Publications of Paul Erdos

Zentralblatt MATH

Publications of (and about) Paul Erdös

Zbl.No: 707.11071
Autor: Erdös, Paul; Szalay, M.
Title: On some problems of the statistical theory of partitions. (In English)
Source: Number theory. Vol. I. Elementary and analytic, Proc. Conf., Budapest/Hung. 1987, Colloq. Math. Soc. János Bolyai 51, 93-110 (1990).
Review: [For the entire collection see Zbl 694.00005.]
Let \pi be a generic ``unrestricted'' partition of the positive integer n, that is, a partition \lambda₁+\lambda₂+...+\lambda_m = n, where the \lambda_j's are integers such that \lambda₁ \geq \lambda₂ \geq ... \geq \lambda_m, and let p(n) be the number of such partitions. The number of conjugacy classes of the symmetric group of degree n is equal to p(n), and the number of conjugacy classes of the alternating group of degree n is asymptotically equal to p(n)/2. By choosing a suitable prime summand, a proof that almost all partitions \pi of n have a summand which is > 1 and relatively prime to the other summands was given by L. B. Beasley, J. L. Brenner, P. Erdös, M. Szalay and A. G. Williamson [Period. Math. Hung. 18, 259-269 (1987; Zbl 617.20045)], and was used to simplify a proof originally given by Beasley, Brenner, and Williamson that almost all conjugacy classes of the alternating group of degree n contain a pair of generators.
It is now shown that the choice of a prime summand was necessary, in the sense that for almost all \pi's, if \lambda_j > 1 and (\lambda_i,\lambda_j) = 1 for each i\ne j then \lambda_j is a prime. Also, let \pi^x be a generic unequal partition of n, that is, \pi^x represents a partition \alpha₁+\alpha₂+...+\alpha_m = n, where the \alpha_j's are integers such that \alpha₁ > \alpha₂ > ... > \alpha_m, and let M(\pi^x) denote the maximal number of consecutive summands in \pi^x. It is shown that for almost all \pi^x,

M(\pi^x) = (log n)/(2 log 2)-(log log n)/(log 2)+O(\omega(n)),

where \omega(n) ––> oo (arbitrarily slowly). Finally, let T_n(k) denote the number of solutions of x^k = e in the symmetric group of degree n, where e is the identity element. Others have investigated the behavior of T_n(k) as n ––> oo for fixed k \geq 2. An estimate is now established for T_n(k) for 1 \leq k \leq n^{(1/4)-\epsilon}, 0 < \epsilon < 10^-2, as n ––> oo.
Reviewer: B.Garrison
Classif.: * 11P81 Elementary theory of partitions
20P05 Probability methods in group theory
00A07 Problem books
Keywords: unequal partition
Citations: Zbl 626.20059; Zbl 694.00005; Zbl 617.20045

Books Problems Set Theory Combinatorics Extremal Probl/Ramsey Th.

Graph Theory Add.Number Theory Mult.Number Theory Analysis Geometry

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Books	Problems	Set Theory	Combinatorics	Extremal Probl/Ramsey Th.
Graph Theory	Add.Number Theory	Mult.Number Theory	Analysis	Geometry
Probabability	Personalia	About Paul Erdös	Publication Year	Home Page