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Education and careerEdit

Smale was born in Flint, Michigan and entered the University of Michigan in 1948.[3][4] Initially, he was a good student, placing into an honors calculus sequence taught by Bob Thrall and earning himself A's. However, his sophomore and junior years were marred with mediocre grades, mostly Bs, Cs and even an F in nuclear physics. However, with some luck, Smale was accepted as a graduate student at the University of Michigan's mathematics department. Yet again, Smale performed poorly in his first years, earning a C average as a graduate student. It was only when the department chair, Hildebrandt, threatened to kick Smale out that he began to work hard.[5] Smale finally earned his Ph.D. in 1957, under Raoul Bott.

Smale began his career as an instructor at the college at the University of Chicago. In 1958, he astounded the mathematical world with a proof of a sphere eversion. He then cemented his reputation with a proof of the Poincaré conjecture for all dimensions greater than or equal to 5, published in 1961; in 1962 he generalized the ideas in a 107-page paper that established the h-cobordism theorem.

After having made great strides in topology, he then turned to the study of dynamical systems, where he made significant advances as well. His first contribution is the Smale horseshoe that started significant research in dynamical systems. He also outlined a research program carried out by many others. Smale is also known for injecting Morse theory into mathematical economics, as well as recent explorations of various theories of computation.

In 1998 he compiled a list of 18 problems in mathematics to be solved in the 21st century, known as Smale's problems. This list was compiled in the spirit of Hilbert's famous list of problems produced in 1900. In fact, Smale's list contains some of the original Hilbert problems, including the Riemann hypothesis and the second half of Hilbert's sixteenth problem, both of which are still unsolved. Other famous problems on his list include the Poincaré conjecture (now a theorem, proved by Grigori Perelman), the P = NP problem, and the Navier–Stokes equations, all of which have been designated Millennium Prize Problems by the Clay Mathematics Institute.

Earlier in his career, Smale was involved in controversy over remarks he made regarding his work habits while proving the higher-dimensional Poincaré conjecture. He said that his best work had been done "on the beaches of Rio."[6] This led to the withholding of his grant money from the NSF. He has been politically active in various movements in the past, such as the Free Speech movement and the movement against the Vietnam War. At one time he was subpoenaed by the House Un-American Activities Committee.

In 1960 Smale was appointed an associate professor of mathematics at the University of California, Berkeley, moving to a professorship at Columbia University the following year. In 1964 he returned to a professorship at UC Berkeley where he has spent the main part of his career. He retired from UC Berkeley in 1995 and took up a post as professor at the City University of Hong Kong. He also amassed over the years one of the finest private mineral collections in existence. Many of Smale's mineral specimens can be seen in the book—The Smale Collection: Beauty in Natural Crystals.[7]

Since 2002 Smale is a Professor at the Toyota Technological Institute at Chicago; starting August 1, 2009, he is also a Distinguished University Professor at the City University of Hong Kong.[8]

In 2007, Smale was awarded the Wolf Prize in mathematics.[9]

Important publicationsEdit

  • Smale, Stephen (1961). "Generalized Poincaré's conjecture in dimensions greater than four". Annals of Mathematics. 74 (2). pp. 391–406. doi:10.2307/1970239. JSTOR 1970239. MR 0137124.
  • Smale, Stephen (1967). "Differentiable dynamical systems". Bulletin of the American Mathematical Society. 73. pp. 747–817. doi:10.1090/S0002-9904-1967-11798-1. MR 0228014.
  • F. Cucker & R Wong, The Collected Papers of Stephen Smale, ISBN 978-981-02-4307-4.
  • L. Blum, F. Cucker, M. Shub and S.Smale, Complexity and Real Computation, ISBN 0-387-98281-7.
  • with Morris W. Hirsch: Differential Equations, Dynamical Systems, and Linear Algebra, ISBN 978-0123495501
  • with Morris W. Hirsch and Robert L. Devaney: Differential Equations, Dynamical Systems, and an Introduction to Chaos, ISBN 978-0123820105

See alsoEdit


  1. ^ Smale, Steve (1985). "On the Efficiency of Algorithms in Analysis". Bulletin of the American Mathematical Society (N.S.). 13 (2): 87–121. doi:10.1090/S0273-0979-1985-15391-1.
  2. ^ "How Math Got Its 'Nobel'". The New York Times. 8 August 2014. Retrieved 21 October 2016.
  3. ^ William L. Hosch, ed. (2010). The Britannica Guide to Geometry. Britannica Educational Publishing. p. 225. ISBN 9781615302178.
  4. ^ Batterson, Steve (2000). Steven Smale: The Mathematician Who Broke the Dimension Barrier. American Mathematical Soc. p. 11. ISBN 9780821826966.
  5. ^ Video on YouTube
  6. ^ He discovered the famous Smale horseshoe map on a beach in Leme, Rio de Janeiro. See: S. Smale (1996), Chaos: Finding a Horseshoe on the Beaches of Rio.
  7. ^ "Lithographie LTD".
  8. ^ Stephen Smale Vita. Accessed November 18, 2009.
  9. ^ "The Hebrew University of Jerusalem - Division of Marketing & Communication".

External linksEdit