PřF:F4260 Calculus of variations and its - Course Information
F4260 Calculus of variations and its applications
Faculty of ScienceSpring 2013
- Extent and Intensity
- 2/1/0. 3 credit(s) (plus extra credits for completion). Type of Completion: k (colloquium).
- Teacher(s)
- prof. RNDr. Jana Musilová, CSc. (lecturer)
Mgr. Michael Krbek, Ph.D. (seminar tutor) - Guaranteed by
- prof. RNDr. Michal Lenc, Ph.D.
Department of Theoretical Physics and Astrophysics – Physics Section – Faculty of Science
Contact Person: prof. RNDr. Jana Musilová, CSc.
Supplier department: Department of Theoretical Physics and Astrophysics – Physics Section – Faculty of Science - Timetable
- Mon 12:00–13:50 F4,03017, Thu 19:00–19:50 F4,03017
- Prerequisites
- differential and integral calculus of functions of one and many variables, fundamental problems of multilinear algebra (tensor calculus), differential forms on euclidean spaces
- Course Enrolment Limitations
- The course is also offered to the students of the fields other than those the course is directly associated with.
- fields of study / plans the course is directly associated with
- Physics for Multi-Branches Study (programme PřF, B-FY)
- Physics for Multi-Branches Study (programme PřF, B-GE)
- Physics for Multi-Branches Study (programme PřF, B-GK)
- Physics for Multi-Branches Study (programme PřF, B-CH)
- Physics for Multi-Branches Study (programme PřF, B-MA)
- Physics (programme PřF, B-FY)
- Physics with a view to Education (programme PřF, B-BI)
- Physics with a view to Education (programme PřF, B-EB)
- Physics with a view to Education (programme PřF, B-FY)
- Physics with a view to Education (programme PřF, B-GE)
- Physics with a view to Education (programme PřF, B-GK)
- Physics with a view to Education (programme PřF, B-CH)
- Physics with a view to Education (programme PřF, B-IO)
- Physics with a view to Education (programme PřF, B-MA)
- Course objectives
- Physical theories are often based on so called variational principle, which lies in searching the stationary conditions for an appropriate functional. For example, in mechanics such a functional assigns to admissible trajectories in the configuration space of a mechanical system a real number given by an appropriately defined integral (the definition itself arises from physics). The condition for stationary points then leads to equations of motion of the system. The situation is similar in field theories, where expressions of field quantities as functions of space-time coordinates are understood as "trajectories". However, the basic principle is the same. On the other hand, the problem of boundary conditions must be solved (e.g. problems with fixed or free end points, respectively). In physics there are also situations in which a studied system is subjected to certain constraint conditions. In such a case we have a so called constraint variational problem. All above mentioned problems, and many others, are from the point of view of mathematics solved in the discipline "Calculus of variations".
The aim of this course is to present to students the mathematical background of the calculus of variations, especially as for above exposed problems. Some applications of the mathematical theory to physical or technical problems are discussed as well.
Absolving the discipline student obtains following basic knowledge nad skills:
* Understanding of the concept of a variational problem, its formulation and solution.
* Understanding of differencies among variation problems with various types of boundary conditions (fixed ends, free ends).
* Practical calculation procedures in solving equations resulting from variational problems.
* Understanding of integrals of motion.
* Applications of the calculus of variations for solving problems resulting from physical variational theories. - Syllabus
- I. Introduction.
- I-1. Variational problems in geometry and physics (light propagation, brachistochrone problem, isoperimetric problem, problem of minimal rotational surface,....).
- II. Elementary methods of solving stationary problem – functions of a single variable.
- II-2. Functional, stacionarity condition, Euler equation and its derivation, special cases.
- II-3. Applications (geometrical problems, problems in mechanics of one mass particle or in mechanics of a system of mass particles).
- II-4. Approximate solutions of variational problems.
- III. Method of variations – functions of a single variable.
- III-5. Classification of stationary points.
- III-6. Variation of a function, variation of a functional, theorems.
- III-7. Euler equations, invariance.
- IV. Functionals for multiple variable functions.
- IV-8. Formulation of a problem, Euler equations.
- IV-9. Applications - field theories.
- V. Free end point problems.
- V-10. Formulation of a problem, the problem of free end points in one dimensional space, applications.
- V-11. The problem of free end points in threedimensional space, applications.
- VI. Constrained variational problems.
- VI-12. General formulation of a constrained problem, types of constraint conditions in physics, examples.
- VI-13. Method of Lagrange multipliers.
- VII. Introduction to calculus of variations on fibred spaces.
- VII-14. Fibred euclidean spaces, sections and their prolongations, vector fields, differential forms.
- VII-15. Variational problem on a fibred space, Lagrange structure, extremals, applications.
- Literature
- Průběžně zveřejňovaný text k přednášce
- GEL'FAND, Izrail Moisejevič and Sergej Vasil'jevič FOMIN. Calculus of variations. Edited by Richard A. Silverman. Mineola, N. Y.: Dover Publications, 2000, vii, 232 s. ISBN 0-486-41448-5. info
- Teaching methods
- Lectures: theoretical explanation with practical examples
Exercises: solving problems for understanding of basic concepts and theorems, contains also more complex probléme, homeworks, tests - Assessment methods
- Teaching: lecture
Exam: colloquium - discussion based on prepared solution of problems - Language of instruction
- Czech
- Further comments (probably available only in Czech)
- Study Materials
The course is taught annually.
- Enrolment Statistics (Spring 2013, recent)
- Permalink: https://is.muni.cz/course/sci/spring2013/F4260