Proof of Nuprl Lemma : csm-transprt-const

Step * 1 1 of Lemma csm-transprt-const

1. G : CubicalSet{j}
2. A : {G ⊢ _}
3. cA : G +⊢ Compositon(A)
4. a : {G ⊢ _:A}
5. H : CubicalSet{j}
6. s : H j⟶ G
7. (transprt(G;(cA)p;a))s = transprt(H;((cA)p)s+;(a)s) ∈ {H ⊢ _:((A)1(G))s}
⊢ (transprt(G;(cA)p;a))s = transprt(H;((cA)s)p;(a)s) ∈ {H ⊢ _:((A)1(G))s}
BY

{ (Assert ⌜transprt(H;((cA)p)s+;(a)s) = transprt(H;((cA)s)p;(a)s) ∈ {H ⊢ _:((A)1(G))s}⌝⋅ THENM Eq) }

1
.....assertion.....
1. G : CubicalSet{j}
2. A : {G ⊢ _}
3. cA : G +⊢ Compositon(A)
4. a : {G ⊢ _:A}
5. H : CubicalSet{j}
6. s : H j⟶ G
7. (transprt(G;(cA)p;a))s = transprt(H;((cA)p)s+;(a)s) ∈ {H ⊢ _:((A)1(G))s}
⊢ transprt(H;((cA)p)s+;(a)s) = transprt(H;((cA)s)p;(a)s) ∈ {H ⊢ _:((A)1(G))s}

Latex:

Latex:
1. G : CubicalSet\{j\} 2. A : \{G \mvdash{} \_\} 3. cA : G +\mvdash{} Compositon(A) 4. a : \{G \mvdash{} \_:A\} 5. H : CubicalSet\{j\} 6. s : H j{}\mrightarrow{} G 7. (transprt(G;(cA)p;a))s = transprt(H;((cA)p)s+;(a)s) \mvdash{} (transprt(G;(cA)p;a))s = transprt(H;((cA)s)p;(a)s) By Latex: (Assert \mkleeneopen{}transprt(H;((cA)p)s+;(a)s) = transprt(H;((cA)s)p;(a)s)\mkleeneclose{}\mcdot{} THENM Eq) Home Index