Math 565a-- Ordinary Differential Equations

************* This page was last updated on November 11, 2010 **************

Text:

"Ordinary Differential Equations with Applications" by Carmen Chicone

References:

1. "Theory of Ordinary Differential Equations"by Coddington & Levinson

2. "Ordinary Differential Equations" by Philip Hartman

3. "Ordinary Differential Equations" by Jack Hale

4. "Differential Equations and Dynamical Systems" by Lawrence Perko

5. "Basic Theory of Ordinary Differential Equations" by P-F Hsieh and Y. Sibuya

6. "Differential Equations: Geometric Theory" by S. Lefschetz

7. "Qualitative Theory of Differential Equations" by Nemytskii & Stepanov

8. "Introduction to Applied Nonlinear Dynamical Systems and Chaos" by S. Wiggins

9. "Introduction to the Modern Theory of Dynamical Systems" by A. Katok and B. Hasselblatt

10. "Dynamics and Bifurcations" by J. Hale and H. Koçak

11. "Methods of Bifurcation Theory" by Shui-Nee Chow and Jack Hale

12. "Dynamics of Evolutionary Equations" by George R. Sell and Yuncheng You

13. "Elements of Applied Bifurcation Theory" by Yuri Kuznetsov

14. "Nonlinear Differential Equations and Dynamical Systems" by F. Verhulst

15. "Dynamical Systems" by J. Yost

16. "Elementary Stability and Bifurcation Theory" by G. Iooss and D. Joseph

17. "Elements of Differentiable Dynamics and Bifurcation Theory" by D. Ruelle

18. "Geometric Theory of Dynamical Systems" by J. Palis and W. de Melo

19. "Dynamical Systems" by Clark Robinson

20. "Applications of Centre Manifold Theory" by J. Carr

21. "An introduction to Dynamical Systems" by D. K. Arrowsmith and C.M. Place

Course Outline

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