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Henry John Stephen Smith

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Henry John Stephen Smith
Born(1826-11-02)2 November 1826
Died9 February 1883(1883-02-09) (aged 56)
Alma materBalliol College, Oxford
Known forSmith–Minkowski–Siegel mass formula
Smith normal form
Scientific career
FieldsMathematics
InstitutionsUniversity of Oxford

Henry John Stephen Smith (2 November 1826 – 9 February 1883) was a mathematician remembered for his work in elementary divisors, quadratic forms, and Smith–Minkowski–Siegel mass formula in number theory. In matrix theory he is visible today in having his name on the Smith Normal Form of a matrix.

Life

Education

Smith was born in Dublin, Ireland, the fourth child of John Smith, a barrister, who died when Henry was two. His mother very soon afterwards moved the family to England. He lived in several places in England as a boy, and had private tutors for his education. His mother did not send him to school but educated him herself until age 11, at which point she hired private tutors. At age 15 Smith was admitted in 1841 to Rugby School in Warwickshire, where Thomas Arnold was the school's headmaster. This came about because his tutor Henry Highton took up a housemaster position there.[2][3]

At 19 he won an entrance scholarship to Balliol College, Oxford. He graduated in 1849 with high honours in both mathematics and classics. Smith was fluent in French having spent holidays in France, and he took classes in mathematics at the Sorbonne in Paris during the 1846–7 academic year.

Academic career

Bust on display in the Oxford University Museum.

Smith remained at Balliol College as a mathematics tutor following his graduation in 1849 and was soon promoted to Fellow status. In 1861, he was promoted to the Savilian Chair of Geometry at Oxford. In 1873, he was made the beneficiary of a fellowship at Corpus Christi College, Oxford, and gave up teaching at Balliol.

On account of his ability as a man of affairs, Smith was in demand for academic administrative and committee work: He was Keeper of the Oxford University Museum; a Mathematical Examiner for the University of London; a member of a Royal Commission to review scientific education practice; a member of the commission to reform University of Oxford governance; chairman of the committee of scientists overseeing the Meteorological Office; twice president of the London Mathematical Society; etc.

Work

Researches in number theory

An overview of Smith's mathematics contained in a lengthy obituary published in a professional journal in 1884 is reproduced at NumberTheory.Org.[4] The following is an extract from it.

Smith's two earliest mathematical papers were on geometrical subjects, but the third concerned the theory of numbers. Following the example of Gauss, he wrote his first paper on the theory of numbers in Latin: "De compositione numerorum primorum formæ ex duobus quadratis." In it he proves in an original manner the theorem of Fermat---"That every prime number of the form ( being an integer) is the sum of two square numbers." In his second paper he gives an introduction to the theory of numbers.

In 1858, Smith was selected by the British Association to prepare a report upon the Theory of Numbers. It was prepared in five parts, extending over the years 1859-1865. It is neither a history nor a treatise, but something intermediate. The author analyzes with remarkable clearness and order the works of mathematicians for the preceding century upon the theory of congruences, and upon that of binary quadratic forms. He returns to the original sources, indicates the principle and sketches the course of the demonstrations, and states the result, often adding something of his own.

During the preparation of the Report, and as a logical consequence of the researches connected therewith, Smith published several original contributions to the higher arithmetic. Some were in complete form and appeared in the Philosophical Transactions of the Royal Society of London; others were incomplete, giving only the results without the extended demonstrations, and appeared in the Proceedings of that Society. One of the latter, entitled "On the orders and genera of quadratic forms containing more than three indeterminates," enunciates certain general principles by means of which he solves a problem proposed by Eisenstein, namely, the decomposition of integer numbers into the sum of five squares; and further, the analogous problem for seven squares. It was also indicated that the four, six, and eight-square theorems of Jacobi, Eisenstein and Liouville were deducible from the principles set forth.

In 1868, Smith returned to the geometrical researches which had first occupied his attention. For a memoir on "Certain cubic and biquadratic problems" the Royal Academy of Sciences of Berlin awarded him the Steiner prize.

In February, 1882, Smith was surprised to see in the Comptes rendus that the subject proposed by the Paris Academy of Science for the Grand prix des sciences mathématiques was the theory of the decomposition of integer numbers into a sum of five squares; and that the attention of competitors was directed to the results announced without demonstration by Eisenstein, whereas nothing was said about his papers dealing with the same subject in the Proceedings of the Royal Society. He wrote to M. Hermite calling his attention to what he had published; in reply he was assured that the members of the commission did not know of the existence of his papers, and he was advised to complete his demonstrations and submit the memoir according to the rules of the competition. According to the rules each manuscript bears a motto, and the corresponding envelope containing the name of the successful author is opened. There were still three months before the closing of the concours (1 June 1882) and Smith set to work, prepared the memoir and despatched it in time.

Two months after Smith's death, the Paris Academy made their award. Two of the three memoirs sent in were judged worthy of the prize. When the envelopes were opened, the authors were found to be Smith and Minkowski, a young mathematician of Koenigsberg, Prussia. No notice was taken of Smith's previous publication on the subject, and M. Hermite on being written to, said that he forgot to bring the matter to the notice of the commission.

Work on the Riemann integral

In 1875 Smith published the important paper (Smith 1875) on the integrability of discontinuous functions in Riemann's sense.[5] In this work, while giving a rigorous definition of the Riemann integral as well as explicit rigorous proofs of many of the results published by Riemann,[6] he also gave an example of a meagre set which is not negligible in the sense of measure theory, since its measure is not zero:[7] a function which is everywhere continuous except on this set is not Riemann integrable. Smith's example shows that the proof of sufficient condition for the Riemann integrability of a discontinuous function given earlier by Hermann Hankel was incorrect and the result does not hold:[7] however, his result remained unnoticed until much later, having no influence on successive developments.[8]

Publications

  • Smith, H. J. S. (1875), "On the integration of discontinuous functions", Proceedings of the London Mathematical Society, 6: 140–153, JFM 07.0247.01 {{citation}}: Cite has empty unknown parameter: |month= (help).
  • Smith, Henry John Stephen (1965) [1894], Glaisher, J. W. L. (ed.), The Collected Mathematical Papers of Henry John Stephen Smith, vol. I, II, New York: AMS Chelsea Publishing, ISBN 978-0-8284-0187-6, volume 1volume 2

Notes

  1. ^ GRO Register of Deaths: MAR 1883 3a 511 OXFORD - Henry John S. SMITH, aged 56
  2. ^ Osborne, Peter. "Highton, Henry". Oxford Dictionary of National Biography (online ed.). Oxford University Press. doi:10.1093/ref:odnb/13250. (Subscription or UK public library membership required.)
  3. ^ Glaisher, J. W. L., ed. (1894). "Biographical sketch". The Collected Mathematical Works of Henry John Stephen Smith. Clarendon Press / Archive.org. Retrieved 27 November 2012. {{cite web}}: External link in |work= (help)
  4. ^ "Sixty-fourth Annual General Meeting". Monthly Notices of the Royal Astronomical Society. XLIV: 138–149. February 1884.
  5. ^ See (Letta 1994, p. 154).
  6. ^ The Riemann integral was introduced in Bernhard Riemann's paper "Über die Darstellbarkeit einer Function durch eine trigonometrische Reihe" (On the representability of a function by a trigonometric series), submitted to the University of Göttingen in 1854 as Riemann's Habilitationsschrift (qualification to become an instructor). It was published in 1868 in Abhandlungen der Königlichen Gesellschaft der Wissenschaften zu Göttingen (Proceedings of the Royal Philosophical Society at Göttingen), vol. 13, pages 87–132 (freely available on-line from Google Books here): Riemann's definition of the integral is given in section 4, "Über der Begriff eines bestimmten Integrals und den Umfang seiner Gültigkeit" (On the concept of a definite integral and the extent of its validity), pp. 101–103, and Smith (1875, p. 140) analyzes this paper.
  7. ^ a b See (Letta 1994, p. 156).
  8. ^ See (Letta 1994, p. 157).

References

Further reading