magic$46195$ - traduzione in greco
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magic$46195$ - traduzione in greco

ARRANGEMENT OF NUMBERS (USUALLY INTEGERS) IN A HYPERCUBE GRID
Magic tesseract; Perfect magic tesseract; Semiperfect magic tesseract; Magic hypercubes; Nasik magic hypercube; Magic hyperbeam; Magic Hyperbeam; Magic rectangle

magic      
adj. μαγικός
black magic         
  • graveyard]]
  • ''[[Malleus Maleficarum]]'', 1669 edition
  • A [[Voodoo doll]]
MAGIC USED FOR EVIL AND SELFISH PURPOSES
Black Magic; Black Magician; Nigromancy; Black Magick; Black magick; Demonolatry; Dark Magic; Dark magick; Dark magic; Artes prohibitae
μαύρη μαγεία
magic eye         
  • Cover of the first book
BOOK SERIES WITH HIDDEN 3D IMAGES
Magic eye
μαγικό μάτι

Definizione

illusionist
¦ noun a person who performs tricks that deceive the eye; a magician.

Wikipedia

Magic hypercube

In mathematics, a magic hypercube is the k-dimensional generalization of magic squares and magic cubes, that is, an n × n × n × ... × n array of integers such that the sums of the numbers on each pillar (along any axis) as well as on the main space diagonals are all the same. The common sum is called the magic constant of the hypercube, and is sometimes denoted Mk(n). If a magic hypercube consists of the numbers 1, 2, ..., nk, then it has magic number

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

For k = 4, a magic hypercube may be called a magic tesseract, with sequence of magic numbers given by OEIS: A021003.

The side-length n of the magic hypercube is called its order. Four-, five-, six-, seven- and eight-dimensional magic hypercubes of order three have been constructed by J. R. Hendricks.

Marian Trenkler proved the following theorem: A p-dimensional magic hypercube of order n exists if and only if p > 1 and n is different from 2 or p = 1. A construction of a magic hypercube follows from the proof.

The R programming language includes a module, library(magic), that will create magic hypercubes of any dimension with n a multiple of 4.