Nuprl Lemma : Wleq-Wadd

[A:Type]. ∀[B:A ⟶ Type].  ∀zero:A ⟶ 𝔹. ∀w3,w2,w1:W(A;a.B[a]).  ((w1 ≤  w2)  ((w1 w3) ≤  (w2 w3)))


Proof




Definitions occuring in Statement :  Wadd: (w1 w2) Wcmp: Wcmp(A;a.B[a];leq) W: W(A;a.B[a]) btrue: tt bool: 𝔹 uall: [x:A]. B[x] infix_ap: y so_apply: x[s] all: x:A. B[x] implies:  Q function: x:A ⟶ B[x] universe: Type
Definitions unfolded in proof :  uall: [x:A]. B[x] all: x:A. B[x] member: t ∈ T so_lambda: λ2x.t[x] so_apply: x[s] implies:  Q prop: subtype_rel: A ⊆B Wadd: (w1 w2) Wsup: Wsup(a;b) bool: 𝔹 unit: Unit it: btrue: tt uiff: uiff(P;Q) and: P ∧ Q uimplies: supposing a ifthenelse: if then else fi  bfalse: ff exists: x:A. B[x] or: P ∨ Q sq_type: SQType(T) guard: {T} bnot: ¬bb assert: b false: False Wcmp: Wcmp(A;a.B[a];leq) infix_ap: y
Lemmas referenced :  W-induction all_wf W_wf infix_ap_wf Wcmp_wf btrue_wf Wadd_wf bool_wf eqtt_to_assert eqff_to_assert equal_wf bool_cases_sqequal subtype_base_sq bool_subtype_base assert-bnot
Rules used in proof :  sqequalSubstitution sqequalTransitivity computationStep sqequalReflexivity isect_memberFormation lambdaFormation cut introduction extract_by_obid sqequalHypSubstitution isectElimination thin hypothesisEquality sqequalRule lambdaEquality applyEquality functionExtensionality cumulativity because_Cache hypothesis functionEquality instantiate universeEquality independent_functionElimination unionElimination equalityElimination equalityTransitivity equalitySymmetry productElimination independent_isectElimination dependent_pairFormation promote_hyp dependent_functionElimination voidElimination

Latex:
\mforall{}[A:Type].  \mforall{}[B:A  {}\mrightarrow{}  Type].
    \mforall{}zero:A  {}\mrightarrow{}  \mBbbB{}.  \mforall{}w3,w2,w1:W(A;a.B[a]).    ((w1  \mleq{}    w2)  {}\mRightarrow{}  ((w1  +  w3)  \mleq{}    (w2  +  w3)))



Date html generated: 2017_04_14-AM-07_44_25
Last ObjectModification: 2017_02_27-PM-03_15_07

Theory : co-recursion


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