2006-10-28 14:07:46 · 6 answers · asked by teachn2do 1 in Science & Mathematics ➔ Mathematics
Fuchs, Immanuel Lazarus
(5 May 1833 - 26 April 1902)
German mathematician whose work on Georg Riemann's method for the solution of differential equations led to a study of the theory of functions that was later crucial to Henri Poincaré in his investigation of function theory.
Fuchs was born in Moschin (now in Poland), and studied at Berlin, where he became professor 1866. After holding posts at Göttingen and Heidelberg, he returned to Berlin 1882.
The first proof for solutions of linear differential equations of order n was developed from his study of functions, as were the Fuchsian differential equations and the Fuchsian theory on solutions for singular points. His work in this field was of great importance to Poincaré's work on automorphic functions. Fuchs also carried out some research into number theory and geometry.
Lazarus Fuchs attended the Friedrich Wilhelm Gymnasium in Berlin where his remarkable abilities at mathematics became very clear to his teachers while he was still young. Mathematics became the subject which, even at this early stage, Fuchs knew was going to dominate the rest of his life.
After leaving the Gymnasium, he studied at the University of Berlin where he attended lectures by a number of famous mathematicians including Kummer and Weierstrass. Most significantly it was Weierstrass who introduced Fuchs to function theory and who went on to supervise his doctorate. The examiners for his doctoral dissertation were Kummer and Martin Ohm (the brother of Georg Simon) and Fuchs was awarded the degree by the University of Berlin 1858.
After obtaining his doctorate, Fuchs was appointed to a teaching post at a Gymnasium. From there he moved on to a mathematics teaching position at Friedrich Werderschen Trade School. During this time he was undertaking research with the aim of becoming a university professor. He began his university teaching career when he was appointed as a Privatdozen at the University of Berlin 1865. He was promoted to extraordinary professor there in 1866 and taught at the University until winter semester 1868-69 when he accepted an appointment at Greifswald. Fuchs also held a second post in Berlin from 1867 when he was appointed as professor of mathematics at the Artillery and Engineering School.
After spending five years in Greifswald he moved again, this time to Göttingen in 1874. Then in the following year he went to Heidelberg and taught there for nine years. In 1884 he returned to Berlin to fill Kummer's chair when his old teacher retired. Fuchs held this post for the rest of his life. He also undertook important editorial duties in the final ten years of his life when he was the editor of Crelle's journal, the Journal für die reine und angewandte Mathematik.
Fuchs worked on differential equations and the theory of functions. In [1] Manheim writes:-
Fuchs was a gifted analyst whose works form a bridge between the fundamental researches od Cauchy, Riemann, Abel, and Gauss and the modern theory of differential equations discovered by Poincaré, Painlevé, and Emile Picard.
In 1865 Fuchs studied nth order linear ordinary differential equations with complex functions as coefficients. This is described by Bölling in [2]:-
Fuchs enriched the theory of linear differential equations with fundamental results. He discussed problems of the following kind: What conditions must be placed on the coefficients of a differential equation so that all solutions have prescribed proberties (e.g. to be regular or algebraic). This led him (1865, 1866) to introduce an important class of linear differential equations (and systems) in the complex domain with analytic coeffivcients, a class which today bears hios name (Fuchaian equations, equations of the Fuchsian class). ... He succeeded in characterising those differential equations the solutions of which have no essential singularity in the extended complex plane. Fuchs later also studied non-linear fifferential equations and moveable singularities.
Fuchs' study (1876 with Hermite) of elliptic integrals as a function of a parameter marks an important step towards the theory of modular functions (Klein, Dedekind). In a series of papers (1880-81) Fuchs studied functions obtained by inverting the integrals of solutions to a second-order linear differential equation in a manner generalising Jacobi's inversion problem.
It was Fuchs' work on this inverse function which led Poincaré to introduce what he called a Fuchsian group, and use this as a fundamental concept in the development of the theory of automorphic functions. Fuchs also investigated how to find the matrix connecting two systems of solutions of differential equations near two different points. A survey of Fuchs work appears in [3] where Gray also describes how this work influenced Klein, Jordan, Poincaré and others. In this interesting paper Gray also discusses the relationships between Fuchs' ideas and his mathematical tools, and illustrates how solutions of some problems led Fuchs to the study of further problems.
In [2] Bölling describes Fuchs' character as follows:-
... Fuchs is a representative of both Berlin's classical and its post-classical era. His personality has been described as indecisive, timid, but at the same time humorous and full of kindness.
Article by: J J O'Connor and E F Robertson
That is all the pertinate stuff that I could gather, email me later and I'll try and find more stuff! ;)
2006-10-28 14:42:28 · answer #1 · answered by Anonymous · 0⤊ 0⤋
Lazarus Immanuel Fuch
2006-10-28 14:10:34 · answer #2 · answered by Sam M 2 · 0⤊ 0⤋
Lazarus Immanuel Fuchs?
Try googling
2006-10-28 14:16:31 · answer #3 · answered by Anonymous · 0⤊ 0⤋
Immanuel Lazarus Fuchs (5 May 1833 - 26 April 1902) was a German mathematician. He was born in Moschin (located in Grand Duchy of Poznań) and died in Berlin, Germany.
He is the eponym of Fuchsian groups and functions, and the Picard-Fuchs equation; Fuchsian differential equations are those with regular singularities.
2006-10-28 14:11:26 · answer #4 · answered by Martha P 7 · 0⤊ 0⤋
because Immanuel became not His call, in Hebrew His genuine call is Yeshua, spelt Jesus contained in the English language. Isaiah became pertaining to what Jesus will be to the rustic. the in basic terms different connection with it really is Matthew the position he became speaking about Jesus being the Savior of the international. yet in basic terms as God is named Jehovah, Jesus is named Yeshua in Hebrew.
2016-12-05 08:12:15 · answer #5 · answered by bainter 4 · 0⤊ 0⤋
His biography is listed here for a starting point.
2006-10-28 14:18:44 · answer #6 · answered by Jan 4 · 0⤊ 0⤋