Fundamentals of Electrical Engineering II

Course title: Fundamentals of Electrical Engineering II

Code: FEIT06L002

Number of credits (ECTS): 6

Weekly number of classes: 3+2+1+0

Institute: Electro, Electrical Welding and Electrical Traction

Prerequisite for enrollment of the subject: None

Course goals/Competences: Introduction to basic concepts and phenomena of magnetic field and AC circuits and methods of analysis.

Learning methods:

Total available number of classes: 180

Curriculum: Static magnetic field. Magnetic flux density vector. Bio-Savart's law. Force and torque on a current contour in magnetic field. Lorentz force. Magnetic flux lines. Movement of charged particle in magnetic and electric field. Amper’s law. Influence of magnetic field on matter. Diamagnetism, paramagnetism, ferrimagnetism. Generalized Amper's law. Boundary conditions. Faraday's law. Dynamic electromagnetic induction. Electric generator and motor. Static electromagnetic induction. Eddy currents. Mutual and self inductivity. Coupled circuits. Theory of ideal transformer. Energy and force in magnetic field. Sinusoidal currents. Analythical methods for R, RL and RLC circuits. Impedance and admitance. Phasors. Complex notation for sinusoidal quantities. Networks. Methods of solution. Energetic processes. Power, reactive power. Resonance. Inductive coupled circuits. Transformers. Polyphase systems.

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