1. Electrostatic and problems  Coulomb's law. Electrostatics force calculations. 2. Calculating of electrostatic field intensity and potential. 3. Capacity of the capacitor, dielectric stress, electrical dipole moment. 4. Stationary current field  Ohm's law. 5. Analysis of electrical circuits. Solving of electrical circuits using Kirchhoff's laws application. 6. Farraday's law of electrolysis, chosen examples. 7. Solving of capacitor's and coil's transfer effects. 8. Farraday's law of induction, calculations of induced voltage in the conductor moving in the magnetic field. 9. Immediate, maximal value, calculating of medium and effective value of alternating currents. 10. Calculating of apparent power, active power and reactive one phase and two phase power. 11. Solving of simple AC circuits. Calculating of imitation. Representation of voltage and current phasers in Gauss's complex plane. 12. Resonance circuits, conditions of resonance, derivation of resonance frequencies of parallel and serial RCL circuit. 13. Calculation of transformer constant and inductivness 14. Calculating of magnetic field intensity and magnetic induction using BiotSarvart law. 15. Calculating of forces acting on a wire under electrical current  Ampere's law. 16. Lorentz force  calculating of forces acting on a charged particle.


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