Proof of Nuprl Lemma : rcos-seq-converges-to-half-pi

Step * 2 1 1 1 1 of Lemma rcos-seq-converges-to-half-pi

.....assertion.....
1. π/2(slower)
= (λn.eval m = 4 * n in
(rcos-seq(exp-ratio(1;3164556962025316455;0;m;1000000000) + 1) m) ÷ 4)
∈ (ℕ⁺ ⟶ ℤ)
2. λk.((exp-ratio(1;3164556962025316455;0;4 * k;1000000000) + 1) + 1)
∈ lim n→∞.rcos-seq(n) = λn.eval m = 4 * n in

                              (rcos-seq(exp-ratio(1;3164556962025316455;0;m;1000000000) + 1) m) ÷ 4

3. lim n→∞.rcos-seq(n) = λn.eval m = 4 * n in

                            (rcos-seq(exp-ratio(1;3164556962025316455;0;m;1000000000) + 1) m) ÷ 4

⊢ (λn.eval m = 4 * n in (rcos-seq(exp-ratio(1;3164556962025316455;0;m;1000000000) + 1) m) ÷ 4) = π/2(slower) ∈ ℝ

BY
{ ((Symmetry THEN MemTypeCD) THEN Auto) }

Latex:

Latex:
.....assertion..... 1. \mpi{}/2(slower) = (\mlambda{}n.eval m = 4 * n in (rcos-seq(exp-ratio(1;3164556962025316455;0;m;1000000000) + 1) m) \mdiv{} 4) 2. \mlambda{}k.((exp-ratio(1;3164556962025316455;0;4 * k;1000000000) + 1) + 1) \mmember{} lim n\mrightarrow{}\minfty{}.rcos-seq(n) = \mlambda{}n.eval m = 4 * n in (rcos-seq(exp-ratio(1;3164556962025316455;0;m;1000000000) + 1) m) \mdiv{} 4 3. lim n\mrightarrow{}\minfty{}.rcos-seq(n) = \mlambda{}n.eval m = 4 * n in (rcos-seq(exp-ratio(1;3164556962025316455;0;m;1000000000) + 1) m) \mdiv{} 4 \mvdash{} (\mlambda{}n.eval m = 4 * n in (rcos-seq(exp-ratio(1;3164556962025316455;0;m;1000000000) + 1) m) \mdiv{} 4) = \mpi{}/2(slower) By Latex: ((Symmetry THEN MemTypeCD) THEN Auto) Home Index