Proof of Nuprl Lemma : Taylor-theorem-case1

Step * 1 1 1 3 1 of Lemma Taylor-theorem-case1

.....antecedent.....
1. I : Interval
2. n : ℕ
3. F : ℕn + 2 ⟶ I ⟶ℝ
4. ∀b:{a:ℝ| a ∈ I}
     ((∀k:ℕn + 2. ∀x,y:{a:ℝ| a ∈ I} .  ((x = y) ⇒ (F[k;x] = F[k;y])))
     ⇒ finite-deriv-seq(I;n + 1;i,x.F[i;x])
     ⇒ d(Taylor-approx(n;a;b;i,x.F[i;x]))/da = λx.b - x^n * (F[n + 1;x]/r((n)!)) on I)
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. d(Taylor-approx(n;a;b;i,x.F[i;x]))/da = λx.b - x^n * (F[n + 1;x]/r((n)!)) on I
10. b - a ≠ r0
11. e : ℝ
12. r0 < e
13. R : ℝ
14. Taylor-remainder(I;n;b;a;k,x.F[k;x]) = R ∈ ℝ
15. [rmin(a;b), rmax(a;b)] ⊆ I
16. rmin(a;b) < rmax(a;b)
⊢ a ≠ b
BY
{ (Assert b ≠ a BY
         (RepeatFor 2 (ParallelOp 10) THEN nRAdd ⌜a⌝ 10⋅ THEN Auto)) }

1
1. I : Interval
2. n : ℕ
3. F : ℕn + 2 ⟶ I ⟶ℝ
4. ∀b:{a:ℝ| a ∈ I}
     ((∀k:ℕn + 2. ∀x,y:{a:ℝ| a ∈ I} .  ((x = y) ⇒ (F[k;x] = F[k;y])))
     ⇒ finite-deriv-seq(I;n + 1;i,x.F[i;x])
     ⇒ d(Taylor-approx(n;a;b;i,x.F[i;x]))/da = λx.b - x^n * (F[n + 1;x]/r((n)!)) on I)
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. d(Taylor-approx(n;a;b;i,x.F[i;x]))/da = λx.b - x^n * (F[n + 1;x]/r((n)!)) on I
10. b - a ≠ r0
11. e : ℝ
12. r0 < e
13. R : ℝ
14. Taylor-remainder(I;n;b;a;k,x.F[k;x]) = R ∈ ℝ
15. [rmin(a;b), rmax(a;b)] ⊆ I
16. rmin(a;b) < rmax(a;b)
17. b ≠ a
⊢ a ≠ b

Latex:

Latex:
.....antecedent..... 1. I : Interval 2. n : \mBbbN{} 3. F : \mBbbN{}n + 2 {}\mrightarrow{} I {}\mrightarrow{}\mBbbR{} 4. \mforall{}b:\{a:\mBbbR{}| a \mmember{} I\} ((\mforall{}k:\mBbbN{}n + 2. \mforall{}x,y:\{a:\mBbbR{}| a \mmember{} I\} . ((x = y) {}\mRightarrow{} (F[k;x] = F[k;y]))) {}\mRightarrow{} finite-deriv-seq(I;n + 1;i,x.F[i;x]) {}\mRightarrow{} d(Taylor-approx(n;a;b;i,x.F[i;x]))/da = \mlambda{}x.b - x\^{}n * (F[n + 1;x]/r((n)!)) on I) 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. d(Taylor-approx(n;a;b;i,x.F[i;x]))/da = \mlambda{}x.b - x\^{}n * (F[n + 1;x]/r((n)!)) on I 10. b - a \mneq{} r0 11. e : \mBbbR{} 12. r0 < e 13. R : \mBbbR{} 14. Taylor-remainder(I;n;b;a;k,x.F[k;x]) = R 15. [rmin(a;b), rmax(a;b)] \msubseteq{} I 16. rmin(a;b) < rmax(a;b) \mvdash{} a \mneq{} b By Latex: (Assert b \mneq{} a BY (RepeatFor 2 (ParallelOp 10) THEN nRAdd \mkleeneopen{}a\mkleeneclose{} 10\mcdot{} THEN Auto)) Home Index