Proof of Nuprl Lemma : sys-antecedent-filter-image

Step * of Lemma sys-antecedent-filter-image

∀[Info,A,B:Type]. ∀[g:A ─→ bag(B)]. ∀[es:EO+(Info)]. ∀[X:EClass(A)]. ∀[f:sys-antecedent(es;X)].
f ∈ sys-antecedent(es;g[X]) supposing ∀a:E(X). ((¬((f a) = a ∈ E(X))) ⇒ (#(g X(a)) = 1 ∈ ℤ) ⇒ (#(g X(f a)) = 1 ∈ ℤ))
BY
{ ((UnivCD THENA Auto) THEN D -2 THEN Unfold `sys-antecedent` 0 THEN MemTypeCD) }

1
1. Info : Type
2. A : Type
3. B : Type
4. g : A ─→ bag(B)
5. es : EO+(Info)
6. X : EClass(A)
7. f : E(X) ─→ E(X)
8. ∀x:E(X). f x c≤ x
9. ∀a:E(X). ((¬((f a) = a ∈ E(X))) ⇒ (#(g X(a)) = 1 ∈ ℤ) ⇒ (#(g X(f a)) = 1 ∈ ℤ))
⊢ f ∈ E(g[X]) ─→ E(g[X])

2
.....set predicate.....
1. Info : Type
2. A : Type
3. B : Type
4. g : A ─→ bag(B)
5. es : EO+(Info)
6. X : EClass(A)
7. f : E(X) ─→ E(X)
8. ∀x:E(X). f x c≤ x
9. ∀a:E(X). ((¬((f a) = a ∈ E(X))) ⇒ (#(g X(a)) = 1 ∈ ℤ) ⇒ (#(g X(f a)) = 1 ∈ ℤ))
⊢ ∀x:E(g[X]). f x c≤ x

3
.....wf.....
1. Info : Type
2. A : Type
3. B : Type
4. g : A ─→ bag(B)
5. es : EO+(Info)
6. X : EClass(A)
7. f : E(X) ─→ E(X)
8. ∀x:E(X). f x c≤ x
9. ∀a:E(X). ((¬((f a) = a ∈ E(X))) ⇒ (#(g X(a)) = 1 ∈ ℤ) ⇒ (#(g X(f a)) = 1 ∈ ℤ))
10. f1 : E(g[X]) ─→ E(g[X])
⊢ ∀x:E(g[X]). f1 x c≤ x ∈ Type

Latex:

Latex:
\mforall{}[Info,A,B:Type]. \mforall{}[g:A {}\mrightarrow{} bag(B)]. \mforall{}[es:EO+(Info)]. \mforall{}[X:EClass(A)]. \mforall{}[f:sys-antecedent(es;X)]. f \mmember{} sys-antecedent(es;g[X]) supposing \mforall{}a:E(X). ((\mneg{}((f a) = a)) {}\mRightarrow{} (\#(g X(a)) = 1) {}\mRightarrow{} (\#(g X(f a)) = 1)) By Latex: ((UnivCD THENA Auto) THEN D -2 THEN Unfold `sys-antecedent` 0 THEN MemTypeCD) Home Index