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%I #22 Jan 17 2017 02:36:50
%S 2,0,1,9,4,1,8,3,5,7,5,5,3,7,9,6,3,4,5,3,2,0,2,9,0,5,2,1,1,6,7,0,9,9,
%T 5,8,9,9,4,8,2,8,0,9,5,2,1,3,4,4,4,9,6,0,5,1,3,1,9,6,4,8,7,2,6,7,9,3,
%U 1,4,9,5,9,2,1,0,4,8,2,4,0,5,8,2,2,2,5,9,3,1,6,5,2,6,3,4,0,0,3,0,6,4,0,0,5
%N Decimal expansion of log(Gamma(1/8)).
%H G. C. Greubel, <a href="/A255306/b255306.txt">Table of n, a(n) for n = 1..5000</a>
%e 2.0194183575537963453202905211670995899482809521344496...
%p evalf(log(GAMMA(1/8)),100);
%t RealDigits[Log[Gamma[1/8]],10,100][[1]]
%o (PARI) log(gamma(1/8))
%Y Cf. A203142 (Gamma(1/8)), A255188 (first generalized Stieltjes constant at 1/8, gamma_1(1/8)).
%Y Cf. decimal expansions of log(Gamma(1/k)): A155968 (k=2), A256165 (k=3), A256166 (k=4), A256167 (k=5), A255888 (k=6), A256609 (k=7), A256610 (k=9), A256612 (k=10), A256611 (k=11), A256066 (k=12), A256614 (k=16), A256615 (k=24), A256616 (k=48).
%K nonn,cons
%O 1,1
%A _Iaroslav V. Blagouchine_, Mar 18 2015
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