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Lecturer(s)
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Drchek Jan, Ing.
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Poláček Jiří, doc. Ing. Ph.D.
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Grufík David, Ing.
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Hraba Tomáš, Ing.
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Pokorný Vít, Ing.
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Jurka Marek, Ing. Ph.D.
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Course content
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1. Electric charge and electric field, forces acting in the electric field, electric field strength 2. Work done by electric field and voltage, electric potential, electrical properties of materials, capacitance and capacitors 3. Electric current and stationary magnetic field, electrical sources, electrical resistance and resistors, magnetic properties of materials, forces acting in the magnetic field 4. Non-stationary magnetic field, electromagnetic induction, induced voltage, inductance, transient responce of electric circuits 5. Topology of electrical circuits, active and passive circuit elements, characteristics of electrical sources 6. Superposition principle and equivalence in electrical circuits, Kirchhoff's laws 7. Basic methods for electrical circuit analysis, loop current method and nodal voltage analysis 8. Time-variable electric circuits, harmonic steady state electrical circuits, complex impedance and admittance 9. Steady state harmonic response analysis of linear electrical circuits 10. Resonance in electrical circuits 11. Basic analysis of three-phase electric circuits 12. Three-phase electric power, phasor diagrams
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Learning activities and teaching methods
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- Contact hours
- 52 hours per semester
- unspecified
- 36 hours per semester
- Undergraduate study programme term essay (20-40)
- 12 hours per semester
- Preparation for formative assessments (2-20)
- 6 hours per semester
- Preparation for an examination (30-60)
- 30 hours per semester
- Preparation for comprehensive test (10-40)
- 10 hours per semester
- Contact hours
- 16 hours per semester
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| prerequisite |
|---|
| Knowledge |
|---|
| to have basic knowledges in mathematics for grammar schools |
| to have basic knowledges in physics for grammar schools |
| Skills |
|---|
| to have basic skills in mathematics for grammar schools |
| to have basic skills in mathematics for grammar schools |
| Competences |
|---|
| N/A |
| N/A |
| N/A |
| learning outcomes |
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| Knowledge |
|---|
| to characterize the physical nature of electromagnetic phenomena |
| to explain basic laws and properties of linear electrical circuits in steady state |
| to describe methods for circuit analysis |
| Skills |
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| to formulate equations of the circuit in a sinusoidal steady state |
| to apply methods for solving electrical circuits on the specific electrical circuits |
| Competences |
|---|
| N/A |
| N/A |
| teaching methods |
|---|
| Knowledge |
|---|
| Lecture supplemented with a discussion |
| Lecture with visual aids |
| Practicum |
| Skills |
|---|
| Task-based study method |
| Individual study |
| Practicum |
| Discussion |
| Competences |
|---|
| Lecture supplemented with a discussion |
| Individual study |
| assessment methods |
|---|
| Knowledge |
|---|
| Combined exam |
| Seminar work |
| Test |
| Skills |
|---|
| Test |
| Seminar work |
| Skills demonstration during practicum |
| Competences |
|---|
| Combined exam |
| Test |
| Seminar work |
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Recommended literature
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Benešová, Zdeňka. Elementární příklady z teorie elektrických obvodů. 2. vyd. Plzeň : Západočeská univerzita, 2006. ISBN 80-7043-451-1.
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Benešová, Zdeňka; Ledvinová, Marcela. Základy elektrických obvodů v příkladech. 1. vyd. V Plzni : Západočeská univerzita, 2008. ISBN 978-80-7043-640-0.
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Daniel Mayer. Aplikovaný elektromagnetismus. ISBN 978-80-7232-436-1.
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David Jeffrey Griffiths. Introduction to Electrodynamics. 2017. ISBN 978-1-108-42041-9.
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Charles, Alexander; Matthew, Sadiku. Fundamentals of Electric Circuits. 2017. ISBN 978-0-07-202822-9.
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