Title: Applied Real Analysis
Description: Partial differential equations of mathematical physics: the heat, wave, and Laplace equations. Solutions by techniques such as separation of variables using orthogonal functions (e.g., Fourier series, Bessel functions, Legendre polynomials). D'Alembert solution of the wave equation.
Prerequisite: C or higher in the following: MAT 203 or 307 or AMS 261; MAT 303 or AMS 361
Advisory Prerequisite: MAT 200 or MAT 250
Credits: 3
Textbook:
- Boundary Value Problems and Partial Differential Equations by David L. Powers
Undergraduate Bulletin Course Information
Course Webpages:
- Spring 2024 - Lecture 01
- Fall 2023 - Lecture 02
- Fall 2023 - Lecture 01
- Fall 2022 - Lecture 02
- Spring 2022 - Lecture 02
- Fall 2021 - Lecture 02
- Summer I 2021
- Fall 2020 - Lecture 02
- Fall 2020 - Lecture 01
- Summer I 2020
- Spring 2020
- Fall 2019 - Lecture 02
- Fall 2019 - Lecture 01
- Spring 2019
- Fall 2018 - Lecture 02
- Fall 2018 - Lecture 01
- Fall 2017
- Spring 2017
- Fall 2016
- Summer I 2016
- Spring 2016
- Fall 2015
- Spring 2015
- Fall 2014
- Fall 2013
- Fall 2012
- Fall 2009
- Fall 2008
- Fall 2006
- Fall 2005
- Fall 2002
- Fall 2001