A242749 G.f. satisfies: A(x) = G(x/A(x)) such that A(x*G(x)) = G(x) = Sum_{n>=0} (n+1)^(n+1)*x^n.
1, 4, 11, 60, 611, 8632, 151538, 3132140, 73883667, 1949844168, 56785116742, 1806695366616, 62314198956510, 2315470815127792, 92214156916779444, 3918743752606940812, 177018691811732542595, 8471087431826716955880, 428141645771934036086942, 22791557465710675500959688
Offset: 0
Keywords
Examples
G.f.: A(x) = 1 + 4*x + 11*x^2 + 60*x^3 + 611*x^4 + 8632*x^5 + 151538*x^6 +... such that A(x*G(x)) = G(x) where: G(x) = 1 + 4*x + 27*x^2 + 256*x^3 + 3125*x^4 +...+ (n+1)^(n+1)*x^n +... also, A(x) = G(x/A(x)): A(x) = 1 + 4*x/A(x) + 27*x^2/A(x)^2 + 256*x^3/A(x)^3 + 3125*x^4/A(x)^4 +...+ (n+1)^(n+1)*x^n/A(x)^n +... If we form a table of coefficients of x^k in A(x)^n like so: [1, 4, 11, 60, 611, 8632, 151538, 3132140, ...]; [1, 8, 38, 208, 1823, 23472, 389174, 7739808, ...]; [1, 12, 81, 508, 4164, 48852, 759407, 14463624, ...]; [1, 16, 140, 1024, 8418, 91920, 1335712, 24248640, ...]; [1, 20, 215, 1820, 15625, 163664, 2232620, 38498580, ...]; [1, 24, 306, 2960, 27081, 279936, 3623894, 59297664, ...]; [1, 28, 413, 4508, 44338, 462476, 5764801, 89716400, ...]; [1, 32, 536, 6528, 69204, 739936, 9018480, 134217728, ...]; ... then the main diagonal forms the sequence A007778: [1, 8, 81, 1024, 15625, 279936, 5764801, 134217728, ..., (n+1)^(n+2), ...].
Programs
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PARI
{a(n)=polcoeff(x/serreverse(x*sum(m=0, n+1, (m+1)^(m+1)*x^m)+x^2*O(x^n)), n)} for(n=0,20,print1(a(n),", "))
Formula
G.f. satisfies: [x^n] A(x)^(n+1) = (n+1)^(n+2).
G.f.: A(x) = x/Series_Reversion(x*G(x)) where G(x) = Sum_{n>=0} (n+1)^(n+1)*x^n.