Subject 
Chapter 1 *The electrostatic field (Coulomb's law and electric field, potential and voltage, electric flux density and dielectric polarization, capacity, energy content)
 Steadystate electric flow field (current and current density, resistance and Ohm's law, energy and power)
 Simple electric networks (reference arrows, ideal voltage and current sources, Kirchhoff's laws, resistive networks, real voltage and current sources, superposition principle, meshes and nodes)
 Mechanisms of current conductance (vacuum, gases, liquids, semiconductors)
 Steadystate magnetic field (force in magnetic field, current generates magnetic field, magnetic potential difference, magnetic flux, magnetic polarisation, magnetic circuit, inductance)
 Timevariable electromagnetic field (law of induction, mutual inductance, energy content, induction in stationary and moving coils);
Chapter 2 *Introduction (summary of voltagecurrent relations of components of chapter 1, characteristics of periodic quantities)
 Alternating voltage and current (phasor diagram, complex analysis, voltage divider, resonance, locus diagrams, energy and power)
 Timevariable periodic signals of arbitrary waveform (frequency mixture, harmonic analysis, Fourier series applied to circuit analysis)
 Switching transients in simple electric networks (networks with one energy storing component connected to DC voltage, networks with one energy storing component connected to AC voltage, networks with several energy storing components);
Chapter 3 *Electronic components (diodes, bipolar transistor, field effect transistor),
 Electronic basic circuits (rectifier, circuit analysis with nonlinear components, load line, transistor switch, transistor amplifier);
Supplement *Accidents (What is dangerous? How do you respond in case of emergency? Safety rules).
