Mikhail Ostrogradsky

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Mikhail Vasilyevich Ostrogradsky[a] (Russian: Михаи́л Васи́льевич Острогра́дский; 24 September 1801 – 1 January 1862), also known as Mykhailo Vasyliovych Ostrohradskyi (Ukrainian: Миха́йло Васи́льович Острогра́дський), was a Ukrainian[1][2] mathematician, mechanician, and physicist of Ukrainian Cossack ancestry.[3][4][5][6][7][8] Ostrogradsky was a student of Timofei Osipovsky and is considered to be a disciple of Leonhard Euler, who was known as one of the leading mathematicians of Imperial Russia.

Mikhail Ostrogradsky
Mikhail Vasilyevich Ostrogradsky
Born(1801-09-24)24 September 1801
Died1 January 1862(1862-01-01) (aged 60)
CitizenshipRussian Empire
Alma materUniversity of Kharkiv,
University of Paris
Known forOstrogradsky instability,
Divergence theorem
Scientific career
FieldsMathematics

Life

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Ostrogradsky was born on 24 September 1801 in the village of Pashennaya (at the time in the Poltava Governorate, Russian Empire, today in Kremenchuk Raion, Poltava Oblast, Ukraine). From 1816 to 1820, he studied under Timofei Osipovsky (1765–1832) and graduated from the Imperial University of Kharkov. When Osipovsky was suspended on religious grounds in 1820, Ostrogradsky refused to be examined and he never received his Ph.D. degree. From 1822 to 1826, he studied at the Sorbonne and at the Collège de France in Paris, France. In 1828, he returned to the Russian Empire and settled in Saint Petersburg, where he was elected a member of the Academy of Sciences. He also became a professor of the main military engineering school of the Russian Empire.

Ostrogradsky died in Poltava in 1862, aged 60. The Kremenchuk Mykhailo Ostrohradskyi National University in Kremenchuk, Poltava oblast, as well as Ostrogradsky street in Poltava, are named after him.

Work

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A 2 hryvna commemorative coin minted by the National Bank of Ukraine in 2001.
 
Commemorative plaque in Poltava on the last house where Ostrogradsky resided.

He worked mainly in the mathematical fields of calculus of variations, integration of algebraic functions, number theory, algebra, geometry, probability theory and in the fields of applied mathematics, mathematical physics and classical mechanics. In the latter, his key contributions are in the motion of an elastic body and the development of methods for integration of the equations of dynamics and fluid power, following up on the works of Euler, Joseph Louis Lagrange, Siméon Denis Poisson and Augustin Louis Cauchy.

In Russia, his work in these fields was continued by Nikolay Dmitrievich Brashman (1796–1866), August Yulevich Davidov (1823–1885) and especially by Nikolai Yegorovich Zhukovsky (1847–1921).

 
Ostrogradsky's grave in the village of Pashenivka, where he was born.

Ostrogradsky did not appreciate the work on non-Euclidean geometry of Nikolai Lobachevsky from 1823, and he rejected it, when it was submitted for publication in the Saint Petersburg Academy of Sciences.

Ostrogradsky was a teacher of the children of Emperor Nicholas I.[9]

Divergence theorem

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In 1826, Ostrogradsky gave the first general proof of the divergence theorem, which was discovered by Lagrange in 1762.[10] This theorem may be expressed using Ostrogradsky's equation:

 ;

where P, Q, and R are differentiable functions of x, y, and z defined on the compact region V bounded by a smooth closed surface Σ; λ, μ, and ν are the angles that the outward normal to Σ makes with the positive x, y, and z axes respectively; and dΣ is the surface area element on Σ.

Ostrogradsky's integration method

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His method for integrating rational functions[11] is well known. First, we separate the rational part of the integral of a fractional rational function, the sum of the rational part (algebraic fraction) and the transcendental part (with the logarithm and the arctangent). Second, we determine the rational part without integrating it, and we assign a given integral in Ostrogradsky's form:

 

where   are known polynomials of degrees p, s, y respectively;   is a known polynomial of degree not greater than  ; and   are unknown polynomials of degrees not greater than   and   respectively.

Third,   is the greatest common divisor of   and  . Fourth, the denominator of the remaining integral   can be calculated from the equation  .

When we differentiate both sides of the equation above, we get:
 ,

where  .

It can be shown that   is polynomial.

See also

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Notes

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  1. ^ also transcribed as Ostrogradskiy and Ostrogradskiĭ

References

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  1. ^ Kunes, Josef (2012-02-13). Dimensionless Physical Quantities in Science and Engineering. Elsevier. ISBN 978-0-12-391458-3.
  2. ^ Hetnarski, Richard B.; Ignaczak, Józef (2010-10-18). The Mathematical Theory of Elasticity, Second Edition. CRC Press. ISBN 978-1-4398-2888-5.
  3. ^ "Народився Михайло Остроградський, український математик, механік і фізик, розробник методу, правила та формули Остроградського | Національна бібліотека України імені В. І. Вернадського".
  4. ^ O'Connor, John J.; Robertson, Edmund F., "Mikhail Ostrogradsky", MacTutor History of Mathematics Archive, University of St Andrews
  5. ^ Woodard 2015.
  6. ^ Mikhail Vasilyevich Ostrogradsky (Encyclopedia of Russian Academy of Sciences)
  7. ^ Kunes, Josef. Dimensionless Physical Quantities in Science and Engineering. London — Waltham 2012. P. 179.
  8. ^ Hetnarski Richard B., Ignaczak Józef: The Mathematical Theory of Elasticity. USA Taylor and Francis Group, 2011. P. 9.
  9. ^ "Публикация ННР Некоторые черты из жизни Остроградского". books.e-heritage.ru. Retrieved 2023-02-11.
  10. ^ For references, see Divergence theorem#History.
  11. ^ Ostrogradsky 1845a and Ostrogradsky 1845b.
  • Ostrogradsky, M. (1845a), "De l'intégration des fractions rationnelles", Bulletin de la classe physico-mathématique de l'Académie Impériale des Sciences de Saint-Pétersbourg, 4: 145–167.
  • Ostrogradsky, M. (1845b), "De l'intégration des fractions rationnelles (fin)", Bulletin de la classe physico-mathématique de l'Académie Impériale des Sciences de Saint-Pétersbourg, 4: 286–300.
  • Woodard, R.P. (9 August 2015). "The Theorem of Ostrogradsky". arXiv:1506.02210 [hep-th].
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