1. Introduction: Importance.
2. Electrostatics: electrical charge, Coulomb´s law; field intensity and potential, Gauss´s theorem; Poisson and Laplace equations; conductor in Electrostatic field, capacity of conductor and kondenzatore, field energy; dielectrics, vector of polarization and induction, field at the interface of two dielectrics.
3. Transfer of electrical charge: elektric current, current density, continuity equation; Ohm´s law in differential and integral form; electromotive fource; Kirchhoff´s rules; voltage and current sources, work and wattage of elektric current, Joule´s heat.
4. Stationary magnetic field: vector of magnetic induction; Biot-Savart law and its applications; Amper´s law and its applications; force in magnetic field, magnetic moment; vector of magnetic field intensity, Gauss´s law for magnetic field; magnetic polarization; field at the interface of two magnetics, magnetic curcuit, Hopkinson´s law.
5. Electromagnetic induction: magnetic flux, Faraday´s law, inductance and mutual inductance; energy of magnetic field, oscillatory CL and CRL curcuits.
6. Alternating current: Ohm´s zákon in the complex form; AC curcuits, RLC curcuit; transformer.
7. Maxwell´s equations: Integral and differential form nad their fundamental consequences.
8. Electromagnetic potentials: scalar and vector potential, basic equations and solutions.
2. Electrostatics: electrical charge, Coulomb´s law; field intensity and potential, Gauss´s theorem; Poisson and Laplace equations; conductor in Electrostatic field, capacity of conductor and kondenzatore, field energy; dielectrics, vector of polarization and induction, field at the interface of two dielectrics.
3. Transfer of electrical charge: elektric current, current density, continuity equation; Ohm´s law in differential and integral form; electromotive fource; Kirchhoff´s rules; voltage and current sources, work and wattage of elektric current, Joule´s heat.
4. Stationary magnetic field: vector of magnetic induction; Biot-Savart law and its applications; Amper´s law and its applications; force in magnetic field, magnetic moment; vector of magnetic field intensity, Gauss´s law for magnetic field; magnetic polarization; field at the interface of two magnetics, magnetic curcuit, Hopkinson´s law.
5. Electromagnetic induction: magnetic flux, Faraday´s law, inductance and mutual inductance; energy of magnetic field, oscillatory CL and CRL curcuits.
6. Alternating current: Ohm´s zákon in the complex form; AC curcuits, RLC curcuit; transformer.
7. Maxwell´s equations: Integral and differential form nad their fundamental consequences.
8. Electromagnetic potentials: scalar and vector potential, basic equations and solutions.