Math
117: Dynamical Systems
(Winter 2016)
Course Code: 45020
MWF 11:00 – 11:50 // PSCB 240
Final Exam: Friday, March 18, 8:00-10:00am
Instructor: Anton
Gorodetski
Email: asgor@uci.edu
Phone: (949) 824-1381
Office Location: RH 510G
Office Hours: Tuesday 11:00-1:00pm or by appointment
Textbook: A first course in chaotic dynamical systems, by Robert Devaney.
Additional Texts:
- A.Katok, B.Hasselblatt, Introduction to the Modern Theory of Dynamical Systems, any edition.
- M.Brin,
G.Stuck, Introduction to Dynamical Systems,
- L.Barreira, C.Valls, Dynamical Systems: An Introduction, Springer, 2012.
Additional references will be given for a few topics not covered by these books.
In the theory of dynamical systems we study the long-term behavior of evolving systems. The modern theory of dynamical systems originated at the end of the 19th century with fundamental question concerning the stability and evolution of the solar system. Attempts to answer those questions led to the development of a rich and powerful field with applications to physics, biology, meteorology, astronomy, economics, and other areas. The mathematical core of the theory is the study of the global orbit structure of maps and flows with emphasis on properties invariant under coordinate changes.
Homework:
Homework 7 (due Thursday, February 18): Chapter 11, problems 4, 6, 7, 8.
Homework 8 (due Thursday, February 25): Chapter 11, problems 9, 11, 12, 13, 14, 15, 16.
Homewrok 9 (due Thursday, March 3).
Homework 10 (due Thursday, March 10): Chapter 16, problems 4, 8 (only first two questions, on the orbit of 0), 9, 10; Chapter 17, problems 1, 4, 5.
Links
- The Mandelbrot and Julia sets
- Famous dynamical systems in motion
- Chaos at Maryland
- MyPhysicsLab - Physics Simulation
- Ordinary Differential Equations and Dynamical Systems (by Gerald Teschl)
- Geometrical Theory of Dynamical Systems (by Nils Berglund)