Finite Groups Having Exactly 34 Elements of Maximal Order

Journal Title: JOURNAL OF ADVANCES IN MATHEMATICS - Year 2015, Vol 11, Issue 5

Abstract

Let G be a finite group, M(G) denotes the number of elements of maximal order of G. In this note a finite group G with M(G) = 34 is determined.

Authors and Affiliations

Zhangjia Han, Chao Yang

Keywords

Related Articles

THE PERIOD OF 2-STEP AND 3-STEP SEQUENCES IN DIRECT PRODUCT OF MONOIDS

Let M and N be two monoids consisting of idempotent elements. By the help of the presentation which defines Mx N, the period of 2-step sequences and 3-step sequences in MxN is given.

Cauchy sequences and a Meir-Keeler type fixed point theorem in partial metric spaces.

In this paper we prove some new conditions for Cauchy sequences by using the diameter of orbit in partial metric spaces. A fixed point theorem for Meir-Keeler type contractions in this space is established.

The Reproducing Kernel Hilbert Space Method for Solving System of Linear Weakly Singular Volterra Integral Equations

The exact solutions of a system of linear weakly singular Volterra integral equations (VIE) have been a difficult to find.  The aim of this paper is to apply reproducing kernel Hilbert space (RKHS) method to find th...

4D-Space-Time Geometry & Cosmological Constant

In this paper, 4-dimensional space-time geometry has been discussed. The smallness of the effective cosmological constant constitutes the most difficult problems involving cosmology. Recent observations of Type Ia supern...

A Perishable Inventory System with Postponed Demands and Finite

In this article, we consider a continuous review perishable inventory system with a finite number of homogeneous sources generating demands. The demand time points form quasi random process and demand is for single item....

Download PDF file
  • EP ID EP651564
  • DOI 10.24297/jam.v11i5.1246
  • Views 129
  • Downloads 0

How To Cite

Zhangjia Han, Chao Yang (2015). Finite Groups Having Exactly 34 Elements of Maximal Order. JOURNAL OF ADVANCES IN MATHEMATICS, 11(5), 5195-5197. https://europub.co.uk/articles/-A-651564