Proof of Nuprl Lemma : implies-isometry-lemma1

Step * 2 1 1 of Lemma implies-isometry-lemma1

1. rv : InnerProductSpace
2. f : Point(rv) ⟶ Point(rv)
3. r : {r:ℝ| r0 < r}
4. N : {2...}
5. ∀x,y:Point(rv).  (x ≡ y ⇒ f x ≡ f y)
6. ∀x,y:Point(rv).  ((||x - y|| = r) ⇒ (||f x - f y|| ≤ r))
7. ∀x,y:Point(rv).  ((||x - y|| = (r(N) * r)) ⇒ ((r(N) * r) ≤ ||f x - f y||))
8. ∀x,y,z:Point(rv).
     ((y ≡ (r1/r(2))*x + z ∧ (||x - y|| = r) ∧ (||x - z|| = (r(2) * r)))
     ⇒ ((||f x - f y|| = r) ∧ (||f x - f z|| = (r(2) * r))))
9. x : Point(rv)
10. y : Point(rv)
11. ||x - y|| = r
⊢ y ≡ (r1/r(2))*x + r(2)*y - x
BY
{ (Assert x + r(2)*y - x ≡ r(2)*y BY
         (RealVecEqual THEN Auto)) }

1
1. rv : InnerProductSpace
2. f : Point(rv) ⟶ Point(rv)
3. r : {r:ℝ| r0 < r}
4. N : {2...}
5. ∀x,y:Point(rv).  (x ≡ y ⇒ f x ≡ f y)
6. ∀x,y:Point(rv).  ((||x - y|| = r) ⇒ (||f x - f y|| ≤ r))
7. ∀x,y:Point(rv).  ((||x - y|| = (r(N) * r)) ⇒ ((r(N) * r) ≤ ||f x - f y||))
8. ∀x,y,z:Point(rv).
     ((y ≡ (r1/r(2))*x + z ∧ (||x - y|| = r) ∧ (||x - z|| = (r(2) * r)))
     ⇒ ((||f x - f y|| = r) ∧ (||f x - f z|| = (r(2) * r))))
9. x : Point(rv)
10. y : Point(rv)
11. ||x - y|| = r
12. x + r(2)*y - x ≡ r(2)*y
⊢ y ≡ (r1/r(2))*x + r(2)*y - x

Latex:

Latex:
1. rv : InnerProductSpace 2. f : Point(rv) {}\mrightarrow{} Point(rv) 3. r : \{r:\mBbbR{}| r0 < r\} 4. N : \{2...\} 5. \mforall{}x,y:Point(rv). (x \mequiv{} y {}\mRightarrow{} f x \mequiv{} f y) 6. \mforall{}x,y:Point(rv). ((||x - y|| = r) {}\mRightarrow{} (||f x - f y|| \mleq{} r)) 7. \mforall{}x,y:Point(rv). ((||x - y|| = (r(N) * r)) {}\mRightarrow{} ((r(N) * r) \mleq{} ||f x - f y||)) 8. \mforall{}x,y,z:Point(rv). ((y \mequiv{} (r1/r(2))*x + z \mwedge{} (||x - y|| = r) \mwedge{} (||x - z|| = (r(2) * r))) {}\mRightarrow{} ((||f x - f y|| = r) \mwedge{} (||f x - f z|| = (r(2) * r)))) 9. x : Point(rv) 10. y : Point(rv) 11. ||x - y|| = r \mvdash{} y \mequiv{} (r1/r(2))*x + r(2)*y - x By Latex: (Assert x + r(2)*y - x \mequiv{} r(2)*y BY (RealVecEqual THEN Auto)) Home Index