Proof of Nuprl Lemma : Cauchy-Schwarz-proof2

Step * 1 1 2 1 1 1 1 1 1 1 1 1 1 1 1 of Lemma Cauchy-Schwarz-proof2

1. n : ℕ
2. x : ℝ^n
3. y : ℝ^n
4. r0 < ||y||
5. r0 < y⋅y
6. req-vec(n;x;(x⋅y/y⋅y)*y + x - (x⋅y/y⋅y)*y)
7. ||x||^2
= ((||(x⋅y/||y||^2)*y||^2 + (((x⋅y/||y||^2) * x⋅y) - (x⋅y/||y||^2) * (x⋅y/||y||^2) * ||y||^2))
  + (((x⋅y/||y||^2) * y⋅x) - (x⋅y/||y||^2) * (x⋅y/||y||^2) * ||y||^2)
  + ||x - (x⋅y/||y||^2)*y||^2)
8. r0 < ||y||^2
⊢ x⋅y^2 ≤ (x⋅x * y⋅y)
BY
{ ((Assert y⋅x = x⋅y BY Auto) THEN (RWO "-1" (-3) THENA Auto)) }

1
1. n : ℕ
2. x : ℝ^n
3. y : ℝ^n
4. r0 < ||y||
5. r0 < y⋅y
6. req-vec(n;x;(x⋅y/y⋅y)*y + x - (x⋅y/y⋅y)*y)
7. ||x||^2
= ((||(x⋅y/||y||^2)*y||^2 + (((x⋅y/||y||^2) * x⋅y) - (x⋅y/||y||^2) * (x⋅y/||y||^2) * ||y||^2))
  + (((x⋅y/||y||^2) * x⋅y) - (x⋅y/||y||^2) * (x⋅y/||y||^2) * ||y||^2)
  + ||x - (x⋅y/||y||^2)*y||^2)
8. r0 < ||y||^2
9. y⋅x = x⋅y
⊢ x⋅y^2 ≤ (x⋅x * y⋅y)

Latex:

Latex:
1. n : \mBbbN{} 2. x : \mBbbR{}\^{}n 3. y : \mBbbR{}\^{}n 4. r0 < ||y|| 5. r0 < y\mcdot{}y 6. req-vec(n;x;(x\mcdot{}y/y\mcdot{}y)*y + x - (x\mcdot{}y/y\mcdot{}y)*y) 7. ||x||\^{}2 = ((||(x\mcdot{}y/||y||\^{}2)*y||\^{}2 + (((x\mcdot{}y/||y||\^{}2) * x\mcdot{}y) - (x\mcdot{}y/||y||\^{}2) * (x\mcdot{}y/||y||\^{}2) * ||y||\^{}2)) + (((x\mcdot{}y/||y||\^{}2) * y\mcdot{}x) - (x\mcdot{}y/||y||\^{}2) * (x\mcdot{}y/||y||\^{}2) * ||y||\^{}2) + ||x - (x\mcdot{}y/||y||\^{}2)*y||\^{}2) 8. r0 < ||y||\^{}2 \mvdash{} x\mcdot{}y\^{}2 \mleq{} (x\mcdot{}x * y\mcdot{}y) By Latex: ((Assert y\mcdot{}x = x\mcdot{}y BY Auto) THEN (RWO "-1" (-3) THENA Auto)) Home Index