Nuprl Lemma : csm-equiv-path2

∀[G:j⊢]. ∀[A,B:{G ⊢ _}]. ∀[cA:G +⊢ Compositon(A)]. ∀[cB:G +⊢ Compositon(B)]. ∀[f:{G ⊢ _:Equiv(A;B)}]. ∀[H:j⊢].

∀[s:H j⟶ G].
  ((equiv-path2(G;A;B;cA;cB;f))s+
  = equiv-path2(H;(A)s;(B)s;(cA)s;(cB)s;(f)s)
  ∈ H.𝕀 +⊢ Compositon(equiv-path1(H;(A)s;(B)s;(f)s)))

Proof

Definitions occuring in Statement : equiv-path2: equiv-path2(G;A;B;cA;cB;f), equiv-path1: equiv-path1(G;A;B;f), csm-comp-structure: (cA)tau, composition-structure: Gamma ⊢ Compositon(A), cubical-equiv: Equiv(T;A), interval-type: 𝕀, csm+: tau+, cube-context-adjoin: X.A, csm-ap-term: (t)s, cubical-term: {X ⊢ _:A}, csm-ap-type: (AF)s, cubical-type: {X ⊢ _}, cube_set_map: A ⟶ B, cubical_set: CubicalSet, uall: ∀[x:A]. B[x], equal: s = t ∈ T
Definitions unfolded in proof : uall: ∀[x:A]. B[x], equiv-path2: equiv-path2(G;A;B;cA;cB;f), member: t ∈ T, cc-snd: q, interval-type: 𝕀, cc-fst: p, csm-ap-type: (AF)s, constant-cubical-type: (X), subtype_rel: A ⊆r B, all: ∀x:A. B[x], uimplies: b supposing a, guard: {T}, cubical-type: {X ⊢ _}, csm+: tau+, csm-ap: (s)x, csm-comp: G o F, csm-adjoin: (s;u), pi1: fst(t), compose: f o g, csm-ap-term: (t)s, pi2: snd(t), csm-comp-structure: (cA)tau, equiv-path1: equiv-path1(G;A;B;f), and: P ∧ Q
Lemmas referenced : csm-glue-comp, cube-context-adjoin_wf, interval-type_wf, csm-ap-type_wf, cc-fst_wf_interval, face-or_wf, face-zero_wf, cc-snd_wf, face-one_wf, cube_set_map_wf, istype-cubical-term, cubical-equiv_wf, composition-structure_wf, cubical_set_cumulativity-i-j, cubical-type_wf, cubical_set_wf, subset-cubical-type, context-subset_wf, context-subset-is-subset, face-type_wf, case-type_wf, same-cubical-type-zero-and-one, face-0_wf, csm-case-type, csm-face-or, csm-face-zero, csm-face-one, csm-case-type-comp, case-type-comp-disjoint, csm-comp-structure_wf, cube_set_map_cumulativity-i-j, composition-structure-subset, face-term-0-and-1, csm-cubical-equiv-by-cases, q-csm+, glue-comp_wf2, csm-comp-structure_wf2, glue-type_wf, equiv-fun_wf, sub_cubical_set_self
Rules used in proof : sqequalSubstitution, sqequalTransitivity, computationStep, sqequalReflexivity, isect_memberFormation_alt, cut, sqequalRule, introduction, extract_by_obid, sqequalHypSubstitution, isectElimination, thin, instantiate, hypothesis, hypothesisEquality, Error :memTop, equalityTransitivity, equalitySymmetry, because_Cache, universeIsType, inhabitedIsType, applyEquality, lambdaFormation_alt, independent_isectElimination, dependent_functionElimination, setElimination, rename, productElimination, dependent_set_memberEquality_alt, independent_pairFormation, productIsType, equalityIstype, applyLambdaEquality, lambdaEquality_alt, hyp_replacement

Latex:
\mforall{}[G:j\mvdash{}]. \mforall{}[A,B:\{G \mvdash{} \_\}]. \mforall{}[cA:G +\mvdash{} Compositon(A)]. \mforall{}[cB:G +\mvdash{} Compositon(B)]. \mforall{}[f:\{G \mvdash{} \_:Equiv(A;B)\}]. \mforall{}[H:j\mvdash{}]. \mforall{}[s:H j{}\mrightarrow{} G]. ((equiv-path2(G;A;B;cA;cB;f))s+ = equiv-path2(H;(A)s;(B)s;(cA)s;(cB)s;(f)s)) Date html generated: 2020_05_20-PM-07_28_18 Last ObjectModification: 2020_04_28-PM-10_05_07 Theory : cubical!type!theory Home Index