Proof of Nuprl Lemma : derivative-implies-strictly-increasing

Step * 1 1 1 1 2 1 2 of Lemma derivative-implies-strictly-increasing

1. I : Interval
2. iproper(I)
3. f : I ⟶ℝ
4. f' : I ⟶ℝ
5. d(f[x])/dx = λx.f'[x] on I
6. f'[x] continuous for x ∈ I
7. ∀x:{x:ℝ| x ∈ I} . (r0 < f'[x])
8. x : {x:ℝ| x ∈ I}
9. y : {x:ℝ| x ∈ I}
10. x < y
11. [x, y] ⊆ I
12. k : ℕ⁺
13. (r1/r(k)) < f'[x]
14. d : ℝ
15. r0 < d
16. ∀z:ℝ. (((x ≤ z) ∧ (z ≤ y)) ⇒ (|x - z| ≤ d) ⇒ ((r1/r(2 * k)) ≤ f'[z]))
17. (x + d) < y
18. x + d ∈ I
19. ∀z:ℝ. (((x ≤ z) ∧ (z ≤ (x + d))) ⇒ ((r1/r(2 * k)) ≤ f'[z]))
⊢ f[x] < f[x + d]
BY
{ ThinVar `y' }

1
1. I : Interval
2. iproper(I)
3. f : I ⟶ℝ
4. f' : I ⟶ℝ
5. d(f[x])/dx = λx.f'[x] on I
6. f'[x] continuous for x ∈ I
7. ∀x:{x:ℝ| x ∈ I} . (r0 < f'[x])
8. x : {x:ℝ| x ∈ I}
9. k : ℕ⁺
10. (r1/r(k)) < f'[x]
11. d : ℝ
12. r0 < d
13. x + d ∈ I
14. ∀z:ℝ. (((x ≤ z) ∧ (z ≤ (x + d))) ⇒ ((r1/r(2 * k)) ≤ f'[z]))
⊢ f[x] < f[x + d]

Latex:

Latex:
1. I : Interval 2. iproper(I) 3. f : I {}\mrightarrow{}\mBbbR{} 4. f' : I {}\mrightarrow{}\mBbbR{} 5. d(f[x])/dx = \mlambda{}x.f'[x] on I 6. f'[x] continuous for x \mmember{} I 7. \mforall{}x:\{x:\mBbbR{}| x \mmember{} I\} . (r0 < f'[x]) 8. x : \{x:\mBbbR{}| x \mmember{} I\} 9. y : \{x:\mBbbR{}| x \mmember{} I\} 10. x < y 11. [x, y] \msubseteq{} I 12. k : \mBbbN{}\msupplus{} 13. (r1/r(k)) < f'[x] 14. d : \mBbbR{} 15. r0 < d 16. \mforall{}z:\mBbbR{}. (((x \mleq{} z) \mwedge{} (z \mleq{} y)) {}\mRightarrow{} (|x - z| \mleq{} d) {}\mRightarrow{} ((r1/r(2 * k)) \mleq{} f'[z])) 17. (x + d) < y 18. x + d \mmember{} I 19. \mforall{}z:\mBbbR{}. (((x \mleq{} z) \mwedge{} (z \mleq{} (x + d))) {}\mRightarrow{} ((r1/r(2 * k)) \mleq{} f'[z])) \mvdash{} f[x] < f[x + d] By Latex: ThinVar `y' Home Index