Proof of Nuprl Lemma : equiv-path2-0

Step * 2 of Lemma equiv-path2-0

.....assertion.....
1. G : CubicalSet{j}
2. A : {G ⊢ _}
3. B : {G ⊢ _}
4. f : {G ⊢ _:Equiv(A;B)}
5. cA : G +⊢ Compositon(A)
6. cB : G +⊢ Compositon(B)
7. G.𝕀, ((q=0) ∨ (q=1)) ⊢ (if (q=0) then (A)p else (B)p)
8. case-type-comp(G.𝕀; (q=0); (q=1); (A)p; (B)p; (cA)p; (cB)p)
   ∈ G.𝕀, ((q=0) ∨ (q=1)) +⊢ Compositon((if (q=0) then (A)p else (B)p))
⊢ G ⊢ (1(𝔽) ⇒ (((q=0) ∨ (q=1)))[0(𝕀)])
BY
{ ((RWW "csm-face-or csm-face-one csm-face-zero" 0 THENA Auto)
   THEN (Subst' (q)[0(𝕀)] ~ 0(𝕀) 0 THENA (CsmUnfolding THEN Auto))
   ) }

1
1. G : CubicalSet{j}
2. A : {G ⊢ _}
3. B : {G ⊢ _}
4. f : {G ⊢ _:Equiv(A;B)}
5. cA : G +⊢ Compositon(A)
6. cB : G +⊢ Compositon(B)
7. G.𝕀, ((q=0) ∨ (q=1)) ⊢ (if (q=0) then (A)p else (B)p)
8. case-type-comp(G.𝕀; (q=0); (q=1); (A)p; (B)p; (cA)p; (cB)p)
   ∈ G.𝕀, ((q=0) ∨ (q=1)) +⊢ Compositon((if (q=0) then (A)p else (B)p))
⊢ G ⊢ (1(𝔽) ⇒ ((0(𝕀)=0) ∨ (0(𝕀)=1)))

Latex:

Latex:
.....assertion..... 1. G : CubicalSet\{j\} 2. A : \{G \mvdash{} \_\} 3. B : \{G \mvdash{} \_\} 4. f : \{G \mvdash{} \_:Equiv(A;B)\} 5. cA : G +\mvdash{} Compositon(A) 6. cB : G +\mvdash{} Compositon(B) 7. G.\mBbbI{}, ((q=0) \mvee{} (q=1)) \mvdash{} (if (q=0) then (A)p else (B)p) 8. case-type-comp(G.\mBbbI{}; (q=0); (q=1); (A)p; (B)p; (cA)p; (cB)p) \mmember{} G.\mBbbI{}, ((q=0) \mvee{} (q=1)) +\mvdash{} Compositon((if (q=0) then (A)p else (B)p)) \mvdash{} G \mvdash{} (1(\mBbbF{}) {}\mRightarrow{} (((q=0) \mvee{} (q=1)))[0(\mBbbI{})]) By Latex: ((RWW "csm-face-or csm-face-one csm-face-zero" 0 THENA Auto) THEN (Subst' (q)[0(\mBbbI{})] \msim{} 0(\mBbbI{}) 0 THENA (CsmUnfolding THEN Auto)) ) Home Index