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PřF:F2423 Computing practice 2 - Course Information

## F2423 Computing practice 2

**Faculty of Science**

Spring 2013

**Extent and Intensity**- 0/3. 3 credit(s). Type of Completion: graded credit.
**Teacher(s)**- Mgr. Marek Chrastina, Ph.D. (lecturer)
**Guaranteed by**- prof. RNDr. Michal Lenc, Ph.D.

Department of Theoretical Physics and Astrophysics - Physics Section - Faculty of Science

Contact Person: Mgr. Marek Chrastina, Ph.D.

Supplier department: Department of Theoretical Physics and Astrophysics - Physics Section - Faculty of Science **Timetable of Seminar Groups**- F2423/01: Tue 7:00–9:50 F4,03017

F2423/02: Wed 16:00–18:50 F4,03017 **Prerequisites**- It is recommended to master basic operations of differential and integral calculus on the secondary school level.
**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 (programme PřF, B-FY)

**Course objectives**- Routine numerical skills necessary for bachelor course of general physics and basic biophysics.
**Syllabus**- 1. Double integral, methods of calculation (Fubini theorem, transformation of coordinates), physical and geometric applications (mass, centre of mass, moment of inertia of a surface).
- 2. Triple integral, methods of calculation (Fubini theorem, transformation of coordinates), physical and geometric applications (mass, centre of mass, moment of inertia of a body).
- 3. Surfaces in threedimansional euclidean space: parametrizations, cartesian equations.
- 4. Surface integral of the first type, physical characteristics of bodies (mass, center of mass, tensor of inertia).
- 5. Surface integral of the secnond type, physical applications (flow of a vector field).
- 6. Calculus of surface integrals.
- 7. Integral theorems.
- 8. Physical applications of integrals and integral theorems: Integral and differential form of Maxwell equations.
- 9. Applications of integral theorems in fluid mechanics.
- 10. Series of functions: Taylor series, physical applications (estimations).
- 11. Series of functions: Fourier series, applications (Fourier analysis of a signal).
- 12. Elements of tensor algebra.

**Literature**- KVASNICA, Jozef.
*Matematický aparát fyziky*. Vyd. 1. Praha: Academia, 1989. 383 s. ISBN 8020000887. info

- KVASNICA, Jozef.
**Teaching methods**- Seminar based on the solution of the typical problems.
**Assessment methods**- Based on 'Studijní a zkušební řád Masarykovy univerzity', chapter 9, section 2 the attendance on schooling is required. The absence can be compensated by compensatory homework. Correct solution of each compensatory homework can be achieved in two attempts. Deadline for compensatory homework is 24.6.2012. Students harvest points for lecture activity. Each lecture activity has value of one point. At the end of semester, paramater P is calculated as the maximum of number one and numbers of points, which were harvested by individual student during whole semester. Subject matter is divided into three particular tests, which are written during the semester. Student write fourth test from whole semester, if achieve less then P/2 points. Time limit for each test is 60 minutes. Students of combined form write three particular tests. Final grade will be determinated from unweighted mean of all tests.
**Language of instruction**- Czech
**Further comments (probably available only in Czech)**- Study Materials

The course is taught annually. **Teacher's information**- http://physics.muni.cz/~chm/

- Enrolment Statistics (Spring 2013, recent)
- Permalink: https://is.muni.cz/course/sci/spring2013/F2423