This is a front-end for the Online Encyclopedia of Integer Sequences, made by Christian Perfect. The idea is to provide OEIS entries in non-ancient HTML, and then to think about how they're presented visually. The source code is on GitHub.
%I A267066 #7 Sep 22 2017 22:25:04
%S A267066 4,-560,-952,-303372,-8139896,-481544336,-20771606140,-1008539866512,
%T A267066 -46789454179352,-2208680436593036,-103571099363469976,
%U A267066 -4869042962273734320,-228680251217985528572,-10744200847316967694832,-504729054922920767654776
%N A267066 Coefficient of x^6 in the minimal polynomial of the continued fraction [1^n,sqrt(2)+sqrt(3),1,1,...], where 1^n means n ones.
%C A267066 See A265762 for a guide to related sequences.
%H A267066 G. C. Greubel, <a href="/A267066/b267066.txt">Table of n, a(n) for n = 0..595</a>
%H A267066 <a href="/index/Rec#order_09">Index entries for linear recurrences with constant coefficients</a>, signature (34, 714, -4641, -12376, 12376, 4641, -714, -34, 1).
%F A267066 a(n) = 34*a(n-1) + 714*a(n-2) - 4641*a(n-3) - 12376*a(n-4) + 12376*a(n-5) + 4641*a(n-6) - 714*a(n-7) - 34*a(n-8) + a(n-9).
%F A267066 G.f.: -((4 (1 - 174 x + 3808 x^2 + 36850 x^3 + 76256 x^4 + 105360 x^5 - 8095 x^6 - 1822 x^7 + 36 x^8))/(-1 + 34 x + 714 x^2 - 4641 x^3 - 12376 x^4 + 12376 x^5 + 4641 x^6 - 714 x^7 - 34 x^8 + x^9)).
%e A267066 Let u = sqrt(2) and v = sqrt(3), and let p(n,x) be the minimal polynomial of the number given by the n-th continued fraction:
%e A267066 [u+v,1,1,1,...] has p(0,x) = 49 - 168 x - 50 x^2 + 212 x^3 + 47 x^4 - 68 x^5 - 18 x^6 + 4 x^7 + x^8, so that a(0) = 4.
%e A267066 [1,u+v,1,1,1,...] has p(1,x) = 49 - 560 x + 2498 x^2 - 5760 x^3 + 7547 x^4 - 5760 x^5 + 2498 x^6 - 560 x^7 + 49 x^8, so that a(1) = -560;
%e A267066 [1,1,u+v,1,1,1...] has p(2,x) = 25281 - 101124 x + 173262 x^2 - 165852 x^3 + 96847 x^4 - 35252 x^5 + 7790 x^6 - 952 x^7 + 49 x^8, so that a(2) = -952.
%t A267066 u[n_] := Table[1, {k, 1, n}]; t[n_] := Join[u[n], {Sqrt[2] + Sqrt[3]}, {{1}}];
%t A267066 f[n_] := FromContinuedFraction[t[n]];
%t A267066 t = Table[MinimalPolynomial[f[n], x], {n, 0, 40}];
%t A267066 Coefficient[t, x, 0]; (* A266803 *)
%t A267066 Coefficient[t, x, 1]; (* A266808 *)
%t A267066 Coefficient[t, x, 2]; (* A267061 *)
%t A267066 Coefficient[t, x, 3]; (* A267062 *)
%t A267066 Coefficient[t, x, 4]; (* A267063 *)
%t A267066 Coefficient[t, x, 5]; (* A267064 *)
%t A267066 Coefficient[t, x, 6]; (* A267065 *)
%t A267066 Coefficient[t, x, 7]; (* A267066 *)
%t A267066 Coefficient[t, x, 8]; (* A266803 *)
%Y A267066 Cf. A265762, A266803, A266808, A267061, A267062, A267063, A267064, A267065.
%K A267066 sign,easy
%O A267066 0,1
%A A267066 _Clark Kimberling_, Jan 10 2016