Proof of Nuprl Lemma : sine-poly-approx

Step * of Lemma sine-poly-approx

∀[x:{x:ℝ| |x| ≤ (r1/r(2))} ]. ∀[k:ℕ]. ∀[N:ℕ⁺].
  (|sine(x) - (r(sine-approx(x;k;N))/r(2 * N))| ≤ ((|x|^(2 * k) + 3/r(((2 * k) + 3)!)) + (r1/r(N))))
BY
{ (InstLemma `sine-approx-property` []
   THEN RepeatFor 3 (ParallelLast')
   THEN (D -1 THENA (Unhide THEN Auto))
   THEN UnfoldTopAb (-1)
   THEN UseTriangleInequality [⌜Σ{-1^i * (x^(2 * i) + 1)/((2 * i) + 1)! | 0≤i≤k}⌝]⋅) }

1
1. x : {x:ℝ| |x| ≤ (r1/r(2))}
2. k : ℕ
3. N : ℕ⁺

4. |Σ{-1^i * (x^(2 * i) + 1)/((2 * i) + 1)! | 0≤i≤k} - (r(sine-approx(x;k;N))/r(2 * N))| ≤ (r1/r(N))

⊢ (|sine(x) - Σ{-1^i * (x^(2 * i) + 1)/((2 * i) + 1)! | 0≤i≤k}| + (r1/r(N))) ≤ ((|x|^(2 * k) + 3/r(((2 * k) + 3)!))

+ (r1/r(N)))

Latex:

Latex:
\mforall{}[x:\{x:\mBbbR{}| |x| \mleq{} (r1/r(2))\} ]. \mforall{}[k:\mBbbN{}]. \mforall{}[N:\mBbbN{}\msupplus{}]. (|sine(x) - (r(sine-approx(x;k;N))/r(2 * N))| \mleq{} ((|x|\^{}(2 * k) + 3/r(((2 * k) + 3)!)) + (r1/r(N)))) By Latex: (InstLemma `sine-approx-property` [] THEN RepeatFor 3 (ParallelLast') THEN (D -1 THENA (Unhide THEN Auto)) THEN UnfoldTopAb (-1) THEN UseTriangleInequality [\mkleeneopen{}\mSigma{}\{-1\^{}i * (x\^{}(2 * i) + 1)/((2 * i) + 1)! | 0\mleq{}i\mleq{}k\}\mkleeneclose{}]\mcdot{}) Home Index