OFFSET
1,3
REFERENCES
J.-M. De Koninck, Ces nombres qui nous fascinent, Entry 210, p. 61, Ellipses, Paris 2008.
L. E. Dickson, History of the Theory of Numbers. Carnegie Institute Public. 256, Washington, DC, Vol. 1, 1919; Vol. 2, 1920; Vol. 3, 1923, see vol. 2, p. 22.
LINKS
C. Gill, solution to question no. 8,Mathematical Miscellany,1 (1836), pp. 220-225, at p. 223.
J. C. Su,On some properties of two simultaneous polygonal sequences,JIS 10 (2007) 07.10.4, example 4.2.
Eric Weisstein's World of Mathematics,Pentagonal Triangular Number.
Index entries for linear recurrences with constant coefficients,signature (195,-195,1).
FORMULA
a(n) = 194 * a(n-1) - a(n-2) + 16.
G.f.: x^2 * (1 + 15*x) / ((1 - x) * (1 - 194*x + x^2)).
a(n)=((((1+sqrt(3))^(4*n-1)-(1-sqrt(3))^(4*n-1))/(2^(2*n+1)*sqrt(3)))^2)/2-1/8. - John Sillcox (johnsillcox(AT)hotmail ), Sep 01 2003
a(n+1) = 97*a(n)+8+7*(192*a(n)^2+32*a(n)+1)^(1/2) -Richard Choulet,Sep 19 2007
EXAMPLE
G.f. = x^2 + 210*x^3 + 40755*x^4 + 7906276*x^5 + 1533776805*x^6 +...
a(4) = 40755 which is 285*(285-1)/2 = 165*(3*165-1)/2.
MATHEMATICA
a[ n_]:= ChebyshevU[ 2 n - 3, 7] / 14 + ChebyshevT[ 2 n - 3, 7] / 84 - 1/12; (*Michael Somos,Feb 24 2015 *)
LinearRecurrence[{195, -195, 1}, {0, 1, 210}, 20] (*Harvey P. Dale,May 19 2017 *)
PROG
(PARI) {a(n) = polchebyshev( 2*n - 3, 2, 7) / 14 + polchebyshev( 2*n - 3, 1, 7) / 84 - 1 / 12}; /*Michael Somos,Jun 16 2011 */
CROSSREFS
KEYWORD
nonn,easy
AUTHOR
Glenn Johnston (glennj(AT)sonic.net)
EXTENSIONS
Corrected and extended byWarut Roonguthai
Edited byN. J. A. Sloane,Jul 24 2006
STATUS
approved