0,11

Expansion of q^(-1/6) * eta(q) * eta(q^10) / ( eta(q^2) * eta(q^5) ) in powers of q.

Euler transform of period 10 sequence [ -1, 0, -1, 0, 0, 0, -1, 0, -1, 0, ...].

G.f. is a period 1 Fourier series of a level 360 modular function which satisfies f(-1 / (360 t)) = f(t) where q = exp(2 pi i t).

Given g.f. A(x) then B(x) = x * A(x^6) satisfies 0 = f(B(x), B(x^2), B(x^4)) where f(u, v, w) = v * (u^2 - v) + w^2 * (u^2 + v).

Given g.f. A(x) then B(x) = x * A(x^6) satisfies 0 = f(B(x), B(x^3), B(x^9)) where f(u, v, w) = (u^3 + w^3) * (v + v^3) + 2 * v^4 - v^2 + u^3 * w^3 * ( 2 - v^2 ).

Given g.f. A(x) then B(x) = x * A(x^6) satisfies 0 = f(B(x), B(x^2), B(x^5), B(x^10)) where f(u1, u2, u5, u10) = u1^2 * u5^2 + u1^2 * u10^4 + u1 * u2^2 * u5 * u10^2 + u2 * u5^2 * u10^3 + u2^3 * u10^3 - u2^2 * u10^2 - u1^3 * u5^3 - u1^4 * u10^2 - u1^3 * u2^2 * u5 - u1^2 * u2 * u5^2 * u10.

G.f. is product k>0 P10(x^k) where P10 is 10th cyclotomic polynomial.

G.f.: Product_{k>0} (1 + x^(5*k)) / (1 + x^k).

q - q^7 - q^19 + q^25 - q^43 + q^49 - q^55 + 2*q^61 - 2*q^67 + 2*q^73 - ...

(PARI) {a(n) = local(A); if( n<0, 0, A = x*O(x^n); polcoeff( eta(x + A) * eta(x^10 + A) / eta(x^2 + A) / eta(x^5 + A), n))}

Adjacent sequences: A133560 A133561 A133562 this_sequence A133564 A133565 A133566

Sequence in context: A102300 A087010 A098220 this_sequence A104518 A114295 A004216

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Michael Somos, Sep 16 2007