Proof of Nuprl Lemma : homeo-image-boundary

Step * 1 of Lemma homeo-image-boundary

1. X : Type
2. Y : Type
3. dX : metric(X)
4. dY : metric(Y)
5. f : FUN(X ⟶ Y)
6. h1 : FUN(Y ⟶ X)
7. ∀x:X. h1 (f x) ≡ x
8. ∀y:Y. f (h1 y) ≡ y
9. PtwiseCONT(fst(<f, h1>):X ⟶ Y)
10. PtwiseCONT(snd(<f, h1>):Y ⟶ X)
11. A : Type
12. metric-subspace(X;dX;A)
13. A ⊆r X
14. respects-equality(X;A)
15. ∀a:A. ∀x:X. (x ≡ a ⇒ (x ∈ A))
16. <f, h1> ∈ homeomorphic(X;dX;Y;dY)
17. x : Y
18. a : A
19. ¬m-interior-point(X;dX;A;a)
20. x ≡ f a
⊢ ¬m-interior-point(Y;dY;homeo-image(A;Y;dY;<f, h1>);x)
BY
{ (ParallelOp -2 THEN Try ((MemTypeCD THEN Reduce 0 THEN Auto))) }

1
1. X : Type
2. Y : Type
3. dX : metric(X)
4. dY : metric(Y)
5. f : FUN(X ⟶ Y)
6. h1 : FUN(Y ⟶ X)
7. ∀x:X. h1 (f x) ≡ x
8. ∀y:Y. f (h1 y) ≡ y
9. PtwiseCONT(fst(<f, h1>):X ⟶ Y)
10. PtwiseCONT(snd(<f, h1>):Y ⟶ X)
11. A : Type
12. metric-subspace(X;dX;A)
13. A ⊆r X
14. respects-equality(X;A)
15. ∀a:A. ∀x:X. (x ≡ a ⇒ (x ∈ A))
16. <f, h1> ∈ homeomorphic(X;dX;Y;dY)
17. x : Y
18. a : A
19. x ≡ f a
20. m-interior-point(Y;dY;homeo-image(A;Y;dY;<f, h1>);x)
⊢ m-interior-point(X;dX;A;a)

Latex:

Latex:
1. X : Type 2. Y : Type 3. dX : metric(X) 4. dY : metric(Y) 5. f : FUN(X {}\mrightarrow{} Y) 6. h1 : FUN(Y {}\mrightarrow{} X) 7. \mforall{}x:X. h1 (f x) \mequiv{} x 8. \mforall{}y:Y. f (h1 y) \mequiv{} y 9. PtwiseCONT(fst(<f, h1>):X {}\mrightarrow{} Y) 10. PtwiseCONT(snd(<f, h1>):Y {}\mrightarrow{} X) 11. A : Type 12. metric-subspace(X;dX;A) 13. A \msubseteq{}r X 14. respects-equality(X;A) 15. \mforall{}a:A. \mforall{}x:X. (x \mequiv{} a {}\mRightarrow{} (x \mmember{} A)) 16. <f, h1> \mmember{} homeomorphic(X;dX;Y;dY) 17. x : Y 18. a : A 19. \mneg{}m-interior-point(X;dX;A;a) 20. x \mequiv{} f a \mvdash{} \mneg{}m-interior-point(Y;dY;homeo-image(A;Y;dY;<f, h1>);x) By Latex: (ParallelOp -2 THEN Try ((MemTypeCD THEN Reduce 0 THEN Auto))) Home Index