A156740 -id:A156740 - cp's OEIS frontend

A151614 Row sums of A156740.

1, 2, 155, 9692, 2511973, 718800326, 444293699995, 322762198901872, 375936459278442977, 517934214393739253282, 977731835276897269439162, 2156693302479983573313980822, 5955566258836615476254796252771, 18881697488276229387856391071794848

Offset: 0

N. J. A. Sloane, May 28 2009

nonn

G. C. Greubel, Table of n, a(n) for n = 0..225

Cf. A156740.

A156740[n_, k_]:= Round[Product[Binomial[2*(n+j), 2*(k+j)]/Binomial[2*(n-k+j), 2*j], {j, 0, 7}]];
A151614[n_]:= A151614[n]= Sum[A156740[n,k], {k,0,n}];
Table[A151614[n], {n,0,30}] (* G. C. Greubel, Jun 19 2021 *)

def A156740(n, k): return round( product( binomial(2*(n+j), 2*(k+j))/binomial(2*(n-k+j), 2*j) for j in (0..7)) )
def A151614(n): return sum( A156740(n, k) for k in (0..n) )
[A151614(n) for n in (0..30)] # G. C. Greubel, Jun 19 2021

a(n) = Sum_{k=0..n} A156740(n, k).

Terms a(11) onward added by G. C. Greubel, Jun 19 2021

A156741 Triangle T(n, k, m) = round( Product_{j=0..m} binomial(2(n+j), 2(k+j))/binomial( 2(n-k+j), 2j) ), where m = 8, read by rows.

Original entry on oeis.org

1, 1, 1, 1, 190, 1, 1, 7315, 7315, 1, 1, 134596, 5181946, 134596, 1, 1, 1562275, 1106715610, 1106715610, 1562275, 1, 1, 13123110, 107904771975, 1985447804340, 107904771975, 13123110, 1, 1, 86493225, 5974000557525, 1275875833357125, 1275875833357125, 5974000557525, 86493225, 1

Offset: 0

Roger L. Bagula, Feb 14 2009

			Triangle begins as:
  1;
  1,        1;
  1,      190,            1;
  1,     7315,         7315,             1;
  1,   134596,      5181946,        134596,            1;
  1,  1562275,   1106715610,    1106715610,      1562275,        1;
  1, 13123110, 107904771975, 1985447804340, 107904771975, 13123110, 1;

G. C. Greubel, Rows n = 0..30 of the triangle, flattened

Cf. A086645 (m=0), A156739 (m=6), A156740 (m=7), this sequence (m=8), A156742 (m=9).

Cf. A151709 (row sums).

A156741:= func< n,k | Round( (&*[Binomial(2*(n+j), 2*(k+j))/Binomial(2*(n-k+j), 2*j): j in [0..8]]) ) >;
[A156741(n,k): k in [0..n], n in [0..12]]; // G. C. Greubel, Jun 19 2021

b[n_, k_]:= Binomial[2*n, 2*k];
T[n_, k_, m_]:= Round[Product[b[n+j, k+j]/b[n-k+j, j], {j,0,m}]];
Table[T[n, k, 8], {n,0,12}, {k,0,n}]//Flatten (* G. C. Greubel, Jun 19 2021 *)

def A156741(n, k): return round( product( binomial(2*(n+j), 2*(k+j))/binomial(2*(n-k+j), 2*j) for j in (0..8)) )
flatten([[A156741(n,k) for k in (0..n)] for n in (0..12)]) # G. C. Greubel, Jun 19 2021

T(n, k, m) = round( Product_{j=0..m} b(n+j, k+j)/b(n-k+j, j) ), where b(n, k) = binomial(2*n, 2*k) and m = 8.

Sum_{k=0..n} T(n, k) = A151709(n).

Definition corrected to give integral terms and edited by G. C. Greubel, Jun 19 2021

A156739 Triangle T(n, k, m) = round( Product_{j=0..m} binomial(2(n+j), 2(k+j))/binomial( 2(n-k+j), 2j) ), where m = 6, read by rows.

Original entry on oeis.org

1, 1, 1, 1, 120, 1, 1, 3060, 3060, 1, 1, 38760, 988380, 38760, 1, 1, 319770, 103285710, 103285710, 319770, 1, 1, 1961256, 5226256926, 66199254396, 5226256926, 1961256, 1, 1, 9657700, 157843517260, 16494647553670, 16494647553670, 157843517260, 9657700, 1

Offset: 0

Roger L. Bagula, Feb 14 2009

			Triangle begins as:
  1;
  1,       1;
  1,     120,          1;
  1,    3060,       3060,           1;
  1,   38760,     988380,       38760,          1;
  1,  319770,  103285710,   103285710,     319770,       1;
  1, 1961256, 5226256926, 66199254396, 5226256926, 1961256, 1;

G. C. Greubel, Rows n = 0..30 of the triangle, flattened

Cf. A086645 (m=0), this sequence (m=6), A156740 (m=7), A156741 (m=8), A156742 (m=9).

A156739:= func< n,k | Round( (&*[Binomial(2*(n+j), 2*(k+j))/Binomial(2*(n-k+j), 2*j): j in [0..6]]) ) >;
[A156739(n,k): k in [0..n], n in [0..12]]; // G. C. Greubel, Jun 18 2021

b[n_, k_]:= Binomial[2*n, 2*k];
T[n_, k_, m_]:= Round[Product[b[n+j, k+j]/b[n-k+j, j], {j,0,m}]];
Table[T[n, k, 6], {n,0,12}, {k,0,n}]//Flatten (* G. C. Greubel, Jun 18 2021 *)

def A156739(n, k): return round( product( binomial(2*(n+j), 2*(k+j))/binomial(2*(n-k+j), 2*j) for j in (0..6)) )
flatten([[A156739(n,k) for k in (0..n)] for n in (0..12)]) # G. C. Greubel, Jun 18 2021

T(n, k, m) = round( Product_{j=0..m} b(n+j, k+j)/b(n-k+j, j) ), where b(n, k) = binomial(2*n, 2*k) and m = 6.

Definition corrected to give integral terms and edited by G. C. Greubel, Jun 18 2021

A156742 Triangle T(n, k, m) = round( Product_{j=0..m} binomial(2(n+j), 2(k+j))/binomial( 2(n-k+j), 2j) ), where m = 9, read by rows.

Original entry on oeis.org

1, 1, 1, 1, 231, 1, 1, 10626, 10626, 1, 1, 230230, 10590580, 230230, 1, 1, 3108105, 3097744650, 3097744650, 3108105, 1, 1, 30045015, 404255676825, 8758872997875, 404255676825, 30045015, 1, 1, 225792840, 29367745734600, 8590065627370500, 8590065627370500, 29367745734600, 225792840, 1

Offset: 0

Roger L. Bagula, Feb 14 2009

			Triangle begins as:
  1;
  1,        1;
  1,      231,            1;
  1,    10626,        10626,             1;
  1,   230230,     10590580,        230230,            1;
  1,  3108105,   3097744650,    3097744650,      3108105,        1;
  1, 30045015, 404255676825, 8758872997875, 404255676825, 30045015, 1;

G. C. Greubel, Rows n = 0..30 of the triangle, flattened

Cf. A086645 (m=0), A156739 (m=6), A156740 (m=7), A156741 (m=8), this sequence (m=9).

A156742:= func< n,k | Round( (&*[Binomial(2*(n+j), 2*(k+j))/Binomial(2*(n-k+j), 2*j): j in [0..9]]) ) >;
[A156742(n,k): k in [0..n], n in [0..12]]; // G. C. Greubel, Jun 19 2021

T[n_, k_, m_]:= Round[Product[Binomial[2*(n+j), 2*(k+j)]/Binomial[2*(n-k+j), 2*j], {j,0,m}]];
Table[T[n, k, 9], {n,0,12}, {k,0,n}]//Flatten (* G. C. Greubel, Jun 19 2021 *)

def A156742(n, k): return round( product( binomial(2*(n+j), 2*(k+j))/binomial(2*(n-k+j), 2*j) for j in (0..9)) )
flatten([[A156742(n,k) for k in (0..n)] for n in (0..12)]) # G. C. Greubel, Jun 19 2021

T(n, k, m) = round( Product_{j=0..m} b(n+j, k+j)/b(n-k+j, j) ), where b(n, k) = binomial(2*n, 2*k) and m = 9.

Definition corrected to give integral terms and edited by G. C. Greubel, Jun 19 2021

cp's OEIS Frontend

A151614 Row sums of A156740.

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A156741 Triangle T(n, k, m) = round( Product_{j=0..m} binomial(2*(n+j), 2*(k+j))/binomial( 2*(n-k+j), 2*j) ), where m = 8, read by rows.

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Magma

Mathematica

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Formula

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A156739 Triangle T(n, k, m) = round( Product_{j=0..m} binomial(2*(n+j), 2*(k+j))/binomial( 2*(n-k+j), 2*j) ), where m = 6, read by rows.

Views

Author

Keywords

Examples

Links

Crossrefs

Programs

Magma

Mathematica

Sage

Formula

Extensions

A156742 Triangle T(n, k, m) = round( Product_{j=0..m} binomial(2*(n+j), 2*(k+j))/binomial( 2*(n-k+j), 2*j) ), where m = 9, read by rows.

Views

Author

Keywords

Examples

Links

Crossrefs

Programs

Magma

Mathematica

Sage

Formula

Extensions

A156741 Triangle T(n, k, m) = round( Product_{j=0..m} binomial(2(n+j), 2(k+j))/binomial( 2(n-k+j), 2j) ), where m = 8, read by rows.

A156739 Triangle T(n, k, m) = round( Product_{j=0..m} binomial(2(n+j), 2(k+j))/binomial( 2(n-k+j), 2j) ), where m = 6, read by rows.

A156742 Triangle T(n, k, m) = round( Product_{j=0..m} binomial(2(n+j), 2(k+j))/binomial( 2(n-k+j), 2j) ), where m = 9, read by rows.