Rennie graduated with an MA from Cambridge in 1941. Of course, although World War II had not started when he began his undergraduate studies, by 1941 the war had already been taking place for two years. Rennie took a job with Rolls Royce Aero Engine division, then moved to the Austin Motor Works. Szekeres write :-
In 1943 he joined the Fleet Air Arm of the Royal Navy as a radio mechanic, and he served in the Pacific Fleet until the end of the war. This was his first contact with Australia, and he seems to have liked what he saw.After the war ended and Rennie's war service had ended, he returned to Cambridge to undertake research for his doctorate .
It was at Peterhouse that he took up rowing, an activity which became a life-long interest.Given the engineering background from which Rennie had come it is perhaps surprising that his research topic was lattice theory. He was awarded a doctorate in 1949 and parts of his dissertation were published at the paper Lattices in the Proceedings of the London Mathematical Society in 1951. A fuller version of his thesis was published, also in 1951, in the 51 page booklet The theory of lattices which was published at his own expense. The paper was reviewed by Garrett Birkhoff who wrote:-
The author defines a new topology (the "L-topology") in a lattice L, by taking as a basis of open sets, those convex sets S, whose intersection with any chain is an open set of the chain. He shows that if L is conditionally complete, star-convergence implies L-convergence. In a metric lattice, vx is continuous in the L-topology if and only if it is continuous on all chains; in this case ("continuous metric lattice"), metric convergence is equivalent to L-convergence. In the lattice L(H) of closed subsets of a Hausdorff space, the empty set 0 is isolated if and only if H is compact; moreover, if H is locally compact, then L is a Hausdorff space in the L-topology. In any Banach lattice Lp , p > 1, the L-topology is the metric topology; in any Banach lattice B, it is the star topology. Other theorems are proved and 7 unsolved problems stated.In 1950 he was offered a Senior Lectureship by A P Rowe, Vice-Chancellor of the University of Adelaide in South Australia. Rowe was trying to build a world-class university and recruit promising young academics into fairly senior positions to achieve his aims. However, as Szekeres writes in , Rennie accepted the offer for a rather different reason:-
Basil Rennie's motives for moving to Adelaide had little to do with A P Rowe's dreams. What he perceived was a pleasant, somewhat rural, city with the placid Torrens river meandering peacefully through the backs of the University, just the right place to coach the rowing team of Prince Alfred College and to carry out experiments on a theoretically best shape of the hull of a sculling boat. He turned out to be an excellent teacher; his dry humour and total absence of formality or pompousness endeared him to his students (particularly the bright ones), who suddenly saw their classroom transformed into a little corner of Cambridge.Soon after he arrived in Adelaide, Rennie met Barbara Andrews who was a secretary in the Department of Engineering. They were married in 1951 and had two children, Alastair and Christopher.
We should recount how Rennie came to use the name David Cameron for some of his papers. First we should note that Rennie never looked to enhance his reputation - nothing could have been further from the way he looked at life. He was therefore happy to put certain ideas into the public domain without claiming any credit. He submitted a paper under an assumed name which was refereed by David Elliott. Elliott made some substantial suggestions and Rennie wanted to include him as an author of the paper. However Elliott did not feel that he should become a joint author but, as a compromise suggested that the paper be published under the pseudonym David Cameron, thus taking one of his names and one of Rennie's names. This Rennie accepted and continued to publish various articles under this name.
To understand the range of Rennie's interests, let us look at a few papers he published during the period 1959-63. A reviewer writes about On the strength of sand:-
Assuming that an aggregate of identical, small, hard spheres arranged in the closest possible packing behaves in much the same way as a mass of dry sand, a theory is developed which describes the response of the aggregate to applied stresses and specifies conditions under which collapse takes place.In On dominated convergence he proves a converse of Lebesgue's theorem of dominated convergence and gives an application to Fourier series. This paper was published in the Journal of the Australian Mathematical Society, as were On sequences of integrable functions (1962) and On a class of inequalities (1963). In this latter paper he shows that the problem of finding the best possible inequality in a certain class which involving k integrals, is often equivalent to the problem of determining the convex hull of a related set of points in k-dimensional space. Returning somewhat to the algebraic interests of his doctoral thesis, he published Random walks in 1961. In this paper he counts a particular class of random walks on a lattice which do not pass twice through any point. The method involves a highly ingenious algebraic technique.
In 1962 Rennie left the University of Adelaide and accepted a professorship in the Air Force Academy at Point Cook, Victoria. After four years in this post he moved to Townsville when he became the first professor of mathematics at Queensland University College. On 20 April 1970, two hundred years after Captain James Cook charted the eastern seaboard of Australia, Queensland University College became the James Cook University of North Queensland. Rennie held the chair of mathematics at this University until he retired in 1986.
One of Rennie's most important contributions to Australian mathematics was when he set up the James Cook Mathematical Notes. Chris Smyth (University of Edinburgh) was on the staff at James Cook University from 1977 to 1984 and now hosts a web site with copies of all of these Notes (see www.maths.ed.ac.uk/cook/). He writes:-
The James Cook Mathematical Notes were started by Basil Rennie in 1975, when he was Head of the Department of Mathematics at the James Cook University of North Queensland, in Townsville, Australia. He was the editor and publisher, as well as the author of a great many of the articles. ...After Rennie retired in 1984 he moved back to Adelaide from where he continued to produce the journal until his death in 1996. After Rennie died the Notes ceased publication. After he retired, Rennie continued to publish on a wide variety of topics. For example in Keels for boats (1986) he suggests the best design for the keel of a sailing boat is a 'tunnel keel' which allows as much water as possible to pass through. Also in 1986 he published Electrical circuit tomography and The square grid of unit resistors both under the name David Cameron. In these he :-
The JCMN is mainly concerned with mathematical problems, and their solution. The journal was fed by a wide network of correspondents throughout the world. Easily the most famous was Paul Erdős, who came to Townsville to see Basil on many occasions. Problems are posed, and then usually, but not always, solved by correspondents in later issues, often in several different ways. Some of these problems turn out to be old chestnuts, but most are new. There are articles on the mathematics of navigation. There are also some historical notes, usually having some connection to James Cook, the man. And then there is the occasional off-beat quotation.
Many of the articles in JCMN have no author's name attached. These were all written by Basil Rennie. But he also had a hand in many of the articles with other names attached! Sometimes, he would turn a correspondent's letter into an article, and attach their name. This process often entailed making non-trivial mathematical contributions to it!
... he offers a solution to the tomography problem (that is, to find out about the inside of a system through measurements on the outside) for electrical circuits with two-terminal linear components such as resistors.
Article by: J J O'Connor and E F Robertson
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