Proof of Nuprl Lemma : fg-hom

Step * 1 2 of Lemma fg-hom_wf

1. X : Type
2. G : Group{i}
3. f : X ⟶ |G|
4. w : free-word(X)
5. w2 : (X + X) List@i
6. w3 : (X + X) List@i
7. TC(λx,y. word-rel(X;x;y)) w2 w3
⊢ fg-hom(G;f;w2) = fg-hom(G;f;w3) ∈ |G|
BY
{ (Assert ⌜∀x:(X + X) List. (fg-hom(G;f;x) ∈ |G|)⌝⋅ THENA (RepUR ``fg-hom`` 0 THEN Auto)) }

1
1. X : Type
2. G : Group{i}
3. f : X ⟶ |G|
4. w : free-word(X)
5. w2 : (X + X) List@i
6. w3 : (X + X) List@i
7. TC(λx,y. word-rel(X;x;y)) w2 w3
8. ∀x:(X + X) List. (fg-hom(G;f;x) ∈ |G|)
⊢ fg-hom(G;f;w2) = fg-hom(G;f;w3) ∈ |G|

Latex:

Latex:
1. X : Type 2. G : Group\{i\} 3. f : X {}\mrightarrow{} |G| 4. w : free-word(X) 5. w2 : (X + X) List@i 6. w3 : (X + X) List@i 7. TC(\mlambda{}x,y. word-rel(X;x;y)) w2 w3 \mvdash{} fg-hom(G;f;w2) = fg-hom(G;f;w3) By Latex: (Assert \mkleeneopen{}\mforall{}x:(X + X) List. (fg-hom(G;f;x) \mmember{} |G|)\mkleeneclose{}\mcdot{} THENA (RepUR ``fg-hom`` 0 THEN Auto)) Home Index