Ma 650. Fall 2009.

Instructor: Pavel Dubovski

Classes: Mondays 6:15-8:45PM  B 124

Office hours: MW 2-3 K226 or by appointment.

Textbook:

[1] P.DuChateau, D.Zimmermann “Applied Partial Differential Equations”

 

 

Syllabus:

 

1. Review of Ordinary Differential Equations:

-         separable equations

-         linear equations with constant coefficients

-         Green function for boundary value problems of 2d order

-         eigenvalue problems

 

2. 1^st order PDEs: characteristics method (sections 7.1, 7.2)

 

3. Boundary Value problems on spatially bounded domains and Fourier series.

Chapter 3.

 

4. Mathematical models leading to PDEs: vibrating string, heat conduction, diffusion.

Sections 1.1, 1.2, 1.3, 1.4.

 

5. BVP on unbounded domains.

Chapter 5.

 

6. Well posedness.

Chapter 6

 

7. Generalized solutions and scalar conservation laws.

Sections 7.3, 7.4, 7.5, 7.6

 

8. Nonlinear 1^st order equations. Burgers equation, dispersive waves.

 

9. Other mathematical models.

Traffic flow, Black-Scholes model in finance, flood waves, Burgetrs equation and shock waves, Korteweg-de Vries equation, Solitons, Nonlinear Schrodinger equation, Solitary waves.