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%I #6 May 14 2019 21:40:18
%S 6,1,2,5,4,7,3,2,6,5,3,6,0,6,5,9,2,4,6,3,1,6,6,8,2,1,3,7,4,5,6,7,3,1,
%T 7,0,6,7,4,5,2,9,2,6,3,7,4,7,9,5,8,4,5,4,6,6,8,3,2,2,8,5,0,2,4,9,0,2,
%U 7,8,1,4,7,3,4,9,1,0,6,3,2,0,0,1,8,0,2,9,0,5,3,2,8,4,0,9,5,7,1,6,0,2,9,6,3,3,0,6,2,6,3,0,7,1,0,8,6,8,4,4,0,9,1,9,7,4,5,2,2,6,2,4,5,0,4,8,6,3,3,4,7,2,9,3,5,1,7,3,0,1,5,4,7,0,2,0,9,7,6,4,6,1,7,5,8,7,7,6,7,6,8,4,0,1,6,6,9,5,3,9,8,0,4,0,5,4,5,0,7,8,5,4,3,8,1,3,3,8,6,5
%N Decimal expansion of (1/2)^(1/2)^(1/2).
%C (1/2)^(1/2)^(1/2) = 1/2^(1/sqrt(2)) is transcendental, by the Gelfond-Schneider Theorem.
%H <a href="/index/Tra#transcendental">Index entries for transcendental numbers</a>
%e 0.6125473265360659246316682137456731706745292637479584546683228502490278147349...
%t RealDigits[ (1/2)^(1/2)^(1/2), 10, 200] [[1]]
%Y Cf. A193178 .
%K nonn,cons
%O 0,1
%A _Jonathan Sondow_, Dec 31 2012
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