Ada Lovelace Day | Emmy Noether, Mathematician
October 14, 2014
· Posted by Greg Lloyd
Ada Lovelace Day celebrates the contributions of women in science and technology, follow @FindingAda for news and events. This year I've chosen to write about mathematician Amalie "Emmy" Noether. At the time of her death in April 1935, she was described by Pavel Alexandrov, Albert Einstein, Herman Weyl, Norbert Weiner and others as the most important woman in the history of mathematics. Noether’s First Theorem is a fundamental tool of modern physics and the calculus of variations: every symmetry corresponds to a conservation law. "It was her work in the theory of invariants which led to formulations for several concepts of Einstein's general theory of relativity." [J J O'Connor and E F Robertson, 1997]. Of her later work, Nathan Jacobson said: "The development of abstract algebra, which is one of the most distinctive innovations of twentieth century mathematics, is largely due to her – in published papers, in lectures, and in personal influence on her contemporaries." Einstein wrote Noether's obituary in the New York Times, May 5, 1935:
"Within the past few days a distinguished mathematician, Professor Emmy Noether, formerly connected with the University of Göttingen and for the past two years at Bryn Mawr College, died in her fifty-third year. In the judgment of the most competent living mathematicians, Fräulein Noether was the most significant creative mathematical genius thus far produced since the higher education of women began. In the realm of algebra, in which the most gifted mathematicians have been busy for centuries, she discovered methods which have proved of enormous importance in the development of the present-day younger generation of mathematicians. Pure mathematics is, in its way, the poetry of logical ideas. One seeks the most general ideas of operation which will bring together in simple, logical and unified form the largest possible circle of formal relationships. In this effort toward logical beauty spiritual formulas are discovered necessary for the deeper penetration into the laws of nature.
Born in a Jewish family distinguished for the love of learning, Emmy Noether, who, in spite of the efforts of the great Göttingen mathematician, Hilbert, never reached the academic standing due her in her own country, none the less surrounded herself with a group of students and investigators at Göttingen, who have already become distinguished as teachers and investigators. Her unselfish, significant work over a period of many years was rewarded by the new rulers of Germany with a dismissal, which cost her the means of maintaining her simple life and the opportunity to carry on her mathematical studies. Farsighted friends of science in this country were fortunately able to make such arrangements at Bryn Mawr College and at Princeton that she found in America up to the day of her death not only colleagues who esteemed her friendship but grateful pupils whose enthusiasm made her last years the happiest and perhaps the most fruitful of her entire career."
Princeton University, May 1, 1935
In The Most Important Mathematician You've Never Heard Of Dr Dave Goldberg summarized Fräulein Noether’s life, her academic struggles - championed by Göttingen mathematicians David Hilbert and Felix Klein - and contributions to the foundations of modern physics.
"Hilbert and Noether skirted the rules by listing Hilbert as a course instructor and then having Noether as the perennial guest lecturer, though this didn't extend to getting Noether any sort of paycheck. It wasn't until 1922 that the Prussian Minister for Science, Art and Public Education gave her any sort of official title or pay at all, and even then only a pittance. As Hilbert described it in his memorial address for Emmy Noether:
When I was called permanently to Göttingen in 1930, I earnestly tried to obtain from the Ministerium a better position for her, because I was ashamed to occupy such a preferred position beside her whom I knew to be my superior as a mathematician in many respects. I did not succeed. . . . Tradition, prejudice, external considerations, weighted the balance against her scientific merits and scientific greatness, by that time denied by no one.
In all events, bringing her to Göttingen turned out to be an incredibly good idea. Almost immediately upon her arrival, Noether derived what's become known as Noether's 1st Theorem and by 1918 had cleaned it up enough for public consumption. And this is where we pick up the physics part of the story."
Fräulein Noether’s name and contributions to mathematics will live forever, despite the obstacles she had to overcome as a mathematical genius of the first rank - who happened to be a woman.
No woman should require the endorsement of mathematical legends like Hilbert, Klein, Einstein, Weyl, and Weiner to pursue and excel in the mathematical, scientific, or other career they love. We need every Fräulein Noether born in whatever place or circumstance, and need to support and encourage all who are inspired by her work and example.
Update See Marie Curie [ and Emmy Noether ] cartoon by xkcd "You don't become great by trying to be great. You become great by wanting to do something, and then doing it so hard that you become great in the process. So don't try to be the next me, Noether, or Meitner. Just remember that if you want to do this stuff, you're not alone." via @ValdisKrebs
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