Centered triangular number

Summary

A centered (or centred) triangular number is a centered figurate number that represents an equilateral triangle with a dot in the center and all its other dots surrounding the center in successive equilateral triangular layers.

This is also the number of points of a hexagonal lattice with nearest-neighbor coupling whose distance from a given point is less than or equal to .

The following image shows the building of the centered triangular numbers by using the associated figures: at each step, the previous triangle (shown in red) is surrounded by a triangular layer of new dots (in blue).

construction

The first eight centered triangular numbers on a hex grid

Properties edit

  • The gnomon of the n-th centered triangular number, corresponding to the (n + 1)-th triangular layer, is:
 
  • The n-th centered triangular number, corresponding to n layers plus the center, is given by the formula:
 
  • Each centered triangular number has a remainder of 1 when divided by 3, and the quotient (if positive) is the previous regular triangular number.
  • Each centered triangular number from 10 onwards is the sum of three consecutive regular triangular numbers.

Relationship with centered square numbers edit

The centered triangular numbers can be expressed in terms of the centered square numbers:

 

where

 

Lists of centered triangular numbers edit

The first centered triangular numbers (C3,n < 3000) are:

1, 4, 10, 19, 31, 46, 64, 85, 109, 136, 166, 199, 235, 274, 316, 361, 409, 460, 514, 571, 631, 694, 760, 829, 901, 976, 1054, 1135, 1219, 1306, 1396, 1489, 1585, 1684, 1786, 1891, 1999, 2110, 2224, 2341, 2461, 2584, 2710, 2839, 2971, … (sequence A005448 in the OEIS).

The first simultaneously triangular and centered triangular numbers (C3,n = TN < 109) are:

1, 10, 136, 1 891, 26 335, 366 796, 5 108 806, 71 156 485, 991 081 981, … (sequence A128862 in the OEIS).

The generating function edit

If the centered triangular numbers are treated as the coefficients of the McLaurin series of a function, that function converges for all  , in which case it can be expressed as the meromorphic generating function

 

References edit

  • Lancelot Hogben: Mathematics for the Million (1936), republished by W. W. Norton & Company (September 1993), ISBN 978-0-393-31071-9
  • Weisstein, Eric W. "Centered Triangular Number". MathWorld.