Theory of Functions of a Complex Variable
- Published: Monday, 11 April 2016 09:35
Code – 230100 Information and computer science; section: Software of computer equipment and automation systems
Qualification (degree) – Master
Description of course modules (sections, subjects):
- Concept of a limit, continuity, differentiability and analyticity of functions of a complex variable.
- Cauchy theorem and integral representation of functions of a complex variable.
- Taylor and Laurent series for functions of a complex variable.
- Theory of residues for functions of a complex variable.
- Theory of conformal representation.
- Application of the theory of functions of a complex variable to mechanics problems.
Syllabus of the course:
Objective of the course: introduction of students to key concepts and results of the theory of functions of a complex variable, application of methods of complex analysis and algorithms based thereon to solution of scientific and application problems.
Tasks of the course
The course is aimed at:
- study of a concept of an analytical function which is fundamental for mathematics and its applications,
- development of a technique for differential and integral calculus for functions of a complex variable,
- study of integral representation for functions of a complex variable,
- study of expansion of functions of a complex variable into Taylor and Laurent series,
- study of the theory of residues for functions of a complex variable,
- study of the theory of conformal representation,
- familiarity with application of methods of complex analysis to problems of natural science and engineering.
The course in included in optional courses of a general scientific cycle attributed to the master’s degree educational standard.
As a result of studying the course a student should:
- know key concepts of differential and integral calculus, theory of expansion into series and theory of residues of functions of a complex variable,
- be able in practice apply results of the theory of functions of a complex variable in mathematical problems,
- have skills of application of methods of complex analysis to problems of natural science and engineering,
- show ability and readiness to solve problems of complex analysis as applied to various subject areas.
Teaching methods:
- lectures,
- laboratory work,
- students’ independent work performed according to the teacher’s task in classrooms and on an extracurricular basis, including use of technical training aids (compulsory),
- tutorials.
Total hours – 108.
Total credits – 3.
Laboratory work – 1/36.
Form of interim assessment – pass/fail exam.