Celestial Encounters: The Origins of Chaos and Stability
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Short Description: Celestial Encounters is for anyone who has ever wondered about the foundations of chaos. In 1888, the 34-year-old Henri Poincaré submitted a paper that was to change the course of... Read more
Celestial Encounters is for anyone who has ever wondered about the foundations of chaos. In 1888, the 34-year-old Henri Poincaré submitted a paper that was to change the course of science, but not before it underwent significant changes itself. "The Three-Body Problem and the Equations of Dynamics" won a prize sponsored by King Oscar II of Sweden and Norway and the journalActa Mathematica, but after accepting the prize, Poincaré found a serious mistake in his work. While correcting it, he discovered the phenomenon of chaos.
Starting with the story of Poincaré's work, Florin Diacu and Philip Holmes trace the history of attempts to solve the problems of celestial mechanics first posed in Isaac Newton'sPrincipia in 1686. In describing how mathematical rigor was brought to bear on one of our oldest fascinations--the motions of the heavens--they introduce the people whose ideas led to the flourishing field now called nonlinear dynamics.
In presenting the modern theory of dynamical systems, the models underlying much of modern science are described pictorially, using the geometrical language invented by Poincaré. More generally, the authors reflect on mathematical creativity and the roles that chance encounters, politics, and circumstance play in it.
- Florin Diacu
- Philip Holmes
- Princeton Science Library
- Princeton University Press
- Publication date
- Mar 8, 1999
- Product dimensions
- 158 x 233 x 14mm
Preface and Acknowledgments A Note to the Reader 1. A Great Discovery - And a Mistake 2. Symbolic Dynamics 3. Collisions and Other Singularities 4. Stability 5. KAM Theory Notes Bibliography Index