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Physics for Mathematicians 2 – Electromagnetic Field and Special Theory of Relativity - NTMF034

Title:	Fyzika pro matematiky 2 – elektromagnetické pole a speciální teorie relativity
Guaranteed by:	Institute of Theoretical Physics (32-UTF)
Faculty:	Faculty of Mathematics and Physics
Actual:	from 2022
Semester:	summer
E-Credits:	5
Hours per week, examination:	summer s.:2/1, Ex [HT]
Capacity:	unlimited
Min. number of students:	unlimited
4EU+:	no
Virtual mobility / capacity:	no
State of the course:	taught
Language:	Czech
Teaching methods:	full-time

Guarantor:	doc. RNDr. Martin Žofka, Ph.D.
Teacher(s):	doc. RNDr. Martin Žofka, Ph.D.
Class:	M Mgr. MOD M Mgr. MOD > Povinně volitelné
Classification:	Physics > Theoretical and Math. Physics

Opinion survey results Examination dates SS schedule Noticeboard

Annotation -

From Coulomb's law through fields in electrostatics and magnetostatics, electric current and Faraday's electromagnetic induction to Maxwell's equations and their consequences. Plane wave as a solution of Maxwell's equations. Why we need the special theory of relativity. Minkowski spacetime, Lorentz transformations; relativistic particle dynamics; relativistic formulation of electromagnetic field theory. Recommended course from 2nd year of Bachelor studies in Mathematics and Computer Science, especially for students with specialization in Mathematical Modeling and Numerical Analysis.

Last update: Houfek Karel, doc. RNDr., Ph.D. (13.05.2022)

Course completion requirements - Czech

Písemná a ústní zkouška.

Last update: Houfek Karel, doc. RNDr., Ph.D. (11.06.2019)

Literature - Czech

R. P. Feynman, R. B. Leighton a M. Sands: Feynmanovy přednášky z fyziky s řešenými příklady 2, Fragment, Havlíčkův Brod 2001.

J. Kvasnica: Teorie elektromagnetického pole, Academia, Praha 1985.

V. Votruba: Základy speciální teorie relativity, Academia, Praha 1969.

Last update: Houfek Karel, doc. RNDr., Ph.D. (13.05.2022)

Requirements to the exam - Czech

Zkouška sestává z písemné a ústní části. V písemné části, která předchází části ústní, jsou řešeny problémy tematicky a typově odpovídající úlohám řešeným na cvičení a v domácích úkolech. Požadavky u ústní části zkoušky odpovídají sylabu předmětu v rozsahu, který byl prezentován na přednášce.

Last update: Houfek Karel, doc. RNDr., Ph.D. (17.05.2024)

Syllabus -

1. Coulomb's law, description using vector fields.

2. Gauss theorem, scalar potential. Electric field of different sources. Electrical energy.

3. Basic problem of electrostatics; capacity.

4. Current, continuity equation and Ohm's law.

5. Lorentz force, magnetic field. Ampere's law, vector potential.

6. Electromagnetic induction.

7. Maxwell's equations, wave equation. Energy and momentum of the field.

8. Michelson-Morley experiment; significance of the speed of light;

9. Einstein's postulates; Minkowski spacetime;

10. Lorentz transformations and their kinematic consequences; paradoxes.

11. Dynamics of a relativistic particle and its consequences.

12. Relativistic formulation of Maxwell's equations.

Last update: Houfek Karel, doc. RNDr., Ph.D. (13.05.2022)