A170916 - OEIS

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A170916

Write sin(x)/x = Product_{n>=1} (1 + g_n*x^(2*n)); a(n) = numerator(g_n).

-1, 1, 1, 73, 353, 36499, 24257, 302426881, 87721, 348958703, 226786069421, 62199570679633, 62531659610839, 8559230855533306387, 235495453816743509, 2644298730170939345197, 281737789368631676609, 39043444996461526437828311, 6203284926188598376335167

(list; graph; refs; listen; history; text; internal format)

OFFSET

1,4

LINKS

Table of n, a(n) for n=1..19.

Giedrius Alkauskas, One curious proof of Fermat's little theorem, arXiv:0801.0805 [math.NT], 2008.

Giedrius Alkauskas, A curious proof of Fermat's little theorem, Amer. Math. Monthly 116(4) (2009), 362-364.

H. Gingold, H. W. Gould, and Michael E. Mays, Power Product Expansions, Utilitas Mathematica 34 (1988), 143-161.

H. Gingold and A. Knopfmacher, Analytic properties of power product expansions, Canad. J. Math. 47 (1995), 1219-1239.

W. Lang, Recurrences for the general problem.

EXAMPLE

-1/6, 1/120, 1/840, 73/362880, 353/14968800, 36499/9340531200, 24257/49037788800, ...

MAPLE

t1:=sin(x)/x;

L:=100;

t0:=series(t1, x, L):

g:=[]; M:=40; t2:=t0:

for n from 1 to M do

t3:=coeff(t2, x, n); t2:=series(t2/(1+t3*x^n), x, L); g:=[op(g), t3];

od:

h:=[seq(g[2*n], n=1..nops(g)/2)];

h1:=map(numer, h);

h2:=map(denom, h); # Petros Hadjicostas, Oct 04 2019 by modifying N. J. A. Sloane's program from A170912 and A170913

CROSSREFS

Cf. A170917, A170912, A170913, A170914, A170915.

Sequence in context: A142810 A142279 A092342 * A200908 A031418 A142229

Adjacent sequences: A170913 A170914 A170915 * A170917 A170918 A170919

KEYWORD

sign,frac

AUTHOR

N. J. A. Sloane, Jan 30 2010

STATUS

approved