# William Burnside

### Born: 2 July 1852 in Paddington, London, England

Died: 21 August 1927 in Cotleigh, West Wickham, Kent, England

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**William Burnside**'s parents were Emma Knight and William Burnside. William Burnside Senior was of Scottish ancestry, his grandfather having moved from Scotland to London where he was a partner in the booksellers Seeley and Burnside. William Burnside Senior was a merchant who lived at 7 Howley Place, Paddington, where William, the elder of his parents two sons, was born. However, by the age of six Willian was an orphan [1]:-

Christ's Hospital was a school which took in boys whose parents were unable to pay the fees for a boarding school, so it was particularly appropriate for an orphan like Burnside. He entered St John's College, Cambridge in October 1871 having won a scholarship. In 1873 he moved from St John's College to Pembroke College, not for academic reasons but rather because St John's had such an excellent rowing team that Burnside was not good enough to make their first boat. He could make the first boat for Pembroke so he moved there, graduating in 1875 as second wrangler, bracketed with George Chrystal. Burnside was, however, considered to have the most elegant mathematical style. Among his teachers at Cambridge were Stokes, Adams and Maxwell in applied mathematics and Cayley in pure mathematics. They were to influence greatly the direction that Burnside's research was to take. He was first Smith's Prizeman and 1875, was awarded a fellowship at Pembroke College which he held from 1875 to 1886, and became a College lecturer. In fact Pembroke had an applied mathematics tradition, so a decision taken because of rowing was largely responsible for the direction that Burnside took in his mathematical teaching and research.Burnside was educated at Christ's Hospital - then situated in Newgate Street - and achieved distinction in both the grammar school and the mathematical school.

He lectured on hydrodynamics but his first paper, published in 1883, considered elliptic functions. After 1885, the year he was appointed professor of mathematics at the Royal Naval College at Greenwich, his research too turned towards hydrodynamics. Much of Burnside's work on hydrodynamics involved the use of complex variable and in papers of 1891 and 1892 he considered the group of linear fractional transformations of a complex variable. His work quickly turned to the study of groups and from 1894 onwards he was to be occupied almost entirely with the study of group theory.

We mentioned that Burnside was an excellent oarsman, a '7' who captained Pembroke, but he was considered too light to make the University Boat so never earned a rowing blue. However, he retained an interest in rowing and later in fishing. He always had a love for Scotland and continued to take fishing holidays there throughout his life. He married Alexandrina Urquhart on 25 December 1886 soon after he took up the Chair at Greenwich. Alexandrina was the daughter of a crofter Poolewe in the county of Ross, Scotland. They had two sons and three daughters. Looking at Burnside's career perhaps the greatest surprise is that he turned down an offer from Pembroke to return to his old College, preferring to remain at Greenwich. In fact he turned down two offers from Pembroke for after Stokes died in 1903, the College invited Burnside to take up the post of Master of the College. Again he chose to turn down this prestigious offer.

Burnside was elected a Fellow of the Royal Society in 1893 for his work on hydrodynamics and complex function theory. However it was in 1893 that he published his first paper on finite simple groups, showing that the alternating group

*A*

_{5}is the only finite simple group whose order is the product of four (not necessarily distinct) primes. This paper was the first of a series which Burnside described himself as follows (see for example [3]):-

For example he proved in a paper published in 1895 that if a group of even order has a cyclic Sylow 2-subgroup then the group cannot be simple. His work on group theory quickly progressed and in 1897 he publishedThey are concerned chiefly with the proof of certain tests that may be applied in particular cases to determine whether it is possible for a simple group of a given order to exist.

*The Theory of Groups of Finite Order*, the first treatise on group theory in English. He wrote in the Introduction:-

This book was to have a major influence in the development of group theory. In 1899 Burnside was elected to the Council of the London Mathematical Society and in the same year the Society awarded him the De Morgan medal. He was to be President of the Society from 1906 to 1908 and continued to serve on the Council until 1917. He gave his presidential address at the end of his term of office in 1908 on finite groups but still felt that there was little interest among British mathematicians:-The present treatise is intended to introduce to the reader the main outlines of the theory of groups of finite order apart from any applications. The subject is one which has hitherto attracted but little attention in this country; it will afford me much satisfaction if, by means of this book, I shall succeed in arousing interest among English mathematicians in a branch of pure mathematics which becomes the more fascinating the more it is studied.

Let us now examine some more of Burnside's contributions to group theory. Frobenius started his development of the representation theory of groups and character theory in 1896. Burnside quickly recognised the importance of Frobenius's methods and he began to use character theory. One of his most important results, namely that groups of orderIt has been suggested to me that I should take advantage of the present occasion to give an account of the recent progress of the theory of groups of finite order. ... But ... any attempt on my part to give, on the present occasion, an account of the recent advance in the theory ... would certainly be uninteresting to a considerable number of my audience. It is undoubtedly the fact that the theory of groups of finite order has failed, so far, to arouse the interest of any but a very small number of English mathematicians; and this want of interest in England, as compared with the amount of attention devoted to the subject both on the Continent and in America, appears to me very remarkable. I propose to devote my address to a consideration of the marked difference in the amount of attention devoted to the subject here and elsewhere, and to some attempt to account for this difference.

*p*

^{m}

*q*

^{n}are soluble, appeared in 1904. Special cases of this result had been proved by Sylow (the case

*n*= 0 in 1872), Frobenius (the case

*n*= 1 in 1895) and Jordan (the case

*n*= 2 in 1898). Burnside conjectured that every finite group of odd order is soluble and it is not surprising that he failed to prove this result as it was not proved until 1962 when W Feit and J C Thompson proved the result in a 300 page paper.

Much of group theory today still moves in directions set by Burnside. His famous 'Burnside Problem' on the finiteness of groups when the elements have fixed finite orders is still a major area of group theory research today. In fact a 1994 Fields Medallist E Zelmanov was awarded his medal for work related to the Burnside problem.

If the first edition of

*The Theory of Groups of Finite Order*was important, the second edition published in 1911 which contains a systematic development of the subject including Frobenius's character theory and Burnside's work using these methods, was a classic which is still widely read today. He wrote in the Preface:-

During his life Burnside was to publish around 150 papers of which about 50 were on group theory. In fact in the latter years of his life he turned to probability theory and his first paper on the subject appeared in 1918. He left a complete manuscript of a book on probability which was published asVery considerable advances in the theory of groups of finite order have been made since the appearance of the first edition of this book. In particular the theory of groups of linear substitutions has been the subject of numerous and important investigations by several writers; and the reason given in the original preface for omitting any account of it no longer holds good. in fact it is now true to say that for further advances in the abstract theory one must look largely to the representation of a group as a group of linear substitutions.

*The Theory of Probability*in the year after his death.

On 22 December 1925 Burnside had a slight stroke as he explained in a letter to Baker on 19 January of the following year:-

Burnside did get back to his mathematics, publishingI had a slight stroke on22December and though I have gone on very well I am by no means out of the doctor's hands yet. Among other things he forbids is an interest in mathematics.

*On a group of order*25920

*and the projective transformations of a cubic surface*later that year, but he died in 1927. Before he died he replied to Philip Hall who wrote to him asking for suggestions for the most profitable group theory problems to study. Hall was to prove a very worthy successor to Burnside as the promoter of group theory in England.

**Article by:** *J J O'Connor* and *E F Robertson*

**Click on this link to see a list of the Glossary entries for this page**

**List of References** (8 books/articles)

**Mathematicians born in the same country**

**Additional Material in MacTutor**

- W Burnside -
*Theory of Groups of Finite Order* - Multiple entries in
*The Mathematical Gazetteer of the British Isles*

**Honours awarded to William Burnside**

(Click the link below for those honoured in this way)

1. | Fellow of the Royal Society | 1893 |

2. | LMS De Morgan Medal | 1899 |

3. | Royal Society Royal Medal | 1904 |

4. | LMS President | 1906 - 1908 |

**Cross-references in MacTutor**

- History Topics: The development of group theory
- History Topics: Ledermann's St Andrews interview
- History Topics: A history of the Burnside problem
- History Topics: The abstract group concept
- Chronology: 1890 to 1900
- London Mathematical Society

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