Proof of Nuprl Lemma : derivative-rpolynomial

Step * 2 1 1 1 of Lemma derivative-rpolynomial

1. n : ℤ
2. n ≠ 0
3. [%1] : 0 < n
4. ∀a:ℕ(n - 1) + 1 ⟶ ℝ. ∀I:Interval.
     d((Σi≤n - 1. a_i * x^i))/dx = λx.if (n - 1 =_z 0)
     then r0
     else (Σi≤n - 1 - 1. λi.(r(i + 1) * (a (i + 1)))_i * x^i)
     fi  on I
5. a : ℕn + 1 ⟶ ℝ
6. I : Interval
⊢ d((a n) * x^n)/dx = λx.r(n) * (a n) * x^n - 1 on I
BY

{ (InstLemma `derivative-const-mul` [⌜a n⌝;⌜I⌝;⌜λ₂x.x^n⌝;⌜λ₂x.r(n) * x^n - 1⌝]⋅ THENA Auto) }

1
1. n : ℤ
2. n ≠ 0
3. [%1] : 0 < n
4. ∀a:ℕ(n - 1) + 1 ⟶ ℝ. ∀I:Interval.
     d((Σi≤n - 1. a_i * x^i))/dx = λx.if (n - 1 =_z 0)
     then r0
     else (Σi≤n - 1 - 1. λi.(r(i + 1) * (a (i + 1)))_i * x^i)
     fi  on I
5. a : ℕn + 1 ⟶ ℝ
6. I : Interval
7. d((a n) * x^n)/dx = λx.(a n) * r(n) * x^n - 1 on I
⊢ d((a n) * x^n)/dx = λx.r(n) * (a n) * x^n - 1 on I

Latex:

Latex:
1. n : \mBbbZ{} 2. n \mneq{} 0 3. [\%1] : 0 < n 4. \mforall{}a:\mBbbN{}(n - 1) + 1 {}\mrightarrow{} \mBbbR{}. \mforall{}I:Interval. d((\mSigma{}i\mleq{}n - 1. a\_i * x\^{}i))/dx = \mlambda{}x.if (n - 1 =\msubz{} 0) then r0 else (\mSigma{}i\mleq{}n - 1 - 1. \mlambda{}i.(r(i + 1) * (a (i + 1)))\_i * x\^{}i) fi on I 5. a : \mBbbN{}n + 1 {}\mrightarrow{} \mBbbR{} 6. I : Interval \mvdash{} d((a n) * x\^{}n)/dx = \mlambda{}x.r(n) * (a n) * x\^{}n - 1 on I By Latex: (InstLemma `derivative-const-mul` [\mkleeneopen{}a n\mkleeneclose{};\mkleeneopen{}I\mkleeneclose{};\mkleeneopen{}\mlambda{}\msubtwo{}x.x\^{}n\mkleeneclose{};\mkleeneopen{}\mlambda{}\msubtwo{}x.r(n) * x\^{}n - 1\mkleeneclose{}]\mcdot{} THENA Auto) Home Index