Course description
Magnetic field. Current element. Ampere’s law of magnetic force. Magnetic flux density. Biot-Savart law. Magnetic flux. Gauss law of magnetic field. Ampere’s circuital law. Lorentz force. Moving charge in electromagnetic field. Torque and work of magnetic force. Magnetic dipole. Magnetic material and magnetic field. Magnetization. Magnetic field strength. Permeability. Boundary conditions of magnetic field. Magnetomotive force. Scalar magnetic potential. Elements of magnetic circuits.
Faraday induction law. Electromotive force voltage and electric field, Stokes’ theorem of electric field. Motional and transformer electromotances. Magnetic flux linkage. Self and mutual inductances. Coils and coupled coils. Magnetic field energy. Lifting force. Electromagnets. Displacement current. Maxwell’s equations.
AC electric circuits. Sinusoidal steady-state electric circuits and analysis in complex domain: phasors, impedance and admittance, complex power. Oscillators. Resonance. Theorems. Transformer. Three-phase circuits. Transients.
Course is carried out on study programme
Electrical engineering 1st level
Objectives and competences
To acquire fundamental knowledge on magnetic field, induced field as well as AC electric circuits, three phase systems and transient circuit analysis. The acquired knowledge serves as a basis for further electrotechnical studies.
Learning and teaching methods
Lectures, exercises, laboratory work (practicum), homeworks and seminars, IT assisted teaching (video, animations, web materials, simulation examples, …)
Intended learning outcomes
After successful completion of the course, students should be able to:
– define basic quantities, units and constants from the field of electrotehnics and explain their meaning,
– explain the relations between quantities, perform analytical calculations and interpret the results,
– study and understand the instructions for practical experiments from the field of electrotehnics, perform laboratory experiments and evaluate the results.
Reference nosilca
- ADAMIČ, Michel, DRVARIČ TALIAN, Sara, SINIGOJ, Anton R., HUMAR, Iztok, MOŠKON, Jože, GABERŠČEK, Miran. A transmission line model of electrochemical cell's impedance : case study on a Li-S system. Journal of the Electrochemical Society. [Online ed.]. 2019, vol. 166, iss. 3, str. a5045-a5053.
- HUMAR, Iztok, GE, Xiaohu, XIANG, Lin, JO, Minho, CHEN, Min, ZHANG, Jing. Rethinking energy efficiency models of cellular networks with embodied energy. IEEE network, 2011, vol. 25, no. 2, str. 40-49.
- HUMAR, Iztok, SINIGOJ, Anton R., BEŠTER, Janez, HAGLER, Marion O. Integrated component web-based interactive learning systems for engineering. IEEE transactions on education, Nov. 2005, vol. 48, no. 4, str. 664-675, ilustr.
- BURNIK, Urban, KRIŽAJ, Dejan, TOPČAGIĆ, Zumret, MEŽA, Marko. Measuring impedance using an open-source instrumentation platform. International journal of electrical engineering education. Apr. 2018, vol. 55, no. 2, str. 168-185.
- BURNIK, Urban, MEŽA, Marko. Open-source impedance measurement instrument development project enhances engineering students' technical and organizational skills. International journal of engineering education. 2017, vol. 33, no. 6 (a), str. 1751-1762.
- MEŽA, Marko, KOŠIR, Janja, STRLE, Gregor, KOŠIR, Andrej. Towards automatic real-time estimation of observed learner's attention using psychophysiological and affective signals : the touch-typing study case. IEEE access. 2017, vol. 5, str. 27043-27060.
Study materials
Humar I., Bulić E., Sinigoj A. R.: Osnove elektrotehnike II. 1. izd. Ljubljana: Založba FE, 2018.
Sinigoj A. R., Humar I.: Video Osnove elektrotehnike II. Ljubljana, 2012.
Humar I.: Fundamentals of electrical engineering through computationally supported laboratory experiments. 1. izd. Ljubljana: Založba FE, 2018.
Sinigoj A. R.: Osnove elektromagnetike, Založba FE in FRI, Ljubljana, 1994.
Sinigoj A. R.: Elektrotehnika 2, 3, Založba FE in FRI, Ljubljana, 2006.
Humar I., Bulić E., Križaj D., Sinigoj A. R.: OE II – LAB, Laboratorijske vaje. Založba FE in FRI, Ljubljana, 2020.
Duffin W. J.: Electricity and magnetism, McGraw-Hill, London, 1990.
Popović D. B.: Osnovi elektrotehnike 1 in 2, Građevanska knjiga, Beograd, 1986.
Halliday D, Resnick R., Walker J., Fundamentals of Physics, John Wiley, 1997.
Purcell E. M.: Electricity and magnetism, McGraw-Hill, New York, 1965.
Albach M.:Grundlagen der Elektrotechnik 1 und 2, Pearson Studium, Muenchen, 2005.
Notaroš B. M.: Electromagnetics, Pearson, 2010.
spletna učilnica e.fe.