Proof of Nuprl Lemma : isaxiom-sqequal

Step * 3 1 of Lemma isaxiom-sqequal

1. C : Base
2. ∀x:Base. ((C x)↓ ⇒ (x)↓)
3. ∀u,v:Base.  (C (exception(u; v)) ~ exception(u; v))
4. ∀z:Base. (is-exception(C z) ⇒ is-exception(z))
5. A : Base
6. B : Base
7. z : Base
8. A Ax ~ C Ax
9. (∀a,b:Base.  (if z = Ax then a otherwise b ~ b)) ⇒ (B z ~ C z)
10. is-exception(C z)
11. is-exception(C)
⊢ C z ≤ if z = Ax then A z otherwise B z
BY
{ ((FHyp 4 [-2] THENA Auto) THEN ExceptionSqequal (-1) THEN HypSubst' (-1) 0) }

1
1. C : Base
2. ∀x:Base. ((C x)↓ ⇒ (x)↓)
3. ∀u,v:Base.  (C (exception(u; v)) ~ exception(u; v))
4. ∀z:Base. (is-exception(C z) ⇒ is-exception(z))
5. A : Base
6. B : Base
7. z : Base
8. A Ax ~ C Ax
9. (∀a,b:Base.  (if z = Ax then a otherwise b ~ b)) ⇒ (B z ~ C z)
10. is-exception(C z)
11. is-exception(C)
12. is-exception(z)
13. u : Base
14. v : Base
15. z ~ exception(u; v)

⊢ C (exception(u; v)) ≤ if exception(u; v) = Ax then A (exception(u; v)) otherwise B (exception(u; v))

Latex:

Latex:
1. C : Base 2. \mforall{}x:Base. ((C x)\mdownarrow{} {}\mRightarrow{} (x)\mdownarrow{}) 3. \mforall{}u,v:Base. (C (exception(u; v)) \msim{} exception(u; v)) 4. \mforall{}z:Base. (is-exception(C z) {}\mRightarrow{} is-exception(z)) 5. A : Base 6. B : Base 7. z : Base 8. A Ax \msim{} C Ax 9. (\mforall{}a,b:Base. (if z = Ax then a otherwise b \msim{} b)) {}\mRightarrow{} (B z \msim{} C z) 10. is-exception(C z) 11. is-exception(C) \mvdash{} C z \mleq{} if z = Ax then A z otherwise B z By Latex: ((FHyp 4 [-2] THENA Auto) THEN ExceptionSqequal (-1) THEN HypSubst' (-1) 0) Home Index