Type of studies | Title |
---|---|
Undergraduate Academic Studies | Computing and Control Engineering (Year: 1, Semester: Summer) |
Category | Scientific-professional |
Scientific or art field | Theoretical Electrotechnics |
ECTS | 9 |
Course objective is to teach students to solve simple electric circuits of direct current and time variable currents, as well as to calculate impedance and basic physical parameters of the loads in such networks, resistance of resistors, inductance of coils and capacitance of capacitors. Also, the objective is to teach the students how to solve single phase circuits as well as simple balanced three-phase circuits.
Students who successfully complete the course are able to calculate capacitance of a simple homogeneous symmetric structures, to calculate resistance of homogeneous multilayer structures, to solve simple electric circuit of direct current, to calculate magnetic field of simple symmetrical current caring structures, to calculate inductance of simple structures with windings, to solve simple electric and magnetic circuits with alternating currents and to calculate instantaneous, active, reactive and apparent power in single phase and balanced three phase circuits.
Electrostatics ( Electric field strength vector, Gauss’s law, Electric potential and voltage, Conductors in electrostatic field, Capacitance and capacitors, Dielectrics in electrostatic field, Boundary conditions, Energy and forces in electrostatic field). Electric circuits of DC- direct current, (Current density vector and current intensity, Ohm’s law and resistors, Joule’s law, Kirchhoff's Laws, Generators, Maximum power transfer, Power conservation theorem, Methods for circuit analysis, Superposition Theorem, Thevenin's and Norton’s theorem, Compensation theorem), DC magnetic field (Magnetic flux density vector, Biot-Savart Law, Magnetic flux, Ampere’s Law, Ferromagnetic materials, Magnetic properties of materials, Boundary conditions, Magnetic circuits). Low frequency time harmonic electromagnetic field (Electromagnetic induction, Faraday’s Law, Lentz’s Law, Eddy currents, Skin effect and proximity effect, Self inductance and mutual inductance, Transformers, Energy and forces in magnetic field). Electric circuits of AC-alternating current (Simple sinusoidal current circuits, Impedance, Circuit analysis in complex domain, Complex power, Maximum average power transfer, Power factor correction, Simple resonant circuits, Magnetically coupled circuits, Balanced three-phase systems) .
The teaching process consists of lectures, problem solving and lab work, with occasional video presentations. The inductive method is applied. The students’ knowledge grows gradually, trough many simple problems solving.
Authors | Title | Year | Publisher | Language |
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Course activity | Pre-examination | Obligations | Number of points |
---|---|---|---|
Test | Yes | Yes | 10.00 |
Written part of the exam - tasks and theory | No | Yes | 70.00 |
Test | Yes | Yes | 10.00 |
Test | Yes | Yes | 10.00 |
Associate Professor
Full Professor
Associate Professor
Associate Professor
Associate Professor
Associate Professor
Assistant - Master
Associate Professor
Associate Professor
Assistant - Master
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© 2024. Faculty of Technical Sciences.