51
A 3x3 magic square has the property that the sum of the numbers in each row, column, and diagonal is the same. For a 3x3 magic square using the numbers 1 to 9, the magic constant is 15, not 18. If you're referring to a different set of numbers or a modified version of a magic square, please specify the numbers used to achieve a magic constant of 18.
No.
Yes. 7+5, 6+6 4+8, 3+9
64!
A 5x5 magic square is a grid filled with distinct integers from 1 to 25, arranged so that the sum of the numbers in each row, column, and both main diagonals equals the same magic constant, which is 65 for a 5x5 square. There are numerous configurations for a 5x5 magic square, with the most common methods including the Siamese method and the Strachey method. Each valid arrangement will meet the criteria of having unique integers and achieving the same sum across all rows, columns, and diagonals. There are 880 distinct 5x5 magic squares when accounting for rotations and reflections.
what is the magic square of 29
No.
16
the answers for mission 7 are 15 34 42 (the answers are in order)!
Yes. 7+5, 6+6 4+8, 3+9
64!
The answer will depend on the size of the square.
Magic Square is arrangement of numbers within in a square of nine spaces. The number are 1-9 and each row is configured so the three numbers add up to 15.
Just take any magic square, and multiply every number by 5. Here you will get another magic square with all numbers multiples of 5.
While they may have been called magic squares, there is absolutely nothing magical about them. The arrangement of numbers in magic squares is all very rational.
I recently studied a magic square. It is a square that when each row, diagonal, horizontally, or vertically is added up, it equals the same positive integer.
It depends on what question it asks you!