Proof of Nuprl Lemma : path-comp-property

Step * 1 1 2 1 1 1 of Lemma path-comp-property_functionality

1. [X] : SeparationSpace
2. [Y] : SeparationSpace
3. f1 : Point(X ⟶ Y)
4. g1 : Point(Y ⟶ X)
5. ∀x:Point(X). g1(f1(x)) ≡ x
6. ∀y:Point(Y). f1(g1(y)) ≡ y
7. ∀f,g:Point(Path(X)).  (f@r1 ≡ g@r0 ⇒ (∃h:Point(Path(X)). path-comp-rel(X;f;g;h)))
8. f : Point(Path(Y))
9. g : Point(Path(Y))
10. f@r1 ≡ g@r0
11. h : Point(Path(X))
12. ∀t:{x:ℝ| x ∈ [(r1/r(2)), r1]} . h@t ≡ ss-comp(g1;g)@(r(2) * t) - r1
13. ∀t:{x:ℝ| x ∈ [r0, (r1/r(2))]} . h@t ≡ ss-comp(g1;f)@r(2) * t
14. t : {x:ℝ| x ∈ [r0, (r1/r(2))]}
15. h@t ≡ ss-comp(g1;f)@r(2) * t
16. r(2) * t ∈ {t:ℝ| (r0 ≤ t) ∧ (t ≤ r1)}
⊢ ss-comp(f1;h)@t ≡ f@r(2) * t
BY
{ ((Subst' ss-comp(g1;f)@r(2) * t ~ g1(f@r(2) * t) -2 THENA RepeatFor 2 ((Computation THEN Auto)))
   THEN (Subst' ss-comp(f1;h)@t ~ f1(h@t) 0 THENA RepeatFor 2 ((Computation THEN Auto)))
   ) }

1
1. [X] : SeparationSpace
2. [Y] : SeparationSpace
3. f1 : Point(X ⟶ Y)
4. g1 : Point(Y ⟶ X)
5. ∀x:Point(X). g1(f1(x)) ≡ x
6. ∀y:Point(Y). f1(g1(y)) ≡ y
7. ∀f,g:Point(Path(X)).  (f@r1 ≡ g@r0 ⇒ (∃h:Point(Path(X)). path-comp-rel(X;f;g;h)))
8. f : Point(Path(Y))
9. g : Point(Path(Y))
10. f@r1 ≡ g@r0
11. h : Point(Path(X))
12. ∀t:{x:ℝ| x ∈ [(r1/r(2)), r1]} . h@t ≡ ss-comp(g1;g)@(r(2) * t) - r1
13. ∀t:{x:ℝ| x ∈ [r0, (r1/r(2))]} . h@t ≡ ss-comp(g1;f)@r(2) * t
14. t : {x:ℝ| x ∈ [r0, (r1/r(2))]}
15. h@t ≡ g1(f@r(2) * t)
16. r(2) * t ∈ {t:ℝ| (r0 ≤ t) ∧ (t ≤ r1)}
⊢ f1(h@t) ≡ f@r(2) * t

Latex:

Latex:
1. [X] : SeparationSpace 2. [Y] : SeparationSpace 3. f1 : Point(X {}\mrightarrow{} Y) 4. g1 : Point(Y {}\mrightarrow{} X) 5. \mforall{}x:Point(X). g1(f1(x)) \mequiv{} x 6. \mforall{}y:Point(Y). f1(g1(y)) \mequiv{} y 7. \mforall{}f,g:Point(Path(X)). (f@r1 \mequiv{} g@r0 {}\mRightarrow{} (\mexists{}h:Point(Path(X)). path-comp-rel(X;f;g;h))) 8. f : Point(Path(Y)) 9. g : Point(Path(Y)) 10. f@r1 \mequiv{} g@r0 11. h : Point(Path(X)) 12. \mforall{}t:\{x:\mBbbR{}| x \mmember{} [(r1/r(2)), r1]\} . h@t \mequiv{} ss-comp(g1;g)@(r(2) * t) - r1 13. \mforall{}t:\{x:\mBbbR{}| x \mmember{} [r0, (r1/r(2))]\} . h@t \mequiv{} ss-comp(g1;f)@r(2) * t 14. t : \{x:\mBbbR{}| x \mmember{} [r0, (r1/r(2))]\} 15. h@t \mequiv{} ss-comp(g1;f)@r(2) * t 16. r(2) * t \mmember{} \{t:\mBbbR{}| (r0 \mleq{} t) \mwedge{} (t \mleq{} r1)\} \mvdash{} ss-comp(f1;h)@t \mequiv{} f@r(2) * t By Latex: ((Subst' ss-comp(g1;f)@r(2) * t \msim{} g1(f@r(2) * t) -2 THENA RepeatFor 2 ((Computation THEN Auto))) THEN (Subst' ss-comp(f1;h)@t \msim{} f1(h@t) 0 THENA RepeatFor 2 ((Computation THEN Auto))) ) Home Index