Proof of Nuprl Lemma : derivative-rnexp-function

Step * 2 3 of Lemma derivative-rnexp-function

1. I : Interval
2. iproper(I)
3. f : I ⟶ℝ
4. f' : I ⟶ℝ
5. ∀x,y:{x:ℝ| x ∈ I} .  ((x = y) ⇒ (f'[x] = f'[y]))
6. d(f[x])/dx = λx.f'[x] on I
7. n : ℤ
8. 0 < n
9. d(f[x]^n)/dx = λx.(r(n) * f[x]^n - 1) * f'[x] on I
10. d(f[x] * f[x]^n)/dx = λx.(f[x] * (r(n) * f'[x]) * f[x]^n - 1) + (f[x]^n * f'[x]) on I
⊢ d(f[x]^n + 1)/dx = λx.(r(n + 1) * f[x]^(n + 1) - 1) * f'[x] on I
BY
{ (DerivativeFunctionality (-1) THEN Auto) }

1
1. I : Interval
2. iproper(I)
3. f : I ⟶ℝ
4. f' : I ⟶ℝ
5. ∀x,y:{x:ℝ| x ∈ I} .  ((x = y) ⇒ (f'[x] = f'[y]))
6. d(f[x])/dx = λx.f'[x] on I
7. n : ℤ
8. 0 < n
9. d(f[x]^n)/dx = λx.(r(n) * f[x]^n - 1) * f'[x] on I
10. d(f[x] * f[x]^n)/dx = λx.(f[x] * (r(n) * f'[x]) * f[x]^n - 1) + (f[x]^n * f'[x]) on I
11. x : {x:ℝ| x ∈ I}
⊢ (f[x] * f[x]^n) = f[x]^n + 1

2
1. I : Interval
2. iproper(I)
3. f : I ⟶ℝ
4. f' : I ⟶ℝ
5. ∀x,y:{x:ℝ| x ∈ I} .  ((x = y) ⇒ (f'[x] = f'[y]))
6. d(f[x])/dx = λx.f'[x] on I
7. n : ℤ
8. 0 < n
9. d(f[x]^n)/dx = λx.(r(n) * f[x]^n - 1) * f'[x] on I
10. d(f[x] * f[x]^n)/dx = λx.(f[x] * (r(n) * f'[x]) * f[x]^n - 1) + (f[x]^n * f'[x]) on I
11. x : {x:ℝ| x ∈ I}

⊢ ((f[x] * (r(n) * f'[x]) * f[x]^n - 1) + (f[x]^n * f'[x])) = ((r(n + 1) * f[x]^(n + 1) - 1) * f'[x])

Latex:

Latex:
1. I : Interval 2. iproper(I) 3. f : I {}\mrightarrow{}\mBbbR{} 4. f' : I {}\mrightarrow{}\mBbbR{} 5. \mforall{}x,y:\{x:\mBbbR{}| x \mmember{} I\} . ((x = y) {}\mRightarrow{} (f'[x] = f'[y])) 6. d(f[x])/dx = \mlambda{}x.f'[x] on I 7. n : \mBbbZ{} 8. 0 < n 9. d(f[x]\^{}n)/dx = \mlambda{}x.(r(n) * f[x]\^{}n - 1) * f'[x] on I 10. d(f[x] * f[x]\^{}n)/dx = \mlambda{}x.(f[x] * (r(n) * f'[x]) * f[x]\^{}n - 1) + (f[x]\^{}n * f'[x]) on I \mvdash{} d(f[x]\^{}n + 1)/dx = \mlambda{}x.(r(n + 1) * f[x]\^{}(n + 1) - 1) * f'[x] on I By Latex: (DerivativeFunctionality (-1) THEN Auto) Home Index