Specifically, they can
- describe the causes and effects of electric and magnetic fields qualitatively and mathematically (K3/4)
- describe examples of applications of electric and magnetic fields in engineering qualitatively and with simplified mathematical models (K3/4)
- model linear electrical networks and analyze them with the help of Kirchhoff's circuit laws (K3/4)
- analyze linear AC networks (K3/4)
- calculate electrical power in DC and AC networks (K3/4)
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- Basic concepts and quantities of electrical engineering (charge, current, voltage, potential, resistance, capacitance, inductance, sources, power, energy,...)
- Basic concepts and quantities of the electric and magnetic field (field quantities, electrostatic influence, polarization, electromagnetic induction, )
- Ohm's law and Kirchhoff's circuit laws
- Generator and motor principle
- Transformer
- Analysis of AC circuits (phasor diagrams, Bode diagram, resonant circuits, filters)
- Three-phase systems
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