Proof of Nuprl Lemma : derivative-rexp

Step * 2 of Lemma derivative-rexp

1. lim n→∞.Σ{(x^i)/(i)! | 0≤i≤n} = λx.e^x for x ∈ (-∞, ∞)
2. n : ℕ
⊢ d(Σ{(x^i)/(i)! | 0≤i≤n})/dx = λx.Σ{(x^i)/(i)! | 0≤i≤n - 1} on (-∞, ∞)
BY

{ Assert ⌜d(Σ{(x^i)/(i)! | 0≤i≤n})/dx = λx.Σ{if (i =_z 0) then r0 else (x^i - 1)/(i - 1)! fi  | 0≤i≤n} on (-∞, ∞)⌝⋅ }

1
.....assertion.....
1. lim n→∞.Σ{(x^i)/(i)! | 0≤i≤n} = λx.e^x for x ∈ (-∞, ∞)
2. n : ℕ

⊢ d(Σ{(x^i)/(i)! | 0≤i≤n})/dx = λx.Σ{if (i =_z 0) then r0 else (x^i - 1)/(i - 1)! fi  | 0≤i≤n} on (-∞, ∞)

2
1. lim n→∞.Σ{(x^i)/(i)! | 0≤i≤n} = λx.e^x for x ∈ (-∞, ∞)
2. n : ℕ

3. d(Σ{(x^i)/(i)! | 0≤i≤n})/dx = λx.Σ{if (i =_z 0) then r0 else (x^i - 1)/(i - 1)! fi  | 0≤i≤n} on (-∞, ∞)

⊢ d(Σ{(x^i)/(i)! | 0≤i≤n})/dx = λx.Σ{(x^i)/(i)! | 0≤i≤n - 1} on (-∞, ∞)

Latex:

Latex:
1. lim n\mrightarrow{}\minfty{}.\mSigma{}\{(x\^{}i)/(i)! | 0\mleq{}i\mleq{}n\} = \mlambda{}x.e\^{}x for x \mmember{} (-\minfty{}, \minfty{}) 2. n : \mBbbN{} \mvdash{} d(\mSigma{}\{(x\^{}i)/(i)! | 0\mleq{}i\mleq{}n\})/dx = \mlambda{}x.\mSigma{}\{(x\^{}i)/(i)! | 0\mleq{}i\mleq{}n - 1\} on (-\minfty{}, \minfty{}) By Latex: Assert \mkleeneopen{}d(\mSigma{}\{(x\^{}i)/(i)! | 0\mleq{}i\mleq{}n\})/dx = \mlambda{}x.\mSigma{}\{if (i =\msubz{} 0) then r0 else (x\^{}i - 1)/(i - 1)! fi | 0\mleq{}i\mleq{}n\} on (-\minfty{}, \minfty{})\mkleeneclose{}\mcdot{} Home Index