Partial differential equations and finite difference method - 4MMMEDP6

Number of hours
- Lectures 16.5
- Projects -
- Tutorials 16.5
- Internship -
- Laboratory works -
- Written tests -
ECTS
ECTS 3.0

Goal(s)

Numerical solutions of Partial Differential Equations are at the center of computational science. The object of this course is to present the main standard PDEs and to give the principles of the finite difference method. Every chapter contains the continuous problem and several discrete algorithms.
The course is made of lectures, exercise sessions, and practical Python demos.

Responsible(s)

Emmanuelle CREPEAU-JAISSON

Content(s)

Introduction : Mathematical modelling with PDEs.
I - Generalities on PDEs
II - The finite difference method.
Examples. Consistency, stability and convergence.
III - Elliptic equations : Laplace and Poisson equations, maximum principle, mean value property, n-D finite difference schemes
IV - Parabolic equations : Diffusion phenomena.
Analytic solutions, Fourier's method.
Finite difference schemes (forward, backward, splitting, non linear case). Stability analysis.
Multi-D case.
V Hyperbolic equations. Propagation phenomena.
Transport equation, characteristics, domain of dependence,
Finite difference schemes.
Waves equation
Non linear case: Burgers. Characteristics, discontinuous solutions.

Prerequisites

Mathematical analysis (normed spaces, elementary Fourier analysis), linear algebra, basic numerical methods.

Test

Some quicktests during the exercise sessions + an exam at the end of the term.

- MCC en présentiel **
  N1 = 0.3 travail écrit en séance + 0.7 examen écrit
  N2 = examen écrit

- MCC en distanciel **
  N1 = 0.3 travail écrit/TP à la maison + 0.7 devoir à la maison
  N2 = devoir à la maison

The exam is given in english only

Calendar

The course exists in the following branches:

Curriculum - Math. Modelling, Image & Simulation - Semester 7 (this course is given in english only )

see the course schedule for 2023-2024

Additional Information

Course ID : 4MMMEDP6
Course language(s):

The course is attached to the following structures:

Team Analysis-Computational Science

You can find this course among all other courses.

Bibliography

G. Allaire. Analyse numerique et optimisation. Editions de l’Ecole Polytechnique, 2006.
L. Evans. Partial Differential Equations. Graduate Studies in Mathematics, Vol 19, American Math. Society, 1998.
R. Leveque. Finite difference methods for ordinary and partial differential equations. SIAM, 2007.
B. Mohammadi, JH Saiac. Pratique de l’analyse numerique. Dunod, 2003

Update - 24/10/2023

Version française

Voir la version française de cette page

Partial differential equations and finite difference method - 4MMMEDP6

Number of hours

ECTS

Goal(s)

Content(s)

Version française