- Basic postulates of the electromagnetic field and its source, the electrostatic field
- Methods of solving electrostatic field
- Model dielectric substance in an electric field, polarization, electric induction
- Capacity, energy and power in the electric field
- Stationary current and magnetic field
- Joule law, Ohm's law, Ampere law
- Kvazistacionární magnetic field, magnetic circuits, Faraday's law of induction
- Non-stationary electromagnetic field, a complete set of Maxwell's equations, energy balance
- Electromagnetic waves, plane harmonic wave, radiation
Subject develops basic knowledge gained in the subject Physics. Familiar with the properties and methods of solving static, stationary and time-varying fields, design of magnetic circuits, capacitors, inductors, electromagnetic field distribution in the environments, subdividing it into its individual components.
Will be shown the importance of Maxwell's equations and examples of their use in calculating various types of field and track progress using numerical methods with the use of computer-aided design system.