Proof of Nuprl Lemma : sine-poly-approx-1

Step * 2 2 1 1 1 of Lemma sine-poly-approx-1

1. x : {x:ℝ| (r0 ≤ x) ∧ (x ≤ r1)}
2. k : ℕ
3. e : {e:ℝ| r0 < e}
4. k1 : ℕ⁺
5. (r1/r(k1)) < e
6. N : ℕ
7. ∀i:ℕ. ((N ≤ i) ⇒ (|Σ{-1^i * (x^(2 * i) + 1)/((2 * i) + 1)! | 0≤i≤i} - sine(x)| ≤ (r1/r(k1))))
8. |sine(x) - Σ{-1^i * (x^(2 * i) + 1)/((2 * i) + 1)! | 0≤i≤N}| ≤ (r1/r(k1))
9. ¬(N ≤ k)
10. n : ℕ
11. 0 ≤ n
12. r0 ≤ (x^(2 * n) + 1)/((2 * n) + 1)!
13. M : ℕ⁺
14. ((2 * n) + 1)! = M ∈ ℕ⁺
15. A : ℕ⁺
16. ((2 * n) + 3) = A ∈ ℕ⁺
17. B : ℕ⁺
18. ((2 * n) + 2) = B ∈ ℕ⁺
19. i : ℕ
20. ((2 * n) + 1) = i ∈ ℕ
⊢ (x^i + 2)/A * B * M ≤ (x^i)/M
BY

{ ((Subst' A * B * M ~ (A * B) * M 0 THENA Auto) THEN (GenConcl ⌜(A * B) = C ∈ ℕ⁺⌝⋅ THENA Auto)) }

1
1. x : {x:ℝ| (r0 ≤ x) ∧ (x ≤ r1)}
2. k : ℕ
3. e : {e:ℝ| r0 < e}
4. k1 : ℕ⁺
5. (r1/r(k1)) < e
6. N : ℕ
7. ∀i:ℕ. ((N ≤ i) ⇒ (|Σ{-1^i * (x^(2 * i) + 1)/((2 * i) + 1)! | 0≤i≤i} - sine(x)| ≤ (r1/r(k1))))
8. |sine(x) - Σ{-1^i * (x^(2 * i) + 1)/((2 * i) + 1)! | 0≤i≤N}| ≤ (r1/r(k1))
9. ¬(N ≤ k)
10. n : ℕ
11. 0 ≤ n
12. r0 ≤ (x^(2 * n) + 1)/((2 * n) + 1)!
13. M : ℕ⁺
14. ((2 * n) + 1)! = M ∈ ℕ⁺
15. A : ℕ⁺
16. ((2 * n) + 3) = A ∈ ℕ⁺
17. B : ℕ⁺
18. ((2 * n) + 2) = B ∈ ℕ⁺
19. i : ℕ
20. ((2 * n) + 1) = i ∈ ℕ
21. C : ℕ⁺
22. (A * B) = C ∈ ℕ⁺
⊢ (x^i + 2)/C * M ≤ (x^i)/M

Latex:

Latex:
1. x : \{x:\mBbbR{}| (r0 \mleq{} x) \mwedge{} (x \mleq{} r1)\} 2. k : \mBbbN{} 3. e : \{e:\mBbbR{}| r0 < e\} 4. k1 : \mBbbN{}\msupplus{} 5. (r1/r(k1)) < e 6. N : \mBbbN{} 7. \mforall{}i:\mBbbN{}. ((N \mleq{} i) {}\mRightarrow{} (|\mSigma{}\{-1\^{}i * (x\^{}(2 * i) + 1)/((2 * i) + 1)! | 0\mleq{}i\mleq{}i\} - sine(x)| \mleq{} (r1/r(k1)))) 8. |sine(x) - \mSigma{}\{-1\^{}i * (x\^{}(2 * i) + 1)/((2 * i) + 1)! | 0\mleq{}i\mleq{}N\}| \mleq{} (r1/r(k1)) 9. \mneg{}(N \mleq{} k) 10. n : \mBbbN{} 11. 0 \mleq{} n 12. r0 \mleq{} (x\^{}(2 * n) + 1)/((2 * n) + 1)! 13. M : \mBbbN{}\msupplus{} 14. ((2 * n) + 1)! = M 15. A : \mBbbN{}\msupplus{} 16. ((2 * n) + 3) = A 17. B : \mBbbN{}\msupplus{} 18. ((2 * n) + 2) = B 19. i : \mBbbN{} 20. ((2 * n) + 1) = i \mvdash{} (x\^{}i + 2)/A * B * M \mleq{} (x\^{}i)/M By Latex: ((Subst' A * B * M \msim{} (A * B) * M 0 THENA Auto) THEN (GenConcl \mkleeneopen{}(A * B) = C\mkleeneclose{}\mcdot{} THENA Auto)) Home Index