Search: id:A000001 Results 1-1 of 1 results found. %I A000001 M0098 N0035 %S A000001 1,1,1,2,1,2,1,5,2,2,1,5,1,2,1,14,1,5,1,5,2,2,1,15,2,2,5,4,1,4,1,51,1, %T A000001 2,1,14,1,2,2,14,1,6,1,4,2,2,1,52,2,5,1,5,1,15,2,13,2,2,1,13,1,2,4, %U A000001 267,1,4,1,5,1,4,1,50,1,2,3,4,1,6,1,52,15,2,1,15,1,2,1,12,1,10,1,4,2 %N A000001 Number of groups of order n. %C A000001 Also, number of nonisomorphic subgroups of order n in symmetric group S_n. - Lekraj Beedassy (blekraj(AT)yahoo.com), Dec 16 2004 %D A000001 H. A. Bender, A determination of the groups of order p^5, Ann. of Math. (2) 29, pp. 61-72 (1927). %D A000001 H.-U. Besche and B. Eick, Construction of Finite Groups, Journal of Symbolic Computation, Vol. 27, No. 4, Apr 15 1999, pp. 387-404. %D A000001 H.-U. Besche and B. Eick, The Groups of Order at Most 1000 Except 512 and 768, Journal of Symbolic Computation, Vol. 27, No. 4, Apr 15 1999, pp. 405-413. %D A000001 H.-U. Besche, B. Eick and E. A. O'Brien, A Millenium Project: Constructing Small Groups, Internat. J. Algebra and Computation, 12 (2002), 623-644. %D A000001 L. Comtet, Advanced Combinatorics, Reidel, 1974, p. 302, #35. %D A000001 J. H. Conway et al., The Symmetries of Things, Peters, 2008, p. 209. %D A000001 H. S. M. Coxeter and W. O. J. Moser, Generators and Relations for Discrete Groups, 4th ed., Springer-Verlag, NY, reprinted 1984, p. 134. %D A000001 CRC Standard Mathematical Tables and Formulae, 30th ed. 1996, p. 150. %D A000001 R. L. Graham, D. E. Knuth and O. Patashnik, Concrete Mathematics, A Foundation for Computer Science, Addison-Wesley Publ. Co., Reading, MA, 1989, Section 6.6 'Fibonacci Numbers' pgs 281-283. %D A000001 M. Hall, Jr. and J. K. Senior, The Groups of Order 2^n (n <= 6). Macmillan, NY, 1964. %D A000001 Otto Holder, Die Gruppen der Ordnungen p^3, pq^2, pqr, p^4, Math. Ann. 43 pp. 301-412 (1893). %D A000001 G. A. Miller, Determination of all the groups of order 64, Amer. J. Math., 52 (1930), 617-634. %D A000001 D. S. Mitrinovic et al., Handbook of Number Theory, Kluwer, Section XIII.24, p. 481. %D A000001 M. F. Newman and E. A. O'Brien, A CAYLEY library for the groups of order dividing 128. Group theory (Singapore, 1987), 437-442, de Gruyter, Berlin-New York, 1989. %D A000001 E. Rodemich, The groups of order 128. J. Algebra 67 (1980), no. 1, 129-142. %D A000001 N. J. A. Sloane, A Handbook of Integer Sequences, Academic Press, 1973 (includes this sequence). %D A000001 N. J. A. Sloane and Simon Plouffe, The Encyclopedia of Integer Sequences, Academic Press, 1995 (includes this sequence). %D A000001 M. Wild, The groups of order 16 made easy, Amer. Math. Monthly, 112 (No. 1, 2005), 20-31. %H A000001 H.-U. Besche and Ivan Panchenko, Table of n, a(n) for n = 1..2047 [Terms 1 through 2015 copied from Small Groups Library mentioned below. Terms 2016 - 2047 added by Ivan Panchenko, Aug 29 2009] %H A000001 H.-U. Besche, The Small Groups Library [gives 2000 terms] %H A000001 H. U. Besche, B. Eick and E. A. O'Brien, The groups of order at most 2000, Electron. Res. Announc. Amer. Math. Soc. 7 (2001), 1-4. %H A000001 H. Bottomley, Illustration of initial terms %H A000001 J. H. Conway, Heiko Dietrich and E. A. O'Brien, Counting groups: gnus, moas and other exotica. %H A000001 Ed Pegg Jr., Illustration of initial terms %H A000001 Gordon Royle, Numbers of Small Groups %H A000001 D. Rusin, Asymptotics. %H A000001 Eric Weisstein's World of Mathematics, Link to a section of The World of Mathematics. %H A000001 G. Xiao, SmallGroup %H A000001 Index entries for sequences related to groups %H A000001 Index entries for "core" sequences %F A000001 Formulae from Mitch Harris (Harris.Mitchell(AT)mgh.harvard.edu), Oct 25 2006 %F A000001 (Start) For p, q, r primes: %F A000001 a(p) = 1, a(p^2) = 2, a(p^3) = 5, a(p^4) = 14, if p = 2, otherwise 15. %F A000001 a(p^5) = 61 + 2p + 2gcd(p-1,3) + gcd(p-1,4), p>=5, a(2^5)=51, a(3^5)=67. %F A000001 a(p^e) ~ p^((2/27)e^3 + O(e^(8/3))) %F A000001 a(pq) = 1 if gcd(p,q-1) = 1, 2 if gcd(p,q-1) = p. (p < q) %F A000001 a(pq^2) = one of the following: %F A000001 * 5, p=2, q odd, %F A000001 * (p+9)/2, q=1 mod p, p odd, %F A000001 * 5, p=3, q=2, %F A000001 * 3, q = -1 mod p, p and q odd. %F A000001 * 4, p=1 mod q, p > 3, p != 1 mod q^2 %F A000001 * 5, p=1 mod q^2 %F A000001 * 2, q != +/-1 mod p and p != 1 mod q, %F A000001 a(pqr) (p < q < r) = one of the following: %F A000001 * q==1 mod p r==1 mod p r==1 mod q a(pqr) %F A000001 * No..........No..........No..........1 %F A000001 * No..........No..........Yes.........2 %F A000001 * No..........Yes.........No..........2 %F A000001 * No..........Yes.........Yes.........4 %F A000001 * Yes.........No..........No..........2 %F A000001 * Yes.........No..........Yes.........3 %F A000001 * Yes.........Yes.........No..........p+2 %F A000001 * Yes.........Yes.........Yes.........p+4 (table from Derek Holt) (End) %o A000001 (MAGMA) D:=SmallGroupDatabase(); [ NumberOfSmallGroups(D, n) : n in [1..1000] ]; (from John Cannon, Dec 23 2006) %Y A000001 The main sequences concerned with group theory are A000001 (this one), A000679, A001034, A001228, A005180, A000019, A000637, A000638, A002106, A005432. %Y A000001 Cf. A046058, A001493, A023675, A023676. A003277 gives n for which A000001(n) = 1. %Y A000001 Sequence in context: A119569 A066083 A128644 this_sequence A146002 A109087 A102048 %Y A000001 Adjacent sequences: this_sequence A000002 A000003 A000004 %K A000001 nonn,core,nice %O A000001 1,4 %A A000001 N. J. A. Sloane (njas(AT)research.att.com). %E A000001 More terms from Michael Somos %E A000001 Typo in b-file description fixed by David Applegate (david(AT)research.att.com), Sep 05 2009 Search completed in 0.003 seconds