Proof of Nuprl Lemma : rv-orthogonal-iff

Step * 2 1 2 2 1 of Lemma rv-orthogonal-iff

1. rv : InnerProductSpace
2. f : Point(rv) ⟶ Point(rv)
3. f 0 ≡ 0
4. Isometry(f)
5. ∀x,y:Point(rv).  (x ≡ y ⇒ f x ≡ f y)
6. x : Point(rv)
7. y : Point(rv)
8. ∀a,b:Point(rv).  f (r1/r(2))*a + b ≡ (r1/r(2))*f a + f b
9. ∀a:Point(rv). f (r1/r(2))*a ≡ (r1/r(2))*f a
10. ∀a:Point(rv). f a ≡ r(2)*f (r1/r(2))*a
⊢ f x + y ≡ f x + f y
BY
{ ((RW  (AddrC [2] (HypC (-1))) 0 THENA Auto) THEN (RWO "-3" 0 THENA Auto)) }

1
1. rv : InnerProductSpace
2. f : Point(rv) ⟶ Point(rv)
3. f 0 ≡ 0
4. Isometry(f)
5. ∀x,y:Point(rv).  (x ≡ y ⇒ f x ≡ f y)
6. x : Point(rv)
7. y : Point(rv)
8. ∀a,b:Point(rv).  f (r1/r(2))*a + b ≡ (r1/r(2))*f a + f b
9. ∀a:Point(rv). f (r1/r(2))*a ≡ (r1/r(2))*f a
10. ∀a:Point(rv). f a ≡ r(2)*f (r1/r(2))*a
⊢ r(2)*(r1/r(2))*f x + f y ≡ f x + f y

Latex:

Latex:
1. rv : InnerProductSpace 2. f : Point(rv) {}\mrightarrow{} Point(rv) 3. f 0 \mequiv{} 0 4. Isometry(f) 5. \mforall{}x,y:Point(rv). (x \mequiv{} y {}\mRightarrow{} f x \mequiv{} f y) 6. x : Point(rv) 7. y : Point(rv) 8. \mforall{}a,b:Point(rv). f (r1/r(2))*a + b \mequiv{} (r1/r(2))*f a + f b 9. \mforall{}a:Point(rv). f (r1/r(2))*a \mequiv{} (r1/r(2))*f a 10. \mforall{}a:Point(rv). f a \mequiv{} r(2)*f (r1/r(2))*a \mvdash{} f x + y \mequiv{} f x + f y By Latex: ((RW (AddrC [2] (HypC (-1))) 0 THENA Auto) THEN (RWO "-3" 0 THENA Auto)) Home Index