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%I #15 Feb 24 2018 10:11:33
%S 8,31,540,189864,22502468823,547694780221174920178,
%T 287920070745319667821031437298831171428290,
%U 271667810016366767427285213650617821610883263237085072498040538105208873088855853524
%N Denominators of r-Egyptian fraction expansion for Pi - 3, where r = (1, 1/2, 1/4, 1/8, ...)
%C Suppose that r is a sequence of rational numbers r(k) <= 1 for k >= 1, and that x is an irrational number in (0,1). Let f(0) = x, n(k) = floor(r(k)/f(k-1)), and f(k) = f(k-1) - r(k)/n(k). Then x = r(1)/n(1) + r(2)/n(2) + r(3)/n(3) + ..., the r-Egyptian fraction for x.
%C See A269993 for a guide to related sequences.
%H Clark Kimberling, <a href="/A270353/b270353.txt">Table of n, a(n) for n = 1..11</a>
%H Eric Weisstein's World of Mathematics, <a href="http://mathworld.wolfram.com/EgyptianFraction.html">Egyptian Fraction</a>
%H <a href="/index/Ed#Egypt">Index entries for sequences related to Egyptian fractions</a>
%e Pi - 3 = 1/8 + 1/(2*31) + 1/(4*540) + ...
%t r[k_] := 2/2^k; f[x_, 0] = x; z = 10;
%t n[x_, k_] := n[x, k] = Ceiling[r[k]/f[x, k - 1]]
%t f[x_, k_] := f[x, k] = f[x, k - 1] - r[k]/n[x, k]
%t x = Pi - 3; Table[n[x, k], {k, 1, z}]
%o (PARI) r(k) = 2/2^k;
%o f(k,x) = if (k==0, x, f(k-1, x) - r(k)/a(k, x););
%o a(k, x=Pi-3) = ceil(r(k)/f(k-1, x)); \\ _Michel Marcus_, Mar 18 2016
%Y Cf. A269993.
%K nonn,frac,easy
%O 1,1
%A _Clark Kimberling_, Mar 17 2016