Proof of Nuprl Lemma : Taylor-series-converges-everywhere

Step * 1 2 2 2 of Lemma Taylor-series-converges-everywhere

1. a : ℝ
2. F : ℕ ⟶ ℝ ⟶ ℝ
3. ∀k:ℕ. ∀x,y:ℝ. ((x = y) ⇒ (F[k;x] = F[k;y]))
4. infinite-deriv-seq((-∞, ∞);i,x.F[i;x])
5. ∀r:{r:ℝ| r0 ≤ r} . lim k→∞.r^k * (F[k + 1;x]/r((k)!)) = λx.r0 for x ∈ (-∞, ∞)
6. m : ℕ⁺
7. [%4] : icompact([r(-m), r(m)])
8. -(a) ≤ |a|
9. a ≤ |a|
10. r(-m) ≤ r(m)
11. (a - r(m + 1) + |a|) < r(-m)
⊢ r(-m) < (a + r(m + 1) + |a|)
BY
{ ((RWO "-4<" 0 THENA Auto) THEN nRNorm 0 THEN Auto) }

Latex:

Latex:
1. a : \mBbbR{} 2. F : \mBbbN{} {}\mrightarrow{} \mBbbR{} {}\mrightarrow{} \mBbbR{} 3. \mforall{}k:\mBbbN{}. \mforall{}x,y:\mBbbR{}. ((x = y) {}\mRightarrow{} (F[k;x] = F[k;y])) 4. infinite-deriv-seq((-\minfty{}, \minfty{});i,x.F[i;x]) 5. \mforall{}r:\{r:\mBbbR{}| r0 \mleq{} r\} . lim k\mrightarrow{}\minfty{}.r\^{}k * (F[k + 1;x]/r((k)!)) = \mlambda{}x.r0 for x \mmember{} (-\minfty{}, \minfty{}) 6. m : \mBbbN{}\msupplus{} 7. [\%4] : icompact([r(-m), r(m)]) 8. -(a) \mleq{} |a| 9. a \mleq{} |a| 10. r(-m) \mleq{} r(m) 11. (a - r(m + 1) + |a|) < r(-m) \mvdash{} r(-m) < (a + r(m + 1) + |a|) By Latex: ((RWO "-4<" 0 THENA Auto) THEN nRNorm 0 THEN Auto) Home Index