Proof of Nuprl Lemma : first-interface-implies-prior-interface

Step * 1 1 of Lemma first-interface-implies-prior-interface

1. Info : Type
2. es : EO+(Info)
3. X : EClass(Top)
4. Y : EClass(Top)
5. ∀e:E. ((↑e ∈_b X) ⇒ (¬↑e ∈_b prior(X)) ⇒ (↑e ∈_b Y))
6. e : E@i
7. ∀e1:E. ((e1 < e) ⇒ (↑e1 ∈_b prior(X)) ⇒ (↑e1 ∈_b prior(Y)))
8. e' : E
9. (e' <loc e)
10. ↑e' ∈_b X
11. ↑e' ∈_b prior(X)
⊢ ↑e ∈_b prior(Y)
BY
{ (Assert ⌜↑e' ∈_b prior(Y)⌝⋅ THEN Auto)⋅ }

1
1. Info : Type
2. es : EO+(Info)
3. X : EClass(Top)
4. Y : EClass(Top)
5. ∀e:E. ((↑e ∈_b X) ⇒ (¬↑e ∈_b prior(X)) ⇒ (↑e ∈_b Y))
6. e : E@i
7. ∀e1:E. ((e1 < e) ⇒ (↑e1 ∈_b prior(X)) ⇒ (↑e1 ∈_b prior(Y)))
8. e' : E
9. (e' <loc e)
10. ↑e' ∈_b X
11. ↑e' ∈_b prior(X)
12. ↑e' ∈_b prior(Y)
⊢ ↑e ∈_b prior(Y)

Latex:

Latex:
1. Info : Type 2. es : EO+(Info) 3. X : EClass(Top) 4. Y : EClass(Top) 5. \mforall{}e:E. ((\muparrow{}e \mmember{}\msubb{} X) {}\mRightarrow{} (\mneg{}\muparrow{}e \mmember{}\msubb{} prior(X)) {}\mRightarrow{} (\muparrow{}e \mmember{}\msubb{} Y)) 6. e : E@i 7. \mforall{}e1:E. ((e1 < e) {}\mRightarrow{} (\muparrow{}e1 \mmember{}\msubb{} prior(X)) {}\mRightarrow{} (\muparrow{}e1 \mmember{}\msubb{} prior(Y))) 8. e' : E 9. (e' <loc e) 10. \muparrow{}e' \mmember{}\msubb{} X 11. \muparrow{}e' \mmember{}\msubb{} prior(X) \mvdash{} \muparrow{}e \mmember{}\msubb{} prior(Y) By Latex: (Assert \mkleeneopen{}\muparrow{}e' \mmember{}\msubb{} prior(Y)\mkleeneclose{}\mcdot{} THEN Auto)\mcdot{} Home Index