In number theory, an octahedral number is a figurate number that represents the number of spheres in an octahedron formed from close-packed spheres. The nth octahedral number can be obtained by the formula:
The first few octahedral numbers are:
Properties and applications
The octahedral numbers have a generating function
Relation to other figurate numbers
An octahedral packing of spheres may be partitioned into two square pyramids, one upside-down underneath the other, by splitting it along a square cross-section. Therefore, the nth octahedral number can be obtained by adding two consecutive square pyramidal numbers together:
If is the nth octahedral number and is the nth tetrahedral number then
This represents the geometric fact that gluing a tetrahedron onto each of four non-adjacent faces of an octahedron produces a tetrahedron of twice the size. Another relation between octahedral numbers and tetrahedral numbers is also possible, based on the fact that an octahedron may be divided into four tetrahedra each having two adjacent original faces (or alternatively, based on the fact that each square pyramidal number is the sum of two tetrahedral numbers):
Therefore, an octahedral number also represents the number of points in a square pyramid formed by stacking centered squares; for this reason, in his book Arithmeticorum libri duo (1575), Francesco Maurolico called these numbers "pyramides quadratae secundae".
The number of cubes in an octahedron formed by stacking centered squares is a centered octahedral number, the sum of two consecutive octahedral numbers. These numbers are
given by the formula
- ↑ 1.0 1.1 1.2 Conway, John Horton; Guy, Richard K. (1996), The Book of Numbers, Springer-Verlag, p. 50, ISBN 978-0-387-97993-9 .
- ↑ Dickson, L. E. (2005), Diophantine Analysis, History of the Theory of Numbers, 2, New York: Dover, pp. 22–23, http://books.google.com/books?id=eNjKEBLt_tQC&pg=PA22 .
- ↑ Teo, Boon K.; Sloane, N. J. A. (1985), "Magic numbers in polygonal and polyhedral clusters", Inorganic Chemistry 24 (26): 4545–4558, doi:10.1021/ic00220a025, archived from the original on 2012-03-13, http://web.archive.org/web/20120313220128/http://www2.research.att.com/~njas/doc/magic1/magic1.pdf .
- ↑ Feldheim, Daniel L.; Foss, Colby A. (2002), Metal nanoparticles: synthesis, characterization, and applications, CRC Press, p. 76, ISBN 978-0-8247-0604-3, http://books.google.com/books?id=-u9tVYWfRcMC&pg=PA76 .
- ↑ Burke, John G. (1966), Origins of the science of crystals, University of California Press, p. 88, http://books.google.com/books?id=qvxPbZtJu8QC&pg=PA88 .
- ↑ Tables of integer sequences from Arithmeticorum libri duo, retrieved 2011-04-07.