%I #12 May 22 2021 04:29:00
%S 6,2,9,5,2,4,8,3,9,8,7,6,3,1,2,4,4,9,5,3,5,4,6,1,7,9,5,3,4,1,8,5,0,1,
%T 9,3,3,1,6,2,5,9,6,8,3,8,2,8,8,8,6,0,8,7,7,9,7,3,8,1,9,0,7,0,8,3,7,2,
%U 8,2,7,4,2,1,3,1,2,7,0,4,4,6,4,5,7,0
%N Decimal expansion of sum of reciprocals, row 2 of Wythoff array, W = A035513.
%C Let c be the constant given by A079586, that is, the sum of reciprocals of the Fibonacci numbers F(k) for k>=1. The number c-1, the sum of reciprocals of row 1 of W, is known to be irrational (see A079586). Conjecture: the same is true for all the other rows of W.
%C Let h be the constant given at A153387 and s(n) the sum of reciprocals of numbers in row n of W. Then h < 1 + s(n)*floor(n*tau) < c. Thus, s(n) -> 0 as n -> oo.
%F Equals A093540 - 4/3. - _Amiram Eldar_, May 22 2021
%e 1/4 + 1/7 + 1/11 + ... = 0.629524839876312449535461795341...
%t f[n_] := f[n] = Fibonacci[n]; g = GoldenRatio; w[n_, k_] := w[n, k] = f[k + 1]*Floor[n*g] + f[k]*(n - 1);
%t n = 2; Table[w[n, k], {n, 1, 5}, {k, 1, 5}]
%t r = N[Sum[1/w[n, k], {k, 1, 2000}], 120]
%t RealDigits[r, 10]
%Y Cf. A035513, A079586, A093540, A228041, A228042, A228043.
%K nonn,cons,easy
%O 0,1
%A _Clark Kimberling_, Aug 05 2013