I Field
Linear electric circuits with time-constant electric currents. Various connections between resistors. Solving electric circuits, First and Second Kirchhoff law, methods for solving electric circuits (loop currents and node potentials).II Field
Solving electric circuits with time-constant electric currents using theorems for electric circuits: superposition theorem, reciprocity theorem, the Thevenin theorem, the Northon theorem, compensation theorem, conservation of energy, linearity. Transfiguration of electric circuits. Power and energy in electric circuits with time-constant electric currents.
III Field
Time-constant electric currents circuits with capacitors and electrostatic circuits. Electrostatic field: electric-field vector and potential. Electric forces and energy in electrostatic field.
IV Field
Dielectrics in electrostatic field. Plane, cylindrical and sphere capacitors. Capacitors with several layers of dielectric.
V Field
Magnetic materials and electromagnets. Magnetic field of electrical current. The Biot-Savart law. The Ampere law. Conservation of magnetic flux. Linear magnetic circuits. Electromagnetic forces.
VI Field
Electromagnetic inductance. The Faraday-Maxwell's law. Lenz's rule Self inductance and mutual inductance. Materials in magnetic field. Generalized form of the Ampere law. Magnetic histeresys . Nonlinear magnetic circuits. Energy and forces in the magnetic field.
VII Field
Linear electric circuits with time-varying currents. Solving electric circuits with time-varying currents using complex form of methods for solving electric circuits: First and Second Kirchhoff law, loop currents and node potentials methods.
VIII Field
Solving electric circuits with time-varying electric currents using theorems of electric circuits: superposition theorem, reciprocity theorem, the Thevenin theorem, the Northon theorem, compensation theorem, conservation of energy, linearity. Transfiguration of electric circuits.
IX Field
Power in circuits with time-varying electric currents. Circuits with inductive mutually inductive coils. Phase resonance and anti-resonance in sinusoidal current circuits.
X Field
Balanced three-phase circuits. Using ph asor and complex calculation in three-phase circuits. Triangle form and star form. Power in electric three-phase circuits. Balanced three-phase circuits with inductive mutually inductive coils.