Proof of Nuprl Lemma : Legendre-orthogonal

Step * 2 1 of Lemma Legendre-orthogonal

1. n : ℕ
2. ∀n:ℕn
∀[k:ℕ]

       r(-1)_∫^-r1 x^k * Legendre(n;x) dx = if (k =_z n) then (r(2 * (n)!)/r(doublefact((2 * n) + 1))) else r0 fi

supposing k ≤ n
3. ¬(n = 0 ∈ ℤ)
4. n = 1 ∈ ℤ
5. k : ℕ
6. k ≤ 1
7. k = 0 ∈ ℤ
⊢ r(-1)_∫^-r1 r1 * x dx = r0
BY
{ (RW (AddrC [1] IntegralEvalC) 0 THEN Auto) }

1
.....rewrite subgoal.....
1. n : ℕ
2. ∀n:ℕn
∀[k:ℕ]

       r(-1)_∫^-r1 x^k * Legendre(n;x) dx = if (k =_z n) then (r(2 * (n)!)/r(doublefact((2 * n) + 1))) else r0 fi

supposing k ≤ n
3. ¬(n = 0 ∈ ℤ)
4. n = 1 ∈ ℤ
5. k : ℕ
6. k ≤ 1
7. k = 0 ∈ ℤ
⊢ d(x * x)/dx = λx.r(2) * x on (-∞, ∞)

Latex:

Latex:
1. n : \mBbbN{} 2. \mforall{}n:\mBbbN{}n \mforall{}[k:\mBbbN{}] r(-1)\_\mint{}\msupminus{}r1 x\^{}k * Legendre(n;x) dx = if (k =\msubz{} n) then (r(2 * (n)!)/r(doublefact((2 * n) + 1))) else r0 fi supposing k \mleq{} n 3. \mneg{}(n = 0) 4. n = 1 5. k : \mBbbN{} 6. k \mleq{} 1 7. k = 0 \mvdash{} r(-1)\_\mint{}\msupminus{}r1 r1 * x dx = r0 By Latex: (RW (AddrC [1] IntegralEvalC) 0 THEN Auto) Home Index