Proof of Nuprl Lemma : es-prior-fixedpoints-unequal

Step * 1 1 2 of Lemma es-prior-fixedpoints-unequal

1. [Info] : Type
2. [es] : EO+(Info)
3. [X] : EClass(Top)
4. [f] : E(X) ─→ E(X)
5. [%] : ∀x:E(X). f x c≤ x
6. [e] : E(X)
7. [e'] : E(X)
8. [%1] : (e' ∈ prior-f-fixedpoints(e))
9. [%2] : ¬(e' = f**(e) ∈ E)
10. last(prior-f-fixedpoints(e)) = f**(e) ∈ E(X)
11. last(prior-f-fixedpoints(e')) = f**(e') ∈ E(X)
12. f**(e') = e' ∈ E(X)
⊢ ¬(f**(e) ∈ prior-f-fixedpoints(e'))
BY
{ Assert ⌈¬(last(prior-f-fixedpoints(e')) = last(prior-f-fixedpoints(e)) ∈ E(X))⌉⋅ }

1
.....assertion.....
1. [Info] : Type
2. [es] : EO+(Info)
3. [X] : EClass(Top)
4. [f] : E(X) ─→ E(X)
5. [%] : ∀x:E(X). f x c≤ x
6. [e] : E(X)
7. [e'] : E(X)
8. [%1] : (e' ∈ prior-f-fixedpoints(e))
9. [%2] : ¬(e' = f**(e) ∈ E)
10. last(prior-f-fixedpoints(e)) = f**(e) ∈ E(X)
11. last(prior-f-fixedpoints(e')) = f**(e') ∈ E(X)
12. f**(e') = e' ∈ E(X)
⊢ ¬(last(prior-f-fixedpoints(e')) = last(prior-f-fixedpoints(e)) ∈ E(X))

2
1. [Info] : Type
2. [es] : EO+(Info)
3. [X] : EClass(Top)
4. [f] : E(X) ─→ E(X)
5. [%] : ∀x:E(X). f x c≤ x
6. [e] : E(X)
7. [e'] : E(X)
8. [%1] : (e' ∈ prior-f-fixedpoints(e))
9. [%2] : ¬(e' = f**(e) ∈ E)
10. last(prior-f-fixedpoints(e)) = f**(e) ∈ E(X)
11. last(prior-f-fixedpoints(e')) = f**(e') ∈ E(X)
12. f**(e') = e' ∈ E(X)
13. ¬(last(prior-f-fixedpoints(e')) = last(prior-f-fixedpoints(e)) ∈ E(X))
⊢ ¬(f**(e) ∈ prior-f-fixedpoints(e'))

Latex:

Latex:
1. [Info] : Type 2. [es] : EO+(Info) 3. [X] : EClass(Top) 4. [f] : E(X) {}\mrightarrow{} E(X) 5. [\%] : \mforall{}x:E(X). f x c\mleq{} x 6. [e] : E(X) 7. [e'] : E(X) 8. [\%1] : (e' \mmember{} prior-f-fixedpoints(e)) 9. [\%2] : \mneg{}(e' = f**(e)) 10. last(prior-f-fixedpoints(e)) = f**(e) 11. last(prior-f-fixedpoints(e')) = f**(e') 12. f**(e') = e' \mvdash{} \mneg{}(f**(e) \mmember{} prior-f-fixedpoints(e')) By Latex: Assert \mkleeneopen{}\mneg{}(last(prior-f-fixedpoints(e')) = last(prior-f-fixedpoints(e)))\mkleeneclose{}\mcdot{} Home Index