This is a front-end for the Online Encyclopedia of Integer Sequences, made by Christian Perfect. The idea is to provide OEIS entries in non-ancient HTML, and then to think about how they're presented visually. The source code is on GitHub.
%I A201588 #13 Feb 07 2025 16:44:07
%S A201588 3,1,1,5,8,3,9,0,5,1,2,7,6,2,5,3,5,2,1,1,3,1,0,8,5,0,1,5,1,9,5,2,0,8,
%T A201588 2,5,8,7,8,1,1,1,2,0,9,6,5,8,8,8,1,7,4,0,1,0,7,7,2,8,9,3,9,0,0,7,8,2,
%U A201588 4,7,0,2,2,4,1,3,9,2,7,8,4,1,4,1,9,7,4,9,9,3,0,3,8,8,6,8,6,2,4
%N A201588 Decimal expansion of greatest x satisfying 4*x^2 = csc(x) and 0 < x < Pi.
%C A201588 See A201564 for a guide to related sequences. The Mathematica program includes a graph.
%H A201588 G. C. Greubel, <a href="/A201588/b201588.txt">Table of n, a(n) for n = 1..10000</a>
%H A201588 <a href="/index/Tra#transcendental">Index entries for transcendental numbers</a>.
%e A201588 least: 0.6448974755436738344433573900444745201701368...
%e A201588 greatest: 3.1158390512762535211310850151952082587811...
%t A201588 a = 4; c = 0;
%t A201588 f[x_] := a*x^2 + c; g[x_] := Csc[x]
%t A201588 Plot[{f[x], g[x]}, {x, 0, Pi}, {AxesOrigin -> {0, 0}}]
%t A201588 r = x /. FindRoot[f[x] == g[x], {x, .6, .7}, WorkingPrecision -> 110]
%t A201588 RealDigits[r] (* A201587 *)
%t A201588 r = x /. FindRoot[f[x] == g[x], {x, 3.1, 3.14}, WorkingPrecision -> 110]
%t A201588 RealDigits[r] (* A201588 *)
%o A201588 (PARI) a=4; c=0; solve(x=3.1, 3.14, a*x^2 + c - 1/sin(x)) \\ _G. C. Greubel_, Aug 22 2018
%Y A201588 Cf. A201564.
%K A201588 nonn,cons
%O A201588 1,1
%A A201588 _Clark Kimberling_, Dec 03 2011