Proof of Nuprl Lemma : approx-arg

Step * 2 1 1 1 1 1 of Lemma approx-arg_wf

1. f : (-∞, ∞) ⟶ℝ
2. f' : (-∞, ∞) ⟶ℝ
3. ∀x,y:ℝ.  ((x = y) ⇒ (f'[x] = f'[y]))
4. d(f[x])/dx = λx.f'[x] on (-∞, ∞)
5. B : ℕ
6. ∀x:ℝ. (|f'[x]| ≤ r(B))
7. x : ℝ
8. ∀x,y:{x:ℝ| x ∈ (-∞, ∞)} .  (|f[x] - f[y]| ≤ (r(B) * |x - y|))
9. 1 + B-regular-seq(λn.eval a = x n in
                        eval m = 2 * n in
                          f (r(a))/m n)
10. n : ℕ⁺
11. a : ℝ
12. |x - a| ≤ (r1/r(n))
⊢ |(f a n) - f x n| ≤ (4 + (2 * B))
BY
{ (InstHyp [⌜x⌝;⌜a⌝] (-5)⋅ THENA Auto) }

1
1. f : (-∞, ∞) ⟶ℝ
2. f' : (-∞, ∞) ⟶ℝ
3. ∀x,y:ℝ.  ((x = y) ⇒ (f'[x] = f'[y]))
4. d(f[x])/dx = λx.f'[x] on (-∞, ∞)
5. B : ℕ
6. ∀x:ℝ. (|f'[x]| ≤ r(B))
7. x : ℝ
8. ∀x,y:{x:ℝ| x ∈ (-∞, ∞)} .  (|f[x] - f[y]| ≤ (r(B) * |x - y|))
9. 1 + B-regular-seq(λn.eval a = x n in
                        eval m = 2 * n in
                          f (r(a))/m n)
10. n : ℕ⁺
11. a : ℝ
12. |x - a| ≤ (r1/r(n))
13. |f[x] - f[a]| ≤ (r(B) * |x - a|)
⊢ |(f a n) - f x n| ≤ (4 + (2 * B))

Latex:

Latex:
1. f : (-\minfty{}, \minfty{}) {}\mrightarrow{}\mBbbR{} 2. f' : (-\minfty{}, \minfty{}) {}\mrightarrow{}\mBbbR{} 3. \mforall{}x,y:\mBbbR{}. ((x = y) {}\mRightarrow{} (f'[x] = f'[y])) 4. d(f[x])/dx = \mlambda{}x.f'[x] on (-\minfty{}, \minfty{}) 5. B : \mBbbN{} 6. \mforall{}x:\mBbbR{}. (|f'[x]| \mleq{} r(B)) 7. x : \mBbbR{} 8. \mforall{}x,y:\{x:\mBbbR{}| x \mmember{} (-\minfty{}, \minfty{})\} . (|f[x] - f[y]| \mleq{} (r(B) * |x - y|)) 9. 1 + B-regular-seq(\mlambda{}n.eval a = x n in eval m = 2 * n in f (r(a))/m n) 10. n : \mBbbN{}\msupplus{} 11. a : \mBbbR{} 12. |x - a| \mleq{} (r1/r(n)) \mvdash{} |(f a n) - f x n| \mleq{} (4 + (2 * B)) By Latex: (InstHyp [\mkleeneopen{}x\mkleeneclose{};\mkleeneopen{}a\mkleeneclose{}] (-5)\mcdot{} THENA Auto) Home Index