Proof of Nuprl Lemma : presw-pres-c2

Step * 1 1 of Lemma presw-pres-c2

.....assertion.....
1. G : CubicalSet{j}
2. phi : {G ⊢ _:𝔽}
3. A : {G.𝕀 ⊢ _}
4. T : {G.𝕀 ⊢ _}
5. f : {G.𝕀 ⊢ _:(T ⟶ A)}
6. t : {G.𝕀, (phi)p ⊢ _:T}
7. t0 : {G ⊢ _:(T)[0(𝕀)][phi |⟶ t[0]]}
8. cT : G.𝕀 ⊢ Compositon(T)
9. f1 : {G ⊢ _:((T)[1(𝕀)] ⟶ (A)[1(𝕀)])}
10. (f)[1(𝕀)] = f1 ∈ {G ⊢ _:((T)[1(𝕀)] ⟶ (A)[1(𝕀)])}
⊢ (pres-v(G;phi;t;t0;cT))[1(𝕀)] = comp cT [phi ⊢→ t] t0 ∈ {G ⊢ _:(T)[1(𝕀)]}
BY
{ RepUR ``pres-v`` 0 }

1
1. G : CubicalSet{j}
2. phi : {G ⊢ _:𝔽}
3. A : {G.𝕀 ⊢ _}
4. T : {G.𝕀 ⊢ _}
5. f : {G.𝕀 ⊢ _:(T ⟶ A)}
6. t : {G.𝕀, (phi)p ⊢ _:T}
7. t0 : {G ⊢ _:(T)[0(𝕀)][phi |⟶ t[0]]}
8. cT : G.𝕀 ⊢ Compositon(T)
9. f1 : {G ⊢ _:((T)[1(𝕀)] ⟶ (A)[1(𝕀)])}
10. (f)[1(𝕀)] = f1 ∈ {G ⊢ _:((T)[1(𝕀)] ⟶ (A)[1(𝕀)])}
⊢ (fill cT [phi ⊢→ t] t0)[1(𝕀)] = comp cT [phi ⊢→ t] t0 ∈ {G ⊢ _:(T)[1(𝕀)]}

Latex:

Latex:
.....assertion..... 1. G : CubicalSet\{j\} 2. phi : \{G \mvdash{} \_:\mBbbF{}\} 3. A : \{G.\mBbbI{} \mvdash{} \_\} 4. T : \{G.\mBbbI{} \mvdash{} \_\} 5. f : \{G.\mBbbI{} \mvdash{} \_:(T {}\mrightarrow{} A)\} 6. t : \{G.\mBbbI{}, (phi)p \mvdash{} \_:T\} 7. t0 : \{G \mvdash{} \_:(T)[0(\mBbbI{})][phi |{}\mrightarrow{} t[0]]\} 8. cT : G.\mBbbI{} \mvdash{} Compositon(T) 9. f1 : \{G \mvdash{} \_:((T)[1(\mBbbI{})] {}\mrightarrow{} (A)[1(\mBbbI{})])\} 10. (f)[1(\mBbbI{})] = f1 \mvdash{} (pres-v(G;phi;t;t0;cT))[1(\mBbbI{})] = comp cT [phi \mvdash{}\mrightarrow{} t] t0 By Latex: RepUR ``pres-v`` 0 Home Index