Giuseppe Vitali

Giuseppe Vitali
Born (1875-08-26)26 August 1875
Ravenna, Italy
Died 29 February 1932(1932-02-29) (aged 56)
Bologna, Italy
Nationality Italian
Fields Mathematics

Giuseppe Vitali (26 August 1875 – 29 February 1932) was an Italian mathematician who worked in several branches of mathematical analysis. He gives his name to several entities in mathematics, most notably the Vitali set with which he was the first to give an example of a non-measurable subset of real numbers.

Biography

Giuseppe Vitali was the eldest of five children. His father, Domenico Vitali, worked for a railway company in Ravenna while his mother, Zenobia Casadio, was able to stay at home and look after her children.

He completed his elementary education in Ravenna in 1886, and then spent three years at the Ginnasio Comunale in Ravenna where his performance in the final examinations of 1889 was average.

He continued his secondary education in Ravenna at the Dante Alighieri High School. There his mathematics teacher was Giuseppe Nonni who quickly realised the young Giuseppe had great potential. He wrote to Giuseppe's father , in a letter dated 28 June 1895 , asking that he allow his son to pursue further studies in mathematics.[1]

He became a student of the Scuola Normale Superiore in Pisa and graduated to the University of Pisa in 1899 . He spent two years as assistant before leaving the academic world. From 1901 to 1922 he taught in secondary schools, first in Sassari , then Voghera and then from 1904 at the Classical High School Christopher Columbus in Genoa. In those years he was involved in politics as a member of the Italian Socialist Party until it was forcibly disbanded by the fascists in 1922. His pursuit of mathematical analysis then led him to almost total social isolation. In 1923 he won a position as professor of calculus at the University of Modena and Reggio Emilia . He also taught at the Universities of Padua (1924 to 1925) and Bologna (from 1930).  He was an invited speaker at the International Congress of Mathematicians held in Bologna in September 1928, giving the lecture  Rapporti inattesi su alcuni rami della matematica (Unexpected relationships of some branches of mathematics).

From 1926 Vitali developed a serious illness and, suffered a paralysed arm, meaning he could no longer write. Despite this about half his research papers were written in the last four years of his life.

On 29th February 1932 he delivered a lecture at the University of Bologna and was walking in conversation with fellow mathematician Ettore Bortolotti when he collapsed and died in the street. He was aged 56. [2]

Vitali published a remarkable volume of mathematics over his career with his most significant output taking place in the first eight years of the twentieth century .

He was honoured with election to the Academy of Sciences of Turin in 1928, to the Accademia Nazionale dei Lincei in 1930, and to the Academy of Bologna in 1931.

Mathematical contributions

Vitali was the first to give an example of a non-measurable subset of real numbers, see Vitali set. His covering theorem is a fundamental result in measure theory. He also proved several theorems concerning convergence of sequences of measurable and holomorphic functions. Vitali convergence theorem generalizes Lebesgue's dominated convergence theorem. Another theorem bearing his name gives a sufficient condition for the uniform convergence of a sequence of holomorphic functions on an open domain. This result has been generalized to normal families of meromorphic functions, holomorphic functions of several complex variables, and so on.

In the last part of his life, he also worked on absolute differential calculus and on the geometry of Hilbert spaces.[3][4]

See also

Bibliography

References

  1. J J O'Connor and E F Robertson (2012). "Giuseppe Vitali". University of St Andrews. Retrieved 23 December 2015.
  2. Geometry and Complex Variables Volume 132 of Lecture Notes in Pure and Applied Mathematics, S. Coen, CRC Press, 1991,Page 392 ISBN 0824784456,
  3. G. Vitali, Una derivazione covariante formata coll’ausilio di n sistemi covarianti del 1 ordine, Atti della Soc. Linguistica di Sc. e Lett. 2 (1924), 248-253.
  4. G. Vitali, Intorno ad una derivazione nel calcolo assoluto, Atti della Soc. Linguistica di Sc. e Lett. 4 (1925), 287-291.

External links


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