Gwybodaeth Modiwlau

Module Identifier
MAM4620
Module Title
NONLINEAR DIFFERENTIAL EQUATIONS 2
2009/2010
Co-ordinator
Semester
Intended for use in future years
Pre-Requisite
MA31210

Course Delivery

Delivery Type Delivery length / details
Lecture 20 x 1hour lectures
Seminars / Tutorials 7 x 1hour seminars

Assessment

Assessment Type Assessment length / details Proportion
Semester Exam 2 Hours   (written examination)  100%
Supplementary Assessment 2 Hours   (written examination)  100%

Learning Outcomes

On completion of this module, a student should be able to:
1. describe the properties of limit sets;
2. define a flow and determine the limit sets of orbits in certain circumstances;
3. use the Poincare-Bendixson theorem to study the existence of limit cycles of two-dimensional systems and obtaining information about their location;
4. construct possible global phase-portraits of two-dimensional systems including those with limit cycles;
5. describe the concept of stability and use the technique of Liapunov functions to determine the stability properties of a critical point;
6. construct the phase-portrait of some three-dimensional systems.

Brief description

This module is a sequel to MA31210 and develops the ideas to a more advanced level. The Poincare-Bendixson theory for two-dimensional systems is explained in detail, with emphasis on examples. Stability in the sense of Liapunov is studied and used in the investigation of three-dimensional systems.

Aims

To develop the fundamental ideas of the qualitative theory of differential equations introduced in MA31210. Particular emphasis will be placed on Poincare-Bendixson theory, Liapunov stability and the investigation of examples which arise in applications.

Content

1. Continuous dependence of solutions on initial conditions.
2. Flows on R^{n}: limit sets and their properties.
3. Poincare-Bendixson theory: the use of index arguments, the divergence criterion and the Poincare-Bendixson theorem to construct possible phse-portraits of two-dimensional systems.
4. Stability: Liapunov stability, asymptotic stability, global asymptotic stability; Liapunov functions, Zhubov's theorem; examples in R^{3}.
5. Three-dimensional systems.

Notes

This module is at CQFW Level 7