Pronic number

From Wikipedia, the free encyclopedia

A pronic number, oblong number or heteromecic number, is a number which is the product of two consecutive integers, that is, n (n + 1). The n-th pronic number is twice the n-th triangular number. The first few pronic numbers (sequence A002378 in OEIS) are:

0, 2, 6, 12, 20, 30, 42, 56, 72, 90, 110, 132, 156, 182, 210, 240, 272, 306, 342, 380, 420, 462 …

These numbers are sometimes called oblong because they are figurate in this way:

**  ***  ****  *****  ******  *******
    ***  ****  *****  ******  *******
         ****  *****  ******  *******
               *****  ******  *******
                      ******  *******
                              *******

Pronic numbers can also be expressed as n² + n. The n-th pronic number is the sum of the first n even integers, as well as the difference between (2n − 1)² and the n-th centered hexagonal number.

All pronic numbers are even, therefore 2 is the only prime pronic number. It is also the only pronic number in the Fibonacci sequence.

The number of off-diagonal entries in a square matrix is always a pronic number.

The value of the Möbius function μ(x) for any pronic number x = n (n + 1), in addition to being computable in the usual way, can also be calculated as

μ(x) = μ(n) μ(n + 1).

The fact that consecutive integers are coprime and that a pronic number is the product of two consecutive integers leads to a number of properties. Each distinct prime factor of a pronic number is present in only one of its factors. Thus a pronic number is squarefree if and only if n and n + 1 are. The number of distinct prime factors of a pronic number is the sum of the number of distinct prime factors of n and n + 1.