|))
% 3.14/3.32 (assume a4036 (forall ((V__NUMBER $$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))))))
% 3.14/3.32 (assume a4037 (tptp.s__instance tptp.s__FootLength tptp.s__UnitOfLength))
% 3.14/3.32 (assume a4038 (tptp.s__documentation tptp.s__FootLength tptp.s__EnglishLanguage |tptp.'English length unit of feet.'|))
% 3.14/3.32 (assume a4039 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__FootLength) (tptp.s__MeasureFn (tptp.times V__NUMBER |"0.3048"|) tptp.s__Meter))))))
% 3.14/3.32 (assume a4040 (tptp.s__instance tptp.s__Inch tptp.s__UnitOfLength))
% 3.14/3.32 (assume a4041 (tptp.s__documentation tptp.s__Inch tptp.s__EnglishLanguage |tptp.'English length unit of inches.'|))
% 3.14/3.32 (assume a4042 (forall ((V__NUMBER $$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))))))
% 3.14/3.32 (assume a4043 (tptp.s__instance tptp.s__Mile tptp.s__UnitOfLength))
% 3.14/3.32 (assume a4044 (tptp.s__documentation tptp.s__Mile tptp.s__EnglishLanguage |tptp.'English length unit of miles.'|))
% 3.14/3.32 (assume a4045 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__Mile) (tptp.s__MeasureFn (tptp.times V__NUMBER |"1609.344"|) tptp.s__Meter))))))
% 3.14/3.32 (assume a4046 (tptp.s__instance tptp.s__UnitedStatesGallon tptp.s__UnitOfVolume))
% 3.14/3.32 (assume a4047 (tptp.s__relatedInternalConcept tptp.s__UnitedStatesGallon tptp.s__UnitedKingdomGallon))
% 3.14/3.32 (assume a4048 (tptp.s__documentation tptp.s__UnitedStatesGallon tptp.s__EnglishLanguage |tptp.'Unit of volume commonly used in the United States.'|))
% 3.14/3.32 (assume a4049 (forall ((V__NUMBER $$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))))))
% 3.14/3.32 (assume a4050 (tptp.s__instance tptp.s__Quart tptp.s__UnitOfVolume))
% 3.14/3.32 (assume a4051 (tptp.s__documentation tptp.s__Quart tptp.s__EnglishLanguage |tptp.'English unit of volume equal to 1/4 of a &%UnitedStatesGallon.'|))
% 3.14/3.32 (assume a4052 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__Quart) (tptp.s__MeasureFn (tptp.divide V__NUMBER |"4"|) tptp.s__UnitedStatesGallon))))))
% 3.14/3.32 (assume a4053 (tptp.s__instance tptp.s__Pint tptp.s__UnitOfVolume))
% 3.14/3.32 (assume a4054 (tptp.s__documentation tptp.s__Pint tptp.s__EnglishLanguage |tptp.'English unit of volume equal to 1/2 of a &%Quart.'|))
% 3.14/3.32 (assume a4055 (forall ((V__NUMBER $$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))))))
% 3.14/3.32 (assume a4056 (tptp.s__instance tptp.s__Cup tptp.s__UnitOfVolume))
% 3.14/3.32 (assume a4057 (tptp.s__documentation tptp.s__Cup tptp.s__EnglishLanguage |tptp.'English unit of volume equal to 1/2 of a &%Pint.'|))
% 3.14/3.32 (assume a4058 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__Cup) (tptp.s__MeasureFn (tptp.divide V__NUMBER |"2"|) tptp.s__Pint))))))
% 3.14/3.32 (assume a4059 (tptp.s__instance tptp.s__Ounce tptp.s__UnitOfVolume))
% 3.14/3.32 (assume a4060 (tptp.s__documentation tptp.s__Ounce tptp.s__EnglishLanguage |tptp.'English unit of volume equal to 1/8 of a &%Cup.'|))
% 3.14/3.32 (assume a4061 (forall ((V__NUMBER $$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))))))
% 3.14/3.32 (assume a4062 (tptp.s__instance tptp.s__UnitedKingdomGallon tptp.s__UnitOfVolume))
% 3.14/3.32 (assume a4063 (tptp.s__instance tptp.s__UnitOfVolume__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4064 (tptp.s__documentation tptp.s__UnitedKingdomGallon tptp.s__EnglishLanguage |tptp.'Unit of volume commonly used in the United Kingdom.'|))
% 3.14/3.32 (assume a4065 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__UnitedKingdomGallon) (tptp.s__MeasureFn (tptp.times V__NUMBER |"4.54609"|) tptp.s__Liter))))))
% 3.14/3.32 (assume a4066 (tptp.s__instance tptp.s__AtomGram tptp.s__UnitOfMass))
% 3.14/3.32 (assume a4067 (tptp.s__instance tptp.s__UnitOfMass__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4068 (tptp.s__documentation tptp.s__AtomGram tptp.s__EnglishLanguage |tptp.'&%MassMeasure that is also known as the gram-atom. Defined as the mass in grams of 1 &%Mole of pure substance. For example, 1 &%AtomGram of Carbon 12 will be 12 &%Grams of pure Carbon 12. 2 &%AtomGrams of the same substance will be 24 &%Grams of it. This is an unusual unit in that it is essentially 1 &%Mole of stuff measured in grams, so that the actual value (i.e. mass) depends on the type of substance.'|))
% 3.14/3.32 (assume a4069 (tptp.s__documentation tptp.s__Kilogram tptp.s__EnglishLanguage |tptp.'Supermultiple of &%Gramm. Symbol: kg. 1 &%Kilogram = 1000 Grams.'|))
% 3.14/3.32 (assume a4070 (tptp.s__instance tptp.s__Kilogram tptp.s__SystemeInternationalUnit))
% 3.14/3.32 (assume a4071 (tptp.s__instance tptp.s__Kilogram tptp.s__UnitOfMass))
% 3.14/3.32 (assume a4072 (forall ((V__NUMBER $$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))))))
% 3.14/3.32 (assume a4073 (tptp.s__domain tptp.s__weight__m |"1"| tptp.s__SelfConnectedObject))
% 3.14/3.32 (assume a4074 (tptp.s__domain tptp.s__weight__m |"2"| tptp.s__MassMeasure))
% 3.14/3.32 (assume a4075 (tptp.s__instance tptp.s__weight__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a4076 (tptp.s__subrelation tptp.s__weight__m tptp.s__measure__m))
% 3.14/3.32 (assume a4077 (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.'|))
% 3.14/3.32 (assume a4078 (tptp.s__instance tptp.s__PoundMass tptp.s__UnitOfMass))
% 3.14/3.32 (assume a4079 (tptp.s__documentation tptp.s__PoundMass tptp.s__EnglishLanguage |tptp.'English mass unit of pounds.'|))
% 3.14/3.32 (assume a4080 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__PoundMass) (tptp.s__MeasureFn (tptp.times V__NUMBER |"453.59237"|) tptp.s__Gram))))))
% 3.14/3.32 (assume a4081 (tptp.s__instance tptp.s__Slug tptp.s__UnitOfMass))
% 3.14/3.32 (assume a4082 (tptp.s__documentation tptp.s__Slug tptp.s__EnglishLanguage |tptp.'English mass unit of slugs.'|))
% 3.14/3.32 (assume a4083 (forall ((V__NUMBER $$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))))))
% 3.14/3.32 (assume a4084 (tptp.s__instance tptp.s__RankineDegree tptp.s__UnitOfTemperature))
% 3.14/3.32 (assume a4085 (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).'|))
% 3.14/3.32 (assume a4086 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__RankineDegree) (tptp.s__MeasureFn (tptp.times V__NUMBER |"1.8"|) tptp.s__KelvinDegree))))))
% 3.14/3.32 (assume a4087 (tptp.s__instance tptp.s__FahrenheitDegree tptp.s__UnitOfTemperature))
% 3.14/3.32 (assume a4088 (tptp.s__documentation tptp.s__FahrenheitDegree tptp.s__EnglishLanguage |tptp.'A &%UnitOfTemperature that is commonly used in the United States. On the Fahrenheit scale, the freezing point of water is 32 &%FahrenheitDegrees, and the boiling point of water is 212 &%FahrenheitDegrees.'|))
% 3.14/3.32 (assume a4089 (tptp.s__instance tptp.s__PoundForce tptp.s__CompositeUnitOfMeasure))
% 3.14/3.32 (assume a4090 (tptp.s__documentation tptp.s__PoundForce tptp.s__EnglishLanguage |tptp.'English pound of force. The conversion factor depends on the local value of the acceleration of free fall. A mean value is used in the conversion axiom associated with this constant.'|))
% 3.14/3.32 (assume a4091 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__PoundForce) (tptp.s__MeasureFn (tptp.times V__NUMBER |"4.448222"|) tptp.s__Newton))))))
% 3.14/3.32 (assume a4092 (tptp.s__instance tptp.s__Calorie tptp.s__CompositeUnitOfMeasure))
% 3.14/3.32 (assume a4093 (tptp.s__instance tptp.s__CompositeUnitOfMeasure__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4094 (tptp.s__documentation tptp.s__Calorie tptp.s__EnglishLanguage |tptp.'A &%Calorie is an energy measure.'|))
% 3.14/3.32 (assume a4095 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__Calorie) (tptp.s__MeasureFn (tptp.times V__NUMBER |"4.1868"|) tptp.s__Joule))))))
% 3.14/3.32 (assume a4096 (tptp.s__instance tptp.s__BritishThermalUnit tptp.s__CompositeUnitOfMeasure))
% 3.14/3.32 (assume a4097 (tptp.s__documentation tptp.s__BritishThermalUnit tptp.s__EnglishLanguage |tptp.'An energy measure.'|))
% 3.14/3.32 (assume a4098 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__BritishThermalUnit) (tptp.s__MeasureFn (tptp.times V__NUMBER |"1055.05585262"|) tptp.s__Joule))))))
% 3.14/3.32 (assume a4099 (tptp.s__instance tptp.s__AngularDegree tptp.s__UnitOfAngularMeasure))
% 3.14/3.32 (assume a4100 (tptp.s__documentation tptp.s__AngularDegree tptp.s__EnglishLanguage |tptp.'A plane angle measure.'|))
% 3.14/3.32 (assume a4101 (forall ((V__QUANT $$unsorted) (V__N $$unsorted)) (=> (tptp.s__instance V__N tptp.s__RealNumber) (=> (= V__QUANT (tptp.s__MeasureFn V__N tptp.s__AngularDegree)) (tptp.s__instance V__QUANT tptp.s__PlaneAngleMeasure)))))
% 3.14/3.32 (assume a4102 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__AngularDegree) (tptp.s__MeasureFn (tptp.times V__NUMBER (tptp.divide tptp.s__Pi |"180"|)) tptp.s__Radian))))))
% 3.14/3.32 (assume a4103 (forall ((V__NUMBER $$unsorted) (V__ANGLE $$unsorted)) (=> (and (tptp.s__instance V__ANGLE tptp.s__Object) (tptp.s__instance V__NUMBER tptp.s__RealNumber)) (=> (tptp.s__measure V__ANGLE (tptp.s__MeasureFn V__NUMBER tptp.s__AngularDegree)) (and (tptp.greatereq V__NUMBER |"0"|) (tptp.lesseq V__NUMBER |"360"|))))))
% 3.14/3.32 (assume a4104 (= (tptp.s__MeasureFn |"0"| tptp.s__AngularDegree) (tptp.s__MeasureFn |"360"| tptp.s__AngularDegree)))
% 3.14/3.32 (assume a4105 (tptp.s__instance tptp.s__UnitedStatesDollar tptp.s__UnitOfCurrency))
% 3.14/3.32 (assume a4106 (tptp.s__documentation tptp.s__UnitedStatesDollar tptp.s__EnglishLanguage |tptp.'A currency measure.'|))
% 3.14/3.32 (assume a4107 (tptp.s__instance tptp.s__UnitedStatesCent tptp.s__UnitOfCurrency))
% 3.14/3.32 (assume a4108 (tptp.s__documentation tptp.s__UnitedStatesCent tptp.s__EnglishLanguage |tptp.'A currency measure. 1 &%UnitedStatesCent is equal to .01 &%UnitedStatesDollars.'|))
% 3.14/3.32 (assume a4109 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__UnitedStatesCent) (tptp.s__MeasureFn (tptp.times V__NUMBER |"0.01"|) tptp.s__UnitedStatesDollar))))))
% 3.14/3.32 (assume a4110 (tptp.s__instance tptp.s__EuroDollar tptp.s__UnitOfCurrency))
% 3.14/3.32 (assume a4111 (tptp.s__instance tptp.s__UnitOfCurrency__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4112 (tptp.s__documentation tptp.s__EuroDollar tptp.s__EnglishLanguage |tptp.'A currency measure of most European Union countries.'|))
% 3.14/3.32 (assume a4113 (tptp.s__instance tptp.s__EuroCent tptp.s__UnitOfCurrency))
% 3.14/3.32 (assume a4114 (tptp.s__documentation tptp.s__EuroCent tptp.s__EnglishLanguage |tptp.'A currency measure. 1 &%EuroCent is equal to .01 &%EuroDollars.'|))
% 3.14/3.32 (assume a4115 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__EuroCent) (tptp.s__MeasureFn (tptp.times V__NUMBER |"0.01"|) tptp.s__EuroDollar))))))
% 3.14/3.32 (assume a4116 (tptp.s__subclass tptp.s__InformationMeasure tptp.s__ConstantQuantity))
% 3.14/3.32 (assume a4117 (tptp.s__instance tptp.s__InformationMeasure__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4118 (tptp.s__documentation tptp.s__InformationMeasure tptp.s__EnglishLanguage |tptp.'Measures of the amount of information. Includes &%Bit, &%Byte, and multiples of these, e.g. &%KiloByte and &%MegaByte.'|))
% 3.14/3.32 (assume a4119 (tptp.s__instance tptp.s__Bit tptp.s__UnitOfInformation))
% 3.14/3.32 (assume a4120 (tptp.s__documentation tptp.s__Bit tptp.s__EnglishLanguage |tptp.'One &%Bit of information. A one or a zero.'|))
% 3.14/3.32 (assume a4121 (tptp.s__instance tptp.s__Byte tptp.s__UnitOfInformation))
% 3.14/3.32 (assume a4122 (tptp.s__documentation tptp.s__Byte tptp.s__EnglishLanguage |tptp.'One &%Byte of information. A &%Byte is eight &%Bits.'|))
% 3.14/3.32 (assume a4123 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__Byte) (tptp.s__MeasureFn (tptp.times V__NUMBER |"8"|) tptp.s__Bit))))))
% 3.14/3.32 (assume a4124 (tptp.s__instance tptp.s__KiloByte tptp.s__UnitOfInformation))
% 3.14/3.32 (assume a4125 (tptp.s__documentation tptp.s__KiloByte tptp.s__EnglishLanguage |tptp.'One &%KiloByte (KB) of information. One &%KiloByte is 1024 &%Bytes. Note that this sense of kilo is different from the one accepted in the SI system.'|))
% 3.14/3.32 (assume a4126 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__KiloByte) (tptp.s__MeasureFn (tptp.times V__NUMBER |"1024"|) tptp.s__Byte))))))
% 3.14/3.32 (assume a4127 (tptp.s__instance tptp.s__MegaByte tptp.s__UnitOfInformation))
% 3.14/3.32 (assume a4128 (tptp.s__documentation tptp.s__MegaByte tptp.s__EnglishLanguage |tptp.'One &%MegaByte (MB) of information. One &%MegaByte is 1024 &%KiloBytes. Note that this sense of mega is different from the one accepted in the SI system.'|))
% 3.14/3.32 (assume a4129 (forall ((V__NUMBER $$unsorted)) (=> (tptp.s__instance V__NUMBER tptp.s__RealNumber) (=> (= V__NUMBER (tptp.times |"1"| V__NUMBER)) (= (tptp.s__MeasureFn V__NUMBER tptp.s__MegaByte) (tptp.s__MeasureFn (tptp.times V__NUMBER |"1024"|) tptp.s__KiloByte))))))
% 3.14/3.32 (assume a4130 (tptp.s__instance tptp.s__measure__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a4131 (tptp.s__instance tptp.s__measure__m tptp.s__AsymmetricRelation))
% 3.14/3.32 (assume a4132 (tptp.s__domain tptp.s__measure__m |"1"| tptp.s__Object))
% 3.14/3.32 (assume a4133 (tptp.s__domain tptp.s__measure__m |"2"| tptp.s__PhysicalQuantity))
% 3.14/3.32 (assume a4134 (tptp.s__documentation tptp.s__measure__m tptp.s__EnglishLanguage |tptp.'A very general &%Predicate for asserting that a particular &%Object is measured by a particular &%PhysicalQuantity. In general, the second argument of this &%Predicate will be a term produced with the &%Function &%MeasureFn.'|))
% 3.14/3.32 (assume a4135 (tptp.s__instance tptp.s__age__m tptp.s__SingleValuedRelation))
% 3.14/3.32 (assume a4136 (tptp.s__subrelation tptp.s__age__m tptp.s__measure__m))
% 3.14/3.32 (assume a4137 (tptp.s__domain tptp.s__age__m |"2"| tptp.s__TimeDuration))
% 3.14/3.32 (assume a4138 (tptp.s__documentation tptp.s__age__m tptp.s__EnglishLanguage |tptp.'Simply relates an &%Object to a &%ConstantQuantity specifying the age of the &%Object.'|))
% 3.14/3.32 (assume a4139 (tptp.s__subrelation tptp.s__linearExtent__m tptp.s__measure__m))
% 3.14/3.32 (assume a4140 (tptp.s__domain tptp.s__linearExtent__m |"2"| tptp.s__LengthMeasure))
% 3.14/3.32 (assume a4141 (tptp.s__documentation tptp.s__linearExtent__m tptp.s__EnglishLanguage |tptp.'&%BinaryPredicate that is used to state the measure of an &%Object from one point to another point along its surface. Note that the difference between the predicates &%length and &%distance is that the &%length is used to state the &%LengthMeasure of one of the dimensions of a single object, while &%distance is used to state the &%LengthMeasure that separates two distinct objects.'|))
% 3.14/3.32 (assume a4142 (tptp.s__instance tptp.s__width__m tptp.s__SingleValuedRelation))
% 3.14/3.32 (assume a4143 (tptp.s__subrelation tptp.s__width__m tptp.s__linearExtent__m))
% 3.14/3.32 (assume a4144 (tptp.s__documentation tptp.s__width__m tptp.s__EnglishLanguage |tptp.'&%BinaryPredicate that is used to state the measure of an &%Object from side to side at its widest span.'|))
% 3.14/3.32 (assume a4145 (tptp.s__subrelation tptp.s__height__m tptp.s__linearExtent__m))
% 3.14/3.32 (assume a4146 (tptp.s__domain tptp.s__height__m |"1"| tptp.s__SelfConnectedObject))
% 3.14/3.32 (assume a4147 (tptp.s__domain tptp.s__height__m |"2"| tptp.s__LengthMeasure))
% 3.14/3.32 (assume a4148 (tptp.s__documentation tptp.s__height__m tptp.s__EnglishLanguage |tptp.'The height of an &%Object is the distance between its &%top and its &%bottom.'|))
% 3.14/3.32 (assume a4149 (tptp.s__instance tptp.s__length__m tptp.s__SingleValuedRelation))
% 3.14/3.32 (assume a4150 (tptp.s__subrelation tptp.s__length__m tptp.s__linearExtent__m))
% 3.14/3.32 (assume a4151 (tptp.s__documentation tptp.s__length__m tptp.s__EnglishLanguage |tptp.'&%BinaryPredicate that is used to state the measure of an &%Object along its longest span.'|))
% 3.14/3.32 (assume a4152 (forall ((V__O $$unsorted) (V__M $$unsorted)) (=> (and (tptp.s__instance V__M tptp.s__LengthMeasure) (tptp.s__instance V__O tptp.s__Object)) (=> (tptp.s__length V__O V__M) (not (exists ((V__M2 $$unsorted)) (and (tptp.s__instance V__M2 tptp.s__LengthMeasure) (tptp.s__linearExtent V__O V__M2) (tptp.greater V__M2 V__M))))))))
% 3.14/3.32 (assume a4153 (tptp.s__subclass tptp.s__Oval tptp.s__ClosedTwoDimensionalFigure))
% 3.14/3.32 (assume a4154 (tptp.s__instance tptp.s__Oval__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4155 (tptp.s__documentation tptp.s__Oval tptp.s__EnglishLanguage |tptp.'The class of &%ClosedTwoDimensionalFigures that are produced by the intersection of a &%Cone with a &%ClosedTwoDimensionalFigure.'|))
% 3.14/3.32 (assume a4156 (tptp.s__subclass tptp.s__Circle tptp.s__Oval))
% 3.14/3.32 (assume a4157 (tptp.s__instance tptp.s__Circle__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4158 (tptp.s__documentation tptp.s__Circle tptp.s__EnglishLanguage |tptp.'The class of &%Ovals such that all &%GeometricPoints that make up the &%Circle are equidistant from a single &%GeometricPoint, known as the center of the &%Circle.'|))
% 3.14/3.32 (assume a4159 (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Circle) (exists ((V__R $$unsorted)) (and (tptp.s__instance V__R tptp.s__LengthMeasure) (tptp.s__radius V__C V__R))))))
% 3.14/3.32 (assume a4160 (forall ((V__C $$unsorted)) (=> (tptp.s__instance V__C tptp.s__Circle) (exists ((V__P $$unsorted)) (= (tptp.s__CenterOfCircleFn V__C) V__P)))))
% 3.14/3.32 (assume a4161 (tptp.s__documentation tptp.s__CenterOfCircleFn__m tptp.s__EnglishLanguage |tptp.'(CenterOfCircleFn ?CIRCLE) denotes the &%GeometricPoint that is the center of the &%Circle ?CIRCLE.'|))
% 3.14/3.32 (assume a4162 (tptp.s__instance tptp.s__CenterOfCircleFn__m tptp.s__UnaryFunction))
% 3.14/3.32 (assume a4163 (tptp.s__instance tptp.s__CenterOfCircleFn__m tptp.s__TotalValuedRelation))
% 3.14/3.32 (assume a4164 (tptp.s__domain tptp.s__CenterOfCircleFn__m |"1"| tptp.s__Circle))
% 3.14/3.32 (assume a4165 (tptp.s__range tptp.s__CenterOfCircleFn__m tptp.s__GeometricPoint))
% 3.14/3.32 (assume a4166 (tptp.s__instance tptp.s__radius__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a4167 (tptp.s__instance tptp.s__radius__m tptp.s__SingleValuedRelation))
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% 3.14/3.32 (assume a4169 (tptp.s__domain tptp.s__radius__m |"1"| tptp.s__Circle))
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% 3.14/3.32 (assume a4171 (tptp.s__documentation tptp.s__radius__m tptp.s__EnglishLanguage |tptp.'(&%radius ?CIRCLE ?LENGTH) means that the radius of the &%Circle ?CIRCLE has a length of ?LENGTH.'|))
% 3.14/3.32 (assume a4172 (forall ((V__CIRCLE $$unsorted) (V__RADIUS $$unsorted)) (=> (tptp.s__radius V__CIRCLE V__RADIUS) (exists ((V__POINT $$unsorted)) (and (tptp.s__instance V__POINT tptp.s__GeometricPoint) (forall ((V__PART $$unsorted)) (=> (and (tptp.s__instance V__PART tptp.s__GeometricPoint) (tptp.s__instance V__RADIUS tptp.s__LengthMeasure) (tptp.s__instance V__CIRCLE tptp.s__Circle)) (=> (tptp.s__pointOfFigure V__PART V__CIRCLE) (tptp.s__geometricDistance V__PART V__POINT V__RADIUS)))))))))
% 3.14/3.32 (assume a4173 (tptp.s__subrelation tptp.s__diameter__m tptp.s__width__m))
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% 3.14/3.32 (assume a4175 (tptp.s__instance tptp.s__diameter__m tptp.s__SingleValuedRelation))
% 3.14/3.32 (assume a4176 (tptp.s__instance tptp.s__diameter__m tptp.s__TotalValuedRelation))
% 3.14/3.32 (assume a4177 (tptp.s__domain tptp.s__diameter__m |"1"| tptp.s__Circle))
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% 3.14/3.32 (assume a4179 (tptp.s__documentation tptp.s__diameter__m tptp.s__EnglishLanguage |tptp.'(&%diameter ?CIRCLE ?LENGTH) means that the diameter of the &%Circle ?CIRCLE has a length of ?LENGTH.'|))
% 3.14/3.32 (assume a4180 (forall ((V__CIRCLE $$unsorted) (V__LENGTH $$unsorted)) (=> (and (tptp.s__instance V__LENGTH tptp.s__LengthMeasure) (tptp.s__instance V__CIRCLE tptp.s__Circle)) (=> (tptp.s__diameter V__CIRCLE V__LENGTH) (exists ((V__HALF $$unsorted)) (and (tptp.s__instance V__HALF tptp.s__LengthMeasure) (tptp.s__radius V__CIRCLE V__HALF) (= (tptp.times V__HALF |"2"|) V__LENGTH)))))))
% 3.14/3.32 (assume a4181 (tptp.s__instance tptp.s__distance__m tptp.s__SingleValuedRelation))
% 3.14/3.32 (assume a4182 (tptp.s__instance tptp.s__distance__m tptp.s__SpatialRelation))
% 3.14/3.32 (assume a4183 (tptp.s__instance tptp.s__distance__m tptp.s__TernaryPredicate))
% 3.14/3.32 (assume a4184 (tptp.s__domain tptp.s__distance__m |"1"| tptp.s__Physical))
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% 3.14/3.32 (assume a4187 (tptp.s__documentation tptp.s__distance__m tptp.s__EnglishLanguage |tptp.'(&%distance ?OBJ1 ?OBJ2 ?QUANT) means that the shortest distance between the two objects ?OBJ1 and ?OBJ2 is ?QUANT. Note that the difference between the predicates &%length and &%distance is that the &%length is used to state the &%LengthMeasure of one of the dimensions of a single object, while &%distance is used to state the &%LengthMeasure that separates two distinct objects.'|))
% 3.14/3.32 (assume a4188 (forall ((V__QUANT $$unsorted) (V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__Physical) (tptp.s__instance V__OBJ1 tptp.s__Physical) (tptp.s__instance V__QUANT tptp.s__LengthMeasure)) (=> (tptp.s__distance V__OBJ1 V__OBJ2 V__QUANT) (tptp.s__distance V__OBJ2 V__OBJ1 V__QUANT)))))
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% 3.14/3.32 (assume a4192 (forall ((V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted) (V__HEIGHT $$unsorted)) (=> (and (tptp.s__instance V__HEIGHT tptp.s__LengthMeasure) (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__Object)) (=> (tptp.s__altitude V__OBJ1 V__OBJ2 V__HEIGHT) (tptp.s__orientation V__OBJ1 V__OBJ2 tptp.s__Above)))))
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% 3.14/3.32 (assume a4197 (tptp.s__documentation tptp.s__depth__m tptp.s__EnglishLanguage |tptp.'A &%TernaryPredicate that is used to state the &%distance between the &%top of an &%Object and another point that is above the &%top of the &%Object (often this other point will be sea level). Note that this &%Predicate can be used to specify, for example, the depth of marine life or submarines, for example.'|))
% 3.14/3.32 (assume a4198 (forall ((V__DEPTH $$unsorted) (V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__Object) (tptp.s__instance V__DEPTH tptp.s__LengthMeasure)) (=> (tptp.s__depth V__OBJ1 V__OBJ2 V__DEPTH) (tptp.s__orientation V__OBJ1 V__OBJ2 tptp.s__Below)))))
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% 3.14/3.32 (assume a4216 (tptp.s__instance tptp.s__monetaryValue__m tptp.s__SingleValuedRelation))
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% 3.14/3.32 (assume a4220 (tptp.s__documentation tptp.s__monetaryValue__m tptp.s__EnglishLanguage |tptp.'A &%BinaryPredicate that associates an &%Object or &%Process with its value expressed as an instance of &%CurrencyMeasure.'|))
% 3.14/3.32 (assume a4221 (tptp.s__instance tptp.s__WealthFn__m tptp.s__UnaryFunction))
% 3.14/3.32 (assume a4222 (tptp.s__domain tptp.s__WealthFn__m |"1"| tptp.s__Agent))
% 3.14/3.32 (assume a4223 (tptp.s__range tptp.s__WealthFn__m tptp.s__CurrencyMeasure))
% 3.14/3.32 (assume a4224 (tptp.s__documentation tptp.s__WealthFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps an &%Agent to a &%CurrencyMeasure specifying the value of the property owned by the &%Agent. Note that this &%Function is generally used in conjunction with the &%Function &%PropertyFn, e.g. (&%WealthFn (&%PropertyFn BillGates)) would return the monetary value of the sum of Bill Gates holdings.'|))
% 3.14/3.32 (assume a4225 (forall ((V__AMOUNT $$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)))))
% 3.14/3.32 (assume a4226 (tptp.s__instance tptp.s__barometricPressure__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a4227 (tptp.s__instance tptp.s__barometricPressure__m tptp.s__AsymmetricRelation))
% 3.14/3.32 (assume a4228 (tptp.s__subrelation tptp.s__barometricPressure__m tptp.s__measure__m))
% 3.14/3.32 (assume a4229 (tptp.s__domain tptp.s__barometricPressure__m |"1"| tptp.s__Object))
% 3.14/3.32 (assume a4230 (tptp.s__domain tptp.s__barometricPressure__m |"2"| tptp.s__UnitOfAtmosphericPressure))
% 3.14/3.32 (assume a4231 (tptp.s__documentation tptp.s__barometricPressure__m tptp.s__EnglishLanguage |tptp.'(&%barometricPressure ?AREA ?PRESSURE) means that the atmospheric pressure measured at ?AREA is ?PRESSURE. Barometric pressure is typically expressed in units of &%InchMercury or &%MmMercury. For example, standard sea level pressure is 29.92 inches (760 mm) of mercury: (&%barometricPressure &%SeaLevel (&%MeasureFn 29.92 &%InchMercury)).'|))
% 3.14/3.32 (assume a4232 (tptp.s__subclass tptp.s__UnitOfAtmosphericPressure tptp.s__CompositeUnitOfMeasure))
% 3.14/3.32 (assume a4233 (tptp.s__instance tptp.s__UnitOfAtmosphericPressure__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4234 (tptp.s__documentation tptp.s__UnitOfAtmosphericPressure tptp.s__EnglishLanguage |tptp.'&%UnitOfAtmosphericPressure includes those instances of &%UnitOfMeasure used to measure atmospheric pressure (&%barometricPressure), e.g., &%InchMercury.'|))
% 3.14/3.32 (assume a4235 (tptp.s__instance tptp.s__InchMercury tptp.s__UnitOfAtmosphericPressure))
% 3.14/3.32 (assume a4236 (tptp.s__documentation tptp.s__InchMercury tptp.s__EnglishLanguage |tptp.'&%InchMercury is a &%UnitOfMeasure for &%barometricPressure. It is used to express the number of inches of mercury supported in a mercurial barometer by the surrounding air pressure.'|))
% 3.14/3.32 (assume a4237 (tptp.s__instance tptp.s__MmMercury tptp.s__UnitOfAtmosphericPressure))
% 3.14/3.32 (assume a4238 (tptp.s__documentation tptp.s__MmMercury tptp.s__EnglishLanguage |tptp.'&%MmMercury is a &%UnitOfMeasure for &%barometricPressure. It is used to express the number of millimeters of mercury supported in a mercurial barometer by the surrounding air pressure.'|))
% 3.14/3.32 (assume a4239 (tptp.s__instance tptp.s__PositiveInfinity tptp.s__TimePoint))
% 3.14/3.32 (assume a4240 (tptp.s__instance tptp.s__TimePoint__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4241 (tptp.s__documentation tptp.s__PositiveInfinity tptp.s__EnglishLanguage |tptp.'The &%TimePoint that is after all other &%TimePoints.'|))
% 3.14/3.32 (assume a4242 (forall ((V__POINT $$unsorted)) (=> (and (tptp.s__instance V__POINT tptp.s__TimePoint) (not (= V__POINT tptp.s__PositiveInfinity))) (tptp.s__before V__POINT tptp.s__PositiveInfinity))))
% 3.14/3.32 (assume a4243 (forall ((V__POINT $$unsorted)) (=> (and (tptp.s__instance V__POINT tptp.s__TimePoint) (not (= V__POINT tptp.s__PositiveInfinity))) (exists ((V__OTHERPOINT $$unsorted)) (and (tptp.s__instance V__OTHERPOINT tptp.s__TimePoint) (tptp.s__temporallyBetween V__POINT V__OTHERPOINT tptp.s__PositiveInfinity))))))
% 3.14/3.32 (assume a4244 (tptp.s__instance tptp.s__NegativeInfinity tptp.s__TimePoint))
% 3.14/3.32 (assume a4245 (tptp.s__documentation tptp.s__NegativeInfinity tptp.s__EnglishLanguage |tptp.'The &%TimePoint that is before all other &%TimePoints.'|))
% 3.14/3.32 (assume a4246 (forall ((V__POINT $$unsorted)) (=> (and (tptp.s__instance V__POINT tptp.s__TimePoint) (not (= V__POINT tptp.s__NegativeInfinity))) (tptp.s__before tptp.s__NegativeInfinity V__POINT))))
% 3.14/3.32 (assume a4247 (forall ((V__POINT $$unsorted)) (=> (and (tptp.s__instance V__POINT tptp.s__TimePoint) (not (= V__POINT tptp.s__NegativeInfinity))) (exists ((V__OTHERPOINT $$unsorted)) (and (tptp.s__instance V__OTHERPOINT tptp.s__TimePoint) (tptp.s__temporallyBetween tptp.s__NegativeInfinity V__OTHERPOINT V__POINT))))))
% 3.14/3.32 (assume a4248 (tptp.s__instance tptp.s__duration__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a4249 (tptp.s__instance tptp.s__duration__m tptp.s__AsymmetricRelation))
% 3.14/3.32 (assume a4250 (tptp.s__instance tptp.s__duration__m tptp.s__TotalValuedRelation))
% 3.14/3.32 (assume a4251 (tptp.s__domain tptp.s__duration__m |"1"| tptp.s__TimeInterval))
% 3.14/3.32 (assume a4252 (tptp.s__domain tptp.s__duration__m |"2"| tptp.s__TimeDuration))
% 3.14/3.32 (assume a4253 (tptp.s__documentation tptp.s__duration__m tptp.s__EnglishLanguage |tptp.'(&%duration ?POS ?TIME) means that the duration of the &%TimePosition ?POS is ?TIME. Note that this &%Predicate can be used in conjunction with the &%Function &%WhenFn to specify the duration of any instance of &%Physical.'|))
% 3.14/3.32 (assume a4254 (tptp.s__instance tptp.s__frequency__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a4255 (tptp.s__instance tptp.s__frequency__m tptp.s__AsymmetricRelation))
% 3.14/3.32 (assume a4256 (tptp.s__domainSubclass tptp.s__frequency__m |"1"| tptp.s__Process))
% 3.14/3.32 (assume a4257 (tptp.s__domain tptp.s__frequency__m |"2"| tptp.s__TimeDuration))
% 3.14/3.32 (assume a4258 (tptp.s__documentation tptp.s__frequency__m tptp.s__EnglishLanguage |tptp.'(&%frequency ?PROC ?TIME) means that the &%Process type of ?PROC recurs after every interval of ?TIME.'|))
% 3.14/3.32 (assume a4259 (forall ((V__PROC $$unsorted) (V__TIME1 $$unsorted)) (=> (tptp.s__frequency V__PROC V__TIME1) (forall ((V__TIME2 $$unsorted)) (=> (and (tptp.s__instance V__TIME2 tptp.s__TimeInterval) (tptp.s__instance V__TIME1 tptp.s__TimeDuration) (tptp.s__subclass V__PROC tptp.s__Process) (tptp.s__instance V__PROC tptp.s__SetOrClass)) (=> (tptp.s__duration V__TIME2 V__TIME1) (exists ((V__POSITION $$unsorted)) (and (tptp.s__temporalPart V__POSITION V__TIME2) (tptp.s__holdsDuring V__POSITION |tptp.'(? [V__INST] : (s__instance(V__POSITION,s__TimePosition) & s__instance(V__INST,V__PROC)))'|)))))))))
% 3.14/3.32 (assume a4260 (tptp.s__instance tptp.s__temporalPart__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a4261 (tptp.s__instance tptp.s__temporalPart__m tptp.s__TemporalRelation))
% 3.14/3.32 (assume a4262 (tptp.s__instance tptp.s__temporalPart__m tptp.s__PartialOrderingRelation))
% 3.14/3.32 (assume a4263 (tptp.s__instance tptp.s__PartialOrderingRelation__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4264 (tptp.s__domain tptp.s__temporalPart__m |"1"| tptp.s__TimePosition))
% 3.14/3.32 (assume a4265 (tptp.s__domain tptp.s__temporalPart__m |"2"| tptp.s__TimePosition))
% 3.14/3.32 (assume a4266 (tptp.s__documentation tptp.s__temporalPart__m tptp.s__EnglishLanguage |tptp.'The temporal analogue of the spatial &%part predicate. (&%temporalPart ?POS1 ?POS2) means that &%TimePosition ?POS1 is part of &%TimePosition ?POS2. Note that since &%temporalPart is a &%ReflexiveRelation every &%TimePostion is a &%temporalPart of itself.'|))
% 3.14/3.32 (assume a4267 (forall ((V__POINT $$unsorted)) (=> (tptp.s__instance V__POINT tptp.s__TimePosition) (=> (tptp.s__instance V__POINT tptp.s__TimePoint) (exists ((V__INTERVAL $$unsorted)) (and (tptp.s__instance V__INTERVAL tptp.s__TimePosition) (tptp.s__instance V__INTERVAL tptp.s__TimeInterval) (tptp.s__temporalPart V__POINT V__INTERVAL)))))))
% 3.14/3.32 (assume a4268 (forall ((V__INTERVAL $$unsorted)) (=> (tptp.s__instance V__INTERVAL tptp.s__TimePosition) (=> (tptp.s__instance V__INTERVAL tptp.s__TimeInterval) (exists ((V__POINT $$unsorted)) (and (tptp.s__instance V__POINT tptp.s__TimePosition) (tptp.s__instance V__POINT tptp.s__TimePoint) (tptp.s__temporalPart V__POINT V__INTERVAL)))))))
% 3.14/3.32 (assume a4269 (forall ((V__SITUATION $$unsorted) (V__TIME2 $$unsorted) (V__TIME1 $$unsorted)) (=> (and (tptp.s__instance V__TIME1 tptp.s__TimePosition) (tptp.s__instance V__TIME2 tptp.s__TimePosition) (tptp.s__instance V__SITUATION tptp.s__Formula)) (=> (and (tptp.s__holdsDuring V__TIME1 V__SITUATION) (tptp.s__temporalPart V__TIME2 V__TIME1)) (tptp.s__holdsDuring V__TIME2 V__SITUATION)))))
% 3.14/3.32 (assume a4270 (forall ((V__THING $$unsorted) (V__POS $$unsorted)) (=> (and (tptp.s__instance V__POS tptp.s__TimePosition) (tptp.s__instance V__THING tptp.s__Physical)) (= (tptp.s__temporalPart V__POS (tptp.s__WhenFn V__THING)) (tptp.s__time V__THING V__POS)))))
% 3.14/3.32 (assume a4271 (tptp.s__instance tptp.s__BeginFn__m tptp.s__TemporalRelation))
% 3.14/3.32 (assume a4272 (tptp.s__instance tptp.s__BeginFn__m tptp.s__UnaryFunction))
% 3.14/3.32 (assume a4273 (tptp.s__instance tptp.s__BeginFn__m tptp.s__TotalValuedRelation))
% 3.14/3.32 (assume a4274 (tptp.s__domain tptp.s__BeginFn__m |"1"| tptp.s__TimeInterval))
% 3.14/3.32 (assume a4275 (tptp.s__range tptp.s__BeginFn__m tptp.s__TimePoint))
% 3.14/3.32 (assume a4276 (tptp.s__documentation tptp.s__BeginFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps a &%TimeInterval to the &%TimePoint at which the interval begins.'|))
% 3.14/3.32 (assume a4277 (forall ((V__OBJ $$unsorted) (V__PROCESS $$unsorted)) (=> (and (tptp.s__instance V__PROCESS tptp.s__Process) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (tptp.s__origin V__PROCESS V__OBJ) (tptp.s__eventLocated (tptp.s__WhereFn V__PROCESS (tptp.s__BeginFn (tptp.s__WhenFn V__PROCESS))) (tptp.s__WhereFn V__OBJ (tptp.s__BeginFn (tptp.s__WhenFn V__OBJ))))))))
% 3.14/3.32 (assume a4278 (forall ((V__POINT $$unsorted) (V__INTERVAL $$unsorted)) (=> (= (tptp.s__BeginFn V__INTERVAL) V__POINT) (forall ((V__OTHERPOINT $$unsorted)) (=> (and (tptp.s__instance V__OTHERPOINT tptp.s__TimePoint) (tptp.s__instance V__INTERVAL tptp.s__TimeInterval) (tptp.s__instance V__POINT tptp.s__TimePoint)) (=> (and (tptp.s__temporalPart V__OTHERPOINT V__INTERVAL) (not (= V__OTHERPOINT V__POINT))) (tptp.s__before V__POINT V__OTHERPOINT)))))))
% 3.14/3.32 (assume a4279 (tptp.s__instance tptp.s__EndFn__m tptp.s__TemporalRelation))
% 3.14/3.32 (assume a4280 (tptp.s__instance tptp.s__EndFn__m tptp.s__UnaryFunction))
% 3.14/3.32 (assume a4281 (tptp.s__instance tptp.s__EndFn__m tptp.s__TotalValuedRelation))
% 3.14/3.32 (assume a4282 (tptp.s__domain tptp.s__EndFn__m |"1"| tptp.s__TimeInterval))
% 3.14/3.32 (assume a4283 (tptp.s__range tptp.s__EndFn__m tptp.s__TimePoint))
% 3.14/3.32 (assume a4284 (tptp.s__documentation tptp.s__EndFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps a &%TimeInterval to the &%TimePoint at which the interval ends.'|))
% 3.14/3.32 (assume a4285 (forall ((V__POINT $$unsorted) (V__INTERVAL $$unsorted)) (=> (= (tptp.s__EndFn V__INTERVAL) V__POINT) (forall ((V__OTHERPOINT $$unsorted)) (=> (and (tptp.s__instance V__OTHERPOINT tptp.s__TimePoint) (tptp.s__instance V__INTERVAL tptp.s__TimeInterval) (tptp.s__instance V__POINT tptp.s__TimePoint)) (=> (and (tptp.s__temporalPart V__OTHERPOINT V__INTERVAL) (not (= V__OTHERPOINT V__POINT))) (tptp.s__before V__OTHERPOINT V__POINT)))))))
% 3.14/3.32 (assume a4286 (tptp.s__subrelation tptp.s__starts__m tptp.s__temporalPart__m))
% 3.14/3.32 (assume a4287 (tptp.s__instance tptp.s__starts__m tptp.s__TemporalRelation))
% 3.14/3.32 (assume a4288 (tptp.s__instance tptp.s__starts__m tptp.s__TransitiveRelation))
% 3.14/3.32 (assume a4289 (tptp.s__instance tptp.s__starts__m tptp.s__IrreflexiveRelation))
% 3.14/3.32 (assume a4290 (tptp.s__domain tptp.s__starts__m |"1"| tptp.s__TimeInterval))
% 3.14/3.32 (assume a4291 (tptp.s__domain tptp.s__starts__m |"2"| tptp.s__TimeInterval))
% 3.14/3.32 (assume a4292 (tptp.s__documentation tptp.s__starts__m tptp.s__EnglishLanguage |tptp.'(&%starts ?INTERVAL1 ?INTERVAL2) means that ?INTERVAL1 and ?INTERVAL2 are both &%TimeIntervals that have the same initial &%TimePoint and that ?INTERVAL1 ends before ?INTERVAL2.'|))
% 3.14/3.32 (assume a4293 (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__starts V__INTERVAL1 V__INTERVAL2) (and (= (tptp.s__BeginFn V__INTERVAL1) (tptp.s__BeginFn V__INTERVAL2)) (tptp.s__before (tptp.s__EndFn V__INTERVAL1) (tptp.s__EndFn V__INTERVAL2)))))))
% 3.14/3.32 (assume a4294 (tptp.s__subrelation tptp.s__finishes__m tptp.s__temporalPart__m))
% 3.14/3.32 (assume a4295 (tptp.s__instance tptp.s__finishes__m tptp.s__TemporalRelation))
% 3.14/3.32 (assume a4296 (tptp.s__instance tptp.s__finishes__m tptp.s__TransitiveRelation))
% 3.14/3.32 (assume a4297 (tptp.s__instance tptp.s__finishes__m tptp.s__IrreflexiveRelation))
% 3.14/3.32 (assume a4298 (tptp.s__domain tptp.s__finishes__m |"1"| tptp.s__TimeInterval))
% 3.14/3.32 (assume a4299 (tptp.s__domain tptp.s__finishes__m |"2"| tptp.s__TimeInterval))
% 3.14/3.32 (assume a4300 (tptp.s__documentation tptp.s__finishes__m tptp.s__EnglishLanguage |tptp.'(&%finishes ?INTERVAL1 ?INTERVAL2) means that ?INTERVAL1 and ?INTERVAL2 are both &%TimeIntervals that have the same ending &%TimePoint and that ?INTERVAL2 begins before ?INTERVAL1.'|))
% 3.14/3.32 (assume a4301 (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__finishes V__INTERVAL1 V__INTERVAL2) (and (tptp.s__before (tptp.s__BeginFn V__INTERVAL2) (tptp.s__BeginFn V__INTERVAL1)) (= (tptp.s__EndFn V__INTERVAL2) (tptp.s__EndFn V__INTERVAL1)))))))
% 3.14/3.32 (assume a4302 (tptp.s__instance tptp.s__before__m tptp.s__TemporalRelation))
% 3.14/3.32 (assume a4303 (tptp.s__instance tptp.s__before__m tptp.s__IrreflexiveRelation))
% 3.14/3.32 (assume a4304 (tptp.s__instance tptp.s__before__m tptp.s__TransitiveRelation))
% 3.14/3.32 (assume a4305 (tptp.s__subrelation tptp.s__before__m tptp.s__beforeOrEqual__m))
% 3.14/3.32 (assume a4306 (tptp.s__relatedInternalConcept tptp.s__before__m tptp.s__earlier__m))
% 3.14/3.32 (assume a4307 (tptp.s__domain tptp.s__before__m |"1"| tptp.s__TimePoint))
% 3.14/3.32 (assume a4308 (tptp.s__domain tptp.s__before__m |"2"| tptp.s__TimePoint))
% 3.14/3.32 (assume a4309 (tptp.s__documentation tptp.s__before__m tptp.s__EnglishLanguage |tptp.'(&%before ?POINT1 ?POINT2) means that ?POINT1 precedes ?POINT2 on the universal timeline.'|))
% 3.14/3.32 (assume a4310 (forall ((V__OBJ $$unsorted)) (=> (tptp.s__instance V__OBJ tptp.s__Object) (exists ((V__TIME1 $$unsorted) (V__TIME2 $$unsorted)) (and (tptp.s__instance V__TIME1 tptp.s__TimePoint) (tptp.s__instance V__TIME2 tptp.s__TimePoint) (tptp.s__before V__TIME1 V__TIME2) (forall ((V__TIME $$unsorted)) (=> (and (tptp.s__instance V__TIME tptp.s__TimePoint) (tptp.s__instance V__OBJ tptp.s__Physical)) (=> (and (tptp.s__beforeOrEqual V__TIME1 V__TIME) (tptp.s__beforeOrEqual V__TIME V__TIME2)) (tptp.s__time V__OBJ V__TIME)))))))))
% 3.14/3.32 (assume a4311 (forall ((V__OBJ $$unsorted) (V__PROC $$unsorted)) (=> (tptp.s__result V__PROC V__OBJ) (forall ((V__TIME $$unsorted)) (=> (and (tptp.s__instance V__TIME tptp.s__TimePoint) (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__OBJ tptp.s__Physical)) (=> (tptp.s__before V__TIME (tptp.s__BeginFn (tptp.s__WhenFn V__PROC))) (not (tptp.s__time V__OBJ V__TIME))))))))
% 3.14/3.32 (assume a4312 (forall ((V__INTERVAL $$unsorted)) (=> (tptp.s__instance V__INTERVAL tptp.s__TimeInterval) (tptp.s__before (tptp.s__BeginFn V__INTERVAL) (tptp.s__EndFn V__INTERVAL)))))
% 3.14/3.32 (assume a4313 (tptp.s__instance tptp.s__beforeOrEqual__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a4314 (tptp.s__instance tptp.s__beforeOrEqual__m tptp.s__TemporalRelation))
% 3.14/3.32 (assume a4315 (tptp.s__instance tptp.s__beforeOrEqual__m tptp.s__PartialOrderingRelation))
% 3.14/3.32 (assume a4316 (tptp.s__domain tptp.s__beforeOrEqual__m |"1"| tptp.s__TimePoint))
% 3.14/3.32 (assume a4317 (tptp.s__domain tptp.s__beforeOrEqual__m |"2"| tptp.s__TimePoint))
% 3.14/3.32 (assume a4318 (tptp.s__documentation tptp.s__beforeOrEqual__m tptp.s__EnglishLanguage |tptp.'(&%beforeOrEqual ?POINT1 ?POINT2) means that ?POINT1 is identical with ?POINT2 or occurs before it on the universal timeline.'|))
% 3.14/3.32 (assume a4319 (forall ((V__POINT2 $$unsorted) (V__POINT1 $$unsorted)) (=> (and (tptp.s__instance V__POINT1 tptp.s__TimePoint) (tptp.s__instance V__POINT2 tptp.s__TimePoint)) (=> (tptp.s__beforeOrEqual V__POINT1 V__POINT2) (or (tptp.s__before V__POINT1 V__POINT2) (= V__POINT1 V__POINT2))))))
% 3.14/3.32 (assume a4320 (tptp.s__instance tptp.s__temporallyBetween__m tptp.s__TemporalRelation))
% 3.14/3.32 (assume a4321 (tptp.s__instance tptp.s__temporallyBetween__m tptp.s__TernaryPredicate))
% 3.14/3.32 (assume a4322 (tptp.s__subrelation tptp.s__temporallyBetween__m tptp.s__temporallyBetweenOrEqual__m))
% 3.14/3.32 (assume a4323 (tptp.s__domain tptp.s__temporallyBetween__m |"1"| tptp.s__TimePoint))
% 3.14/3.32 (assume a4324 (tptp.s__domain tptp.s__temporallyBetween__m |"2"| tptp.s__TimePoint))
% 3.14/3.32 (assume a4325 (tptp.s__domain tptp.s__temporallyBetween__m |"3"| tptp.s__TimePoint))
% 3.14/3.32 (assume a4326 (tptp.s__documentation tptp.s__temporallyBetween__m tptp.s__EnglishLanguage |tptp.'(&%temporallyBetween ?POINT1 ?POINT2 ?POINT3) means that the &%TimePoint ?POINT2 is between the &%TimePoints ?POINT1 and ?POINT3, i.e. ?POINT1 is before ?POINT2 and ?POINT2 is before ?POINT3.'|))
% 3.14/3.32 (assume a4327 (forall ((V__POINT3 $$unsorted) (V__POINT2 $$unsorted) (V__POINT1 $$unsorted)) (=> (and (tptp.s__instance V__POINT1 tptp.s__TimePoint) (tptp.s__instance V__POINT2 tptp.s__TimePoint) (tptp.s__instance V__POINT3 tptp.s__TimePoint)) (= (tptp.s__temporallyBetween V__POINT1 V__POINT2 V__POINT3) (and (tptp.s__before V__POINT1 V__POINT2) (tptp.s__before V__POINT2 V__POINT3))))))
% 3.14/3.32 (assume a4328 (tptp.s__instance tptp.s__temporallyBetweenOrEqual__m tptp.s__TemporalRelation))
% 3.14/3.32 (assume a4329 (tptp.s__instance tptp.s__temporallyBetweenOrEqual__m tptp.s__TernaryPredicate))
% 3.14/3.32 (assume a4330 (tptp.s__domain tptp.s__temporallyBetweenOrEqual__m |"1"| tptp.s__TimePoint))
% 3.14/3.32 (assume a4331 (tptp.s__domain tptp.s__temporallyBetweenOrEqual__m |"2"| tptp.s__TimePoint))
% 3.14/3.32 (assume a4332 (tptp.s__domain tptp.s__temporallyBetweenOrEqual__m |"3"| tptp.s__TimePoint))
% 3.14/3.32 (assume a4333 (tptp.s__documentation tptp.s__temporallyBetweenOrEqual__m tptp.s__EnglishLanguage |tptp.'(&%temporallyBetweenOrEqual ?POINT1 ?POINT2 ?POINT3) means that the &%TimePoint ?POINT1 is before or equal to the &%TimePoint ?POINT2 and ?POINT2 is before or equal to the &%TimePoint ?POINT3.'|))
% 3.14/3.32 (assume a4334 (forall ((V__POINT3 $$unsorted) (V__POINT2 $$unsorted) (V__POINT1 $$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))))))
% 3.14/3.32 (assume a4335 (forall ((V__TIME $$unsorted) (V__PHYS $$unsorted)) (=> (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 (tptp.s__WhenFn V__PHYS)) V__TIME (tptp.s__EndFn (tptp.s__WhenFn V__PHYS)))))))
% 3.14/3.32 (assume a4336 (tptp.s__instance tptp.s__overlapsTemporally__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a4337 (tptp.s__instance tptp.s__overlapsTemporally__m tptp.s__TemporalRelation))
% 3.14/3.32 (assume a4338 (tptp.s__instance tptp.s__overlapsTemporally__m tptp.s__ReflexiveRelation))
% 3.14/3.32 (assume a4339 (tptp.s__instance tptp.s__overlapsTemporally__m tptp.s__SymmetricRelation))
% 3.14/3.32 (assume a4340 (tptp.s__domain tptp.s__overlapsTemporally__m |"1"| tptp.s__TimeInterval))
% 3.14/3.32 (assume a4341 (tptp.s__domain tptp.s__overlapsTemporally__m |"2"| tptp.s__TimeInterval))
% 3.14/3.32 (assume a4342 (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.'|))
% 3.14/3.32 (assume a4343 (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 $$unsorted)) (and (tptp.s__instance V__INTERVAL3 tptp.s__TimePosition) (tptp.s__instance V__INTERVAL3 tptp.s__TimeInterval) (tptp.s__temporalPart V__INTERVAL3 V__INTERVAL1) (tptp.s__temporalPart V__INTERVAL3 V__INTERVAL2)))))))
% 3.14/3.32 (assume a4344 (forall ((V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__Object)) (=> (tptp.s__larger V__OBJ1 V__OBJ2) (tptp.s__overlapsTemporally (tptp.s__WhenFn V__OBJ1) (tptp.s__WhenFn V__OBJ2))))))
% 3.14/3.32 (assume a4345 (forall ((V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__SelfConnectedObject) (tptp.s__instance V__OBJ1 tptp.s__Hole)) (=> (tptp.s__hole V__OBJ1 V__OBJ2) (tptp.s__overlapsTemporally (tptp.s__WhenFn V__OBJ1) (tptp.s__WhenFn V__OBJ2))))))
% 3.14/3.32 (assume a4346 (forall ((V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__Physical)) (=> (tptp.s__partlyLocated V__OBJ1 V__OBJ2) (tptp.s__overlapsTemporally (tptp.s__WhenFn V__OBJ1) (tptp.s__WhenFn V__OBJ2))))))
% 3.14/3.32 (assume a4347 (forall ((V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__Object)) (=> (tptp.s__connected V__OBJ1 V__OBJ2) (tptp.s__overlapsTemporally (tptp.s__WhenFn V__OBJ1) (tptp.s__WhenFn V__OBJ2))))))
% 3.14/3.32 (assume a4348 (forall ((V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__Object)) (=> (tptp.s__smaller V__OBJ1 V__OBJ2) (tptp.s__overlapsTemporally (tptp.s__WhenFn V__OBJ1) (tptp.s__WhenFn V__OBJ2))))))
% 3.14/3.32 (assume a4349 (forall ((V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__Object)) (=> (tptp.s__traverses V__OBJ1 V__OBJ2) (tptp.s__overlapsTemporally (tptp.s__WhenFn V__OBJ1) (tptp.s__WhenFn V__OBJ2))))))
% 3.14/3.32 (assume a4350 (tptp.s__subrelation tptp.s__during__m tptp.s__temporalPart__m))
% 3.14/3.32 (assume a4351 (tptp.s__instance tptp.s__during__m tptp.s__TransitiveRelation))
% 3.14/3.32 (assume a4352 (tptp.s__instance tptp.s__during__m tptp.s__IrreflexiveRelation))
% 3.14/3.32 (assume a4353 (tptp.s__subrelation tptp.s__during__m tptp.s__overlapsTemporally__m))
% 3.14/3.32 (assume a4354 (tptp.s__domain tptp.s__during__m |"1"| tptp.s__TimeInterval))
% 3.14/3.32 (assume a4355 (tptp.s__domain tptp.s__during__m |"2"| tptp.s__TimeInterval))
% 3.14/3.32 (assume a4356 (tptp.s__documentation tptp.s__during__m tptp.s__EnglishLanguage |tptp.'(&%during ?INTERVAL1 ?INTERVAL2) means that ?INTERVAL1 starts after and ends before ?INTERVAL2.'|))
% 3.14/3.32 (assume a4357 (forall ((V__INTERVAL1 $$unsorted) (V__INTERVAL2 $$unsorted)) (=> (and (tptp.s__instance V__INTERVAL2 tptp.s__TimeInterval) (tptp.s__instance V__INTERVAL1 tptp.s__TimeInterval)) (=> (tptp.s__during V__INTERVAL1 V__INTERVAL2) (and (tptp.s__before (tptp.s__EndFn V__INTERVAL1) (tptp.s__EndFn V__INTERVAL2)) (tptp.s__before (tptp.s__BeginFn V__INTERVAL2) (tptp.s__BeginFn V__INTERVAL1)))))))
% 3.14/3.32 (assume a4358 (tptp.s__instance tptp.s__meetsTemporally__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a4359 (tptp.s__instance tptp.s__meetsTemporally__m tptp.s__TemporalRelation))
% 3.14/3.32 (assume a4360 (tptp.s__instance tptp.s__meetsTemporally__m tptp.s__AsymmetricRelation))
% 3.14/3.32 (assume a4361 (tptp.s__instance tptp.s__meetsTemporally__m tptp.s__IntransitiveRelation))
% 3.14/3.32 (assume a4362 (tptp.s__domain tptp.s__meetsTemporally__m |"1"| tptp.s__TimeInterval))
% 3.14/3.32 (assume a4363 (tptp.s__domain tptp.s__meetsTemporally__m |"2"| tptp.s__TimeInterval))
% 3.14/3.32 (assume a4364 (tptp.s__documentation tptp.s__meetsTemporally__m tptp.s__EnglishLanguage |tptp.'(&%meetsTemporally ?INTERVAL1 ?INTERVAL2) means that the terminal point of the &%TimeInterval ?INTERVAL1 is the initial point of the &%TimeInterval ?INTERVAL2.'|))
% 3.14/3.32 (assume a4365 (forall ((V__INTERVAL1 $$unsorted) (V__INTERVAL2 $$unsorted)) (=> (and (tptp.s__instance V__INTERVAL2 tptp.s__TimeInterval) (tptp.s__instance V__INTERVAL1 tptp.s__TimeInterval)) (= (tptp.s__meetsTemporally V__INTERVAL1 V__INTERVAL2) (= (tptp.s__EndFn V__INTERVAL1) (tptp.s__BeginFn V__INTERVAL2))))))
% 3.14/3.32 (assume a4366 (forall ((V__INTERVAL1 $$unsorted) (V__INTERVAL2 $$unsorted)) (=> (and (tptp.s__instance V__INTERVAL2 tptp.s__TimeInterval) (tptp.s__instance V__INTERVAL1 tptp.s__TimeInterval)) (=> (and (= (tptp.s__BeginFn V__INTERVAL1) (tptp.s__BeginFn V__INTERVAL2)) (= (tptp.s__EndFn V__INTERVAL1) (tptp.s__EndFn V__INTERVAL2))) (= V__INTERVAL1 V__INTERVAL2)))))
% 3.14/3.32 (assume a4367 (tptp.s__instance tptp.s__earlier__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a4368 (tptp.s__instance tptp.s__earlier__m tptp.s__TemporalRelation))
% 3.14/3.32 (assume a4369 (tptp.s__instance tptp.s__TemporalRelation__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4370 (tptp.s__instance tptp.s__earlier__m tptp.s__TransitiveRelation))
% 3.14/3.32 (assume a4371 (tptp.s__instance tptp.s__earlier__m tptp.s__IrreflexiveRelation))
% 3.14/3.32 (assume a4372 (tptp.s__domain tptp.s__earlier__m |"1"| tptp.s__TimeInterval))
% 3.14/3.32 (assume a4373 (tptp.s__domain tptp.s__earlier__m |"2"| tptp.s__TimeInterval))
% 3.14/3.32 (assume a4374 (tptp.s__documentation tptp.s__earlier__m tptp.s__EnglishLanguage |tptp.'(&%earlier ?INTERVAL1 ?INTERVAL2) means that the &%TimeInterval ?INTERVAL1 ends before the &%TimeInterval ?INTERVAL2 begins.'|))
% 3.14/3.32 (assume a4375 (forall ((V__INTERVAL1 $$unsorted) (V__INTERVAL2 $$unsorted)) (=> (and (tptp.s__instance V__INTERVAL2 tptp.s__TimeInterval) (tptp.s__instance V__INTERVAL1 tptp.s__TimeInterval)) (= (tptp.s__earlier V__INTERVAL1 V__INTERVAL2) (tptp.s__before (tptp.s__EndFn V__INTERVAL1) (tptp.s__BeginFn V__INTERVAL2))))))
% 3.14/3.32 (assume a4376 (tptp.s__instance tptp.s__cooccur__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a4377 (tptp.s__instance tptp.s__cooccur__m tptp.s__TemporalRelation))
% 3.14/3.32 (assume a4378 (tptp.s__instance tptp.s__cooccur__m tptp.s__EquivalenceRelation))
% 3.14/3.32 (assume a4379 (tptp.s__domain tptp.s__cooccur__m |"1"| tptp.s__Physical))
% 3.14/3.32 (assume a4380 (tptp.s__domain tptp.s__cooccur__m |"2"| tptp.s__Physical))
% 3.14/3.32 (assume a4381 (tptp.s__documentation tptp.s__cooccur__m tptp.s__EnglishLanguage |tptp.'(&%cooccur ?THING1 ?THING2) means that the &%Object or &%Process ?THING1 occurs at the same time as, together with, or jointly with the &%Object or &%Process ?THING2. This covers the following temporal relations: is co-incident with, is concurrent with, is contemporaneous with, and is concomitant with.'|))
% 3.14/3.32 (assume a4382 (forall ((V__PHYS2 $$unsorted) (V__PHYS1 $$unsorted)) (=> (and (tptp.s__instance V__PHYS1 tptp.s__Physical) (tptp.s__instance V__PHYS2 tptp.s__Physical)) (= (tptp.s__cooccur V__PHYS1 V__PHYS2) (= (tptp.s__WhenFn V__PHYS1) (tptp.s__WhenFn V__PHYS2))))))
% 3.14/3.32 (assume a4383 (tptp.s__instance tptp.s__TimeIntervalFn__m tptp.s__BinaryFunction))
% 3.14/3.32 (assume a4384 (tptp.s__instance tptp.s__TimeIntervalFn__m tptp.s__TemporalRelation))
% 3.14/3.32 (assume a4385 (tptp.s__domain tptp.s__TimeIntervalFn__m |"1"| tptp.s__TimePoint))
% 3.14/3.32 (assume a4386 (tptp.s__domain tptp.s__TimeIntervalFn__m |"2"| tptp.s__TimePoint))
% 3.14/3.32 (assume a4387 (tptp.s__range tptp.s__TimeIntervalFn__m tptp.s__TimeInterval))
% 3.14/3.32 (assume a4388 (tptp.s__documentation tptp.s__TimeIntervalFn__m tptp.s__EnglishLanguage |tptp.'A &%BinaryFunction that takes two &%TimePoints as arguments and returns the &%TimeInterval defined by these two &%TimePoints. Note that the first &%TimePoint must occur earlier than the second &%TimePoint.'|))
% 3.14/3.32 (assume a4389 (forall ((V__POINT2 $$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)))))
% 3.14/3.32 (assume a4390 (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)))))))
% 3.14/3.32 (assume a4391 (tptp.s__instance tptp.s__RecurrentTimeIntervalFn__m tptp.s__TemporalRelation))
% 3.14/3.32 (assume a4392 (tptp.s__instance tptp.s__RecurrentTimeIntervalFn__m tptp.s__BinaryFunction))
% 3.14/3.32 (assume a4393 (tptp.s__domainSubclass tptp.s__RecurrentTimeIntervalFn__m |"1"| tptp.s__TimeInterval))
% 3.14/3.32 (assume a4394 (tptp.s__domainSubclass tptp.s__RecurrentTimeIntervalFn__m |"2"| tptp.s__TimeInterval))
% 3.14/3.32 (assume a4395 (tptp.s__rangeSubclass tptp.s__RecurrentTimeIntervalFn__m tptp.s__TimeInterval))
% 3.14/3.32 (assume a4396 (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.'|))
% 3.14/3.32 (assume a4397 (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 $$unsorted)) (and (tptp.s__instance V__TIME2 tptp.s__TimeInterval) (tptp.s__instance V__TIME1 tptp.s__TimeInterval) (tptp.s__instance V__TIME1 V__TIMECLASS1) (tptp.s__instance V__TIME2 V__TIMECLASS2) (tptp.s__starts V__TIME1 V__INTERVAL) (tptp.s__finishes V__TIME2 V__INTERVAL)))))))
% 3.14/3.32 (assume a4398 (tptp.s__instance tptp.s__WhenFn__m tptp.s__TemporalRelation))
% 3.14/3.32 (assume a4399 (tptp.s__instance tptp.s__WhenFn__m tptp.s__UnaryFunction))
% 3.14/3.32 (assume a4400 (tptp.s__instance tptp.s__WhenFn__m tptp.s__TotalValuedRelation))
% 3.14/3.32 (assume a4401 (tptp.s__domain tptp.s__WhenFn__m |"1"| tptp.s__Physical))
% 3.14/3.32 (assume a4402 (tptp.s__range tptp.s__WhenFn__m tptp.s__TimeInterval))
% 3.14/3.32 (assume a4403 (tptp.s__documentation tptp.s__WhenFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps an &%Object or &%Process to the exact &%TimeInterval during which it exists. Note that, for every &%TimePoint ?TIME outside of the &%TimeInterval (WhenFn ?THING), (time ?THING ?TIME) does not hold.'|))
% 3.14/3.32 (assume a4404 (tptp.s__instance tptp.s__PastFn__m tptp.s__TemporalRelation))
% 3.14/3.32 (assume a4405 (tptp.s__instance tptp.s__PastFn__m tptp.s__UnaryFunction))
% 3.14/3.32 (assume a4406 (tptp.s__instance tptp.s__PastFn__m tptp.s__TotalValuedRelation))
% 3.14/3.32 (assume a4407 (tptp.s__domain tptp.s__PastFn__m |"1"| tptp.s__TimePosition))
% 3.14/3.32 (assume a4408 (tptp.s__range tptp.s__PastFn__m tptp.s__TimeInterval))
% 3.14/3.32 (assume a4409 (tptp.s__documentation tptp.s__PastFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps a &%TimePosition to the &%TimeInterval that meets it and that begins at &%NegativeInfinity.'|))
% 3.14/3.32 (assume a4410 (forall ((V__INTERVAL $$unsorted)) (=> (tptp.s__instance V__INTERVAL tptp.s__TimeInterval) (tptp.s__meetsTemporally (tptp.s__PastFn V__INTERVAL) V__INTERVAL))))
% 3.14/3.32 (assume a4411 (forall ((V__INTERVAL $$unsorted)) (=> (tptp.s__instance V__INTERVAL tptp.s__TimeInterval) (= (tptp.s__PastFn V__INTERVAL) (tptp.s__TimeIntervalFn tptp.s__NegativeInfinity (tptp.s__BeginFn V__INTERVAL))))))
% 3.14/3.32 (assume a4412 (tptp.s__instance tptp.s__ImmediatePastFn__m tptp.s__TemporalRelation))
% 3.14/3.32 (assume a4413 (tptp.s__instance tptp.s__ImmediatePastFn__m tptp.s__UnaryFunction))
% 3.14/3.32 (assume a4414 (tptp.s__instance tptp.s__ImmediatePastFn__m tptp.s__TotalValuedRelation))
% 3.14/3.32 (assume a4415 (tptp.s__domain tptp.s__ImmediatePastFn__m |"1"| tptp.s__TimePosition))
% 3.14/3.32 (assume a4416 (tptp.s__range tptp.s__ImmediatePastFn__m tptp.s__TimeInterval))
% 3.14/3.32 (assume a4417 (tptp.s__documentation tptp.s__ImmediatePastFn__m tptp.s__EnglishLanguage |tptp.'A &%UnaryFunction that maps a &%TimePosition to a short, indeterminate &%TimeInterval that immediately precedes the &%TimePosition.'|))
% 3.14/3.32 (assume a4418 (forall ((V__INTERVAL $$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))))))
% 3.14/3.32 (assume a4419 (tptp.s__instance tptp.s__FutureFn__m tptp.s__TemporalRelation))
% 3.14/3.32 (assume a4420 (tptp.s__instance tptp.s__FutureFn__m tptp.s__UnaryFunction))
% 3.14/3.32 (assume a4421 (tptp.s__instance tptp.s__FutureFn__m tptp.s__TotalValuedRelation))
% 3.14/3.32 (assume a4422 (tptp.s__domain tptp.s__FutureFn__m |"1"| tptp.s__TimePosition))
% 3.14/3.32 (assume a4423 (tptp.s__range tptp.s__FutureFn__m tptp.s__TimeInterval))
% 3.14/3.32 (assume a4424 (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.'|))
% 3.14/3.32 (assume a4425 (forall ((V__INTERVAL $$unsorted)) (=> (tptp.s__instance V__INTERVAL tptp.s__TimeInterval) (tptp.s__meetsTemporally V__INTERVAL (tptp.s__FutureFn V__INTERVAL)))))
% 3.14/3.32 (assume a4426 (forall ((V__INTERVAL $$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)))))
% 3.14/3.32 (assume a4427 (tptp.s__instance tptp.s__ImmediateFutureFn__m tptp.s__TemporalRelation))
% 3.14/3.32 (assume a4428 (tptp.s__instance tptp.s__ImmediateFutureFn__m tptp.s__UnaryFunction))
% 3.14/3.32 (assume a4429 (tptp.s__instance tptp.s__ImmediateFutureFn__m tptp.s__TotalValuedRelation))
% 3.14/3.32 (assume a4430 (tptp.s__domain tptp.s__ImmediateFutureFn__m |"1"| tptp.s__TimePosition))
% 3.14/3.32 (assume a4431 (tptp.s__range tptp.s__ImmediateFutureFn__m tptp.s__TimeInterval))
% 3.14/3.32 (assume a4432 (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.'|))
% 3.14/3.32 (assume a4433 (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))))))
% 3.14/3.32 (assume a4434 (tptp.s__instance tptp.s__date__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a4435 (tptp.s__instance tptp.s__date__m tptp.s__SingleValuedRelation))
% 3.14/3.32 (assume a4436 (tptp.s__instance tptp.s__date__m tptp.s__AsymmetricRelation))
% 3.14/3.32 (assume a4437 (tptp.s__domain tptp.s__date__m |"1"| tptp.s__Physical))
% 3.14/3.32 (assume a4438 (tptp.s__domain tptp.s__date__m |"2"| tptp.s__Day))
% 3.14/3.32 (assume a4439 (tptp.s__subrelation tptp.s__date__m tptp.s__time__m))
% 3.14/3.32 (assume a4440 (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.'|))
% 3.14/3.32 (assume a4441 (tptp.s__instance tptp.s__YearFn__m tptp.s__TemporalRelation))
% 3.14/3.32 (assume a4442 (tptp.s__instance tptp.s__YearFn__m tptp.s__UnaryFunction))
% 3.14/3.32 (assume a4443 (tptp.s__domain tptp.s__YearFn__m |"1"| tptp.s__Integer))
% 3.14/3.32 (assume a4444 (tptp.s__rangeSubclass tptp.s__YearFn__m tptp.s__Year))
% 3.14/3.32 (assume a4445 (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.'|))
% 3.14/3.32 (assume a4446 (tptp.s__instance tptp.s__MonthFn__m tptp.s__TemporalRelation))
% 3.14/3.32 (assume a4447 (tptp.s__instance tptp.s__MonthFn__m tptp.s__BinaryFunction))
% 3.14/3.32 (assume a4448 (tptp.s__domainSubclass tptp.s__MonthFn__m |"1"| tptp.s__Month))
% 3.14/3.32 (assume a4449 (tptp.s__domainSubclass tptp.s__MonthFn__m |"2"| tptp.s__Year))
% 3.14/3.32 (assume a4450 (tptp.s__rangeSubclass tptp.s__MonthFn__m tptp.s__Month))
% 3.14/3.32 (assume a4451 (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.'|))
% 3.14/3.32 (assume a4452 (tptp.s__instance tptp.s__DayFn__m tptp.s__TemporalRelation))
% 3.14/3.32 (assume a4453 (tptp.s__instance tptp.s__DayFn__m tptp.s__BinaryFunction))
% 3.14/3.32 (assume a4454 (tptp.s__domain tptp.s__DayFn__m |"1"| tptp.s__PositiveInteger))
% 3.14/3.32 (assume a4455 (tptp.s__domainSubclass tptp.s__DayFn__m |"2"| tptp.s__Month))
% 3.14/3.32 (assume a4456 (tptp.s__rangeSubclass tptp.s__DayFn__m tptp.s__Day))
% 3.14/3.32 (assume a4457 (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.'|))
% 3.14/3.32 (assume a4458 (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"|)))))
% 3.14/3.32 (assume a4459 (forall ((V__NUMBER2 $$unsorted) (V__MONTH $$unsorted) (V__DAY1 $$unsorted) (V__DAY2 $$unsorted) (V__NUMBER1 $$unsorted)) (=> (and (tptp.s__instance V__NUMBER1 tptp.s__PositiveInteger) (tptp.s__instance V__DAY2 tptp.s__TimeInterval) (tptp.s__instance V__DAY1 tptp.s__TimeInterval) (tptp.s__subclass V__MONTH tptp.s__Month) (tptp.s__instance V__MONTH tptp.s__SetOrClass) (tptp.s__instance V__NUMBER2 tptp.s__PositiveInteger)) (=> (and (tptp.s__instance V__DAY1 (tptp.s__DayFn V__NUMBER1 V__MONTH)) (tptp.s__instance V__DAY2 (tptp.s__DayFn V__NUMBER2 V__MONTH)) (= (tptp.minus V__NUMBER2 V__NUMBER1) |"1"|)) (tptp.s__meetsTemporally V__DAY1 V__DAY2)))))
% 3.14/3.32 (assume a4460 (tptp.s__instance tptp.s__HourFn__m tptp.s__TemporalRelation))
% 3.14/3.32 (assume a4461 (tptp.s__instance tptp.s__HourFn__m tptp.s__BinaryFunction))
% 3.14/3.32 (assume a4462 (tptp.s__domain tptp.s__HourFn__m |"1"| tptp.s__NonnegativeInteger))
% 3.14/3.32 (assume a4463 (tptp.s__domainSubclass tptp.s__HourFn__m |"2"| tptp.s__Day))
% 3.14/3.32 (assume a4464 (tptp.s__rangeSubclass tptp.s__HourFn__m tptp.s__Hour))
% 3.14/3.32 (assume a4465 (tptp.s__documentation tptp.s__HourFn__m tptp.s__EnglishLanguage |tptp.'A &%BinaryFunction that assigns a &%PositiveRealNumber and a subclass of &%Days to the &%Hours within each &%Day corresponding to that &%NonnegativeInteger. For example, (&%HourFn 12 &%Thursday) is the &%Class of all instances of noon Thursday. For another example, (&%HourFn 0 &%Day) would return the class of all instances of midnight. For still another example, (&%HourFn 14 (&%DayFn 18 (&%MonthFn &%August (&%YearFn 1912)))) denotes 2 PM on the 18th day of August 1912.'|))
% 3.14/3.32 (assume a4466 (forall ((V__DAY $$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"|)))))
% 3.14/3.32 (assume a4467 (forall ((V__DAY $$unsorted) (V__NUMBER2 $$unsorted) (V__HOUR2 $$unsorted) (V__NUMBER1 $$unsorted) (V__HOUR1 $$unsorted)) (=> (and (tptp.s__instance V__HOUR1 tptp.s__TimeInterval) (tptp.s__instance V__NUMBER1 tptp.s__NonnegativeInteger) (tptp.s__instance V__HOUR2 tptp.s__TimeInterval) (tptp.s__instance V__NUMBER2 tptp.s__NonnegativeInteger) (tptp.s__subclass V__DAY tptp.s__Day) (tptp.s__instance V__DAY tptp.s__SetOrClass)) (=> (and (tptp.s__instance V__HOUR1 (tptp.s__HourFn V__NUMBER1 V__DAY)) (tptp.s__instance V__HOUR2 (tptp.s__HourFn V__NUMBER2 V__DAY)) (= (tptp.minus V__NUMBER2 V__NUMBER1) |"1"|)) (tptp.s__meetsTemporally V__HOUR1 V__HOUR2)))))
% 3.14/3.32 (assume a4468 (tptp.s__instance tptp.s__MinuteFn__m tptp.s__TemporalRelation))
% 3.14/3.32 (assume a4469 (tptp.s__instance tptp.s__MinuteFn__m tptp.s__BinaryFunction))
% 3.14/3.32 (assume a4470 (tptp.s__domain tptp.s__MinuteFn__m |"1"| tptp.s__NonnegativeInteger))
% 3.14/3.32 (assume a4471 (tptp.s__domainSubclass tptp.s__MinuteFn__m |"2"| tptp.s__Hour))
% 3.14/3.32 (assume a4472 (tptp.s__rangeSubclass tptp.s__MinuteFn__m tptp.s__Minute))
% 3.14/3.32 (assume a4473 (tptp.s__documentation tptp.s__MinuteFn__m tptp.s__EnglishLanguage |tptp.'A &%BinaryFunction that assigns a &%PositiveRealNumber and a subclass of &%Hours to the &%Minutes within each &%Hour corresponding to that &%NonnegativeInteger. For example, (&%MinuteFn 30 (&%HourFn 17 &%Day)) is the &%Class of all 5:30s in the afternoon. For another example, (&%MinuteFn 15 &%Hour) would return the class of all instances of quarter past the hour. For still another example, (&%MinuteFn 15 (&%HourFn 14 (&%DayFn 18 (&%MonthFn &%August (&%YearFn 1912))))) denotes 15 minutes after 2 PM on the 18th day of August 1912.'|))
% 3.14/3.32 (assume a4474 (forall ((V__MINUTE $$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"|)))))
% 3.14/3.32 (assume a4475 (forall ((V__MINUTE1 $$unsorted) (V__MINUTE2 $$unsorted) (V__NUMBER2 $$unsorted) (V__HOUR $$unsorted) (V__NUMBER1 $$unsorted)) (=> (and (tptp.s__instance V__NUMBER1 tptp.s__NonnegativeInteger) (tptp.s__subclass V__HOUR tptp.s__Hour) (tptp.s__instance V__HOUR tptp.s__SetOrClass) (tptp.s__instance V__NUMBER2 tptp.s__NonnegativeInteger) (tptp.s__instance V__MINUTE2 tptp.s__TimeInterval) (tptp.s__instance V__MINUTE1 tptp.s__TimeInterval)) (=> (and (tptp.s__instance V__MINUTE1 (tptp.s__MinuteFn V__NUMBER1 V__HOUR)) (tptp.s__instance V__MINUTE2 (tptp.s__MinuteFn V__NUMBER2 V__HOUR)) (= (tptp.minus V__NUMBER2 V__NUMBER1) |"1"|)) (tptp.s__meetsTemporally V__MINUTE1 V__MINUTE2)))))
% 3.14/3.32 (assume a4476 (tptp.s__instance tptp.s__SecondFn__m tptp.s__TemporalRelation))
% 3.14/3.32 (assume a4477 (tptp.s__instance tptp.s__SecondFn__m tptp.s__BinaryFunction))
% 3.14/3.32 (assume a4478 (tptp.s__domain tptp.s__SecondFn__m |"1"| tptp.s__PositiveRealNumber))
% 3.14/3.32 (assume a4479 (tptp.s__domainSubclass tptp.s__SecondFn__m |"2"| tptp.s__Minute))
% 3.14/3.32 (assume a4480 (tptp.s__rangeSubclass tptp.s__SecondFn__m tptp.s__Second))
% 3.14/3.32 (assume a4481 (tptp.s__documentation tptp.s__SecondFn__m tptp.s__EnglishLanguage |tptp.'A &%BinaryFunction that assigns a &%PositiveRealNumber and a subclass of &%Minutes to the &%Seconds within each &%Minute corresponding to that &%PositiveRealNumber. For example, (&%SecondFn 4 (&%MinuteFn 5 &%Hour)) is the &%Class of all fourth &%Seconds of every fifth &%Minute of every hour. For another example, (&%SecondFn 8 &%Minute) would return the eighth second of every minute. For still another example, (&%SecondFn 9 (&%MinuteFn 15 (&%HourFn 14 (&%DayFn 18 (&%MonthFn &%August (&%YearFn 1912)))))) denotes 9 seconds and 15 minutes after 2 PM on the 18th day of August 1912.'|))
% 3.14/3.32 (assume a4482 (forall ((V__MINUTE $$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"|)))))
% 3.14/3.32 (assume a4483 (forall ((V__MINUTE $$unsorted) (V__SECOND2 $$unsorted) (V__SECOND1 $$unsorted) (V__NUMBER2 $$unsorted) (V__NUMBER1 $$unsorted)) (=> (and (tptp.s__instance V__NUMBER1 tptp.s__PositiveRealNumber) (tptp.s__instance V__NUMBER2 tptp.s__PositiveRealNumber) (tptp.s__instance V__SECOND1 tptp.s__TimeInterval) (tptp.s__instance V__SECOND2 tptp.s__TimeInterval) (tptp.s__subclass V__MINUTE tptp.s__Minute) (tptp.s__instance V__MINUTE tptp.s__SetOrClass)) (=> (and (tptp.s__instance V__SECOND1 (tptp.s__SecondFn V__NUMBER1 V__MINUTE)) (tptp.s__instance V__SECOND2 (tptp.s__SecondFn V__NUMBER2 V__MINUTE)) (= (tptp.minus V__NUMBER2 V__NUMBER1) |"1"|)) (tptp.s__meetsTemporally V__SECOND1 V__SECOND2)))))
% 3.14/3.32 (assume a4484 (tptp.s__subclass tptp.s__Year tptp.s__TimeInterval))
% 3.14/3.32 (assume a4485 (tptp.s__instance tptp.s__Year__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4486 (tptp.s__relatedInternalConcept tptp.s__Year tptp.s__YearFn__m))
% 3.14/3.32 (assume a4487 (tptp.s__relatedInternalConcept tptp.s__Year tptp.s__YearDuration))
% 3.14/3.32 (assume a4488 (tptp.s__documentation tptp.s__Year tptp.s__EnglishLanguage |tptp.'The &%Class of all calendar &%Years.'|))
% 3.14/3.32 (assume a4489 (forall ((V__YEAR $$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))))))
% 3.14/3.32 (assume a4490 (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)))))
% 3.14/3.32 (assume a4491 (tptp.s__subclass tptp.s__LeapYear tptp.s__Year))
% 3.14/3.32 (assume a4492 (tptp.s__instance tptp.s__LeapYear__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4493 (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).'|))
% 3.14/3.32 (assume a4494 (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"|))))))
% 3.14/3.32 (assume a4495 (tptp.s__subclass tptp.s__Month tptp.s__TimeInterval))
% 3.14/3.32 (assume a4496 (tptp.s__relatedInternalConcept tptp.s__Month tptp.s__MonthFn__m))
% 3.14/3.32 (assume a4497 (tptp.s__documentation tptp.s__Month tptp.s__EnglishLanguage |tptp.'The &%Class of all calendar &%Months.'|))
% 3.14/3.32 (assume a4498 (tptp.s__subclass tptp.s__January tptp.s__Month))
% 3.14/3.32 (assume a4499 (tptp.s__instance tptp.s__January__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4500 (tptp.s__documentation tptp.s__January tptp.s__EnglishLanguage |tptp.'The &%Class of all &%Months which are January.'|))
% 3.14/3.32 (assume a4501 (forall ((V__MONTH $$unsorted)) (=> (tptp.s__instance V__MONTH tptp.s__TimeInterval) (=> (tptp.s__instance V__MONTH tptp.s__January) (tptp.s__duration V__MONTH (tptp.s__MeasureFn |"31"| tptp.s__DayDuration))))))
% 3.14/3.32 (assume a4502 (forall ((V__MONTH1 $$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)))))
% 3.14/3.32 (assume a4503 (tptp.s__subclass tptp.s__February tptp.s__Month))
% 3.14/3.32 (assume a4504 (tptp.s__instance tptp.s__February__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4505 (tptp.s__documentation tptp.s__February tptp.s__EnglishLanguage |tptp.'The &%Class of all &%Months which are February.'|))
% 3.14/3.32 (assume a4506 (forall ((V__Y $$unsorted) (V__YEAR $$unsorted) (V__MONTH $$unsorted)) (=> (and (tptp.s__instance V__MONTH tptp.s__TimeInterval) (tptp.s__subclass V__YEAR tptp.s__Year) (tptp.s__instance V__YEAR tptp.s__SetOrClass)) (=> (and (tptp.s__instance V__MONTH (tptp.s__MonthFn tptp.s__February V__YEAR)) (tptp.s__instance V__Y V__YEAR) (not (tptp.s__instance V__Y tptp.s__LeapYear))) (tptp.s__duration V__MONTH (tptp.s__MeasureFn |"28"| tptp.s__DayDuration))))))
% 3.14/3.32 (assume a4507 (forall ((V__Y $$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))))))
% 3.14/3.32 (assume a4508 (forall ((V__MONTH1 $$unsorted) (V__MONTH2 $$unsorted) (V__YEAR $$unsorted)) (=> (and (tptp.s__subclass V__YEAR tptp.s__Year) (tptp.s__instance V__YEAR tptp.s__SetOrClass) (tptp.s__instance V__MONTH2 tptp.s__TimeInterval) (tptp.s__instance V__MONTH1 tptp.s__TimeInterval)) (=> (and (tptp.s__instance V__MONTH1 (tptp.s__MonthFn tptp.s__February V__YEAR)) (tptp.s__instance V__MONTH2 (tptp.s__MonthFn tptp.s__March V__YEAR))) (tptp.s__meetsTemporally V__MONTH1 V__MONTH2)))))
% 3.14/3.32 (assume a4509 (tptp.s__subclass tptp.s__March tptp.s__Month))
% 3.14/3.32 (assume a4510 (tptp.s__instance tptp.s__March__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4511 (tptp.s__documentation tptp.s__March tptp.s__EnglishLanguage |tptp.'The &%Class of all &%Months which are March.'|))
% 3.14/3.32 (assume a4512 (forall ((V__MONTH $$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))))))
% 3.14/3.32 (assume a4513 (forall ((V__MONTH1 $$unsorted) (V__MONTH2 $$unsorted) (V__YEAR $$unsorted)) (=> (and (tptp.s__subclass V__YEAR tptp.s__Year) (tptp.s__instance V__YEAR tptp.s__SetOrClass) (tptp.s__instance V__MONTH2 tptp.s__TimeInterval) (tptp.s__instance V__MONTH1 tptp.s__TimeInterval)) (=> (and (tptp.s__instance V__MONTH1 (tptp.s__MonthFn tptp.s__March V__YEAR)) (tptp.s__instance V__MONTH2 (tptp.s__MonthFn tptp.s__April V__YEAR))) (tptp.s__meetsTemporally V__MONTH1 V__MONTH2)))))
% 3.14/3.32 (assume a4514 (tptp.s__subclass tptp.s__April tptp.s__Month))
% 3.14/3.32 (assume a4515 (tptp.s__instance tptp.s__April__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4516 (tptp.s__documentation tptp.s__April tptp.s__EnglishLanguage |tptp.'The &%Class of all &%Months which are April.'|))
% 3.14/3.32 (assume a4517 (forall ((V__MONTH $$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))))))
% 3.14/3.32 (assume a4518 (forall ((V__MONTH1 $$unsorted) (V__MONTH2 $$unsorted) (V__YEAR $$unsorted)) (=> (and (tptp.s__subclass V__YEAR tptp.s__Year) (tptp.s__instance V__YEAR tptp.s__SetOrClass) (tptp.s__instance V__MONTH2 tptp.s__TimeInterval) (tptp.s__instance V__MONTH1 tptp.s__TimeInterval)) (=> (and (= V__MONTH1 (tptp.s__MonthFn tptp.s__April V__YEAR)) (= V__MONTH2 (tptp.s__MonthFn tptp.s__May V__YEAR))) (tptp.s__meetsTemporally V__MONTH1 V__MONTH2)))))
% 3.14/3.32 (assume a4519 (tptp.s__subclass tptp.s__May tptp.s__Month))
% 3.14/3.32 (assume a4520 (tptp.s__instance tptp.s__May__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4521 (tptp.s__documentation tptp.s__May tptp.s__EnglishLanguage |tptp.'The &%Class of all &%Months which are May.'|))
% 3.14/3.32 (assume a4522 (forall ((V__MONTH $$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))))))
% 3.14/3.32 (assume a4523 (forall ((V__MONTH1 $$unsorted) (V__MONTH2 $$unsorted) (V__YEAR $$unsorted)) (=> (and (tptp.s__subclass V__YEAR tptp.s__Year) (tptp.s__instance V__YEAR tptp.s__SetOrClass) (tptp.s__instance V__MONTH2 tptp.s__TimeInterval) (tptp.s__instance V__MONTH1 tptp.s__TimeInterval)) (=> (and (tptp.s__instance V__MONTH1 (tptp.s__MonthFn tptp.s__May V__YEAR)) (tptp.s__instance V__MONTH2 (tptp.s__MonthFn tptp.s__June V__YEAR))) (tptp.s__meetsTemporally V__MONTH1 V__MONTH2)))))
% 3.14/3.32 (assume a4524 (tptp.s__subclass tptp.s__June tptp.s__Month))
% 3.14/3.32 (assume a4525 (tptp.s__instance tptp.s__June__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4526 (tptp.s__instance tptp.s__Month__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4527 (tptp.s__documentation tptp.s__June tptp.s__EnglishLanguage |tptp.'The &%Class of all &%Months which are June.'|))
% 3.14/3.32 (assume a4528 (forall ((V__MONTH $$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))))))
% 3.14/3.32 (assume a4529 (forall ((V__MONTH1 $$unsorted) (V__MONTH2 $$unsorted) (V__YEAR $$unsorted)) (=> (and (tptp.s__subclass V__YEAR tptp.s__Year) (tptp.s__instance V__YEAR tptp.s__SetOrClass) (tptp.s__instance V__MONTH2 tptp.s__TimeInterval) (tptp.s__instance V__MONTH1 tptp.s__TimeInterval)) (=> (and (tptp.s__instance V__MONTH1 (tptp.s__MonthFn tptp.s__June V__YEAR)) (tptp.s__instance V__MONTH2 (tptp.s__MonthFn tptp.s__July V__YEAR))) (tptp.s__meetsTemporally V__MONTH1 V__MONTH2)))))
% 3.14/3.32 (assume a4530 (tptp.s__subclass tptp.s__July tptp.s__Month))
% 3.14/3.32 (assume a4531 (tptp.s__instance tptp.s__July__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4532 (tptp.s__documentation tptp.s__July tptp.s__EnglishLanguage |tptp.'The &%Class of all &%Months which are July.'|))
% 3.14/3.32 (assume a4533 (forall ((V__MONTH $$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))))))
% 3.14/3.32 (assume a4534 (forall ((V__MONTH1 $$unsorted) (V__MONTH2 $$unsorted) (V__YEAR $$unsorted)) (=> (and (tptp.s__subclass V__YEAR tptp.s__Year) (tptp.s__instance V__YEAR tptp.s__SetOrClass) (tptp.s__instance V__MONTH2 tptp.s__TimeInterval) (tptp.s__instance V__MONTH1 tptp.s__TimeInterval)) (=> (and (tptp.s__instance V__MONTH1 (tptp.s__MonthFn tptp.s__July V__YEAR)) (tptp.s__instance V__MONTH2 (tptp.s__MonthFn tptp.s__August V__YEAR))) (tptp.s__meetsTemporally V__MONTH1 V__MONTH2)))))
% 3.14/3.32 (assume a4535 (tptp.s__subclass tptp.s__August tptp.s__Month))
% 3.14/3.32 (assume a4536 (tptp.s__instance tptp.s__August__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4537 (tptp.s__documentation tptp.s__August tptp.s__EnglishLanguage |tptp.'The &%Class of all &%Months which are August.'|))
% 3.14/3.32 (assume a4538 (forall ((V__MONTH $$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))))))
% 3.14/3.32 (assume a4539 (forall ((V__MONTH1 $$unsorted) (V__MONTH2 $$unsorted) (V__YEAR $$unsorted)) (=> (and (tptp.s__subclass V__YEAR tptp.s__Year) (tptp.s__instance V__YEAR tptp.s__SetOrClass) (tptp.s__instance V__MONTH2 tptp.s__TimeInterval) (tptp.s__instance V__MONTH1 tptp.s__TimeInterval)) (=> (and (tptp.s__instance V__MONTH1 (tptp.s__MonthFn tptp.s__August V__YEAR)) (tptp.s__instance V__MONTH2 (tptp.s__MonthFn tptp.s__September V__YEAR))) (tptp.s__meetsTemporally V__MONTH1 V__MONTH2)))))
% 3.14/3.32 (assume a4540 (tptp.s__subclass tptp.s__September tptp.s__Month))
% 3.14/3.32 (assume a4541 (tptp.s__instance tptp.s__September__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4542 (tptp.s__documentation tptp.s__September tptp.s__EnglishLanguage |tptp.'The &%Class of all &%Months which are September.'|))
% 3.14/3.32 (assume a4543 (forall ((V__MONTH $$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))))))
% 3.14/3.32 (assume a4544 (forall ((V__MONTH1 $$unsorted) (V__MONTH2 $$unsorted) (V__YEAR $$unsorted)) (=> (and (tptp.s__subclass V__YEAR tptp.s__Year) (tptp.s__instance V__YEAR tptp.s__SetOrClass) (tptp.s__instance V__MONTH2 tptp.s__TimeInterval) (tptp.s__instance V__MONTH1 tptp.s__TimeInterval)) (=> (and (tptp.s__instance V__MONTH1 (tptp.s__MonthFn tptp.s__September V__YEAR)) (tptp.s__instance V__MONTH2 (tptp.s__MonthFn tptp.s__October V__YEAR))) (tptp.s__meetsTemporally V__MONTH1 V__MONTH2)))))
% 3.14/3.32 (assume a4545 (tptp.s__subclass tptp.s__October tptp.s__Month))
% 3.14/3.32 (assume a4546 (tptp.s__instance tptp.s__October__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4547 (tptp.s__documentation tptp.s__October tptp.s__EnglishLanguage |tptp.'The &%Class of all &%Months which are October.'|))
% 3.14/3.32 (assume a4548 (forall ((V__MONTH $$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))))))
% 3.14/3.32 (assume a4549 (forall ((V__MONTH1 $$unsorted) (V__MONTH2 $$unsorted) (V__YEAR $$unsorted)) (=> (and (tptp.s__subclass V__YEAR tptp.s__Year) (tptp.s__instance V__YEAR tptp.s__SetOrClass) (tptp.s__instance V__MONTH2 tptp.s__TimeInterval) (tptp.s__instance V__MONTH1 tptp.s__TimeInterval)) (=> (and (tptp.s__instance V__MONTH1 (tptp.s__MonthFn tptp.s__October V__YEAR)) (tptp.s__instance V__MONTH2 (tptp.s__MonthFn tptp.s__November V__YEAR))) (tptp.s__meetsTemporally V__MONTH1 V__MONTH2)))))
% 3.14/3.32 (assume a4550 (tptp.s__subclass tptp.s__November tptp.s__Month))
% 3.14/3.32 (assume a4551 (tptp.s__instance tptp.s__November__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4552 (tptp.s__documentation tptp.s__November tptp.s__EnglishLanguage |tptp.'The &%Class of all &%Months which are November.'|))
% 3.14/3.32 (assume a4553 (forall ((V__MONTH $$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))))))
% 3.14/3.32 (assume a4554 (forall ((V__MONTH1 $$unsorted) (V__MONTH2 $$unsorted) (V__YEAR $$unsorted)) (=> (and (tptp.s__subclass V__YEAR tptp.s__Year) (tptp.s__instance V__YEAR tptp.s__SetOrClass) (tptp.s__instance V__MONTH2 tptp.s__TimeInterval) (tptp.s__instance V__MONTH1 tptp.s__TimeInterval)) (=> (and (tptp.s__instance V__MONTH1 (tptp.s__MonthFn tptp.s__November V__YEAR)) (tptp.s__instance V__MONTH2 (tptp.s__MonthFn tptp.s__December V__YEAR))) (tptp.s__meetsTemporally V__MONTH1 V__MONTH2)))))
% 3.14/3.32 (assume a4555 (tptp.s__subclass tptp.s__December tptp.s__Month))
% 3.14/3.32 (assume a4556 (tptp.s__instance tptp.s__December__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4557 (tptp.s__documentation tptp.s__December tptp.s__EnglishLanguage |tptp.'The &%Class of all &%Months which are December.'|))
% 3.14/3.32 (assume a4558 (forall ((V__MONTH $$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))))))
% 3.14/3.32 (assume a4559 (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)))))
% 3.14/3.32 (assume a4560 (tptp.s__subclass tptp.s__Day tptp.s__TimeInterval))
% 3.14/3.32 (assume a4561 (tptp.s__relatedInternalConcept tptp.s__Day tptp.s__DayFn__m))
% 3.14/3.32 (assume a4562 (tptp.s__relatedInternalConcept tptp.s__Day tptp.s__DayDuration))
% 3.14/3.32 (assume a4563 (tptp.s__documentation tptp.s__Day tptp.s__EnglishLanguage |tptp.'The &%Class of all calendar &%Days.'|))
% 3.14/3.32 (assume a4564 (forall ((V__DAY $$unsorted)) (=> (tptp.s__instance V__DAY tptp.s__TimeInterval) (=> (tptp.s__instance V__DAY tptp.s__Day) (tptp.s__duration V__DAY (tptp.s__MeasureFn |"1"| tptp.s__DayDuration))))))
% 3.14/3.32 (assume a4565 (tptp.s__subclass tptp.s__Monday tptp.s__Day))
% 3.14/3.32 (assume a4566 (tptp.s__instance tptp.s__Monday__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4567 (tptp.s__documentation tptp.s__Monday tptp.s__EnglishLanguage |tptp.'The &%Class of all calendar Mondays.'|))
% 3.14/3.32 (assume a4568 (tptp.s__subclass tptp.s__Tuesday tptp.s__Day))
% 3.14/3.32 (assume a4569 (tptp.s__instance tptp.s__Tuesday__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4570 (tptp.s__documentation tptp.s__Tuesday tptp.s__EnglishLanguage |tptp.'The &%Class of all calendar Tuesdays.'|))
% 3.14/3.32 (assume a4571 (forall ((V__WEEK $$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)))))
% 3.14/3.32 (assume a4572 (tptp.s__subclass tptp.s__Wednesday tptp.s__Day))
% 3.14/3.32 (assume a4573 (tptp.s__instance tptp.s__Wednesday__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4574 (tptp.s__documentation tptp.s__Wednesday tptp.s__EnglishLanguage |tptp.'The &%Class of all calendar Wednesdays.'|))
% 3.14/3.32 (assume a4575 (forall ((V__WEEK $$unsorted) (V__DAY1 $$unsorted) (V__DAY2 $$unsorted)) (=> (and (tptp.s__instance V__DAY2 tptp.s__TimeInterval) (tptp.s__instance V__DAY1 tptp.s__TimeInterval) (tptp.s__instance V__WEEK tptp.s__TimePosition)) (=> (and (tptp.s__instance V__DAY1 tptp.s__Tuesday) (tptp.s__instance V__DAY2 tptp.s__Wednesday) (tptp.s__instance V__WEEK tptp.s__Week) (tptp.s__temporalPart V__DAY1 V__WEEK) (tptp.s__temporalPart V__DAY2 V__WEEK)) (tptp.s__meetsTemporally V__DAY1 V__DAY2)))))
% 3.14/3.32 (assume a4576 (tptp.s__subclass tptp.s__Thursday tptp.s__Day))
% 3.14/3.32 (assume a4577 (tptp.s__instance tptp.s__Thursday__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4578 (tptp.s__documentation tptp.s__Thursday tptp.s__EnglishLanguage |tptp.'The &%Class of all calendar Thursdays.'|))
% 3.14/3.32 (assume a4579 (forall ((V__WEEK $$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)))))
% 3.14/3.32 (assume a4580 (tptp.s__subclass tptp.s__Friday tptp.s__Day))
% 3.14/3.32 (assume a4581 (tptp.s__instance tptp.s__Friday__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4582 (tptp.s__documentation tptp.s__Friday tptp.s__EnglishLanguage |tptp.'The &%Class of all calendar Fridays.'|))
% 3.14/3.32 (assume a4583 (forall ((V__WEEK $$unsorted) (V__DAY1 $$unsorted) (V__DAY2 $$unsorted)) (=> (and (tptp.s__instance V__DAY2 tptp.s__TimeInterval) (tptp.s__instance V__DAY1 tptp.s__TimeInterval) (tptp.s__instance V__WEEK tptp.s__TimePosition)) (=> (and (tptp.s__instance V__DAY1 tptp.s__Thursday) (tptp.s__instance V__DAY2 tptp.s__Friday) (tptp.s__instance V__WEEK tptp.s__Week) (tptp.s__temporalPart V__DAY1 V__WEEK) (tptp.s__temporalPart V__DAY2 V__WEEK)) (tptp.s__meetsTemporally V__DAY1 V__DAY2)))))
% 3.14/3.32 (assume a4584 (tptp.s__subclass tptp.s__Saturday tptp.s__Day))
% 3.14/3.32 (assume a4585 (tptp.s__instance tptp.s__Saturday__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4586 (tptp.s__documentation tptp.s__Saturday tptp.s__EnglishLanguage |tptp.'The &%Class of all calendar Saturdays.'|))
% 3.14/3.32 (assume a4587 (forall ((V__WEEK $$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)))))
% 3.14/3.32 (assume a4588 (tptp.s__subclass tptp.s__Sunday tptp.s__Day))
% 3.14/3.32 (assume a4589 (tptp.s__instance tptp.s__Sunday__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4590 (tptp.s__instance tptp.s__Day__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4591 (tptp.s__documentation tptp.s__Sunday tptp.s__EnglishLanguage |tptp.'The &%Class of all calendar Sundays.'|))
% 3.14/3.32 (assume a4592 (forall ((V__WEEK $$unsorted) (V__DAY1 $$unsorted) (V__DAY2 $$unsorted)) (=> (and (tptp.s__instance V__DAY2 tptp.s__TimeInterval) (tptp.s__instance V__DAY1 tptp.s__TimeInterval) (tptp.s__instance V__WEEK tptp.s__TimePosition)) (=> (and (tptp.s__instance V__DAY1 tptp.s__Saturday) (tptp.s__instance V__DAY2 tptp.s__Sunday) (tptp.s__instance V__WEEK tptp.s__Week) (tptp.s__temporalPart V__DAY1 V__WEEK) (tptp.s__temporalPart V__DAY2 V__WEEK)) (tptp.s__meetsTemporally V__DAY1 V__DAY2)))))
% 3.14/3.32 (assume a4593 (forall ((V__WEEK2 $$unsorted) (V__WEEK1 $$unsorted) (V__DAY1 $$unsorted) (V__DAY2 $$unsorted)) (=> (and (tptp.s__instance V__DAY2 tptp.s__TimeInterval) (tptp.s__instance V__DAY1 tptp.s__TimeInterval) (tptp.s__instance V__WEEK1 tptp.s__TimeInterval) (tptp.s__instance V__WEEK2 tptp.s__TimeInterval)) (=> (and (tptp.s__instance V__DAY1 tptp.s__Sunday) (tptp.s__instance V__DAY2 tptp.s__Monday) (tptp.s__instance V__WEEK1 tptp.s__Week) (tptp.s__instance V__WEEK2 tptp.s__Week) (tptp.s__temporalPart V__DAY1 V__WEEK1) (tptp.s__temporalPart V__DAY2 V__WEEK2) (tptp.s__meetsTemporally V__WEEK1 V__WEEK2)) (tptp.s__meetsTemporally V__DAY1 V__DAY2)))))
% 3.14/3.32 (assume a4594 (tptp.s__subclass tptp.s__Week tptp.s__TimeInterval))
% 3.14/3.32 (assume a4595 (tptp.s__instance tptp.s__Week__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4596 (tptp.s__documentation tptp.s__Week tptp.s__EnglishLanguage |tptp.'The &%Class of all calendar weeks.'|))
% 3.14/3.32 (assume a4597 (forall ((V__WEEK $$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))))))
% 3.14/3.32 (assume a4598 (tptp.s__subclass tptp.s__Hour tptp.s__TimeInterval))
% 3.14/3.32 (assume a4599 (tptp.s__instance tptp.s__Hour__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4600 (tptp.s__relatedInternalConcept tptp.s__Hour tptp.s__HourFn__m))
% 3.14/3.32 (assume a4601 (tptp.s__relatedInternalConcept tptp.s__Hour tptp.s__HourDuration))
% 3.14/3.32 (assume a4602 (tptp.s__documentation tptp.s__Hour tptp.s__EnglishLanguage |tptp.'The &%Class of all clock &%Hours.'|))
% 3.14/3.32 (assume a4603 (forall ((V__HOUR $$unsorted)) (=> (tptp.s__instance V__HOUR tptp.s__TimeInterval) (=> (tptp.s__instance V__HOUR tptp.s__Hour) (tptp.s__duration V__HOUR (tptp.s__MeasureFn |"1"| tptp.s__HourDuration))))))
% 3.14/3.32 (assume a4604 (tptp.s__subclass tptp.s__Minute tptp.s__TimeInterval))
% 3.14/3.32 (assume a4605 (tptp.s__instance tptp.s__Minute__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4606 (tptp.s__relatedInternalConcept tptp.s__Minute tptp.s__MinuteFn__m))
% 3.14/3.32 (assume a4607 (tptp.s__relatedInternalConcept tptp.s__Minute tptp.s__MinuteDuration))
% 3.14/3.32 (assume a4608 (tptp.s__documentation tptp.s__Minute tptp.s__EnglishLanguage |tptp.'The &%Class of all clock &%Minutes.'|))
% 3.14/3.32 (assume a4609 (forall ((V__MINUTE $$unsorted)) (=> (tptp.s__instance V__MINUTE tptp.s__TimeInterval) (=> (tptp.s__instance V__MINUTE tptp.s__Minute) (tptp.s__duration V__MINUTE (tptp.s__MeasureFn |"1"| tptp.s__MinuteDuration))))))
% 3.14/3.32 (assume a4610 (tptp.s__subclass tptp.s__Second tptp.s__TimeInterval))
% 3.14/3.32 (assume a4611 (tptp.s__instance tptp.s__Second__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4612 (tptp.s__relatedInternalConcept tptp.s__Second tptp.s__SecondDuration))
% 3.14/3.32 (assume a4613 (tptp.s__relatedInternalConcept tptp.s__Second tptp.s__SecondFn__m))
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% 3.14/3.32 (assume a4615 (forall ((V__SECOND $$unsorted)) (=> (tptp.s__instance V__SECOND tptp.s__TimeInterval) (=> (tptp.s__instance V__SECOND tptp.s__Second) (tptp.s__duration V__SECOND (tptp.s__MeasureFn |"1"| tptp.s__SecondDuration))))))
% 3.14/3.32 (assume a4616 (tptp.s__instance tptp.s__TemporalCompositionFn__m tptp.s__TemporalRelation))
% 3.14/3.32 (assume a4617 (tptp.s__instance tptp.s__TemporalCompositionFn__m tptp.s__BinaryFunction))
% 3.14/3.32 (assume a4618 (tptp.s__domain tptp.s__TemporalCompositionFn__m |"1"| tptp.s__TimeInterval))
% 3.14/3.32 (assume a4619 (tptp.s__domainSubclass tptp.s__TemporalCompositionFn__m |"2"| tptp.s__TimeInterval))
% 3.14/3.32 (assume a4620 (tptp.s__rangeSubclass tptp.s__TemporalCompositionFn__m tptp.s__TimeInterval))
% 3.14/3.32 (assume a4621 (tptp.s__documentation tptp.s__TemporalCompositionFn__m tptp.s__EnglishLanguage |tptp.'The basic &%Function for expressing the composition of larger &%TimeIntervals out of smaller &%TimeIntervals. For example, if &%ThisSeptember is an &%instance of &%September, (&%TemporalCompositionFn &%ThisSeptember &%Day) denotes the &%Class of consecutive days that make up &%ThisSeptember. Note that one can obtain the number of instances of this &%Class by using the function &%CardinalityFn.'|))
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% 3.14/3.32 (assume a4658 (tptp.s__subrelation tptp.s__overlapsSpatially__m tptp.s__connected__m))
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% 3.14/3.32 (assume a4767 (forall ((V__HOLE2 $$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))))))))
% 3.14/3.32 (assume a4768 (tptp.s__instance tptp.s__Fillable tptp.s__ShapeAttribute))
% 3.14/3.32 (assume a4769 (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.'|))
% 3.14/3.32 (assume a4770 (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)))))))
% 3.14/3.32 (assume a4771 (tptp.s__subrelation tptp.s__partiallyFills__m tptp.s__located__m))
% 3.14/3.32 (assume a4772 (tptp.s__instance tptp.s__partiallyFills__m tptp.s__SpatialRelation))
% 3.14/3.32 (assume a4773 (tptp.s__instance tptp.s__partiallyFills__m tptp.s__AsymmetricRelation))
% 3.14/3.32 (assume a4774 (tptp.s__instance tptp.s__AsymmetricRelation__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4775 (tptp.s__domain tptp.s__partiallyFills__m |"1"| tptp.s__Object))
% 3.14/3.32 (assume a4776 (tptp.s__domain tptp.s__partiallyFills__m |"2"| tptp.s__Hole))
% 3.14/3.32 (assume a4777 (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.'|))
% 3.14/3.32 (assume a4778 (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 $$unsorted)) (and (tptp.s__instance V__HOLE2 tptp.s__Hole) (tptp.s__part V__HOLE2 V__HOLE1) (tptp.s__completelyFills V__OBJ V__HOLE2)))))))
% 3.14/3.32 (assume a4779 (tptp.s__instance tptp.s__properlyFills__m tptp.s__AsymmetricRelation))
% 3.14/3.32 (assume a4780 (tptp.s__subrelation tptp.s__properlyFills__m tptp.s__partiallyFills__m))
% 3.14/3.32 (assume a4781 (tptp.s__domain tptp.s__properlyFills__m |"1"| tptp.s__Object))
% 3.14/3.32 (assume a4782 (tptp.s__domain tptp.s__properlyFills__m |"2"| tptp.s__Hole))
% 3.14/3.32 (assume a4783 (tptp.s__documentation tptp.s__properlyFills__m tptp.s__EnglishLanguage |tptp.'(&%properlyFills ?OBJ ?HOLE) means that ?HOLE is properly (though perhaps incompletely) filled by ?OBJ, i.e. some part of ?HOLE is perfectly filled by ?OBJ. Note that &%properlyFills is the dual of &%completelyFills, and is so related to &%partiallyFills that ?OBJ &%properlyFills ?HOLE just in case ?OBJ &%partiallyFills every part of ?HOLE. (Thus, every perfect filler is both complete and proper in this sense). Every hole is connected with everything with which a proper filler of the hole is connected. Every proper part of a perfect filler of (a part of) a hole properly fills (that part of) that hole.'|))
% 3.14/3.32 (assume a4784 (forall ((V__OBJ $$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)))))))
% 3.14/3.32 (assume a4785 (tptp.s__instance tptp.s__completelyFills__m tptp.s__AsymmetricRelation))
% 3.14/3.32 (assume a4786 (tptp.s__subrelation tptp.s__completelyFills__m tptp.s__partiallyFills__m))
% 3.14/3.32 (assume a4787 (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.'|))
% 3.14/3.32 (assume a4788 (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 $$unsorted)) (and (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__part V__OBJ2 V__OBJ1) (tptp.s__fills V__OBJ2 V__HOLE)))))))
% 3.14/3.32 (assume a4789 (tptp.s__instance tptp.s__fills__m tptp.s__AsymmetricRelation))
% 3.14/3.32 (assume a4790 (tptp.s__subrelation tptp.s__fills__m tptp.s__completelyFills__m))
% 3.14/3.32 (assume a4791 (tptp.s__subrelation tptp.s__fills__m tptp.s__properlyFills__m))
% 3.14/3.32 (assume a4792 (tptp.s__domain tptp.s__fills__m |"1"| tptp.s__Object))
% 3.14/3.32 (assume a4793 (tptp.s__domain tptp.s__fills__m |"2"| tptp.s__Hole))
% 3.14/3.32 (assume a4794 (tptp.s__relatedInternalConcept tptp.s__fills__m tptp.s__Fillable))
% 3.14/3.32 (assume a4795 (tptp.s__documentation tptp.s__fills__m tptp.s__EnglishLanguage |tptp.'Holes can be filled. (&%fills ?OBJ ?HOLE) means that the &%Object ?OBJ fills the &%Hole ?HOLE. Note that &%fills here means perfectly filled. Perfect fillers and fillable entities have no parts in common (rather, they may occupy the same spatial region).'|))
% 3.14/3.32 (assume a4796 (forall ((V__HOLE $$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))))))
% 3.14/3.32 (assume a4797 (forall ((V__HOLE $$unsorted) (V__OBJ1 $$unsorted)) (=> (tptp.s__completelyFills V__OBJ1 V__HOLE) (forall ((V__OBJ2 $$unsorted)) (=> (and (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__Object) (tptp.s__instance V__HOLE tptp.s__Hole)) (=> (tptp.s__connected V__OBJ2 V__HOLE) (tptp.s__connected V__OBJ2 V__OBJ1)))))))
% 3.14/3.32 (assume a4798 (forall ((V__HOLE $$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)))))
% 3.14/3.32 (assume a4799 (forall ((V__OBJ $$unsorted) (V__HOLE2 $$unsorted) (V__HOLE1 $$unsorted)) (=> (and (tptp.s__instance V__HOLE1 tptp.s__Hole) (tptp.s__instance V__HOLE2 tptp.s__Hole) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (and (tptp.s__fills V__OBJ V__HOLE1) (tptp.s__properPart V__HOLE2 V__HOLE1)) (tptp.s__completelyFills V__OBJ V__HOLE2)))))
% 3.14/3.32 (assume a4800 (forall ((V__HOLE $$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)))))
% 3.14/3.32 (assume a4801 (tptp.s__instance tptp.s__HoleSkinFn__m tptp.s__SpatialRelation))
% 3.14/3.32 (assume a4802 (tptp.s__instance tptp.s__HoleSkinFn__m tptp.s__UnaryFunction))
% 3.14/3.32 (assume a4803 (tptp.s__instance tptp.s__HoleSkinFn__m tptp.s__TotalValuedRelation))
% 3.14/3.32 (assume a4804 (tptp.s__instance tptp.s__HoleSkinFn__m tptp.s__AsymmetricRelation))
% 3.14/3.32 (assume a4805 (tptp.s__domain tptp.s__HoleSkinFn__m |"1"| tptp.s__Hole))
% 3.14/3.32 (assume a4806 (tptp.s__range tptp.s__HoleSkinFn__m tptp.s__Object))
% 3.14/3.32 (assume a4807 (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.'|))
% 3.14/3.32 (assume a4808 (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)))))))))
% 3.14/3.32 (assume a4809 (tptp.s__instance tptp.s__subProcess__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a4810 (tptp.s__instance tptp.s__subProcess__m tptp.s__PartialOrderingRelation))
% 3.14/3.32 (assume a4811 (tptp.s__domain tptp.s__subProcess__m |"1"| tptp.s__Process))
% 3.14/3.32 (assume a4812 (tptp.s__domain tptp.s__subProcess__m |"2"| tptp.s__Process))
% 3.14/3.32 (assume a4813 (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.'|))
% 3.14/3.32 (assume a4814 (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))))))
% 3.14/3.32 (assume a4815 (tptp.s__subclass tptp.s__BiologicalProcess tptp.s__InternalChange))
% 3.14/3.32 (assume a4816 (tptp.s__documentation tptp.s__BiologicalProcess tptp.s__EnglishLanguage |tptp.'A &%Process embodied in an &%Organism.'|))
% 3.14/3.32 (assume a4817 (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)))))))
% 3.14/3.32 (assume a4818 (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)))))
% 3.14/3.32 (assume a4819 (tptp.s__subclass tptp.s__PhysiologicProcess tptp.s__BiologicalProcess))
% 3.14/3.32 (assume a4820 (tptp.s__instance tptp.s__PhysiologicProcess__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4821 (tptp.s__documentation tptp.s__PhysiologicProcess tptp.s__EnglishLanguage |tptp.'A normal process of an &%Organism or part of an &%Organism.'|))
% 3.14/3.32 (assume a4822 (tptp.s__subclass tptp.s__AutonomicProcess tptp.s__PhysiologicProcess))
% 3.14/3.32 (assume a4823 (tptp.s__disjoint tptp.s__AutonomicProcess tptp.s__IntentionalProcess))
% 3.14/3.32 (assume a4824 (tptp.s__documentation tptp.s__AutonomicProcess tptp.s__EnglishLanguage |tptp.'The class of &%PhysiologicProcesses of which there is not conscious awareness and control.'|))
% 3.14/3.32 (assume a4825 (tptp.s__subclass tptp.s__OrganOrTissueProcess tptp.s__AutonomicProcess))
% 3.14/3.32 (assume a4826 (tptp.s__instance tptp.s__OrganOrTissueProcess__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4827 (tptp.s__disjoint tptp.s__OrganOrTissueProcess tptp.s__OrganismProcess))
% 3.14/3.32 (assume a4828 (tptp.s__documentation tptp.s__OrganOrTissueProcess tptp.s__EnglishLanguage |tptp.'A &%PhysiologicProcess of a particular &%Organ or &%Tissue.'|))
% 3.14/3.32 (assume a4829 (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))))))))
% 3.14/3.32 (assume a4830 (tptp.s__subclass tptp.s__OrganismProcess tptp.s__PhysiologicProcess))
% 3.14/3.32 (assume a4831 (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.'|))
% 3.14/3.32 (assume a4832 (tptp.s__subclass tptp.s__Birth tptp.s__OrganismProcess))
% 3.14/3.32 (assume a4833 (tptp.s__instance tptp.s__Birth__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4834 (tptp.s__instance tptp.s__OrganismProcess__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4835 (tptp.s__documentation tptp.s__Birth tptp.s__EnglishLanguage |tptp.'The &%Process of being born.'|))
% 3.14/3.32 (assume a4836 (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 $$unsorted)) (and (tptp.s__instance V__DEATH tptp.s__Process) (tptp.s__instance V__DEATH tptp.s__Death) (tptp.s__experiencer V__DEATH V__AGENT)))))))
% 3.14/3.32 (assume a4837 (tptp.s__subclass tptp.s__Death tptp.s__OrganismProcess))
% 3.14/3.32 (assume a4838 (tptp.s__instance tptp.s__Death__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4839 (tptp.s__documentation tptp.s__Death tptp.s__EnglishLanguage |tptp.'The &%Process of dying.'|))
% 3.14/3.32 (assume a4840 (tptp.s__subclass tptp.s__Breathing tptp.s__OrganismProcess))
% 3.14/3.32 (assume a4841 (tptp.s__subclass tptp.s__Breathing tptp.s__AutonomicProcess))
% 3.14/3.32 (assume a4842 (tptp.s__instance tptp.s__Breathing__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4843 (tptp.s__documentation tptp.s__Breathing tptp.s__EnglishLanguage |tptp.'The &%Process of respiration, by which oxygen is made available to an &%Animal. This covers processes of inhalation, exhalation, and alternations between the two.'|))
% 3.14/3.32 (assume a4844 (tptp.s__subclass tptp.s__Ingesting tptp.s__OrganismProcess))
% 3.14/3.32 (assume a4845 (tptp.s__documentation tptp.s__Ingesting tptp.s__EnglishLanguage |tptp.'The &%Process by which food is taken into an &%Animal.'|))
% 3.14/3.32 (assume a4846 (forall ((V__ACT $$unsorted) (V__FOOD $$unsorted)) (=> (and (tptp.s__instance V__FOOD tptp.s__Object) (tptp.s__instance V__ACT tptp.s__Process)) (=> (and (tptp.s__instance V__ACT tptp.s__Ingesting) (tptp.s__resource V__ACT V__FOOD)) (tptp.s__instance V__FOOD (tptp.s__FoodForFn tptp.s__Organism))))))
% 3.14/3.32 (assume a4847 (tptp.s__subclass tptp.s__Eating tptp.s__Ingesting))
% 3.14/3.32 (assume a4848 (tptp.s__instance tptp.s__Eating__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4849 (tptp.s__documentation tptp.s__Eating tptp.s__EnglishLanguage |tptp.'The &%Process by which solid food is incorporated into an &%Animal.'|))
% 3.14/3.32 (assume a4850 (forall ((V__ACT $$unsorted) (V__FOOD $$unsorted)) (=> (and (tptp.s__instance V__FOOD tptp.s__Object) (tptp.s__instance V__ACT tptp.s__Process)) (=> (and (tptp.s__instance V__ACT tptp.s__Eating) (tptp.s__resource V__ACT V__FOOD)) (tptp.s__attribute V__FOOD tptp.s__Solid)))))
% 3.14/3.32 (assume a4851 (tptp.s__subclass tptp.s__Drinking tptp.s__Ingesting))
% 3.14/3.32 (assume a4852 (tptp.s__instance tptp.s__Drinking__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4853 (tptp.s__instance tptp.s__Ingesting__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4854 (tptp.s__documentation tptp.s__Drinking tptp.s__EnglishLanguage |tptp.'The &%Process by which liquid food, i.e. &%Beverages, are incorporated into an &%Animal.'|))
% 3.14/3.32 (assume a4855 (forall ((V__ACT $$unsorted) (V__FOOD $$unsorted)) (=> (and (tptp.s__instance V__FOOD tptp.s__Object) (tptp.s__instance V__ACT tptp.s__Process)) (=> (and (tptp.s__instance V__ACT tptp.s__Drinking) (tptp.s__resource V__ACT V__FOOD)) (tptp.s__attribute V__FOOD tptp.s__Liquid)))))
% 3.14/3.32 (assume a4856 (tptp.s__subclass tptp.s__Digesting tptp.s__OrganismProcess))
% 3.14/3.32 (assume a4857 (tptp.s__instance tptp.s__Digesting__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4858 (tptp.s__subclass tptp.s__Digesting tptp.s__AutonomicProcess))
% 3.14/3.32 (assume a4859 (tptp.s__documentation tptp.s__Digesting tptp.s__EnglishLanguage |tptp.'The &%Process by which &%Food that has been ingested is broken down into simpler chemical compounds and absorbed by the &%Organism.'|))
% 3.14/3.32 (assume a4860 (forall ((V__ORGANISM $$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))))))))
% 3.14/3.32 (assume a4861 (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)))))))
% 3.14/3.32 (assume a4862 (tptp.s__subclass tptp.s__Growth tptp.s__AutonomicProcess))
% 3.14/3.32 (assume a4863 (tptp.s__instance tptp.s__Growth__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4864 (tptp.s__instance tptp.s__AutonomicProcess__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4865 (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.'|))
% 3.14/3.32 (assume a4866 (tptp.s__subclass tptp.s__Replication tptp.s__OrganismProcess))
% 3.14/3.32 (assume a4867 (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.'|))
% 3.14/3.32 (assume a4868 (forall ((V__CHILD $$unsorted) (V__REP $$unsorted) (V__PARENT $$unsorted)) (=> (and (tptp.s__instance V__PARENT tptp.s__Organism) (tptp.s__instance V__REP tptp.s__Process) (tptp.s__instance V__CHILD tptp.s__Organism)) (=> (and (tptp.s__instance V__REP tptp.s__Replication) (tptp.s__agent V__REP V__PARENT) (tptp.s__result V__REP V__CHILD)) (tptp.s__parent V__CHILD V__PARENT)))))
% 3.14/3.32 (assume a4869 (forall ((V__REP $$unsorted)) (=> (tptp.s__instance V__REP tptp.s__Process) (=> (tptp.s__instance V__REP tptp.s__Replication) (exists ((V__BODY $$unsorted)) (and (tptp.s__instance V__BODY tptp.s__ReproductiveBody) (tptp.s__result V__REP V__BODY)))))))
% 3.14/3.32 (assume a4870 (tptp.s__subclass tptp.s__SexualReproduction tptp.s__Replication))
% 3.14/3.32 (assume a4871 (tptp.s__instance tptp.s__SexualReproduction__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4872 (tptp.s__instance tptp.s__Replication__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4873 (tptp.s__disjoint tptp.s__SexualReproduction tptp.s__AsexualReproduction))
% 3.14/3.32 (assume a4874 (tptp.s__documentation tptp.s__SexualReproduction tptp.s__EnglishLanguage |tptp.'Sexual &%Processes of biological reproduction.'|))
% 3.14/3.32 (assume a4875 (forall ((V__ORGANISM $$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 $$unsorted)) (and (tptp.s__instance V__FATHER tptp.s__Organism) (tptp.s__instance V__MOTHER tptp.s__Organism) (tptp.s__mother V__ORGANISM V__MOTHER) (tptp.s__father V__ORGANISM V__FATHER)))))))
% 3.14/3.32 (assume a4876 (tptp.s__subclass tptp.s__AsexualReproduction tptp.s__Replication))
% 3.14/3.32 (assume a4877 (tptp.s__instance tptp.s__AsexualReproduction__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4878 (tptp.s__documentation tptp.s__AsexualReproduction tptp.s__EnglishLanguage |tptp.'Asexual &%Processes of biological reproduction.'|))
% 3.14/3.32 (assume a4879 (forall ((V__PARENT2 $$unsorted) (V__ORGANISM $$unsorted) (V__PARENT1 $$unsorted) (V__REP $$unsorted)) (=> (and (tptp.s__instance V__REP tptp.s__Process) (tptp.s__instance V__PARENT1 tptp.s__Organism) (tptp.s__instance V__ORGANISM tptp.s__Organism) (tptp.s__instance V__PARENT2 tptp.s__Organism)) (=> (and (tptp.s__instance V__REP tptp.s__AsexualReproduction) (tptp.s__result V__REP V__ORGANISM) (tptp.s__parent V__ORGANISM V__PARENT1) (tptp.s__parent V__ORGANISM V__PARENT2)) (= V__PARENT1 V__PARENT2)))))
% 3.14/3.32 (assume a4880 (tptp.s__subclass tptp.s__PsychologicalProcess tptp.s__BiologicalProcess))
% 3.14/3.32 (assume a4881 (tptp.s__documentation tptp.s__PsychologicalProcess tptp.s__EnglishLanguage |tptp.'A &%BiologicalProcess which takes place in the mind or brain of an &%Organism and which may be manifested in the behavior of the &%Organism.'|))
% 3.14/3.32 (assume a4882 (forall ((V__PROCESS $$unsorted)) (=> (tptp.s__instance V__PROCESS tptp.s__Process) (=> (tptp.s__instance V__PROCESS tptp.s__PsychologicalProcess) (exists ((V__ANIMAL $$unsorted)) (and (tptp.s__instance V__ANIMAL tptp.s__Agent) (tptp.s__instance V__ANIMAL tptp.s__Animal) (tptp.s__experiencer V__PROCESS V__ANIMAL)))))))
% 3.14/3.32 (assume a4883 (tptp.s__subclass tptp.s__PathologicProcess tptp.s__BiologicalProcess))
% 3.14/3.32 (assume a4884 (tptp.s__instance tptp.s__PathologicProcess__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4885 (tptp.s__instance tptp.s__BiologicalProcess__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4886 (tptp.s__disjoint tptp.s__PathologicProcess tptp.s__PhysiologicProcess))
% 3.14/3.32 (assume a4887 (tptp.s__documentation tptp.s__PathologicProcess tptp.s__EnglishLanguage |tptp.'A disordered process, activity, or state of the &%Organism as a whole, of a body system or systems, or of multiple &%Organs or &%Tissues. Included here are normal responses to a negative stimulus as well as patholologic conditions or states that are less specific than a disease. Pathologic functions frequently have systemic effects.'|))
% 3.14/3.32 (assume a4888 (forall ((V__PATH $$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 $$unsorted)) (and (tptp.s__instance V__DISEASE tptp.s__Attribute) (tptp.s__instance V__PART tptp.s__Object) (tptp.s__part V__PART V__ORG) (tptp.s__instance V__DISEASE tptp.s__DiseaseOrSyndrome) (tptp.s__attribute V__PART V__DISEASE)))))))
% 3.14/3.32 (assume a4889 (tptp.s__subclass tptp.s__Injuring tptp.s__PathologicProcess))
% 3.14/3.32 (assume a4890 (tptp.s__subclass tptp.s__Injuring tptp.s__Damaging))
% 3.14/3.32 (assume a4891 (tptp.s__instance tptp.s__Injuring__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4892 (tptp.s__instance tptp.s__Damaging__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4893 (tptp.s__documentation tptp.s__Injuring tptp.s__EnglishLanguage |tptp.'The process of creating a traumatic wound or injury. Since &%Injuring is not possible without some biologic function of the organism being injured, it is a subclass of &%BiologicalProcess.'|))
% 3.14/3.32 (assume a4894 (forall ((V__INJ $$unsorted)) (=> (tptp.s__instance V__INJ tptp.s__Process) (=> (tptp.s__instance V__INJ tptp.s__Injuring) (exists ((V__STRUCT $$unsorted)) (and (tptp.s__instance V__STRUCT tptp.s__AnatomicalStructure) (tptp.s__patient V__INJ V__STRUCT)))))))
% 3.14/3.32 (assume a4895 (forall ((V__INJ $$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 $$unsorted)) (and (tptp.s__instance V__ORGANISM tptp.s__Organism) (tptp.s__patient V__INJ V__ORGANISM))))))))
% 3.14/3.32 (assume a4896 (tptp.s__subclass tptp.s__Poisoning tptp.s__Injuring))
% 3.14/3.32 (assume a4897 (tptp.s__instance tptp.s__Poisoning__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4898 (tptp.s__documentation tptp.s__Poisoning tptp.s__EnglishLanguage |tptp.'A &%Poisoning is caused by an external substance. Since &%Poisoning is not possible without some biologic function which affects the &%Organism being injured, it is a subclass of &%BiologicalProcess.'|))
% 3.14/3.32 (assume a4899 (forall ((V__POISON $$unsorted)) (=> (tptp.s__instance V__POISON tptp.s__Process) (=> (tptp.s__instance V__POISON tptp.s__Poisoning) (exists ((V__THING $$unsorted)) (and (tptp.s__patient V__POISON V__THING) (or (tptp.s__instance V__THING tptp.s__Organism) (tptp.s__instance V__THING tptp.s__AnatomicalStructure))))))))
% 3.14/3.32 (assume a4900 (forall ((V__POISON $$unsorted)) (=> (tptp.s__instance V__POISON tptp.s__Process) (=> (tptp.s__instance V__POISON tptp.s__Poisoning) (exists ((V__SUBSTANCE $$unsorted)) (and (tptp.s__instance V__SUBSTANCE tptp.s__Object) (tptp.s__instance V__SUBSTANCE tptp.s__BiologicallyActiveSubstance) (tptp.s__instrument V__POISON V__SUBSTANCE)))))))
% 3.14/3.32 (assume a4901 (tptp.s__documentation tptp.s__NaturalProcess tptp.s__EnglishLanguage |tptp.'A &%Process that take place in nature spontanously.'|))
% 3.14/3.32 (assume a4902 (tptp.s__subclass tptp.s__NaturalProcess tptp.s__Process))
% 3.14/3.32 (assume a4903 (tptp.s__instance tptp.s__NaturalProcess__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4904 (tptp.s__disjoint tptp.s__NaturalProcess tptp.s__IntentionalProcess))
% 3.14/3.32 (assume a4905 (tptp.s__subclass tptp.s__IntentionalProcess tptp.s__Process))
% 3.14/3.32 (assume a4906 (tptp.s__documentation tptp.s__IntentionalProcess tptp.s__EnglishLanguage |tptp.'A &%Process that has a specific purpose for the &%CognitiveAgent who performs it.'|))
% 3.14/3.32 (assume a4907 (forall ((V__AGENT $$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)))))))
% 3.14/3.32 (assume a4908 (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)))))))
% 3.14/3.32 (assume a4909 (tptp.s__subclass tptp.s__IntentionalPsychologicalProcess tptp.s__IntentionalProcess))
% 3.14/3.32 (assume a4910 (tptp.s__subclass tptp.s__IntentionalPsychologicalProcess tptp.s__PsychologicalProcess))
% 3.14/3.32 (assume a4911 (tptp.s__instance tptp.s__PsychologicalProcess__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4912 (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.'|))
% 3.14/3.32 (assume a4913 (tptp.s__subclass tptp.s__RecreationOrExercise tptp.s__IntentionalProcess))
% 3.14/3.32 (assume a4914 (tptp.s__instance tptp.s__RecreationOrExercise__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4915 (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).'|))
% 3.14/3.32 (assume a4916 (tptp.s__subclass tptp.s__OrganizationalProcess tptp.s__IntentionalProcess))
% 3.14/3.32 (assume a4917 (tptp.s__documentation tptp.s__OrganizationalProcess tptp.s__EnglishLanguage |tptp.'An &%IntentionalProcess that involves an &%Organization.'|))
% 3.14/3.32 (assume a4918 (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 $$unsorted)) (and (tptp.s__instance V__ORG tptp.s__Collection) (tptp.s__instance V__ORG tptp.s__Organization) (tptp.s__member V__AGENT V__ORG))))))))
% 3.14/3.32 (assume a4919 (tptp.s__subclass tptp.s__Election tptp.s__OrganizationalProcess))
% 3.14/3.32 (assume a4920 (tptp.s__instance tptp.s__Election__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4921 (tptp.s__documentation tptp.s__Election tptp.s__EnglishLanguage |tptp.'&%Election is the class of events conducted by an organization, in which qualified participants vote for officers, adopt resolutions, or settle other issues in that &%Organization.'|))
% 3.14/3.32 (assume a4922 (tptp.s__subclass tptp.s__ReligiousProcess tptp.s__OrganizationalProcess))
% 3.14/3.32 (assume a4923 (tptp.s__instance tptp.s__ReligiousProcess__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4924 (tptp.s__documentation tptp.s__ReligiousProcess tptp.s__EnglishLanguage |tptp.'An &%OrganizationalProcess that is carried out within or by a &%ReligiousOrganization.'|))
% 3.14/3.32 (assume a4925 (forall ((V__ACT $$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))))))))
% 3.14/3.32 (assume a4926 (tptp.s__subclass tptp.s__JoiningAnOrganization tptp.s__OrganizationalProcess))
% 3.14/3.32 (assume a4927 (tptp.s__instance tptp.s__JoiningAnOrganization__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4928 (tptp.s__documentation tptp.s__JoiningAnOrganization tptp.s__EnglishLanguage |tptp.'The &%OrganizationalProcess of becoming a &%member of an &%Organization.'|))
% 3.14/3.32 (assume a4929 (tptp.s__subclass tptp.s__LeavingAnOrganization tptp.s__OrganizationalProcess))
% 3.14/3.32 (assume a4930 (tptp.s__disjoint tptp.s__LeavingAnOrganization tptp.s__JoiningAnOrganization))
% 3.14/3.32 (assume a4931 (tptp.s__documentation tptp.s__LeavingAnOrganization tptp.s__EnglishLanguage |tptp.'The &%OrganizationalProcess of leaving an &%Organization, whether voluntarily or involuntarily.'|))
% 3.14/3.32 (assume a4932 (tptp.s__subclass tptp.s__Graduation tptp.s__LeavingAnOrganization))
% 3.14/3.32 (assume a4933 (tptp.s__instance tptp.s__Graduation__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4934 (tptp.s__instance tptp.s__LeavingAnOrganization__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4935 (tptp.s__documentation tptp.s__Graduation tptp.s__EnglishLanguage |tptp.'The &%OrganizationalProcess of graduating from an &%EducationalOrganization.'|))
% 3.14/3.32 (assume a4936 (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)))))
% 3.14/3.32 (assume a4937 (tptp.s__subclass tptp.s__Matriculation tptp.s__JoiningAnOrganization))
% 3.14/3.32 (assume a4938 (tptp.s__instance tptp.s__Matriculation__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4939 (tptp.s__documentation tptp.s__Matriculation tptp.s__EnglishLanguage |tptp.'The &%OrganizationalProcess of joining an &%EducationalOrganization as a student.'|))
% 3.14/3.32 (assume a4940 (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)))))
% 3.14/3.32 (assume a4941 (tptp.s__subclass tptp.s__Hiring tptp.s__JoiningAnOrganization))
% 3.14/3.32 (assume a4942 (tptp.s__instance tptp.s__Hiring__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4943 (tptp.s__documentation tptp.s__Hiring tptp.s__EnglishLanguage |tptp.'&%OrganizationalProcesses where someone is made an employee of an &%Organization.'|))
% 3.14/3.32 (assume a4944 (tptp.s__subclass tptp.s__TerminatingEmployment tptp.s__LeavingAnOrganization))
% 3.14/3.32 (assume a4945 (tptp.s__instance tptp.s__TerminatingEmployment__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4946 (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.'|))
% 3.14/3.32 (assume a4947 (tptp.s__subclass tptp.s__PoliticalProcess tptp.s__OrganizationalProcess))
% 3.14/3.32 (assume a4948 (tptp.s__instance tptp.s__PoliticalProcess__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4949 (tptp.s__instance tptp.s__OrganizationalProcess__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4950 (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.'|))
% 3.14/3.32 (assume a4951 (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 $$unsorted)) (and (tptp.s__instance V__GOV tptp.s__Collection) (tptp.s__instance V__POL tptp.s__SelfConnectedObject) (tptp.s__instance V__GOV tptp.s__Government) (tptp.s__member V__POL V__GOV)))) (or (tptp.s__agent V__PROC V__POL) (tptp.s__patient V__PROC V__POL))))))))
% 3.14/3.32 (assume a4952 (tptp.s__subclass tptp.s__JudicialProcess tptp.s__PoliticalProcess))
% 3.14/3.32 (assume a4953 (tptp.s__documentation tptp.s__JudicialProcess tptp.s__EnglishLanguage |tptp.'Any legal proceeding which is conducted by a &%JudicialOrganization. Note that there is an important difference between the concepts &%LegalAction and &%JudicialProcess. The former refers to legal claims that are brought by a plaintiff, e.g. law suits, while the second refers to trials and other sorts of judicial hearings where the merits of a &%LegalAction are decided.'|))
% 3.14/3.32 (assume a4954 (forall ((V__ORG $$unsorted) (V__PROCESS $$unsorted)) (=> (and (tptp.s__instance V__PROCESS tptp.s__Process) (tptp.s__instance V__ORG tptp.s__Agent)) (=> (and (tptp.s__instance V__PROCESS tptp.s__JudicialProcess) (tptp.s__agent V__PROCESS V__ORG) (tptp.s__instance V__ORG tptp.s__Organization)) (tptp.s__instance V__ORG tptp.s__JudicialOrganization)))))
% 3.14/3.32 (assume a4955 (tptp.s__subclass tptp.s__LegalDecision tptp.s__JudicialProcess))
% 3.14/3.32 (assume a4956 (tptp.s__instance tptp.s__LegalDecision__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4957 (tptp.s__instance tptp.s__JudicialProcess__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4958 (tptp.s__subclass tptp.s__LegalDecision tptp.s__Declaring))
% 3.14/3.32 (assume a4959 (tptp.s__documentation tptp.s__LegalDecision tptp.s__EnglishLanguage |tptp.'A decision issued by a court with respect to a &%LegalAction. Note that a &%LegalDecision is the act of &%Declaring a decision of a court, it is not the act of judge or jury &%Deciding the merits of a particular &%LegalAction.'|))
% 3.14/3.32 (assume a4960 (forall ((V__DECISION $$unsorted)) (=> (tptp.s__instance V__DECISION tptp.s__LegalDecision) (exists ((V__ACTION $$unsorted)) (and (tptp.s__instance V__ACTION tptp.s__LegalAction) (tptp.s__refers V__DECISION V__ACTION))))))
% 3.14/3.32 (assume a4961 (forall ((V__DECISION $$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))))))))
% 3.14/3.32 (assume a4962 (tptp.s__subclass tptp.s__MilitaryProcess tptp.s__PoliticalProcess))
% 3.14/3.32 (assume a4963 (tptp.s__instance tptp.s__MilitaryProcess__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4964 (tptp.s__subclass tptp.s__MilitaryProcess tptp.s__OrganizationalProcess))
% 3.14/3.32 (assume a4965 (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.'|))
% 3.14/3.32 (assume a4966 (tptp.s__subclass tptp.s__RegulatoryProcess tptp.s__Guiding))
% 3.14/3.32 (assume a4967 (tptp.s__instance tptp.s__RegulatoryProcess__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4968 (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.'|))
% 3.14/3.32 (assume a4969 (tptp.s__subclass tptp.s__Managing tptp.s__OrganizationalProcess))
% 3.14/3.32 (assume a4970 (tptp.s__subclass tptp.s__Managing tptp.s__Guiding))
% 3.14/3.32 (assume a4971 (tptp.s__instance tptp.s__Managing__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4972 (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.'|))
% 3.14/3.32 (assume a4973 (tptp.s__subclass tptp.s__Planning tptp.s__IntentionalPsychologicalProcess))
% 3.14/3.32 (assume a4974 (tptp.s__instance tptp.s__Planning__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4975 (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.'|))
% 3.14/3.32 (assume a4976 (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)))))))
% 3.14/3.32 (assume a4977 (tptp.s__subclass tptp.s__Designing tptp.s__IntentionalPsychologicalProcess))
% 3.14/3.32 (assume a4978 (tptp.s__instance tptp.s__Designing__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4979 (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.'|))
% 3.14/3.32 (assume a4980 (tptp.s__subclass tptp.s__Interpreting tptp.s__IntentionalPsychologicalProcess))
% 3.14/3.32 (assume a4981 (tptp.s__instance tptp.s__Interpreting__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4982 (tptp.s__documentation tptp.s__Interpreting tptp.s__EnglishLanguage |tptp.'Any &%Process of assigning a &%Proposition to a &%Text, i.e. understanding the &%Text.'|))
% 3.14/3.32 (assume a4983 (tptp.s__subclass tptp.s__QuantityChange tptp.s__InternalChange))
% 3.14/3.32 (assume a4984 (tptp.s__partition_3 tptp.s__QuantityChange tptp.s__Increasing tptp.s__Decreasing))
% 3.14/3.32 (assume a4985 (tptp.s__documentation tptp.s__QuantityChange tptp.s__EnglishLanguage |tptp.'Any &%InternalChange where a &%PhysicalQuantity associated with the &%patient is altered.'|))
% 3.14/3.32 (assume a4986 (tptp.s__subclass tptp.s__Increasing tptp.s__QuantityChange))
% 3.14/3.32 (assume a4987 (tptp.s__relatedInternalConcept tptp.s__Increasing tptp.s__Putting))
% 3.14/3.32 (assume a4988 (tptp.s__documentation tptp.s__Increasing tptp.s__EnglishLanguage |tptp.'Any &%QuantityChange where the &%PhysicalQuantity is increased.'|))
% 3.14/3.32 (assume a4989 (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 $$unsorted)) (and (tptp.s__instance V__QUANT2 tptp.s__Quantity) (tptp.s__instance V__QUANT1 tptp.s__Quantity) (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (tptp.s__holdsDuring (tptp.s__BeginFn (tptp.s__WhenFn V__INCREASE)) |tptp.'(s__MeasureFn(V__OBJ,V__UNIT) = V__QUANT1)'|) (tptp.s__holdsDuring (tptp.s__EndFn (tptp.s__WhenFn V__INCREASE)) |tptp.'(s__MeasureFn(V__OBJ,V__UNIT) = V__QUANT2)'|) (tptp.greater V__QUANT2 V__QUANT1)))))))
% 3.14/3.32 (assume a4990 (tptp.s__subclass tptp.s__Heating tptp.s__Increasing))
% 3.14/3.32 (assume a4991 (tptp.s__instance tptp.s__Heating__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4992 (tptp.s__instance tptp.s__Increasing__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4993 (tptp.s__disjoint tptp.s__Heating tptp.s__Cooling))
% 3.14/3.32 (assume a4994 (tptp.s__documentation tptp.s__Heating tptp.s__EnglishLanguage |tptp.'Any &%Increasing &%Process where the &%PhysicalQuantity increased is a &%TemperatureMeasure.'|))
% 3.14/3.32 (assume a4995 (forall ((V__HEAT $$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)) (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 (tptp.s__WhenFn V__HEAT)) |tptp.'(s__MeasureFn(V__OBJ,V__UNIT) = V__QUANT1)'|) (tptp.s__holdsDuring (tptp.s__EndFn (tptp.s__WhenFn V__HEAT)) |tptp.'(s__MeasureFn(V__OBJ,V__UNIT) = V__QUANT2)'|) (tptp.greater V__QUANT2 V__QUANT1)))))))
% 3.14/3.32 (assume a4996 (tptp.s__subclass tptp.s__Decreasing tptp.s__QuantityChange))
% 3.14/3.32 (assume a4997 (tptp.s__instance tptp.s__QuantityChange__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a4998 (tptp.s__relatedInternalConcept tptp.s__Decreasing tptp.s__Removing))
% 3.14/3.32 (assume a4999 (tptp.s__documentation tptp.s__Decreasing tptp.s__EnglishLanguage |tptp.'Any &%QuantityChange where the &%PhysicalQuantity is decreased.'|))
% 3.14/3.32 (assume a5000 (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 $$unsorted)) (and (tptp.s__instance V__QUANT2 tptp.s__Quantity) (tptp.s__instance V__QUANT1 tptp.s__Quantity) (tptp.s__instance V__UNIT tptp.s__UnitOfMeasure) (tptp.s__holdsDuring (tptp.s__BeginFn (tptp.s__WhenFn V__DECREASE)) |tptp.'(s__MeasureFn(V__OBJ,V__UNIT) = V__QUANT1)'|) (tptp.s__holdsDuring (tptp.s__EndFn (tptp.s__WhenFn V__DECREASE)) |tptp.'(s__MeasureFn(V__OBJ,V__UNIT) = V__QUANT2)'|) (tptp.less V__QUANT2 V__QUANT1)))))))
% 3.14/3.32 (assume a5001 (tptp.s__subclass tptp.s__Cooling tptp.s__Decreasing))
% 3.14/3.32 (assume a5002 (tptp.s__instance tptp.s__Cooling__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5003 (tptp.s__instance tptp.s__Decreasing__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5004 (tptp.s__documentation tptp.s__Cooling tptp.s__EnglishLanguage |tptp.'Any &%Decreasing &%Process where the &%PhysicalQuantity decreased is a &%TemperatureMeasure.'|))
% 3.14/3.32 (assume a5005 (forall ((V__COOL $$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)) (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 (tptp.s__WhenFn V__COOL)) |tptp.'(s__MeasureFn(V__OBJ,V__UNIT) = V__QUANT1)'|) (tptp.s__holdsDuring (tptp.s__EndFn (tptp.s__WhenFn V__COOL)) |tptp.'(s__MeasureFn(V__OBJ,V__UNIT) = V__QUANT2)'|) (tptp.less V__QUANT2 V__QUANT1)))))))
% 3.14/3.32 (assume a5006 (tptp.s__instance tptp.s__moves__m tptp.s__CaseRole))
% 3.14/3.32 (assume a5007 (tptp.s__domain tptp.s__moves__m |"1"| tptp.s__Motion))
% 3.14/3.32 (assume a5008 (tptp.s__domain tptp.s__moves__m |"2"| tptp.s__Object))
% 3.14/3.32 (assume a5009 (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.'|))
% 3.14/3.32 (assume a5010 (tptp.s__subrelation tptp.s__moves__m tptp.s__involvedInEvent__m))
% 3.14/3.32 (assume a5011 (tptp.s__instance tptp.s__changesLocation__m tptp.s__CaseRole))
% 3.14/3.32 (assume a5012 (tptp.s__domain tptp.s__changesLocation__m |"1"| tptp.s__Translocation))
% 3.14/3.32 (assume a5013 (tptp.s__domain tptp.s__changesLocation__m |"2"| tptp.s__Object))
% 3.14/3.32 (assume a5014 (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.'|))
% 3.14/3.32 (assume a5015 (tptp.s__subrelation tptp.s__changesLocation__m tptp.s__moves__m))
% 3.14/3.32 (assume a5016 (tptp.s__subclass tptp.s__Motion tptp.s__Process))
% 3.14/3.32 (assume a5017 (tptp.s__instance tptp.s__Motion__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5018 (tptp.s__instance tptp.s__Process__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5019 (tptp.s__documentation tptp.s__Motion tptp.s__EnglishLanguage |tptp.'Any &%Process of movement.'|))
% 3.14/3.32 (assume a5020 (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))))))
% 3.14/3.32 (assume a5021 (tptp.s__subclass tptp.s__MotionUpward tptp.s__Motion))
% 3.14/3.32 (assume a5022 (tptp.s__instance tptp.s__MotionUpward__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5023 (tptp.s__disjoint tptp.s__MotionUpward tptp.s__MotionDownward))
% 3.14/3.32 (assume a5024 (tptp.s__documentation tptp.s__MotionUpward tptp.s__EnglishLanguage |tptp.'&%Motion where an &%Object is moving away from the ground.'|))
% 3.14/3.32 (assume a5025 (tptp.s__subclass tptp.s__MotionDownward tptp.s__Motion))
% 3.14/3.32 (assume a5026 (tptp.s__instance tptp.s__MotionDownward__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5027 (tptp.s__documentation tptp.s__MotionDownward tptp.s__EnglishLanguage |tptp.'&%Motion where an &%Object is moving toward the ground.'|))
% 3.14/3.32 (assume a5028 (tptp.s__instance tptp.s__path__m tptp.s__CaseRole))
% 3.14/3.32 (assume a5029 (tptp.s__subrelation tptp.s__path__m tptp.s__eventPartlyLocated__m))
% 3.14/3.32 (assume a5030 (tptp.s__domain tptp.s__path__m |"1"| tptp.s__Motion))
% 3.14/3.32 (assume a5031 (tptp.s__domain tptp.s__path__m |"2"| tptp.s__Object))
% 3.14/3.32 (assume a5032 (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.'|))
% 3.14/3.32 (assume a5033 (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 $$unsorted)) (=> (and (tptp.s__instance V__OBJ tptp.s__Object) (tptp.s__instance V__DEST tptp.s__Object) (tptp.s__instance V__SOURCE tptp.s__Object) (tptp.s__instance V__DISTANCE tptp.s__LengthMeasure) (tptp.s__instance V__PROCESS tptp.s__Motion) (tptp.s__instance V__MEASURE1 tptp.s__LengthMeasure) (tptp.s__instance V__PATH1 tptp.s__Object)) (=> (tptp.s__part V__OBJ V__PATH1) (tptp.s__between V__SOURCE V__OBJ V__DEST)))))))
% 3.14/3.32 (assume a5034 (tptp.s__subclass tptp.s__BodyMotion tptp.s__Motion))
% 3.14/3.32 (assume a5035 (tptp.s__documentation tptp.s__BodyMotion tptp.s__EnglishLanguage |tptp.'Any &%Motion where the &%agent is an &%Organism and the &%patient is a &%BodyPart.'|))
% 3.14/3.32 (assume a5036 (forall ((V__OBJ $$unsorted) (V__MOTION $$unsorted)) (=> (and (tptp.s__instance V__MOTION tptp.s__Motion) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (and (tptp.s__instance V__MOTION tptp.s__BodyMotion) (tptp.s__moves V__MOTION V__OBJ)) (and (tptp.s__instance V__OBJ tptp.s__BodyPart) (tptp.s__patient V__MOTION V__OBJ))))))
% 3.14/3.32 (assume a5037 (forall ((V__MOTION $$unsorted)) (=> (tptp.s__instance V__MOTION tptp.s__Process) (=> (tptp.s__instance V__MOTION tptp.s__BodyMotion) (exists ((V__AGENT $$unsorted)) (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__AGENT tptp.s__Organism) (tptp.s__agent V__MOTION V__AGENT)))))))
% 3.14/3.32 (assume a5038 (tptp.s__subclass tptp.s__VocalCords tptp.s__Organ))
% 3.14/3.32 (assume a5039 (tptp.s__instance tptp.s__VocalCords__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5040 (tptp.s__documentation tptp.s__VocalCords tptp.s__EnglishLanguage |tptp.'The vocal cords, are composed of two folds of mucous membrane stretched horizontally across the larynx. They vibrate, modulating the flow of air being expelled from the lungs during &%Vocalizing. '|))
% 3.14/3.32 (assume a5041 (tptp.s__typicalPart tptp.s__VocalCords tptp.s__Human))
% 3.14/3.32 (assume a5042 (tptp.s__typicallyContainsPart tptp.s__VocalCords tptp.s__Human))
% 3.14/3.32 (assume a5043 (tptp.s__initialPart tptp.s__VocalCords tptp.s__Human))
% 3.14/3.32 (assume a5044 (tptp.s__subclass tptp.s__Vocalizing tptp.s__RadiatingSound))
% 3.14/3.32 (assume a5045 (tptp.s__instance tptp.s__Vocalizing__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5046 (tptp.s__documentation tptp.s__Vocalizing tptp.s__EnglishLanguage |tptp.'Any instance of &%RadiatingSound where the instrument is the vocal cord. This covers grunts, screams, raors, as well as &%Speaking.'|))
% 3.14/3.32 (assume a5047 (forall ((V__VOCAL $$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)))))))
% 3.14/3.32 (assume a5048 (tptp.s__subclass tptp.s__Speaking tptp.s__LinguisticCommunication))
% 3.14/3.32 (assume a5049 (tptp.s__instance tptp.s__Speaking__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5050 (tptp.s__subclass tptp.s__Speaking tptp.s__Vocalizing))
% 3.14/3.32 (assume a5051 (tptp.s__documentation tptp.s__Speaking tptp.s__EnglishLanguage |tptp.'Any &%LinguisticCommunication by a &%Human which involves his/her vocal cords.'|))
% 3.14/3.32 (assume a5052 (tptp.s__subclass tptp.s__Ambulating tptp.s__BodyMotion))
% 3.14/3.32 (assume a5053 (tptp.s__instance tptp.s__BodyMotion__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5054 (tptp.s__subclass tptp.s__Ambulating tptp.s__Translocation))
% 3.14/3.32 (assume a5055 (tptp.s__partition_3 tptp.s__Ambulating tptp.s__Walking tptp.s__Running))
% 3.14/3.32 (assume a5056 (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.'|))
% 3.14/3.32 (assume a5057 (tptp.s__subclass tptp.s__Walking tptp.s__Ambulating))
% 3.14/3.32 (assume a5058 (tptp.s__instance tptp.s__Walking__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5059 (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.'|))
% 3.14/3.32 (assume a5060 (tptp.s__subclass tptp.s__Running tptp.s__Ambulating))
% 3.14/3.32 (assume a5061 (tptp.s__instance tptp.s__Running__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5062 (tptp.s__instance tptp.s__Ambulating__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5063 (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.'|))
% 3.14/3.32 (assume a5064 (tptp.s__subclass tptp.s__Swimming tptp.s__BodyMotion))
% 3.14/3.32 (assume a5065 (tptp.s__instance tptp.s__Swimming__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5066 (tptp.s__documentation tptp.s__Swimming tptp.s__EnglishLanguage |tptp.'Any deliberate and controlled &%BodyMotion through water that is accomplished by an &%Organism.'|))
% 3.14/3.32 (assume a5067 (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)))))))
% 3.14/3.32 (assume a5068 (tptp.s__subclass tptp.s__Dancing tptp.s__BodyMotion))
% 3.14/3.32 (assume a5069 (tptp.s__instance tptp.s__Dancing__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5070 (tptp.s__documentation tptp.s__Dancing tptp.s__EnglishLanguage |tptp.'Any &%BodyMotion of &%Humans which is deliberately coordinated with music.'|))
% 3.14/3.32 (assume a5071 (tptp.s__subclass tptp.s__GeologicalProcess tptp.s__Motion))
% 3.14/3.32 (assume a5072 (tptp.s__instance tptp.s__GeologicalProcess__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5073 (tptp.s__subclass tptp.s__GeologicalProcess tptp.s__InternalChange))
% 3.14/3.32 (assume a5074 (tptp.s__disjoint tptp.s__GeologicalProcess tptp.s__IntentionalProcess))
% 3.14/3.32 (assume a5075 (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.'|))
% 3.14/3.32 (assume a5076 (tptp.s__subclass tptp.s__WeatherProcess tptp.s__Motion))
% 3.14/3.32 (assume a5077 (tptp.s__disjoint tptp.s__WeatherProcess tptp.s__IntentionalProcess))
% 3.14/3.32 (assume a5078 (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.'|))
% 3.14/3.32 (assume a5079 (tptp.s__subclass tptp.s__Precipitation tptp.s__WeatherProcess))
% 3.14/3.32 (assume a5080 (tptp.s__instance tptp.s__Precipitation__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5081 (tptp.s__instance tptp.s__WeatherProcess__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5082 (tptp.s__subclass tptp.s__Precipitation tptp.s__WaterMotion))
% 3.14/3.32 (assume a5083 (tptp.s__subclass tptp.s__Precipitation tptp.s__Falling))
% 3.14/3.32 (assume a5084 (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.'|))
% 3.14/3.32 (assume a5085 (forall ((V__PROCESS $$unsorted)) (=> (tptp.s__instance V__PROCESS tptp.s__Process) (=> (tptp.s__instance V__PROCESS tptp.s__Precipitation) (exists ((V__STUFF $$unsorted)) (and (tptp.s__instance V__STUFF tptp.s__Water) (tptp.s__patient V__PROCESS V__STUFF)))))))
% 3.14/3.32 (assume a5086 (tptp.s__subclass tptp.s__LiquidMotion tptp.s__Motion))
% 3.14/3.32 (assume a5087 (tptp.s__documentation tptp.s__LiquidMotion tptp.s__EnglishLanguage |tptp.'Any &%Motion where the &%patient is a &%Liquid. This class would cover, in particular, the flow of &%Water.'|))
% 3.14/3.32 (assume a5088 (forall ((V__OBJ $$unsorted) (V__MOTION $$unsorted)) (=> (and (tptp.s__instance V__MOTION tptp.s__Process) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (and (tptp.s__instance V__MOTION tptp.s__LiquidMotion) (tptp.s__patient V__MOTION V__OBJ)) (tptp.s__attribute V__OBJ tptp.s__Liquid)))))
% 3.14/3.32 (assume a5089 (tptp.s__subclass tptp.s__WaterMotion tptp.s__LiquidMotion))
% 3.14/3.32 (assume a5090 (tptp.s__instance tptp.s__WaterMotion__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5091 (tptp.s__instance tptp.s__LiquidMotion__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5092 (tptp.s__documentation tptp.s__WaterMotion tptp.s__EnglishLanguage |tptp.'Any &%LiquidMotion where the &%Liquid is &%Water.'|))
% 3.14/3.32 (assume a5093 (forall ((V__MOTION $$unsorted)) (=> (tptp.s__instance V__MOTION tptp.s__Process) (=> (tptp.s__instance V__MOTION tptp.s__WaterMotion) (exists ((V__WATER $$unsorted)) (and (tptp.s__patient V__MOTION V__WATER) (tptp.s__instance V__WATER tptp.s__Water)))))))
% 3.14/3.32 (assume a5094 (tptp.s__subclass tptp.s__GasMotion tptp.s__Motion))
% 3.14/3.32 (assume a5095 (tptp.s__instance tptp.s__GasMotion__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5096 (tptp.s__documentation tptp.s__GasMotion tptp.s__EnglishLanguage |tptp.'Any &%Motion where the &%patient is a &%Gas. This class would cover, in particular, the motion of &%Air, e.g. a breeze or wind.'|))
% 3.14/3.32 (assume a5097 (forall ((V__OBJ $$unsorted) (V__MOTION $$unsorted)) (=> (and (tptp.s__instance V__MOTION tptp.s__Process) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (and (tptp.s__instance V__MOTION tptp.s__GasMotion) (tptp.s__patient V__MOTION V__OBJ)) (tptp.s__attribute V__OBJ tptp.s__Gas)))))
% 3.14/3.32 (assume a5098 (tptp.s__subclass tptp.s__Wind tptp.s__GasMotion))
% 3.14/3.32 (assume a5099 (tptp.s__instance tptp.s__Wind__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5100 (tptp.s__documentation tptp.s__Wind tptp.s__EnglishLanguage |tptp.'Any &%Motion of &%Air.'|))
% 3.14/3.32 (assume a5101 (tptp.s__subclass tptp.s__DirectionChange tptp.s__Motion))
% 3.14/3.32 (assume a5102 (tptp.s__instance tptp.s__DirectionChange__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5103 (tptp.s__documentation tptp.s__DirectionChange tptp.s__EnglishLanguage |tptp.'The act of changing the direction in which the &%patient of the act is oriented.'|))
% 3.14/3.32 (assume a5104 (tptp.s__subclass tptp.s__Transfer tptp.s__Translocation))
% 3.14/3.32 (assume a5105 (tptp.s__instance tptp.s__Translocation__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5106 (tptp.s__documentation tptp.s__Transfer tptp.s__EnglishLanguage |tptp.'Any &%instance of &%Translocation where the &%agent and the &%patient are not the same thing.'|))
% 3.14/3.32 (assume a5107 (forall ((V__PATIENT $$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))))))
% 3.14/3.32 (assume a5108 (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 $$unsorted)) (and (tptp.s__instance V__T tptp.s__Process) (tptp.s__instance V__T tptp.s__Translocation) (tptp.s__origin V__T V__O1) (tptp.s__destination V__T V__D2) (tptp.s__subProcess V__T1 V__T) (tptp.s__subProcess V__T2 V__T) (tptp.s__experiencer V__T V__P) (tptp.s__starts (tptp.s__WhenFn V__T1) (tptp.s__WhenFn V__T)) (tptp.s__finishes (tptp.s__WhenFn V__T2) (tptp.s__WhenFn V__T))))))))
% 3.14/3.32 (assume a5109 (tptp.s__subclass tptp.s__Carrying tptp.s__Transfer))
% 3.14/3.32 (assume a5110 (tptp.s__instance tptp.s__Carrying__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5111 (tptp.s__instance tptp.s__Transfer__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5112 (tptp.s__documentation tptp.s__Carrying tptp.s__EnglishLanguage |tptp.'&%Transfer from one point to another by means of an &%Animal or &%Human.'|))
% 3.14/3.32 (assume a5113 (forall ((V__CARRY $$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)))))))
% 3.14/3.32 (assume a5114 (tptp.s__subclass tptp.s__Removing tptp.s__Transfer))
% 3.14/3.32 (assume a5115 (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.'|))
% 3.14/3.32 (assume a5116 (tptp.s__subclass tptp.s__Uncovering tptp.s__Removing))
% 3.14/3.32 (assume a5117 (tptp.s__instance tptp.s__Uncovering__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5118 (tptp.s__disjoint tptp.s__Uncovering tptp.s__Covering))
% 3.14/3.32 (assume a5119 (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.'|))
% 3.14/3.32 (assume a5120 (tptp.s__subclass tptp.s__Putting tptp.s__Transfer))
% 3.14/3.32 (assume a5121 (tptp.s__instance tptp.s__Putting__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5122 (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.'|))
% 3.14/3.32 (assume a5123 (tptp.s__subclass tptp.s__Covering tptp.s__Putting))
% 3.14/3.32 (assume a5124 (tptp.s__instance tptp.s__Covering__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5125 (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.'|))
% 3.14/3.32 (assume a5126 (tptp.s__subclass tptp.s__Inserting tptp.s__Putting))
% 3.14/3.32 (assume a5127 (tptp.s__instance tptp.s__Inserting__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5128 (tptp.s__documentation tptp.s__Inserting tptp.s__EnglishLanguage |tptp.'&%Putting one thing inside of another thing.'|))
% 3.14/3.32 (assume a5129 (tptp.s__subclass tptp.s__Injecting tptp.s__Inserting))
% 3.14/3.32 (assume a5130 (tptp.s__instance tptp.s__Injecting__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5131 (tptp.s__documentation tptp.s__Injecting tptp.s__EnglishLanguage |tptp.'&%Inserting a &%BiologicallyActiveSubstance into an &%Animal or a &%Human with a syringe.'|))
% 3.14/3.32 (assume a5132 (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)))))))
% 3.14/3.32 (assume a5133 (tptp.s__subclass tptp.s__Substituting tptp.s__Transfer))
% 3.14/3.32 (assume a5134 (tptp.s__subclass tptp.s__Substituting tptp.s__DualObjectProcess))
% 3.14/3.32 (assume a5135 (tptp.s__instance tptp.s__Substituting__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5136 (tptp.s__instance tptp.s__DualObjectProcess__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5137 (tptp.s__documentation tptp.s__Substituting tptp.s__EnglishLanguage |tptp.'The &%Class of &%Transfers where one thing is replaced with something else.'|))
% 3.14/3.32 (assume a5138 (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))))))))
% 3.14/3.32 (assume a5139 (tptp.s__subclass tptp.s__Impelling tptp.s__Transfer))
% 3.14/3.32 (assume a5140 (tptp.s__instance tptp.s__Impelling__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5141 (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.'|))
% 3.14/3.32 (assume a5142 (tptp.s__subclass tptp.s__Shooting tptp.s__Impelling))
% 3.14/3.32 (assume a5143 (tptp.s__instance tptp.s__Shooting__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5144 (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.'|))
% 3.14/3.32 (assume a5145 (tptp.s__subclass tptp.s__Touching tptp.s__Transfer))
% 3.14/3.32 (assume a5146 (tptp.s__instance tptp.s__Touching__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5147 (tptp.s__documentation tptp.s__Touching tptp.s__EnglishLanguage |tptp.'Any &%Transfer where two &%Objects are brought into immediate physical contact with one another.'|))
% 3.14/3.32 (assume a5148 (tptp.s__subrelation tptp.s__grasps__m tptp.s__meetsSpatially__m))
% 3.14/3.32 (assume a5149 (tptp.s__domain tptp.s__grasps__m |"1"| tptp.s__Animal))
% 3.14/3.32 (assume a5150 (tptp.s__domain tptp.s__grasps__m |"2"| tptp.s__Object))
% 3.14/3.32 (assume a5151 (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.'|))
% 3.14/3.32 (assume a5152 (tptp.s__subclass tptp.s__Grabbing tptp.s__Touching))
% 3.14/3.32 (assume a5153 (tptp.s__subclass tptp.s__Grabbing tptp.s__Attaching))
% 3.14/3.32 (assume a5154 (tptp.s__instance tptp.s__Grabbing__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5155 (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.'|))
% 3.14/3.32 (assume a5156 (tptp.s__subclass tptp.s__Releasing tptp.s__Transfer))
% 3.14/3.32 (assume a5157 (tptp.s__instance tptp.s__Releasing__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5158 (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.'|))
% 3.14/3.32 (assume a5159 (tptp.s__subclass tptp.s__Impacting tptp.s__Touching))
% 3.14/3.32 (assume a5160 (tptp.s__instance tptp.s__Impacting__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5161 (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.'|))
% 3.14/3.32 (assume a5162 (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 $$unsorted)) (and (tptp.s__instance V__IMPEL tptp.s__Process) (tptp.s__instance V__IMPEL tptp.s__Impelling) (tptp.s__patient V__IMPEL V__OBJ) (tptp.s__earlier (tptp.s__WhenFn V__IMPEL) (tptp.s__WhenFn V__IMPACT))))))))
% 3.14/3.32 (assume a5163 (tptp.s__subclass tptp.s__Translocation tptp.s__Motion))
% 3.14/3.32 (assume a5164 (tptp.s__documentation tptp.s__Translocation tptp.s__EnglishLanguage |tptp.'&%Translocation is that class of &%Motions in which an object moves from one place to another. In the case of round trips, the &%origin and &%destination are the same, but the intervening motion passes through other locations. &%Translocation represents linear motion, in contrast to rotation or other movement in place. A vehicle is not necessary, &%Ambulating is a kind of &%Translocation.'|))
% 3.14/3.32 (assume a5165 (forall ((V__MOVEMENT $$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 $$unsorted)) (and (tptp.s__instance V__STAGE tptp.s__Process) (tptp.s__instance V__PLACE2 tptp.s__Object) (tptp.s__instance V__PLACE2 tptp.s__Region) (not (= V__PLACE1 V__PLACE2)) (tptp.s__subProcess V__STAGE V__MOVEMENT) (tptp.s__located V__STAGE V__PLACE2)))))))
% 3.14/3.32 (assume a5166 (forall ((V__T $$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 $$unsorted)) (and (tptp.s__instance V__O tptp.s__Object) (tptp.s__instance V__D tptp.s__Object) (tptp.s__instance V__P tptp.s__Object) (tptp.s__path V__T V__P) (tptp.s__origin V__T V__O) (tptp.s__destination V__T V__D)))))))
% 3.14/3.32 (assume a5167 (tptp.s__subclass tptp.s__Falling tptp.s__Translocation))
% 3.14/3.32 (assume a5168 (tptp.s__subclass tptp.s__Falling tptp.s__MotionDownward))
% 3.14/3.32 (assume a5169 (tptp.s__instance tptp.s__Falling__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5170 (tptp.s__documentation tptp.s__Falling tptp.s__EnglishLanguage |tptp.'&%Falling is the class of events in which something moves from a higher location to a lower location under the force of gravity.'|))
% 3.14/3.32 (assume a5171 (forall ((V__START $$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)))))
% 3.14/3.32 (assume a5172 (tptp.s__subclass tptp.s__Transportation tptp.s__Translocation))
% 3.14/3.32 (assume a5173 (tptp.s__instance tptp.s__Transportation__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5174 (tptp.s__relatedInternalConcept tptp.s__Transportation tptp.s__TransportationDevice))
% 3.14/3.32 (assume a5175 (tptp.s__documentation tptp.s__Transportation tptp.s__EnglishLanguage |tptp.'&%Motion from one point to another by means of a &%TransportationDevice.'|))
% 3.14/3.32 (assume a5176 (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)))))))
% 3.14/3.32 (assume a5177 (tptp.s__subclass tptp.s__Guiding tptp.s__IntentionalProcess))
% 3.14/3.32 (assume a5178 (tptp.s__instance tptp.s__Guiding__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5179 (tptp.s__instance tptp.s__IntentionalProcess__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5180 (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.'|))
% 3.14/3.32 (assume a5181 (tptp.s__subclass tptp.s__Driving tptp.s__Guiding))
% 3.14/3.32 (assume a5182 (tptp.s__instance tptp.s__Driving__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5183 (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.'|))
% 3.14/3.32 (assume a5184 (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)))))))
% 3.14/3.32 (assume a5185 (tptp.s__subclass tptp.s__EducationalProcess tptp.s__Guiding))
% 3.14/3.32 (assume a5186 (tptp.s__instance tptp.s__EducationalProcess__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5187 (tptp.s__documentation tptp.s__EducationalProcess tptp.s__EnglishLanguage |tptp.'Any &%Process which is intended to result in &%Learning.'|))
% 3.14/3.32 (assume a5188 (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)))'|)))))
% 3.14/3.32 (assume a5189 (tptp.s__subclass tptp.s__ChangeOfPossession tptp.s__SocialInteraction))
% 3.14/3.32 (assume a5190 (tptp.s__relatedInternalConcept tptp.s__ChangeOfPossession tptp.s__possesses__m))
% 3.14/3.32 (assume a5191 (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.'|))
% 3.14/3.32 (assume a5192 (tptp.s__subclass tptp.s__Giving tptp.s__ChangeOfPossession))
% 3.14/3.32 (assume a5193 (tptp.s__documentation tptp.s__Giving tptp.s__EnglishLanguage |tptp.'The &%subclass of &%ChangeOfPossession where the &%agent gives the &%destination something.'|))
% 3.14/3.32 (assume a5194 (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 $$unsorted)) (and (tptp.s__instance V__GET tptp.s__Process) (tptp.s__instance V__GET tptp.s__Getting) (tptp.s__agent V__GET V__AGENT2) (tptp.s__origin V__GET V__AGENT1) (tptp.s__patient V__GET V__OBJ)))))))
% 3.14/3.32 (assume a5195 (forall ((V__GIVE $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__GIVE tptp.s__Process)) (=> (and (tptp.s__instance V__GIVE tptp.s__Giving) (tptp.s__agent V__GIVE V__AGENT)) (tptp.s__origin V__GIVE V__AGENT)))))
% 3.14/3.32 (assume a5196 (tptp.s__subclass tptp.s__Funding tptp.s__Giving))
% 3.14/3.32 (assume a5197 (tptp.s__instance tptp.s__Funding__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5198 (tptp.s__documentation tptp.s__Funding tptp.s__EnglishLanguage |tptp.'Any instance of &%Giving where the &%patient is an instance of &%Currency. Note that this class covers both financing, e.g. where a firm funds a software company with venture capital with the agreement that a certain percentage of the profits on the investment will be returned to the firm, and instances of &%UnilateralGiving, e.g. providing a tuition waiver and/or a stipend to a student as part of scholarship or fellowship.'|))
% 3.14/3.32 (assume a5199 (forall ((V__FUND $$unsorted)) (=> (tptp.s__instance V__FUND tptp.s__Process) (=> (tptp.s__instance V__FUND tptp.s__Funding) (exists ((V__MONEY $$unsorted)) (and (tptp.s__instance V__MONEY tptp.s__Currency) (tptp.s__patient V__FUND V__MONEY)))))))
% 3.14/3.32 (assume a5200 (tptp.s__subclass tptp.s__UnilateralGiving tptp.s__Giving))
% 3.14/3.32 (assume a5201 (tptp.s__instance tptp.s__UnilateralGiving__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5202 (tptp.s__documentation tptp.s__UnilateralGiving tptp.s__EnglishLanguage |tptp.'Any instance of &%Giving that is not part of a &%Transaction. In other words, any instance of &%Giving where nothing is received in return. Some examples of &%UnilateralGiving are: honorary awards, gifts, and financial grants.'|))
% 3.14/3.32 (assume a5203 (forall ((V__GIVE $$unsorted)) (=> (tptp.s__instance V__GIVE tptp.s__Process) (=> (tptp.s__instance V__GIVE tptp.s__UnilateralGiving) (not (exists ((V__TRANS $$unsorted)) (and (tptp.s__instance V__TRANS tptp.s__Process) (tptp.s__instance V__TRANS tptp.s__Transaction) (tptp.s__subProcess V__GIVE V__TRANS))))))))
% 3.14/3.32 (assume a5204 (tptp.s__subclass tptp.s__Lending tptp.s__Giving))
% 3.14/3.32 (assume a5205 (tptp.s__instance tptp.s__Lending__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5206 (tptp.s__instance tptp.s__Giving__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5207 (tptp.s__documentation tptp.s__Lending tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Giving &%Processes where the &%agent gives the &%destination something for a limited period of time with the expectation that it will be returned later (perhaps with interest).'|))
% 3.14/3.32 (assume a5208 (forall ((V__OBJECT $$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)))))))
% 3.14/3.32 (assume a5209 (tptp.s__subclass tptp.s__GivingBack tptp.s__Giving))
% 3.14/3.32 (assume a5210 (tptp.s__instance tptp.s__GivingBack__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5211 (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.'|))
% 3.14/3.32 (assume a5212 (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))))))))
% 3.14/3.32 (assume a5213 (tptp.s__subclass tptp.s__Getting tptp.s__ChangeOfPossession))
% 3.14/3.32 (assume a5214 (tptp.s__instance tptp.s__Getting__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5215 (tptp.s__instance tptp.s__ChangeOfPossession__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5216 (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.'|))
% 3.14/3.32 (assume a5217 (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)))))
% 3.14/3.32 (assume a5218 (tptp.s__subclass tptp.s__UnilateralGetting tptp.s__Getting))
% 3.14/3.32 (assume a5219 (tptp.s__instance tptp.s__UnilateralGetting__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5220 (tptp.s__relatedInternalConcept tptp.s__UnilateralGetting tptp.s__UnilateralGiving))
% 3.14/3.32 (assume a5221 (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.'|))
% 3.14/3.32 (assume a5222 (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))))))))
% 3.14/3.32 (assume a5223 (tptp.s__subclass tptp.s__Borrowing tptp.s__Getting))
% 3.14/3.32 (assume a5224 (tptp.s__instance tptp.s__Borrowing__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5225 (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).'|))
% 3.14/3.32 (assume a5226 (tptp.s__subclass tptp.s__Transaction tptp.s__ChangeOfPossession))
% 3.14/3.32 (assume a5227 (tptp.s__subclass tptp.s__Transaction tptp.s__DualObjectProcess))
% 3.14/3.32 (assume a5228 (tptp.s__instance tptp.s__Transaction__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5229 (tptp.s__documentation tptp.s__Transaction tptp.s__EnglishLanguage |tptp.'The &%subclass of &%ChangeOfPossession where something is exchanged for something else.'|))
% 3.14/3.32 (assume a5230 (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 $$unsorted)) (and (tptp.s__instance V__GIVE2 tptp.s__Process) (tptp.s__instance V__GIVE1 tptp.s__Process) (tptp.s__instance V__AGENT2 tptp.s__Agent) (tptp.s__instance V__AGENT1 tptp.s__Agent) (tptp.s__instance V__GIVE1 tptp.s__Giving) (tptp.s__instance V__GIVE2 tptp.s__Giving) (tptp.s__subProcess V__GIVE1 V__TRANS) (tptp.s__subProcess V__GIVE2 V__TRANS) (tptp.s__agent V__GIVE1 V__AGENT1) (tptp.s__agent V__GIVE2 V__AGENT2) (tptp.s__patient V__GIVE1 V__OBJ1) (tptp.s__patient V__GIVE2 V__OBJ2) (tptp.s__destination V__GIVE1 V__AGENT2) (tptp.s__destination V__GIVE2 V__AGENT1) (not (= V__AGENT1 V__AGENT2)) (not (= V__OBJ1 V__OBJ2))))))))
% 3.14/3.32 (assume a5231 (tptp.s__subclass tptp.s__FinancialTransaction tptp.s__Transaction))
% 3.14/3.32 (assume a5232 (tptp.s__documentation tptp.s__FinancialTransaction tptp.s__EnglishLanguage |tptp.'A &%Transaction where an instance of &%FinancialInstrument is the subject of the action, and often is exchanged for something else.'|))
% 3.14/3.32 (assume a5233 (forall ((V__TRANS $$unsorted)) (=> (tptp.s__instance V__TRANS tptp.s__Process) (=> (tptp.s__instance V__TRANS tptp.s__FinancialTransaction) (exists ((V__OBJ $$unsorted)) (and (tptp.s__patient V__TRANS V__OBJ) (tptp.s__instance V__OBJ tptp.s__FinancialInstrument)))))))
% 3.14/3.32 (assume a5234 (tptp.s__instance tptp.s__transactionAmount__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a5235 (tptp.s__instance tptp.s__transactionAmount__m tptp.s__SingleValuedRelation))
% 3.14/3.32 (assume a5236 (tptp.s__instance tptp.s__transactionAmount__m tptp.s__TotalValuedRelation))
% 3.14/3.32 (assume a5237 (tptp.s__domain tptp.s__transactionAmount__m |"1"| tptp.s__FinancialTransaction))
% 3.14/3.32 (assume a5238 (tptp.s__domain tptp.s__transactionAmount__m |"2"| tptp.s__CurrencyMeasure))
% 3.14/3.32 (assume a5239 (tptp.s__documentation tptp.s__transactionAmount__m tptp.s__EnglishLanguage |tptp.'(&%transactionAmount ?TRANSACTION ?AMOUNT) means that ?AMOUNT is an instance of &%CurrencyMeasure being exhanged in the &%FinancialTransaction ?TRANSACTION.'|))
% 3.14/3.32 (assume a5240 (forall ((V__AMOUNT $$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)))))))
% 3.14/3.32 (assume a5241 (tptp.s__subclass tptp.s__ServiceProcess tptp.s__SocialInteraction))
% 3.14/3.32 (assume a5242 (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.'|))
% 3.14/3.32 (assume a5243 (tptp.s__subclass tptp.s__CommercialService tptp.s__FinancialTransaction))
% 3.14/3.32 (assume a5244 (tptp.s__instance tptp.s__CommercialService__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5245 (tptp.s__instance tptp.s__FinancialTransaction__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5246 (tptp.s__documentation tptp.s__CommercialService tptp.s__EnglishLanguage |tptp.'Any &%FinancialTransaction by a &%CommercialAgent where the aim is to produce a profit.'|))
% 3.14/3.32 (assume a5247 (tptp.s__subclass tptp.s__CommercialService tptp.s__ServiceProcess))
% 3.14/3.32 (assume a5248 (tptp.s__instance tptp.s__ServiceProcess__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5249 (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)))))))
% 3.14/3.32 (assume a5250 (tptp.s__subclass tptp.s__Betting tptp.s__FinancialTransaction))
% 3.14/3.32 (assume a5251 (tptp.s__instance tptp.s__Betting__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5252 (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.'|))
% 3.14/3.32 (assume a5253 (tptp.s__subclass tptp.s__Buying tptp.s__FinancialTransaction))
% 3.14/3.32 (assume a5254 (tptp.s__instance tptp.s__Buying__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5255 (tptp.s__relatedInternalConcept tptp.s__Buying tptp.s__Selling))
% 3.14/3.32 (assume a5256 (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.'|))
% 3.14/3.32 (assume a5257 (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)))))
% 3.14/3.32 (assume a5258 (tptp.s__subclass tptp.s__Selling tptp.s__FinancialTransaction))
% 3.14/3.32 (assume a5259 (tptp.s__instance tptp.s__Selling__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5260 (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.'|))
% 3.14/3.32 (assume a5261 (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 $$unsorted)) (and (tptp.s__instance V__SELL tptp.s__Process) (tptp.s__instance V__SELL tptp.s__Selling) (tptp.s__agent V__SELL V__AGENT2) (tptp.s__destination V__SELL V__AGENT1) (tptp.s__patient V__SELL V__OBJECT)))))))
% 3.14/3.32 (assume a5262 (forall ((V__AGENT $$unsorted) (V__SELL $$unsorted)) (=> (and (tptp.s__instance V__SELL tptp.s__Process) (tptp.s__instance V__AGENT tptp.s__Agent)) (=> (and (tptp.s__instance V__SELL tptp.s__Selling) (tptp.s__agent V__SELL V__AGENT)) (tptp.s__origin V__SELL V__AGENT)))))
% 3.14/3.32 (assume a5263 (tptp.s__subclass tptp.s__Learning tptp.s__IntentionalPsychologicalProcess))
% 3.14/3.32 (assume a5264 (tptp.s__instance tptp.s__Learning__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5265 (tptp.s__documentation tptp.s__Learning tptp.s__EnglishLanguage |tptp.'The &%Class of &%Processes which relate to the acquisition of information.'|))
% 3.14/3.32 (assume a5266 (forall ((V__LEARN $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__LEARN tptp.s__Process)) (=> (and (tptp.s__instance V__LEARN tptp.s__Learning) (tptp.s__agent V__LEARN V__AGENT)) (tptp.s__instance V__AGENT tptp.s__CognitiveAgent)))))
% 3.14/3.32 (assume a5267 (tptp.s__subclass tptp.s__Discovering tptp.s__IntentionalPsychologicalProcess))
% 3.14/3.32 (assume a5268 (tptp.s__instance tptp.s__Discovering__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5269 (tptp.s__documentation tptp.s__Discovering tptp.s__EnglishLanguage |tptp.'Finding something that was sought. Note that this class is restricted to cases of discovering something &%Physical. For cases involving the acquisition of knowledge, the class &%Learning should be used.'|))
% 3.14/3.32 (assume a5270 (forall ((V__OBJ $$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))))))))
% 3.14/3.32 (assume a5271 (tptp.s__subclass tptp.s__Classifying tptp.s__IntentionalPsychologicalProcess))
% 3.14/3.32 (assume a5272 (tptp.s__instance tptp.s__Classifying__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5273 (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.'|))
% 3.14/3.32 (assume a5274 (tptp.s__subclass tptp.s__Reasoning tptp.s__IntentionalPsychologicalProcess))
% 3.14/3.32 (assume a5275 (tptp.s__instance tptp.s__Reasoning__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5276 (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.'|))
% 3.14/3.32 (assume a5277 (forall ((V__AGENT $$unsorted)) (=> (tptp.s__instance V__AGENT tptp.s__Object) (=> (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__capability tptp.s__Reasoning tptp.s__agent__m V__AGENT)))))
% 3.14/3.32 (assume a5278 (tptp.s__subclass tptp.s__Selecting tptp.s__IntentionalPsychologicalProcess))
% 3.14/3.32 (assume a5279 (tptp.s__documentation tptp.s__Selecting tptp.s__EnglishLanguage |tptp.'The &%Class of &%IntentionalPsychologicalProcesses which involve opting for one or more &%Entity out of a larger set of &%Entities. Note that this covers all cases of judging or evaluating.'|))
% 3.14/3.32 (assume a5280 (tptp.s__subclass tptp.s__Deciding tptp.s__Selecting))
% 3.14/3.32 (assume a5281 (tptp.s__instance tptp.s__Selecting__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5282 (tptp.s__documentation tptp.s__Deciding tptp.s__EnglishLanguage |tptp.'The subclass of &%Selecting where the &%agent opts for one course of action out of a set of multiple possibilities that are open to him/her.'|))
% 3.14/3.32 (assume a5283 (forall ((V__PROCESS $$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))))))
% 3.14/3.32 (assume a5284 (tptp.s__subclass tptp.s__Voting tptp.s__Deciding))
% 3.14/3.32 (assume a5285 (tptp.s__instance tptp.s__Voting__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5286 (tptp.s__instance tptp.s__Deciding__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5287 (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.'|))
% 3.14/3.32 (assume a5288 (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)))))))
% 3.14/3.32 (assume a5289 (tptp.s__subclass tptp.s__Judging tptp.s__Selecting))
% 3.14/3.32 (assume a5290 (tptp.s__instance tptp.s__Judging__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5291 (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.'|))
% 3.14/3.32 (assume a5292 (tptp.s__subclass tptp.s__Comparing tptp.s__IntentionalPsychologicalProcess))
% 3.14/3.32 (assume a5293 (tptp.s__subclass tptp.s__Comparing tptp.s__DualObjectProcess))
% 3.14/3.32 (assume a5294 (tptp.s__instance tptp.s__Comparing__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5295 (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.'|))
% 3.14/3.32 (assume a5296 (tptp.s__subclass tptp.s__Calculating tptp.s__IntentionalPsychologicalProcess))
% 3.14/3.32 (assume a5297 (tptp.s__instance tptp.s__Calculating__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5298 (tptp.s__documentation tptp.s__Calculating tptp.s__EnglishLanguage |tptp.'&%IntentionalPsychologicalProcesses which involve the consideration and/or manipulation of instances of &%Quantity.'|))
% 3.14/3.32 (assume a5299 (tptp.s__subclass tptp.s__Measuring tptp.s__Calculating))
% 3.14/3.32 (assume a5300 (tptp.s__instance tptp.s__Measuring__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5301 (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.'|))
% 3.14/3.32 (assume a5302 (tptp.s__subclass tptp.s__Counting tptp.s__Calculating))
% 3.14/3.32 (assume a5303 (tptp.s__instance tptp.s__Counting__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5304 (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.'|))
% 3.14/3.32 (assume a5305 (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)'|))))))
% 3.14/3.32 (assume a5306 (tptp.s__subclass tptp.s__Predicting tptp.s__IntentionalPsychologicalProcess))
% 3.14/3.32 (assume a5307 (tptp.s__instance tptp.s__Predicting__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5308 (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.'|))
% 3.14/3.32 (assume a5309 (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 $$unsorted)) (and (tptp.s__instance V__TIME tptp.s__TimePoint) (tptp.s__instance V__TIME tptp.s__TimeInterval) (tptp.s__holdsDuring V__TIME V__FORMULA) (or (tptp.s__before V__TIME (tptp.s__WhenFn V__PREDICT)) (tptp.s__earlier V__TIME (tptp.s__WhenFn V__PREDICT)))))))))
% 3.14/3.32 (assume a5310 (tptp.s__subclass tptp.s__Remembering tptp.s__PsychologicalProcess))
% 3.14/3.32 (assume a5311 (tptp.s__instance tptp.s__Remembering__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5312 (tptp.s__documentation tptp.s__Remembering tptp.s__EnglishLanguage |tptp.'The &%Class of &%PsychologicalProcesses which involve the recollection of prior experiences and/or of knowledge which was previously acquired.'|))
% 3.14/3.32 (assume a5313 (forall ((V__REMEMBER $$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)) (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 (tptp.s__WhenFn V__REMEMBER)) (tptp.s__earlier V__TIME (tptp.s__WhenFn V__REMEMBER)))))))))
% 3.14/3.32 (assume a5314 (tptp.s__subclass tptp.s__Keeping tptp.s__IntentionalProcess))
% 3.14/3.32 (assume a5315 (tptp.s__instance tptp.s__Keeping__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5316 (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.'|))
% 3.14/3.32 (assume a5317 (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))))))))
% 3.14/3.32 (assume a5318 (tptp.s__subclass tptp.s__Confining tptp.s__Keeping))
% 3.14/3.32 (assume a5319 (tptp.s__instance tptp.s__Confining__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5320 (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.'|))
% 3.14/3.32 (assume a5321 (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)))))))
% 3.14/3.32 (assume a5322 (tptp.s__subclass tptp.s__Maintaining tptp.s__IntentionalProcess))
% 3.14/3.32 (assume a5323 (tptp.s__instance tptp.s__Maintaining__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5324 (tptp.s__documentation tptp.s__Maintaining tptp.s__EnglishLanguage |tptp.'The &%Class of &%Processes where the &%agent cares for or maintains the &%Object.'|))
% 3.14/3.32 (assume a5325 (tptp.s__subclass tptp.s__Repairing tptp.s__IntentionalProcess))
% 3.14/3.32 (assume a5326 (tptp.s__instance tptp.s__Repairing__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5327 (tptp.s__relatedInternalConcept tptp.s__Repairing tptp.s__Maintaining))
% 3.14/3.32 (assume a5328 (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.'|))
% 3.14/3.32 (assume a5329 (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 $$unsorted)) (and (tptp.s__instance V__DAMAGE tptp.s__Process) (tptp.s__instance V__DAMAGE tptp.s__Damaging) (tptp.s__patient V__DAMAGE V__OBJ) (tptp.s__earlier (tptp.s__WhenFn V__DAMAGE) (tptp.s__WhenFn V__REPAIR))))))))
% 3.14/3.32 (assume a5330 (tptp.s__subclass tptp.s__TherapeuticProcess tptp.s__Repairing))
% 3.14/3.32 (assume a5331 (tptp.s__documentation tptp.s__TherapeuticProcess tptp.s__EnglishLanguage |tptp.'A &%Process that is carried out for the purpose of curing, improving or reducing the pain associated with a &%DiseaseOrSyndrome.'|))
% 3.14/3.32 (assume a5332 (forall ((V__BIO $$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))))))))
% 3.14/3.32 (assume a5333 (tptp.s__subclass tptp.s__Surgery tptp.s__TherapeuticProcess))
% 3.14/3.32 (assume a5334 (tptp.s__instance tptp.s__Surgery__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5335 (tptp.s__instance tptp.s__TherapeuticProcess__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5336 (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.'|))
% 3.14/3.32 (assume a5337 (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 $$unsorted)) (and (tptp.s__instance V__SUBACT tptp.s__Process) (tptp.s__instance V__SUBACT tptp.s__Cutting) (tptp.s__instance V__ANIMAL tptp.s__Animal) (tptp.s__patient V__SUBACT V__ANIMAL) (tptp.s__subProcess V__SUBACT V__ACT)))))))
% 3.14/3.32 (assume a5338 (tptp.s__subclass tptp.s__Damaging tptp.s__InternalChange))
% 3.14/3.32 (assume a5339 (tptp.s__disjoint tptp.s__Damaging tptp.s__Repairing))
% 3.14/3.32 (assume a5340 (tptp.s__documentation tptp.s__Damaging tptp.s__EnglishLanguage |tptp.'The &%Class of &%Processes where the &%agent brings about a situation where the &%patient no longer functions normally or as intended.'|))
% 3.14/3.32 (assume a5341 (tptp.s__subclass tptp.s__Destruction tptp.s__Damaging))
% 3.14/3.32 (assume a5342 (tptp.s__documentation tptp.s__Destruction tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Damagings in which the &%patient (or an essential element of the &%patient) is destroyed. Note that the difference between this concept and its superclass is solely one of extent.'|))
% 3.14/3.32 (assume a5343 (forall ((V__PROCESS $$unsorted)) (=> (tptp.s__instance V__PROCESS tptp.s__Process) (= (tptp.s__instance V__PROCESS tptp.s__Destruction) (exists ((V__PATIENT $$unsorted)) (and (tptp.s__instance V__PATIENT tptp.s__Physical) (tptp.s__patient V__PROCESS V__PATIENT) (tptp.s__time V__PATIENT (tptp.s__BeginFn (tptp.s__WhenFn V__PROCESS))) (not (tptp.s__time V__PATIENT (tptp.s__EndFn (tptp.s__WhenFn V__PROCESS))))))))))
% 3.14/3.32 (assume a5344 (tptp.s__subclass tptp.s__Killing tptp.s__Destruction))
% 3.14/3.32 (assume a5345 (tptp.s__instance tptp.s__Killing__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5346 (tptp.s__instance tptp.s__Destruction__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5347 (tptp.s__documentation tptp.s__Killing tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Destruction in which the death of an &%Organism is caused by an &%Organism. Note that in cases of suicide the &%Organism would be the same in both cases.'|))
% 3.14/3.32 (assume a5348 (forall ((V__PATIENT $$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))))))
% 3.14/3.32 (assume a5349 (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 $$unsorted)) (and (tptp.s__instance V__DEATH tptp.s__Process) (tptp.s__instance V__DEATH tptp.s__Death) (tptp.s__experiencer V__DEATH V__OBJ) (tptp.s__causes V__KILL V__DEATH)))))))
% 3.14/3.32 (assume a5350 (tptp.s__subclass tptp.s__Poking tptp.s__IntentionalProcess))
% 3.14/3.32 (assume a5351 (tptp.s__instance tptp.s__Poking__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5352 (tptp.s__documentation tptp.s__Poking tptp.s__EnglishLanguage |tptp.'The &%Class of &%Processes where the &%agent pierces the surface of the &%Object with an &%instrument.'|))
% 3.14/3.32 (assume a5353 (tptp.s__subclass tptp.s__Cutting tptp.s__Poking))
% 3.14/3.32 (assume a5354 (tptp.s__instance tptp.s__Cutting__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5355 (tptp.s__documentation tptp.s__Cutting tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Poking &%Processes which involve a sharp &%instrument.'|))
% 3.14/3.32 (assume a5356 (tptp.s__subclass tptp.s__Attaching tptp.s__DualObjectProcess))
% 3.14/3.32 (assume a5357 (tptp.s__instance tptp.s__Attaching__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5358 (tptp.s__disjoint tptp.s__Attaching tptp.s__Detaching))
% 3.14/3.32 (assume a5359 (tptp.s__relatedInternalConcept tptp.s__Attaching tptp.s__Putting))
% 3.14/3.32 (assume a5360 (tptp.s__documentation tptp.s__Attaching tptp.s__EnglishLanguage |tptp.'A &%Process where one &%Object becomes attached to another &%Object. Note that this differs from &%Putting in that two things which are attached may already be in the same location. Note that &%Combining is different from &%Attaching in that the former applies to &%Substances, while the latter applies to &%CorpuscularObjects. Note too that &%Attaching is different from &%Putting in that one or both of the two things which are attached may or may not be moved from the location where they were combined.'|))
% 3.14/3.32 (assume a5361 (forall ((V__ATTACH $$unsorted)) (=> (tptp.s__instance V__ATTACH tptp.s__Process) (=> (tptp.s__instance V__ATTACH tptp.s__Attaching) (exists ((V__OBJ $$unsorted)) (and (tptp.s__instance V__OBJ tptp.s__CorpuscularObject) (tptp.s__patient V__ATTACH V__OBJ)))))))
% 3.14/3.32 (assume a5362 (tptp.s__subclass tptp.s__Detaching tptp.s__DualObjectProcess))
% 3.14/3.32 (assume a5363 (tptp.s__instance tptp.s__Detaching__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5364 (tptp.s__documentation tptp.s__Detaching tptp.s__EnglishLanguage |tptp.'A &%Process where the &%agent detaches one thing from something else. Note that &%Detaching is different from &%Separating in that the latter applies to &%Substances, while the former applies to &%CorpuscularObjects. Note too that &%Detaching is different from &%Removing in that one or both of the two things which are detached may or may not be moved from the location where they were attached.'|))
% 3.14/3.32 (assume a5365 (forall ((V__DETACH $$unsorted)) (=> (tptp.s__instance V__DETACH tptp.s__Process) (=> (tptp.s__instance V__DETACH tptp.s__Detaching) (exists ((V__OBJ $$unsorted)) (and (tptp.s__instance V__OBJ tptp.s__CorpuscularObject) (tptp.s__patient V__DETACH V__OBJ)))))))
% 3.14/3.32 (assume a5366 (tptp.s__subclass tptp.s__Ungrasping tptp.s__Detaching))
% 3.14/3.32 (assume a5367 (tptp.s__instance tptp.s__Ungrasping__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5368 (tptp.s__documentation tptp.s__Ungrasping tptp.s__EnglishLanguage |tptp.'Any instance of &%Detaching which results in a situation where it is not the case that the &%agent &%grasps something which he/she &%grasps previously.'|))
% 3.14/3.32 (assume a5369 (tptp.s__subclass tptp.s__Combining tptp.s__DualObjectProcess))
% 3.14/3.32 (assume a5370 (tptp.s__instance tptp.s__Combining__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5371 (tptp.s__documentation tptp.s__Combining tptp.s__EnglishLanguage |tptp.'A &%Process where two or more &%SelfConnectedObjects are incorporated into a single &%SelfConnectedObject. Note that &%Combining is different from &%Attaching in that the former results in one of the objects being &%part of the other, while &%Attaching only results in the two objects being &%connected with one another. Note too that &%Combining is different from &%Putting in that one or both of the two things which are combined may or may not be moved from the location where they were combined.'|))
% 3.14/3.32 (assume a5372 (forall ((V__COMBINE $$unsorted)) (=> (tptp.s__instance V__COMBINE tptp.s__Process) (=> (tptp.s__instance V__COMBINE tptp.s__Combining) (exists ((V__OBJ $$unsorted)) (and (tptp.s__instance V__OBJ tptp.s__SelfConnectedObject) (tptp.s__patient V__COMBINE V__OBJ)))))))
% 3.14/3.32 (assume a5373 (tptp.s__subclass tptp.s__Separating tptp.s__DualObjectProcess))
% 3.14/3.32 (assume a5374 (tptp.s__disjoint tptp.s__Separating tptp.s__Combining))
% 3.14/3.32 (assume a5375 (tptp.s__documentation tptp.s__Separating tptp.s__EnglishLanguage |tptp.'A &%Process where a &%SelfConnectedObject is separated into (some of) its &%parts. Note that &%Separating is different from &%Detaching in that the latter only results in the two objects not being &%connected. Note too that &%Separating is different from &%Removing in that one or both of the two things which are separated may or may not be moved from the location where they were separated.'|))
% 3.14/3.32 (assume a5376 (forall ((V__SEPARATE $$unsorted)) (=> (tptp.s__instance V__SEPARATE tptp.s__Process) (=> (tptp.s__instance V__SEPARATE tptp.s__Separating) (exists ((V__OBJ $$unsorted)) (and (tptp.s__instance V__OBJ tptp.s__SelfConnectedObject) (tptp.s__patient V__SEPARATE V__OBJ)))))))
% 3.14/3.32 (assume a5377 (tptp.s__subclass tptp.s__ChemicalProcess tptp.s__InternalChange))
% 3.14/3.32 (assume a5378 (tptp.s__partition_3 tptp.s__ChemicalProcess tptp.s__ChemicalSynthesis tptp.s__ChemicalDecomposition))
% 3.14/3.32 (assume a5379 (tptp.s__documentation tptp.s__ChemicalProcess tptp.s__EnglishLanguage |tptp.'A &%ChemicalProcess occurs whenever chemical compounds (&%CompoundSubstances) are formed or decomposed. For example, reactants disappear as chemical change occurs, and products appear as chemical change occurs. In a chemical change a chemical reaction takes place. Catalysts in a &%ChemicalProcess may speed up the reaction, but arent themselves produced or consumed. Examples: rusting of iron and the decomposition of water, induced by an electric current, to gaseous hydrogen and gaseous oxygen.'|))
% 3.14/3.32 (assume a5380 (forall ((V__STUFF $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__STUFF tptp.s__Object)) (=> (and (tptp.s__instance V__PROC tptp.s__ChemicalProcess) (or (tptp.s__resource V__PROC V__STUFF) (tptp.s__result V__PROC V__STUFF))) (tptp.s__instance V__STUFF tptp.s__PureSubstance)))))
% 3.14/3.32 (assume a5381 (tptp.s__subclass tptp.s__ChemicalSynthesis tptp.s__ChemicalProcess))
% 3.14/3.32 (assume a5382 (tptp.s__instance tptp.s__ChemicalSynthesis__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5383 (tptp.s__subclass tptp.s__ChemicalSynthesis tptp.s__Combining))
% 3.14/3.32 (assume a5384 (tptp.s__documentation tptp.s__ChemicalSynthesis tptp.s__EnglishLanguage |tptp.'The &%Class of &%ChemicalProcesses in which a &%CompoundSubstance is formed from simpler reactants.'|))
% 3.14/3.32 (assume a5385 (forall ((V__SUBSTANCE1 $$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)))))
% 3.14/3.32 (assume a5386 (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))))))
% 3.14/3.32 (assume a5387 (tptp.s__subclass tptp.s__ChemicalDecomposition tptp.s__ChemicalProcess))
% 3.14/3.32 (assume a5388 (tptp.s__instance tptp.s__ChemicalProcess__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5389 (tptp.s__subclass tptp.s__ChemicalDecomposition tptp.s__Separating))
% 3.14/3.32 (assume a5390 (tptp.s__instance tptp.s__ChemicalDecomposition__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5391 (tptp.s__instance tptp.s__Separating__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5392 (tptp.s__documentation tptp.s__ChemicalDecomposition tptp.s__EnglishLanguage |tptp.'The &%Class of &%ChemicalProcesses in which a &%CompoundSubstance breaks down into simpler products.'|))
% 3.14/3.32 (assume a5393 (forall ((V__SUBSTANCE1 $$unsorted) (V__SUBSTANCE2 $$unsorted) (V__PROC $$unsorted)) (=> (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__SUBSTANCE1 tptp.s__Object)) (=> (and (tptp.s__resource V__PROC V__SUBSTANCE1) (tptp.s__result V__PROC V__SUBSTANCE2) (tptp.s__instance V__SUBSTANCE1 tptp.s__CompoundSubstance) (tptp.s__instance V__SUBSTANCE2 tptp.s__ElementalSubstance)) (tptp.s__instance V__PROC tptp.s__ChemicalDecomposition)))))
% 3.14/3.32 (assume a5394 (tptp.s__subclass tptp.s__Combustion tptp.s__ChemicalDecomposition))
% 3.14/3.32 (assume a5395 (tptp.s__instance tptp.s__Combustion__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5396 (tptp.s__documentation tptp.s__Combustion tptp.s__EnglishLanguage |tptp.'The &%Class of &%ChemicalProcesses in which an &%Object reacts with oxygen and gives off heat. This includes all &%Processes in which something is burning.'|))
% 3.14/3.32 (assume a5397 (forall ((V__COMBUSTION $$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)))))))
% 3.14/3.32 (assume a5398 (tptp.s__instance tptp.s__Flammable tptp.s__PhysicalAttribute))
% 3.14/3.32 (assume a5399 (tptp.s__documentation tptp.s__Flammable tptp.s__EnglishLanguage |tptp.'The &%Attribute of being flammable at normal temperatures (i.e. not while a &%Plasma).'|))
% 3.14/3.32 (assume a5400 (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)))))
% 3.14/3.32 (assume a5401 (tptp.s__subclass tptp.s__InternalChange tptp.s__Process))
% 3.14/3.32 (assume a5402 (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.'|))
% 3.14/3.32 (assume a5403 (tptp.s__subclass tptp.s__SurfaceChange tptp.s__InternalChange))
% 3.14/3.32 (assume a5404 (tptp.s__instance tptp.s__SurfaceChange__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5405 (tptp.s__instance tptp.s__InternalChange__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5406 (tptp.s__documentation tptp.s__SurfaceChange tptp.s__EnglishLanguage |tptp.'&%Processes which involve altering the properties that apply to the surface of an &%Object.'|))
% 3.14/3.32 (assume a5407 (tptp.s__subclass tptp.s__Coloring tptp.s__SurfaceChange))
% 3.14/3.32 (assume a5408 (tptp.s__instance tptp.s__Coloring__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5409 (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.'|))
% 3.14/3.32 (assume a5410 (tptp.s__subclass tptp.s__ShapeChange tptp.s__InternalChange))
% 3.14/3.32 (assume a5411 (tptp.s__instance tptp.s__ShapeChange__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5412 (tptp.s__documentation tptp.s__ShapeChange tptp.s__EnglishLanguage |tptp.'The &%Process of changing the shape of an &%Object.'|))
% 3.14/3.32 (assume a5413 (tptp.s__subclass tptp.s__ContentDevelopment tptp.s__IntentionalProcess))
% 3.14/3.32 (assume a5414 (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.'|))
% 3.14/3.32 (assume a5415 (forall ((V__DEVELOP $$unsorted)) (=> (tptp.s__instance V__DEVELOP tptp.s__Process) (=> (tptp.s__instance V__DEVELOP tptp.s__ContentDevelopment) (exists ((V__OBJ $$unsorted)) (and (tptp.s__instance V__OBJ tptp.s__ContentBearingObject) (tptp.s__result V__DEVELOP V__OBJ)))))))
% 3.14/3.32 (assume a5416 (tptp.s__subclass tptp.s__Reading tptp.s__ContentDevelopment))
% 3.14/3.32 (assume a5417 (tptp.s__instance tptp.s__Reading__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5418 (tptp.s__relatedInternalConcept tptp.s__Reading tptp.s__Interpreting))
% 3.14/3.32 (assume a5419 (tptp.s__documentation tptp.s__Reading tptp.s__EnglishLanguage |tptp.'A &%subclass of &%ContentDevelopment in which content is converted from a written form into a spoken representation. Note that the class &%Interpreting should be used in cases where a &%Text is read silently.'|))
% 3.14/3.32 (assume a5420 (forall ((V__READ $$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)))))))
% 3.14/3.32 (assume a5421 (tptp.s__subclass tptp.s__Writing tptp.s__ContentDevelopment))
% 3.14/3.32 (assume a5422 (tptp.s__instance tptp.s__Writing__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5423 (tptp.s__instance tptp.s__ContentDevelopment__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5424 (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.'|))
% 3.14/3.32 (assume a5425 (tptp.s__subclass tptp.s__Encoding tptp.s__Writing))
% 3.14/3.32 (assume a5426 (tptp.s__instance tptp.s__Encoding__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5427 (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.'|))
% 3.14/3.32 (assume a5428 (tptp.s__subclass tptp.s__Decoding tptp.s__Writing))
% 3.14/3.32 (assume a5429 (tptp.s__instance tptp.s__Decoding__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5430 (tptp.s__disjoint tptp.s__Decoding tptp.s__Encoding))
% 3.14/3.32 (assume a5431 (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.'|))
% 3.14/3.32 (assume a5432 (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))'|)))))))
% 3.14/3.32 (assume a5433 (tptp.s__subclass tptp.s__Translating tptp.s__ContentDevelopment))
% 3.14/3.32 (assume a5434 (tptp.s__subclass tptp.s__Translating tptp.s__DualObjectProcess))
% 3.14/3.32 (assume a5435 (tptp.s__instance tptp.s__Translating__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5436 (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.'|))
% 3.14/3.32 (assume a5437 (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))))))))
% 3.14/3.32 (assume a5438 (tptp.s__subclass tptp.s__Wetting tptp.s__Putting))
% 3.14/3.32 (assume a5439 (tptp.s__instance tptp.s__Wetting__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5440 (tptp.s__documentation tptp.s__Wetting tptp.s__EnglishLanguage |tptp.'The &%Class of &%Processes where a &%Liquid is added to an &%Object.'|))
% 3.14/3.32 (assume a5441 (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)))))))
% 3.14/3.32 (assume a5442 (tptp.s__subclass tptp.s__Drying tptp.s__Removing))
% 3.14/3.32 (assume a5443 (tptp.s__instance tptp.s__Drying__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5444 (tptp.s__instance tptp.s__Removing__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5445 (tptp.s__documentation tptp.s__Drying tptp.s__EnglishLanguage |tptp.'The &%Class of &%Processes where a &%Liquid is removed from an &%Object.'|))
% 3.14/3.32 (assume a5446 (tptp.s__subclass tptp.s__Creation tptp.s__InternalChange))
% 3.14/3.32 (assume a5447 (tptp.s__relatedInternalConcept tptp.s__Creation tptp.s__Destruction))
% 3.14/3.32 (assume a5448 (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.'|))
% 3.14/3.32 (assume a5449 (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))))))
% 3.14/3.32 (assume a5450 (forall ((V__PROCESS $$unsorted)) (=> (tptp.s__instance V__PROCESS tptp.s__Process) (= (tptp.s__instance V__PROCESS tptp.s__Creation) (exists ((V__PATIENT $$unsorted)) (and (tptp.s__instance V__PATIENT tptp.s__Physical) (tptp.s__patient V__PROCESS V__PATIENT) (tptp.s__time V__PATIENT (tptp.s__EndFn (tptp.s__WhenFn V__PROCESS))) (not (tptp.s__time V__PATIENT (tptp.s__BeginFn (tptp.s__WhenFn V__PROCESS))))))))))
% 3.14/3.32 (assume a5451 (tptp.s__subclass tptp.s__Making tptp.s__Creation))
% 3.14/3.32 (assume a5452 (tptp.s__instance tptp.s__Creation__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5453 (tptp.s__subclass tptp.s__Making tptp.s__IntentionalProcess))
% 3.14/3.32 (assume a5454 (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.'|))
% 3.14/3.32 (assume a5455 (tptp.s__subclass tptp.s__Constructing tptp.s__Making))
% 3.14/3.32 (assume a5456 (tptp.s__instance tptp.s__Constructing__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5457 (tptp.s__documentation tptp.s__Constructing tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Making in which a &%StationaryArtifact is built.'|))
% 3.14/3.32 (assume a5458 (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))))
% 3.14/3.32 (assume a5459 (tptp.s__subclass tptp.s__Manufacture tptp.s__Making))
% 3.14/3.32 (assume a5460 (tptp.s__instance tptp.s__Manufacture__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5461 (tptp.s__documentation tptp.s__Manufacture tptp.s__EnglishLanguage |tptp.'The &%Making of &%Artifacts on a mass scale.'|))
% 3.14/3.32 (assume a5462 (tptp.s__subclass tptp.s__Publication tptp.s__Manufacture))
% 3.14/3.32 (assume a5463 (tptp.s__instance tptp.s__Publication__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5464 (tptp.s__subclass tptp.s__Publication tptp.s__ContentDevelopment))
% 3.14/3.32 (assume a5465 (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.'|))
% 3.14/3.32 (assume a5466 (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)))))
% 3.14/3.32 (assume a5467 (tptp.s__subclass tptp.s__Cooking tptp.s__Making))
% 3.14/3.32 (assume a5468 (tptp.s__instance tptp.s__Cooking__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5469 (tptp.s__instance tptp.s__Making__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5470 (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.'|))
% 3.14/3.32 (assume a5471 (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)))))))
% 3.14/3.32 (assume a5472 (tptp.s__subclass tptp.s__Pursuing tptp.s__IntentionalProcess))
% 3.14/3.32 (assume a5473 (tptp.s__instance tptp.s__Pursuing__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5474 (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.'|))
% 3.14/3.32 (assume a5475 (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)))))))
% 3.14/3.32 (assume a5476 (forall ((V__OBJ $$unsorted) (V__PURSUE $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__PURSUE tptp.s__Process) (tptp.s__instance V__PURSUE tptp.s__TimePosition) (tptp.s__instance V__OBJ tptp.s__Object)) (=> (and (tptp.s__instance V__PURSUE tptp.s__Pursuing) (tptp.s__agent V__PURSUE V__AGENT) (tptp.s__patient V__PURSUE V__OBJ)) (tptp.s__holdsDuring V__PURSUE |tptp.'(~ s__possesses(V__AGENT,V__OBJ))'|)))))
% 3.14/3.32 (assume a5477 (tptp.s__subclass tptp.s__Hunting tptp.s__Pursuing))
% 3.14/3.32 (assume a5478 (tptp.s__instance tptp.s__Hunting__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5479 (tptp.s__documentation tptp.s__Hunting tptp.s__EnglishLanguage |tptp.'Hunting is the class of &%Processes in which an animal or animals are pursued and sometimes captured and/or killed.'|))
% 3.14/3.32 (assume a5480 (forall ((V__H $$unsorted)) (=> (tptp.s__instance V__H tptp.s__Process) (=> (tptp.s__instance V__H tptp.s__Hunting) (exists ((V__T $$unsorted)) (and (tptp.s__instance V__T tptp.s__Animal) (tptp.s__patient V__H V__T)))))))
% 3.14/3.32 (assume a5481 (forall ((V__P $$unsorted) (V__H $$unsorted)) (=> (tptp.s__instance V__H tptp.s__Process) (=> (and (tptp.s__instance V__H tptp.s__Hunting) (tptp.s__patient V__H V__P)) (tptp.s__hasPurpose V__H |tptp.'(? [V__PROC] : (s__instance(V__PROC,s__Process) & s__patient(V__PROC,V__P) & (s__instance(V__PROC,s__Confining) _ s__instance(V__PROC,s__Killing))))'|)))))
% 3.14/3.32 (assume a5482 (tptp.s__subclass tptp.s__Investigating tptp.s__IntentionalPsychologicalProcess))
% 3.14/3.32 (assume a5483 (tptp.s__instance tptp.s__Investigating__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5484 (tptp.s__instance tptp.s__IntentionalPsychologicalProcess__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5485 (tptp.s__documentation tptp.s__Investigating tptp.s__EnglishLanguage |tptp.'The class of &%IntentionalPsychologicalProcesses where the &%agent attempts to obtaina information (i.e. a &%Proposition denoted by a &%Formula).'|))
% 3.14/3.32 (assume a5486 (forall ((V__INVESTIGATE $$unsorted) (V__PROP $$unsorted)) (=> (tptp.s__instance V__INVESTIGATE tptp.s__Process) (=> (and (tptp.s__instance V__INVESTIGATE tptp.s__Investigating) (tptp.s__patient V__INVESTIGATE V__PROP)) (tptp.s__instance V__PROP tptp.s__Formula)))))
% 3.14/3.32 (assume a5487 (forall ((V__INVESTIGATE $$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))'|)))))
% 3.14/3.32 (assume a5488 (tptp.s__subclass tptp.s__Experimenting tptp.s__Investigating))
% 3.14/3.32 (assume a5489 (tptp.s__instance tptp.s__Experimenting__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5490 (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.'|))
% 3.14/3.32 (assume a5491 (tptp.s__subclass tptp.s__DiagnosticProcess tptp.s__Investigating))
% 3.14/3.32 (assume a5492 (tptp.s__instance tptp.s__DiagnosticProcess__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5493 (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.'|))
% 3.14/3.32 (assume a5494 (tptp.s__subclass tptp.s__SocialInteraction tptp.s__IntentionalProcess))
% 3.14/3.32 (assume a5495 (tptp.s__documentation tptp.s__SocialInteraction tptp.s__EnglishLanguage |tptp.'The &%subclass of &%IntentionalProcess that involves interactions between &%CognitiveAgents.'|))
% 3.14/3.32 (assume a5496 (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 $$unsorted)) (and (tptp.s__involvedInEvent V__INTERACTION V__AGENT1) (tptp.s__involvedInEvent V__INTERACTION V__AGENT2) (tptp.s__instance V__AGENT1 tptp.s__Agent) (tptp.s__instance V__AGENT2 tptp.s__Agent) (not (= V__AGENT1 V__AGENT2))))))))
% 3.14/3.32 (assume a5497 (tptp.s__subclass tptp.s__Pretending tptp.s__SocialInteraction))
% 3.14/3.32 (assume a5498 (tptp.s__instance tptp.s__Pretending__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5499 (tptp.s__documentation tptp.s__Pretending tptp.s__EnglishLanguage |tptp.'Any &%SocialInteraction where a &%CognitiveAgent or &%Group of &%CognitiveAgents attempts to make another &%CognitiveAgent or &%Group of &%CognitiveAgents believe something that is false. This covers deceit, affectation, impersonation, and entertainment productions, to give just a few examples.'|))
% 3.14/3.32 (assume a5500 (tptp.s__subclass tptp.s__Communication tptp.s__SocialInteraction))
% 3.14/3.32 (assume a5501 (tptp.s__subclass tptp.s__Communication tptp.s__ContentBearingProcess))
% 3.14/3.32 (assume a5502 (tptp.s__partition_7 tptp.s__Communication tptp.s__Stating tptp.s__Supposing tptp.s__Directing tptp.s__Committing tptp.s__Expressing tptp.s__Declaring))
% 3.14/3.32 (assume a5503 (tptp.s__relatedInternalConcept tptp.s__Communication tptp.s__ContentDevelopment))
% 3.14/3.32 (assume a5504 (tptp.s__documentation tptp.s__Communication tptp.s__EnglishLanguage |tptp.'A &%SocialInteraction that involves the transfer of information between two or more &%CognitiveAgents. Note that &%Communication is closely related to, but essentially different from, &%ContentDevelopment. The latter involves the creation or modification of a &%ContentBearingObject, while &%Communication is the transfer of information for the purpose of conveying a message.'|))
% 3.14/3.32 (assume a5505 (forall ((V__COMMUNICATE $$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)))))))
% 3.14/3.32 (assume a5506 (tptp.s__subclass tptp.s__Disseminating tptp.s__Communication))
% 3.14/3.32 (assume a5507 (tptp.s__instance tptp.s__Disseminating__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5508 (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.'|))
% 3.14/3.32 (assume a5509 (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 $$unsorted)) (and (tptp.s__destination V__DISSEMINATE V__AGENT1) (tptp.s__instance V__AGENT1 tptp.s__CognitiveAgent) (tptp.s__destination V__DISSEMINATE V__AGENT2) (tptp.s__instance V__AGENT2 tptp.s__CognitiveAgent) (not (= V__AGENT1 V__AGENT2))))))))
% 3.14/3.32 (assume a5510 (tptp.s__subclass tptp.s__Demonstrating tptp.s__Disseminating))
% 3.14/3.32 (assume a5511 (tptp.s__instance tptp.s__Demonstrating__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5512 (tptp.s__documentation tptp.s__Demonstrating tptp.s__EnglishLanguage |tptp.'Exhibiting something or a range of things before the public in a particular location. This would cover software demos, theatrical plays, lectures, dance and music recitals, museum exhibitions, etc.'|))
% 3.14/3.32 (assume a5513 (forall ((V__DEMO $$unsorted)) (=> (tptp.s__instance V__DEMO tptp.s__Demonstrating) (exists ((V__PERSON $$unsorted)) (and (tptp.s__instance V__PERSON tptp.s__Human) (tptp.s__attends V__DEMO V__PERSON))))))
% 3.14/3.32 (assume a5514 (tptp.s__subrelation tptp.s__attends__m tptp.s__experiencer__m))
% 3.14/3.32 (assume a5515 (tptp.s__domain tptp.s__attends__m |"1"| tptp.s__Demonstrating))
% 3.14/3.32 (assume a5516 (tptp.s__domain tptp.s__attends__m |"2"| tptp.s__Human))
% 3.14/3.32 (assume a5517 (tptp.s__documentation tptp.s__attends__m tptp.s__EnglishLanguage |tptp.'(&%attends ?DEMO ?PERSON) means that ?PERSON attends, i.e. is a member of the audience, of the performance event ?DEMO.'|))
% 3.14/3.32 (assume a5518 (tptp.s__subclass tptp.s__Gesture tptp.s__Communication))
% 3.14/3.32 (assume a5519 (tptp.s__subclass tptp.s__Gesture tptp.s__BodyMotion))
% 3.14/3.32 (assume a5520 (tptp.s__instance tptp.s__Gesture__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5521 (tptp.s__documentation tptp.s__Gesture tptp.s__EnglishLanguage |tptp.'Any &%BodyMotion, e.g. a hand wave, a nod of the head, a smile, which is also an instance of &%Communication.'|))
% 3.14/3.32 (assume a5522 (tptp.s__subclass tptp.s__Advertising tptp.s__Disseminating))
% 3.14/3.32 (assume a5523 (tptp.s__instance tptp.s__Advertising__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5524 (tptp.s__documentation tptp.s__Advertising tptp.s__EnglishLanguage |tptp.'A &%Disseminating whose purpose is to promote the sale of an &%Object represented in a &%Text or &%Icon (the advertisement).'|))
% 3.14/3.32 (assume a5525 (forall ((V__ADVERT $$unsorted)) (=> (tptp.s__instance V__ADVERT tptp.s__Physical) (=> (tptp.s__instance V__ADVERT tptp.s__Advertising) (exists ((V__OBJ $$unsorted)) (and (tptp.s__refers V__ADVERT V__OBJ) (tptp.s__hasPurpose V__ADVERT |tptp.'(? [V__SALE] : (s__instance(V__SALE,s__Process) & s__instance(V__SALE,s__Selling) & s__patient(V__SALE,V__OBJ)))'|)))))))
% 3.14/3.32 (assume a5526 (tptp.s__subclass tptp.s__Expressing tptp.s__Communication))
% 3.14/3.32 (assume a5527 (tptp.s__instance tptp.s__Expressing__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5528 (tptp.s__documentation tptp.s__Expressing tptp.s__EnglishLanguage |tptp.'Instances of this &%Class express a state of the &%agent. For example, Jane thanked Barbara for the present she had given her. The thanking in this case expresses the gratitude of Jane towards Barbara. Note that &%Expressing, unlike the other speech act types, is not a subclass of &%LinguisticCommunication. This is because emotions, for example, can be expressed without language, e.g. by smiling.'|))
% 3.14/3.32 (assume a5529 (forall ((V__EXPRESS $$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)))))))
% 3.14/3.32 (assume a5530 (tptp.s__subclass tptp.s__LinguisticCommunication tptp.s__Communication))
% 3.14/3.32 (assume a5531 (tptp.s__instance tptp.s__LinguisticCommunication__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5532 (tptp.s__instance tptp.s__Communication__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5533 (tptp.s__documentation tptp.s__LinguisticCommunication tptp.s__EnglishLanguage |tptp.'A &%Communication that involves the transfer of information via a &%LinguisticExpression.'|))
% 3.14/3.32 (assume a5534 (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)))))))
% 3.14/3.32 (assume a5535 (tptp.s__subclass tptp.s__Stating tptp.s__LinguisticCommunication))
% 3.14/3.32 (assume a5536 (tptp.s__instance tptp.s__Stating__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5537 (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.'|))
% 3.14/3.32 (assume a5538 (tptp.s__subclass tptp.s__Disagreeing tptp.s__Stating))
% 3.14/3.32 (assume a5539 (tptp.s__instance tptp.s__Disagreeing__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5540 (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.'|))
% 3.14/3.32 (assume a5541 (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))))))))
% 3.14/3.32 (assume a5542 (tptp.s__subclass tptp.s__Supposing tptp.s__LinguisticCommunication))
% 3.14/3.32 (assume a5543 (tptp.s__instance tptp.s__Supposing__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5544 (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.'|))
% 3.14/3.32 (assume a5545 (tptp.s__subclass tptp.s__Directing tptp.s__LinguisticCommunication))
% 3.14/3.32 (assume a5546 (tptp.s__instance tptp.s__Directing__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5547 (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.'|))
% 3.14/3.32 (assume a5548 (tptp.s__subclass tptp.s__Ordering tptp.s__Directing))
% 3.14/3.32 (assume a5549 (tptp.s__instance tptp.s__Ordering__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5550 (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.'|))
% 3.14/3.32 (assume a5551 (forall ((V__ORDER $$unsorted) (V__FORMULA $$unsorted)) (=> (and (tptp.s__instance V__FORMULA tptp.s__Formula) (tptp.s__instance V__ORDER tptp.s__Process)) (=> (and (tptp.s__instance V__ORDER tptp.s__Ordering) (tptp.s__patient V__ORDER V__FORMULA)) (tptp.s__modalAttribute V__FORMULA tptp.s__Obligation)))))
% 3.14/3.32 (assume a5552 (tptp.s__subclass tptp.s__Requesting tptp.s__Directing))
% 3.14/3.32 (assume a5553 (tptp.s__instance tptp.s__Requesting__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5554 (tptp.s__documentation tptp.s__Requesting tptp.s__EnglishLanguage |tptp.'A request expresses a desire that some future action be performed. For example, the 5th Battalion requested air support from the 3rd Bomber Group. Note that this class covers proposals, recommendations, suggestions, etc.'|))
% 3.14/3.32 (assume a5555 (forall ((V__REQUEST $$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)))))
% 3.14/3.32 (assume a5556 (tptp.s__subclass tptp.s__Questioning tptp.s__Directing))
% 3.14/3.32 (assume a5557 (tptp.s__instance tptp.s__Questioning__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5558 (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.'|))
% 3.14/3.32 (assume a5559 (forall ((V__FORMULA $$unsorted) (V__AGENT $$unsorted) (V__QUESTION $$unsorted)) (=> (and (tptp.s__instance V__QUESTION tptp.s__Process) (tptp.s__instance V__AGENT tptp.s__CognitiveAgent)) (=> (and (tptp.s__instance V__QUESTION tptp.s__Questioning) (tptp.s__agent V__QUESTION V__AGENT) (tptp.s__patient V__QUESTION V__FORMULA) (tptp.s__instance V__FORMULA tptp.s__Formula)) (tptp.s__holdsDuring (tptp.s__WhenFn V__QUESTION) |tptp.'(~ s__knows(V__AGENT,V__FORMULA))'|)))))
% 3.14/3.32 (assume a5560 (tptp.s__subclass tptp.s__Committing tptp.s__LinguisticCommunication))
% 3.14/3.32 (assume a5561 (tptp.s__documentation tptp.s__Committing tptp.s__EnglishLanguage |tptp.'Instances of this &%Class commit the &%agent to some future course. For example, Bob promised Susan that he would be home by 11pm.'|))
% 3.14/3.32 (assume a5562 (forall ((V__FORMULA $$unsorted) (V__COMMIT $$unsorted)) (=> (tptp.s__instance V__COMMIT tptp.s__Process) (=> (and (tptp.s__instance V__COMMIT tptp.s__Committing) (tptp.s__patient V__COMMIT V__FORMULA) (tptp.s__instance V__FORMULA tptp.s__Formula)) (tptp.s__modalAttribute V__FORMULA tptp.s__Promise)))))
% 3.14/3.32 (assume a5563 (tptp.s__subclass tptp.s__Offering tptp.s__Committing))
% 3.14/3.32 (assume a5564 (tptp.s__instance tptp.s__Offering__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5565 (tptp.s__instance tptp.s__Committing__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5566 (tptp.s__documentation tptp.s__Offering tptp.s__EnglishLanguage |tptp.'The subclass of &%Committing in which a &%CognitiveAgent offers something &%Physical to another agent. Offerings may be unconditional (in which case they are a promise to effect a &%UnilateralGiving) or conditional (in which case they are a promise to effect a &%Transaction of some sort).'|))
% 3.14/3.32 (assume a5567 (tptp.s__subclass tptp.s__Declaring tptp.s__LinguisticCommunication))
% 3.14/3.32 (assume a5568 (tptp.s__instance tptp.s__Declaring__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5569 (tptp.s__documentation tptp.s__Declaring tptp.s__EnglishLanguage |tptp.'The &%Class of &%LinguisticCommunications that effect an institutional alteration when performed by competent authority. Some examples are nominating, marrying, and excommunicating.'|))
% 3.14/3.32 (assume a5570 (forall ((V__DECLARE $$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)))))))
% 3.14/3.32 (assume a5571 (tptp.s__subclass tptp.s__Naming tptp.s__Declaring))
% 3.14/3.32 (assume a5572 (tptp.s__instance tptp.s__Naming__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5573 (tptp.s__documentation tptp.s__Naming tptp.s__EnglishLanguage |tptp.'The &%Process of assigning a name to someone or something.'|))
% 3.14/3.32 (assume a5574 (tptp.s__subclass tptp.s__Cooperation tptp.s__SocialInteraction))
% 3.14/3.32 (assume a5575 (tptp.s__instance tptp.s__Cooperation__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5576 (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.'|))
% 3.14/3.32 (assume a5577 (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 $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__COOPERATE tptp.s__Process)) (=> (tptp.s__agent V__COOPERATE V__AGENT) (tptp.s__hasPurposeForAgent V__COOPERATE V__PURP V__AGENT)))))))))
% 3.14/3.32 (assume a5578 (tptp.s__subclass tptp.s__Meeting tptp.s__SocialInteraction))
% 3.14/3.32 (assume a5579 (tptp.s__instance tptp.s__Meeting__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5580 (tptp.s__instance tptp.s__SocialInteraction__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5581 (tptp.s__documentation tptp.s__Meeting tptp.s__EnglishLanguage |tptp.'The coming together of two or more &%CognitiveAgents for the purpose of &%Communication. This covers informal meetings, e.g. visits with family members, and formal meetings, e.g. a board of directors meeting.'|))
% 3.14/3.32 (assume a5582 (forall ((V__MEET $$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)))'|)))))))
% 3.14/3.32 (assume a5583 (tptp.s__subclass tptp.s__Contest tptp.s__SocialInteraction))
% 3.14/3.32 (assume a5584 (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.'|))
% 3.14/3.32 (assume a5585 (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 $$unsorted)) (and (tptp.s__instance V__PURP2 tptp.s__Formula) (tptp.s__instance V__PURP1 tptp.s__Formula) (tptp.s__instance V__AGENT2 tptp.s__CognitiveAgent) (tptp.s__instance V__AGENT1 tptp.s__CognitiveAgent) (tptp.s__agent V__CONTEST V__AGENT1) (tptp.s__agent V__CONTEST V__AGENT2) (tptp.s__hasPurposeForAgent V__CONTEST V__PURP1 V__AGENT1) (tptp.s__hasPurposeForAgent V__CONTEST V__PURP2 V__AGENT2) (not (= V__AGENT1 V__AGENT2)) (not (= V__PURP1 V__PURP2))))))))
% 3.14/3.32 (assume a5586 (tptp.s__subclass tptp.s__ViolentContest tptp.s__Contest))
% 3.14/3.32 (assume a5587 (tptp.s__instance tptp.s__Contest__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5588 (tptp.s__documentation tptp.s__ViolentContest tptp.s__EnglishLanguage |tptp.'A &%Contest where one participant attempts to physically injure another participant.'|))
% 3.14/3.32 (assume a5589 (tptp.s__subclass tptp.s__War tptp.s__ViolentContest))
% 3.14/3.32 (assume a5590 (tptp.s__instance tptp.s__War__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5591 (tptp.s__instance tptp.s__ViolentContest__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5592 (tptp.s__documentation tptp.s__War tptp.s__EnglishLanguage |tptp.'A military confrontation between two or more &%GeopoliticalAreas or &%Organizations whose members are &%GeopoliticalAreas. As the corresponding axiom specifies, a &%War is made up of &%Battles.'|))
% 3.14/3.32 (assume a5593 (forall ((V__WAR $$unsorted)) (=> (tptp.s__instance V__WAR tptp.s__Process) (=> (tptp.s__instance V__WAR tptp.s__War) (exists ((V__BATTLE $$unsorted)) (and (tptp.s__instance V__BATTLE tptp.s__Process) (tptp.s__instance V__BATTLE tptp.s__Battle) (tptp.s__subProcess V__BATTLE V__WAR)))))))
% 3.14/3.32 (assume a5594 (forall ((V__AGENT $$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)))))))))
% 3.14/3.32 (assume a5595 (tptp.s__subclass tptp.s__Battle tptp.s__ViolentContest))
% 3.14/3.32 (assume a5596 (tptp.s__instance tptp.s__Battle__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5597 (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.'|))
% 3.14/3.32 (assume a5598 (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)))))))
% 3.14/3.32 (assume a5599 (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)))))))
% 3.14/3.32 (assume a5600 (tptp.s__subclass tptp.s__Game tptp.s__Contest))
% 3.14/3.32 (assume a5601 (tptp.s__instance tptp.s__Game__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5602 (tptp.s__subclass tptp.s__Game tptp.s__RecreationOrExercise))
% 3.14/3.32 (assume a5603 (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.'|))
% 3.14/3.32 (assume a5604 (tptp.s__subclass tptp.s__Sport tptp.s__Game))
% 3.14/3.32 (assume a5605 (tptp.s__instance tptp.s__Sport__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5606 (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.'|))
% 3.14/3.32 (assume a5607 (tptp.s__subclass tptp.s__LegalAction tptp.s__Contest))
% 3.14/3.32 (assume a5608 (tptp.s__instance tptp.s__LegalAction__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5609 (tptp.s__documentation tptp.s__LegalAction tptp.s__EnglishLanguage |tptp.'Any &%Process where a &%CognitiveAgent seeks to obtain something through a court of law.'|))
% 3.14/3.32 (assume a5610 (tptp.s__subclass tptp.s__Maneuver tptp.s__IntentionalProcess))
% 3.14/3.32 (assume a5611 (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.'|))
% 3.14/3.32 (assume a5612 (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)))))))
% 3.14/3.32 (assume a5613 (tptp.s__subclass tptp.s__Attack tptp.s__Maneuver))
% 3.14/3.32 (assume a5614 (tptp.s__instance tptp.s__Attack__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5615 (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.'|))
% 3.14/3.32 (assume a5616 (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)))))))
% 3.14/3.32 (assume a5617 (forall ((V__OBJ $$unsorted) (V__ATTACK $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__CognitiveAgent) (tptp.s__instance V__ATTACK tptp.s__Process)) (=> (and (tptp.s__instance V__ATTACK tptp.s__Attack) (tptp.s__agent V__ATTACK V__AGENT) (tptp.s__patient V__ATTACK V__OBJ)) (tptp.s__hasPurposeForAgent V__ATTACK |tptp.'(? [V__DAMAGE] : (s__instance(V__DAMAGE,s__Process) & s__instance(V__DAMAGE,s__Damaging) & s__patient(V__DAMAGE,V__OBJ)))'| V__AGENT)))))
% 3.14/3.32 (assume a5618 (tptp.s__subclass tptp.s__DefensiveManeuver tptp.s__Maneuver))
% 3.14/3.32 (assume a5619 (tptp.s__instance tptp.s__DefensiveManeuver__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5620 (tptp.s__instance tptp.s__Maneuver__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5621 (tptp.s__documentation tptp.s__DefensiveManeuver tptp.s__EnglishLanguage |tptp.'A &%Maneuver in a &%ViolentContest where the &%agent attempts to avoid being damaged.'|))
% 3.14/3.32 (assume a5622 (forall ((V__DEFENSE $$unsorted)) (=> (tptp.s__instance V__DEFENSE tptp.s__Process) (=> (tptp.s__instance V__DEFENSE tptp.s__DefensiveManeuver) (exists ((V__CONTEST $$unsorted)) (and (tptp.s__instance V__CONTEST tptp.s__Process) (tptp.s__instance V__CONTEST tptp.s__ViolentContest) (tptp.s__subProcess V__DEFENSE V__CONTEST)))))))
% 3.14/3.32 (assume a5623 (forall ((V__AGENT $$unsorted) (V__DEFENSE $$unsorted)) (=> (and (tptp.s__instance V__DEFENSE tptp.s__Process) (tptp.s__instance V__AGENT tptp.s__CognitiveAgent)) (=> (and (tptp.s__instance V__DEFENSE tptp.s__DefensiveManeuver) (tptp.s__agent V__DEFENSE V__AGENT)) (tptp.s__hasPurposeForAgent V__DEFENSE |tptp.'(~ (? [V__DAMAGE] : (s__instance(V__DAMAGE,s__Process) & s__instance(V__DAMAGE,s__Damaging) & s__patient(V__DAMAGE,V__AGENT))))'| V__AGENT)))))
% 3.14/3.32 (assume a5624 (forall ((V__CONTEST $$unsorted) (V__MANEUVER $$unsorted)) (=> (and (tptp.s__instance V__MANEUVER tptp.s__Process) (tptp.s__instance V__CONTEST tptp.s__Process)) (=> (and (tptp.s__instance V__MANEUVER tptp.s__Maneuver) (tptp.s__instance V__CONTEST tptp.s__ViolentContest) (tptp.s__subProcess V__MANEUVER V__CONTEST)) (or (tptp.s__instance V__MANEUVER tptp.s__Attack) (tptp.s__instance V__MANEUVER tptp.s__DefensiveManeuver))))))
% 3.14/3.32 (assume a5625 (tptp.s__subclass tptp.s__Perception tptp.s__PsychologicalProcess))
% 3.14/3.32 (assume a5626 (tptp.s__documentation tptp.s__Perception tptp.s__EnglishLanguage |tptp.'Sensing some aspect of the material world. Note that the &%agent of this sensing is assumed to be an &%Animal.'|))
% 3.14/3.32 (assume a5627 (forall ((V__PERCEPT $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__PERCEPT tptp.s__Process)) (=> (and (tptp.s__instance V__PERCEPT tptp.s__Perception) (tptp.s__agent V__PERCEPT V__AGENT)) (tptp.s__instance V__AGENT tptp.s__Animal)))))
% 3.14/3.32 (assume a5628 (forall ((V__AGENT $$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)))))
% 3.14/3.32 (assume a5629 (tptp.s__subclass tptp.s__Seeing tptp.s__Perception))
% 3.14/3.32 (assume a5630 (tptp.s__documentation tptp.s__Seeing tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Perception in which the sensing is done by an ocular &%Organ.'|))
% 3.14/3.32 (assume a5631 (tptp.s__subclass tptp.s__Looking tptp.s__Seeing))
% 3.14/3.32 (assume a5632 (tptp.s__instance tptp.s__Looking__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5633 (tptp.s__instance tptp.s__Seeing__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5634 (tptp.s__subclass tptp.s__Looking tptp.s__IntentionalProcess))
% 3.14/3.32 (assume a5635 (tptp.s__documentation tptp.s__Looking tptp.s__EnglishLanguage |tptp.'Any instance of &%Seeing which is intentional.'|))
% 3.14/3.32 (assume a5636 (tptp.s__subclass tptp.s__Smelling tptp.s__Perception))
% 3.14/3.32 (assume a5637 (tptp.s__instance tptp.s__Smelling__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5638 (tptp.s__instance tptp.s__Perception__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5639 (tptp.s__documentation tptp.s__Smelling tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Perception in which the sensing is done by an olefactory &%Organ.'|))
% 3.14/3.32 (assume a5640 (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 $$unsorted)) (and (tptp.s__instance V__ATTR tptp.s__Attribute) (tptp.s__instance V__ATTR tptp.s__OlfactoryAttribute) (tptp.s__attribute V__OBJ V__ATTR)))))))
% 3.14/3.32 (assume a5641 (tptp.s__subclass tptp.s__Tasting tptp.s__Perception))
% 3.14/3.32 (assume a5642 (tptp.s__instance tptp.s__Tasting__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5643 (tptp.s__documentation tptp.s__Tasting tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Perception in which the sensing is done by of an &%Organ which can discriminate various tastes.'|))
% 3.14/3.32 (assume a5644 (forall ((V__OBJ $$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)))))))
% 3.14/3.32 (assume a5645 (tptp.s__subclass tptp.s__Hearing tptp.s__Perception))
% 3.14/3.32 (assume a5646 (tptp.s__documentation tptp.s__Hearing tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Perception in which the sensing is done by an auditory &%Organ.'|))
% 3.14/3.32 (assume a5647 (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 $$unsorted)) (and (tptp.s__instance V__ATTR tptp.s__Attribute) (tptp.s__instance V__ATTR tptp.s__SoundAttribute) (tptp.s__attribute V__OBJ V__ATTR)))))))
% 3.14/3.32 (assume a5648 (tptp.s__subclass tptp.s__SoundAttribute tptp.s__PerceptualAttribute))
% 3.14/3.32 (assume a5649 (tptp.s__instance tptp.s__SoundAttribute__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5650 (tptp.s__instance tptp.s__PerceptualAttribute__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5651 (tptp.s__subclass tptp.s__SoundAttribute tptp.s__RelationalAttribute))
% 3.14/3.32 (assume a5652 (tptp.s__documentation tptp.s__SoundAttribute tptp.s__EnglishLanguage |tptp.'The volume of sound relative to a listener.'|))
% 3.14/3.32 (assume a5653 (tptp.s__instance tptp.s__Audible tptp.s__SoundAttribute))
% 3.14/3.32 (assume a5654 (tptp.s__documentation tptp.s__Audible tptp.s__EnglishLanguage |tptp.'A sound level capable of being heard by a &%Human.'|))
% 3.14/3.32 (assume a5655 (forall ((V__HEAR $$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 $$unsorted)) (and (tptp.s__instance V__HUMAN tptp.s__Agent) (tptp.s__instance V__HUMAN tptp.s__Human) (tptp.s__capability (tptp.s__KappaFn V__HEAR |tptp.'(s__instance(V__HEAR,s__Hearing) & s__agent(V__HEAR,V__HUMAN) & s__destination(V__HEAR,V__HUMAN) & s__origin(V__HEAR,V__OBJ))'|) tptp.s__agent__m V__HUMAN)))))))
% 3.14/3.32 (assume a5656 (tptp.s__subclass tptp.s__Listening tptp.s__Hearing))
% 3.14/3.32 (assume a5657 (tptp.s__instance tptp.s__Hearing__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5658 (tptp.s__subclass tptp.s__Listening tptp.s__IntentionalProcess))
% 3.14/3.32 (assume a5659 (tptp.s__instance tptp.s__Listening__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5660 (tptp.s__documentation tptp.s__Listening tptp.s__EnglishLanguage |tptp.'Any instance of &%Hearing which is intentional.'|))
% 3.14/3.32 (assume a5661 (tptp.s__subclass tptp.s__TactilePerception tptp.s__Perception))
% 3.14/3.32 (assume a5662 (tptp.s__instance tptp.s__TactilePerception__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5663 (tptp.s__documentation tptp.s__TactilePerception tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Perception in which the sensing is done by &%Touching. Note that &%Touching need not involve &%TactilePerception. For example, a person who has lost all sensation in both of his legs would have no &%TactilePerception of anything his legs were &%Touching.'|))
% 3.14/3.32 (assume a5664 (forall ((V__TACTILE $$unsorted)) (=> (tptp.s__instance V__TACTILE tptp.s__Process) (=> (tptp.s__instance V__TACTILE tptp.s__TactilePerception) (exists ((V__TOUCH $$unsorted)) (and (tptp.s__instance V__TOUCH tptp.s__Process) (tptp.s__instance V__TOUCH tptp.s__Touching) (tptp.s__subProcess V__TOUCH V__TACTILE)))))))
% 3.14/3.32 (assume a5665 (tptp.s__subclass tptp.s__Radiating tptp.s__Motion))
% 3.14/3.32 (assume a5666 (tptp.s__documentation tptp.s__Radiating tptp.s__EnglishLanguage |tptp.'Processes in which some form of electromagnetic radiation, e.g. radio waves, light waves, electrical energy, etc., is given off or absorbed by something else.'|))
% 3.14/3.32 (assume a5667 (tptp.s__subclass tptp.s__RadiatingLight tptp.s__RadiatingElectromagnetic))
% 3.14/3.32 (assume a5668 (tptp.s__instance tptp.s__RadiatingLight__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5669 (tptp.s__documentation tptp.s__RadiatingLight tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Radiating in which light is given off or absorbed. Some examples include blinking, flashing, and glittering.'|))
% 3.14/3.32 (assume a5670 (forall ((V__REGION $$unsorted)) (=> (tptp.s__instance V__REGION tptp.s__Object) (= (exists ((V__EMIT $$unsorted)) (and (tptp.s__instance V__EMIT tptp.s__Process) (tptp.s__instance V__EMIT tptp.s__RadiatingLight) (tptp.s__patient V__EMIT V__REGION) (tptp.s__instance V__REGION tptp.s__Region))) (tptp.s__attribute V__REGION tptp.s__Illuminated)))))
% 3.14/3.32 (assume a5671 (tptp.s__subclass tptp.s__RadiatingInfrared tptp.s__RadiatingElectromagnetic))
% 3.14/3.32 (assume a5672 (tptp.s__instance tptp.s__RadiatingInfrared__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5673 (tptp.s__instance tptp.s__RadiatingElectromagnetic__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5674 (tptp.s__subclass tptp.s__RadiatingXRay tptp.s__RadiatingElectromagnetic))
% 3.14/3.32 (assume a5675 (tptp.s__instance tptp.s__RadiatingXRay__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5676 (tptp.s__subclass tptp.s__RadiatingSound tptp.s__Radiating))
% 3.14/3.32 (assume a5677 (tptp.s__documentation tptp.s__RadiatingSound tptp.s__EnglishLanguage |tptp.'The &%subclass of &%Radiating in which sound waves are given off or absorbed. Some examples include creaking, roaring, and whistling.'|))
% 3.14/3.32 (assume a5678 (forall ((V__SOUND $$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)))))))
% 3.14/3.32 (assume a5679 (tptp.s__subclass tptp.s__MakingMusic tptp.s__RadiatingSound))
% 3.14/3.32 (assume a5680 (tptp.s__instance tptp.s__RadiatingSound__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5681 (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'|))
% 3.14/3.32 (assume a5682 (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__MakingMusic |tptp.'making music'|))
% 3.14/3.32 (assume a5683 (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'|))
% 3.14/3.32 (assume a5684 (tptp.s__partition_3 tptp.s__MakingMusic tptp.s__MakingInstrumentalMusic tptp.s__MakingVocalMusic))
% 3.14/3.32 (assume a5685 (tptp.s__subclass tptp.s__MakingInstrumentalMusic tptp.s__MakingMusic))
% 3.14/3.32 (assume a5686 (tptp.s__instance tptp.s__MakingInstrumentalMusic__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5687 (tptp.s__instance tptp.s__MakingMusic__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5688 (tptp.s__documentation tptp.s__MakingInstrumentalMusic tptp.s__EnglishLanguage |tptp.'&%MakingInstrumentalMusic is a type of &%MakingMusic which is produced using some kind of &%MusicalInstrument'|))
% 3.14/3.32 (assume a5689 (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__MakingInstrumentalMusic |tptp.'instrumental music'|))
% 3.14/3.32 (assume a5690 (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)))))))
% 3.14/3.32 (assume a5691 (tptp.s__subclass tptp.s__MakingVocalMusic tptp.s__MakingMusic))
% 3.14/3.32 (assume a5692 (tptp.s__instance tptp.s__MakingVocalMusic__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5693 (tptp.s__subclass tptp.s__MakingVocalMusic tptp.s__Vocalizing))
% 3.14/3.32 (assume a5694 (tptp.s__documentation tptp.s__MakingVocalMusic tptp.s__EnglishLanguage |tptp.'&%MakingVocalMusic is a type of &%MakingMusic which is produced by using the vocal cords'|))
% 3.14/3.32 (assume a5695 (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__MakingVocalMusic tptp.singing))
% 3.14/3.32 (assume a5696 (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'|))
% 3.14/3.32 (assume a5697 (tptp.s__subclass tptp.s__Singing tptp.s__MakingVocalMusic))
% 3.14/3.32 (assume a5698 (tptp.s__instance tptp.s__Singing__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5699 (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.'|))
% 3.14/3.32 (assume a5700 (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)))))))
% 3.14/3.32 (assume a5701 (tptp.s__subclass tptp.s__RadiatingElectromagnetic tptp.s__Radiating))
% 3.14/3.32 (assume a5702 (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.'|))
% 3.14/3.32 (assume a5703 (tptp.s__subclass tptp.s__RadiatingNuclear tptp.s__Radiating))
% 3.14/3.32 (assume a5704 (tptp.s__instance tptp.s__RadiatingNuclear__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5705 (tptp.s__instance tptp.s__Radiating__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5706 (tptp.s__documentation tptp.s__RadiatingNuclear tptp.s__EnglishLanguage |tptp.'Releasing atomic energy, i.e. energy from a nuclear reaction.'|))
% 3.14/3.32 (assume a5707 (tptp.s__subclass tptp.s__StateChange tptp.s__InternalChange))
% 3.14/3.32 (assume a5708 (tptp.s__documentation tptp.s__StateChange tptp.s__EnglishLanguage |tptp.'Any &%Process where the &%PhysicalState of &%part of the &%patient of the &%Process changes.'|))
% 3.14/3.32 (assume a5709 (tptp.s__instance tptp.s__atomicNumber__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a5710 (tptp.s__instance tptp.s__atomicNumber__m tptp.s__AsymmetricRelation))
% 3.14/3.32 (assume a5711 (tptp.s__domainSubclass tptp.s__atomicNumber__m |"1"| tptp.s__ElementalSubstance))
% 3.14/3.32 (assume a5712 (tptp.s__domain tptp.s__atomicNumber__m |"2"| tptp.s__PositiveInteger))
% 3.14/3.32 (assume a5713 (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.'|))
% 3.14/3.32 (assume a5714 (forall ((V__PROTON $$unsorted) (V__ATOM $$unsorted) (V__NUMBER $$unsorted) (V__SUBSTANCE $$unsorted) (V__TYPE $$unsorted)) (=> (and (tptp.s__subclass V__TYPE tptp.s__ElementalSubstance) (tptp.s__instance V__TYPE tptp.s__SetOrClass) (tptp.s__instance V__SUBSTANCE tptp.s__Object) (tptp.s__instance V__NUMBER tptp.s__PositiveInteger) (tptp.s__instance V__ATOM tptp.s__Object)) (=> (tptp.s__atomicNumber V__TYPE V__NUMBER) (=> (and (tptp.s__instance V__SUBSTANCE V__TYPE) (tptp.s__part V__ATOM V__SUBSTANCE) (tptp.s__instance V__ATOM tptp.s__Atom)) (= V__NUMBER (tptp.s__CardinalityFn (tptp.s__KappaFn V__PROTON |tptp.'(s__part(V__PROTON,V__ATOM) & s__instance(V__PROTON,s__Proton))'|))))))))
% 3.14/3.32 (assume a5715 (tptp.s__instance tptp.s__boilingPoint__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a5716 (tptp.s__domainSubclass tptp.s__boilingPoint__m |"1"| tptp.s__PureSubstance))
% 3.14/3.32 (assume a5717 (tptp.s__domain tptp.s__boilingPoint__m |"2"| tptp.s__TemperatureMeasure))
% 3.14/3.32 (assume a5718 (tptp.s__documentation tptp.s__boilingPoint__m tptp.s__EnglishLanguage |tptp.'The temperature at which a &%PureSubstance changes state from a &%Liquid to a &%Gas.'|))
% 3.14/3.32 (assume a5719 (forall ((V__TEMP $$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)))))
% 3.14/3.32 (assume a5720 (forall ((V__TEMP $$unsorted) (V__BOIL $$unsorted) (V__MELT $$unsorted) (V__X $$unsorted) (V__Y $$unsorted)) (=> (and (tptp.s__instance V__Y tptp.s__SetOrClass) (tptp.s__instance V__X tptp.s__Object) (tptp.s__instance V__MELT tptp.s__RealNumber) (tptp.s__instance V__BOIL tptp.s__RealNumber) (tptp.s__instance V__TEMP tptp.s__RealNumber)) (=> (and (tptp.s__instance V__X V__Y) (tptp.s__subclass V__Y tptp.s__PureSubstance) (tptp.s__boilingPoint V__Y (tptp.s__MeasureFn V__BOIL tptp.s__KelvinDegree)) (tptp.s__meltingPoint V__Y (tptp.s__MeasureFn V__MELT tptp.s__KelvinDegree)) (tptp.s__measure V__X (tptp.s__MeasureFn V__TEMP tptp.s__KelvinDegree)) (tptp.greater V__TEMP V__MELT) (tptp.less V__TEMP V__BOIL)) (tptp.s__attribute V__X tptp.s__Liquid)))))
% 3.14/3.32 (assume a5721 (forall ((V__TEMP $$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)))))
% 3.14/3.32 (assume a5722 (tptp.s__instance tptp.s__meltingPoint__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a5723 (tptp.s__domainSubclass tptp.s__meltingPoint__m |"1"| tptp.s__PureSubstance))
% 3.14/3.32 (assume a5724 (tptp.s__domain tptp.s__meltingPoint__m |"2"| tptp.s__TemperatureMeasure))
% 3.14/3.32 (assume a5725 (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.'|))
% 3.14/3.32 (assume a5726 (forall ((V__BOIL $$unsorted) (V__MELT $$unsorted) (V__TYPE $$unsorted)) (=> (and (tptp.s__subclass V__TYPE tptp.s__PureSubstance) (tptp.s__instance V__TYPE tptp.s__SetOrClass) (tptp.s__instance V__MELT tptp.s__TemperatureMeasure) (tptp.s__instance V__BOIL tptp.s__TemperatureMeasure)) (=> (and (tptp.s__meltingPoint V__TYPE V__MELT) (tptp.s__boilingPoint V__TYPE V__BOIL)) (tptp.greatereq V__BOIL V__MELT)))))
% 3.14/3.32 (assume a5727 (tptp.s__subclass tptp.s__Melting tptp.s__StateChange))
% 3.14/3.32 (assume a5728 (tptp.s__instance tptp.s__Melting__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5729 (tptp.s__documentation tptp.s__Melting tptp.s__EnglishLanguage |tptp.'The &%Class of &%Processes where an &%Object is heated and converted from a &%Solid to a &%Liquid.'|))
% 3.14/3.32 (assume a5730 (forall ((V__MELT $$unsorted)) (=> (tptp.s__instance V__MELT tptp.s__Process) (=> (tptp.s__instance V__MELT tptp.s__Melting) (exists ((V__HEAT $$unsorted)) (and (tptp.s__instance V__HEAT tptp.s__Process) (tptp.s__instance V__HEAT tptp.s__Heating) (tptp.s__subProcess V__HEAT V__MELT)))))))
% 3.14/3.32 (assume a5731 (tptp.s__subclass tptp.s__Boiling tptp.s__StateChange))
% 3.14/3.32 (assume a5732 (tptp.s__instance tptp.s__Boiling__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5733 (tptp.s__documentation tptp.s__Boiling tptp.s__EnglishLanguage |tptp.'The &%Class of &%Processes where a &%Substance is heated and converted from a &%Liquid to a &%Gas.'|))
% 3.14/3.32 (assume a5734 (forall ((V__BOIL $$unsorted)) (=> (tptp.s__instance V__BOIL tptp.s__Process) (=> (tptp.s__instance V__BOIL tptp.s__Boiling) (exists ((V__HEAT $$unsorted)) (and (tptp.s__instance V__HEAT tptp.s__Process) (tptp.s__instance V__HEAT tptp.s__Heating) (tptp.s__subProcess V__HEAT V__BOIL)))))))
% 3.14/3.32 (assume a5735 (tptp.s__subclass tptp.s__Evaporating tptp.s__StateChange))
% 3.14/3.32 (assume a5736 (tptp.s__instance tptp.s__Evaporating__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5737 (tptp.s__documentation tptp.s__Evaporating tptp.s__EnglishLanguage |tptp.'The &%Class of &%Processes where a &%Substance is converted from a &%Liquid to a &%Gas at a temperature below its &%Boiling point.'|))
% 3.14/3.32 (assume a5738 (tptp.s__subclass tptp.s__Condensing tptp.s__StateChange))
% 3.14/3.32 (assume a5739 (tptp.s__instance tptp.s__Condensing__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5740 (tptp.s__instance tptp.s__StateChange__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5741 (tptp.s__documentation tptp.s__Condensing tptp.s__EnglishLanguage |tptp.'The &%Class of &%Processes where an &%Object is cooled and converted from a &%Gas to a &%Liquid.'|))
% 3.14/3.32 (assume a5742 (forall ((V__COND $$unsorted)) (=> (tptp.s__instance V__COND tptp.s__Process) (=> (tptp.s__instance V__COND tptp.s__Condensing) (exists ((V__COOL $$unsorted)) (and (tptp.s__instance V__COOL tptp.s__Process) (tptp.s__instance V__COOL tptp.s__Cooling) (tptp.s__subProcess V__COOL V__COND)))))))
% 3.14/3.32 (assume a5743 (tptp.s__subclass tptp.s__Freezing tptp.s__StateChange))
% 3.14/3.32 (assume a5744 (tptp.s__instance tptp.s__Freezing__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5745 (tptp.s__documentation tptp.s__Freezing tptp.s__EnglishLanguage |tptp.'The &%Class of &%Processes where an &%Object is cooled and converted from a &%Liquid to a &%Solid.'|))
% 3.14/3.32 (assume a5746 (forall ((V__FREEZE $$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)))))))
% 3.14/3.32 (assume a5747 (tptp.s__subclass tptp.s__AstronomicalBody tptp.s__Object))
% 3.14/3.32 (assume a5748 (tptp.s__instance tptp.s__AstronomicalBody__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5749 (tptp.s__disjoint tptp.s__AstronomicalBody tptp.s__GeographicArea))
% 3.14/3.32 (assume a5750 (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.'|))
% 3.14/3.32 (assume a5751 (tptp.s__subclass tptp.s__GeographicArea tptp.s__Region))
% 3.14/3.32 (assume a5752 (tptp.s__instance tptp.s__GeographicArea__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5753 (tptp.s__instance tptp.s__Region__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5754 (tptp.s__partition_3 tptp.s__GeographicArea tptp.s__WaterArea tptp.s__LandArea))
% 3.14/3.32 (assume a5755 (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.'|))
% 3.14/3.32 (assume a5756 (tptp.s__subclass tptp.s__LocalizablePlace tptp.s__GeographicArea))
% 3.14/3.32 (assume a5757 (tptp.s__instance tptp.s__LocalizablePlace__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5758 (tptp.s__instance tptp.s__geographicSubregion__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a5759 (tptp.s__instance tptp.s__geographicSubregion__m tptp.s__TransitiveRelation))
% 3.14/3.32 (assume a5760 (tptp.s__instance tptp.s__geographicSubregion__m tptp.s__AsymmetricRelation))
% 3.14/3.32 (assume a5761 (tptp.s__subrelation tptp.s__geographicSubregion__m tptp.s__properPart__m))
% 3.14/3.32 (assume a5762 (tptp.s__subrelation tptp.s__geographicSubregion__m tptp.s__located__m))
% 3.14/3.32 (assume a5763 (tptp.s__domain tptp.s__geographicSubregion__m |"1"| tptp.s__GeographicArea))
% 3.14/3.32 (assume a5764 (tptp.s__domain tptp.s__geographicSubregion__m |"2"| tptp.s__GeographicArea))
% 3.14/3.32 (assume a5765 (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.'|))
% 3.14/3.32 (assume a5766 (tptp.s__subclass tptp.s__GeopoliticalArea tptp.s__GeographicArea))
% 3.14/3.32 (assume a5767 (tptp.s__subclass tptp.s__GeopoliticalArea tptp.s__Agent))
% 3.14/3.32 (assume a5768 (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.'|))
% 3.14/3.32 (assume a5769 (forall ((V__PERSON $$unsorted) (V__AREA $$unsorted)) (=> (tptp.s__instance V__PERSON tptp.s__Human) (=> (and (tptp.s__instance V__AREA tptp.s__GeopoliticalArea) (tptp.s__leader (tptp.s__GovernmentFn V__AREA) V__PERSON)) (tptp.s__leader V__AREA V__PERSON)))))
% 3.14/3.32 (assume a5770 (forall ((V__PERSON $$unsorted) (V__AREA $$unsorted)) (=> (tptp.s__instance V__PERSON tptp.s__Human) (=> (and (tptp.s__instance V__AREA tptp.s__GeopoliticalArea) (tptp.s__leader V__AREA V__PERSON)) (tptp.s__leader (tptp.s__GovernmentFn V__AREA) V__PERSON)))))
% 3.14/3.32 (assume a5771 (forall ((V__EVENT $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Agent) (tptp.s__instance V__EVENT tptp.s__Process)) (=> (and (tptp.s__instance V__EVENT tptp.s__Election) (tptp.s__agent V__EVENT V__AGENT) (tptp.s__instance V__AGENT tptp.s__GeopoliticalArea)) (tptp.s__instance V__EVENT tptp.s__PoliticalProcess)))))
% 3.14/3.32 (assume a5772 (forall ((V__EVENT $$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)))))
% 3.14/3.32 (assume a5773 (tptp.s__instance tptp.s__geopoliticalSubdivision__m tptp.s__AsymmetricRelation))
% 3.14/3.32 (assume a5774 (tptp.s__instance tptp.s__geopoliticalSubdivision__m tptp.s__TransitiveRelation))
% 3.14/3.32 (assume a5775 (tptp.s__subrelation tptp.s__geopoliticalSubdivision__m tptp.s__geographicSubregion__m))
% 3.14/3.32 (assume a5776 (tptp.s__domain tptp.s__geopoliticalSubdivision__m |"1"| tptp.s__GeopoliticalArea))
% 3.14/3.32 (assume a5777 (tptp.s__domain tptp.s__geopoliticalSubdivision__m |"2"| tptp.s__GeopoliticalArea))
% 3.14/3.32 (assume a5778 (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.'|))
% 3.14/3.32 (assume a5779 (tptp.s__subclass tptp.s__WaterArea tptp.s__GeographicArea))
% 3.14/3.32 (assume a5780 (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.'|))
% 3.14/3.32 (assume a5781 (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))))))
% 3.14/3.32 (assume a5782 (tptp.s__subclass tptp.s__SaltWaterArea tptp.s__WaterArea))
% 3.14/3.32 (assume a5783 (tptp.s__instance tptp.s__SaltWaterArea__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5784 (tptp.s__instance tptp.s__WaterArea__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5785 (tptp.s__disjoint tptp.s__SaltWaterArea tptp.s__FreshWaterArea))
% 3.14/3.32 (assume a5786 (tptp.s__documentation tptp.s__SaltWaterArea tptp.s__EnglishLanguage |tptp.'A &%WaterArea whose &%Water is saline, e.g. oceans and seas.'|))
% 3.14/3.32 (assume a5787 (tptp.s__subclass tptp.s__FreshWaterArea tptp.s__WaterArea))
% 3.14/3.32 (assume a5788 (tptp.s__instance tptp.s__FreshWaterArea__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5789 (tptp.s__documentation tptp.s__FreshWaterArea tptp.s__EnglishLanguage |tptp.'A &%WaterArea whose &%Water is not saline, e.g. most rivers and lakes.'|))
% 3.14/3.32 (assume a5790 (tptp.s__subclass tptp.s__LandArea tptp.s__GeographicArea))
% 3.14/3.32 (assume a5791 (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.'|))
% 3.14/3.32 (assume a5792 (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))))))))
% 3.14/3.32 (assume a5793 (tptp.s__subclass tptp.s__ShoreArea tptp.s__LandArea))
% 3.14/3.32 (assume a5794 (tptp.s__instance tptp.s__ShoreArea__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5795 (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.'|))
% 3.14/3.32 (assume a5796 (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)))))))
% 3.14/3.32 (assume a5797 (tptp.s__subclass tptp.s__Continent tptp.s__LandArea))
% 3.14/3.32 (assume a5798 (tptp.s__instance tptp.s__Continent__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5799 (= (tptp.s__CardinalityFn tptp.s__Continent) |"7"|))
% 3.14/3.32 (assume a5800 (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.'|))
% 3.14/3.32 (assume a5801 (tptp.s__subclass tptp.s__Island tptp.s__LandArea))
% 3.14/3.32 (assume a5802 (tptp.s__instance tptp.s__Island__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5803 (tptp.s__documentation tptp.s__Island tptp.s__EnglishLanguage |tptp.'A &%LandArea that is completely surrounded by a &%WaterArea.'|))
% 3.14/3.32 (assume a5804 (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))))))))
% 3.14/3.32 (assume a5805 (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))))))
% 3.14/3.32 (assume a5806 (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)))))))
% 3.14/3.32 (assume a5807 (tptp.s__subclass tptp.s__Nation tptp.s__GeopoliticalArea))
% 3.14/3.32 (assume a5808 (tptp.s__instance tptp.s__Nation__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5809 (tptp.s__subclass tptp.s__Nation tptp.s__LandArea))
% 3.14/3.32 (assume a5810 (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).'|))
% 3.14/3.32 (assume a5811 (tptp.s__subclass tptp.s__StateOrProvince tptp.s__GeopoliticalArea))
% 3.14/3.32 (assume a5812 (tptp.s__instance tptp.s__StateOrProvince__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5813 (tptp.s__subclass tptp.s__StateOrProvince tptp.s__LandArea))
% 3.14/3.32 (assume a5814 (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.'|))
% 3.14/3.32 (assume a5815 (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)))))))
% 3.14/3.32 (assume a5816 (tptp.s__subclass tptp.s__City tptp.s__GeopoliticalArea))
% 3.14/3.32 (assume a5817 (tptp.s__subclass tptp.s__City tptp.s__LandArea))
% 3.14/3.32 (assume a5818 (tptp.s__instance tptp.s__City__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5819 (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.'|))
% 3.14/3.32 (assume a5820 (tptp.s__subclass tptp.s__County tptp.s__GeopoliticalArea))
% 3.14/3.32 (assume a5821 (tptp.s__instance tptp.s__County__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5822 (tptp.s__instance tptp.s__GeopoliticalArea__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5823 (tptp.s__subclass tptp.s__County tptp.s__LandArea))
% 3.14/3.32 (assume a5824 (tptp.s__instance tptp.s__LandArea__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5825 (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.'|))
% 3.14/3.32 (assume a5826 (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)))))))
% 3.14/3.32 (assume a5827 (tptp.s__subclass tptp.s__Transitway tptp.s__Region))
% 3.14/3.32 (assume a5828 (tptp.s__subclass tptp.s__Transitway tptp.s__SelfConnectedObject))
% 3.14/3.32 (assume a5829 (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.'|))
% 3.14/3.32 (assume a5830 (tptp.s__subclass tptp.s__LandTransitway tptp.s__Transitway))
% 3.14/3.32 (assume a5831 (tptp.s__instance tptp.s__LandTransitway__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5832 (tptp.s__instance tptp.s__Transitway__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5833 (tptp.s__subclass tptp.s__LandTransitway tptp.s__LandArea))
% 3.14/3.32 (assume a5834 (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.'|))
% 3.14/3.32 (assume a5835 (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)))'|)))))
% 3.14/3.32 (assume a5836 (tptp.s__subclass tptp.s__Roadway tptp.s__LandTransitway))
% 3.14/3.32 (assume a5837 (tptp.s__instance tptp.s__Roadway__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5838 (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.'|))
% 3.14/3.32 (assume a5839 (tptp.s__subclass tptp.s__Water tptp.s__CompoundSubstance))
% 3.14/3.32 (assume a5840 (tptp.s__instance tptp.s__Water__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5841 (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.'|))
% 3.14/3.32 (assume a5842 (tptp.s__subclass tptp.s__Mineral tptp.s__Substance))
% 3.14/3.32 (assume a5843 (tptp.s__instance tptp.s__Mineral__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5844 (tptp.s__instance tptp.s__Substance__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5845 (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.'|))
% 3.14/3.32 (assume a5846 (tptp.s__instance tptp.s__developmentalForm__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a5847 (tptp.s__instance tptp.s__developmentalForm__m tptp.s__AsymmetricRelation))
% 3.14/3.32 (assume a5848 (tptp.s__instance tptp.s__developmentalForm__m tptp.s__TransitiveRelation))
% 3.14/3.32 (assume a5849 (tptp.s__subrelation tptp.s__developmentalForm__m tptp.s__attribute__m))
% 3.14/3.32 (assume a5850 (tptp.s__domain tptp.s__developmentalForm__m |"1"| tptp.s__OrganicObject))
% 3.14/3.32 (assume a5851 (tptp.s__domain tptp.s__developmentalForm__m |"2"| tptp.s__DevelopmentalAttribute))
% 3.14/3.32 (assume a5852 (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.'|))
% 3.14/3.32 (assume a5853 (tptp.s__subclass tptp.s__OrganicObject tptp.s__CorpuscularObject))
% 3.14/3.32 (assume a5854 (tptp.s__instance tptp.s__OrganicObject__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5855 (tptp.s__instance tptp.s__CorpuscularObject__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5856 (tptp.s__subclass tptp.s__OrganicObject tptp.s__OrganicThing))
% 3.14/3.32 (assume a5857 (tptp.s__instance tptp.s__OrganicThing__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5858 (tptp.s__partition_3 tptp.s__OrganicObject tptp.s__Organism tptp.s__AnatomicalStructure))
% 3.14/3.32 (assume a5859 (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.'|))
% 3.14/3.32 (assume a5860 (tptp.s__subclass tptp.s__Organism tptp.s__OrganicObject))
% 3.14/3.32 (assume a5861 (tptp.s__subclass tptp.s__Organism tptp.s__Agent))
% 3.14/3.32 (assume a5862 (tptp.s__disjoint tptp.s__Organism tptp.s__Artifact))
% 3.14/3.32 (assume a5863 (tptp.s__partition_4 tptp.s__Organism tptp.s__Animal tptp.s__Plant tptp.s__Microorganism))
% 3.14/3.32 (assume a5864 (tptp.s__documentation tptp.s__Organism tptp.s__EnglishLanguage |tptp.'Generally, a living individual, including all &%Plants and &%Animals.'|))
% 3.14/3.32 (assume a5865 (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)))))))
% 3.14/3.32 (assume a5866 (tptp.s__instance tptp.s__inhabits__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a5867 (tptp.s__instance tptp.s__inhabits__m tptp.s__AsymmetricRelation))
% 3.14/3.32 (assume a5868 (tptp.s__domain tptp.s__inhabits__m |"1"| tptp.s__Organism))
% 3.14/3.32 (assume a5869 (tptp.s__domain tptp.s__inhabits__m |"2"| tptp.s__Object))
% 3.14/3.32 (assume a5870 (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.'|))
% 3.14/3.32 (assume a5871 (tptp.s__subrelation tptp.s__home__m tptp.s__inhabits__m))
% 3.14/3.32 (assume a5872 (tptp.s__domain tptp.s__home__m |"1"| tptp.s__Human))
% 3.14/3.32 (assume a5873 (tptp.s__domain tptp.s__home__m |"2"| tptp.s__PermanentResidence))
% 3.14/3.32 (assume a5874 (tptp.s__documentation tptp.s__home__m tptp.s__EnglishLanguage |tptp.'The relation between a &%Human and a &%PermanentResidence of the &%Human.'|))
% 3.14/3.32 (assume a5875 (tptp.s__subrelation tptp.s__stays__m tptp.s__inhabits__m))
% 3.14/3.32 (assume a5876 (tptp.s__disjointRelation tptp.s__stays__m tptp.s__home__m))
% 3.14/3.32 (assume a5877 (tptp.s__domain tptp.s__stays__m |"1"| tptp.s__Human))
% 3.14/3.32 (assume a5878 (tptp.s__domain tptp.s__stays__m |"2"| tptp.s__TemporaryResidence))
% 3.14/3.32 (assume a5879 (tptp.s__documentation tptp.s__stays__m tptp.s__EnglishLanguage |tptp.'The relation between a &%Human and a &%TemporaryResidence of the &%Human.'|))
% 3.14/3.32 (assume a5880 (tptp.s__subclass tptp.s__Plant tptp.s__Organism))
% 3.14/3.32 (assume a5881 (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.'|))
% 3.14/3.32 (assume a5882 (tptp.s__subclass tptp.s__FloweringPlant tptp.s__Plant))
% 3.14/3.32 (assume a5883 (tptp.s__instance tptp.s__FloweringPlant__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5884 (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.'|))
% 3.14/3.32 (assume a5885 (tptp.s__subclass tptp.s__NonFloweringPlant tptp.s__Plant))
% 3.14/3.32 (assume a5886 (tptp.s__instance tptp.s__NonFloweringPlant__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5887 (tptp.s__instance tptp.s__Plant__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5888 (tptp.s__disjoint tptp.s__NonFloweringPlant tptp.s__FloweringPlant))
% 3.14/3.32 (assume a5889 (tptp.s__disjointDecomposition_4 tptp.s__NonFloweringPlant tptp.s__Alga tptp.s__Fern tptp.s__Moss))
% 3.14/3.32 (assume a5890 (tptp.s__documentation tptp.s__NonFloweringPlant tptp.s__EnglishLanguage |tptp.'A &%Plant that reproduces with spores and does not produce flowers.'|))
% 3.14/3.32 (assume a5891 (tptp.s__subclass tptp.s__Alga tptp.s__NonFloweringPlant))
% 3.14/3.32 (assume a5892 (tptp.s__instance tptp.s__Alga__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5893 (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.'|))
% 3.14/3.32 (assume a5894 (forall ((V__ALGA $$unsorted)) (=> (tptp.s__instance V__ALGA tptp.s__Organism) (=> (tptp.s__instance V__ALGA tptp.s__Alga) (exists ((V__WATER $$unsorted)) (and (tptp.s__instance V__WATER tptp.s__Object) (tptp.s__inhabits V__ALGA V__WATER) (tptp.s__instance V__WATER tptp.s__Water)))))))
% 3.14/3.32 (assume a5895 (tptp.s__subclass tptp.s__Fungus tptp.s__Organism))
% 3.14/3.32 (assume a5896 (tptp.s__instance tptp.s__Fungus__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5897 (tptp.s__documentation tptp.s__Fungus tptp.s__EnglishLanguage |tptp.'A eukaryotic &%Organism characterized by the absence of chlorophyll and the presence of rigid cell walls. Included here are both slime molds and true fungi such as yeasts, molds, mildews, and mushrooms.'|))
% 3.14/3.32 (assume a5898 (forall ((V__OBJ $$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)))))
% 3.14/3.32 (assume a5899 (tptp.s__subclass tptp.s__Moss tptp.s__NonFloweringPlant))
% 3.14/3.32 (assume a5900 (tptp.s__instance tptp.s__Moss__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5901 (tptp.s__documentation tptp.s__Moss tptp.s__EnglishLanguage |tptp.'A &%NonFloweringPlant without true roots and little if any vascular tissue.'|))
% 3.14/3.32 (assume a5902 (tptp.s__subclass tptp.s__Fern tptp.s__NonFloweringPlant))
% 3.14/3.32 (assume a5903 (tptp.s__instance tptp.s__Fern__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5904 (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.'|))
% 3.14/3.32 (assume a5905 (tptp.s__subclass tptp.s__Animal tptp.s__Organism))
% 3.14/3.32 (assume a5906 (tptp.s__partition_3 tptp.s__Animal tptp.s__Vertebrate tptp.s__Invertebrate))
% 3.14/3.32 (assume a5907 (tptp.s__documentation tptp.s__Animal tptp.s__EnglishLanguage |tptp.'An &%Organism with eukaryotic &%Cells, and lacking stiff cell walls, plastids, and photosynthetic pigments.'|))
% 3.14/3.32 (assume a5908 (tptp.s__subclass tptp.s__Microorganism tptp.s__Organism))
% 3.14/3.32 (assume a5909 (tptp.s__instance tptp.s__Microorganism__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5910 (tptp.s__instance tptp.s__Organism__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5911 (tptp.s__documentation tptp.s__Microorganism tptp.s__EnglishLanguage |tptp.'An &%Organism that can be seen only with the aid of a microscope.'|))
% 3.14/3.32 (assume a5912 (tptp.s__subclass tptp.s__Bacterium tptp.s__Microorganism))
% 3.14/3.32 (assume a5913 (tptp.s__instance tptp.s__Bacterium__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5914 (tptp.s__documentation tptp.s__Bacterium tptp.s__EnglishLanguage |tptp.'A small, typically one-celled, prokaryotic &%Microorganism.'|))
% 3.14/3.32 (assume a5915 (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)))))))))
% 3.14/3.32 (assume a5916 (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)))))
% 3.14/3.32 (assume a5917 (tptp.s__subclass tptp.s__Virus tptp.s__Microorganism))
% 3.14/3.32 (assume a5918 (tptp.s__instance tptp.s__Virus__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5919 (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.'|))
% 3.14/3.32 (assume a5920 (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)))))
% 3.14/3.32 (assume a5921 (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)))))))
% 3.14/3.32 (assume a5922 (tptp.s__subclass tptp.s__Vertebrate tptp.s__Animal))
% 3.14/3.32 (assume a5923 (tptp.s__documentation tptp.s__Vertebrate tptp.s__EnglishLanguage |tptp.'An &%Animal which has a spinal column.'|))
% 3.14/3.32 (assume a5924 (tptp.s__subclass tptp.s__Invertebrate tptp.s__Animal))
% 3.14/3.32 (assume a5925 (tptp.s__instance tptp.s__Invertebrate__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5926 (tptp.s__instance tptp.s__Animal__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5927 (tptp.s__disjointDecomposition_4 tptp.s__Invertebrate tptp.s__Worm tptp.s__Mollusk tptp.s__Arthropod))
% 3.14/3.32 (assume a5928 (tptp.s__documentation tptp.s__Invertebrate tptp.s__EnglishLanguage |tptp.'An &%Animal which has no spinal column.'|))
% 3.14/3.32 (assume a5929 (tptp.s__subclass tptp.s__Worm tptp.s__Invertebrate))
% 3.14/3.32 (assume a5930 (tptp.s__instance tptp.s__Worm__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5931 (tptp.s__documentation tptp.s__Worm tptp.s__EnglishLanguage |tptp.'Long, narrow, soft-bodied &%Invertebrates.'|))
% 3.14/3.32 (assume a5932 (tptp.s__subclass tptp.s__Mollusk tptp.s__Invertebrate))
% 3.14/3.32 (assume a5933 (tptp.s__instance tptp.s__Mollusk__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5934 (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.'|))
% 3.14/3.32 (assume a5935 (tptp.s__subclass tptp.s__Arthropod tptp.s__Invertebrate))
% 3.14/3.32 (assume a5936 (tptp.s__disjointDecomposition_5 tptp.s__Arthropod tptp.s__Arachnid tptp.s__Myriapod tptp.s__Insect tptp.s__Crustacean))
% 3.14/3.32 (assume a5937 (tptp.s__documentation tptp.s__Arthropod tptp.s__EnglishLanguage |tptp.'A &%Class of &%Invertebrate that includes &%Arachnids and &%Insects.'|))
% 3.14/3.32 (assume a5938 (tptp.s__subclass tptp.s__Arachnid tptp.s__Arthropod))
% 3.14/3.32 (assume a5939 (tptp.s__instance tptp.s__Arachnid__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5940 (tptp.s__instance tptp.s__Arthropod__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5941 (tptp.s__documentation tptp.s__Arachnid tptp.s__EnglishLanguage |tptp.'A &%Class of &%Arthropods that includes ticks and spiders.'|))
% 3.14/3.32 (assume a5942 (tptp.s__subclass tptp.s__Myriapod tptp.s__Arthropod))
% 3.14/3.32 (assume a5943 (tptp.s__instance tptp.s__Myriapod__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5944 (tptp.s__documentation tptp.s__Myriapod tptp.s__EnglishLanguage |tptp.'A &%Class of &%Arthropods that includes centipedes and millipedes.'|))
% 3.14/3.32 (assume a5945 (tptp.s__subclass tptp.s__Insect tptp.s__Arthropod))
% 3.14/3.32 (assume a5946 (tptp.s__instance tptp.s__Insect__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5947 (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.'|))
% 3.14/3.32 (assume a5948 (tptp.s__subclass tptp.s__Crustacean tptp.s__Arthropod))
% 3.14/3.32 (assume a5949 (tptp.s__instance tptp.s__Crustacean__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5950 (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.'|))
% 3.14/3.32 (assume a5951 (tptp.s__subclass tptp.s__ColdBloodedVertebrate tptp.s__Vertebrate))
% 3.14/3.32 (assume a5952 (tptp.s__instance tptp.s__Vertebrate__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5953 (tptp.s__disjointDecomposition_4 tptp.s__ColdBloodedVertebrate tptp.s__Amphibian tptp.s__Fish tptp.s__Reptile))
% 3.14/3.32 (assume a5954 (tptp.s__documentation tptp.s__ColdBloodedVertebrate tptp.s__EnglishLanguage |tptp.'&%Vertebrates whose body temperature is not internally regulated.'|))
% 3.14/3.32 (assume a5955 (tptp.s__subclass tptp.s__WarmBloodedVertebrate tptp.s__Vertebrate))
% 3.14/3.32 (assume a5956 (tptp.s__disjoint tptp.s__WarmBloodedVertebrate tptp.s__ColdBloodedVertebrate))
% 3.14/3.32 (assume a5957 (tptp.s__documentation tptp.s__WarmBloodedVertebrate tptp.s__EnglishLanguage |tptp.'&%Vertebrates whose body temperature is internally regulated.'|))
% 3.14/3.32 (assume a5958 (tptp.s__subclass tptp.s__Amphibian tptp.s__ColdBloodedVertebrate))
% 3.14/3.32 (assume a5959 (tptp.s__instance tptp.s__Amphibian__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5960 (tptp.s__instance tptp.s__ColdBloodedVertebrate__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5961 (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.'|))
% 3.14/3.32 (assume a5962 (tptp.s__subclass tptp.s__Bird tptp.s__WarmBloodedVertebrate))
% 3.14/3.32 (assume a5963 (tptp.s__instance tptp.s__Bird__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5964 (tptp.s__instance tptp.s__WarmBloodedVertebrate__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5965 (tptp.s__disjoint tptp.s__Bird tptp.s__Mammal))
% 3.14/3.32 (assume a5966 (tptp.s__documentation tptp.s__Bird tptp.s__EnglishLanguage |tptp.'A &%Vertebrate having a constant body temperature and characterized by the presence of feathers.'|))
% 3.14/3.32 (assume a5967 (tptp.s__subclass tptp.s__Fish tptp.s__ColdBloodedVertebrate))
% 3.14/3.32 (assume a5968 (tptp.s__instance tptp.s__Fish__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5969 (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.'|))
% 3.14/3.32 (assume a5970 (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)))))))
% 3.14/3.32 (assume a5971 (tptp.s__subclass tptp.s__Mammal tptp.s__WarmBloodedVertebrate))
% 3.14/3.32 (assume a5972 (tptp.s__disjointDecomposition_6 tptp.s__Mammal tptp.s__AquaticMammal tptp.s__HoofedMammal tptp.s__Marsupial tptp.s__Rodent tptp.s__Primate))
% 3.14/3.32 (assume a5973 (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.'|))
% 3.14/3.32 (assume a5974 (tptp.s__subclass tptp.s__AquaticMammal tptp.s__Mammal))
% 3.14/3.32 (assume a5975 (tptp.s__instance tptp.s__AquaticMammal__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5976 (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.'|))
% 3.14/3.32 (assume a5977 (tptp.s__subclass tptp.s__HoofedMammal tptp.s__Mammal))
% 3.14/3.32 (assume a5978 (tptp.s__instance tptp.s__HoofedMammal__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5979 (tptp.s__documentation tptp.s__HoofedMammal tptp.s__EnglishLanguage |tptp.'The &%Class of quadruped &%Mammals with hooves. Includes horses, cows, sheep, pigs, antelope, etc.'|))
% 3.14/3.32 (assume a5980 (tptp.s__subclass tptp.s__Marsupial tptp.s__Mammal))
% 3.14/3.32 (assume a5981 (tptp.s__instance tptp.s__Marsupial__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5982 (tptp.s__instance tptp.s__Mammal__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5983 (tptp.s__documentation tptp.s__Marsupial tptp.s__EnglishLanguage |tptp.'The &%Class of &%Mammals which have a pouch for their young.'|))
% 3.14/3.32 (assume a5984 (tptp.s__subclass tptp.s__Carnivore tptp.s__Mammal))
% 3.14/3.32 (assume a5985 (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.'|))
% 3.14/3.32 (assume a5986 (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)))))
% 3.14/3.32 (assume a5987 (tptp.s__subclass tptp.s__Canine tptp.s__Carnivore))
% 3.14/3.32 (assume a5988 (tptp.s__instance tptp.s__Canine__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5989 (tptp.s__instance tptp.s__Carnivore__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5990 (tptp.s__disjoint tptp.s__Canine tptp.s__Feline))
% 3.14/3.32 (assume a5991 (tptp.s__documentation tptp.s__Canine tptp.s__EnglishLanguage |tptp.'The &%Class of &%Carnivores with completely separable toes, nonretractable claws, and long muzzles.'|))
% 3.14/3.32 (assume a5992 (tptp.s__subclass tptp.s__Feline tptp.s__Carnivore))
% 3.14/3.32 (assume a5993 (tptp.s__instance tptp.s__Feline__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5994 (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.'|))
% 3.14/3.32 (assume a5995 (tptp.s__subclass tptp.s__Rodent tptp.s__Mammal))
% 3.14/3.32 (assume a5996 (tptp.s__instance tptp.s__Rodent__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a5997 (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.'|))
% 3.14/3.32 (assume a5998 (tptp.s__subclass tptp.s__Primate tptp.s__Mammal))
% 3.14/3.32 (assume a5999 (tptp.s__disjointDecomposition_4 tptp.s__Primate tptp.s__Ape tptp.s__Monkey tptp.s__Hominid))
% 3.14/3.32 (assume a6000 (tptp.s__documentation tptp.s__Primate tptp.s__EnglishLanguage |tptp.'The &%Class of &%Mammals which are &%Primates.'|))
% 3.14/3.32 (assume a6001 (tptp.s__subclass tptp.s__Ape tptp.s__Primate))
% 3.14/3.32 (assume a6002 (tptp.s__instance tptp.s__Ape__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6003 (tptp.s__documentation tptp.s__Ape tptp.s__EnglishLanguage |tptp.'Various &%Primates with no tails or only short tails.'|))
% 3.14/3.32 (assume a6004 (tptp.s__subclass tptp.s__Monkey tptp.s__Primate))
% 3.14/3.32 (assume a6005 (tptp.s__instance tptp.s__Monkey__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6006 (tptp.s__instance tptp.s__Primate__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6007 (tptp.s__documentation tptp.s__Monkey tptp.s__EnglishLanguage |tptp.'Various &%Primates with relatively long tails.'|))
% 3.14/3.32 (assume a6008 (tptp.s__subclass tptp.s__Hominid tptp.s__Primate))
% 3.14/3.32 (assume a6009 (tptp.s__instance tptp.s__Hominid__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6010 (tptp.s__documentation tptp.s__Hominid tptp.s__EnglishLanguage |tptp.'Includes &%Humans and relatively recent ancestors of &%Humans.'|))
% 3.14/3.32 (assume a6011 (tptp.s__subclass tptp.s__Human tptp.s__Hominid))
% 3.14/3.32 (assume a6012 (tptp.s__subclass tptp.s__Human tptp.s__CognitiveAgent))
% 3.14/3.32 (assume a6013 (tptp.s__instance tptp.s__CognitiveAgent__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6014 (tptp.s__partition_3 tptp.s__Human tptp.s__Man tptp.s__Woman))
% 3.14/3.32 (assume a6015 (tptp.s__documentation tptp.s__Human tptp.s__EnglishLanguage |tptp.'Modern man, the only remaining species of the Homo genus.'|))
% 3.14/3.32 (assume a6016 (tptp.s__subclass tptp.s__Man tptp.s__Human))
% 3.14/3.32 (assume a6017 (tptp.s__instance tptp.s__Man__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6018 (tptp.s__documentation tptp.s__Man tptp.s__EnglishLanguage |tptp.'The class of &%Male &%Humans.'|))
% 3.14/3.32 (assume a6019 (forall ((V__MAN $$unsorted)) (=> (tptp.s__instance V__MAN tptp.s__Object) (=> (tptp.s__instance V__MAN tptp.s__Man) (tptp.s__attribute V__MAN tptp.s__Male)))))
% 3.14/3.32 (assume a6020 (tptp.s__subclass tptp.s__Woman tptp.s__Human))
% 3.14/3.32 (assume a6021 (tptp.s__instance tptp.s__Woman__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6022 (tptp.s__instance tptp.s__Human__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6023 (tptp.s__documentation tptp.s__Woman tptp.s__EnglishLanguage |tptp.'The class of &%Female &%Humans.'|))
% 3.14/3.32 (assume a6024 (forall ((V__WOMAN $$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)))))
% 3.14/3.32 (assume a6025 (tptp.s__subclass tptp.s__Reptile tptp.s__ColdBloodedVertebrate))
% 3.14/3.32 (assume a6026 (tptp.s__instance tptp.s__Reptile__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6027 (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.'|))
% 3.14/3.32 (assume a6028 (tptp.s__subclass tptp.s__BiologicallyActiveSubstance tptp.s__Substance))
% 3.14/3.32 (assume a6029 (tptp.s__instance tptp.s__BiologicallyActiveSubstance__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6030 (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.'|))
% 3.14/3.32 (assume a6031 (tptp.s__subclass tptp.s__Nutrient tptp.s__BiologicallyActiveSubstance))
% 3.14/3.32 (assume a6032 (tptp.s__disjointDecomposition_4 tptp.s__Nutrient tptp.s__Protein tptp.s__Carbohydrate tptp.s__Vitamin))
% 3.14/3.32 (assume a6033 (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.'|))
% 3.14/3.32 (assume a6034 (tptp.s__subclass tptp.s__Protein tptp.s__Nutrient))
% 3.14/3.32 (assume a6035 (tptp.s__instance tptp.s__Protein__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6036 (tptp.s__instance tptp.s__Nutrient__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6037 (tptp.s__documentation tptp.s__Protein tptp.s__EnglishLanguage |tptp.'A &%Nutrient made up of amino acids joined by peptide bonds.'|))
% 3.14/3.32 (assume a6038 (tptp.s__subclass tptp.s__Enzyme tptp.s__Protein))
% 3.14/3.32 (assume a6039 (tptp.s__instance tptp.s__Enzyme__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6040 (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.'|))
% 3.14/3.32 (assume a6041 (tptp.s__subclass tptp.s__Carbohydrate tptp.s__Nutrient))
% 3.14/3.32 (assume a6042 (tptp.s__instance tptp.s__Carbohydrate__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6043 (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.'|))
% 3.14/3.32 (assume a6044 (tptp.s__subclass tptp.s__Vitamin tptp.s__Nutrient))
% 3.14/3.32 (assume a6045 (tptp.s__instance tptp.s__Vitamin__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6046 (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.'|))
% 3.14/3.32 (assume a6047 (tptp.s__subclass tptp.s__LiquidMixture tptp.s__Mixture))
% 3.14/3.32 (assume a6048 (tptp.s__partition_3 tptp.s__LiquidMixture tptp.s__Solution tptp.s__Suspension))
% 3.14/3.32 (assume a6049 (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.'|))
% 3.14/3.32 (assume a6050 (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)))))))
% 3.14/3.32 (assume a6051 (tptp.s__subclass tptp.s__Solution tptp.s__LiquidMixture))
% 3.14/3.32 (assume a6052 (tptp.s__instance tptp.s__Solution__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6053 (tptp.s__instance tptp.s__LiquidMixture__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6054 (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.'|))
% 3.14/3.32 (assume a6055 (tptp.s__subclass tptp.s__Suspension tptp.s__LiquidMixture))
% 3.14/3.32 (assume a6056 (tptp.s__instance tptp.s__Suspension__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6057 (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.'|))
% 3.14/3.32 (assume a6058 (tptp.s__subclass tptp.s__GasMixture tptp.s__Mixture))
% 3.14/3.32 (assume a6059 (tptp.s__instance tptp.s__Mixture__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6060 (tptp.s__disjoint tptp.s__GasMixture tptp.s__LiquidMixture))
% 3.14/3.32 (assume a6061 (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.'|))
% 3.14/3.32 (assume a6062 (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)))))))
% 3.14/3.32 (assume a6063 (tptp.s__subclass tptp.s__Cloud tptp.s__GasMixture))
% 3.14/3.32 (assume a6064 (tptp.s__instance tptp.s__Cloud__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6065 (tptp.s__instance tptp.s__GasMixture__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6066 (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.'|))
% 3.14/3.32 (assume a6067 (forall ((V__CLOUD $$unsorted)) (=> (tptp.s__instance V__CLOUD tptp.s__Object) (=> (tptp.s__instance V__CLOUD tptp.s__Cloud) (tptp.s__capability tptp.s__Seeing tptp.s__patient__m V__CLOUD)))))
% 3.14/3.32 (assume a6068 (tptp.s__subclass tptp.s__Smoke tptp.s__Cloud))
% 3.14/3.32 (assume a6069 (tptp.s__instance tptp.s__Smoke__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6070 (tptp.s__documentation tptp.s__Smoke tptp.s__EnglishLanguage |tptp.'A mixture of fine particles suspended in a gas that is produced by &%Combustion.'|))
% 3.14/3.32 (assume a6071 (forall ((V__SMOKE $$unsorted)) (=> (tptp.s__instance V__SMOKE tptp.s__Smoke) (exists ((V__BURNING $$unsorted)) (and (tptp.s__instance V__BURNING tptp.s__Process) (tptp.s__instance V__BURNING tptp.s__Combustion) (tptp.s__result V__BURNING V__SMOKE))))))
% 3.14/3.32 (assume a6072 (tptp.s__subclass tptp.s__WaterCloud tptp.s__Cloud))
% 3.14/3.32 (assume a6073 (tptp.s__instance tptp.s__WaterCloud__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6074 (tptp.s__documentation tptp.s__WaterCloud tptp.s__EnglishLanguage |tptp.'Any &%Cloud that is composed primarily of water vapor.'|))
% 3.14/3.32 (assume a6075 (forall ((V__CLOUD $$unsorted)) (=> (tptp.s__instance V__CLOUD tptp.s__Object) (=> (tptp.s__instance V__CLOUD tptp.s__WaterCloud) (exists ((V__WATER $$unsorted)) (and (tptp.s__instance V__WATER tptp.s__Object) (tptp.s__instance V__WATER tptp.s__Water) (tptp.s__part V__WATER V__CLOUD)))))))
% 3.14/3.32 (assume a6076 (forall ((V__MEASURE2 $$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)))))))))
% 3.14/3.32 (assume a6077 (tptp.s__subclass tptp.s__Air tptp.s__GasMixture))
% 3.14/3.32 (assume a6078 (tptp.s__instance tptp.s__Air__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6079 (tptp.s__documentation tptp.s__Air tptp.s__EnglishLanguage |tptp.'&%Air is the gaseous stuff that makes up the atmosphere surrounding Earth.'|))
% 3.14/3.32 (assume a6080 (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)))))))
% 3.14/3.32 (assume a6081 (tptp.s__subclass tptp.s__BodySubstance tptp.s__Substance))
% 3.14/3.32 (assume a6082 (tptp.s__instance tptp.s__BodySubstance__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6083 (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.'|))
% 3.14/3.32 (assume a6084 (tptp.s__subclass tptp.s__AnimalSubstance tptp.s__BodySubstance))
% 3.14/3.32 (assume a6085 (tptp.s__documentation tptp.s__AnimalSubstance tptp.s__EnglishLanguage |tptp.'&%BodySubstances that are produced exclusively by &%Animals.'|))
% 3.14/3.32 (assume a6086 (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)))))
% 3.14/3.32 (assume a6087 (tptp.s__subclass tptp.s__PlantSubstance tptp.s__BodySubstance))
% 3.14/3.32 (assume a6088 (tptp.s__instance tptp.s__PlantSubstance__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6089 (tptp.s__documentation tptp.s__PlantSubstance tptp.s__EnglishLanguage |tptp.'&%BodySubstances that are produced exclusively by &%Plants.'|))
% 3.14/3.32 (assume a6090 (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)))))
% 3.14/3.32 (assume a6091 (tptp.s__subclass tptp.s__Hormone tptp.s__BodySubstance))
% 3.14/3.32 (assume a6092 (tptp.s__instance tptp.s__Hormone__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6093 (tptp.s__subclass tptp.s__Hormone tptp.s__BiologicallyActiveSubstance))
% 3.14/3.32 (assume a6094 (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.'|))
% 3.14/3.32 (assume a6095 (forall ((V__HORMONE $$unsorted)) (=> (tptp.s__instance V__HORMONE tptp.s__Hormone) (exists ((V__PROCESS $$unsorted) (V__GLAND $$unsorted)) (and (tptp.s__instance V__GLAND tptp.s__Object) (tptp.s__instance V__PROCESS tptp.s__Process) (tptp.s__instance V__GLAND tptp.s__Gland) (tptp.s__instrument V__PROCESS V__GLAND) (tptp.s__result V__PROCESS V__HORMONE))))))
% 3.14/3.32 (assume a6096 (tptp.s__subclass tptp.s__Blood tptp.s__BodySubstance))
% 3.14/3.32 (assume a6097 (tptp.s__instance tptp.s__Blood__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6098 (tptp.s__documentation tptp.s__Blood tptp.s__EnglishLanguage |tptp.'A fluid present in &%Animals that transports &%Nutrients to and waste products away from various &%BodyParts.'|))
% 3.14/3.32 (assume a6099 (tptp.s__instance tptp.s__FoodForFn__m tptp.s__UnaryFunction))
% 3.14/3.32 (assume a6100 (tptp.s__domainSubclass tptp.s__FoodForFn__m |"1"| tptp.s__Organism))
% 3.14/3.32 (assume a6101 (tptp.s__rangeSubclass tptp.s__FoodForFn__m tptp.s__SelfConnectedObject))
% 3.14/3.32 (assume a6102 (tptp.s__documentation tptp.s__FoodForFn__m tptp.s__EnglishLanguage |tptp.'A &%Function that denotes &%SelfConnectedObject containing &%Nutrients, such as carbohydrates, proteins, and fats, that can be ingested by a the given class of living &%Animal and metabolized into energy and body tissue.'|))
% 3.14/3.32 (assume a6103 (forall ((V__A $$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)))))))
% 3.14/3.32 (assume a6104 (tptp.s__subclass tptp.s__Meat tptp.s__SelfConnectedObject))
% 3.14/3.32 (assume a6105 (tptp.s__instance tptp.s__Meat__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6106 (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.'|))
% 3.14/3.32 (assume a6107 (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 $$unsorted)) (and (tptp.s__instance V__ANIMAL tptp.s__Object) (tptp.s__instance V__TIME tptp.s__TimePosition) (tptp.s__instance V__SUBPART tptp.s__Object) (tptp.s__part V__SUBPART V__PART) (tptp.s__holdsDuring V__TIME |tptp.'(s__instance(V__ANIMAL,s__Animal) & s__part(V__SUBPART,V__ANIMAL))'|)))))))))
% 3.14/3.32 (assume a6108 (tptp.s__subclass tptp.s__AnatomicalStructure tptp.s__OrganicObject))
% 3.14/3.32 (assume a6109 (tptp.s__partition_3 tptp.s__AnatomicalStructure tptp.s__BodyPart tptp.s__AbnormalAnatomicalStructure))
% 3.14/3.32 (assume a6110 (tptp.s__partition_3 tptp.s__AnatomicalStructure tptp.s__AnimalAnatomicalStructure tptp.s__PlantAnatomicalStructure))
% 3.14/3.32 (assume a6111 (tptp.s__documentation tptp.s__AnatomicalStructure tptp.s__EnglishLanguage |tptp.'A normal or pathological part of the anatomy or structural organization of an &%Organism. This class covers &%BodyParts, as well as structures that are given off by &%Organisms, e.g. &%ReproductiveBodies.'|))
% 3.14/3.32 (assume a6112 (forall ((V__PART $$unsorted)) (=> (tptp.s__instance V__PART tptp.s__Object) (=> (tptp.s__instance V__PART tptp.s__AnatomicalStructure) (exists ((V__CELL $$unsorted)) (and (tptp.s__instance V__CELL tptp.s__Object) (tptp.s__instance V__CELL tptp.s__Cell) (tptp.s__part V__CELL V__PART)))))))
% 3.14/3.32 (assume a6113 (tptp.s__subclass tptp.s__AbnormalAnatomicalStructure tptp.s__AnatomicalStructure))
% 3.14/3.32 (assume a6114 (tptp.s__instance tptp.s__AbnormalAnatomicalStructure__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6115 (tptp.s__instance tptp.s__AnatomicalStructure__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6116 (tptp.s__documentation tptp.s__AbnormalAnatomicalStructure tptp.s__EnglishLanguage |tptp.'Any &%AnatomicalStructure which is not normally found in the &%Organism of which it is a part, i.e. it is the result of a &%PathologicProcess. This class covers tumors, birth marks, goiters, etc.'|))
% 3.14/3.32 (assume a6117 (forall ((V__STRUCTURE $$unsorted)) (=> (tptp.s__instance V__STRUCTURE tptp.s__AbnormalAnatomicalStructure) (exists ((V__PROC $$unsorted)) (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__PROC tptp.s__PathologicProcess) (tptp.s__result V__PROC V__STRUCTURE))))))
% 3.14/3.32 (assume a6118 (tptp.s__subclass tptp.s__BodyPart tptp.s__AnatomicalStructure))
% 3.14/3.32 (assume a6119 (tptp.s__documentation tptp.s__BodyPart tptp.s__EnglishLanguage |tptp.'A collection of &%Cells and &%Tissues which are localized to a specific area of an &%Organism and which are not pathological. The instances of this &%Class range from gross structures to small components of complex &%Organs.'|))
% 3.14/3.32 (assume a6120 (forall ((V__PART $$unsorted)) (=> (tptp.s__instance V__PART tptp.s__BodyPart) (exists ((V__PROC $$unsorted)) (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__PROC tptp.s__PhysiologicProcess) (tptp.s__result V__PROC V__PART))))))
% 3.14/3.32 (assume a6121 (tptp.s__subclass tptp.s__AnimalAnatomicalStructure tptp.s__AnatomicalStructure))
% 3.14/3.32 (assume a6122 (tptp.s__instance tptp.s__AnimalAnatomicalStructure__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6123 (tptp.s__documentation tptp.s__AnimalAnatomicalStructure tptp.s__EnglishLanguage |tptp.'&%AnatomicalStructures that are possessed exclusively by &%Animals.'|))
% 3.14/3.32 (assume a6124 (forall ((V__STRUCTURE $$unsorted) (V__ANIMAL $$unsorted)) (=> (and (tptp.s__instance V__ANIMAL tptp.s__Object) (tptp.s__instance V__STRUCTURE tptp.s__Object)) (=> (and (tptp.s__instance V__STRUCTURE tptp.s__AnimalAnatomicalStructure) (tptp.s__instance V__ANIMAL tptp.s__Organism) (tptp.s__part V__STRUCTURE V__ANIMAL)) (tptp.s__instance V__ANIMAL tptp.s__Animal)))))
% 3.14/3.32 (assume a6125 (tptp.s__subclass tptp.s__PlantAnatomicalStructure tptp.s__AnatomicalStructure))
% 3.14/3.32 (assume a6126 (tptp.s__documentation tptp.s__PlantAnatomicalStructure tptp.s__EnglishLanguage |tptp.'&%AnatomicalStructures that are possessed exclusively by &%Plants.'|))
% 3.14/3.32 (assume a6127 (forall ((V__STRUCTURE $$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)))))
% 3.14/3.32 (assume a6128 (tptp.s__subclass tptp.s__ReproductiveBody tptp.s__BodyPart))
% 3.14/3.32 (assume a6129 (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.'|))
% 3.14/3.32 (assume a6130 (tptp.s__subclass tptp.s__Egg tptp.s__ReproductiveBody))
% 3.14/3.32 (assume a6131 (tptp.s__instance tptp.s__Egg__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6132 (tptp.s__subclass tptp.s__Egg tptp.s__AnimalAnatomicalStructure))
% 3.14/3.32 (assume a6133 (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.'|))
% 3.14/3.32 (assume a6134 (tptp.s__subclass tptp.s__Seed tptp.s__ReproductiveBody))
% 3.14/3.32 (assume a6135 (tptp.s__instance tptp.s__Seed__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6136 (tptp.s__instance tptp.s__ReproductiveBody__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6137 (tptp.s__subclass tptp.s__Seed tptp.s__PlantAnatomicalStructure))
% 3.14/3.32 (assume a6138 (tptp.s__instance tptp.s__PlantAnatomicalStructure__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6139 (tptp.s__documentation tptp.s__Seed tptp.s__EnglishLanguage |tptp.'The fertilized or unfertilized female &%ReproductiveBody of a &%FloweringPlant.'|))
% 3.14/3.32 (assume a6140 (tptp.s__subclass tptp.s__Pollen tptp.s__ReproductiveBody))
% 3.14/3.32 (assume a6141 (tptp.s__instance tptp.s__Pollen__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6142 (tptp.s__subclass tptp.s__Pollen tptp.s__PlantAnatomicalStructure))
% 3.14/3.32 (assume a6143 (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.'|))
% 3.14/3.32 (assume a6144 (tptp.s__subclass tptp.s__FruitOrVegetable tptp.s__PlantAnatomicalStructure))
% 3.14/3.32 (assume a6145 (tptp.s__instance tptp.s__FruitOrVegetable__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6146 (tptp.s__subclass tptp.s__FruitOrVegetable tptp.s__ReproductiveBody))
% 3.14/3.32 (assume a6147 (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.'|))
% 3.14/3.32 (assume a6148 (tptp.s__subclass tptp.s__Spore tptp.s__ReproductiveBody))
% 3.14/3.32 (assume a6149 (tptp.s__instance tptp.s__Spore__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6150 (tptp.s__subclass tptp.s__Spore tptp.s__PlantAnatomicalStructure))
% 3.14/3.32 (assume a6151 (tptp.s__documentation tptp.s__Spore tptp.s__EnglishLanguage |tptp.'Any &%ReproductiveBody of a &%NonFloweringPlant.'|))
% 3.14/3.32 (assume a6152 (tptp.s__subclass tptp.s__BodyCovering tptp.s__BodyPart))
% 3.14/3.32 (assume a6153 (tptp.s__instance tptp.s__BodyCovering__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6154 (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.'|))
% 3.14/3.32 (assume a6155 (forall ((V__COVER $$unsorted)) (=> (tptp.s__instance V__COVER tptp.s__Object) (=> (tptp.s__instance V__COVER tptp.s__BodyCovering) (exists ((V__BODY $$unsorted)) (and (tptp.s__instance V__BODY tptp.s__Object) (tptp.s__superficialPart V__COVER V__BODY) (or (tptp.s__instance V__BODY tptp.s__Organism) (tptp.s__instance V__BODY tptp.s__BodyPart))))))))
% 3.14/3.32 (assume a6156 (tptp.s__subclass tptp.s__BodyJunction tptp.s__BodyPart))
% 3.14/3.32 (assume a6157 (tptp.s__instance tptp.s__BodyJunction__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6158 (tptp.s__documentation tptp.s__BodyJunction tptp.s__EnglishLanguage |tptp.'The place where two &%BodyParts meet or connect.'|))
% 3.14/3.32 (assume a6159 (forall ((V__JUNCT $$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)))))))
% 3.14/3.32 (assume a6160 (tptp.s__subclass tptp.s__BodyCavity tptp.s__BodyPart))
% 3.14/3.32 (assume a6161 (tptp.s__instance tptp.s__BodyCavity__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6162 (tptp.s__instance tptp.s__BodyPart__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6163 (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.'|))
% 3.14/3.32 (assume a6164 (tptp.s__subclass tptp.s__BodyVessel tptp.s__BodyCavity))
% 3.14/3.32 (assume a6165 (tptp.s__instance tptp.s__BodyVessel__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6166 (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.'|))
% 3.14/3.32 (assume a6167 (tptp.s__subclass tptp.s__Cell tptp.s__BodyPart))
% 3.14/3.32 (assume a6168 (tptp.s__instance tptp.s__Cell__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6169 (tptp.s__documentation tptp.s__Cell tptp.s__EnglishLanguage |tptp.'The fundamental structural and functional unit of living &%Organisms.'|))
% 3.14/3.32 (assume a6170 (tptp.s__subclass tptp.s__Organ tptp.s__BodyPart))
% 3.14/3.32 (assume a6171 (tptp.s__instance tptp.s__Organ__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6172 (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.'|))
% 3.14/3.32 (assume a6173 (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)))))))
% 3.14/3.32 (assume a6174 (tptp.s__subclass tptp.s__Gland tptp.s__Organ))
% 3.14/3.32 (assume a6175 (tptp.s__instance tptp.s__Gland__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6176 (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.'|))
% 3.14/3.32 (assume a6177 (tptp.s__subclass tptp.s__Tissue tptp.s__BodySubstance))
% 3.14/3.32 (assume a6178 (tptp.s__disjointDecomposition_4 tptp.s__Tissue tptp.s__Bone tptp.s__Muscle tptp.s__FatTissue))
% 3.14/3.32 (assume a6179 (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).'|))
% 3.14/3.32 (assume a6180 (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)))))))
% 3.14/3.32 (assume a6181 (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)))))))
% 3.14/3.32 (assume a6182 (tptp.s__subclass tptp.s__Bone tptp.s__Tissue))
% 3.14/3.32 (assume a6183 (tptp.s__instance tptp.s__Tissue__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6184 (tptp.s__subclass tptp.s__Bone tptp.s__AnimalSubstance))
% 3.14/3.32 (assume a6185 (tptp.s__instance tptp.s__Bone__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6186 (tptp.s__instance tptp.s__AnimalSubstance__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6187 (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.'|))
% 3.14/3.32 (assume a6188 (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)))))))
% 3.14/3.32 (assume a6189 (tptp.s__subclass tptp.s__Muscle tptp.s__Tissue))
% 3.14/3.32 (assume a6190 (tptp.s__instance tptp.s__Muscle__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6191 (tptp.s__subclass tptp.s__Muscle tptp.s__AnimalSubstance))
% 3.14/3.32 (assume a6192 (tptp.s__documentation tptp.s__Muscle tptp.s__EnglishLanguage |tptp.'Nonrigid &%Tissue appearing only in &%Animals and composed largely of contractile cells.'|))
% 3.14/3.32 (assume a6193 (tptp.s__subclass tptp.s__FatTissue tptp.s__Tissue))
% 3.14/3.32 (assume a6194 (tptp.s__instance tptp.s__FatTissue__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6195 (tptp.s__documentation tptp.s__FatTissue tptp.s__EnglishLanguage |tptp.'Nonrigid &%Tissue that is composed largely of fat cells.'|))
% 3.14/3.32 (assume a6196 (tptp.s__subclass tptp.s__Noun tptp.s__Word))
% 3.14/3.32 (assume a6197 (tptp.s__instance tptp.s__Noun__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6198 (tptp.s__partition_6 tptp.s__Word tptp.s__Noun tptp.s__Verb tptp.s__Adjective tptp.s__Adverb tptp.s__ParticleWord))
% 3.14/3.32 (assume a6199 (tptp.s__documentation tptp.s__Noun tptp.s__EnglishLanguage |tptp.'One of the parts of speech. The &%Class of &%Words that conventionally denote &%Objects.'|))
% 3.14/3.32 (assume a6200 (tptp.s__subclass tptp.s__Verb tptp.s__Word))
% 3.14/3.32 (assume a6201 (tptp.s__instance tptp.s__Verb__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6202 (tptp.s__instance tptp.s__Word__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6203 (tptp.s__documentation tptp.s__Verb tptp.s__EnglishLanguage |tptp.'One of the parts of speech. The &%Class of &%Words that conventionally denote &%Processes.'|))
% 3.14/3.32 (assume a6204 (tptp.s__subclass tptp.s__Adjective tptp.s__Word))
% 3.14/3.32 (assume a6205 (tptp.s__instance tptp.s__Adjective__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6206 (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.'|))
% 3.14/3.32 (assume a6207 (tptp.s__subclass tptp.s__Adverb tptp.s__Word))
% 3.14/3.32 (assume a6208 (tptp.s__instance tptp.s__Adverb__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6209 (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.'|))
% 3.14/3.32 (assume a6210 (tptp.s__subclass tptp.s__ParticleWord tptp.s__Word))
% 3.14/3.32 (assume a6211 (tptp.s__instance tptp.s__ParticleWord__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6212 (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.'|))
% 3.14/3.32 (assume a6213 (tptp.s__subclass tptp.s__Morpheme tptp.s__LinguisticExpression))
% 3.14/3.32 (assume a6214 (tptp.s__instance tptp.s__Morpheme__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6215 (tptp.s__documentation tptp.s__Morpheme tptp.s__EnglishLanguage |tptp.'Part of a &%Word which cannot be subdivided and which expresses a meaning.'|))
% 3.14/3.32 (assume a6216 (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)))))))))
% 3.14/3.32 (assume a6217 (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)))))))
% 3.14/3.32 (assume a6218 (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)))))))
% 3.14/3.32 (assume a6219 (tptp.s__subclass tptp.s__Phrase tptp.s__LinguisticExpression))
% 3.14/3.32 (assume a6220 (tptp.s__disjointDecomposition_4 tptp.s__Phrase tptp.s__VerbPhrase tptp.s__NounPhrase tptp.s__PrepositionalPhrase))
% 3.14/3.32 (assume a6221 (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.'|))
% 3.14/3.32 (assume a6222 (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 $$unsorted)) (and (tptp.s__instance V__PART2 tptp.s__Object) (tptp.s__instance V__PART1 tptp.s__Object) (tptp.s__part V__PART1 V__PHRASE) (tptp.s__part V__PART2 V__PHRASE) (tptp.s__instance V__PART1 tptp.s__Word) (tptp.s__instance V__PART2 tptp.s__Word) (not (= V__PART1 V__PART2))))))))
% 3.14/3.32 (assume a6223 (tptp.s__subclass tptp.s__VerbPhrase tptp.s__Phrase))
% 3.14/3.32 (assume a6224 (tptp.s__instance tptp.s__VerbPhrase__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6225 (tptp.s__documentation tptp.s__VerbPhrase tptp.s__EnglishLanguage |tptp.'A &%Phrase that has the same function as a &%Verb.'|))
% 3.14/3.32 (assume a6226 (forall ((V__PHRASE $$unsorted)) (=> (tptp.s__instance V__PHRASE tptp.s__Object) (=> (tptp.s__instance V__PHRASE tptp.s__VerbPhrase) (exists ((V__VERB $$unsorted)) (and (tptp.s__instance V__VERB tptp.s__Object) (tptp.s__instance V__VERB tptp.s__Verb) (tptp.s__part V__VERB V__PHRASE)))))))
% 3.14/3.32 (assume a6227 (tptp.s__subclass tptp.s__NounPhrase tptp.s__Phrase))
% 3.14/3.32 (assume a6228 (tptp.s__instance tptp.s__NounPhrase__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6229 (tptp.s__instance tptp.s__Phrase__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6230 (tptp.s__disjoint tptp.s__NounPhrase tptp.s__VerbPhrase))
% 3.14/3.32 (assume a6231 (tptp.s__documentation tptp.s__NounPhrase tptp.s__EnglishLanguage |tptp.'A &%Phrase that has the same function as a &%Noun.'|))
% 3.14/3.32 (assume a6232 (forall ((V__SENTENCE $$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)))))))
% 3.14/3.32 (assume a6233 (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)))))))
% 3.14/3.32 (assume a6234 (tptp.s__subclass tptp.s__PrepositionalPhrase tptp.s__Phrase))
% 3.14/3.32 (assume a6235 (tptp.s__instance tptp.s__PrepositionalPhrase__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6236 (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.'|))
% 3.14/3.32 (assume a6237 (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)))))))
% 3.14/3.32 (assume a6238 (tptp.s__subclass tptp.s__Text tptp.s__LinguisticExpression))
% 3.14/3.32 (assume a6239 (tptp.s__instance tptp.s__LinguisticExpression__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6240 (tptp.s__subclass tptp.s__Text tptp.s__ContentBearingObject))
% 3.14/3.32 (assume a6241 (tptp.s__instance tptp.s__ContentBearingObject__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6242 (tptp.s__subclass tptp.s__Text tptp.s__Artifact))
% 3.14/3.32 (assume a6243 (tptp.s__instance tptp.s__Artifact__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6244 (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.'|))
% 3.14/3.32 (assume a6245 (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)))))))
% 3.14/3.32 (assume a6246 (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))))))
% 3.14/3.32 (assume a6247 (tptp.s__subclass tptp.s__FactualText tptp.s__Text))
% 3.14/3.32 (assume a6248 (tptp.s__instance tptp.s__FactualText__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6249 (tptp.s__instance tptp.s__Text__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6250 (tptp.s__disjoint tptp.s__FactualText tptp.s__FictionalText))
% 3.14/3.32 (assume a6251 (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.'|))
% 3.14/3.32 (assume a6252 (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)))))
% 3.14/3.32 (assume a6253 (tptp.s__subclass tptp.s__FictionalText tptp.s__Text))
% 3.14/3.32 (assume a6254 (tptp.s__instance tptp.s__FictionalText__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6255 (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.'|))
% 3.14/3.32 (assume a6256 (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))))))))
% 3.14/3.32 (assume a6257 (tptp.s__subclass tptp.s__Sentence tptp.s__LinguisticExpression))
% 3.14/3.32 (assume a6258 (tptp.s__instance tptp.s__Sentence__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6259 (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.'|))
% 3.14/3.32 (assume a6260 (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)))))))
% 3.14/3.32 (assume a6261 (tptp.s__instance tptp.s__authors__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a6262 (tptp.s__instance tptp.s__authors__m tptp.s__AsymmetricRelation))
% 3.14/3.32 (assume a6263 (tptp.s__domain tptp.s__authors__m |"1"| tptp.s__Agent))
% 3.14/3.32 (assume a6264 (tptp.s__domainSubclass tptp.s__authors__m |"2"| tptp.s__Text))
% 3.14/3.32 (assume a6265 (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.'|))
% 3.14/3.32 (assume a6266 (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)))))))
% 3.14/3.32 (assume a6267 (tptp.s__instance tptp.s__editor__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a6268 (tptp.s__instance tptp.s__editor__m tptp.s__AsymmetricRelation))
% 3.14/3.32 (assume a6269 (tptp.s__domain tptp.s__editor__m |"1"| tptp.s__Agent))
% 3.14/3.32 (assume a6270 (tptp.s__domainSubclass tptp.s__editor__m |"2"| tptp.s__Text))
% 3.14/3.32 (assume a6271 (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.'|))
% 3.14/3.32 (assume a6272 (tptp.s__instance tptp.s__publishes__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a6273 (tptp.s__instance tptp.s__publishes__m tptp.s__AsymmetricRelation))
% 3.14/3.32 (assume a6274 (tptp.s__domain tptp.s__publishes__m |"1"| tptp.s__Organization))
% 3.14/3.32 (assume a6275 (tptp.s__domainSubclass tptp.s__publishes__m |"2"| tptp.s__Text))
% 3.14/3.32 (assume a6276 (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.'|))
% 3.14/3.32 (assume a6277 (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)))))))
% 3.14/3.32 (assume a6278 (tptp.s__instance tptp.s__EditionFn__m tptp.s__BinaryFunction))
% 3.14/3.32 (assume a6279 (tptp.s__instance tptp.s__EditionFn__m tptp.s__PartialValuedRelation))
% 3.14/3.32 (assume a6280 (tptp.s__domainSubclass tptp.s__EditionFn__m |"1"| tptp.s__ContentBearingObject))
% 3.14/3.32 (assume a6281 (tptp.s__domain tptp.s__EditionFn__m |"2"| tptp.s__PositiveInteger))
% 3.14/3.32 (assume a6282 (tptp.s__rangeSubclass tptp.s__EditionFn__m tptp.s__ContentBearingObject))
% 3.14/3.32 (assume a6283 (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.'|))
% 3.14/3.32 (assume a6284 (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 $$unsorted)) (=> (and (tptp.s__subclass V__TEXT tptp.s__ContentBearingObject) (tptp.s__instance V__TEXT tptp.s__SetOrClass) (tptp.s__instance V__DATE1 tptp.s__Day) (tptp.s__instance V__INT1 tptp.s__PositiveInteger) (tptp.s__instance V__DATE2 tptp.s__Day) (tptp.s__instance V__INT2 tptp.s__PositiveInteger) (tptp.s__instance V__PUB2 tptp.s__Process) (tptp.s__instance V__EDITION2 tptp.s__SetOrClass) (tptp.s__instance V__EDITION1 tptp.s__SetOrClass) (tptp.s__instance V__PUB1 tptp.s__Process)) (=> (and (= (tptp.s__EditionFn V__TEXT V__INT1) V__EDITION1) (= (tptp.s__EditionFn V__TEXT V__INT2) V__EDITION2) (tptp.greater V__INT2 V__INT1) (tptp.s__instance V__PUB1 tptp.s__Publication) (tptp.s__instance V__PUB2 tptp.s__Publication) (tptp.s__instance V__CBO1 V__EDITION1) (tptp.s__instance V__CBO2 V__EDITION2) (tptp.s__patient V__PUB1 V__CBO1) (tptp.s__patient V__PUB2 V__CBO2) (tptp.s__date V__PUB1 V__DATE1) (tptp.s__date V__PUB2 V__DATE2)) (tptp.s__before (tptp.s__EndFn V__DATE1) (tptp.s__EndFn V__DATE2))))))
% 3.14/3.32 (assume a6285 (forall ((V__NUMBER $$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)))))
% 3.14/3.32 (assume a6286 (tptp.s__subclass tptp.s__Summary tptp.s__Text))
% 3.14/3.32 (assume a6287 (tptp.s__instance tptp.s__Summary__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6288 (tptp.s__documentation tptp.s__Summary tptp.s__EnglishLanguage |tptp.'A short &%Text that is a summary of another, longer &%Text.'|))
% 3.14/3.32 (assume a6289 (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)))))))
% 3.14/3.32 (assume a6290 (tptp.s__subclass tptp.s__Certificate tptp.s__Text))
% 3.14/3.32 (assume a6291 (tptp.s__instance tptp.s__Certificate__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6292 (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.'|))
% 3.14/3.32 (assume a6293 (forall ((V__DOC $$unsorted)) (=> (tptp.s__instance V__DOC tptp.s__Certificate) (exists ((V__PROP $$unsorted) (V__NORM $$unsorted)) (and (tptp.s__instance V__NORM tptp.s__ObjectiveNorm) (tptp.s__instance V__PROP tptp.s__Formula) (or (tptp.s__confersNorm V__DOC V__PROP V__NORM) (tptp.s__deprivesNorm V__DOC V__PROP V__NORM)))))))
% 3.14/3.32 (assume a6294 (tptp.s__subclass tptp.s__FinancialInstrument tptp.s__Certificate))
% 3.14/3.32 (assume a6295 (tptp.s__instance tptp.s__FinancialInstrument__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6296 (tptp.s__documentation tptp.s__FinancialInstrument tptp.s__EnglishLanguage |tptp.'A document having monetary value or recording a monetary transaction'|))
% 3.14/3.32 (assume a6297 (tptp.s__subclass tptp.s__Currency tptp.s__FinancialInstrument))
% 3.14/3.32 (assume a6298 (tptp.s__instance tptp.s__Currency__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6299 (tptp.s__documentation tptp.s__Currency tptp.s__EnglishLanguage |tptp.'Any element of the official currrency of some &%Nation. This covers both &%CurrencyBills and &%CurrencyCoins.'|))
% 3.14/3.32 (assume a6300 (forall ((V__CURRENCY $$unsorted)) (=> (tptp.s__instance V__CURRENCY tptp.s__Physical) (=> (tptp.s__instance V__CURRENCY tptp.s__Currency) (exists ((V__MEASURE $$unsorted)) (and (tptp.s__instance V__MEASURE tptp.s__CurrencyMeasure) (tptp.s__monetaryValue V__CURRENCY V__MEASURE)))))))
% 3.14/3.32 (assume a6301 (tptp.s__subclass tptp.s__Patent tptp.s__Certificate))
% 3.14/3.32 (assume a6302 (tptp.s__instance tptp.s__Patent__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6303 (tptp.s__documentation tptp.s__Patent tptp.s__EnglishLanguage |tptp.'A &%Certificate that expresses the content of an invention that has been accorded legal protection by a governemental entity.'|))
% 3.14/3.32 (assume a6304 (tptp.s__subclass tptp.s__Molecule tptp.s__CompoundSubstance))
% 3.14/3.32 (assume a6305 (tptp.s__instance tptp.s__Molecule__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6306 (tptp.s__instance tptp.s__CompoundSubstance__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6307 (tptp.s__documentation tptp.s__Molecule tptp.s__EnglishLanguage |tptp.'A molecule is the smallest unit of matter of a &%CompoundSubstance that retains all the physical and chemical properties of that substance, e.g., Ne, H2, H2O. A molecule is two or more &%Atoms linked by a chemical bond.'|))
% 3.14/3.32 (assume a6308 (forall ((V__MOLE $$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))))))))
% 3.14/3.32 (assume a6309 (tptp.s__subclass tptp.s__Artifact tptp.s__Object))
% 3.14/3.32 (assume a6310 (tptp.s__instance tptp.s__Object__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6311 (tptp.s__documentation tptp.s__Artifact tptp.s__EnglishLanguage |tptp.'An &%Object that is the product of a &%Making.'|))
% 3.14/3.32 (assume a6312 (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))))))
% 3.14/3.32 (assume a6313 (tptp.s__subclass tptp.s__Product tptp.s__Artifact))
% 3.14/3.32 (assume a6314 (tptp.s__instance tptp.s__Product__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6315 (tptp.s__documentation tptp.s__Product tptp.s__EnglishLanguage |tptp.'An &%Artifact that is produced by &%Manufacture.'|))
% 3.14/3.32 (assume a6316 (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))))))
% 3.14/3.32 (assume a6317 (tptp.s__instance tptp.s__version__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a6318 (tptp.s__instance tptp.s__version__m tptp.s__AsymmetricRelation))
% 3.14/3.32 (assume a6319 (tptp.s__instance tptp.s__version__m tptp.s__TransitiveRelation))
% 3.14/3.32 (assume a6320 (tptp.s__domainSubclass tptp.s__version__m |"1"| tptp.s__Artifact))
% 3.14/3.32 (assume a6321 (tptp.s__domainSubclass tptp.s__version__m |"2"| tptp.s__Artifact))
% 3.14/3.32 (assume a6322 (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.'|))
% 3.14/3.32 (assume a6323 (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)))))
% 3.14/3.32 (assume a6324 (tptp.s__subclass tptp.s__StationaryArtifact tptp.s__Artifact))
% 3.14/3.32 (assume a6325 (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.'|))
% 3.14/3.32 (assume a6326 (tptp.s__subclass tptp.s__Building tptp.s__StationaryArtifact))
% 3.14/3.32 (assume a6327 (tptp.s__instance tptp.s__Building__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6328 (tptp.s__documentation tptp.s__Building tptp.s__EnglishLanguage |tptp.'The Class of &%StationaryArtifacts which are intended to house &%Humans and their activities.'|))
% 3.14/3.32 (assume a6329 (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 $$unsorted)) (and (tptp.s__instance V__ACT tptp.s__Process) (tptp.s__instance V__HUMAN tptp.s__Organism) (tptp.s__agent V__ACT V__HUMAN) (tptp.s__located V__ACT V__BUILDING))))))))))
% 3.14/3.32 (assume a6330 (tptp.s__subclass tptp.s__Room tptp.s__StationaryArtifact))
% 3.14/3.32 (assume a6331 (tptp.s__instance tptp.s__Room__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6332 (tptp.s__instance tptp.s__StationaryArtifact__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6333 (tptp.s__disjoint tptp.s__Room tptp.s__Building))
% 3.14/3.32 (assume a6334 (tptp.s__documentation tptp.s__Room tptp.s__EnglishLanguage |tptp.'A &%properPart of a &%Building which is separated from the exterior of the &%Building and/or other &%Rooms of the &%Building by walls. Some &%Rooms may have a specific purpose, e.g. sleeping, bathing, cooking, entertainment, etc.'|))
% 3.14/3.32 (assume a6335 (forall ((V__ROOM $$unsorted)) (=> (tptp.s__instance V__ROOM tptp.s__Object) (=> (tptp.s__instance V__ROOM tptp.s__Room) (exists ((V__BUILD $$unsorted)) (and (tptp.s__instance V__BUILD tptp.s__Object) (tptp.s__instance V__BUILD tptp.s__Building) (tptp.s__properPart V__ROOM V__BUILD)))))))
% 3.14/3.32 (assume a6336 (tptp.s__subclass tptp.s__House tptp.s__ResidentialBuilding))
% 3.14/3.32 (assume a6337 (tptp.s__instance tptp.s__ResidentialBuilding__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6338 (tptp.s__subclass tptp.s__House tptp.s__SingleFamilyResidence))
% 3.14/3.32 (assume a6339 (tptp.s__instance tptp.s__House__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6340 (tptp.s__instance tptp.s__SingleFamilyResidence__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6341 (tptp.s__documentation tptp.s__House tptp.s__EnglishLanguage |tptp.'A &%ResidentialBuilding which is intended to be inhabited by members of the same &%SocialUnit. &%Houses are distinguished from temporary housing like hotels and multi-family dwellings like condominium and apartment buildings.'|))
% 3.14/3.32 (assume a6342 (tptp.s__subclass tptp.s__Residence tptp.s__StationaryArtifact))
% 3.14/3.32 (assume a6343 (tptp.s__partition_3 tptp.s__Residence tptp.s__PermanentResidence tptp.s__TemporaryResidence))
% 3.14/3.32 (assume a6344 (tptp.s__documentation tptp.s__Residence tptp.s__EnglishLanguage |tptp.'A &%Building or part of a &%Building which provides some accomodation for sleeping.'|))
% 3.14/3.32 (assume a6345 (forall ((V__RESIDENCE $$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 $$unsorted)) (and (tptp.s__instance V__BUILDING tptp.s__Object) (tptp.s__instance V__BUILDING tptp.s__ResidentialBuilding) (tptp.s__part V__RESIDENCE V__BUILDING))))))))
% 3.14/3.32 (assume a6346 (tptp.s__subclass tptp.s__PermanentResidence tptp.s__Residence))
% 3.14/3.32 (assume a6347 (tptp.s__instance tptp.s__PermanentResidence__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6348 (tptp.s__instance tptp.s__Residence__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6349 (tptp.s__documentation tptp.s__PermanentResidence tptp.s__EnglishLanguage |tptp.'A &%Residence where people live, i.e. where people have a &%home.'|))
% 3.14/3.32 (assume a6350 (forall ((V__RESIDENCE $$unsorted)) (=> (tptp.s__instance V__RESIDENCE tptp.s__PermanentResidence) (exists ((V__PERSON $$unsorted)) (and (tptp.s__instance V__PERSON tptp.s__Human) (tptp.s__home V__PERSON V__RESIDENCE))))))
% 3.14/3.32 (assume a6351 (tptp.s__subclass tptp.s__TemporaryResidence tptp.s__Residence))
% 3.14/3.32 (assume a6352 (tptp.s__instance tptp.s__TemporaryResidence__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6353 (tptp.s__documentation tptp.s__TemporaryResidence tptp.s__EnglishLanguage |tptp.'A &%Residence which is strictly temporary, i.e. where no one makes his/her &%home.'|))
% 3.14/3.32 (assume a6354 (forall ((V__RESIDENCE $$unsorted)) (=> (tptp.s__instance V__RESIDENCE tptp.s__PermanentResidence) (=> (tptp.s__instance V__RESIDENCE tptp.s__TemporaryResidence) (not (exists ((V__PERSON $$unsorted)) (and (tptp.s__instance V__PERSON tptp.s__Human) (tptp.s__home V__PERSON V__RESIDENCE))))))))
% 3.14/3.32 (assume a6355 (tptp.s__subclass tptp.s__ResidentialBuilding tptp.s__Building))
% 3.14/3.32 (assume a6356 (tptp.s__subclass tptp.s__ResidentialBuilding tptp.s__Residence))
% 3.14/3.32 (assume a6357 (tptp.s__documentation tptp.s__ResidentialBuilding tptp.s__EnglishLanguage |tptp.'A &%Building which provides some accomodation for sleeping. Note that this class does not cover just permanent residences, e.g. &%Houses and condominium and apartment buildings, but also temporary residences, e.g. hotels and dormitories. &%ResidentialBuildings are also distinguished from &%CommercialBuildings, which are intended to serve an organizational rather than a residential function.'|))
% 3.14/3.32 (assume a6358 (tptp.s__subclass tptp.s__SingleFamilyResidence tptp.s__PermanentResidence))
% 3.14/3.32 (assume a6359 (tptp.s__documentation tptp.s__SingleFamilyResidence tptp.s__EnglishLanguage |tptp.'A &%PermanentResidence which is intended to be the &%home of a single &%SocialUnit. This class covers &%Houses, &%ApartmentUnits, and &%CondominiumUnits.'|))
% 3.14/3.32 (assume a6360 (forall ((V__RESIDENCE $$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))))))'|))))
% 3.14/3.32 (assume a6361 (tptp.s__subclass tptp.s__ArtWork tptp.s__Artifact))
% 3.14/3.32 (assume a6362 (tptp.s__instance tptp.s__ArtWork__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6363 (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.'|))
% 3.14/3.32 (assume a6364 (tptp.s__subclass tptp.s__RepresentationalArtWork tptp.s__ArtWork))
% 3.14/3.32 (assume a6365 (tptp.s__subclass tptp.s__RepresentationalArtWork tptp.s__Icon))
% 3.14/3.32 (assume a6366 (tptp.s__instance tptp.s__RepresentationalArtWork__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6367 (tptp.s__documentation tptp.s__RepresentationalArtWork tptp.s__EnglishLanguage |tptp.'Any &%ArtWork that represents something &%Physical.'|))
% 3.14/3.32 (assume a6368 (tptp.s__subclass tptp.s__Fabric tptp.s__Artifact))
% 3.14/3.32 (assume a6369 (tptp.s__instance tptp.s__Fabric__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6370 (tptp.s__disjoint tptp.s__Fabric tptp.s__StationaryArtifact))
% 3.14/3.32 (assume a6371 (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.'|))
% 3.14/3.32 (assume a6372 (tptp.s__subclass tptp.s__WearableItem tptp.s__Artifact))
% 3.14/3.32 (assume a6373 (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.'|))
% 3.14/3.32 (assume a6374 (tptp.s__subclass tptp.s__Clothing tptp.s__WearableItem))
% 3.14/3.32 (assume a6375 (tptp.s__instance tptp.s__Clothing__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6376 (tptp.s__instance tptp.s__WearableItem__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6377 (tptp.s__disjoint tptp.s__Clothing tptp.s__StationaryArtifact))
% 3.14/3.32 (assume a6378 (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.'|))
% 3.14/3.32 (assume a6379 (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)))))))
% 3.14/3.32 (assume a6380 (tptp.s__instance tptp.s__wears__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a6381 (tptp.s__domain tptp.s__wears__m |"1"| tptp.s__Animal))
% 3.14/3.32 (assume a6382 (tptp.s__domain tptp.s__wears__m |"2"| tptp.s__WearableItem))
% 3.14/3.32 (assume a6383 (tptp.s__documentation tptp.s__wears__m tptp.s__EnglishLanguage |tptp.'(&%wears ?AGENT ?WI) means that ?AGENT is wearing the &%WearableItem item ?WI.'|))
% 3.14/3.32 (assume a6384 (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)))))
% 3.14/3.32 (assume a6385 (forall ((V__P $$unsorted) (V__A $$unsorted) (V__C $$unsorted)) (=> (and (tptp.s__instance V__C tptp.s__WearableItem) (tptp.s__instance V__A tptp.s__Animal) (tptp.s__instance V__P tptp.s__WearableItem)) (=> (and (tptp.s__wears V__A V__C) (tptp.s__part V__P V__C)) (tptp.s__wears V__A V__P)))))
% 3.14/3.32 (assume a6386 (tptp.s__subclass tptp.s__Device tptp.s__Artifact))
% 3.14/3.32 (assume a6387 (tptp.s__documentation tptp.s__Device tptp.s__EnglishLanguage |tptp.'A &%Device is an &%Artifact whose purpose is to serve as an &%instrument in a specific subclass of &%Process.'|))
% 3.14/3.32 (assume a6388 (forall ((V__DEVICE $$unsorted)) (=> (tptp.s__instance V__DEVICE tptp.s__Object) (=> (tptp.s__instance V__DEVICE tptp.s__Device) (exists ((V__PROC $$unsorted)) (and (tptp.s__subclass V__PROC tptp.s__Process) (tptp.s__capability V__PROC tptp.s__instrument__m V__DEVICE)))))))
% 3.14/3.32 (assume a6389 (forall ((V__DEVICE $$unsorted)) (=> (tptp.s__instance V__DEVICE tptp.s__Object) (=> (tptp.s__instance V__DEVICE tptp.s__Device) (exists ((V__PROC $$unsorted)) (tptp.s__hasPurpose V__DEVICE |tptp.'(? [V__INST] : (s__instance(V__INST,s__Process) & s__instance(V__PROC,s__SetOrClass) & s__instance(V__INST,V__PROC) & s__instrument(V__INST,V__DEVICE)))'|))))))
% 3.14/3.32 (assume a6390 (tptp.s__subclass tptp.s__MusicalInstrument tptp.s__Device))
% 3.14/3.32 (assume a6391 (tptp.s__instance tptp.s__MusicalInstrument__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6392 (tptp.s__documentation tptp.s__MusicalInstrument tptp.s__EnglishLanguage |tptp.'A &%Device which is manipulated by a &%Human and whose purpose is &%MakingMusic.'|))
% 3.14/3.32 (assume a6393 (forall ((V__INSTRUMENT $$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)))))
% 3.14/3.32 (assume a6394 (tptp.s__subclass tptp.s__TransportationDevice tptp.s__Device))
% 3.14/3.32 (assume a6395 (tptp.s__instance tptp.s__TransportationDevice__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6396 (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.'|))
% 3.14/3.32 (assume a6397 (forall ((V__DEVICE $$unsorted)) (=> (tptp.s__instance V__DEVICE tptp.s__Object) (=> (tptp.s__instance V__DEVICE tptp.s__TransportationDevice) (tptp.s__capability tptp.s__Transportation tptp.s__instrument__m V__DEVICE)))))
% 3.14/3.32 (assume a6398 (tptp.s__subclass tptp.s__Vehicle tptp.s__TransportationDevice))
% 3.14/3.32 (assume a6399 (tptp.s__instance tptp.s__Vehicle__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6400 (tptp.s__documentation tptp.s__Vehicle tptp.s__EnglishLanguage |tptp.'&%Vehicle is the subclass of &%TransportationDevices that transport passengers or goods from one place to another by moving from one place to the other with them, e.g., cars, trucks, ferries, and airplanes. Contrast with devices such as pipelines, escalators, or supermarket checkout belts, which carry items from one place to another by means of a moving part, without the device removing from the origin to the destination.'|))
% 3.14/3.32 (assume a6401 (tptp.s__subclass tptp.s__MeasuringDevice tptp.s__Device))
% 3.14/3.32 (assume a6402 (tptp.s__instance tptp.s__MeasuringDevice__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6403 (tptp.s__documentation tptp.s__MeasuringDevice tptp.s__EnglishLanguage |tptp.'Any &%Device whose purpose is to measure a &%PhysicalQuantity.'|))
% 3.14/3.32 (assume a6404 (forall ((V__DEVICE $$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)))'|)))))
% 3.14/3.32 (assume a6405 (tptp.s__subclass tptp.s__AttachingDevice tptp.s__Device))
% 3.14/3.32 (assume a6406 (tptp.s__instance tptp.s__AttachingDevice__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6407 (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.'|))
% 3.14/3.32 (assume a6408 (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)))))))
% 3.14/3.32 (assume a6409 (tptp.s__subclass tptp.s__Weapon tptp.s__Device))
% 3.14/3.32 (assume a6410 (tptp.s__instance tptp.s__Weapon__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6411 (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.'|))
% 3.14/3.32 (assume a6412 (forall ((V__WEAPON $$unsorted)) (=> (tptp.s__instance V__WEAPON tptp.s__Object) (=> (tptp.s__instance V__WEAPON tptp.s__Weapon) (tptp.s__capability tptp.s__Damaging tptp.s__instrument__m V__WEAPON)))))
% 3.14/3.32 (assume a6413 (forall ((V__WEAPON $$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)))'|)))))
% 3.14/3.32 (assume a6414 (tptp.s__subclass tptp.s__Machine tptp.s__Device))
% 3.14/3.32 (assume a6415 (tptp.s__instance tptp.s__Machine__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6416 (tptp.s__instance tptp.s__Device__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6417 (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.'|))
% 3.14/3.32 (assume a6418 (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)))))))))
% 3.14/3.32 (assume a6419 (tptp.s__subclass tptp.s__EngineeringComponent tptp.s__Device))
% 3.14/3.32 (assume a6420 (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.'|))
% 3.14/3.32 (assume a6421 (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)))))))
% 3.14/3.32 (assume a6422 (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)))))))
% 3.14/3.32 (assume a6423 (tptp.s__subrelation tptp.s__engineeringSubcomponent__m tptp.s__properPart__m))
% 3.14/3.32 (assume a6424 (tptp.s__domain tptp.s__engineeringSubcomponent__m |"1"| tptp.s__EngineeringComponent))
% 3.14/3.32 (assume a6425 (tptp.s__domain tptp.s__engineeringSubcomponent__m |"2"| tptp.s__EngineeringComponent))
% 3.14/3.32 (assume a6426 (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.'|))
% 3.14/3.32 (assume a6427 (tptp.s__instance tptp.s__connectedEngineeringComponents__m tptp.s__SymmetricRelation))
% 3.14/3.32 (assume a6428 (tptp.s__instance tptp.s__connectedEngineeringComponents__m tptp.s__IrreflexiveRelation))
% 3.14/3.32 (assume a6429 (tptp.s__subrelation tptp.s__connectedEngineeringComponents__m tptp.s__connected__m))
% 3.14/3.32 (assume a6430 (tptp.s__domain tptp.s__connectedEngineeringComponents__m |"1"| tptp.s__EngineeringComponent))
% 3.14/3.32 (assume a6431 (tptp.s__domain tptp.s__connectedEngineeringComponents__m |"2"| tptp.s__EngineeringComponent))
% 3.14/3.32 (assume a6432 (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.'|))
% 3.14/3.32 (assume a6433 (forall ((V__COMP2 $$unsorted) (V__COMP1 $$unsorted)) (=> (and (tptp.s__instance V__COMP1 tptp.s__EngineeringComponent) (tptp.s__instance V__COMP2 tptp.s__EngineeringComponent)) (=> (tptp.s__connectedEngineeringComponents V__COMP1 V__COMP2) (and (not (tptp.s__engineeringSubcomponent V__COMP1 V__COMP2)) (not (tptp.s__engineeringSubcomponent V__COMP2 V__COMP1)))))))
% 3.14/3.32 (assume a6434 (tptp.s__subclass tptp.s__EngineeringConnection tptp.s__EngineeringComponent))
% 3.14/3.32 (assume a6435 (tptp.s__instance tptp.s__EngineeringConnection__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6436 (tptp.s__instance tptp.s__EngineeringComponent__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6437 (tptp.s__documentation tptp.s__EngineeringConnection tptp.s__EnglishLanguage |tptp.'An &%EngineeringConnection is an &%EngineeringComponent that represents a connection relationship between two other &%EngineeringComponents. It is a reification of the &%Predicate &%connectedEngineeringComponents. That means that whenever this &%Predicate holds between two &%EngineeringComponents, there exists an &%EngineeringConnection. The practical reason for reifying a relationship is to be able to attach other information about it. For example, one might want to say that a particular connection is associated with some shared parameters, or that it is of a particular type. &%EngineeringConnections are &%EngineeringComponents and can therefore be an &%engineeringSubcomponent of other &%EngineeringComponents. However, to provide for modular regularity in component systems, &%EngineeringConnections cannot be connected. For each pair of &%EngineeringComponents related by &%connectedEngineeringComponents, there exists at least one &%EngineeringConnection. However, that object may not be unique, and the same &%EngineeringConnection may be associated with several pairs of &%EngineeringComponents.'|))
% 3.14/3.32 (assume a6438 (forall ((V__CONNECTION $$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))))))
% 3.14/3.32 (assume a6439 (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)))))))
% 3.14/3.32 (assume a6440 (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)))))))
% 3.14/3.32 (assume a6441 (tptp.s__subrelation tptp.s__connectsEngineeringComponents__m tptp.s__connects__m))
% 3.14/3.32 (assume a6442 (tptp.s__domain tptp.s__connectsEngineeringComponents__m |"1"| tptp.s__EngineeringConnection))
% 3.14/3.32 (assume a6443 (tptp.s__domain tptp.s__connectsEngineeringComponents__m |"2"| tptp.s__EngineeringComponent))
% 3.14/3.32 (assume a6444 (tptp.s__domain tptp.s__connectsEngineeringComponents__m |"3"| tptp.s__EngineeringComponent))
% 3.14/3.32 (assume a6445 (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.'|))
% 3.14/3.32 (assume a6446 (tptp.s__subclass tptp.s__CommercialAgent tptp.s__Agent))
% 3.14/3.32 (assume a6447 (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.'|))
% 3.14/3.32 (assume a6448 (tptp.s__subclass tptp.s__Business tptp.s__CommercialAgent))
% 3.14/3.32 (assume a6449 (tptp.s__instance tptp.s__Business__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6450 (tptp.s__instance tptp.s__CommercialAgent__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6451 (tptp.s__subclass tptp.s__Business tptp.s__Organization))
% 3.14/3.32 (assume a6452 (tptp.s__documentation tptp.s__Business tptp.s__EnglishLanguage |tptp.'An &%instance of &%Business is an &%Organization that is a &%CommercialAgent.'|))
% 3.14/3.32 (assume a6453 (tptp.s__subclass tptp.s__Corporation tptp.s__Business))
% 3.14/3.32 (assume a6454 (tptp.s__subclass tptp.s__Corporation tptp.s__LegalAgent))
% 3.14/3.32 (assume a6455 (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.'|))
% 3.14/3.32 (assume a6456 (tptp.s__subclass tptp.s__Manufacturer tptp.s__Corporation))
% 3.14/3.32 (assume a6457 (tptp.s__instance tptp.s__Manufacturer__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6458 (tptp.s__instance tptp.s__Corporation__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6459 (tptp.s__documentation tptp.s__Manufacturer tptp.s__EnglishLanguage |tptp.'Any &%Corporation which manufactures &%Products.'|))
% 3.14/3.32 (assume a6460 (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)))'|)))))
% 3.14/3.32 (assume a6461 (tptp.s__subclass tptp.s__MercantileOrganization tptp.s__Corporation))
% 3.14/3.32 (assume a6462 (tptp.s__instance tptp.s__MercantileOrganization__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6463 (tptp.s__documentation tptp.s__MercantileOrganization tptp.s__EnglishLanguage |tptp.'Any &%Corporation which sells goods or services to customers for a profit.'|))
% 3.14/3.32 (assume a6464 (forall ((V__ORG $$unsorted)) (=> (tptp.s__instance V__ORG tptp.s__Agent) (=> (tptp.s__instance V__ORG tptp.s__MercantileOrganization) (tptp.s__hasPurpose V__ORG |tptp.'(? [V__SELL] : (s__instance(V__SELL,s__Process) & s__instance(V__SELL,s__Selling) & s__instance(V__SELL,s__CommercialService) & s__agent(V__SELL,V__ORG)))'|)))))
% 3.14/3.32 (assume a6465 (tptp.s__subclass tptp.s__Group tptp.s__Collection))
% 3.14/3.32 (assume a6466 (tptp.s__subclass tptp.s__Group tptp.s__Agent))
% 3.14/3.32 (assume a6467 (tptp.s__instance tptp.s__Group__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6468 (tptp.s__instance tptp.s__Agent__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6469 (tptp.s__documentation tptp.s__Group tptp.s__EnglishLanguage |tptp.'A &%Collection of &%Agents, e.g. a flock of sheep, a herd of goats, or the local Boy Scout troop.'|))
% 3.14/3.32 (assume a6470 (forall ((V__MEMB $$unsorted) (V__GROUP $$unsorted)) (=> (and (tptp.s__instance V__GROUP tptp.s__Collection) (tptp.s__instance V__MEMB tptp.s__SelfConnectedObject)) (=> (and (tptp.s__instance V__GROUP tptp.s__Group) (tptp.s__member V__MEMB V__GROUP)) (tptp.s__instance V__MEMB tptp.s__Agent)))))
% 3.14/3.32 (assume a6471 (tptp.s__subclass tptp.s__GroupOfPeople tptp.s__Group))
% 3.14/3.32 (assume a6472 (tptp.s__documentation tptp.s__GroupOfPeople tptp.s__EnglishLanguage |tptp.'Any &%Group whose &%members are exclusively &%Humans.'|))
% 3.14/3.32 (assume a6473 (forall ((V__MEMBER $$unsorted) (V__GROUP $$unsorted)) (=> (and (tptp.s__instance V__GROUP tptp.s__Collection) (tptp.s__instance V__MEMBER tptp.s__SelfConnectedObject)) (=> (and (tptp.s__instance V__GROUP tptp.s__GroupOfPeople) (tptp.s__member V__MEMBER V__GROUP)) (tptp.s__instance V__MEMBER tptp.s__Human)))))
% 3.14/3.32 (assume a6474 (tptp.s__subclass tptp.s__AgeGroup tptp.s__GroupOfPeople))
% 3.14/3.32 (assume a6475 (tptp.s__instance tptp.s__AgeGroup__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6476 (tptp.s__instance tptp.s__GroupOfPeople__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6477 (tptp.s__documentation tptp.s__AgeGroup tptp.s__EnglishLanguage |tptp.'A &%GroupOfPeople whose &%members all have the same &%age.'|))
% 3.14/3.32 (assume a6478 (forall ((V__GROUP $$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)))))))
% 3.14/3.32 (assume a6479 (tptp.s__subclass tptp.s__FamilyGroup tptp.s__GroupOfPeople))
% 3.14/3.32 (assume a6480 (tptp.s__instance tptp.s__FamilyGroup__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6481 (tptp.s__documentation tptp.s__FamilyGroup tptp.s__EnglishLanguage |tptp.'A &%GroupOfPeople whose &%members bear &%familyRelations to one another.'|))
% 3.14/3.32 (assume a6482 (forall ((V__GROUP $$unsorted)) (=> (tptp.s__instance V__GROUP tptp.s__FamilyGroup) (forall ((V__MEMB1 $$unsorted) (V__MEMB2 $$unsorted)) (=> (and (tptp.s__instance V__MEMB2 tptp.s__Organism) (tptp.s__instance V__MEMB1 tptp.s__Organism) (tptp.s__instance V__GROUP tptp.s__Collection)) (=> (and (tptp.s__member V__MEMB1 V__GROUP) (tptp.s__member V__MEMB2 V__GROUP)) (tptp.s__familyRelation V__MEMB1 V__MEMB2)))))))
% 3.14/3.32 (assume a6483 (tptp.s__subclass tptp.s__SocialUnit tptp.s__GroupOfPeople))
% 3.14/3.32 (assume a6484 (tptp.s__instance tptp.s__SocialUnit__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6485 (tptp.s__documentation tptp.s__SocialUnit tptp.s__EnglishLanguage |tptp.'A &%GroupOfPeople who all have the same &%home.'|))
% 3.14/3.32 (assume a6486 (forall ((V__MEMBER $$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))))))))
% 3.14/3.32 (assume a6487 (tptp.s__instance tptp.s__ImmediateFamilyFn__m tptp.s__UnaryFunction))
% 3.14/3.32 (assume a6488 (tptp.s__domain tptp.s__ImmediateFamilyFn__m |"1"| tptp.s__Human))
% 3.14/3.32 (assume a6489 (tptp.s__range tptp.s__ImmediateFamilyFn__m tptp.s__FamilyGroup))
% 3.14/3.32 (assume a6490 (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.'|))
% 3.14/3.32 (assume a6491 (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))))))))))
% 3.14/3.32 (assume a6492 (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 $$unsorted)) (and (tptp.s__instance V__MEMBER tptp.s__Organism) (tptp.s__member V__MEMBER V__FAMILY) (or (tptp.s__parent V__MEMBER V__PERSON) (tptp.s__parent V__PERSON V__MEMBER))))))))
% 3.14/3.32 (assume a6493 (tptp.s__instance tptp.s__relative__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a6494 (tptp.s__instance tptp.s__relative__m tptp.s__SymmetricRelation))
% 3.14/3.32 (assume a6495 (tptp.s__domain tptp.s__relative__m |"1"| tptp.s__Organism))
% 3.14/3.32 (assume a6496 (tptp.s__domain tptp.s__relative__m |"2"| tptp.s__Organism))
% 3.14/3.32 (assume a6497 (tptp.s__documentation tptp.s__relative__m tptp.s__EnglishLanguage |tptp.'(&%relative ?O1 ?O2) means that ?O1 and ?O2 are relatives, whether through common ancestry (consanguinity), someones marriage (affinity), or someones adoption. This definition is intentionally broad, so as to capture a wide array of `familial relations. The notion of who counts as `family also varies between cultures, but that aspect of meaning is not addressed here.'|))
% 3.14/3.32 (assume a6498 (tptp.s__subrelation tptp.s__familyRelation__m tptp.s__relative__m))
% 3.14/3.32 (assume a6499 (tptp.s__subrelation tptp.s__spouse__m tptp.s__relative__m))
% 3.14/3.32 (assume a6500 (tptp.s__instance tptp.s__familyRelation__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a6501 (tptp.s__instance tptp.s__familyRelation__m tptp.s__EquivalenceRelation))
% 3.14/3.32 (assume a6502 (tptp.s__domain tptp.s__familyRelation__m |"1"| tptp.s__Organism))
% 3.14/3.32 (assume a6503 (tptp.s__domain tptp.s__familyRelation__m |"2"| tptp.s__Organism))
% 3.14/3.32 (assume a6504 (tptp.s__documentation tptp.s__familyRelation__m tptp.s__EnglishLanguage |tptp.'A very general &%Predicate for biological relationships. (&%familyRelation ?ORGANISM1 ?ORGANISM2) means that ?ORGANISM1 and ?ORGANISM2 are biologically derived from a common ancestor.'|))
% 3.14/3.32 (assume a6505 (forall ((V__ORGANISM1 $$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)))))))
% 3.14/3.32 (assume a6506 (tptp.s__subrelation tptp.s__ancestor__m tptp.s__familyRelation__m))
% 3.14/3.32 (assume a6507 (tptp.s__instance tptp.s__ancestor__m tptp.s__TransitiveRelation))
% 3.14/3.32 (assume a6508 (tptp.s__instance tptp.s__ancestor__m tptp.s__IrreflexiveRelation))
% 3.14/3.32 (assume a6509 (tptp.s__domain tptp.s__ancestor__m |"1"| tptp.s__Organism))
% 3.14/3.32 (assume a6510 (tptp.s__domain tptp.s__ancestor__m |"2"| tptp.s__Organism))
% 3.14/3.32 (assume a6511 (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.'|))
% 3.14/3.32 (assume a6512 (tptp.s__subrelation tptp.s__parent__m tptp.s__ancestor__m))
% 3.14/3.32 (assume a6513 (tptp.s__instance tptp.s__parent__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a6514 (tptp.s__subrelation tptp.s__parent__m tptp.s__familyRelation__m))
% 3.14/3.32 (assume a6515 (tptp.s__instance tptp.s__parent__m tptp.s__AsymmetricRelation))
% 3.14/3.32 (assume a6516 (tptp.s__instance tptp.s__parent__m tptp.s__IntransitiveRelation))
% 3.14/3.32 (assume a6517 (tptp.s__domain tptp.s__parent__m |"1"| tptp.s__Organism))
% 3.14/3.32 (assume a6518 (tptp.s__domain tptp.s__parent__m |"2"| tptp.s__Organism))
% 3.14/3.32 (assume a6519 (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.'|))
% 3.14/3.32 (assume a6520 (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)))))))
% 3.14/3.32 (assume a6521 (forall ((V__CLASS $$unsorted) (V__CHILD $$unsorted) (V__PARENT $$unsorted)) (=> (and (tptp.s__instance V__PARENT tptp.s__Organism) (tptp.s__instance V__CHILD tptp.s__Organism) (tptp.s__instance V__CLASS tptp.s__SetOrClass)) (=> (and (tptp.s__parent V__CHILD V__PARENT) (tptp.s__subclass V__CLASS tptp.s__Organism) (tptp.s__instance V__PARENT V__CLASS)) (tptp.s__instance V__CHILD V__CLASS)))))
% 3.14/3.32 (assume a6522 (forall ((V__REP $$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))))))
% 3.14/3.32 (assume a6523 (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))))))
% 3.14/3.32 (assume a6524 (tptp.s__instance tptp.s__mother__m tptp.s__SingleValuedRelation))
% 3.14/3.32 (assume a6525 (tptp.s__subrelation tptp.s__mother__m tptp.s__parent__m))
% 3.14/3.32 (assume a6526 (tptp.s__domain tptp.s__mother__m |"1"| tptp.s__Organism))
% 3.14/3.32 (assume a6527 (tptp.s__domain tptp.s__mother__m |"2"| tptp.s__Organism))
% 3.14/3.32 (assume a6528 (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.'|))
% 3.14/3.32 (assume a6529 (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)))))
% 3.14/3.32 (assume a6530 (tptp.s__instance tptp.s__father__m tptp.s__SingleValuedRelation))
% 3.14/3.32 (assume a6531 (tptp.s__subrelation tptp.s__father__m tptp.s__parent__m))
% 3.14/3.32 (assume a6532 (tptp.s__domain tptp.s__father__m |"1"| tptp.s__Organism))
% 3.14/3.32 (assume a6533 (tptp.s__domain tptp.s__father__m |"2"| tptp.s__Organism))
% 3.14/3.32 (assume a6534 (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.'|))
% 3.14/3.32 (assume a6535 (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)))))
% 3.14/3.32 (assume a6536 (tptp.s__subrelation tptp.s__daughter__m tptp.s__parent__m))
% 3.14/3.32 (assume a6537 (tptp.s__domain tptp.s__daughter__m |"1"| tptp.s__Organism))
% 3.14/3.32 (assume a6538 (tptp.s__domain tptp.s__daughter__m |"2"| tptp.s__Organism))
% 3.14/3.32 (assume a6539 (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.'|))
% 3.14/3.32 (assume a6540 (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)))))
% 3.14/3.32 (assume a6541 (tptp.s__subrelation tptp.s__son__m tptp.s__parent__m))
% 3.14/3.32 (assume a6542 (tptp.s__domain tptp.s__son__m |"1"| tptp.s__Organism))
% 3.14/3.32 (assume a6543 (tptp.s__domain tptp.s__son__m |"2"| tptp.s__Organism))
% 3.14/3.32 (assume a6544 (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.'|))
% 3.14/3.32 (assume a6545 (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)))))
% 3.14/3.32 (assume a6546 (tptp.s__instance tptp.s__sibling__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a6547 (tptp.s__subrelation tptp.s__sibling__m tptp.s__familyRelation__m))
% 3.14/3.32 (assume a6548 (tptp.s__instance tptp.s__sibling__m tptp.s__SymmetricRelation))
% 3.14/3.32 (assume a6549 (tptp.s__instance tptp.s__sibling__m tptp.s__IrreflexiveRelation))
% 3.14/3.32 (assume a6550 (tptp.s__domain tptp.s__sibling__m |"1"| tptp.s__Organism))
% 3.14/3.32 (assume a6551 (tptp.s__domain tptp.s__sibling__m |"2"| tptp.s__Organism))
% 3.14/3.32 (assume a6552 (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.'|))
% 3.14/3.32 (assume a6553 (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)))))
% 3.14/3.32 (assume a6554 (forall ((V__ORG1 $$unsorted) (V__ORG2 $$unsorted) (V__PARENT $$unsorted)) (=> (and (tptp.s__instance V__PARENT tptp.s__Organism) (tptp.s__instance V__ORG2 tptp.s__Organism) (tptp.s__instance V__ORG1 tptp.s__Organism)) (=> (and (tptp.s__sibling V__ORG1 V__ORG2) (tptp.s__parent V__ORG1 V__PARENT)) (tptp.s__parent V__ORG2 V__PARENT)))))
% 3.14/3.32 (assume a6555 (forall ((V__CHILD $$unsorted) (V__PARENT $$unsorted)) (=> (and (tptp.s__instance V__PARENT tptp.s__Organism) (tptp.s__instance V__CHILD tptp.s__Organism)) (=> (and (tptp.s__parent V__CHILD V__PARENT) (tptp.s__attribute V__PARENT tptp.s__Male)) (tptp.s__father V__CHILD V__PARENT)))))
% 3.14/3.32 (assume a6556 (forall ((V__CHILD $$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)))))
% 3.14/3.32 (assume a6557 (tptp.s__subrelation tptp.s__brother__m tptp.s__sibling__m))
% 3.14/3.32 (assume a6558 (tptp.s__instance tptp.s__brother__m tptp.s__IrreflexiveRelation))
% 3.14/3.32 (assume a6559 (tptp.s__instance tptp.s__brother__m tptp.s__TransitiveRelation))
% 3.14/3.32 (assume a6560 (tptp.s__domain tptp.s__brother__m |"1"| tptp.s__Man))
% 3.14/3.32 (assume a6561 (tptp.s__domain tptp.s__brother__m |"2"| tptp.s__Human))
% 3.14/3.32 (assume a6562 (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.'|))
% 3.14/3.32 (assume a6563 (tptp.s__subrelation tptp.s__sister__m tptp.s__sibling__m))
% 3.14/3.32 (assume a6564 (tptp.s__instance tptp.s__sister__m tptp.s__IrreflexiveRelation))
% 3.14/3.32 (assume a6565 (tptp.s__instance tptp.s__sister__m tptp.s__TransitiveRelation))
% 3.14/3.32 (assume a6566 (tptp.s__domain tptp.s__sister__m |"1"| tptp.s__Woman))
% 3.14/3.32 (assume a6567 (tptp.s__domain tptp.s__sister__m |"2"| tptp.s__Human))
% 3.14/3.32 (assume a6568 (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.'|))
% 3.14/3.32 (assume a6569 (tptp.s__instance tptp.s__legalRelation__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a6570 (tptp.s__instance tptp.s__legalRelation__m tptp.s__SymmetricRelation))
% 3.14/3.32 (assume a6571 (tptp.s__domain tptp.s__legalRelation__m |"1"| tptp.s__Human))
% 3.14/3.32 (assume a6572 (tptp.s__domain tptp.s__legalRelation__m |"2"| tptp.s__Human))
% 3.14/3.32 (assume a6573 (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.'|))
% 3.14/3.32 (assume a6574 (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)))))))
% 3.14/3.32 (assume a6575 (tptp.s__instance tptp.s__acquaintance__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a6576 (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.'|))
% 3.14/3.32 (assume a6577 (tptp.s__domain tptp.s__acquaintance__m |"1"| tptp.s__Human))
% 3.14/3.32 (assume a6578 (tptp.s__domain tptp.s__acquaintance__m |"2"| tptp.s__Human))
% 3.14/3.32 (assume a6579 (tptp.s__instance tptp.s__mutualAcquaintance__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a6580 (tptp.s__instance tptp.s__mutualAcquaintance__m tptp.s__SymmetricRelation))
% 3.14/3.32 (assume a6581 (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.'|))
% 3.14/3.32 (assume a6582 (tptp.s__domain tptp.s__mutualAcquaintance__m |"1"| tptp.s__Human))
% 3.14/3.32 (assume a6583 (tptp.s__domain tptp.s__mutualAcquaintance__m |"2"| tptp.s__Human))
% 3.14/3.32 (assume a6584 (tptp.s__subrelation tptp.s__mutualAcquaintance__m tptp.s__acquaintance__m))
% 3.14/3.32 (assume a6585 (tptp.s__subrelation tptp.s__spouse__m tptp.s__mutualAcquaintance__m))
% 3.14/3.32 (assume a6586 (tptp.s__subrelation tptp.s__spouse__m tptp.s__legalRelation__m))
% 3.14/3.32 (assume a6587 (tptp.s__instance tptp.s__spouse__m tptp.s__IrreflexiveRelation))
% 3.14/3.32 (assume a6588 (tptp.s__instance tptp.s__spouse__m tptp.s__SymmetricRelation))
% 3.14/3.32 (assume a6589 (tptp.s__instance tptp.s__SymmetricRelation__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6590 (tptp.s__domain tptp.s__spouse__m |"1"| tptp.s__Human))
% 3.14/3.32 (assume a6591 (tptp.s__domain tptp.s__spouse__m |"2"| tptp.s__Human))
% 3.14/3.32 (assume a6592 (tptp.s__documentation tptp.s__spouse__m tptp.s__EnglishLanguage |tptp.'The relationship of marriage between two &%Humans.'|))
% 3.14/3.32 (assume a6593 (tptp.s__subrelation tptp.s__husband__m tptp.s__spouse__m))
% 3.14/3.32 (assume a6594 (tptp.s__instance tptp.s__husband__m tptp.s__AsymmetricRelation))
% 3.14/3.32 (assume a6595 (tptp.s__instance tptp.s__husband__m tptp.s__IrreflexiveRelation))
% 3.14/3.32 (assume a6596 (tptp.s__instance tptp.s__IrreflexiveRelation__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6597 (tptp.s__domain tptp.s__husband__m |"1"| tptp.s__Man))
% 3.14/3.32 (assume a6598 (tptp.s__domain tptp.s__husband__m |"2"| tptp.s__Woman))
% 3.14/3.32 (assume a6599 (tptp.s__inverse tptp.s__husband__m tptp.s__wife__m))
% 3.14/3.32 (assume a6600 (tptp.s__documentation tptp.s__husband__m tptp.s__EnglishLanguage |tptp.'(&%husband ?MAN ?WOMAN) means that ?MAN is the husband of ?WOMAN.'|))
% 3.14/3.32 (assume a6601 (tptp.s__subrelation tptp.s__wife__m tptp.s__spouse__m))
% 3.14/3.32 (assume a6602 (tptp.s__instance tptp.s__wife__m tptp.s__AsymmetricRelation))
% 3.14/3.32 (assume a6603 (tptp.s__instance tptp.s__wife__m tptp.s__IrreflexiveRelation))
% 3.14/3.32 (assume a6604 (tptp.s__domain tptp.s__wife__m |"1"| tptp.s__Woman))
% 3.14/3.32 (assume a6605 (tptp.s__domain tptp.s__wife__m |"2"| tptp.s__Man))
% 3.14/3.32 (assume a6606 (tptp.s__documentation tptp.s__wife__m tptp.s__EnglishLanguage |tptp.'(&%wife ?WOMAN ?MAN) means that ?WOMAN is the wife of ?MAN.'|))
% 3.14/3.32 (assume a6607 (tptp.s__subclass tptp.s__EthnicGroup tptp.s__GroupOfPeople))
% 3.14/3.32 (assume a6608 (tptp.s__instance tptp.s__EthnicGroup__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6609 (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.'|))
% 3.14/3.32 (assume a6610 (tptp.s__subclass tptp.s__BeliefGroup tptp.s__GroupOfPeople))
% 3.14/3.32 (assume a6611 (tptp.s__documentation tptp.s__BeliefGroup tptp.s__EnglishLanguage |tptp.'A &%GroupOfPeople whose &%members share a belief or set of beliefs.'|))
% 3.14/3.32 (assume a6612 (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)))))))))
% 3.14/3.32 (assume a6613 (tptp.s__subclass tptp.s__Organization tptp.s__Group))
% 3.14/3.32 (assume a6614 (tptp.s__subclass tptp.s__Organization tptp.s__Agent))
% 3.14/3.32 (assume a6615 (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.'|))
% 3.14/3.32 (assume a6616 (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 $$unsorted)) (=> (and (tptp.s__instance V__MEMBER tptp.s__SelfConnectedObject) (tptp.s__instance V__ORG tptp.s__Collection)) (=> (tptp.s__member V__MEMBER V__ORG) (tptp.s__hasPurpose V__MEMBER V__PURP)))))))))
% 3.14/3.32 (assume a6617 (forall ((V__ORG $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__SelfConnectedObject) (tptp.s__instance V__ORG tptp.s__Collection)) (=> (and (tptp.s__instance V__ORG tptp.s__Organization) (tptp.s__member V__AGENT V__ORG)) (tptp.s__instance V__AGENT tptp.s__Agent)))))
% 3.14/3.32 (assume a6618 (tptp.s__instance tptp.s__employs__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a6619 (tptp.s__domain tptp.s__employs__m |"1"| tptp.s__Organization))
% 3.14/3.32 (assume a6620 (tptp.s__domain tptp.s__employs__m |"2"| tptp.s__CognitiveAgent))
% 3.14/3.32 (assume a6621 (tptp.s__documentation tptp.s__employs__m tptp.s__EnglishLanguage |tptp.'(&%employs ?ORG ?PERSON) means that ?ORG has hired ?PERSON and currently retains ?PERSON, on a salaried, hourly or contractual basis, to provide services in exchange for monetary compensation.'|))
% 3.14/3.32 (assume a6622 (tptp.s__subclass tptp.s__PoliticalOrganization tptp.s__Organization))
% 3.14/3.32 (assume a6623 (tptp.s__documentation tptp.s__PoliticalOrganization tptp.s__EnglishLanguage |tptp.'An &%Organization that is attempting to bring about some sort of political change.'|))
% 3.14/3.32 (assume a6624 (forall ((V__POL $$unsorted)) (=> (tptp.s__instance V__POL tptp.s__Agent) (=> (tptp.s__instance V__POL tptp.s__PoliticalOrganization) (exists ((V__PROC $$unsorted)) (and (tptp.s__instance V__PROC tptp.s__Process) (tptp.s__instance V__PROC tptp.s__PoliticalProcess) (tptp.s__agent V__PROC V__POL)))))))
% 3.14/3.32 (assume a6625 (tptp.s__subclass tptp.s__MilitaryForce tptp.s__PoliticalOrganization))
% 3.14/3.32 (assume a6626 (tptp.s__instance tptp.s__MilitaryForce__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6627 (tptp.s__instance tptp.s__PoliticalOrganization__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6628 (tptp.s__documentation tptp.s__MilitaryForce tptp.s__EnglishLanguage |tptp.'&%MilitaryForce is the subclass of &%Organizations that are organized along military lines and for the purpose of either defensive or offensive combat, whether or not the force is an official &%GovernmentOrganization.'|))
% 3.14/3.32 (assume a6629 (forall ((V__ORG $$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)))))
% 3.14/3.32 (assume a6630 (tptp.s__subclass tptp.s__MilitaryOrganization tptp.s__MilitaryForce))
% 3.14/3.32 (assume a6631 (tptp.s__subclass tptp.s__MilitaryOrganization tptp.s__GovernmentOrganization))
% 3.14/3.32 (assume a6632 (tptp.s__instance tptp.s__MilitaryOrganization__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6633 (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.'|))
% 3.14/3.32 (assume a6634 (tptp.s__subclass tptp.s__ParamilitaryOrganization tptp.s__MilitaryForce))
% 3.14/3.32 (assume a6635 (tptp.s__instance tptp.s__ParamilitaryOrganization__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6636 (tptp.s__disjoint tptp.s__ParamilitaryOrganization tptp.s__GovernmentOrganization))
% 3.14/3.32 (assume a6637 (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.'|))
% 3.14/3.32 (assume a6638 (tptp.s__subclass tptp.s__GovernmentOrganization tptp.s__Organization))
% 3.14/3.32 (assume a6639 (tptp.s__instance tptp.s__GovernmentOrganization__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6640 (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.'|))
% 3.14/3.32 (assume a6641 (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)))))))
% 3.14/3.32 (assume a6642 (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)))))
% 3.14/3.32 (assume a6643 (tptp.s__subclass tptp.s__Government tptp.s__GovernmentOrganization))
% 3.14/3.32 (assume a6644 (tptp.s__subclass tptp.s__Government tptp.s__LegalAgent))
% 3.14/3.32 (assume a6645 (tptp.s__instance tptp.s__Government__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6646 (tptp.s__instance tptp.s__LegalAgent__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6647 (tptp.s__documentation tptp.s__Government tptp.s__EnglishLanguage |tptp.'The ruling body of a &%GeopoliticalArea.'|))
% 3.14/3.32 (assume a6648 (tptp.s__instance tptp.s__GovernmentFn__m tptp.s__UnaryFunction))
% 3.14/3.32 (assume a6649 (tptp.s__domain tptp.s__GovernmentFn__m |"1"| tptp.s__GeopoliticalArea))
% 3.14/3.32 (assume a6650 (tptp.s__range tptp.s__GovernmentFn__m tptp.s__Government))
% 3.14/3.32 (assume a6651 (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.'|))
% 3.14/3.32 (assume a6652 (tptp.s__subclass tptp.s__PoliceOrganization tptp.s__GovernmentOrganization))
% 3.14/3.32 (assume a6653 (tptp.s__instance tptp.s__PoliceOrganization__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6654 (tptp.s__documentation tptp.s__PoliceOrganization tptp.s__EnglishLanguage |tptp.'Any &%GovernmentOrganization that is charged with domestic enforcement of the laws of the &%Government.'|))
% 3.14/3.32 (assume a6655 (tptp.s__subclass tptp.s__JudicialOrganization tptp.s__Organization))
% 3.14/3.32 (assume a6656 (tptp.s__instance tptp.s__JudicialOrganization__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6657 (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.'|))
% 3.14/3.32 (assume a6658 (tptp.s__subclass tptp.s__EducationalOrganization tptp.s__Organization))
% 3.14/3.32 (assume a6659 (tptp.s__instance tptp.s__EducationalOrganization__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6660 (tptp.s__instance tptp.s__Organization__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6661 (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.'|))
% 3.14/3.32 (assume a6662 (tptp.s__subclass tptp.s__ReligiousOrganization tptp.s__Organization))
% 3.14/3.32 (assume a6663 (tptp.s__subclass tptp.s__ReligiousOrganization tptp.s__BeliefGroup))
% 3.14/3.32 (assume a6664 (tptp.s__instance tptp.s__ReligiousOrganization__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6665 (tptp.s__instance tptp.s__BeliefGroup__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6666 (tptp.s__documentation tptp.s__ReligiousOrganization tptp.s__EnglishLanguage |tptp.'An &%Organization whose members share a set of religious beliefs.'|))
% 3.14/3.32 (assume a6667 (tptp.s__subrelation tptp.s__subOrganization__m tptp.s__subCollection__m))
% 3.14/3.32 (assume a6668 (tptp.s__instance tptp.s__subOrganization__m tptp.s__PartialOrderingRelation))
% 3.14/3.32 (assume a6669 (tptp.s__domain tptp.s__subOrganization__m |"1"| tptp.s__Organization))
% 3.14/3.32 (assume a6670 (tptp.s__domain tptp.s__subOrganization__m |"2"| tptp.s__Organization))
% 3.14/3.32 (assume a6671 (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.'|))
% 3.14/3.32 (assume a6672 (tptp.s__instance tptp.s__citizen__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a6673 (tptp.s__instance tptp.s__citizen__m tptp.s__AsymmetricRelation))
% 3.14/3.32 (assume a6674 (tptp.s__domain tptp.s__citizen__m |"1"| tptp.s__Human))
% 3.14/3.32 (assume a6675 (tptp.s__domain tptp.s__citizen__m |"2"| tptp.s__Nation))
% 3.14/3.32 (assume a6676 (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.'|))
% 3.14/3.32 (assume a6677 (tptp.s__subclass tptp.s__FieldOfStudy tptp.s__Proposition))
% 3.14/3.32 (assume a6678 (tptp.s__instance tptp.s__FieldOfStudy__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6679 (tptp.s__instance tptp.s__Proposition__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6680 (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.'|))
% 3.14/3.32 (assume a6681 (tptp.s__subclass tptp.s__Procedure tptp.s__Proposition))
% 3.14/3.32 (assume a6682 (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.'|))
% 3.14/3.32 (assume a6683 (tptp.s__subclass tptp.s__ComputerProgram tptp.s__Procedure))
% 3.14/3.32 (assume a6684 (tptp.s__instance tptp.s__ComputerProgram__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6685 (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.'|))
% 3.14/3.32 (assume a6686 (tptp.s__subclass tptp.s__ComputerProgramming tptp.s__ContentDevelopment))
% 3.14/3.32 (assume a6687 (tptp.s__instance tptp.s__ComputerProgramming__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6688 (tptp.s__documentation tptp.s__ComputerProgramming tptp.s__EnglishLanguage |tptp.'The process of developing a &%ComputerProgram'|))
% 3.14/3.32 (assume a6689 (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)))))))
% 3.14/3.32 (assume a6690 (tptp.s__subclass tptp.s__Plan tptp.s__Procedure))
% 3.14/3.32 (assume a6691 (tptp.s__instance tptp.s__Plan__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6692 (tptp.s__instance tptp.s__Procedure__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6693 (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.'|))
% 3.14/3.32 (assume a6694 (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 $$unsorted)) (and (tptp.s__instance V__PLANNING tptp.s__Process) (tptp.s__instance V__PLANNING tptp.s__Planning) (tptp.s__result V__PLANNING V__OBJ)))))))
% 3.14/3.32 (assume a6695 (tptp.s__subclass tptp.s__Argument tptp.s__Proposition))
% 3.14/3.32 (assume a6696 (tptp.s__partition_3 tptp.s__Argument tptp.s__DeductiveArgument tptp.s__InductiveArgument))
% 3.14/3.32 (assume a6697 (tptp.s__documentation tptp.s__Argument tptp.s__EnglishLanguage |tptp.'Any proposition which has the form of a deductive or inductive argument, i.e. a set of premises which, it is claimed, imply a conclusion.'|))
% 3.14/3.32 (assume a6698 (forall ((V__REASON $$unsorted)) (=> (tptp.s__instance V__REASON tptp.s__Process) (=> (tptp.s__instance V__REASON tptp.s__Reasoning) (exists ((V__ARGUMENT $$unsorted)) (and (tptp.s__instance V__ARGUMENT tptp.s__Proposition) (tptp.s__instance V__ARGUMENT tptp.s__Argument) (tptp.s__realization V__REASON V__ARGUMENT)))))))
% 3.14/3.32 (assume a6699 (forall ((V__ARGUMENT $$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))))))
% 3.14/3.32 (assume a6700 (tptp.s__subclass tptp.s__DeductiveArgument tptp.s__Argument))
% 3.14/3.32 (assume a6701 (tptp.s__partition_3 tptp.s__DeductiveArgument tptp.s__ValidDeductiveArgument tptp.s__InvalidDeductiveArgument))
% 3.14/3.32 (assume a6702 (tptp.s__documentation tptp.s__DeductiveArgument tptp.s__EnglishLanguage |tptp.'An &%Argument which has the form of a deduction, i.e. it is claimed that the set of &%premises &%entails the &%conclusion.'|))
% 3.14/3.32 (assume a6703 (tptp.s__subclass tptp.s__ValidDeductiveArgument tptp.s__DeductiveArgument))
% 3.14/3.32 (assume a6704 (tptp.s__instance tptp.s__ValidDeductiveArgument__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6705 (tptp.s__instance tptp.s__DeductiveArgument__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6706 (tptp.s__documentation tptp.s__ValidDeductiveArgument tptp.s__EnglishLanguage |tptp.'A &%DeductiveArgument which is valid, i.e. the set of &%premises in fact &%entails the &%conclusion.'|))
% 3.14/3.32 (assume a6707 (forall ((V__PREMISES $$unsorted) (V__ARGUMENT $$unsorted) (V__CONCLUSION $$unsorted)) (=> (and (tptp.s__instance V__CONCLUSION tptp.s__Argument) (tptp.s__instance V__CONCLUSION tptp.s__Formula) (tptp.s__instance V__ARGUMENT tptp.s__Argument) (tptp.s__instance V__PREMISES tptp.s__Proposition) (tptp.s__instance V__PREMISES tptp.s__Formula)) (=> (and (tptp.s__instance V__ARGUMENT tptp.s__ValidDeductiveArgument) (= V__PREMISES (tptp.s__PremisesFn V__ARGUMENT)) (tptp.s__conclusion V__CONCLUSION V__ARGUMENT)) (exists ((V__FORMULA1 $$unsorted) (V__FORMULA2 $$unsorted)) (and (tptp.s__instance V__FORMULA2 tptp.s__ContentBearingPhysical) (tptp.s__instance V__FORMULA1 tptp.s__ContentBearingPhysical) (tptp.s__containsInformation V__FORMULA1 V__PREMISES) (tptp.s__containsInformation V__FORMULA2 V__CONCLUSION) (tptp.s__entails V__PREMISES V__CONCLUSION)))))))
% 3.14/3.32 (assume a6708 (tptp.s__subclass tptp.s__InvalidDeductiveArgument tptp.s__DeductiveArgument))
% 3.14/3.32 (assume a6709 (tptp.s__instance tptp.s__InvalidDeductiveArgument__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6710 (tptp.s__documentation tptp.s__InvalidDeductiveArgument tptp.s__EnglishLanguage |tptp.'&%DeductiveArguments that are not &%ValidDeductiveArguments, i.e. it is not the case that the set of &%premises in fact &%entails the &%conclusion.'|))
% 3.14/3.32 (assume a6711 (tptp.s__subclass tptp.s__Explanation tptp.s__DeductiveArgument))
% 3.14/3.32 (assume a6712 (tptp.s__instance tptp.s__Explanation__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6713 (tptp.s__documentation tptp.s__Explanation tptp.s__EnglishLanguage |tptp.'An &%Argument where the conclusion is an observed fact and the premises are other facts which collectively imply the conclusion. Note that this is the they hypothetico-deductive model of explanation.'|))
% 3.14/3.32 (assume a6714 (tptp.s__subclass tptp.s__InductiveArgument tptp.s__Argument))
% 3.14/3.32 (assume a6715 (tptp.s__instance tptp.s__InductiveArgument__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6716 (tptp.s__instance tptp.s__Argument__t tptp.s__SetOrClass))
% 3.14/3.32 (assume a6717 (tptp.s__documentation tptp.s__InductiveArgument tptp.s__EnglishLanguage |tptp.'An &%Argument which is inductive, i.e. it is claimed that a set of specific cases makes the &%conclusion, which generalizes these cases, more likely to be true.'|))
% 3.14/3.32 (assume a6718 (tptp.s__instance tptp.s__premise__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a6719 (tptp.s__instance tptp.s__premise__m tptp.s__TotalValuedRelation))
% 3.14/3.32 (assume a6720 (tptp.s__domain tptp.s__premise__m |"1"| tptp.s__Argument))
% 3.14/3.32 (assume a6721 (tptp.s__domain tptp.s__premise__m |"2"| tptp.s__Proposition))
% 3.14/3.32 (assume a6722 (tptp.s__documentation tptp.s__premise__m tptp.s__EnglishLanguage |tptp.'(&%premise ?ARGUMENT ?PROPOSITION) means that the &%Proposition ?PROPOSITION is an explicit assumption of the &%Argument ?ARGUMENT.'|))
% 3.14/3.32 (assume a6723 (tptp.s__instance tptp.s__PremisesFn__m tptp.s__UnaryFunction))
% 3.14/3.32 (assume a6724 (tptp.s__domain tptp.s__PremisesFn__m |"1"| tptp.s__Argument))
% 3.14/3.32 (assume a6725 (tptp.s__range tptp.s__PremisesFn__m tptp.s__Proposition))
% 3.14/3.32 (assume a6726 (tptp.s__documentation tptp.s__PremisesFn__m tptp.s__EnglishLanguage |tptp.'(&%PremisesFn ?ARGUMENT) returns the complete set of &%premises of the &%Argument ?ARGUMENT.'|))
% 3.14/3.32 (assume a6727 (forall ((V__PREMISES $$unsorted) (V__ARGUMENT $$unsorted) (V__PROPOSITION $$unsorted)) (=> (and (tptp.s__instance V__PROPOSITION tptp.s__Proposition) (tptp.s__instance V__PREMISES tptp.s__Proposition)) (=> (and (tptp.s__instance V__ARGUMENT tptp.s__Argument) (= V__PREMISES (tptp.s__PremisesFn V__ARGUMENT))) (= (tptp.s__subProposition V__PROPOSITION V__PREMISES) (tptp.s__premise V__ARGUMENT V__PROPOSITION))))))
% 3.14/3.32 (assume a6728 (tptp.s__instance tptp.s__conclusion__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a6729 (tptp.s__instance tptp.s__conclusion__m tptp.s__SingleValuedRelation))
% 3.14/3.32 (assume a6730 (tptp.s__instance tptp.s__conclusion__m tptp.s__TotalValuedRelation))
% 3.14/3.32 (assume a6731 (tptp.s__domain tptp.s__conclusion__m |"1"| tptp.s__Argument))
% 3.14/3.32 (assume a6732 (tptp.s__domain tptp.s__conclusion__m |"2"| tptp.s__Proposition))
% 3.14/3.32 (assume a6733 (tptp.s__documentation tptp.s__conclusion__m tptp.s__EnglishLanguage |tptp.'(&%conclusion ?ARGUMENT ?PROPOSITION) means that the &%Proposition ?PROPOSITION is the conclusion explicitly drawn from the &%Argument ?ARGUMENT. Note that it may or may not be the case that ?ARGUMENT &%entails ?PROPOSITION.'|))
% 3.14/3.32 (assume a6734 (tptp.s__instance tptp.s__consistent__m tptp.s__BinaryPredicate))
% 3.14/3.32 (assume a6735 (tptp.s__instance tptp.s__consistent__m tptp.s__SymmetricRelation))
% 3.14/3.32 (assume a6736 (tptp.s__domain tptp.s__consistent__m |"1"| tptp.s__Proposition))
% 3.14/3.32 (assume a6737 (tptp.s__domain tptp.s__consistent__m |"2"| tptp.s__Proposition))
% 3.14/3.32 (assume a6738 (tptp.s__documentation tptp.s__consistent__m tptp.s__EnglishLanguage |tptp.'(&%consistent ?PROP1 ?PROP2) means that the two &%Propositions ?PROP1 and ?PROP2 are consistent with one another, i.e. it is possible for both of them to be true at the same time.'|))
% 3.14/3.32 (assume a6739 (tptp.s__instance tptp.s__orientation__m tptp.s__SpatialRelation))
% 3.14/3.32 (assume a6740 (tptp.s__instance tptp.s__orientation__m tptp.s__TernaryPredicate))
% 3.14/3.32 (assume a6741 (tptp.s__domain tptp.s__orientation__m |"1"| tptp.s__Object))
% 3.14/3.32 (assume a6742 (tptp.s__domain tptp.s__orientation__m |"2"| tptp.s__Object))
% 3.14/3.32 (assume a6743 (tptp.s__domain tptp.s__orientation__m |"3"| tptp.s__PositionalAttribute))
% 3.14/3.32 (assume a6744 (tptp.s__documentation tptp.s__orientation__m tptp.s__EnglishLanguage |tptp.'A general &%Predicate for indicating how two &%Objects are oriented with respect to one another. For example, (orientation ?OBJ1 ?OBJ2 North) means that ?OBJ1 is north of ?OBJ2, and (orientation ?OBJ1 ?OBJ2 Vertical) means that ?OBJ1 is positioned vertically with respect to ?OBJ2.'|))
% 3.14/3.32 (assume a6745 (forall ((V__ROW1 $$unsorted) (V__ATTR2 $$unsorted) (V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted) (V__ATTR1 $$unsorted)) (=> (and (tptp.s__instance V__ATTR1 tptp.s__PositionalAttribute) (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__Object) (tptp.s__instance V__ATTR2 tptp.s__PositionalAttribute)) (=> (and (tptp.s__orientation V__OBJ1 V__OBJ2 V__ATTR1) (tptp.s__contraryAttribute_1 V__ROW1) (tptp.s__inList V__ATTR1 (tptp.s__ListFn_1 V__ROW1)) (tptp.s__inList V__ATTR2 (tptp.s__ListFn_1 V__ROW1)) (not (= V__ATTR1 V__ATTR2))) (not (tptp.s__orientation V__OBJ1 V__OBJ2 V__ATTR2))))))
% 3.14/3.32 (assume a6746 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ATTR2 $$unsorted) (V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted) (V__ATTR1 $$unsorted)) (=> (and (tptp.s__instance V__ATTR1 tptp.s__PositionalAttribute) (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__Object) (tptp.s__instance V__ATTR2 tptp.s__PositionalAttribute)) (=> (and (tptp.s__orientation V__OBJ1 V__OBJ2 V__ATTR1) (tptp.s__contraryAttribute_2 V__ROW1 V__ROW2) (tptp.s__inList V__ATTR1 (tptp.s__ListFn_2 V__ROW1 V__ROW2)) (tptp.s__inList V__ATTR2 (tptp.s__ListFn_2 V__ROW1 V__ROW2)) (not (= V__ATTR1 V__ATTR2))) (not (tptp.s__orientation V__OBJ1 V__OBJ2 V__ATTR2))))))
% 3.14/3.32 (assume a6747 (forall ((V__ROW1 $$unsorted) (V__ROW2 $$unsorted) (V__ROW3 $$unsorted) (V__ATTR2 $$unsorted) (V__OBJ1 $$unsorted) (V__OBJ2 $$unsorted) (V__ATTR1 $$unsorted)) (=> (and (tptp.s__instance V__ATTR1 tptp.s__PositionalAttribute) (tptp.s__instance V__OBJ2 tptp.s__Object) (tptp.s__instance V__OBJ1 tptp.s__Object) (tptp.s__instance V__ATTR2 tptp.s__PositionalAttribute)) (=> (and (tptp.s__orientation V__OBJ1 V__OBJ2 V__ATTR1) (tptp.s__contraryAttribute_3 V__ROW1 V__ROW2 V__ROW3) (tptp.s__inList V__ATTR1 (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) (tptp.s__inList V__ATTR2 (tptp.s__ListFn_3 V__ROW1 V__ROW2 V__ROW3)) (not (= V__ATTR1 V__ATTR2))) (not (tptp.s__orientation V__OBJ1 V__OBJ2 V__ATTR2))))))
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% 3.14/3.33 (assume a6841 (tptp.s__instance tptp.s__PacificTimeZone tptp.s__TimeZone))
% 3.14/3.33 (assume a6842 (tptp.s__documentation tptp.s__PacificTimeZone tptp.s__EnglishLanguage |tptp.'A &%TimeZone that covers much of the western part of the United States.'|))
% 3.14/3.33 (assume a6843 (forall ((V__TIME2 $$unsorted) (V__TIME1 $$unsorted)) (=> (tptp.s__instance V__TIME1 tptp.s__TimePosition) (=> (= (tptp.s__RelativeTimeFn V__TIME1 tptp.s__PacificTimeZone) V__TIME2) (= V__TIME2 (tptp.plus V__TIME1 |"8"|))))))
% 3.14/3.33 (assume a6844 (tptp.s__instance tptp.s__MountainTimeZone tptp.s__TimeZone))
% 3.14/3.33 (assume a6845 (tptp.s__documentation tptp.s__MountainTimeZone tptp.s__EnglishLanguage |tptp.'A &%TimeZone that covers much of the Rocky Mountain region of the United States.'|))
% 3.14/3.33 (assume a6846 (forall ((V__TIME2 $$unsorted) (V__TIME1 $$unsorted)) (=> (tptp.s__instance V__TIME1 tptp.s__TimePosition) (=> (= (tptp.s__RelativeTimeFn V__TIME1 tptp.s__MountainTimeZone) V__TIME2) (= V__TIME2 (tptp.plus V__TIME1 |"7"|))))))
% 3.14/3.33 (assume a6847 (tptp.s__instance tptp.s__CentralTimeZone tptp.s__TimeZone))
% 3.14/3.33 (assume a6848 (tptp.s__documentation tptp.s__CentralTimeZone tptp.s__EnglishLanguage |tptp.'A &%TimeZone that covers much of the midwestern United States.'|))
% 3.14/3.33 (assume a6849 (forall ((V__TIME2 $$unsorted) (V__TIME1 $$unsorted)) (=> (tptp.s__instance V__TIME1 tptp.s__TimePosition) (=> (= (tptp.s__RelativeTimeFn V__TIME1 tptp.s__CentralTimeZone) V__TIME2) (= V__TIME2 (tptp.plus V__TIME1 |"6"|))))))
% 3.14/3.33 (assume a6850 (tptp.s__instance tptp.s__EasternTimeZone tptp.s__TimeZone))
% 3.14/3.33 (assume a6851 (tptp.s__documentation tptp.s__EasternTimeZone tptp.s__EnglishLanguage |tptp.'A &%TimeZone that covers much of the eastern United States.'|))
% 3.14/3.33 (assume a6852 (forall ((V__TIME2 $$unsorted) (V__TIME1 $$unsorted)) (=> (tptp.s__instance V__TIME1 tptp.s__TimePosition) (=> (= (tptp.s__RelativeTimeFn V__TIME1 tptp.s__EasternTimeZone) V__TIME2) (= V__TIME2 (tptp.plus V__TIME1 |"5"|))))))
% 3.14/3.33 (assume a6853 (tptp.s__instance tptp.s__RelativeTimeFn__m tptp.s__BinaryFunction))
% 3.14/3.33 (assume a6854 (tptp.s__instance tptp.s__RelativeTimeFn__m tptp.s__TemporalRelation))
% 3.14/3.33 (assume a6855 (tptp.s__instance tptp.s__RelativeTimeFn__m tptp.s__TotalValuedRelation))
% 3.14/3.33 (assume a6856 (tptp.s__domain tptp.s__RelativeTimeFn__m |"1"| tptp.s__TimePosition))
% 3.14/3.33 (assume a6857 (tptp.s__domain tptp.s__RelativeTimeFn__m |"2"| tptp.s__TimeZone))
% 3.14/3.33 (assume a6858 (tptp.s__range tptp.s__RelativeTimeFn__m tptp.s__TimePosition))
% 3.14/3.33 (assume a6859 (tptp.s__documentation tptp.s__RelativeTimeFn__m tptp.s__EnglishLanguage |tptp.'A means of converting &%TimePositions between different &%TimeZones. (&%RelativeTimeFn ?TIME ?ZONE) denotes the &%TimePosition in &%CoordinatedUniversalTime that is contemporaneous with the &%TimePosition ?TIME in &%TimeZone ?ZONE. For example, (&%RelativeTimeFn (&%MeasureFn 14 &%HourDuration) &%EasternTimeZone) would return the value (&%MeasureFn 19 &%HourDuration).'|))
% 3.14/3.33 (assume a6860 (tptp.s__subclass tptp.s__SocialRole tptp.s__RelationalAttribute))
% 3.14/3.33 (assume a6861 (tptp.s__instance tptp.s__SocialRole__t tptp.s__SetOrClass))
% 3.14/3.33 (assume a6862 (tptp.s__documentation tptp.s__SocialRole tptp.s__EnglishLanguage |tptp.'The &%Class of all &%Attributes that specify the position or status of a &%CognitiveAgent within an &%Organization or other &%Group.'|))
% 3.14/3.33 (assume a6863 (forall ((V__PERSON $$unsorted) (V__ATTRIBUTE $$unsorted)) (=> (and (tptp.s__instance V__ATTRIBUTE tptp.s__Attribute) (tptp.s__instance V__PERSON tptp.s__Object)) (=> (and (tptp.s__attribute V__PERSON V__ATTRIBUTE) (tptp.s__instance V__ATTRIBUTE tptp.s__SocialRole)) (tptp.s__instance V__PERSON tptp.s__Human)))))
% 3.14/3.33 (assume a6864 (tptp.s__instance tptp.s__Unemployed tptp.s__SocialRole))
% 3.14/3.33 (assume a6865 (tptp.s__documentation tptp.s__Unemployed tptp.s__EnglishLanguage |tptp.'The &%Attribute of a &%CognitiveAgent when he/she is unemployed.'|))
% 3.14/3.33 (assume a6866 (forall ((V__PERSON $$unsorted)) (= (and (tptp.s__instance V__PERSON tptp.s__Human) (forall ((V__ORG $$unsorted)) (=> (and (tptp.s__instance V__ORG tptp.s__Organization) (tptp.s__instance V__PERSON tptp.s__CognitiveAgent)) (not (tptp.s__employs V__ORG V__PERSON))))) (tptp.s__attribute V__PERSON tptp.s__Unemployed))))
% 3.14/3.33 (assume a6867 (tptp.s__subclass tptp.s__Position tptp.s__SocialRole))
% 3.14/3.33 (assume a6868 (tptp.s__instance tptp.s__Position__t tptp.s__SetOrClass))
% 3.14/3.33 (assume a6869 (tptp.s__documentation tptp.s__Position tptp.s__EnglishLanguage |tptp.'A formal position of reponsibility within an &%Organization. Examples of &%Positions include president, laboratory director, senior researcher, sales representative, etc.'|))
% 3.14/3.33 (assume a6870 (tptp.s__instance tptp.s__occupiesPosition__m tptp.s__TernaryPredicate))
% 3.14/3.33 (assume a6871 (tptp.s__domain tptp.s__occupiesPosition__m |"1"| tptp.s__Human))
% 3.14/3.33 (assume a6872 (tptp.s__domain tptp.s__occupiesPosition__m |"2"| tptp.s__Position))
% 3.14/3.33 (assume a6873 (tptp.s__domain tptp.s__occupiesPosition__m |"3"| tptp.s__Organization))
% 3.14/3.33 (assume a6874 (tptp.s__documentation tptp.s__occupiesPosition__m tptp.s__EnglishLanguage |tptp.'(&%occupiesPosition ?PERSON ?POSITION ?ORG) means that ?PERSON holds the &%Position ?POSITION at &%Organization ?ORG. For example, (&%occupiesPosition &%TomSmith &%ResearchDirector &%AcmeLaboratory) means that &%TomSmith is a research director at Acme Labs.'|))
% 3.14/3.33 (assume a6875 (forall ((V__ORG $$unsorted) (V__POSITION $$unsorted) (V__AGENT $$unsorted)) (=> (and (tptp.s__instance V__AGENT tptp.s__Human) (tptp.s__instance V__POSITION tptp.s__Position) (tptp.s__instance V__ORG tptp.s__Organization)) (=> (tptp.s__occupiesPosition V__AGENT V__POSITION V__ORG) (tptp.s__attribute V__AGENT V__POSITION)))))
% 3.14/3.33 (assume a6876 (forall ((V__PERSON $$unsorted) (V__ORG $$unsorted)) (=> (and (tptp.s__instance V__ORG tptp.s__Organization) (tptp.s__instance V__PERSON tptp.s__Human)) (=> (tptp.s__employs V__ORG V__PERSON) (exists ((V__POSITION $$unsorted)) (and (tptp.s__instance V__POSITION tptp.s__Position) (tptp.s__occupiesPosition V__PERSON V__POSITION V__ORG)))))))
% 3.14/3.33 (assume a6877 (forall ((V__PERSON $$unsorted) (V__ORGANIZATION $$unsorted) (V__POSITION $$unsorted)) (=> (and (tptp.s__instance V__POSITION tptp.s__Position) (tptp.s__instance V__ORGANIZATION tptp.s__Organization) (tptp.s__instance V__PERSON tptp.s__Human)) (=> (tptp.s__occupiesPosition V__PERSON V__POSITION V__ORGANIZATION) (tptp.s__member V__PERSON V__ORGANIZATION)))))
% 3.14/3.33 (assume a6878 (tptp.s__subclass tptp.s__NormativeAttribute tptp.s__RelationalAttribute))
% 3.14/3.33 (assume a6879 (tptp.s__instance tptp.s__NormativeAttribute__t tptp.s__SetOrClass))
% 3.14/3.33 (assume a6880 (tptp.s__instance tptp.s__RelationalAttribute__t tptp.s__SetOrClass))
% 3.14/3.33 (assume a6881 (tptp.s__documentation tptp.s__NormativeAttribute tptp.s__EnglishLanguage |tptp.'A &%Class containing all of the &%Attributes that are specific to morality, legality, aesthetics, etiquette, etc. Many of these attributes express a judgement that something ought or ought not to be the case.'|))
% 3.14/3.33 (assume a6882 (tptp.s__instance tptp.s__modalAttribute__m tptp.s__BinaryPredicate))
% 3.14/3.33 (assume a6883 (tptp.s__instance tptp.s__modalAttribute__m tptp.s__AsymmetricRelation))
% 3.14/3.33 (assume a6884 (tptp.s__instance tptp.s__modalAttribute__m tptp.s__IrreflexiveRelation))
% 3.14/3.33 (assume a6885 (tptp.s__subrelation tptp.s__modalAttribute__m tptp.s__property__m))
% 3.14/3.33 (assume a6886 (tptp.s__domain tptp.s__modalAttribute__m |"1"| tptp.s__Formula))
% 3.14/3.33 (assume a6887 (tptp.s__domain tptp.s__modalAttribute__m |"2"| tptp.s__NormativeAttribute))
% 3.14/3.33 (assume a6888 (tptp.s__documentation tptp.s__modalAttribute__m tptp.s__EnglishLanguage |tptp.'A &%BinaryRelation that is used to state the normative force of a &%Proposition. (&%modalAttribute ?FORMULA ?PROP) means that the &%Proposition expressed by ?FORMULA has the &%NormativeAttribute ?PROP. For example, (&%modalAttribute (&%exists (?ACT ?OBJ) (&%and (&%instance ?ACT &%Giving) (&%agent ?ACT John) (&%patient ?ACT ?OBJ) (&%destination ?ACT Tom))) &%Obligation) means that John is obligated to give Tom something.'|))
% 3.14/3.33 (assume a6889 (forall ((V__PROP $$unsorted) (V__FORMULA1 $$unsorted) (V__FORMULA2 $$unsorted)) (=> (and (tptp.s__instance V__FORMULA2 tptp.s__Formula) (tptp.s__instance V__FORMULA1 tptp.s__Formula) (tptp.s__instance V__PROP tptp.s__NormativeAttribute)) (=> (and (tptp.s__modalAttribute V__FORMULA1 V__PROP) (tptp.s__entails V__FORMULA1 V__FORMULA2)) (tptp.s__modalAttribute V__FORMULA2 V__PROP)))))
% 3.14/3.33 (assume a6890 (forall ((V__FORMULA $$unsorted)) (=> (tptp.s__instance V__FORMULA tptp.s__Formula) (=> (tptp.s__modalAttribute V__FORMULA tptp.s__Permission) (tptp.s__modalAttribute V__FORMULA tptp.s__Possibility)))))
% 3.14/3.33 (assume a6891 (tptp.s__subclass tptp.s__SubjectiveAssessmentAttribute tptp.s__NormativeAttribute))
% 3.14/3.33 (assume a6892 (tptp.s__instance tptp.s__SubjectiveAssessmentAttribute__t tptp.s__SetOrClass))
% 3.14/3.33 (assume a6893 (tptp.s__disjoint tptp.s__SubjectiveAssessmentAttribute tptp.s__ObjectiveNorm))
% 3.14/3.33 (assume a6894 (tptp.s__documentation tptp.s__SubjectiveAssessmentAttribute tptp.s__EnglishLanguage |tptp.'The &%Class of &%NormativeAttributes which lack an objective criterion for their attribution, i.e. the attribution of these &%Attributes varies from subject to subject and even with respect to the same subject over time. This &%Class is, generally speaking, only used when mapping external knowledge sources to the SUMO. If a term from such a knowledge source seems to lack objective criteria for its attribution, it is assigned to this &%Class.'|))
% 3.14/3.33 (assume a6895 (tptp.s__subclass tptp.s__ObjectiveNorm tptp.s__NormativeAttribute))
% 3.14/3.33 (assume a6896 (tptp.s__documentation tptp.s__ObjectiveNorm tptp.s__EnglishLanguage |tptp.'The &%Class of &%NormativeAttributes that are associated with an objective criterion for their attribution, i.e. there is broad consensus about the cases where these attributes are applicable.'|))
% 3.14/3.33 (assume a6897 (tptp.s__subclass tptp.s__ContestAttribute tptp.s__ObjectiveNorm))
% 3.14/3.33 (assume a6898 (tptp.s__instance tptp.s__ContestAttribute__t tptp.s__SetOrClass))
% 3.14/3.33 (assume a6899 (tptp.s__documentation tptp.s__ContestAttribute tptp.s__EnglishLanguage |tptp.'A &%Class containing &%Attributes that are specific to participants in a &%Contest. In particular, these &%Attributes indicate the position of one of the &%agents in the &%Contest with respect to other &%agent(s) in the &%Contest. Some examples of these &%Attributes are winning, losing, won, lost, etc.'|))
% 3.14/3.33 (assume a6900 (forall ((V__ATTR $$unsorted) (V__THING $$unsorted)) (=> (and (tptp.s__instance V__THING tptp.s__Agent) (tptp.s__instance V__THING tptp.s__Process) (tptp.s__instance V__ATTR tptp.s__Attribute)) (=> (and (tptp.s__property V__THING V__ATTR) (tptp.s__instance V__ATTR tptp.s__ContestAttribute)) (exists ((V__CONTEST $$unsorted)) (and (tptp.s__instance V__CONTEST tptp.s__Process) (tptp.s__instance V__CONTEST tptp.s__Contest) (or (tptp.s__agent V__CONTEST V__THING) (tptp.s__patient V__CONTEST V__THING) (tptp.s__subProcess V__THING V__CONTEST))))))))
% 3.14/3.33 (assume a6901 (tptp.s__subclass tptp.s__AlethicAttribute tptp.s__ObjectiveNorm))
% 3.14/3.33 (assume a6902 (tptp.s__documentation tptp.s__AlethicAttribute tptp.s__EnglishLanguage |tptp.'A &%Class containing all of the &%Attributes relating to the notions of possibility and necessity.'|))
% 3.14/3.33 (assume a6903 (tptp.s__instance tptp.s__Possibility tptp.s__AlethicAttribute))
% 3.14/3.33 (assume a6904 (tptp.s__instance tptp.s__AlethicAttribute__t tptp.s__SetOrClass))
% 3.14/3.33 (assume a6905 (tptp.s__documentation tptp.s__Possibility tptp.s__EnglishLanguage |tptp.'Attribute that applies to &%Propositions that are possible, i.e. true in at least one possible world.'|))
% 3.14/3.33 (assume a6906 (tptp.s__instance tptp.s__Necessity tptp.s__AlethicAttribute))
% 3.14/3.33 (assume a6907 (tptp.s__documentation tptp.s__Necessity tptp.s__EnglishLanguage |tptp.'Attribute that applies to &%Propositions that are necessary, i.e. true in every possible world.'|))
% 3.14/3.33 (assume a6908 (forall ((V__FORMULA $$unsorted)) (=> (tptp.s__instance V__FORMULA tptp.s__Formula) (= (tptp.s__modalAttribute V__FORMULA tptp.s__Necessity) (not (tptp.s__modalAttribute |tptp.'(~ V__FORMULA)'| tptp.s__Possibility))))))
% 3.14/3.33 (assume a6909 (forall ((V__FORMULA $$unsorted)) (=> (tptp.s__instance V__FORMULA tptp.s__Formula) (=> (tptp.s__modalAttribute V__FORMULA tptp.s__Necessity) (tptp.s__modalAttribute V__FORMULA tptp.s__Possibility)))))
% 3.14/3.33 (assume a6910 (tptp.s__instance tptp.s__holdsRight__m tptp.s__BinaryPredicate))
% 3.14/3.33 (assume a6911 (tptp.s__instance tptp.s__holdsRight__m tptp.s__AsymmetricRelation))
% 3.14/3.33 (assume a6912 (tptp.s__domain tptp.s__holdsRight__m |"1"| tptp.s__Formula))
% 3.14/3.33 (assume a6913 (tptp.s__domain tptp.s__holdsRight__m |"2"| tptp.s__CognitiveAgent))
% 3.14/3.33 (assume a6914 (tptp.s__documentation tptp.s__holdsRight__m tptp.s__EnglishLanguage |tptp.'Expresses a relationship between a &%Formula and a &%CognitiveAgent whereby the &%CognitiveAgent has the right to bring it about that the &%Formula is true.'|))
% 3.14/3.33 (assume a6915 (tptp.s__instance tptp.s__confersRight__m tptp.s__TernaryPredicate))
% 3.14/3.33 (assume a6916 (tptp.s__domain tptp.s__confersRight__m |"1"| tptp.s__Formula))
% 3.14/3.33 (assume a6917 (tptp.s__domain tptp.s__confersRight__m |"2"| tptp.s__Entity))
% 3.14/3.33 (assume a6918 (tptp.s__domain tptp.s__confersRight__m |"3"| tptp.s__CognitiveAgent))
% 3.14/3.33 (assume a6919 (tptp.s__documentation tptp.s__confersRight__m tptp.s__EnglishLanguage |tptp.'Expresses the relationship between a &%Formula, an &%Entity, and a &%CognitiveAgent when the &%Entity authorizes the &%CognitiveAgent to bring it about that the &%Formula is true.'|))
% 3.14/3.33 (assume a6920 (forall ((V__FORMULA $$unsorted) (V__AGENT2 $$unsorted) (V__AGENT1 $$unsorted)) (=> (and (tptp.s__instance V__AGENT2 tptp.s__CognitiveAgent) (tptp.s__instance V__FORMULA tptp.s__Formula)) (=> (tptp.s__confersRight V__FORMULA V__AGENT1 V__AGENT2) (tptp.s__holdsRight V__FORMULA V__AGENT2)))))
% 3.14/3.33 (assume a6921 (tptp.s__instance tptp.s__holdsObligation__m tptp.s__BinaryPredicate))
% 3.14/3.33 (assume a6922 (tptp.s__instance tptp.s__holdsObligation__m tptp.s__AsymmetricRelation))
% 3.14/3.33 (assume a6923 (tptp.s__domain tptp.s__holdsObligation__m |"1"| tptp.s__Formula))
% 3.14/3.33 (assume a6924 (tptp.s__domain tptp.s__holdsObligation__m |"2"| tptp.s__CognitiveAgent))
% 3.14/3.33 (assume a6925 (tptp.s__relatedInternalConcept tptp.s__holdsObligation__m tptp.s__holdsRight__m))
% 3.14/3.33 (assume a6926 (tptp.s__documentation tptp.s__holdsObligation__m tptp.s__EnglishLanguage |tptp.'Expresses a relationship between a &%Formula and a &%CognitiveAgent whereby the &%CognitiveAgent has the obligation to bring it about that the &%Formula is true.'|))
% 3.14/3.33 (assume a6927 (tptp.s__instance tptp.s__confersObligation__m tptp.s__TernaryPredicate))
% 3.14/3.33 (assume a6928 (tptp.s__domain tptp.s__confersObligation__m |"1"| tptp.s__Formula))
% 3.14/3.33 (assume a6929 (tptp.s__domain tptp.s__confersObligation__m |"2"| tptp.s__Entity))
% 3.14/3.33 (assume a6930 (tptp.s__domain tptp.s__confersObligation__m |"3"| tptp.s__CognitiveAgent))
% 3.14/3.33 (assume a6931 (tptp.s__relatedInternalConcept tptp.s__confersObligation__m tptp.s__confersRight__m))
% 3.14/3.33 (assume a6932 (tptp.s__documentation tptp.s__confersObligation__m tptp.s__EnglishLanguage |tptp.'Expresses the relationship between a a &%Formula, an &%Entity, and a &%CognitiveAgent when the &%Entity obligates the &%CognitiveAgent to bring it about that the &%Formula is true.'|))
% 3.14/3.33 (assume a6933 (forall ((V__FORMULA $$unsorted) (V__AGENT2 $$unsorted) (V__AGENT1 $$unsorted)) (=> (and (tptp.s__instance V__AGENT2 tptp.s__CognitiveAgent) (tptp.s__instance V__FORMULA tptp.s__Formula)) (=> (tptp.s__confersObligation V__FORMULA V__AGENT1 V__AGENT2) (tptp.s__holdsObligation V__FORMULA V__AGENT2)))))
% 3.14/3.33 (assume a6934 (tptp.s__subclass tptp.s__DeonticAttribute tptp.s__ObjectiveNorm))
% 3.14/3.33 (assume a6935 (tptp.s__documentation tptp.s__DeonticAttribute tptp.s__EnglishLanguage |tptp.'A &%Class containing all of the &%Attributes relating to the notions of permission, obligation, and prohibition.'|))
% 3.14/3.33 (assume a6936 (tptp.s__instance tptp.s__Permission tptp.s__DeonticAttribute))
% 3.14/3.33 (assume a6937 (tptp.s__instance tptp.s__DeonticAttribute__t tptp.s__SetOrClass))
% 3.14/3.33 (assume a6938 (tptp.s__documentation tptp.s__Permission tptp.s__EnglishLanguage |tptp.'&%Attribute that applies to &%Propositions that an &%Agent is permitted, by some authority, to make true.'|))
% 3.14/3.33 (assume a6939 (tptp.s__instance tptp.s__Obligation tptp.s__DeonticAttribute))
% 3.14/3.33 (assume a6940 (tptp.s__documentation tptp.s__Obligation tptp.s__EnglishLanguage |tptp.'&%Attribute that applies to &%Propositions that an &%Agent is required, by some authority, to make true.'|))
% 3.14/3.33 (assume a6941 (forall ((V__FORMULA $$unsorted)) (=> (tptp.s__instance V__FORMULA tptp.s__Formula) (= (tptp.s__modalAttribute V__FORMULA tptp.s__Obligation) (not (tptp.s__modalAttribute |tptp.'(~ V__FORMULA)'| tptp.s__Permission))))))
% 3.14/3.33 (assume a6942 (forall ((V__FORMULA $$unsorted)) (=> (tptp.s__instance V__FORMULA tptp.s__Formula) (=> (tptp.s__modalAttribute V__FORMULA tptp.s__Obligation) (tptp.s__modalAttribute V__FORMULA tptp.s__Permission)))))
% 3.14/3.33 (assume a6943 (tptp.s__subAttribute tptp.s__Law tptp.s__Obligation))
% 3.14/3.33 (assume a6944 (tptp.s__documentation tptp.s__Law tptp.s__EnglishLanguage |tptp.'&%Attribute that applies to &%Propositions that are required by a government or a branch of the government and that are enforced with penalties for noncompliance. These &%Propositions may be codified as legislation or they may be more informal, as in the case of government policy.'|))
% 3.14/3.33 (assume a6945 (tptp.s__subAttribute tptp.s__Promise tptp.s__Obligation))
% 3.14/3.33 (assume a6946 (tptp.s__documentation tptp.s__Promise tptp.s__EnglishLanguage |tptp.'&%Attribute that applies to &%Propositions that an &%Agent promises to make true. &%Promises may be implicit or explicit. They may be expressed in a written or verbal or gestural manner.'|))
% 3.14/3.33 (assume a6947 (tptp.s__instance tptp.s__Prohibition tptp.s__DeonticAttribute))
% 3.14/3.33 (assume a6948 (tptp.s__documentation tptp.s__Prohibition tptp.s__EnglishLanguage |tptp.'&%Prohibition is the &%DeonticAttribute that applies to &%Formulas that an &%Agent is forbidden, by some authority, to make true.'|))
% 3.14/3.33 (assume a6949 (forall ((V__FORMULA $$unsorted)) (=> (tptp.s__instance V__FORMULA tptp.s__Formula) (= (tptp.s__modalAttribute V__FORMULA tptp.s__Prohibition) (not (tptp.s__modalAttribute V__FORMULA tptp.s__Permission))))))
% 3.14/3.33 (assume a6950 (tptp.s__subclass tptp.s__ProbabilityAttribute tptp.s__ObjectiveNorm))
% 3.14/3.33 (assume a6951 (tptp.s__instance tptp.s__ObjectiveNorm__t tptp.s__SetOrClass))
% 3.14/3.33 (assume a6952 (tptp.s__documentation tptp.s__ProbabilityAttribute tptp.s__EnglishLanguage |tptp.'A class containing all of the &%Attributes relating to objective, qualitative assessments of probability, e.g. &%Likely and &%Unlikely.'|))
% 3.14/3.33 (assume a6953 (tptp.s__instance tptp.s__Likely tptp.s__ProbabilityAttribute))
% 3.14/3.33 (assume a6954 (tptp.s__instance tptp.s__ProbabilityAttribute__t tptp.s__SetOrClass))
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% 3.14/3.33 (assume a7079 (tptp.s__domain tptp.s__angleOfFigure__m |"1"| tptp.s__TwoDimensionalAngle))
% 3.14/3.33 (assume a7080 (tptp.s__domain tptp.s__angleOfFigure__m |"2"| tptp.s__GeometricFigure))
% 3.14/3.33 (assume a7081 (tptp.s__documentation tptp.s__angleOfFigure__m tptp.s__EnglishLanguage |tptp.'(&%angleOfFigure ?ANGLE ?FIGURE) means that the &%TwoDimensionalAngle ?ANGLE is part of the &%GeometricFigure ?FIGURE.'|))
% 3.14/3.33 (assume a7082 (tptp.s__instance tptp.s__pointOfIntersection__m tptp.s__TernaryPredicate))
% 3.14/3.33 (assume a7083 (tptp.s__domain tptp.s__pointOfIntersection__m |"1"| tptp.s__OneDimensionalFigure))
% 3.14/3.33 (assume a7084 (tptp.s__domain tptp.s__pointOfIntersection__m |"2"| tptp.s__OneDimensionalFigure))
% 3.14/3.33 (assume a7085 (tptp.s__domain tptp.s__pointOfIntersection__m |"3"| tptp.s__GeometricPoint))
% 3.14/3.33 (assume a7086 (tptp.s__documentation tptp.s__pointOfIntersection__m tptp.s__EnglishLanguage |tptp.'(&%pointOfIntersection ?FIGURE1 ?FIGURE2 ?POINT) means that the two straight lines ?FIGURE1 and ?FIGURE2 meet at the point ?POINT.'|))
% 3.14/3.33 (assume a7087 (forall ((V__POINT $$unsorted) (V__FIGURE1 $$unsorted) (V__FIGURE2 $$unsorted)) (=> (and (tptp.s__instance V__FIGURE2 tptp.s__OneDimensionalFigure) (tptp.s__instance V__FIGURE1 tptp.s__OneDimensionalFigure) (tptp.s__instance V__POINT tptp.s__GeometricPoint)) (=> (tptp.s__pointOfIntersection V__FIGURE1 V__FIGURE2 V__POINT) (and (tptp.s__pointOfFigure V__POINT V__FIGURE1) (tptp.s__pointOfFigure V__POINT V__FIGURE2))))))
% 3.14/3.33 (assume a7088 (tptp.s__instance tptp.s__parallel__m tptp.s__BinaryPredicate))
% 3.14/3.33 (assume a7089 (tptp.s__domain tptp.s__parallel__m |"1"| tptp.s__OneDimensionalFigure))
% 3.14/3.33 (assume a7090 (tptp.s__domain tptp.s__parallel__m |"2"| tptp.s__OneDimensionalFigure))
% 3.14/3.33 (assume a7091 (tptp.s__documentation tptp.s__parallel__m tptp.s__EnglishLanguage |tptp.'(&%parallel ?LINE1 ?LINE2) means that the &%OneDimensionalFigures ?LINE1 and ?LINE2 are parallel to one another, i.e. they are equidistant from one another at every point.'|))
% 3.14/3.33 (assume a7092 (forall ((V__LINE2 $$unsorted) (V__LINE1 $$unsorted)) (=> (and (tptp.s__instance V__LINE1 tptp.s__OneDimensionalFigure) (tptp.s__instance V__LINE2 tptp.s__OneDimensionalFigure)) (=> (tptp.s__parallel V__LINE1 V__LINE2) (not (exists ((V__POINT $$unsorted)) (and (tptp.s__instance V__POINT tptp.s__GeometricPoint) (tptp.s__pointOfIntersection V__LINE1 V__LINE2 V__POINT))))))))
% 3.14/3.33 (assume a7093 (tptp.s__instance tptp.s__angularMeasure__m tptp.s__BinaryPredicate))
% 3.14/3.33 (assume a7094 (tptp.s__instance tptp.s__angularMeasure__m tptp.s__TotalValuedRelation))
% 3.14/3.33 (assume a7095 (tptp.s__domain tptp.s__angularMeasure__m |"1"| tptp.s__TwoDimensionalAngle))
% 3.14/3.33 (assume a7096 (tptp.s__domain tptp.s__angularMeasure__m |"2"| tptp.s__PlaneAngleMeasure))
% 3.14/3.33 (assume a7097 (tptp.s__documentation tptp.s__angularMeasure__m tptp.s__EnglishLanguage |tptp.'(&%angularMeasure ?ANGLE ?MEASURE) means that the two-dimensional geometric angle ?ANGLE has the &%PlaneAngleMeasure of ?MEASURE.'|))
% 3.14/3.33 (assume a7098 (tptp.s__instance tptp.s__lineMeasure__m tptp.s__BinaryPredicate))
% 3.14/3.33 (assume a7099 (tptp.s__instance tptp.s__lineMeasure__m tptp.s__TotalValuedRelation))
% 3.14/3.33 (assume a7100 (tptp.s__domain tptp.s__lineMeasure__m |"1"| tptp.s__OneDimensionalFigure))
% 3.14/3.33 (assume a7101 (tptp.s__domain tptp.s__lineMeasure__m |"2"| tptp.s__LengthMeasure))
% 3.14/3.33 (assume a7102 (tptp.s__documentation tptp.s__lineMeasure__m tptp.s__EnglishLanguage |tptp.'(&%lineMeasure ?LINE ?MEASURE) means that the straight line ?LINE has the &%LengthMeasure of ?MEASURE.'|))
% 3.14/3.33 (assume a7103 (tptp.s__instance tptp.s__geometricDistance__m tptp.s__TernaryPredicate))
% 3.14/3.33 (assume a7104 (tptp.s__instance tptp.s__geometricDistance__m tptp.s__SingleValuedRelation))
% 3.14/3.33 (assume a7105 (tptp.s__instance tptp.s__geometricDistance__m tptp.s__TotalValuedRelation))
% 3.14/3.33 (assume a7106 (tptp.s__domain tptp.s__geometricDistance__m |"1"| tptp.s__GeometricPoint))
% 3.14/3.33 (assume a7107 (tptp.s__domain tptp.s__geometricDistance__m |"2"| tptp.s__GeometricPoint))
% 3.14/3.33 (assume a7108 (tptp.s__domain tptp.s__geometricDistance__m |"3"| tptp.s__LengthMeasure))
% 3.14/3.33 (assume a7109 (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.'|))
% 3.14/3.33 (assume a7110 (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)))))
% 3.14/3.33 (assume a7111 (tptp.s__subclass tptp.s__SaturationAttribute tptp.s__InternalAttribute))
% 3.14/3.33 (assume a7112 (tptp.s__instance tptp.s__SaturationAttribute__t tptp.s__SetOrClass))
% 3.14/3.33 (assume a7113 (tptp.s__documentation tptp.s__SaturationAttribute tptp.s__EnglishLanguage |tptp.'A &%Class of &%Attributes that specify, in a qualitative manner, the extent of the presence of one kind of &%Object in another kind of &%Object.'|))
% 3.14/3.33 (assume a7114 (tptp.s__instance tptp.s__Dry tptp.s__SaturationAttribute))
% 3.14/3.33 (assume a7115 (tptp.s__contraryAttribute_2 tptp.s__Dry tptp.s__Damp))
% 3.14/3.33 (assume a7116 (tptp.s__documentation tptp.s__Dry tptp.s__EnglishLanguage |tptp.'An &%Attribute which indicates that the associated &%Object contains no &%Liquid.'|))
% 3.14/3.33 (assume a7117 (forall ((V__OBJ $$unsorted)) (=> (tptp.s__instance V__OBJ tptp.s__Object) (=> (tptp.s__attribute V__OBJ tptp.s__Dry) (not (exists ((V__SUBOBJ $$unsorted)) (and (tptp.s__instance V__SUBOBJ tptp.s__Object) (tptp.s__part V__SUBOBJ V__OBJ) (tptp.s__attribute V__SUBOBJ tptp.s__Liquid))))))))
% 3.14/3.33 (assume a7118 (tptp.s__instance tptp.s__Damp tptp.s__SaturationAttribute))
% 3.14/3.33 (assume a7119 (tptp.s__documentation tptp.s__Damp tptp.s__EnglishLanguage |tptp.'An &%Attribute which indicates that the associated &%Object contains some &%Liquid.'|))
% 3.14/3.33 (assume a7120 (tptp.s__instance tptp.s__Wet tptp.s__SaturationAttribute))
% 3.14/3.33 (assume a7121 (tptp.s__subAttribute tptp.s__Wet tptp.s__Damp))
% 3.14/3.33 (assume a7122 (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.'|))
% 3.14/3.33 (assume a7123 (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 $$unsorted)) (and (tptp.s__instance V__SUBPART tptp.s__Object) (tptp.s__part V__SUBPART V__PART) (tptp.s__attribute V__SUBPART tptp.s__Liquid)))))))))
% 3.14/3.33 (assume a7124 (tptp.s__subclass tptp.s__BiologicalAttribute tptp.s__InternalAttribute))
% 3.14/3.33 (assume a7125 (tptp.s__documentation tptp.s__BiologicalAttribute tptp.s__EnglishLanguage |tptp.'&%Attributes that apply specifically to instances of &%Organism.'|))
% 3.14/3.33 (assume a7126 (forall ((V__ORG $$unsorted) (V__ATT $$unsorted)) (=> (and (tptp.s__instance V__ATT tptp.s__Attribute) (tptp.s__instance V__ORG tptp.s__Object)) (=> (and (tptp.s__attribute V__ORG V__ATT) (tptp.s__instance V__ATT tptp.s__BiologicalAttribute)) (tptp.s__instance V__ORG tptp.s__OrganicObject)))))
% 3.14/3.33 (assume a7127 (tptp.s__subclass tptp.s__BodyPosition tptp.s__BiologicalAttribute))
% 3.14/3.33 (assume a7128 (tptp.s__documentation tptp.s__BodyPosition tptp.s__EnglishLanguage |tptp.'The class of &%Attributes expressing configurations of bodies or parts of bodies of animals or humans, e.g. standing, sitting, kneeling, lying down, etc.'|))
% 3.14/3.33 (assume a7129 (forall ((V__ANIMAL $$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))))))))
% 3.14/3.33 (assume a7130 (tptp.s__instance tptp.s__Standing tptp.s__BodyPosition))
% 3.14/3.33 (assume a7131 (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.'|))
% 3.14/3.33 (assume a7132 (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)))))
% 3.14/3.33 (assume a7133 (tptp.s__instance tptp.s__Sitting tptp.s__BodyPosition))
% 3.14/3.33 (assume a7134 (tptp.s__instance tptp.s__BodyPosition__t tptp.s__SetOrClass))
% 3.14/3.33 (assume a7135 (tptp.s__documentation tptp.s__Sitting tptp.s__EnglishLanguage |tptp.'The &%BodyPosition of being recumbent, i.e. knees bent and back side supported.'|))
% 3.14/3.33 (assume a7136 (tptp.s__instance tptp.s__Prostrate tptp.s__BodyPosition))
% 3.14/3.33 (assume a7137 (tptp.s__documentation tptp.s__Prostrate tptp.s__EnglishLanguage |tptp.'The &%BodyPosition of lying down, being in a horizontal position.'|))
% 3.14/3.33 (assume a7138 (tptp.s__subclass tptp.s__AnimacyAttribute tptp.s__BiologicalAttribute))
% 3.14/3.33 (assume a7139 (tptp.s__exhaustiveAttribute_3 tptp.s__AnimacyAttribute tptp.s__Living tptp.s__Dead))
% 3.14/3.33 (assume a7140 (tptp.s__documentation tptp.s__AnimacyAttribute tptp.s__EnglishLanguage |tptp.'&%Attributes that indicate whether an &%Organism is alive or not.'|))
% 3.14/3.33 (assume a7141 (tptp.s__instance tptp.s__Living tptp.s__AnimacyAttribute))
% 3.14/3.33 (assume a7142 (tptp.s__instance tptp.s__AnimacyAttribute__t tptp.s__SetOrClass))
% 3.14/3.33 (assume a7143 (tptp.s__documentation tptp.s__Living tptp.s__EnglishLanguage |tptp.'This &%Attribute applies to &%Organisms that are alive.'|))
% 3.14/3.33 (assume a7144 (tptp.s__instance tptp.s__Dead tptp.s__AnimacyAttribute))
% 3.14/3.33 (assume a7145 (tptp.s__subAttribute tptp.s__Dead tptp.s__Unconscious))
% 3.14/3.33 (assume a7146 (tptp.s__contraryAttribute_2 tptp.s__Dead tptp.s__Living))
% 3.14/3.33 (assume a7147 (tptp.s__documentation tptp.s__Dead tptp.s__EnglishLanguage |tptp.'This &%Attribute applies to &%Organisms that are not alive.'|))
% 3.14/3.33 (assume a7148 (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)))))))
% 3.14/3.33 (assume a7149 (tptp.s__subclass tptp.s__SexAttribute tptp.s__BiologicalAttribute))
% 3.14/3.33 (assume a7150 (tptp.s__exhaustiveAttribute_3 tptp.s__SexAttribute tptp.s__Female tptp.s__Male))
% 3.14/3.33 (assume a7151 (tptp.s__documentation tptp.s__SexAttribute tptp.s__EnglishLanguage |tptp.'&%Attributes that indicate the sex of an &%Organism.'|))
% 3.14/3.33 (assume a7152 (tptp.s__instance tptp.s__Female tptp.s__SexAttribute))
% 3.14/3.33 (assume a7153 (tptp.s__documentation tptp.s__Female tptp.s__EnglishLanguage |tptp.'An &%Attribute indicating that an &%Organism is female in nature.'|))
% 3.14/3.33 (assume a7154 (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)))))
% 3.14/3.33 (assume a7155 (tptp.s__instance tptp.s__Male tptp.s__SexAttribute))
% 3.14/3.33 (assume a7156 (tptp.s__instance tptp.s__SexAttribute__t tptp.s__SetOrClass))
% 3.14/3.33 (assume a7157 (tptp.s__contraryAttribute_2 tptp.s__Male tptp.s__Female))
% 3.14/3.33 (assume a7158 (tptp.s__documentation tptp.s__Male tptp.s__EnglishLanguage |tptp.'An &%Attribute indicating that an &%Organism is male in nature.'|))
% 3.14/3.33 (assume a7159 (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)))))))
% 3.14/3.33 (assume a7160 (tptp.s__subclass tptp.s__DevelopmentalAttribute tptp.s__BiologicalAttribute))
% 3.14/3.33 (assume a7161 (tptp.s__instance tptp.s__DevelopmentalAttribute__t tptp.s__SetOrClass))
% 3.14/3.33 (assume a7162 (tptp.s__instance tptp.s__BiologicalAttribute__t tptp.s__SetOrClass))
% 3.14/3.33 (assume a7163 (tptp.s__exhaustiveAttribute_3 tptp.s__DevelopmentalAttribute tptp.s__FullyFormed tptp.s__NonFullyFormed))
% 3.14/3.33 (assume a7164 (tptp.s__documentation tptp.s__DevelopmentalAttribute tptp.s__EnglishLanguage |tptp.'&%Attributes that indicate the stage of development of an &%Organism.'|))
% 3.14/3.33 (assume a7165 (tptp.s__instance tptp.s__FullyFormed tptp.s__DevelopmentalAttribute))
% 3.14/3.33 (assume a7166 (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.'|))
% 3.14/3.33 (assume a7167 (tptp.s__instance tptp.s__NonFullyFormed tptp.s__DevelopmentalAttribute))
% 3.14/3.33 (assume a7168 (tptp.s__contraryAttribute_2 tptp.s__NonFullyFormed tptp.s__FullyFormed))
% 3.14/3.33 (assume a7169 (tptp.s__successorAttribute tptp.s__NonFullyFormed tptp.s__FullyFormed))
% 3.14/3.33 (assume a7170 (tptp.s__documentation tptp.s__NonFullyFormed tptp.s__EnglishLanguage |tptp.'The stage of an &%Organism before it is &%FullyFormed.'|))
% 3.14/3.33 (assume a7171 (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)))))))
% 3.14/3.33 (assume a7172 (tptp.s__subAttribute tptp.s__Larval tptp.s__NonFullyFormed))
% 3.14/3.33 (assume a7173 (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.'|))
% 3.14/3.33 (assume a7174 (tptp.s__subAttribute tptp.s__Embryonic tptp.s__NonFullyFormed))
% 3.14/3.33 (assume a7175 (tptp.s__contraryAttribute_2 tptp.s__Embryonic tptp.s__Larval))
% 3.14/3.33 (assume a7176 (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.'|))
% 3.14/3.33 (assume a7177 (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)))))))
% 3.14/3.33 (assume a7178 (tptp.s__subclass tptp.s__DiseaseOrSyndrome tptp.s__BiologicalAttribute))
% 3.14/3.33 (assume a7179 (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.'|))
% 3.14/3.33 (assume a7180 (tptp.s__subclass tptp.s__PsychologicalAttribute tptp.s__BiologicalAttribute))
% 3.14/3.33 (assume a7181 (tptp.s__partition_3 tptp.s__PsychologicalAttribute tptp.s__StateOfMind tptp.s__TraitAttribute))
% 3.14/3.33 (assume a7182 (tptp.s__documentation tptp.s__PsychologicalAttribute tptp.s__EnglishLanguage |tptp.'&%Attributes that characterize the mental or behavioral life of an &%Organism.'|))
% 3.14/3.33 (assume a7183 (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)))))
% 3.14/3.33 (assume a7184 (tptp.s__subclass tptp.s__StateOfMind tptp.s__PsychologicalAttribute))
% 3.14/3.33 (assume a7185 (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.'|))
% 3.14/3.33 (assume a7186 (tptp.s__subclass tptp.s__EmotionalState tptp.s__StateOfMind))
% 3.14/3.33 (assume a7187 (tptp.s__instance tptp.s__EmotionalState__t tptp.s__SetOrClass))
% 3.14/3.33 (assume a7188 (tptp.s__instance tptp.s__StateOfMind__t tptp.s__SetOrClass))
% 3.14/3.33 (assume a7189 (tptp.s__documentation tptp.s__EmotionalState tptp.s__EnglishLanguage |tptp.'The &%Class of &%Attributes that denote emotional states of &%Organisms.'|))
% 3.14/3.33 (assume a7190 (tptp.s__subclass tptp.s__ConsciousnessAttribute tptp.s__StateOfMind))
% 3.14/3.33 (assume a7191 (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.'|))
% 3.14/3.33 (assume a7192 (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)))))))
% 3.14/3.33 (assume a7193 (tptp.s__instance tptp.s__Asleep tptp.s__ConsciousnessAttribute))
% 3.14/3.33 (assume a7194 (tptp.s__documentation tptp.s__Asleep tptp.s__EnglishLanguage |tptp.'&%Attribute that applies to &%Organisms that are sleeping.'|))
% 3.14/3.33 (assume a7195 (tptp.s__instance tptp.s__Unconscious tptp.s__ConsciousnessAttribute))
% 3.14/3.33 (assume a7196 (tptp.s__contraryAttribute_2 tptp.s__Unconscious tptp.s__Awake))
% 3.14/3.33 (assume a7197 (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.'|))
% 3.14/3.33 (assume a7198 (tptp.s__instance tptp.s__Awake tptp.s__ConsciousnessAttribute))
% 3.14/3.33 (assume a7199 (tptp.s__instance tptp.s__ConsciousnessAttribute__t tptp.s__SetOrClass))
% 3.14/3.33 (assume a7200 (tptp.s__documentation tptp.s__Awake tptp.s__EnglishLanguage |tptp.'&%Attribute that applies to &%Organisms that are neither &%Unconscious nor &%Asleep.'|))
% 3.14/3.33 (assume a7201 (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)))))
% 3.14/3.33 (assume a7202 (tptp.s__subclass tptp.s__TraitAttribute tptp.s__PsychologicalAttribute))
% 3.14/3.33 (assume a7203 (tptp.s__instance tptp.s__TraitAttribute__t tptp.s__SetOrClass))
% 3.14/3.33 (assume a7204 (tptp.s__documentation tptp.s__TraitAttribute tptp.s__EnglishLanguage |tptp.'&%Attributes that indicate the the behavior/personality traits of an &%Organism.'|))
% 3.14/3.33 (assume a7205 (tptp.s__subclass tptp.s__PsychologicalDysfunction tptp.s__PsychologicalAttribute))
% 3.14/3.33 (assume a7206 (tptp.s__instance tptp.s__PsychologicalDysfunction__t tptp.s__SetOrClass))
% 3.14/3.33 (assume a7207 (tptp.s__instance tptp.s__PsychologicalAttribute__t tptp.s__SetOrClass))
% 3.14/3.33 (assume a7208 (tptp.s__subclass tptp.s__PsychologicalDysfunction tptp.s__DiseaseOrSyndrome))
% 3.14/3.33 (assume a7209 (tptp.s__instance tptp.s__DiseaseOrSyndrome__t tptp.s__SetOrClass))
% 3.14/3.33 (assume a7210 (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.'|))
% 3.14/3.33 (assume a7211 (tptp.s__instance tptp.s__comment__m tptp.s__TernaryPredicate))
% 3.14/3.33 (assume a7212 (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'|))
% 3.14/3.33 (assume a7213 (tptp.s__termFormat tptp.s__EnglishLanguage tptp.s__comment__m tptp.comment))
% 3.14/3.33 (assume a7214 (tptp.s__domain tptp.s__comment__m |"1"| tptp.s__Entity))
% 3.14/3.33 (assume a7215 (tptp.s__domain tptp.s__comment__m |"2"| tptp.s__SymbolicString))
% 3.14/3.33 (assume a7216 (tptp.s__domain tptp.s__comment__m |"3"| tptp.s__SymbolicString))
% 3.14/3.33 (assume a7217 (not (forall ((V_X $$unsorted)) (tptp.s__instance V_X tptp.s__Entity))))
% 3.14/3.33 (assume a7218 (distinct |"29"| |"12"| |"100"| |"30"| |"360"| |"29.92"| |"180"| |"1055.05585262"| |"4.1868"| |"4.448222"| |"14593.90"| |"453.59237"| |"4.54609"| |"8"| |"1609.344"| |"0.0254"| |"0.3048"| |"1.0E-10"| |"0.001"| |"0.000001"| |"-1"| |"1000000"| |"5"| |"1000000000"| |"6"| |"3"| |"1"| |"1.60217733E-19"| |"2"| |"0"| |"4"| |"24"| |"0.000000001"| |"1.6605402E-24"| |"400"| |"0.000000000001"| |"0.01"| |"746"| |"1000000000000"| |"31"| |"1024"| |"1000"| |"273.15"| |"1.8"| |"32"| |"7"| |"60"| |"3.785411784"| |"28"| |"0.5"| |"365"|))
% 3.14/3.33 (assume a7219 true)
% 3.14/3.33 (step t1 (cl (= (forall ((V__THING $$unsorted)) (tptp.s__instance V__THING tptp.s__Entity)) (forall ((V_X $$unsorted)) (tptp.s__instance V_X tptp.s__Entity)))) :rule hole :args ((forall ((V__THING $$unsorted)) (tptp.s__instance V__THING tptp.s__Entity)) (= V__THING V_X)))
% 3.14/3.33 (step t2 (cl (not (forall ((V__THING $$unsorted)) (tptp.s__instance V__THING tptp.s__Entity))) (forall ((V_X $$unsorted)) (tptp.s__instance V_X tptp.s__Entity))) :rule equiv1 :premises (t1))
% 3.14/3.33 (step t3 (cl (forall ((V_X $$unsorted)) (tptp.s__instance V_X tptp.s__Entity)) (not (forall ((V__THING $$unsorted)) (tptp.s__instance V__THING tptp.s__Entity)))) :rule reordering :premises (t2))
% 3.14/3.33 (step t4 (cl (forall ((V_X $$unsorted)) (tptp.s__instance V_X tptp.s__Entity))) :rule resolution :premises (t3 a500))
% 3.14/3.33 (step t5 (cl) :rule resolution :premises (a7217 t4))
% 3.14/3.33
% 3.14/3.33 % SZS output end Proof for /export/starexec/sandbox/tmp/tmp.pAGibNqKWQ/cvc5---1.0.5_16380.smt2
% 3.14/3.33 % cvc5---1.0.5 exiting
% 3.14/3.34 % cvc5---1.0.5 exiting
%------------------------------------------------------------------------------