Martin Wilhelm Kutta


Quick Info

Born
3 November 1867
Pitschen, Upper Silesia (now Byczyna, Poland)
Died
25 December 1944
Fürstenfeldbruck, Germany

Summary
Wilhelm Kutta was a German engineer who is best known for his work on the numerical solution of differential equations (the Runge-Kutta method).

Biography

Wilhelm Kutta's father was Wilhelm Kutta and his mother was Anna Koschinsky. He had a brother Karl, three years older than he was, who was also very talented and went on to obtain a doctorate. Tragically Kutta's parents died when he was still young and, together with his brother Karl, he went to Breslau to be brought up by an uncle. It was in Breslau that he attended the Gymnasium.

After graduating from the Gymnasium, Kutta studied at the University of Breslau from 1885 to 1890. Then he went to Munich where he studied at the university there from 1891 to 1894. Throughout his studies, mathematics was always his main subject, but he had broad interests, also taking courses in languages, music and art. He kept these interests throughout his life. He did not take the examinations which would qualify him to teach in Bavarian secondary schools, preferring to assist with university teaching.

Kutta was appointed to a post at the Technische Hochschule at Munich as an assistant in mathematics and physics from 1894. He later became an assistant to von Dyck at the Technische Hochschule conducting the exercise classes for von Dyck's course on Higher Mathematics. During this period he spent the year 1898-99 in England at the University of Cambridge. He was awarded his doctorate from the University of Munich for his thesis Beiträge zur näherungsweisen Integration totaler Differentialgleichungen in 1900, his thesis advisors being C L Ferdinand Lindemann and Gustav Bauer. The thesis was published in the following year. It contains the now famous Runge-Kutta method for solving ordinary differential equations.

Sebastian Finsterwalder also taught at the Institute in Munich where Kutta worked and he was interested in aviation. He brought photographs of early aircraft to the Institute and Kutta became fascinated by the mathematics behind aviation, namely aerodynamics. His studies of the topic led him discover important formulas relating to the lift on an aerofoil in terms of the circulation round it. He submitted his habilitation thesis on aerodynamics to the Technische Hochschule at Munich in 1902. He was promoted to extraordinary professor in Applied Mathematics in 1907. Two years later, in 1909, he moved to the University of Jena, then in the following year he was appointed as an ordinary professor at the Technische Hochschule at Aachen. He became an ordinary professor at the Technische Hochschule in Stuttgart in 1911 and remained there until he retired in 1935. At Stuttgart Kutta concentrated his teaching on engineers who benefited greatly from his inspiring presentation.

He is best known for the work contained in his doctoral thesis and that contained in his habilitation thesis. The former contains the Runge-Kutta method for solving ordinary differential equations while the latter contains the Zhukovsky-Kutta (or Joukowski-Kutta) theorem giving the lift on an aerofoil. Zhukovsky made the discoveries independently of Kutta, and published his version four years after Kutta. However, Kutta went on to make further important contributions to aerodynamics. Let us mention, in particular, his two important publications on this topic by the Königlich Bayerischen Akademie der Wissenschaften of Munich (Royal Bavarian Academy of Sciences) in 1910 and 1911, one of which was entitled Über ebene Zirkulationsströmungen nebst flugtechnischen Anwendungen and contains his famous mapping theorem from function theory.

Two further topics which Kutta worked on were research on glaciers and also research in the history of mathematics. His interest in glaciers was, like his interest in aerodynamics, brought about by Sebastian Finsterwalder. Kutta made measurements of glaciers working from photographs taken in the East Alps and also worked with others in constructing maps of the area covered by glaciers. On the other topic, namely the history of mathematics, our first comment is that this was a very natural interest for Kutta to have. He was, after all, deeply interested in history, particularly historical literature, so when at the Technische Hochschule at Munich where there was an active seminar on the history of mathematics, it was clearly an area which would strongly attract him. He wrote a paper on Wallis's 1659 work on integration and the length of an ellipse. Kutta's paper was published in 1901.

Kutta was a remarkable person quite apart from his outstanding contributions to mathematics. F Pfeiffer writes:-
... I had the good fortune in my life to become acquainted with a large number of outstanding mathematicians ..., but I never met a mathematician who had such a deep interest and familiarity with so many different areas of mental activity as Kutta ...
However, Pfeiffer also writes that despite Kutta's wide ranging interests, he was a lonely man.


References (show)

  1. J C Butcher and G Wanner, Runge-Kutta methods : some historical notes, Appl. Numer. Math. 22 (1-3) (1996), 113-151.
  2. 2. W Schulz, Martin Wilhelm Kutta, Neue Deutsche Biographie 13 (Berlin, 1952- ), 348-350.

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Written by J J O'Connor and E F Robertson
Last Update August 2006