Logo

Partial Differential Equations with Maple

Small book cover: Partial Differential Equations with Maple

Partial Differential Equations with Maple
by

Publisher: Tampere University of Technology
Number of pages: 131

Description:
The course presents the basic theory and solution techniques for the partial differential equation problems most commonly encountered in science and engineering. The student is assumed to know something about linear algebra and ordinary differential equations.

Download or read it online for free here:
Download link
(960KB, PDF)

Similar books

Book cover: Introduction to the Numerical Integration of PDEsIntroduction to the Numerical Integration of PDEs
by - University of Durham
In these notes, we describe the design of a small C++ program which solves numerically the sine-Gordon equation. The program is build progressively to make it multipurpose and easy to modify to solve any system of partial differential equations.
(7757 views)
Book cover: Lectures on Cauchy ProblemLectures on Cauchy Problem
by - Tata Institute of Fundamental Research
A Cauchy problem in mathematics asks for the solution of a partial differential equation that satisfies certain conditions which are given on a hypersurface in the domain. Cauchy problems are an extension of initial value problems.
(5058 views)
Book cover: Introduction to the Method of Multiple ScalesIntroduction to the Method of Multiple Scales
by - arXiv
These lecture notes give an introduction to perturbation method with main focus on the method of multiple scales as it applies to pulse propagation in nonlinear optics. Aimed at students that have little or no background in perturbation methods.
(2471 views)
Book cover: Partial Differential Equations of Mathematical PhysicsPartial Differential Equations of Mathematical Physics
by - Rice University
This course aims to make students aware of the physical origins of the main partial differential equations of classical mathematical physics, including the equations of fluid and solid mechanics, thermodynamics, and classical electrodynamics.
(9866 views)