Proof of Nuprl Lemma : rv-circle-circle-lemma2

Step * of Lemma rv-circle-circle-lemma2

∀n:{2...}. ∀r1,r2:{r:ℝ| r0 ≤ r} . ∀b:ℝ^n.
  ((r0 < ||b||)
  ⇒ ((r1^2 - r2^2) + ||b||^2^2 ≤ (r(4) * ||b||^2 * r1^2))
  ⇒ (∃u,v:ℝ^n
       (((||u|| = r1) ∧ (||u - b|| = r2))
       ∧ ((||v|| = r1) ∧ (||v - b|| = r2))
       ∧ (((r1^2 - r2^2) + ||b||^2^2 < (r(4) * ||b||^2 * r1^2)) ⇒ u ≠ v))))
BY
{ (InstLemma `rv-circle-circle-lemma` [] THEN (RepeatFor 5 ((ParallelLast' THENA Auto)) THENA Auto)) }

1
1. n : {2...}
2. r1 : {r:ℝ| r0 ≤ r}
3. r2 : {r:ℝ| r0 ≤ r}
4. b : ℝ^n
5. r0 < ||b||
6. ∀b':ℝ^n
     ((b⋅b' = r0)
     ⇒ (||b'|| = ||b||)
     ⇒ ((r1^2 - r2^2) + ||b||^2^2 ≤ (r(4) * ||b||^2 * r1^2))
     ⇒ let c = ((r1^2 - r2^2) + ||b||^2/r(2)) in
         let d = (||b||^2 * r1^2) - c^2 in
         ∀x:ℝ^n

           ((req-vec(n;x;(r1/||b||^2)*c*b + rsqrt(d)*b') ∨ req-vec(n;x;(r1/||b||^2)*c*b - rsqrt(d)*b'))

           ⇒ ((||x|| = r1) ∧ (||x - b|| = r2))))
⊢ ((r1^2 - r2^2) + ||b||^2^2 ≤ (r(4) * ||b||^2 * r1^2))
⇒ (∃u,v:ℝ^n
     (((||u|| = r1) ∧ (||u - b|| = r2))
     ∧ ((||v|| = r1) ∧ (||v - b|| = r2))
     ∧ (((r1^2 - r2^2) + ||b||^2^2 < (r(4) * ||b||^2 * r1^2)) ⇒ u ≠ v)))

Latex:

Latex:
\mforall{}n:\{2...\}. \mforall{}r1,r2:\{r:\mBbbR{}| r0 \mleq{} r\} . \mforall{}b:\mBbbR{}\^{}n. ((r0 < ||b||) {}\mRightarrow{} ((r1\^{}2 - r2\^{}2) + ||b||\^{}2\^{}2 \mleq{} (r(4) * ||b||\^{}2 * r1\^{}2)) {}\mRightarrow{} (\mexists{}u,v:\mBbbR{}\^{}n (((||u|| = r1) \mwedge{} (||u - b|| = r2)) \mwedge{} ((||v|| = r1) \mwedge{} (||v - b|| = r2)) \mwedge{} (((r1\^{}2 - r2\^{}2) + ||b||\^{}2\^{}2 < (r(4) * ||b||\^{}2 * r1\^{}2)) {}\mRightarrow{} u \mneq{} v)))) By Latex: (InstLemma `rv-circle-circle-lemma` [] THEN (RepeatFor 5 ((ParallelLast' THENA Auto)) THENA Auto)) Home Index