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Coordinator: Dr Paul Cally
4 points - Two 1-hour lectures per week - First semester - Clayton - Prerequisites: MAT2030, MAT2040 - Prohibitions: GAS3621, MAT3026
Objectives On the completion of this subject, students will be familiar with the essentials for linear systems of ordinary differential equations; and the stability theory for linear systems of ordinary differential equations, with constant or periodic coefficients; will be able to study second-order systems, using phase-plane techniques for autonomous systems, and perturbation methods to construct periodic solutions, both free and forced; will know the elements of bifurcation theory; and will learn how to combine analytical and numerical techniques for studying a dynamical system.
Synopsis Existence and uniqueness of solutions for initial-value problems, linear systems of equations, linear independence of solutions. Second-order autonomous systems, stability, phase-plane techniques and periodic solutions. Forced oscillations, resonance and perturbation methods. Introduction to bifurcation theory.
Assessment Examination (2 hours): 85% - Assignments: 15%
Prescribed texts
Grimshaw R Nonlinear ordinary differential equations Blackwell, 1990
Back to the 1999 Science Handbook
wwwdev@monash.edu.au
Wed Oct 28 14:26:02 EST 1998