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E. T. Whittaker

January 01, 1970

Sir Edmund Taylor Whittaker FRS FRSE (24 October 1873 – 24 March 1956) was a British mathematician, physicist, and historian of science. Whittaker was a leading mathematical scholar of the early 20th-century who contributed widely to applied mathematics and was renowned for his research in mathematical physics and numerical analysis, including the theory of special functions, along with his contributions to astronomy, celestial mechanics, the history of physics, and digital signal processing.

Sir
Edmund Whittaker
FRS FRSE LL.D. Sc.D.
A 1933 portrait of Whittaker by Arthur Trevor Haddon titled Sir Edmund Taylor Whittaker
Born(1873-10-24)24 October 1873
Southport, Lancashire, England
Died24 March 1956(1956-03-24) (aged 82)
George Square, Edinburgh, Scotland
NationalityEnglish
Alma materTrinity College, Cambridge
Known for
SpouseMary Ferguson Macnaghten Boyd
Awards
Scientific career
Fields
Institutions
Academic advisors
Doctoral students
Other notable students

Among the most influential publications in Whittaker's bibliography, he authored several popular reference works in mathematics, physics, and the history of science, including A Course of Modern Analysis (better known as Whittaker and Watson), Analytical Dynamics of Particles and Rigid Bodies, and A History of the Theories of Aether and Electricity. Whittaker is also remembered for his role in the relativity priority dispute, as he credited Henri Poincaré and Hendrik Lorentz with developing special relativity in the second volume of his History, a dispute which has lasted several decades, though scientific consensus has remained with Einstein. Whittaker served as the Royal Astronomer of Ireland early in his career, a position he held from 1906 through 1912, before moving on to the chair of mathematics at the University of Edinburgh for the next three decades and, towards the end of his career, received the Copley Medal and was knighted. The School of Mathematics of the University of Edinburgh holds The Whittaker Colloquium, a yearly lecture, in his honour and the Edinburgh Mathematical Society promotes an outstanding young Scottish mathematician once every four years with the Sir Edmund Whittaker Memorial Prize, also given in his honour.

Life edit

Early life and education edit

Edmund Taylor Whittaker was born in Southport, in Lancashire, the son of Selina Septima (née Taylor) and John Whittaker.[3] He was described as an "extremely delicate child", necessitating his mother to home school him until he was 11 years old, when he was sent off to Manchester Grammar School.[8] Ernest Barker, a classmate of Whittaker's at the Grammar School with whom he shared the office of prefect, later recalled his personality: "He had a gay, lively, bubbling spirit: he was ready for every prank: he survives in my memory as a natural actor; and I think he could also, on occasion, produce a merry poem."[9] While at the school, Whittaker studied on the "classical side", devoting three-fifths of his time to Latin and Greek.[8] Whittaker struggled with the poetry and drama which was required by the upper school, and expressed gratitude for being allowed to leave these studies behind and specialise in mathematics.[8]

In December 1891 Whittaker received an entrance scholarship to Trinity College, Cambridge.[1][8] After completing his education at the Manchester Grammar School he went on to study mathematics and physics there from 1892 to 1895.[10] He entered Trinity College as a minor scholar in October 1892 to study mathematics.[11] Whittaker was the pupil of Andrew Russell Forsyth and George Howard Darwin while at Trinity College and received tutoring throughout his first two years.[12] With an interest more in applied than pure mathematics, Whittaker won the Sheepshanks Astronomical Exhibition in 1894 as an undergraduate.[12] He graduated as Second Wrangler in the Cambridge Tripos examination in 1895.[13] The Senior Wrangler that year was Thomas John I'Anson Bromwich and Whittaker tied John Hilton Grace for second, all three along with three other participants, including Bertram Hopkinson, went on to be elected Fellows of the Royal Society.[1] He also received the Tyson Medal for Mathematics and Astronomy in 1896.[14]

Career edit

Whittaker was a fellow of Trinity College, Cambridge from 1896 to 1906 when took on the role of Royal Astronomer of Ireland. He held this post in Dublin until 1912, when he was appointed chair of mathematics at the University of Edinburgh, a role he went on to hold for just over a third of a century. Throughout his career, he wrote papers on automorphic functions and special functions in pure mathematics as well as on electromagnetism, general relativity, numerical analysis and astronomy in applied mathematics and physics, and was also interested in topics in biography, history, philosophy and theology.[8] He also made several important innovations in Edinburgh that had a large impact on mathematical education and societies there.[15]

Trinity College, Cambridge edit

In 1896, Whittaker was elected as a Fellow of Trinity College, Cambridge, and remained at Cambridge as a teacher until 1906. In 1897, Whittaker was awarded the Smith Prize for his work on the paper "On the connexion of algebraic functions with automorphic functions", published in 1888.[13]

In 1902, Whittaker found a general solution to Laplace's equation, which received popular news coverage as a "remarkable discovery", though the mathematician Horace Lamb noted that it did not offer any new features.[16] He also wrote several celebrated books in his early career, publishing A Course of Modern Analysis in 1902 and following it up with A Treatise on the Analytical Dynamics of Particles and Rigid Bodies just two years later in 1904. In September of that year, Whittaker was forced to sell six silver forks at an auction to pay back taxes which he had previously refused to pay due to the Education Act 1902 requiring citizens to pay taxes to fund local Christian schools, such as the Roman Catholic Church and the Church of England.[17]

Prior to being compelled by a magistrate to repay the tax burden, Whittaker was one of several activists who engaged in passive resistance by refusing to pay the taxes.[17] In 1905, Whittaker was elected as a fellow of the Royal Society in recognition of his achievements.[2]

Trinity College Dublin edit

In 1906, Whittaker was appointed Andrews Professor of Astronomy at Trinity College Dublin, which came with the title Royal Astronomer of Ireland.[2] He succeeded Charles Jasper Joly at the post and was appointed upon recommendation from the astronomer Robert Stawell Ball.[18]

Ball's recommendation, which was published in a collection of his letters in 1915, stated that Whittaker was the only person he knew who could "properly succeed Joly" and that the role would "suit him in every way".[19][18] He then describes Whittaker as "modest" and "charming" and as "a man who has infinite capacity for making things go". Ball said Whittaker was a world leading expert in theoretical astronomy and that, in relation to Whittaker's discovery of a general solution to Laplace's equation, notes that he "has already made one discovery which the greatest mathematician of the last two centuries would be proud to have placed to his credit".[19][18]

The Royal Astronomers acted as directors for the Dunsink Observatory, which used outdated astronomy equipment; it was understood that the primary responsibility of the role was to teach mathematical physics at Trinity College.[2][20] During this time, the relative leisure of his post allowed him to complete the reading required to write his third major book A History of the Theories of Aether and Electricity, from the age of Descartes to the close of the nineteenth century.[21] Also during this time, he wrote the book The Theory of Optical Instruments, published six astronomy papers, and published collected astronomical observations.[18]

University of Edinburgh edit

 
The 1913 Colloquium for the Edinburgh Mathematical Society. Whittaker is featured sitting at the far left end of the front row.

Whittaker became Professor of Mathematics at the University of Edinburgh in January 1912, where he remained for the rest of his career.[2][20] The role was left vacant by the death of his predecessor, George Chrystal in 1911.[20] He was elected as a Fellow of the Royal Society of Edinburgh in 1912, after being nominated by Cargill Gilston Knott, Ralph Allan Sampson, James Gordon MacGregor and Sir William Turner. He served as Secretary to the Society from 1916 to 1922, the Vice President from 1925 to 1928 and 1937 to 1939, and was President of the Society from 1939 to 1944, through the war years.[3] Whittaker began holding "research lectures" in mathematics at the university, typically given twice a week.[22] He was said to be a great lecturer by one of his previous attendees, who stated that his "clear diction, his felicity of language and his enthusiasm could not fail to evoke a response" and that he was very good with illustrations.[23][24]

Freeman Dyson commented on Whittaker's lecture style by saying that students were "warmed, not only by the physical presence of a big crowd packed together, but by the mental vigour and enthusiasm of the old man".[25] Whittaker's efforts helped transform the Edinburgh Mathematical Society from a teachers society to an academic research society and was a major driving force in introducing computational mathematics education to the UK and America.[15]

Shortly after coming to Edinburgh, Whittaker established the Edinburgh Mathematical Laboratory, one of the UK's first mathematical laboratories.[26] The laboratory was the first attempt of a systematic treatment of numerical analysis in Great Britain and friends of Whittaker have said he believes it his most notable contribution to the education of mathematics.[26] Subjects taught at the laboratory included interpolation, the method of least squares, systems of linear equations, determinants, roots of transcendental equations, practical Fourier analysis, definite integrals, and numerical solution of differential equations.[22] The laboratory program was so successful, it resulted in many requests for an extra summer course to allow others to attend who previously were unable, ultimately leading to the establishment of a colloquium through the Edinburgh Mathematical Society. In 1913, Whittaker established the Edinburgh Mathematical Society Colloquium and the first was held over five days in August of that year.[22]

The textbook The calculus of observations was compiled from courses given at the Laboratory over a ten-year period; the book was well received and ultimately went through four editions.[27]

Fellowships and academic positions edit

Outside of the Royal Astronomer of Ireland and his roles in the Royal Society of Edinburgh, Whittaker held several notable academic posts, including president of the Mathematical Association from 1920 through 1921, president of the Mathematical and Physical Section (Section A) of the British Science Association in 1927, and was president of the London Mathematical Society from 1828 through 1829.[28] Whittaker also held the Gunning Victoria Jubilee Prize Lectureship for "his service to mathematics" with the Royal Society of Edinburgh from 1924 through 1928.[29]

He was elected either Honorary Fellow or Foreign Member in a number of academic organisations, including the Accademia dei Lincei in 1922, the Societa Reale di Napoli in 1936, the American Philosophical Society in 1944, the Académie royale de Belgique in 1946, the Faculty of Actuaries in 1918, the Benares Mathematical Society in 1920, the Indian Mathematical Society in 1924, and the Mathematical Association in 1935. In 1956, he was elected as a corresponding member of the Geometry section of the French Academy of Sciences a few days before his death.[4] Whittaker was also awarded honorary doctorates from several universities, including two LLDs from the University of St Andrews in 1926 and the University of California in 1934, an ScD from the Trinity College Dublin in 1906, and two D.Sc.s from the National University of Ireland in 1939 and University of Manchester in 1944.[2]

Later life edit

Whittaker published many works on philosophy and theism in the last years of his career and during his retirement in addition to his work on the second edition of A History of the Theories of Aether and Electricity. He released two books on Christianity and published several books and papers on the philosophy of Arthur Eddington.[30]

Christianity edit

Whittaker was a Christian and became a convert to the Roman Catholic Church in 1930.[18] In relation to that, Pope Pius XI awarded him with the Pro Ecclesia et Pontifice in 1935 and appointed him to the Pontifical Academy of Sciences in 1936.[5] He was a member of the academy from 1936 onward and served as Honorary President of the Newman Society from 1943 to 1945.[4] Whittaker published two book-length works on the topic of Christianity, including The beginning and end of the world and Space and spirit.[31] The first of which was the result of the 1942 Riddell Memorial Lectures at Durham while the second is based on his 1946 Donnellan Lecture at Trinity College Dublin.[32] It has been remarked by physics historian Helge Kragh,[33] that in these books, Whittaker was "the only physical scientist of the first rank" who defended the strong entropic creation argument, which holds that as entropy always increases, the Universe must have started at a point of minimum entropy, which they argue implies the existence of a god.[31] Whittaker published several articles which draw connections between science, philosophy and theism between 1947 and 1952 in the BBC magazine The Listener, one of which Religion and the nature of the universe was republished in American Vogue, making him "a rare, if not unique, example of a man whose published work not only crossed disciplinary boundaries, but was published everywhere from Nature to Vogue."[28]

Retirement edit

Whittaker retired from his position as chair of the mathematics department at the University of Edinburgh in September 1946, a role he held for over 33 years.[34] He was awarded emeritus professor status at the university which he retained until his death.[20] In retirement, Whittaker worked tirelessly the second edition of his A History of the Theories of Aether and Electricity, releasing The Classical Theories just a few years later.[5] He also continued publishing works in philosophy and theism. James Robert McConnell noted that Whittaker's research in the connection between physics and philosophy spanned nearly forty publications written over his last 15 years.[35] During the three years prior to the publication of second volume of his History, Whittaker had already determined that he was going to give priority for the discovery of special relativity to Henri Poincaré and Hendrik Lorentz in the new book.[36] Max Born, a friend of Whittaker's, wrote a letter to Einstein in September 1953 explaining that he had done all he could over the previous three years to convince Whittaker to change his mind about Einstein's role, but Whittaker was resolved in the idea and, according to Born, he "cherished" and "loved to talk" about it.[36] Born told Einstein that Whittaker insists that all the important features were developed by Poincaré while Lorentz "quite plainly had the physical interpretation", which annoyed Born as Whittaker was a "great authority in the English speaking countries" and he was worried that Whittaker's view would influence others.[36]

Death edit

Whittaker died at his home, 48 George Square, Edinburgh, on 24 March 1956.[37] He was buried at Mount Vernon Cemetery in Edinburgh, with "mathematical precision at a depth of 6 ft. 6 inches", according to the cemetery register.[28] His entry in the Biographical Memoirs of Fellows of the Royal Society was written by George Frederick James Temple in November 1956.[2] He received published obituaries from Alexander Aitken,[38] Herbert Dingle,[39] Gerald James Whitrow,[32] and William Hunter McCrea,[40] among others.[41][23] His house was owned by the University of Edinburgh and was demolished in the 1960s to expand the campus and now holds the William Robertson Building.[42]

Personal life edit

In 1901, while at Cambridge, he married Mary Ferguson Macnaghten Boyd, the daughter of a Presbyterian minister and granddaughter of Thomas Jamieson Boyd.[2] They had five children, two daughters and three sons including the mathematician John Macnaghten Whittaker (1905–1984).[5] His elder daughter, Beatrice, married Edward Taylor Copson, who would later become Professor of Mathematics at the University of St Andrews.[43]

George Frederick James Temple noted that Whittaker's home in Edinburgh was "a great centre of social and intellectual activity where liberal hospitality was dispensed to students of all ages",[2] and went on to note that Whittaker had a happy home life and was well loved by his family.[2] Whittaker kept a piano in his home which he did not know how to play, but enjoyed listening to friends play when they would come to visit.[5] Whittaker was also known to take a personal interest in his students and would invite them to social gatherings at his house.[5][23] He also continued to keep track of his Honours students over the years.[5] His home was also the location of many unofficial interviews that would have a large impact on a student's future career.[23] After his death, William Hunter McCrea described Whittaker as having a "quick wit" with an "ever-present sense of humour" and being "the most unselfish of men with a delicate sense of what would give help or pleasure to others".[40] He notes that Whittaker had a "vast number of friends" and that he "never missed an opportunity to do or say something on behalf of any one of them".[40]

Legacy edit

In addition to his textbooks and other works, several of which remain in print, Whittaker is remembered for his research in automorphic functions, numerical analysis, harmonic analysis, and general relativity. He has several theorems and functions named in his honour. In June 1958, two years after his death, an entire issue of the Proceedings of the Edinburgh Mathematical Society was dedicated to his life and works.[44] The volume included an article by Robert Alexander Rankin on Whittaker's work on automorphic functions,[45] an article on Whittaker's work on numerical analysis by Alexander Aitken,[20] his work on Harmonic functions was covered in an article by Temple,[46] John Lighton Synge wrote about his contributions to the theory of relativity,[47] and James Robert McConnell wrote about Whittaker's philosophy.[35] Among others, Whittaker coined the terms cardinal function and Mathieu function.[48] The School of Mathematics of the University of Edinburgh holds the annual Whittaker Colloquium in his honour.[6][49] Funded by a donation from his family in 1958, the Edinburgh Mathematical Society promotes an outstanding young Scottish mathematician once every four years with the Sir Edmund Whittaker Memorial Prize, also given in his honour.[50]

Namesakes and notable research edit

Whittaker is the eponym of the Whittaker function or Whittaker integral, in the theory of confluent hypergeometric functions.[51] This makes him also the eponym of the Whittaker model in the local theory of automorphic representations.[52] He published also on algebraic functions, though they were typically limited to special cases.[20] Whittaker had a lifelong interest in automorphic functions and he published three papers on the topic throughout his career.[53] Among other contributions, he found the general expression for the Bessel functions as integrals involving Legendre functions.[51]

Whittaker also made contributions to the theory of partial differential equations, harmonic functions and other special functions of mathematical physics, including finding a general solution to Laplace's equation that became a standard part of potential theory.[54] Whittaker developed a general solution of the Laplace equation in three dimensions and the solution of the wave equation.[55]

Notable works edit

Main article: Bibliography of E. T. Whittaker

Whittaker wrote three scientific treatises which were highly influential, A Course of Modern Analysis, Analytical Dynamics of Particles and Rigid Bodies, and The Calculus of Observations.[56] In 1956, Gerald James Whitrow stated that two of them not only were required reading for British mathematicians, but were regarded as fundamental components of their personal libraries.[32] Despite the success of these books and his other researchers and their influence in mathematics and physics, the second edition of Whittaker's A History of the Theories of Aether and Electricity has been called his "magnum opus".[5][32][20] In reference to the title's popularity, William Hunter McCrea predicted that future readers would have a hard time acknowledging it was the result of just "a few years at both ends of a career of the highest distinction in other pursuits."[57]

Whittaker also wrote The theory of optical instruments during his time as Royal Astronomer of Ireland as well as several books on philosophy and theism.[56] Whittaker's bibliography in the Biographical Memoirs of Fellows of the Royal Society includes 11 books and monographs, 56 mathematics and physics articles, 35 philosophy and history articles, and 21 biographical articles, excluding popular and semi-popular articles published in magazines such as Scientific American.[48] In the bibliography compiled by McCrea in 1957, there are 13 books and monographs and the same journal articles, also excluding popular articles.[58] Among other topics, Whittaker wrote a total of ten papers on electromagnetism and general relativity.[47]

Whittaker & Watson edit

Main article: A Course of Modern Analysis

Whittaker was the original author of the classic textbook A Course of Modern Analysis, first published in 1902.[59] There were three more editions of the book all in collaboration with George Neville Watson, resulting in the famous colloquial name Whittaker & Watson. The work is subtitled an introduction to the general theory of infinite processes and of analytic functions; with an account of the principal transcendental functions and is a classic textbook in mathematical analysis, remaining in print continuously since its release over a hundred years ago.[43] It covered topics previously unavailable in English, such as complex analysis, mathematical analysis, and the Special functions used in mathematical physics.[56] George Frederick James Temple noted that it was unmatched in these aspects "for many years".[56] The book was an edited set of lecture notes from the Cambridge Tripos courses Whittaker taught and contained results from mathematicians such as Augustin-Louis Cauchy and Karl Weierstrass which were relatively unknown to English speaking countries.[60] A. C. Aitken noted the books have been widely influential in the study of special functions and their associated differential equations as well as in the study of functions of complex variables.[20]

Analytical Dynamics of Particles and Rigid Bodies edit

Main article: Analytical Dynamics of Particles and Rigid Bodies

Whittaker's second major work, A Treatise on the Analytical Dynamics of Particles and Rigid Bodies was first published in 1904, and quickly became a classic textbook in mathematical physics and analytical dynamics, a branch of classical mechanics.[61] It has remained in print for most of its lifetime, over more than a hundred years, and has been said to have "remarkable longevity".[61] The book represented the forefront of development at the time of publication, where many reviewers noted it contained material otherwise non-existent in the English language.[61] The book was a landmark textbook, providing the first systematic treatment in English for the theory of Hamiltonian dynamics, which played a fundamental role in the development of quantum mechanics.[60] A. C. Aitken called the book "epoch making in a very precise sense", noting that just before the development of the theory of relativity, the book provided a detailed summary of classical dynamics and the progress that had been made in Lagrangian mechanics and Hamiltonian mechanics, including work from Henri Poincaré and Tullio Levi-Civita.[20] The book has received many recommendations, including from Victor Lenzen in 1952, nearly 50 years after its initial publication, who said the book was still the "best exposition of the subject on the highest possible level".[62] It was noted in a 2014 article covering the book's development, published in the Archive for History of Exact Sciences, that the book was used for more than just a historical book, where it was pointed out that of the 114 books and papers that cited the book between 2000 and 2012, "only three are of a historical nature".[61] In that same period, the book was said to be "highly recommended to advanced readers" in the 2006 engineering textbook Principles of Engineering Mechanics.[63]

A History of the Theories of Aether and Electricity edit

Main article: A History of the Theories of Aether and Electricity

In 1910, Whittaker wrote A History of the Theories of Aether and Electricity,[64] which gave a detailed account of the aether theories from René Descartes to Hendrik Lorentz and Albert Einstein, including the contributions of Hermann Minkowski. The book was well received and established Whittaker as a respected historian of science.[65] A second, revised and extended edition was later released. The first volume, subtitled the classical theories, was published in 1951[66] and served as a revised and updated edition of the first book. The second volume, published in 1953,[67] extended this work covering the years 1900–1926. Notwithstanding a notorious controversy on Whittaker's views on the history of special relativity, covered in volume two of the second edition, the books are considered authoritative references on the history of classical electromagnetism[68] and are considered classic books in the history of physics.[69] Due to the book's role in the relativity priority dispute, however, the second volume is cited far less than the first volume and first edition, except in connection with the controversy.[70]

Relativity priority dispute edit

Main article: A History of the Theories of Aether and Electricity § Special relativity controversy
Further information: Relativity priority dispute

Whittaker is also remembered for his role in the relativity priority dispute, a historic controversy over credit for the development of special relativity. In a chapter named "The Relativity Theory of Poincaré and Lorentz" in the second volume of the second edition of A History of the Theories of Aether and Electricity, Whittaker credited Henri Poincaré and Hendrik Lorentz for developing the theory; he attributed relatively little importance to Einstein's special relativity paper, saying it "set forth the relativity theory of Poincaré and Lorentz with some amplifications, and which attracted much attention".[71] Max Born, a friend of Whittaker's, wrote to Einstein expressing his concern about the book's publication and wrote a rebuttal in his 1956 book.[36][72] The controversy was also mentioned in one of Whittaker's obituaries by Gerald James Whitrow, who said that he had written Whittaker a letter explaining how the latter's views "did not do justice to the originality of Einstein's philosophy", but remarked that he understood why Whittaker felt the need to correct the popular misconception that Einstein's contribution was unique.[32] Max Born's rebuttal, published in his 1956 book, also argues that while the contributions of Lorentz and Poincaré should not be overlooked, it was the postulates and philosophy of Einstein's theory that "distinguishes Einstein’s work from his predecessors and gives us the right to speak of Einstein’s theory of relativity, in spite of Whittaker’s different opinion".[72] Though the dispute has lasted decades, most scholars have rejected Whittaker's arguments and scientific consensus has continued to hold that special relativity was Einstein's development.[73]

Philosophy edit

Whittaker's views on philosophy was analysed by James Robert McConnell for the Whittaker Memorial Volume of the Proceedings of the Edinburgh Mathematical Society.[35] McConnell noted that Whittaker's research into the connections between physics and philosophy were spread across approximately forty publications.[74] Whittaker's worldview was classified as neo-Cartesianism in the volume, a philosophy described as being "founded on the principle that the search for a universal science should be modelled on the procedure of physicomathematicians."[75] McConnell notes several of Whittaker's original contributions to René Descartes' philosophical system, but goes on to sum up the work by saying that while he admired Whittaker's attempt at the problem, he was not satisfied with the many transitions between mathematics, aesthetics, ethics. He stated that "If the transitions from mathematics to moral values are not firmly established, Whittaker's attempt does not succeed in remedying the defects of Descartes' solution."[76] Whittaker published work in several other areas of philosophy, including research on Eddington's principle, a conjecture by Arthur Eddington that all quantitative propositions in physics can be derived from qualitative assertions.[30] In addition to publishing Eddington's Fundamental Theory, Whittaker wrote two other books pertaining to Eddington's philosophy.[30] Whittaker also wrote at length about the impacts of then-recent discoveries in astronomy on religion and theology,[77] determinism and free will,[78] and natural theology.[79] In the conclusion of his article, McConnell sums up Whittaker's philosophic works as appearing as though it came from "that of the scholarly Christian layman".[79] On metaphysics, he goes on to note that there are few scholars who are competent in both physics and metaphysics and states that future work could benefit and draw inspiration from Whittaker's research in the area.[79]

Awards and honours edit

In 1931, Whittaker received the Sylvester Medal from the Royal Society for "his original contributions to both pure and applied mathematics".[80] He then received the De Morgan Medal from the London Mathematical Society in 1935, an award given once every three years for outstanding contributions to mathematics.[81] He received several honours in his 70s, including being knighted in 1945 by King George VI,[82] and in 1954, receiving the Royal Society's Copley Medal, its highest award, "for his distinguished contributions to both pure and applied mathematics and to theoretical physics".[18][83] In the opening remarks of the 1954 address of President Edgar Adrian to the Royal Society, Adrian announces Whittaker as that years Copley medallist saying he is probably the most well-known British mathematician at the time, due to "his numerous, varied and important contributions" as well as the offices he had held.[84] Noting contributions to nearly all fields of applied mathematics and then-recent contributions to pure mathematics, relativity, electromagnetism, and quantum mechanics, Adrian goes on to say that the "astonishing quantity and quality of his work is probably unparalleled in modern mathematics and it is most appropriate that the Royal Society should confer on Whittaker its most distinguished award."[84]

Whittaker also gave several distinguished lectures, some of which formed the base of books he would later write.[2] He held the Rouse Ball lectureship at Trinity College, Cambridge in 1926, the Bruce-Preller lectureship of the Royal Society of Edinburgh in 1931, and the Selby lectureship at the University of Cardiff in 1933. He also held the Hitchcock professorship at the University of California in 1934, the Riddell lectureship at the University at Durham (Newcastle) in 1942, the Guthrie lectureship of the Royal Physical Society of Edinburgh in 1943, and the Donnellan lectureship at the Trinity College Dublin in 1946.[2] He gave the Tarner Lecture at Trinity College, Cambridge in 1947 and held the Larmor lectureship of the Royal Irish Academy and the Herbert Spencer lectureship at the University of Oxford, both in 1948.[2]

See also edit

 
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References edit

  1. ^ a b c Temple 1956, p. 299
  2. ^ a b c d e f g h i j k l m n Temple 1956, p. 300
  3. ^ a b c Biographical Index of Former Fellows of the Royal Society of Edinburgh 1783–2002 (PDF). The Royal Society of Edinburgh. July 2006. p. 990. ISBN 978-0-902198-84-5.
  4. ^ a b c d e f Temple 1956, p. 301
  5. ^ a b c d e f g h Martin 1958, pp. 6–9
  6. ^ a b c d e f g h i j k E. T. Whittaker at the Mathematics Genealogy Project
  7. ^ a b c d e f g h i j Martin 1958, pp. 2–3
  8. ^ a b c d e Maidment & McCartney 2019, p. 179
  9. ^ Ernest Barker (1953) Age and Youth, p 280, Oxford University Press
  10. ^ "Whittaker, Edmund Taylor (WHTR892ET)". A Cambridge Alumni Database. University of Cambridge.
  11. ^ Maidment & McCartney 2019, p. 180
  12. ^ a b Coutinho 2014, pp. 357–358
  13. ^ a b Maidment & McCartney 2019, p. 181
  14. ^ . University of Leeds. Archived from the original on 27 July 2011.
  15. ^ a b Maidment & McCartney 2019, p. 187
  16. ^ Maidment & McCartney 2019, pp. 183–184
  17. ^ a b Maidment & McCartney 2019, pp. 184–185
  18. ^ a b c d e f Maidment & McCartney 2019, p. 185
  19. ^ a b Ball, Robert S. (7 November 2016). Reminiscences and letters of Sir Robert Ball. 1kg Limited. p. 152. ISBN 978-1-4400-5668-0. OCLC 958101932.
  20. ^ a b c d e f g h i Aitken 1958
  21. ^ Temple 1956, p. 319
  22. ^ a b c Martin 1958, pp. 3–4
  23. ^ a b c d Weatherhead, Kenneth Kilpatrick (1956). "The Late Sir Edmund Taylor Whittaker, M.A., Hon.F.F.A., F.R.S., Sc.D., LL.D." Transactions of the Faculty of Actuaries. 23 (189): 454–456. doi:10.1017/S0071368600006601. ISSN 0071-3686. JSTOR 41218460.
  24. ^ McCrea, W. H. (1952). "Review of History of Theories of the Aether and Electricity. I". The Mathematical Gazette. 36 (316): 138–141. doi:10.2307/3610345. ISSN 0025-5572. JSTOR 3610345.
  25. ^ Dyson, Freeman J. (1954). "Review of A History of the Theories of Aether and Electricity, Vol. II, Edmund Whittaker". Scientific American. 190 (3): 92–94. doi:10.1038/scientificamerican0354-92. ISSN 0036-8733. JSTOR 24944499.
  26. ^ a b Maidment & McCartney 2019, p. 186
  27. ^ Maidment & McCartney 2019, p. 188
  28. ^ a b c Maidment & McCartney 2019, p. 190
  29. ^ "Gunning Victoria Jubilee Prize Lectureship" (PDF). Royal Society of Edinburgh. Retrieved 23 October 2020.
  30. ^ a b c McConnell 1958, pp. 59–60
  31. ^ a b Maidment & McCartney 2019, p. 189
  32. ^ a b c d e Whitrow 1956
  33. ^ Kragh, Helge (2008). Entropic creation: religious contexts of thermodynamics and cosmology (1st ed.). Aldershot, Hampshire, England: Ashgate. p. 215. ISBN 978-0-7546-8256-1. OCLC 646740256.
  34. ^ Aitken, A. C. (August 1946). "Mathematics at Edinburgh: Sir Edmund Whittaker, F.R.S.E". Nature. 158 (4008): 264. Bibcode:1946Natur.158R.264.. doi:10.1038/158264b0. ISSN 0028-0836. S2CID 4083544.
  35. ^ a b c McConnell 1958
  36. ^ a b c d Born, Max; Einstein, Albert (1971). "Letter from Max Born to Albert Einstein 26 September 1953". The Born-Einstein Letters: Correspondence between Albert Einstein and Max and Hedwig Born from 1916–1955, with commentaries by Max Born. Walker. pp. 197–198. ISBN 978-0-333-11267-0. OCLC 243246354.
  37. ^ "Oxford DNB article: Whittaker". mathshistory.st-andrews.ac.uk. Retrieved 23 October 2020.
  38. ^ Aitken 1956
  39. ^ Dingle 1956
  40. ^ a b c McCrea 1957
  41. ^ Martin 1958
  42. ^ "Architecture Notes | Canmore". canmore.org.uk. Retrieved 23 October 2020.
  43. ^ a b . Archived from the original on 15 February 2005. Retrieved 22 February 2010.
  44. ^ "Work of Sir Edmund Whittaker". Nature. 182 (4635): 562. August 1958. Bibcode:1958Natur.182Q.562.. doi:10.1038/182562a0. ISSN 0028-0836. S2CID 29384754.
  45. ^ Rankin 1958
  46. ^ Temple 1958
  47. ^ a b Synge 1958
  48. ^ a b Temple 1956, pp. 321–325
  49. ^ O'Connor, John J.; Robertson, Edmund F. "E. T. Whittaker". MacTutor History of Mathematics Archive. University of St Andrews.
  50. ^ Fulton 1958
  51. ^ a b McCrea 1957, p. 244
  52. ^ Jacquet, Hervé; Shalika, Joseph (1983). "The Whittaker models of induced representations". Pacific Journal of Mathematics. 109 (1): 107–120. doi:10.2140/pjm.1983.109.107. ISSN 0030-8730.
  53. ^ Rankin 1958, p. 25
  54. ^ Temple 1958, p. 11
  55. ^ Maidment & McCartney 2019, p. 183
  56. ^ a b c d Temple 1956, pp. 318
  57. ^ McCrea 1957, p. 251
  58. ^ McCrea 1957, pp. 253–256
  59. ^ Bôcher, Maxime (1904). "Book Review: A Course of Modern Analysis". Bulletin of the American Mathematical Society. 10 (7): 351–355. doi:10.1090/s0002-9904-1904-01123-4.
  60. ^ a b Martin 1958, pp. 1–2
  61. ^ a b c d Coutinho 2014, pp. 356–357
  62. ^ Lenzen, V. F. (September 1952). "A History of the Theories of Aether and Electricity . Edmund Whittaker". Isis. 43 (3): 293–294. doi:10.1086/348142. ISSN 0021-1753.
  63. ^ Beatty, Millard F. (2006). "Introduction to Advanced Dynamics". Principles of Engineering Mechanics. Mathematical Concepts and Methods in Science and Engineering. Vol. 2 Dynamics—The Analysis of Motion. Boston: Springer US. pp. 495–584. doi:10.1007/978-0-387-31255-2_7. ISBN 978-0-387-31255-2. Retrieved 3 October 2020.
  64. ^ Wilson, Edwin Bidwell (1913). "Book Review: A History of the Theories of Aether and Electricity from the Age of Descartes to the Close of the Nineteenth Century". Bulletin of the American Mathematical Society. 19 (8): 423–428. doi:10.1090/s0002-9904-1913-02381-4.
  65. ^ McCrea, W. H.; Whittaker, Edmund (May 1952). "History of Theories of the Aether and Electricity. I". The Mathematical Gazette. 36 (316): 138. doi:10.2307/3610345. JSTOR 3610345.
  66. ^ Lenzen, V. F. (1952). "A History of the Theories of Aether and Electricity. Edmund Whittaker". Isis. 43 (3): 293–294. doi:10.1086/348142. ISSN 0021-1753. p. 294
  67. ^ Whittaker, E. T. (1989) [1953]. A history of the theories of aether & electricity. Vol. 2 (2 ed.). New York: Dover Publications. ISBN 0-486-26126-3. OCLC 20357018.
  68. ^ Jackson, John David (1999). Classical Electrodynamics (3rd ed.). New York: Wiley. p. 1. ISBN 0-471-30932-X. OCLC 38073290. The story of the development of our understanding of electricity and magnetism is, of course, much longer and richer than the mention of a few names from one century would indicate. For a detailed account of the fascinating history, the reader should consult the authoritative volumes by Whittaker
  69. ^ Miller, Arthur I.; Cushing, James T. (4 June 1998). "Albert Einstein's Special Theory of Relativity: Emergence (1905) and Early Interpretation (1905–1911)". American Journal of Physics. 50 (5): 476. doi:10.1119/1.13068. ISSN 0002-9505.
  70. ^ Hunt, Bruce J. (1988). "Review of A History of the Theories of Aether and Electricity". Isis. 79 (3): 515–516. doi:10.1086/354809. ISSN 0021-1753. JSTOR 234708.
  71. ^ Whittaker, E. T. (1953). A History of the Theories of Aether and Electricity: The Modern Theories. Vol. 2 (2nd ed.). Thomas Nelson and Sons. p. 40.
  72. ^ a b Born, Max (1956). Physics in my Generation. Pergamon Press. pp. 194–195. OCLC 427382550.
  73. ^ Torretti, Roberto (1 January 1996). Relativity and Geometry. Courier Corporation. ISBN 978-0-486-69046-9. Whittaker's views on the origin of special relativity have been rejected by the great majority of scholars
  74. ^ McConnell 1958, p. 57
  75. ^ McConnell 1958, p. 58
  76. ^ McConnell 1958, p. 59
  77. ^ McConnell 1958, pp. 62–66
  78. ^ McConnell 1958, pp. 60–62
  79. ^ a b c McConnell 1958, pp. 66–68
  80. ^ Grattan-Guinness, Ivor; King-Hele, Desmond George (1 July 1993). "The Sylvester Medal: origins, and recipients 1901–1949". Notes and Records of the Royal Society of London. 47 (1): 105–108. doi:10.1098/rsnr.1993.0009. S2CID 144823754.
  81. ^ "List of LMS prize winners | London Mathematical Society". www.lms.ac.uk. Retrieved 24 October 2020.
  82. ^ "No. 36866". The London Gazette (1st supplement). 29 December 1944. p. 2.
  83. ^ "Copley Medal | Royal Society". royalsociety.org. Retrieved 11 October 2020.
  84. ^ a b Adrian, E. D. (15 March 1955). "Address of the President Dr E. D. Adrian, O. M., at the Anniversary Meeting, 30 November 1954". Proceedings of the Royal Society of London. Series B, Biological Sciences. 143 (912): 293–301. Bibcode:1955RSPSB.143..293.. doi:10.1098/rspb.1955.0012. S2CID 166174780.

Bibliography edit

 
Front cover of the Whittaker Memorial Volume published in the Proceedings of the Edinburgh Mathematical Society in June 1958. The Proceedings is a delayed open-access journal, where the contents are free to read one year after publication.

Obituaries edit

Whittaker Memorial Volume: Proceedings of the Edinburgh Mathematical Society, June 1958 edit

Further reading edit

  • Watson, G. Alistair (1 November 2009). "The history and development of numerical analysis in Scotland: a personal perspective" (PDF). The Birth of Numerical Analysis. World Scientific. pp. 161–177. doi:10.1142/9789812836267_0010. ISBN 978-981-283-625-0. Retrieved 26 October 2020.
  • Rankin, R. A. (June 1983). "The first hundred years (1883–1983)" (PDF). Proceedings of the Edinburgh Mathematical Society. 26 (2): 135–150. doi:10.1017/S0013091500016849. ISSN 1464-3839.
  • Butzer, P. L.; Ferreira, P. J. S. G.; Higgins, J. R.; Saitoh, S.; Schmeisser, G.; Stens, R. L. (1 April 2011). "Interpolation and Sampling: E.T. Whittaker, K. Ogura and Their Followers". Journal of Fourier Analysis and Applications. 17 (2): 320–354. doi:10.1007/s00041-010-9131-8. ISSN 1531-5851. S2CID 122954185.

External links edit

Academic offices
Preceded by Andrews Professor of Astronomy, Royal Astronomer of Ireland
1906–1912 		Succeeded by
Preceded by Chair of Mathematics, University of Edinburgh
1912–1946 		Succeeded by
Preceded by President of the Mathematical Association
1920–1921 		Succeeded by
Preceded by President of the London Mathematical Society
1928–1929 		Succeeded by
Preceded by President of the Royal Society of Edinburgh
1939–1944 		Succeeded by
Professor Sir William Wright Smith
Awards
Preceded by Gunning Victoria Jubilee Prize
1924–1928 		Succeeded by
Preceded by Sylvester Medal
1931 		Succeeded by
Preceded by De Morgan Medal
1935 		Succeeded by
Preceded by Copley Medal
1954 		Succeeded by

January 01, 1970
whittaker, edmund, taylor, whittaker, frse, october, 1873, march, 1956, british, mathematician, physicist, historian, science, whittaker, leading, mathematical, scholar, early, 20th, century, contributed, widely, applied, mathematics, renowned, research, mathe. Sir Edmund Taylor Whittaker FRS FRSE 24 October 1873 24 March 1956 was a British mathematician physicist and historian of science Whittaker was a leading mathematical scholar of the early 20th century who contributed widely to applied mathematics and was renowned for his research in mathematical physics and numerical analysis including the theory of special functions along with his contributions to astronomy celestial mechanics the history of physics and digital signal processing SirEdmund WhittakerFRS FRSE LL D Sc D A 1933 portrait of Whittaker by Arthur Trevor Haddon titled Sir Edmund Taylor WhittakerBorn 1873 10 24 24 October 1873Southport Lancashire EnglandDied24 March 1956 1956 03 24 aged 82 George Square Edinburgh ScotlandNationalityEnglishAlma materTrinity College CambridgeKnown forReference books see list Whittaker function Whittaker model Whittaker Nyquist Kotelnikov Shannon theorem Whittaker Shannon interpolation formula Sir Edmund Whittaker Memorial Prize RapiditySpouseMary Ferguson Macnaghten BoydAwardsSmith s Prize 1897 1 FRS 1905 2 FRSE 1912 3 Gunning Prize 1929 4 Sylvester Medal 1931 4 De Morgan Medal 1935 4 Pro Ecclesia et Pontifice 1935 5 Copley Medal 1954 4 Scientific careerFieldsMathematics Astronomy Mathematical physics History of scienceInstitutionsUniversity of Edinburgh Trinity College DublinAcademic advisorsAndrew Russell Forsyth 6 George Howard Darwin 6 Doctoral studentsAlexander Aitken 6 G H Hardy 6 7 George C McVittie 6 R S Vaidyanathaswamy 6 G N Watson 6 7 Other notable studentsHarry Bateman 7 Freeman Dyson Arthur Eddington 7 6 Marion Cameron Gray W V D Hodge 6 James Jeans 7 6 John Edensor Littlewood 7 G I Taylor 7 Herbert Turnbull 7 Eamon de Valera 2 7 Arthur Walker 7 Among the most influential publications in Whittaker s bibliography he authored several popular reference works in mathematics physics and the history of science including A Course of Modern Analysis better known as Whittaker and Watson Analytical Dynamics of Particles and Rigid Bodies and A History of the Theories of Aether and Electricity Whittaker is also remembered for his role in the relativity priority dispute as he credited Henri Poincare and Hendrik Lorentz with developing special relativity in the second volume of his History a dispute which has lasted several decades though scientific consensus has remained with Einstein Whittaker served as the Royal Astronomer of Ireland early in his career a position he held from 1906 through 1912 before moving on to the chair of mathematics at the University of Edinburgh for the next three decades and towards the end of his career received the Copley Medal and was knighted The School of Mathematics of the University of Edinburgh holds The Whittaker Colloquium a yearly lecture in his honour and the Edinburgh Mathematical Society promotes an outstanding young Scottish mathematician once every four years with the Sir Edmund Whittaker Memorial Prize also given in his honour Contents 1 Life 1 1 Early life and education 1 2 Career 1 2 1 Trinity College Cambridge 1 2 2 Trinity College Dublin 1 2 3 University of Edinburgh 1 3 Fellowships and academic positions 1 4 Later life 1 4 1 Christianity 1 4 2 Retirement 1 4 3 Death 1 5 Personal life 2 Legacy 2 1 Namesakes and notable research 2 2 Notable works 2 2 1 Whittaker amp Watson 2 2 2 Analytical Dynamics of Particles and Rigid Bodies 2 2 3 A History of the Theories of Aether and Electricity 2 3 Relativity priority dispute 3 Philosophy 4 Awards and honours 5 See also 6 References 7 Bibliography 7 1 Obituaries 7 2 Whittaker Memorial Volume Proceedings of the Edinburgh Mathematical Society June 1958 8 Further reading 9 External linksLife editEarly life and education edit Edmund Taylor Whittaker was born in Southport in Lancashire the son of Selina Septima nee Taylor and John Whittaker 3 He was described as an extremely delicate child necessitating his mother to home school him until he was 11 years old when he was sent off to Manchester Grammar School 8 Ernest Barker a classmate of Whittaker s at the Grammar School with whom he shared the office of prefect later recalled his personality He had a gay lively bubbling spirit he was ready for every prank he survives in my memory as a natural actor and I think he could also on occasion produce a merry poem 9 While at the school Whittaker studied on the classical side devoting three fifths of his time to Latin and Greek 8 Whittaker struggled with the poetry and drama which was required by the upper school and expressed gratitude for being allowed to leave these studies behind and specialise in mathematics 8 In December 1891 Whittaker received an entrance scholarship to Trinity College Cambridge 1 8 After completing his education at the Manchester Grammar School he went on to study mathematics and physics there from 1892 to 1895 10 He entered Trinity College as a minor scholar in October 1892 to study mathematics 11 Whittaker was the pupil of Andrew Russell Forsyth and George Howard Darwin while at Trinity College and received tutoring throughout his first two years 12 With an interest more in applied than pure mathematics Whittaker won the Sheepshanks Astronomical Exhibition in 1894 as an undergraduate 12 He graduated as Second Wrangler in the Cambridge Tripos examination in 1895 13 The Senior Wrangler that year was Thomas John I Anson Bromwich and Whittaker tied John Hilton Grace for second all three along with three other participants including Bertram Hopkinson went on to be elected Fellows of the Royal Society 1 He also received the Tyson Medal for Mathematics and Astronomy in 1896 14 Career edit Whittaker was a fellow of Trinity College Cambridge from 1896 to 1906 when took on the role of Royal Astronomer of Ireland He held this post in Dublin until 1912 when he was appointed chair of mathematics at the University of Edinburgh a role he went on to hold for just over a third of a century Throughout his career he wrote papers on automorphic functions and special functions in pure mathematics as well as on electromagnetism general relativity numerical analysis and astronomy in applied mathematics and physics and was also interested in topics in biography history philosophy and theology 8 He also made several important innovations in Edinburgh that had a large impact on mathematical education and societies there 15 Trinity College Cambridge edit In 1896 Whittaker was elected as a Fellow of Trinity College Cambridge and remained at Cambridge as a teacher until 1906 In 1897 Whittaker was awarded the Smith Prize for his work on the paper On the connexion of algebraic functions with automorphic functions published in 1888 13 In 1902 Whittaker found a general solution to Laplace s equation which received popular news coverage as a remarkable discovery though the mathematician Horace Lamb noted that it did not offer any new features 16 He also wrote several celebrated books in his early career publishing A Course of Modern Analysis in 1902 and following it up with A Treatise on the Analytical Dynamics of Particles and Rigid Bodies just two years later in 1904 In September of that year Whittaker was forced to sell six silver forks at an auction to pay back taxes which he had previously refused to pay due to the Education Act 1902 requiring citizens to pay taxes to fund local Christian schools such as the Roman Catholic Church and the Church of England 17 Prior to being compelled by a magistrate to repay the tax burden Whittaker was one of several activists who engaged in passive resistance by refusing to pay the taxes 17 In 1905 Whittaker was elected as a fellow of the Royal Society in recognition of his achievements 2 Trinity College Dublin edit In 1906 Whittaker was appointed Andrews Professor of Astronomy at Trinity College Dublin which came with the title Royal Astronomer of Ireland 2 He succeeded Charles Jasper Joly at the post and was appointed upon recommendation from the astronomer Robert Stawell Ball 18 Ball s recommendation which was published in a collection of his letters in 1915 stated that Whittaker was the only person he knew who could properly succeed Joly and that the role would suit him in every way 19 18 He then describes Whittaker as modest and charming and as a man who has infinite capacity for making things go Ball said Whittaker was a world leading expert in theoretical astronomy and that in relation to Whittaker s discovery of a general solution to Laplace s equation notes that he has already made one discovery which the greatest mathematician of the last two centuries would be proud to have placed to his credit 19 18 The Royal Astronomers acted as directors for the Dunsink Observatory which used outdated astronomy equipment it was understood that the primary responsibility of the role was to teach mathematical physics at Trinity College 2 20 During this time the relative leisure of his post allowed him to complete the reading required to write his third major book A History of the Theories of Aether and Electricity from the age of Descartes to the close of the nineteenth century 21 Also during this time he wrote the book The Theory of Optical Instruments published six astronomy papers and published collected astronomical observations 18 University of Edinburgh edit nbsp The 1913 Colloquium for the Edinburgh Mathematical Society Whittaker is featured sitting at the far left end of the front row Whittaker became Professor of Mathematics at the University of Edinburgh in January 1912 where he remained for the rest of his career 2 20 The role was left vacant by the death of his predecessor George Chrystal in 1911 20 He was elected as a Fellow of the Royal Society of Edinburgh in 1912 after being nominated by Cargill Gilston Knott Ralph Allan Sampson James Gordon MacGregor and Sir William Turner He served as Secretary to the Society from 1916 to 1922 the Vice President from 1925 to 1928 and 1937 to 1939 and was President of the Society from 1939 to 1944 through the war years 3 Whittaker began holding research lectures in mathematics at the university typically given twice a week 22 He was said to be a great lecturer by one of his previous attendees who stated that his clear diction his felicity of language and his enthusiasm could not fail to evoke a response and that he was very good with illustrations 23 24 Freeman Dyson commented on Whittaker s lecture style by saying that students were warmed not only by the physical presence of a big crowd packed together but by the mental vigour and enthusiasm of the old man 25 Whittaker s efforts helped transform the Edinburgh Mathematical Society from a teachers society to an academic research society and was a major driving force in introducing computational mathematics education to the UK and America 15 Shortly after coming to Edinburgh Whittaker established the Edinburgh Mathematical Laboratory one of the UK s first mathematical laboratories 26 The laboratory was the first attempt of a systematic treatment of numerical analysis in Great Britain and friends of Whittaker have said he believes it his most notable contribution to the education of mathematics 26 Subjects taught at the laboratory included interpolation the method of least squares systems of linear equations determinants roots of transcendental equations practical Fourier analysis definite integrals and numerical solution of differential equations 22 The laboratory program was so successful it resulted in many requests for an extra summer course to allow others to attend who previously were unable ultimately leading to the establishment of a colloquium through the Edinburgh Mathematical Society In 1913 Whittaker established the Edinburgh Mathematical Society Colloquium and the first was held over five days in August of that year 22 The textbook The calculus of observations was compiled from courses given at the Laboratory over a ten year period the book was well received and ultimately went through four editions 27 Fellowships and academic positions edit Outside of the Royal Astronomer of Ireland and his roles in the Royal Society of Edinburgh Whittaker held several notable academic posts including president of the Mathematical Association from 1920 through 1921 president of the Mathematical and Physical Section Section A of the British Science Association in 1927 and was president of the London Mathematical Society from 1828 through 1829 28 Whittaker also held the Gunning Victoria Jubilee Prize Lectureship for his service to mathematics with the Royal Society of Edinburgh from 1924 through 1928 29 He was elected either Honorary Fellow or Foreign Member in a number of academic organisations including the Accademia dei Lincei in 1922 the Societa Reale di Napoli in 1936 the American Philosophical Society in 1944 the Academie royale de Belgique in 1946 the Faculty of Actuaries in 1918 the Benares Mathematical Society in 1920 the Indian Mathematical Society in 1924 and the Mathematical Association in 1935 In 1956 he was elected as a corresponding member of the Geometry section of the French Academy of Sciences a few days before his death 4 Whittaker was also awarded honorary doctorates from several universities including two LLDs from the University of St Andrews in 1926 and the University of California in 1934 an ScD from the Trinity College Dublin in 1906 and two D Sc s from the National University of Ireland in 1939 and University of Manchester in 1944 2 Later life edit Whittaker published many works on philosophy and theism in the last years of his career and during his retirement in addition to his work on the second edition of A History of the Theories of Aether and Electricity He released two books on Christianity and published several books and papers on the philosophy of Arthur Eddington 30 Christianity edit Whittaker was a Christian and became a convert to the Roman Catholic Church in 1930 18 In relation to that Pope Pius XI awarded him with the Pro Ecclesia et Pontifice in 1935 and appointed him to the Pontifical Academy of Sciences in 1936 5 He was a member of the academy from 1936 onward and served as Honorary President of the Newman Society from 1943 to 1945 4 Whittaker published two book length works on the topic of Christianity including The beginning and end of the world and Space and spirit 31 The first of which was the result of the 1942 Riddell Memorial Lectures at Durham while the second is based on his 1946 Donnellan Lecture at Trinity College Dublin 32 It has been remarked by physics historian Helge Kragh 33 that in these books Whittaker was the only physical scientist of the first rank who defended the strong entropic creation argument which holds that as entropy always increases the Universe must have started at a point of minimum entropy which they argue implies the existence of a god 31 Whittaker published several articles which draw connections between science philosophy and theism between 1947 and 1952 in the BBC magazine The Listener one of which Religion and the nature of the universe was republished in American Vogue making him a rare if not unique example of a man whose published work not only crossed disciplinary boundaries but was published everywhere from Nature to Vogue 28 Retirement edit Whittaker retired from his position as chair of the mathematics department at the University of Edinburgh in September 1946 a role he held for over 33 years 34 He was awarded emeritus professor status at the university which he retained until his death 20 In retirement Whittaker worked tirelessly the second edition of his A History of the Theories of Aether and Electricity releasing The Classical Theories just a few years later 5 He also continued publishing works in philosophy and theism James Robert McConnell noted that Whittaker s research in the connection between physics and philosophy spanned nearly forty publications written over his last 15 years 35 During the three years prior to the publication of second volume of his History Whittaker had already determined that he was going to give priority for the discovery of special relativity to Henri Poincare and Hendrik Lorentz in the new book 36 Max Born a friend of Whittaker s wrote a letter to Einstein in September 1953 explaining that he had done all he could over the previous three years to convince Whittaker to change his mind about Einstein s role but Whittaker was resolved in the idea and according to Born he cherished and loved to talk about it 36 Born told Einstein that Whittaker insists that all the important features were developed by Poincare while Lorentz quite plainly had the physical interpretation which annoyed Born as Whittaker was a great authority in the English speaking countries and he was worried that Whittaker s view would influence others 36 Death edit Whittaker died at his home 48 George Square Edinburgh on 24 March 1956 37 He was buried at Mount Vernon Cemetery in Edinburgh with mathematical precision at a depth of 6 ft 6 inches according to the cemetery register 28 His entry in the Biographical Memoirs of Fellows of the Royal Society was written by George Frederick James Temple in November 1956 2 He received published obituaries from Alexander Aitken 38 Herbert Dingle 39 Gerald James Whitrow 32 and William Hunter McCrea 40 among others 41 23 His house was owned by the University of Edinburgh and was demolished in the 1960s to expand the campus and now holds the William Robertson Building 42 Personal life edit In 1901 while at Cambridge he married Mary Ferguson Macnaghten Boyd the daughter of a Presbyterian minister and granddaughter of Thomas Jamieson Boyd 2 They had five children two daughters and three sons including the mathematician John Macnaghten Whittaker 1905 1984 5 His elder daughter Beatrice married Edward Taylor Copson who would later become Professor of Mathematics at the University of St Andrews 43 George Frederick James Temple noted that Whittaker s home in Edinburgh was a great centre of social and intellectual activity where liberal hospitality was dispensed to students of all ages 2 and went on to note that Whittaker had a happy home life and was well loved by his family 2 Whittaker kept a piano in his home which he did not know how to play but enjoyed listening to friends play when they would come to visit 5 Whittaker was also known to take a personal interest in his students and would invite them to social gatherings at his house 5 23 He also continued to keep track of his Honours students over the years 5 His home was also the location of many unofficial interviews that would have a large impact on a student s future career 23 After his death William Hunter McCrea described Whittaker as having a quick wit with an ever present sense of humour and being the most unselfish of men with a delicate sense of what would give help or pleasure to others 40 He notes that Whittaker had a vast number of friends and that he never missed an opportunity to do or say something on behalf of any one of them 40 Legacy editIn addition to his textbooks and other works several of which remain in print Whittaker is remembered for his research in automorphic functions numerical analysis harmonic analysis and general relativity He has several theorems and functions named in his honour In June 1958 two years after his death an entire issue of the Proceedings of the Edinburgh Mathematical Society was dedicated to his life and works 44 The volume included an article by Robert Alexander Rankin on Whittaker s work on automorphic functions 45 an article on Whittaker s work on numerical analysis by Alexander Aitken 20 his work on Harmonic functions was covered in an article by Temple 46 John Lighton Synge wrote about his contributions to the theory of relativity 47 and James Robert McConnell wrote about Whittaker s philosophy 35 Among others Whittaker coined the terms cardinal function and Mathieu function 48 The School of Mathematics of the University of Edinburgh holds the annual Whittaker Colloquium in his honour 6 49 Funded by a donation from his family in 1958 the Edinburgh Mathematical Society promotes an outstanding young Scottish mathematician once every four years with the Sir Edmund Whittaker Memorial Prize also given in his honour 50 Namesakes and notable research edit Whittaker is the eponym of the Whittaker function or Whittaker integral in the theory of confluent hypergeometric functions 51 This makes him also the eponym of the Whittaker model in the local theory of automorphic representations 52 He published also on algebraic functions though they were typically limited to special cases 20 Whittaker had a lifelong interest in automorphic functions and he published three papers on the topic throughout his career 53 Among other contributions he found the general expression for the Bessel functions as integrals involving Legendre functions 51 Whittaker also made contributions to the theory of partial differential equations harmonic functions and other special functions of mathematical physics including finding a general solution to Laplace s equation that became a standard part of potential theory 54 Whittaker developed a general solution of the Laplace equation in three dimensions and the solution of the wave equation 55 Notable works edit Main article Bibliography of E T Whittaker Whittaker wrote three scientific treatises which were highly influential A Course of Modern Analysis Analytical Dynamics of Particles and Rigid Bodies and The Calculus of Observations 56 In 1956 Gerald James Whitrow stated that two of them not only were required reading for British mathematicians but were regarded as fundamental components of their personal libraries 32 Despite the success of these books and his other researchers and their influence in mathematics and physics the second edition of Whittaker s A History of the Theories of Aether and Electricity has been called his magnum opus 5 32 20 In reference to the title s popularity William Hunter McCrea predicted that future readers would have a hard time acknowledging it was the result of just a few years at both ends of a career of the highest distinction in other pursuits 57 Whittaker also wrote The theory of optical instruments during his time as Royal Astronomer of Ireland as well as several books on philosophy and theism 56 Whittaker s bibliography in the Biographical Memoirs of Fellows of the Royal Society includes 11 books and monographs 56 mathematics and physics articles 35 philosophy and history articles and 21 biographical articles excluding popular and semi popular articles published in magazines such as Scientific American 48 In the bibliography compiled by McCrea in 1957 there are 13 books and monographs and the same journal articles also excluding popular articles 58 Among other topics Whittaker wrote a total of ten papers on electromagnetism and general relativity 47 Whittaker amp Watson edit Main article A Course of Modern Analysis Whittaker was the original author of the classic textbook A Course of Modern Analysis first published in 1902 59 There were three more editions of the book all in collaboration with George Neville Watson resulting in the famous colloquial name Whittaker amp Watson The work is subtitled an introduction to the general theory of infinite processes and of analytic functions with an account of the principal transcendental functions and is a classic textbook in mathematical analysis remaining in print continuously since its release over a hundred years ago 43 It covered topics previously unavailable in English such as complex analysis mathematical analysis and the Special functions used in mathematical physics 56 George Frederick James Temple noted that it was unmatched in these aspects for many years 56 The book was an edited set of lecture notes from the Cambridge Tripos courses Whittaker taught and contained results from mathematicians such as Augustin Louis Cauchy and Karl Weierstrass which were relatively unknown to English speaking countries 60 A C Aitken noted the books have been widely influential in the study of special functions and their associated differential equations as well as in the study of functions of complex variables 20 Analytical Dynamics of Particles and Rigid Bodies edit Main article Analytical Dynamics of Particles and Rigid Bodies Whittaker s second major work A Treatise on the Analytical Dynamics of Particles and Rigid Bodies was first published in 1904 and quickly became a classic textbook in mathematical physics and analytical dynamics a branch of classical mechanics 61 It has remained in print for most of its lifetime over more than a hundred years and has been said to have remarkable longevity 61 The book represented the forefront of development at the time of publication where many reviewers noted it contained material otherwise non existent in the English language 61 The book was a landmark textbook providing the first systematic treatment in English for the theory of Hamiltonian dynamics which played a fundamental role in the development of quantum mechanics 60 A C Aitken called the book epoch making in a very precise sense noting that just before the development of the theory of relativity the book provided a detailed summary of classical dynamics and the progress that had been made in Lagrangian mechanics and Hamiltonian mechanics including work from Henri Poincare and Tullio Levi Civita 20 The book has received many recommendations including from Victor Lenzen in 1952 nearly 50 years after its initial publication who said the book was still the best exposition of the subject on the highest possible level 62 It was noted in a 2014 article covering the book s development published in the Archive for History of Exact Sciences that the book was used for more than just a historical book where it was pointed out that of the 114 books and papers that cited the book between 2000 and 2012 only three are of a historical nature 61 In that same period the book was said to be highly recommended to advanced readers in the 2006 engineering textbook Principles of Engineering Mechanics 63 A History of the Theories of Aether and Electricity edit Main article A History of the Theories of Aether and Electricity In 1910 Whittaker wrote A History of the Theories of Aether and Electricity 64 which gave a detailed account of the aether theories from Rene Descartes to Hendrik Lorentz and Albert Einstein including the contributions of Hermann Minkowski The book was well received and established Whittaker as a respected historian of science 65 A second revised and extended edition was later released The first volume subtitled the classical theories was published in 1951 66 and served as a revised and updated edition of the first book The second volume published in 1953 67 extended this work covering the years 1900 1926 Notwithstanding a notorious controversy on Whittaker s views on the history of special relativity covered in volume two of the second edition the books are considered authoritative references on the history of classical electromagnetism 68 and are considered classic books in the history of physics 69 Due to the book s role in the relativity priority dispute however the second volume is cited far less than the first volume and first edition except in connection with the controversy 70 Relativity priority dispute edit Main article A History of the Theories of Aether and Electricity Special relativity controversy Further information Relativity priority dispute Whittaker is also remembered for his role in the relativity priority dispute a historic controversy over credit for the development of special relativity In a chapter named The Relativity Theory of Poincare and Lorentz in the second volume of the second edition of A History of the Theories of Aether and Electricity Whittaker credited Henri Poincare and Hendrik Lorentz for developing the theory he attributed relatively little importance to Einstein s special relativity paper saying it set forth the relativity theory of Poincare and Lorentz with some amplifications and which attracted much attention 71 Max Born a friend of Whittaker s wrote to Einstein expressing his concern about the book s publication and wrote a rebuttal in his 1956 book 36 72 The controversy was also mentioned in one of Whittaker s obituaries by Gerald James Whitrow who said that he had written Whittaker a letter explaining how the latter s views did not do justice to the originality of Einstein s philosophy but remarked that he understood why Whittaker felt the need to correct the popular misconception that Einstein s contribution was unique 32 Max Born s rebuttal published in his 1956 book also argues that while the contributions of Lorentz and Poincare should not be overlooked it was the postulates and philosophy of Einstein s theory that distinguishes Einstein s work from his predecessors and gives us the right to speak of Einstein s theory of relativity in spite of Whittaker s different opinion 72 Though the dispute has lasted decades most scholars have rejected Whittaker s arguments and scientific consensus has continued to hold that special relativity was Einstein s development 73 Philosophy editWhittaker s views on philosophy was analysed by James Robert McConnell for the Whittaker Memorial Volume of the Proceedings of the Edinburgh Mathematical Society 35 McConnell noted that Whittaker s research into the connections between physics and philosophy were spread across approximately forty publications 74 Whittaker s worldview was classified as neo Cartesianism in the volume a philosophy described as being founded on the principle that the search for a universal science should be modelled on the procedure of physicomathematicians 75 McConnell notes several of Whittaker s original contributions to Rene Descartes philosophical system but goes on to sum up the work by saying that while he admired Whittaker s attempt at the problem he was not satisfied with the many transitions between mathematics aesthetics ethics He stated that If the transitions from mathematics to moral values are not firmly established Whittaker s attempt does not succeed in remedying the defects of Descartes solution 76 Whittaker published work in several other areas of philosophy including research on Eddington s principle a conjecture by Arthur Eddington that all quantitative propositions in physics can be derived from qualitative assertions 30 In addition to publishing Eddington s Fundamental Theory Whittaker wrote two other books pertaining to Eddington s philosophy 30 Whittaker also wrote at length about the impacts of then recent discoveries in astronomy on religion and theology 77 determinism and free will 78 and natural theology 79 In the conclusion of his article McConnell sums up Whittaker s philosophic works as appearing as though it came from that of the scholarly Christian layman 79 On metaphysics he goes on to note that there are few scholars who are competent in both physics and metaphysics and states that future work could benefit and draw inspiration from Whittaker s research in the area 79 Awards and honours editIn 1931 Whittaker received the Sylvester Medal from the Royal Society for his original contributions to both pure and applied mathematics 80 He then received the De Morgan Medal from the London Mathematical Society in 1935 an award given once every three years for outstanding contributions to mathematics 81 He received several honours in his 70s including being knighted in 1945 by King George VI 82 and in 1954 receiving the Royal Society s Copley Medal its highest award for his distinguished contributions to both pure and applied mathematics and to theoretical physics 18 83 In the opening remarks of the 1954 address of President Edgar Adrian to the Royal Society Adrian announces Whittaker as that years Copley medallist saying he is probably the most well known British mathematician at the time due to his numerous varied and important contributions as well as the offices he had held 84 Noting contributions to nearly all fields of applied mathematics and then recent contributions to pure mathematics relativity electromagnetism and quantum mechanics Adrian goes on to say that the astonishing quantity and quality of his work is probably unparalleled in modern mathematics and it is most appropriate that the Royal Society should confer on Whittaker its most distinguished award 84 Whittaker also gave several distinguished lectures some of which formed the base of books he would later write 2 He held the Rouse Ball lectureship at Trinity College Cambridge in 1926 the Bruce Preller lectureship of the Royal Society of Edinburgh in 1931 and the Selby lectureship at the University of Cardiff in 1933 He also held the Hitchcock professorship at the University of California in 1934 the Riddell lectureship at the University at Durham Newcastle in 1942 the Guthrie lectureship of the Royal Physical Society of Edinburgh in 1943 and the Donnellan lectureship at the Trinity College Dublin in 1946 2 He gave the Tarner Lecture at Trinity College Cambridge in 1947 and held the Larmor lectureship of the Royal Irish Academy and the Herbert Spencer lectureship at the University of Oxford both in 1948 2 See also edit nbsp Wikisource has original works by or about E T Whittaker nbsp Wikimedia Commons has media related to E T Whittaker List of fellows of the Royal Society elected in 1905 List of Cambridge mathematicians List of mathematicians born in the 19th century List of theoretical physicistsReferences edit a b c Temple 1956 p 299 a b c d e f g h i j k l m n Temple 1956 p 300 a b c Biographical Index of Former Fellows of the Royal Society of Edinburgh 1783 2002 PDF The Royal Society of Edinburgh July 2006 p 990 ISBN 978 0 902198 84 5 a b c d e f Temple 1956 p 301 a b c d e f g h Martin 1958 pp 6 9 a b c d e f g h i j k E T Whittaker at the Mathematics Genealogy Project a b c d e f g h i j Martin 1958 pp 2 3 a b c d e Maidment amp McCartney 2019 p 179 Ernest Barker 1953 Age and Youth p 280 Oxford University Press Whittaker Edmund Taylor WHTR892ET A Cambridge Alumni Database University of Cambridge Maidment amp McCartney 2019 p 180 a b Coutinho 2014 pp 357 358 a b Maidment amp McCartney 2019 p 181 Mayhew Prize winners list University of Leeds Archived from the original on 27 July 2011 a b Maidment amp McCartney 2019 p 187 Maidment amp McCartney 2019 pp 183 184 a b Maidment amp McCartney 2019 pp 184 185 a b c d e f Maidment amp McCartney 2019 p 185 a b Ball Robert S 7 November 2016 Reminiscences and letters of Sir Robert Ball 1kg Limited p 152 ISBN 978 1 4400 5668 0 OCLC 958101932 a b c d e f g h i Aitken 1958 Temple 1956 p 319 a b c Martin 1958 pp 3 4 a b c d Weatherhead Kenneth Kilpatrick 1956 The Late Sir Edmund Taylor Whittaker M A Hon F F A F R S Sc D LL D Transactions of the Faculty of Actuaries 23 189 454 456 doi 10 1017 S0071368600006601 ISSN 0071 3686 JSTOR 41218460 McCrea W H 1952 Review of History of Theories of the Aether and Electricity I The Mathematical Gazette 36 316 138 141 doi 10 2307 3610345 ISSN 0025 5572 JSTOR 3610345 Dyson Freeman J 1954 Review of A History of the Theories of Aether and Electricity Vol II Edmund Whittaker Scientific American 190 3 92 94 doi 10 1038 scientificamerican0354 92 ISSN 0036 8733 JSTOR 24944499 a b Maidment amp McCartney 2019 p 186 Maidment amp McCartney 2019 p 188 a b c Maidment amp McCartney 2019 p 190 Gunning Victoria Jubilee Prize Lectureship PDF Royal Society of Edinburgh Retrieved 23 October 2020 a b c McConnell 1958 pp 59 60 a b Maidment amp McCartney 2019 p 189 a b c d e Whitrow 1956 Kragh Helge 2008 Entropic creation religious contexts of thermodynamics and cosmology 1st ed Aldershot Hampshire England Ashgate p 215 ISBN 978 0 7546 8256 1 OCLC 646740256 Aitken A C August 1946 Mathematics at Edinburgh Sir Edmund Whittaker F R S E Nature 158 4008 264 Bibcode 1946Natur 158R 264 doi 10 1038 158264b0 ISSN 0028 0836 S2CID 4083544 a b c McConnell 1958 a b c d Born Max Einstein Albert 1971 Letter from Max Born to Albert Einstein 26 September 1953 The Born Einstein Letters Correspondence between Albert Einstein and Max and Hedwig Born from 1916 1955 with commentaries by Max Born Walker pp 197 198 ISBN 978 0 333 11267 0 OCLC 243246354 Oxford DNB article Whittaker mathshistory st andrews ac uk Retrieved 23 October 2020 Aitken 1956 Dingle 1956 a b c McCrea 1957 Martin 1958 Architecture Notes Canmore canmore org uk Retrieved 23 October 2020 a b National News Archived from the original on 15 February 2005 Retrieved 22 February 2010 Work of Sir Edmund Whittaker Nature 182 4635 562 August 1958 Bibcode 1958Natur 182Q 562 doi 10 1038 182562a0 ISSN 0028 0836 S2CID 29384754 Rankin 1958 Temple 1958 a b Synge 1958 a b Temple 1956 pp 321 325 O Connor John J Robertson Edmund F E T Whittaker MacTutor History of Mathematics Archive University of St Andrews Fulton 1958 a b McCrea 1957 p 244 Jacquet Herve Shalika Joseph 1983 The Whittaker models of induced representations Pacific Journal of Mathematics 109 1 107 120 doi 10 2140 pjm 1983 109 107 ISSN 0030 8730 Rankin 1958 p 25 Temple 1958 p 11 Maidment amp McCartney 2019 p 183 a b c d Temple 1956 pp 318 McCrea 1957 p 251 McCrea 1957 pp 253 256 Bocher Maxime 1904 Book Review A Course of Modern Analysis Bulletin of the American Mathematical Society 10 7 351 355 doi 10 1090 s0002 9904 1904 01123 4 a b Martin 1958 pp 1 2 a b c d Coutinho 2014 pp 356 357 Lenzen V F September 1952 A History of the Theories of Aether and Electricity Edmund Whittaker Isis 43 3 293 294 doi 10 1086 348142 ISSN 0021 1753 Beatty Millard F 2006 Introduction to Advanced Dynamics Principles of Engineering Mechanics Mathematical Concepts and Methods in Science and Engineering Vol 2 Dynamics The Analysis of Motion Boston Springer US pp 495 584 doi 10 1007 978 0 387 31255 2 7 ISBN 978 0 387 31255 2 Retrieved 3 October 2020 Wilson Edwin Bidwell 1913 Book Review A History of the Theories of Aether and Electricity from the Age of Descartes to the Close of the Nineteenth Century Bulletin of the American Mathematical Society 19 8 423 428 doi 10 1090 s0002 9904 1913 02381 4 McCrea W H Whittaker Edmund May 1952 History of Theories of the Aether and Electricity I The Mathematical Gazette 36 316 138 doi 10 2307 3610345 JSTOR 3610345 Lenzen V F 1952 A History of the Theories of Aether and Electricity Edmund Whittaker Isis 43 3 293 294 doi 10 1086 348142 ISSN 0021 1753 p 294 Whittaker E T 1989 1953 A history of the theories of aether amp electricity Vol 2 2 ed New York Dover Publications ISBN 0 486 26126 3 OCLC 20357018 Jackson John David 1999 Classical Electrodynamics 3rd ed New York Wiley p 1 ISBN 0 471 30932 X OCLC 38073290 The story of the development of our understanding of electricity and magnetism is of course much longer and richer than the mention of a few names from one century would indicate For a detailed account of the fascinating history the reader should consult the authoritative volumes by Whittaker Miller Arthur I Cushing James T 4 June 1998 Albert Einstein s Special Theory of Relativity Emergence 1905 and Early Interpretation 1905 1911 American Journal of Physics 50 5 476 doi 10 1119 1 13068 ISSN 0002 9505 Hunt Bruce J 1988 Review of A History of the Theories of Aether and Electricity Isis 79 3 515 516 doi 10 1086 354809 ISSN 0021 1753 JSTOR 234708 Whittaker E T 1953 A History of the Theories of Aether and Electricity The Modern Theories Vol 2 2nd ed Thomas Nelson and Sons p 40 a b Born Max 1956 Physics in my Generation Pergamon Press pp 194 195 OCLC 427382550 Torretti Roberto 1 January 1996 Relativity and Geometry Courier Corporation ISBN 978 0 486 69046 9 Whittaker s views on the origin of special relativity have been rejected by the great majority of scholars McConnell 1958 p 57 McConnell 1958 p 58 McConnell 1958 p 59 McConnell 1958 pp 62 66 McConnell 1958 pp 60 62 a b c McConnell 1958 pp 66 68 Grattan Guinness Ivor King Hele Desmond George 1 July 1993 The Sylvester Medal origins and recipients 1901 1949 Notes and Records of the Royal Society of London 47 1 105 108 doi 10 1098 rsnr 1993 0009 S2CID 144823754 List of LMS prize winners London Mathematical Society www lms ac uk Retrieved 24 October 2020 No 36866 The London Gazette 1st supplement 29 December 1944 p 2 Copley Medal Royal Society royalsociety org Retrieved 11 October 2020 a b Adrian E D 15 March 1955 Address of the President Dr E D Adrian O M at the Anniversary Meeting 30 November 1954 Proceedings of the Royal Society of London Series B Biological Sciences 143 912 293 301 Bibcode 1955RSPSB 143 293 doi 10 1098 rspb 1955 0012 S2CID 166174780 Bibliography edit nbsp Front cover of the Whittaker Memorial Volume published in the Proceedings of the Edinburgh Mathematical Society in June 1958 The Proceedings is a delayed open access journal where the contents are free to read one year after publication Maidment Alison McCartney Mark 2 September 2019 A man who has infinite capacity for making things go Sir Edmund Taylor Whittaker 1873 1956 British Journal for the History of Mathematics 34 3 179 193 doi 10 1080 26375451 2019 1619410 ISSN 2637 5451 S2CID 186939363 Coutinho S C 1 May 2014 Whittaker s analytical dynamics a biography Archive for History of Exact Sciences 68 3 355 407 doi 10 1007 s00407 013 0133 1 ISSN 1432 0657 S2CID 122266762 Obituaries edit Aitken A C April 1956 Sir Edmund Whittaker F R S Nature 177 4512 730 731 Bibcode 1956Natur 177 730A doi 10 1038 177730a0 ISSN 0028 0836 S2CID 39973666 Dingle H August 1956 Edmund T Whittaker Mathematician and Historian Science 124 3214 208 209 Bibcode 1956Sci 124 208D doi 10 1126 science 124 3214 208 PMID 17838072 S2CID 786277 McCrea W H April 1957 Edmund Taylor Whittaker Journal of the London Mathematical Society s1 32 2 234 256 doi 10 1112 jlms s1 32 2 234 S2CID 121820396 Temple G F J 1 November 1956 Edmund Taylor Whittaker 1873 1956 Biographical Memoirs of Fellows of the Royal Society 2 299 325 doi 10 1098 rsbm 1956 0021 S2CID 121968984 Whitrow G J 1956 Obituary Professor Sir Edmund Whittaker F R S The British Journal for the Philosophy of Science VII 26 180 181 doi 10 1093 bjps VII 26 180 ISSN 0007 0882 Whittaker Memorial Volume Proceedings of the Edinburgh Mathematical Society June 1958 edit Martin Daniel June 1958 Sir Edmund Whittaker F R S Proceedings of the Edinburgh Mathematical Society 11 1 1 9 doi 10 1017 S0013091500014334 ISSN 0013 0915 Temple G June 1958 Whittaker s Work on the Integral Representation of Harmonic Functions Proceedings of the Edinburgh Mathematical Society 11 1 11 24 doi 10 1017 S0013091500014346 ISSN 1464 3839 Rankin R A June 1958 Sir Edmund Whittaker s Work on Automorphic Functions Proceedings of the Edinburgh Mathematical Society 11 1 25 30 doi 10 1017 S0013091500014358 ISSN 0013 0915 Aitken A C June 1958 The Contributions of E T Whittaker to Algebra and Numerical Analysis Proceedings of the Edinburgh Mathematical Society 11 31 38 doi 10 1017 S001309150001436X Synge J L June 1958 Whittaker s Contributions to the Theory of Relativity Proceedings of the Edinburgh Mathematical Society 11 1 39 55 doi 10 1017 S0013091500014371 ISSN 1464 3839 McConnell James June 1958 Whittaker s Correlation of Physics and Philosophy Proceedings of the Edinburgh Mathematical Society 11 1 57 68 doi 10 1017 S0013091500014383 ISSN 0013 0915 Fulton James June 1958 The Sir Edmund Whittaker Memorial Prize Proceedings of the Edinburgh Mathematical Society 11 1 69 70 doi 10 1017 S0013091500014395 ISSN 1464 3839 Further reading editWatson G Alistair 1 November 2009 The history and development of numerical analysis in Scotland a personal perspective PDF The Birth of Numerical Analysis World Scientific pp 161 177 doi 10 1142 9789812836267 0010 ISBN 978 981 283 625 0 Retrieved 26 October 2020 Rankin R A June 1983 The first hundred years 1883 1983 PDF Proceedings of the Edinburgh Mathematical Society 26 2 135 150 doi 10 1017 S0013091500016849 ISSN 1464 3839 Butzer P L Ferreira P J S G Higgins J R Saitoh S Schmeisser G Stens R L 1 April 2011 Interpolation and Sampling E T Whittaker K Ogura and Their Followers Journal of Fourier Analysis and Applications 17 2 320 354 doi 10 1007 s00041 010 9131 8 ISSN 1531 5851 S2CID 122954185 External links editO Connor John J Robertson Edmund F October 2003 Edmund Taylor Whittaker MacTutor History of Mathematics Archive University of St Andrews Whittaker and the Aether MathPages com Sir Edmund Taylor Whittaker British mathematician Encyclopedia Britannica Retrieved 27 October 2020 Whittaker Edmund Taylor encyclopedia com Retrieved 27 October 2020 Academic offices Preceded byCharles Jasper Joly Andrews Professor of Astronomy Royal Astronomer of Ireland1906 1912 Succeeded byHenry Crozier Keating Plummer Preceded byGeorge Chrystal Chair of Mathematics University of Edinburgh1912 1946 Succeeded byAlexander Aitken Preceded byPercy Nunn President of the Mathematical Association1920 1921 Succeeded byJames Wilson Preceded byG H Hardy President of the London Mathematical Society1928 1929 Succeeded bySydney Chapman Preceded bySir D Arcy Wentworth Thompson President of the Royal Society of Edinburgh1939 1944 Succeeded byProfessor Sir William Wright Smith Awards Preceded bySir Joseph John Thomson Gunning Victoria Jubilee Prize1924 1928 Succeeded bySir James Walker Preceded byWilliam Henry Young Sylvester Medal1931 Succeeded byBertrand Russell Preceded byBertrand Russell De Morgan Medal1935 Succeeded byJohn Edensor Littlewood Preceded byAlbert Kluyver Copley Medal1954 Succeeded byRonald Fisher Retrieved from https en wikipedia org w index php title E T Whittaker amp oldid 1222482830, wikipedia, wiki, book, books, library,

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