Proof of Nuprl Lemma : Taylor-theorem-case2

Step * 2 1 1 1 2 1 1 1 2 1 1 1 1 1 1 1 1 of Lemma Taylor-theorem-case2

1. I : Interval
2. iproper(I)
3. n : ℕ⁺
4. F : ℕn + 2 ⟶ I ⟶ℝ
5. a : {a:ℝ| a ∈ I}
6. b : {a:ℝ| a ∈ I}
7. ∀k:ℕn + 2. ∀x,y:{a:ℝ| a ∈ I} .  ((x = y) ⇒ (F[k;x] = F[k;y]))
8. finite-deriv-seq(I;n + 1;i,x.F[i;x])
9. e : ℝ
10. r0 < e
11. M : ℕ⁺
12. ∀k:ℕ⁺n + 1. (|(F[k;a]/r((k)!))| ≤ r(M))
13. k : ℕ⁺
14. (r1/r(k)) < e
15. [rmin(a;b), rmax(a;b)] ⊆ I
16. d : ℝ
17. r0 < d
18. ∀x,y:ℝ.
      (((rmin(a;b) ≤ x) ∧ (x ≤ rmax(a;b)))
      ⇒ ((rmin(a;b) ≤ y) ∧ (y ≤ rmax(a;b)))
      ⇒ (|x - y| ≤ d)
      ⇒ (|F[0;x] - F[0;y]| ≤ (r1/r(2 * k))))
19. r0 < rmin(d;(r1/r(2 * n * M * k)))
20. |a - b| < d
21. ((F[0;a]/r((0)!)) * b - a^0) = F[0;a]
22. i : ℤ
23. (0 + 1) ≤ i
24. i ≤ n
25. |(F[i;a]/r((i)!))| ≤ r(M)
26. Z : {2...}
27. (2 * n * M * k) = Z ∈ {2...}
28. |b - a| < (r1/r(Z))
29. |b - a|^i < (r1/r(Z))^i
30. r0 < r(Z)^i
⊢ (r(1^i)/r(Z^i)) ≤ (r1/r(Z))
BY
{ (BLemma `rleq-int-fractions` THEN Auto) }

1
1. I : Interval
2. iproper(I)
3. n : ℕ⁺
4. F : ℕn + 2 ⟶ I ⟶ℝ
5. a : {a:ℝ| a ∈ I}
6. b : {a:ℝ| a ∈ I}
7. ∀k:ℕn + 2. ∀x,y:{a:ℝ| a ∈ I} .  ((x = y) ⇒ (F[k;x] = F[k;y]))
8. finite-deriv-seq(I;n + 1;i,x.F[i;x])
9. e : ℝ
10. r0 < e
11. M : ℕ⁺
12. ∀k:ℕ⁺n + 1. (|(F[k;a]/r((k)!))| ≤ r(M))
13. k : ℕ⁺
14. (r1/r(k)) < e
15. [rmin(a;b), rmax(a;b)] ⊆ I
16. d : ℝ
17. r0 < d
18. ∀x,y:ℝ.
      (((rmin(a;b) ≤ x) ∧ (x ≤ rmax(a;b)))
      ⇒ ((rmin(a;b) ≤ y) ∧ (y ≤ rmax(a;b)))
      ⇒ (|x - y| ≤ d)
      ⇒ (|F[0;x] - F[0;y]| ≤ (r1/r(2 * k))))
19. r0 < rmin(d;(r1/r(2 * n * M * k)))
20. |a - b| < d
21. ((F[0;a]/r((0)!)) * b - a^0) = F[0;a]
22. i : ℤ
23. (0 + 1) ≤ i
24. i ≤ n
25. |(F[i;a]/r((i)!))| ≤ r(M)
26. Z : {2...}
27. (2 * n * M * k) = Z ∈ {2...}
28. |b - a| < (r1/r(Z))
29. |b - a|^i < (r1/r(Z))^i
30. r0 < r(Z)^i
⊢ (1^i * Z) ≤ (1 * Z^i)

Latex:

Latex:
1. I : Interval 2. iproper(I) 3. n : \mBbbN{}\msupplus{} 4. F : \mBbbN{}n + 2 {}\mrightarrow{} I {}\mrightarrow{}\mBbbR{} 5. a : \{a:\mBbbR{}| a \mmember{} I\} 6. b : \{a:\mBbbR{}| a \mmember{} I\} 7. \mforall{}k:\mBbbN{}n + 2. \mforall{}x,y:\{a:\mBbbR{}| a \mmember{} I\} . ((x = y) {}\mRightarrow{} (F[k;x] = F[k;y])) 8. finite-deriv-seq(I;n + 1;i,x.F[i;x]) 9. e : \mBbbR{} 10. r0 < e 11. M : \mBbbN{}\msupplus{} 12. \mforall{}k:\mBbbN{}\msupplus{}n + 1. (|(F[k;a]/r((k)!))| \mleq{} r(M)) 13. k : \mBbbN{}\msupplus{} 14. (r1/r(k)) < e 15. [rmin(a;b), rmax(a;b)] \msubseteq{} I 16. d : \mBbbR{} 17. r0 < d 18. \mforall{}x,y:\mBbbR{}. (((rmin(a;b) \mleq{} x) \mwedge{} (x \mleq{} rmax(a;b))) {}\mRightarrow{} ((rmin(a;b) \mleq{} y) \mwedge{} (y \mleq{} rmax(a;b))) {}\mRightarrow{} (|x - y| \mleq{} d) {}\mRightarrow{} (|F[0;x] - F[0;y]| \mleq{} (r1/r(2 * k)))) 19. r0 < rmin(d;(r1/r(2 * n * M * k))) 20. |a - b| < d 21. ((F[0;a]/r((0)!)) * b - a\^{}0) = F[0;a] 22. i : \mBbbZ{} 23. (0 + 1) \mleq{} i 24. i \mleq{} n 25. |(F[i;a]/r((i)!))| \mleq{} r(M) 26. Z : \{2...\} 27. (2 * n * M * k) = Z 28. |b - a| < (r1/r(Z)) 29. |b - a|\^{}i < (r1/r(Z))\^{}i 30. r0 < r(Z)\^{}i \mvdash{} (r(1\^{}i)/r(Z\^{}i)) \mleq{} (r1/r(Z)) By Latex: (BLemma `rleq-int-fractions` THEN Auto) Home Index