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12.620J / 6.946J / 8.351J Classical Mechanics: A Computational Approach, Fall 2002

Cover of course textbook, Structure and Interpretation of Classical Mechanics.
Cover of course textbook, Structure and Interpretation of Classical Mechanics, by Sussman and Wisdom, MIT Press, 2001. (Courtesy of MIT Press.)

Highlights of this Course

12.620J offers an online version of the textbook for the course, Structure and Interpretation of Classical Mechanics, written by Professors Gerald Jay Sussman and Jack Wisdom. This course also has other course materials online, including downloads and supporting documentation for the Scheme Mechanics System.

Course Description

12.620J covers the fundamental principles of classical mechanics, with a modern emphasis on the qualitative structure of phase space. The course uses computational ideas to formulate the principles of mechanics precisely. Expression in a computational framework encourages clear thinking and active exploration.

The following topics are covered: the Lagrangian formulation, action, variational principles, and equations of motion, Hamilton's principle, conserved quantities, rigid bodies and tops, Hamiltonian formulation and canonical equations, surfaces of section, chaos, canonical transformations and generating functions, Liouville's theorem and Poincaré integral invariants, Poincaré-Birkhoff and KAM theorems, invariant curves and cantori, nonlinear resonances, resonance overlap and transition to chaos, and properties of chaotic motion.

Ideas are illustrated and supported with physical examples. There is extensive use of computing to capture methods, for simulation, and for symbolic analysis.

 

Staff

Instructors:
Prof. Gerald Sussman
Prof. Jack Wisdom

Course Meeting Times

Lectures:
Three sessions / week
1 hour / session

Level

Graduate

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