A154631 -id:A154631 - cp's OEIS frontend

A294774 a(n) = 2n^2 + 2n + 5.

5, 9, 17, 29, 45, 65, 89, 117, 149, 185, 225, 269, 317, 369, 425, 485, 549, 617, 689, 765, 845, 929, 1017, 1109, 1205, 1305, 1409, 1517, 1629, 1745, 1865, 1989, 2117, 2249, 2385, 2525, 2669, 2817, 2969, 3125, 3285, 3449, 3617, 3789, 3965, 4145, 4329, 4517, 4709, 4905

Offset: 0

Bruno Berselli, Nov 08 2017

This is the case k = 9 of 2*n^2 + (1-(-1)^k)*n + (2*k-(-1)^k+1)/4 (similar sequences are listed in Crossrefs section). Note that:

2*( 2*n^2 + (1-(-1)^k)*n + (2*k-(-1)^k+1)/4 ) - k = ( 2*n + (1-(-1)^k)/2 )^2. From this follows an alternative definition for the sequence: Numbers h such that 2*h - 9 is a square. Therefore, if a(n) is a square then its base is a term of A075841.

Colin Barker, Table of n, a(n) for n = 0..1000
Index entries for linear recurrences with constant coefficients, signature (3,-3,1).

1st diagonal of A154631, 3rd diagonal of A055096, 4th diagonal of A070216.
Second column of Mathar's array in A016813 (Comments section).
Subsequence of A001481, A001983, A004766, A020668, A046711 and A057653 (because a(n) = (n+2)^2 + (n-1)^2); A097268 (because it is also a(n) = (n^2+n+3)^2 - (n^2+n+2)^2); A047270; A243182 (for y=1).
Similar sequences (see the first comment): A161532 (k=-14), A181510 (k=-13), A152811 (k=-12), A222182 (k=-11), A271625 (k=-10), A139570 (k=-9), (-1)*A147973 (k=-8), A059993 (k=-7), A268581 (k=-6), A090288 (k=-5), A054000 (k=-4), A142463 or A132209 (k=-3), A056220 (k=-2), A046092 (k=-1), A001105 (k=0), A001844 (k=1), A058331 (k=2), A051890 (k=3), A271624 (k=4), A097080 (k=5), A093328 (k=6), A271649 (k=7), A255843 (k=8), this sequence (k=9).

seq(2*n^2 + 2*n + 5, n=0..100); # Robert Israel, Nov 10 2017

Table[2n^2+2n+5,{n,0,50}] (* or *) LinearRecurrence[{3,-3,1},{5,9,17},50] (* Harvey P. Dale, Sep 18 2023 *)

Vec((5 - 6*x + 5*x^2) / (1 - x)^3 + O(x^50)) \\ Colin Barker, Nov 13 2017

O.g.f.: (5 - 6*x + 5*x^2)/(1 - x)^3.
E.g.f.: (5 + 4*x + 2*x^2)*exp(x).
a(n) = a(-1-n) = 3*a(n-1) - 3*a(n-2) + a(n-3).
a(n) = 5*A000217(n+1) - 6*A000217(n) + 5*A000217(n-1).
n*a(n) - Sum_{j=0..n-1} a(j) = A002492(n) for n>0.
a(n) = Integral_{x=0..2n+4} |3-x| dx. - Pedro Caceres, Dec 29 2020

A162263 a(n) = (2n^3 + 5n^2 + 11*n)/2.

Original entry on oeis.org

9, 29, 66, 126, 215, 339, 504, 716, 981, 1305, 1694, 2154, 2691, 3311, 4020, 4824, 5729, 6741, 7866, 9110, 10479, 11979, 13616, 15396, 17325, 19409, 21654, 24066, 26651, 29415, 32364, 35504, 38841, 42381, 46130, 50094, 54279, 58691, 63336

Offset: 1

Vincenzo Librandi, Jun 29 2009

Vincenzo Librandi, Table of n, a(n) for n = 1..1000
Index entries for linear recurrences with constant coefficients, signature (4,-6,4,-1).

Cf. A154631.

LinearRecurrence[{4, -6, 4, -1}, {9, 29, 66, 126}, 50] (* or *) CoefficientList[Series[(9-7*x+4*x^2)/(1-x)^4,{x,0,40}],x] (* Vincenzo Librandi, Mar 05 2012 *)

Row sums from A154631: a(n) = Sum_{m=1..n} (2*m*n + m + n + 5).
From _Vincenzo Librandi, Mar 05 2012: (Start)
G.f.: x*(9 - 7*x + 4*x^2)/(1-x)^4.
a(n) = 4*a(n-1) - 6*a(n-2) + 4*a(n-3) - a(n-4). (End)

New name from Vincenzo Librandi, Mar 05 2012

cp's OEIS Frontend

A294774 a(n) = 2n^2 + 2n + 5.

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A162263 a(n) = (2n^3 + 5n^2 + 11*n)/2.

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cp's OEIS Frontend

A294774 a(n) = 2*n^2 + 2*n + 5.

Views

Author

Keywords

Comments

Links

Crossrefs

Programs

Maple

Mathematica

PARI

Formula

A162263 a(n) = (2*n^3 + 5*n^2 + 11*n)/2.

Views

Author

Keywords

Links

Crossrefs

Programs

Mathematica

Formula

Extensions

A294774 a(n) = 2n^2 + 2n + 5.

A162263 a(n) = (2n^3 + 5n^2 + 11*n)/2.