Magic hypercube

In mathematics, a magic hypercube is the k-dimensional generalization of magic squares, magic cubes and magic tesseracts, that is, a number of integers arranged in an n x n x n x ... x n pattern such that the sum of the numbers on each pillar (along any axis) as well as the main space diagonals is equal to a single number, the so-called magic constant of the hypercube, denoted M_k(n). It can be shown that if a magic hypercube consists of the numbers 1, 2, ..., n^k, then it has magic number

${\displaystyle M_{k}(n)={\frac {1}{2}}n(n^{k}+1)}$

If, in addition, the numbers on every cross section diagonal also sum up to the hypercube's magic number, the hypercube is called a perfect magic hypercube; otherwise, it is called a semiperfect magic hypercube. The number n is called the order of the magic hypercube.

Five-, six-, seven- and eight-dimensional magic hypercubes of order three have been constructed by J. R. Hendricks.

• Homepage of J. R. Hendricks