MATH3270B - Ordinary Differential Equations - 2018/19
General Information
Lecturer
-
Chin-Yu Hsiao
- Office: LSB223
- Email:
Teaching Assistant
-
Chen Zhendong
- Office: AB1 614
- Email:
Time and Venue
- Lecture: M16;30~17:15, LHC 103, T16:30~18:15, LHC 103, Th10:30~11:15, ICS L1, F16:30~18:15, LHC103
- Tutorial: M17:30~18:15, LHC 103, Th11:30~12:15, ICS L1
Course Description
In this course, I’ll introduce ordinary differential equations (O.D.E) including the following topics.
1. First order O.D.E., Chapter 2.1, 2.2, 2.6
2. Second order linear O.D.E., Chapter 3.1, 3.2, 3.3, 3.4, 3.5
3. higher order linear O.D.E., Chapter 4.1, 4.2, 4.4
4. System of first order O.D.E., Chapter 7.4, 7.5, 7.6, 7.7, 7.8, 7.9
5. The Laplace transform, Chapter 6
6. The existence and uniqueness theorem for O.D.E.
7. An introduction to partial differential equation (if time is enough).
Assessment:
(1) Homework (10%), we will assign homework every Friday.
(2) Mildeterm exam (40%): June 14, Friday 16:30~18: 15, LHC 103
(3) Final exam (50%): June 28, Friday 16:30~18: 15, LHC 103
Textbooks
- Elementary Differential equations and boundary value problems, by Boyce and DiPrima
Lecture Notes
Tutorial Notes
Assignments
- assignment1
- assignment2
- assignment3
- assignment4
- Exercises on Laplace transform
- Exercise on Picard iteration
Quizzes and Exams
Solutions
- solution 1
- solution 2
- solution 3
- solution 4
- Midterm solution
- solution of Picard's method
- solution of L-transform
Assessment Policy Last updated: June 28, 2019 13:11:35