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Course detail

Functional Analysis and Function Spaces

Course unit code: FSI-9FAP
Academic year: 2016/2017
Year of study: Not applicable.
Semester: summer
Number of ECTS credits:
Learning outcomes of the course unit:
Knowledge of basic topics of the metric, linear normed and unitary spaces,
Lebesgue integral and ability to apply this knowledge in practice.
Mode of delivery:
Not applicable.
Prerequisites:
Differential and integral calculus, numerical methods, ordinary differential equations.
Co-requisites:
Not applicable.
Recommended optional programme components:
Not applicable.
Course contents (annotation):
The course deals with basic topics of the functional analysis and function spaces and their application in analysis of probloms of mathematical physics.
Recommended or required reading:
Rektorys, K.: Variační metody v inženýrských problémech a v problémech matematické fyziky. SNTL, Praha, 1974.
Ženíšek, A.: Matematické základy metody konečných prvků. PC-DIR, Brno, 1999.
Ženíšek, A.: Funkcionální analýza I. PC-DIR, Brno, 1999.
Kufner, A., John, O., Fučík, S.: Function spaces. Academia, Praha, 1977.
Franců, J.: Funkcionální analýza 1, Akad. nakl. CERM, Brno 2009
Ženíšek, A.: Nonlinear elliptic and evolution problems and their finite element approximations. Academic Press, London, 1990.
Planned learning activities and teaching methods:
The course is taught through lectures explaining the basic principles and theory of the discipline.
Assesment methods and criteria linked to learning outcomes:
Examination has a practical and a theoretical part. In the practical part student has to illustrate the given topics on particular examples. Theoretical part includes questions related to the subject-matter presented at the lectures.
Language of instruction:
Czech, English
Work placements:
Not applicable.
Course curriculum:
Not applicable.
Aims:
The aim of the course is to familiarise students with basic topics of the functional
analysis and function spaces theory and their application to analysis of problems
of mathematical physics.
Specification of controlled education, way of implementation and compensation for absences:
Absence has to be made up by self-study using lecture notes.

Type of course unit:

Lecture: 20 hours, optionally
Teacher / Lecturer: prof. RNDr. Jan Franců, CSc.
Syllabus: 1 Metric and metric spaces, examples.
2 Linear and normed linear spaces, Banach spaces.
3 Scalar product and Hilbert spaces.
4 Examples of spaces: R^n, C^n, sequential spaces, spaces of continuous and integrable functions.
5 Elements of Lebesgue integral, Lebesgue spaces.
6 Generalized derivations, Sobolev spaces.
7 Traces. Theorem on traces.
8 Imbedding theorems. Density theorem.
9 Lax-Milgram lemma and its application to solvability if differential equations.
10 Relation between differential and integral equations.

The study programmes with the given course