Proof of Nuprl Lemma : real-binomial

Step * 2 of Lemma real-binomial

1. n : ℤ
2. 0 < n
3. ∀[a,b:ℝ].  (a + b^n - 1 = Σ{r(choose(n - 1;i)) * a^n - 1 - i * b^i | 0≤i≤n - 1})
4. a : ℝ
5. b : ℝ
⊢ a + b^n = Σ{r(choose(n;i)) * a^n - i * b^i | 0≤i≤n}
BY
{ ((RW (AddrC [1] (LemmaC `rnexp_step`)) 0 THENA Auto)
   THEN (RWO "3" 0 THENA Auto)
   THEN (RWO "rmul-distrib.1" 0 THENA Auto)
   THEN (RWO "rsum_linearity3<" 0 THENA Auto)) }

1
1. n : ℤ
2. 0 < n
3. ∀[a,b:ℝ].  (a + b^n - 1 = Σ{r(choose(n - 1;i)) * a^n - 1 - i * b^i | 0≤i≤n - 1})
4. a : ℝ
5. b : ℝ
⊢ (Σ{(r(choose(n - 1;i)) * a^n - 1 - i * b^i) * a | 0≤i≤n - 1}
+ Σ{(r(choose(n - 1;i)) * a^n - 1 - i * b^i) * b | 0≤i≤n - 1})
= Σ{r(choose(n;i)) * a^n - i * b^i | 0≤i≤n}

Latex:

Latex:
1. n : \mBbbZ{} 2. 0 < n 3. \mforall{}[a,b:\mBbbR{}]. (a + b\^{}n - 1 = \mSigma{}\{r(choose(n - 1;i)) * a\^{}n - 1 - i * b\^{}i | 0\mleq{}i\mleq{}n - 1\}) 4. a : \mBbbR{} 5. b : \mBbbR{} \mvdash{} a + b\^{}n = \mSigma{}\{r(choose(n;i)) * a\^{}n - i * b\^{}i | 0\mleq{}i\mleq{}n\} By Latex: ((RW (AddrC [1] (LemmaC `rnexp\_step`)) 0 THENA Auto) THEN (RWO "3" 0 THENA Auto) THEN (RWO "rmul-distrib.1" 0 THENA Auto) THEN (RWO "rsum\_linearity3<" 0 THENA Auto)) Home Index