A370103 -id:A370103 - cp's OEIS frontend

A365854 Expansion of (1/x) * Series_Reversion( x(1+x)^2(1-x)^3 ).

1, 1, 4, 13, 55, 232, 1052, 4869, 23206, 112519, 554560, 2767336, 13959941, 71060356, 364569352, 1883143669, 9785481498, 51118097686, 268294595396, 1414106565611, 7481787454031, 39721596068000, 211549545257760, 1129912319370600, 6050931114958080

Offset: 0

Seiichi Manyama, Sep 20 2023

nonn

Index entries for reversions of series

Cf. A365855, A365856.
Cf. A063020, A365878, A365880.
Cf. A365751, A370103.

a(n) = sum(k=0, n, (-1)^k*binomial(2*n+k+1, k)*binomial(4*n-k+2, n-k))/(n+1);

def A365854(n):
    h = binomial(2*(2*n + 1), n) * hypergeometric([-n, 2*(n + 1)], [-2*(2*n + 1)], -1) / (n + 1)
    return simplify(h)
print([A365854(n) for n in range(25)])  # Peter Luschny, Sep 20 2023

a(n) = (1/(n+1)) * Sum_{k=0..n} (-1)^k * binomial(2*n+k+1,k) * binomial(4*n-k+2,n-k).
a(n) = (1/(n+1)) * Sum_{k=0..floor(n/2)} binomial(2*n+k+1,k) * binomial(2*n-2*k,n-2*k). - Seiichi Manyama, Jan 18 2024
a(n) = (1/(n+1)) * [x^n] 1/( (1+x)^2 * (1-x)^3 )^(n+1). - Seiichi Manyama, Feb 16 2024

A370104 a(n) = Sum_{k=0..n} (-1)^k * binomial(2n+k-1,k) binomial(6*n-k-1,n-k).

Original entry on oeis.org

1, 3, 25, 219, 2025, 19253, 186469, 1829565, 18124521, 180886260, 1815946275, 18318160358, 185518492965, 1885157971596, 19211066004995, 196258973605094, 2009302383218409, 20610411795602760, 211768072490024440, 2179156980022097775, 22454554231950998275

Offset: 0

Seiichi Manyama, Feb 10 2024

nonn

Cf. A351857, A370103.

Cf. A365856.

a(n) = sum(k=0, n, (-1)^k*binomial(2*n+k-1, k)*binomial(6*n-k-1, n-k));

a(n, s=2, t=2, u=3) = sum(k=0, n\s, binomial(t*n+k-1, k)*binomial((u+1)*n-s*k-1, n-s*k));

a(n) = [x^n] 1/( (1+x)^2 * (1-x)^5 )^n.
The g.f. exp( Sum_{k>=1} a(k) * x^k/k ) has integer coefficients and equals (1/x) * Series_Reversion( x*(1+x)^2*(1-x)^5 ). See A365856.
a(n) = Sum_{k=0..floor(n/2)} binomial(2*n+k-1,k) * binomial(4*n-2*k-1,n-2*k).

A370269 Coefficient of x^n in the expansion of 1/( (1-x) * (1-x^2)^3 )^n.

Original entry on oeis.org

1, 1, 9, 37, 233, 1251, 7461, 43219, 257769, 1534096, 9224259, 55607850, 336885029, 2046705428, 12472585155, 76185639162, 466380345065, 2860318763352, 17571932737128, 108111252582449, 666049600308483, 4108363051479346, 25369393216077370

Offset: 0

Seiichi Manyama, Feb 13 2024

nonn

Cf. A348410, A370103.

Cf. A365878.

a(n, s=2, t=3, u=1) = sum(k=0, n\s, binomial(t*n+k-1, k)*binomial((u+1)*n-s*k-1, n-s*k));

a(n) = Sum_{k=0..floor(n/2)} binomial(3*n+k-1,k) * binomial(2*n-2*k-1,n-2*k).

The g.f. exp( Sum_{k>=1} a(k) * x^k/k ) has integer coefficients and equals (1/x) * Series_Reversion( x * (1-x) * (1-x^2)^3 ). See A365878.

cp's OEIS Frontend

A365854 Expansion of (1/x) * Series_Reversion( x(1+x)^2(1-x)^3 ).

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A370104 a(n) = Sum_{k=0..n} (-1)^k * binomial(2n+k-1,k) binomial(6*n-k-1,n-k).

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PARI

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A370269 Coefficient of x^n in the expansion of 1/( (1-x) * (1-x^2)^3 )^n.

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Formula

cp's OEIS Frontend

A365854 Expansion of (1/x) * Series_Reversion( x*(1+x)^2*(1-x)^3 ).

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Author

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PARI

SageMath

Formula

A370104 a(n) = Sum_{k=0..n} (-1)^k * binomial(2*n+k-1,k) * binomial(6*n-k-1,n-k).

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PARI

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A370269 Coefficient of x^n in the expansion of 1/( (1-x) * (1-x^2)^3 )^n.

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Author

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PARI

Formula

A365854 Expansion of (1/x) * Series_Reversion( x(1+x)^2(1-x)^3 ).

A370104 a(n) = Sum_{k=0..n} (-1)^k * binomial(2n+k-1,k) binomial(6*n-k-1,n-k).