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Number of different magic squares of order n that can be formed from the numbers 1, ..., n^2.
(Formerly M5482)

+0
5

1, 0, 1, 880, 275305224 (list; graph; listen)

	OFFSET	`1,4`
	COMMENT	`a(4) computed by Frenicle de Bessy in 1693.` `a(5) computed by Richard Schroeppel in 1973.` `According to Pinn and Wieczerkowski, a(6) = (0.17745 +- 0.00016) * 10^20. - R. K. Guy, May 01, 2004.`
	REFERENCES	`E. R. Berlekamp, J. H. Conway and R. K. Guy, Winning Ways, Vol. II, pp. 778-783 gives the 880 4 X 4 squares.` `M. Gardner, Mathematical Games, Sci. Amer. Vol. 249 (No. 1, Jan. 1976), p. 118.` `M. Gardner, Time Travel and Other Mathematical Bewilderments. Freeman, NY, 1988, p. 216.`
	LINKS	`I. Peterson, Magic Tesseracts` `K. Pinn and C. Wieczerkowski, Number of magic squares from parallel tempering Monte Carlo, Internat. J. Modern Phys., 9 (4) (1998) 541-546.` `Eric Weisstein's World of Mathematics, Link to a section of The World of Mathematics.` `Index entries for sequences related to magic squares`
	EXAMPLE	`An illustration of the unique square of order 3:` `\|---+---+---\|` `\| 2 \| 7 \| 6 \|` `\|---+---+---\|` `\| 9 \| 5 \| 1 \|` `\|---+---+---\|` `\| 4 \| 3 \| 8 \|` `\|---+---+---\|`
	CROSSREFS	`Sequence in context: A063051 A118799 A024393 this_sequence A105976 A137064 A092675` `Adjacent sequences: A006049 A006050 A006051 this_sequence A006053 A006054 A006055`
	KEYWORD	`nonn,hard,nice`
	AUTHOR	`njas`

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Last modified July 19 08:04 EDT 2008. Contains 142098 sequences.