Pandiagonal magic cube

The topic of this article may not meet Wikipedia's general notability guideline. Please help to demonstrate the notability of the topic by citing reliable secondary sources that are independent of the topic and provide significant coverage of it beyond a mere trivial mention. If notability cannot be shown, the article is likely to be merged, redirected, or deleted. Find sources: "Pandiagonal magic cube" – news · newspapers · books · scholar · JSTOR (April 2012) (Learn how and when to remove this template message)

In recreational mathematics, a pandiagonal magic cube is a magic cube with the additional property that all broken diagonals (parallel to exactly two of the three coordinate axes) have the same sum as each other. Pandiagonal magic cubes are extensions of diagonal magic cubes (in which only the unbroken diagonals need to have the same sum as the rows of the cube) and generalize pandiagonal magic squares to three dimensions.

In a pandiagonal magic cube, all 3m planar arrays must be panmagic squares. The 6 oblique squares are always magic. Several of them may be panmagic squares. A proper pandiagonal magic cube has exactly 9m² lines plus the 4 main space diagonals summing correctly (no broken space diagonals have the correct sum.)

The smallest pandiagonal magic cube has order 7.

See also[edit]

• Magic cube classes

References[edit]

• Hendricks, J.R; Magic Squares to Tesseracts by Computer, Self-published 1999. ISBN 0-9684700-0-9
• Hendricks, J.R.; Perfect n-Dimensional Magic Hypercubes of Order 2n, Self-published 1999. ISBN 0-9684700-4-1
• Harvey Heinz: All about magic cubes

This combinatorics-related article is a stub. You can help Wikipedia by expanding it.

• v
• t
• e