Proof of Nuprl Lemma : Legendre-orthogonality

Step * 1 1 1 of Lemma Legendre-orthogonality

1. n : ℕ
2. a : ℕn + 1 ⟶ ℝ
3. ∀x:ℝ. (Legendre(n;x) = (Σi≤n. a_i * x^i))
4. (a n) = (r(doublefact((2 * n) - 1))/r((n)!))
⊢ r(-1)_∫^-r1 Legendre(n;x) * Legendre(n;x) dx = (r(2)/r((2 * n) + 1))
BY
{ (InstLemma `Legendre-rpolynomial-same-degree` [⌜n⌝;⌜a⌝]⋅ THENA Auto) }

1
1. n : ℕ
2. a : ℕn + 1 ⟶ ℝ
3. ∀x:ℝ. (Legendre(n;x) = (Σi≤n. a_i * x^i))
4. (a n) = (r(doublefact((2 * n) - 1))/r((n)!))
5. ∀[f:[r(-1), r1] ⟶ℝ]
r(-1)_∫^-r1 f[x] * Legendre(n;x) dx = ((r(2 * (n)!)/r(doublefact((2 * n) + 1))) * (a n))
supposing ∀x:{x:ℝ| x ∈ [r(-1), r1]} . ((f x) = (Σi≤n. a_i * x^i))
⊢ r(-1)_∫^-r1 Legendre(n;x) * Legendre(n;x) dx = (r(2)/r((2 * n) + 1))

Latex:

Latex:
1. n : \mBbbN{} 2. a : \mBbbN{}n + 1 {}\mrightarrow{} \mBbbR{} 3. \mforall{}x:\mBbbR{}. (Legendre(n;x) = (\mSigma{}i\mleq{}n. a\_i * x\^{}i)) 4. (a n) = (r(doublefact((2 * n) - 1))/r((n)!)) \mvdash{} r(-1)\_\mint{}\msupminus{}r1 Legendre(n;x) * Legendre(n;x) dx = (r(2)/r((2 * n) + 1)) By Latex: (InstLemma `Legendre-rpolynomial-same-degree` [\mkleeneopen{}n\mkleeneclose{};\mkleeneopen{}a\mkleeneclose{}]\mcdot{} THENA Auto) Home Index