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Electromagnetic Fields
Abbreviation: Load: 60(L) + 0(E) + 15(LE) + 0(CE)
Lecturers in charge: Prof. dr. sc. Sead Berberović
Prof. dr. sc. Željko Štih
Doc. dr. sc. Martin Dadić
Course description: 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 Law, Gauss?s Law, energy and potential in electric field. Dielectrics, conductors, capacitance. Charge in uniform motion: Ohm Law, resistance. Biot-Savart Law, Ampere?s circuital Law, magnetic materials, energy in magnetic field, inductances, magnetic circuits. Time-dependent fields, Faraday?s Law, sinusoidal fields, electro-mechanical energy conversion, electromagnetic fields and circuits. Displacement currents, Maxwell equations, electromagnetic fields, transmission lines, antennas.
1. Elektromagnetizam I Z. Haznadar, Ž. Štih Školska knjiga 1997
2. Elektromagnetizam II Z. Haznadar, Ž. Štih Školska knjiga 1997
3. Teoriijska elektrotehnika - odabrani primjeri S. Berberović Graphis 1998
4. Electromagnetic Fields, Waves & Num. Met. Z. Haznadar, Ž. Štih IOS Press 2000
5. Electromagnetic Concepts and Applications S.V. Marshall, G.G. Skitek Prentice-Hall 1990
6. Engineering Electromagnetics W.H. Hayt McGraw Hill 1988
Prerequisit for enrollment:
Passed : Electrical Circuits
Passed : Mathematics 3 - EE
L - Lectures
E - Exercises
LE - Laboratory exercises
CE - Project laboratory
* - Not graded
Copyright (c) 2006. Ministarstva znanosti, obrazovanja i športa. Sva prava zadržana.
Programska podrška (c) 2006. Fakultet elektrotehnike i računarstva.
Oblikovanje(c) 2006. Listopad Web Studio.
Posljednja izmjena 2010-12-10