MA2003: Complex Analysis
School | Cardiff School of Mathematics |
Department Code | MATHS |
Module Code | MA2003 |
External Subject Code | 100405 |
Number of Credits | 10 |
Level | L5 |
Language of Delivery | English |
Module Leader | Dr Pieter Naaijkens |
Semester | Spring Semester |
Academic Year | 2020/1 |
Outline Description of Module
A lecture based module, providing an exposition of the basic theory and methods of complex analysis which are fundamental in mathematics and many of its applications.
The course shows how the concepts of differentiation and integration of real functions can be extended to complex functions. Complex functions map complex numbers to complex numbers. For a special subset of these functions it is possible to define a derivative. These differentiable complex functions have particularly nice properties. The real integral between two points x1 and x2 on the real axis is generalised to a complex integral along a path between two points z1 and z2 in the complex plane. These integrals are called contour integrals. Theorems of Cauchy show how some contour integrals of differentiable complex functions can be evaluated in a beautiful and simple way using methods known as the residue calculus. The residue calculus can be used to evaluate real integrals.
This course is essential for all mathematics students.
On completion of the module a student should be able to
- determine whether a complex function is differentiable
- perform integration in the complex plane
- evaluate residues
- apply Cauchy's theorem
- use contour integrals to evaluate real integrals
- understand the proofs of the main theorems of the module
How the module will be delivered
Modules will be delivered through blended learning. You will be guided through learning activities appropriate to your module, which may include:
- On-line resources that you work through at your own pace (e.g. videos, web resources, e-books, quizzes),
- On-line interactive sessions to work with other students and staff (e.g. discussions, live streaming of presentations, live-coding, group meetings)
- Face to face small group sessions (e.g. tutorials, exercise classes, feedback sessions)
Skills that will be practised and developed
Skills:
Contour integration and residue calculus.
Transferable Skills:
Logical analysis and abstract reasoning.
How the module will be assessed
Assessment Breakdown
Type | % | Title | Duration(hrs) |
---|---|---|---|
Exam - Spring Semester | 100 | Complex Analysis | 2 |
Syllabus content
- Revision of complex numbers and elementary functions of a complex variable
- Differentiability and the Cauchy-Riemann equations
- integration in the complex plane
- Cauchy's theorem
- the application of contour integrals to evaluate real integrals
- the argument principle
- Rouche's theorem with applications
Essential Reading and Resource List
An interactive version of this list is now available via our new reading list software: https://whelf-cardiff.alma.exlibrisgroup.com/leganto/public/44WHELF_CAR/lists/6034765440002420?auth=SAML
Background Reading and Resource List
An interactive version of this list is available at https://whelf-cardiff.alma.exlibrisgroup.com/leganto/public/44WHELF_CAR/lists/7713423950002420?auth=SAML