Proof of Nuprl Lemma : sine-poly-approx

Step * 1 1 1 1 1 of Lemma sine-poly-approx

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))

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

6. x < r0
7. |x| = -(x)
8. i : ℤ
9. 0 ≤ i
10. i ≤ k
⊢ -1^i * (x^(2 * i) + 1)/((2 * i) + 1)! = -(-1^i * (-(x)^(2 * i) + 1)/((2 * i) + 1)!)
BY

{ ((GenConcl ⌜((2 * i) + 1)! = M ∈ ℕ⁺⌝⋅ THENA Auto) THEN (RWW "int-rmul-req int-rdiv-req" 0 THENA Auto)) }

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))

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

6. x < r0
7. |x| = -(x)
8. i : ℤ
9. 0 ≤ i
10. i ≤ k
11. M : ℕ⁺
12. ((2 * i) + 1)! = M ∈ ℕ⁺
⊢ (r(-1^i) * (x^(2 * i) + 1/r(M))) = -(r(-1^i) * (-(x)^(2 * i) + 1/r(M)))

Latex:

Latex:
1. x : \{x:\mBbbR{}| |x| \mleq{} (r1/r(2))\} 2. k : \mBbbN{} 3. N : \mBbbN{}\msupplus{} 4. |\mSigma{}\{-1\^{}i * (x\^{}(2 * i) + 1)/((2 * i) + 1)! | 0\mleq{}i\mleq{}k\} - (r(sine-approx(x;k;N))/r(2 * N))| \mleq{} (r1/r(N)) 5. |sine(|x|) - \mSigma{}\{-1\^{}i * (|x|\^{}(2 * i) + 1)/((2 * i) + 1)! | 0\mleq{}i\mleq{}k\}| \mleq{} (|x|\^{}(2 * k) + 3/r(((2 * k) + 3)!)) 6. x < r0 7. |x| = -(x) 8. i : \mBbbZ{} 9. 0 \mleq{} i 10. i \mleq{} k \mvdash{} -1\^{}i * (x\^{}(2 * i) + 1)/((2 * i) + 1)! = -(-1\^{}i * (-(x)\^{}(2 * i) + 1)/((2 * i) + 1)!) By Latex: ((GenConcl \mkleeneopen{}((2 * i) + 1)! = M\mkleeneclose{}\mcdot{} THENA Auto) THEN (RWW "int-rmul-req int-rdiv-req" 0 THENA Auto)) Home Index