%I #8 Jun 03 2017 10:31:38
%S 0,1,3,4,9,6,8,4,5,6,9,1,5,5,0,9,7,4,2,0,1,2,6,7,7,4,1,2,3,3,5,0,9,4,
%T 8,7,5,2,6,0,0,5,4,8,2,3,4,9,1,8,6,9,9,0,0,5,9,4,5,6,6,0,4,5,0,2,6,0,
%U 9,8,8,8,5,5,5,0,9,3,5,7,7,4,9,8,1,7,2,6,5,9,9,9,7,8,8,7,1,9,2,6,4,7
%N Decimal expansion of the Goldberg Zero-One constant A(3,1).
%H W. Bergweiler and A. Eremenko, <a href="http://www.math.purdue.edu/~eremenko/dvi/goldbergconst.pdf">Goldberg's constants</a>
%H Steven Finch, <a href="/A249186/a249186.pdf">Goldberg’s Zero-One Constants</a>, May 21, 2014. [Cached copy, with permission of the author]
%F A(3,1) = exp(-Pi^2/log(5 + 2*sqrt(6))).
%e 0.013496845691550974201267741233509487526...
%t A[3,1] = Exp[-Pi^2/Log[5 + 2*Sqrt[6]]]; Join[{0}, RealDigits[A[3, 1], 10, 101] // First]
%Y Cf. A249186, A249188.
%K nonn,cons,easy
%O 0,3
%A _Jean-François Alcover_, Oct 23 2014
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