1,1,1

Lecture type	Total
Lectures	75
Laboratory exercises	15

* Load is given in academic hour (1 academic hour = 45 minutes)

The circuit concept, which was presented in subjects "Fundamentals of Electrical Engineering" and "Electric circuits", is expanded to a multi-dimensional field concept based on Maxwell equations. The themes are: Lorentz force, electric field strength, magnetic flux density. Sources: charge and current. Charge at rest: Coulomb's law, Gauss's law, energy and potential in electric field. Dielectrics, conductors, capacitance. Charge in uniform motion: Ohm's law, resistance. Biot-Savart's law, Ampere's circuital law, magnetic materials, energy in magnetic field, inductances, magnetic circuits. Time-dependent fields, Faraday's law, sinusoidal fields. Displacement currents, Maxwell equations, electromagnetic waves.

1. Elektromagnetizam I; Z. Haznadar, Ž. Štih; Školska knjiga; 1997; ISBN: 953-0-31634-8
2. Elektromagnetizam II; Z. Haznadar, Ž. Štih; Školska knjiga; 1997; ISBN: 953-0-31683-6
3. Teorijska elektrotehnika - odabrani primjeri; S. Berberović; Graphis; 1998; ISBN: 953-96399-9-9
4. Electromagnetic Fields, Waves and Numerical Methods; Z. Haznadar, Ž. Štih; IOS Press; 2000; ISBN: 1-58603-064-7
5. Electromagnetic Concepts and Applications; S.V. Marshall, G.G. Skitek; Prentice-Hall; 1990; ISBN: 0132509601
6. Engineering Electromagnetics W.H. Hayt McGraw Hill 1988

Examination:
Passed: Electrical Circuits
Passed: Mathematics 3 - EE

Full time study course for study Electrical Engineering and Information Technology