Born: 2 April 1878 in New York City, New York, USA
Died: 7 January 1955 in New York City, New York, USA
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Edward Kasner's parents, Fanny Ritterman and Bernard Kasner, were born in Austria in 1843 and 1841 respectively. They emigrated to the United States in the late 1860s, settling in New York. They had eight children, Edward being the sixth child with older siblings Annie, Marcus, Alexander, Lottie and Adolf. Edward's :-
... affection and loyalty [for his family] over the years formed one of the cornerstones of his character.He was brought up in New York where he attended Public School No 2 in lower Manhattan (close to his home) :-
Finding elementary school arithmetic an insufficient challenge to his ability, the boy Kasner obtained an algebra text and would often occupy himself during the arithmetic lesson by solving simultaneous quadratics on his slate ...He completed this stage of his education in 1891 at the age of thirteen. He received the gold medal from the elementary school for the best overall performance as well as numerous other top awards for excellence. Then, in 1891, he entered the College of the City of New York. This school, founded as the Free Academy of the City of New York in 1847, provided both high school and degree level education. Accepting children of immigrants and of the poor solely on academic merit, it provided free education in its buildings in Lexington Avenue and 23rd Street in New York City. Kasner was awarded a B.S. in 1896 having studied a range of subjects including mathematics, astronomy, logic, physics, and political science. He received awards in all these subjects and was awarded the gold medal in mathematics.
Having completed his first degree, Kasner went to Columbia University for his graduate studies. He was awarded a Master's degree in 1897 and continued to work towards his doctorate advised by Frank Nelson Cole, who had been appointed to a professorship at Columbia in 1895. At this time it was unusual for an American to study for a doctorate in the United States - Germany was the preferred place for Americans to go for graduate studies. Cole, who had studied for several years with Felix Klein in Leipzig, was able to use this experience in advising Kasner who was awarded his Ph.D. in 1899 for his thesis The Invariant Theory of the Inversion Group: Geometry upon a Quadric Surface. He became one of the first people to be awarded a Ph.D. in mathematics by Columbia University. The thesis was published in the Transactions of the American Mathematical Society in 1900.
Although he had been awarded a doctorate without making the usual visit to Germany, Kasner did not totally break with tradition for he spent the year 1899-1900 in Göttingen attending courses by Felix Klein and David Hilbert. He returned to New York after the year abroad and was appointed as a mathematics tutor at Barnard College, which had been affiliated to Columbia University from its founding in 1889. In 1904 he was invited to address the International Congress of Arts and Sciences meeting at St Louis. This Congress was organised as part of the Louisiana Purchase Exposition (St Louis World's Fair) put on to celebrate the 100th anniversary of Louisiana Territory becoming a US State. Kasner gave the lecture Present Problems of Geometry and was delighted to have Henri Poincaré, another of the speakers at the Congress, in the audience. He became an Instructor in Mathematics at Barnard College in 1905, and was promoted to adjunct professor in the following year. He held this post until 1910 when he was appointed as a full professor at Columbia University. In 1937 he was named Robert Adrain Professor of Mathematics at Columbia. He held this Chair until he retired in 1949 when he was named Adrain Professor Emeritus.
Jesse Douglas, Kasner's most famous student, undertook research at Columbia between 1916 and 1920. He summarises Kasner's main research contributions as follows :-
Kasner's principal mathematical contributions were in the field of geometry, chiefly differential geometry. His basic mental outlook and equipment, imaginative, intuitive, concrete, visual, fitted him most naturally for work in this branch of mathematics. He observed that many propositions in mathematical physics, in analysis, in algebra, had an essence that was purely geometrical, and could be stated entirely in terms of spatial relations without reference to other concepts peculiar to the special subject, such as force, mass, time, or number. His program was then to distill this geometric essence, and to analyze it from various points of view, particularly with regard to any interesting problems that might be suggested in this way. A rough subdivision of Kasner's scientific career might be made into four periods according to his dominant interest at the time: Differential-Geometric Aspects of Dynamics (1905-1920), Geometric Aspects of the Einstein Theory of Relativity (1920-1927), Polygenic Functions (1927-1940), Horn Angles (1940-1955).In  Douglas relates an interesting account of Saturday afternoon excursions Kasner organised for his research students:-
We ... would meet Kasner at the Fort Lee ferry and take the ride to the Jersey shore, then the trolley car to the top of the Palisades. On the way to the woods we might stop to buy some cookies; these were to consume with the tea which Kasner brewed in a pot, dug up from its hiding place under a log, where it had been left at the end of the previous excursion. It was amusing that Kasner could direct us unerringly to this cache in spite of the absence of any markers that we could notice. Water was obtained by Kasner from a nearby stream, and heated over a fire built from dead branches and leaves which we had gathered. Around this we would then sit through the afternoon, conversing about our teaching at Columbia, about mathematical research, and about random topics of interest. As the sun faded and darkness began to fall, Kasner would arise at the psychological moment signalled by a halt in the conversation, and carefully extinguish the fire with some water kept in reserve - we then knew it was time to start for home.Kasner is best remembered today for the term 'googol' and for his remarkable book Mathematics and the Imagination (1940) co-authored with James R Newman. We quote Kasner's description of where the term googol came from as given in Mathematics and the Imagination:-
Words of wisdom are spoken by children as least as often by scientists. The name "googol" was invented by a child (Dr Kasner's nine-year-old nephew) who was asked to think up a name for a very big number, namely, 1 with a hundred zeros after it. He was very certain that this number was not infinite, and therefore equally certain that it had to have a name. At the same time that he suggested "googol" he gave a name for a still larger number: "Googolplex." A googolplex is much larger than a googol, but is still finite, as the inventor of the name was quick to point out. It was suggested that a googolplex should be 1, followed by writing zeros until you get tired. This is a description of what would happen if one actually tried to write a googolplex, but different people get tired at different times and it would never do to have Carnera a better mathematician than Dr Einstein, simply because he had more endurance. The googolplex then, is a specific finite number, with so many zeros after the 1 that the number is a googol. A googolplex is much bigger than a googol. You will get some idea of the size of this very large but finite number from the fact that there would not be enough room to write it, if you went to the farthest star, touring all the nebulae and putting down zeros every inch of the way.The web search engine, perhaps the most well-known web page, called Google is simply a misspelling of googol.
In Mathematics and the Imagination the authors aim:-
... to show by its very diversity something of the character of mathematics, of its bold, untrammeled spirit, of how, as both an art and a science, it has continued to lead the creative faculties beyond even imagination and intuition.Herbert Turnbull gives an indication of the contents of the book in his review :-
It is packed with information and deals with all the elementary ingredients of mathematics, number, shape, line, series, pattern, infinity, paradox, chance, change, with copious and entertaining visual aids: and the treatment is refreshing. The book is at once a collection of mathematical puzzles and surprises, a pleasantly written history of mathematical thought, and a real attempt to bring before the interested but unprofessional reader the characteristic findings of mathematicians.I B Cohen, like all the reviewers referenced below, is full of praise for the book and writes:-
... it is the best account of modern mathematics that we have. It is written in a graceful style, combining clarity of exposition with good humourG W Dunnington realised a few months after publication of the book that it was a big hit:-
This volume has already taken its place among the current best sellers. Apparently it has succeeded in communicating to the layman something of the pleasure experienced by the creative mathematician in difficult problem solving.E T Bell writes a year after the book was published:-
This is a highly successful popular presentation of certain ideas of modern mathematics. It departs from the usual trite popularizations of mathematics ... we trust that it will have a long and prosperous career. It is something new, of its own kind, in the popularization of mathematics.Indeed Bell was right and the book continues to be popular more than 70 years after its first publication.
We should note Kasner's talents as a teacher at all levels. He was often invited to talk about mathematics in elementary schools and high schools. He was able to get across deep mathematical ideas with a careful selection of problems which brought out the flavour of mathematical research to children at an early stage in their education. As a university lecturer to undergraduates he excelled, again getting an intuitive understanding across without undue rigour. He often claimed "Rigour is for dull people" but as Douglas points out :-
... he was not in any sense careless in his scientific work or its presentation; he simply believed in such a degree of accuracy as was sufficient for the clear comprehension of the theory or problem at hand. Anything more than this he regarded as affectation, positively harmful in its tendency to block the road to that clear insight into essentials, and view of related problems, which he considered paramount.For his graduate students, who included Joseph Ritt, Jesse Douglas and John De Cicco, Kasner put on his famous Seminar in Differential Geometry :-
I think it may truly be said that nearly every mathematician who arose in the New York area during the first half of this century - whether his main interest was differential geometry or not - attended this seminar at some time during his course of study, and derived from it illumination and inspiration.Kasner received many honours. He was vice-president of the American Association for the Advancement of Science in 1906, and vice-president of the American Mathematical Society in 1906. The greatest honour he received was election to the National Academy of Sciences in 1917. The University of Columbia celebrated its bicentenary in 1954 and, as part of these celebrations, they gave Kasner an honorary doctorate on 31 October during :-
... a most impressive ceremony in the Cathedral of St John the Divine, near the campus.By this time he was already seriously ill, having suffered a stroke in July 1951. Following receiving his honorary degree, his health steadily declined and he died six months later.
Douglas ends his biography of Kasner by pointing out that he:-
... began his mathematical career at the turn of the century, America occupied a minor position in world mathematics. If today this position is patently a leading one, then some significant portion of the credit must be assigned to the work and influence of Edward Kasner.
Article by: J J O'Connor and E F Robertson
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