Proof of Nuprl Lemma : fun-converges-to-sine

Step * 1 1 1 2 1 of Lemma fun-converges-to-sine

1. ∀x:ℝ. Σi.-1^i * (x^(2 * i) + 1)/((2 * i) + 1)! = sine(x)
2. m : ℕ⁺
3. r0 ≤ (r1/r(4))
4. (r1/r(4)) < r1
5. x : {x:ℝ| |x| ≤ r(m)}
6. n : ℕ
7. m ≤ n
8. r0 < r(((2 * n) + 1)!)
9. r0 < r(((2 * (n + 1)) + 1)!)
10. |r(((2 * (n + 1)) + 1)!)| = r(((2 * (n + 1)) + 1)!)
11. |r(((2 * n) + 1)!)| = r(((2 * n) + 1)!)
12. v : ℝ
13. |r(((2 * (n + 1)) + 1)!)| = v ∈ ℝ
14. v1 : ℝ
15. |r(((2 * n) + 1)!)| = v1 ∈ ℝ
16. v = (r(((2 * n) + 3) * ((2 * n) + 2)) * v1)
17. r0 < v
18. r0 < v1
⊢ (r(4) * |x^(2 * (n + 1)) + 1| * v1) ≤ (|x^(2 * n) + 1| * v)
BY
{ ((Assert |x| ≤ r(n) BY
          (DVar `x' THEN (Unhide THENA Auto) THEN (Assert r(m) ≤ r(n) BY Auto) THEN Auto))
   THEN (Assert |x|^2 ≤ r(n)^2 BY
               (BLemma `rnexp-rleq` THEN Auto))
   ) }

1
1. ∀x:ℝ. Σi.-1^i * (x^(2 * i) + 1)/((2 * i) + 1)! = sine(x)
2. m : ℕ⁺
3. r0 ≤ (r1/r(4))
4. (r1/r(4)) < r1
5. x : {x:ℝ| |x| ≤ r(m)}
6. n : ℕ
7. m ≤ n
8. r0 < r(((2 * n) + 1)!)
9. r0 < r(((2 * (n + 1)) + 1)!)
10. |r(((2 * (n + 1)) + 1)!)| = r(((2 * (n + 1)) + 1)!)
11. |r(((2 * n) + 1)!)| = r(((2 * n) + 1)!)
12. v : ℝ
13. |r(((2 * (n + 1)) + 1)!)| = v ∈ ℝ
14. v1 : ℝ
15. |r(((2 * n) + 1)!)| = v1 ∈ ℝ
16. v = (r(((2 * n) + 3) * ((2 * n) + 2)) * v1)
17. r0 < v
18. r0 < v1
19. |x| ≤ r(n)
20. |x|^2 ≤ r(n)^2
⊢ (r(4) * |x^(2 * (n + 1)) + 1| * v1) ≤ (|x^(2 * n) + 1| * v)

Latex:

Latex:
1. \mforall{}x:\mBbbR{}. \mSigma{}i.-1\^{}i * (x\^{}(2 * i) + 1)/((2 * i) + 1)! = sine(x) 2. m : \mBbbN{}\msupplus{} 3. r0 \mleq{} (r1/r(4)) 4. (r1/r(4)) < r1 5. x : \{x:\mBbbR{}| |x| \mleq{} r(m)\} 6. n : \mBbbN{} 7. m \mleq{} n 8. r0 < r(((2 * n) + 1)!) 9. r0 < r(((2 * (n + 1)) + 1)!) 10. |r(((2 * (n + 1)) + 1)!)| = r(((2 * (n + 1)) + 1)!) 11. |r(((2 * n) + 1)!)| = r(((2 * n) + 1)!) 12. v : \mBbbR{} 13. |r(((2 * (n + 1)) + 1)!)| = v 14. v1 : \mBbbR{} 15. |r(((2 * n) + 1)!)| = v1 16. v = (r(((2 * n) + 3) * ((2 * n) + 2)) * v1) 17. r0 < v 18. r0 < v1 \mvdash{} (r(4) * |x\^{}(2 * (n + 1)) + 1| * v1) \mleq{} (|x\^{}(2 * n) + 1| * v) By Latex: ((Assert |x| \mleq{} r(n) BY (DVar `x' THEN (Unhide THENA Auto) THEN (Assert r(m) \mleq{} r(n) BY Auto) THEN Auto)) THEN (Assert |x|\^{}2 \mleq{} r(n)\^{}2 BY (BLemma `rnexp-rleq` THEN Auto)) ) Home Index