|
Vyučující
|
|
|
|
Obsah předmětu
|
DC & AC circuits - Ohm's Law, Kirchhoff's Law, Current Loop Method, Voltage Node Method, Thevenin's and Norton's theorem Transient and steady state of linear circuits - differential equations, Laplace Transform Characteristics of frequency filters Laws in electrostatics - Electric Intensity, Induction, Potential, Voltage Laws in electromagnetics Maxwell equations
|
|
Studijní aktivity a metody výuky
|
|
nespecifikováno
|
|
Výstupy z učení
|
Get knowledge of basic methods of solving linear circuits (circuits analysis), steady and transient state of circuits, basic characteristics of frequency filters, Maxwell equations (integral and derivative form), electromagnetic waves on conductors and in free space.
Students are able to orientate in electrostatics, steady currents, static magnetic field, electromagnetic fields, Maxwell equations and wave propagation problems. They can analyze DC and AC circuits (transients and steady states).
|
|
Předpoklady
|
Knowledge of differentiation and integration, linear algebra (solution of system of equations), complex numbers
|
|
Hodnoticí metody a kritéria
|
Ústní zkouška, Písemná zkouška
Students are able to orientate in electrostatics, steady currents, static magnetic field, electromagnetic fields, Maxwell equations and wave propagation problems. They can analyze DC and AC circuits (transients and steady states).
|
|
Doporučená literatura
|
|