Lectures:
1. Physical concepts of electromagnetic fields
2. Maxwell's equations in differential and integral form
3. Electric field in conductors or dielectrics
4. Electrical conductivity, dependence of conductivity on temperature, superconductivity
5. Electrostatic forces and their use
6. Practical computing of capacity in electrical equipment
7. Practical calculations of inductance in electrical equipment
8. Energy in the electromagnetic field, the energy lost in the hysteresis cycle
9. Forces in the magnetic field
10. Eddy currents, skin effect and proximity effect, shielding electromagnetic fields
11. Electromagnetic interference due to radiation waves
Laboratories:
1. Forces of two conductors at different positions relative to each
2. The influence of the skin effect on the impedance conductive objects
3. Dependence of the coil impedance at the frequency
4. Effect AC conductor in ferromagnetic grooves
5. Practical calculation of the interaction of two devices via the electromagnetic interaction
Projects performed by computers:
1. Visualization of the effects of electrostatics in a specific case
2. Solving the effects of the magnetic field busbar
1. Physical concepts of electromagnetic fields
2. Maxwell's equations in differential and integral form
3. Electric field in conductors or dielectrics
4. Electrical conductivity, dependence of conductivity on temperature, superconductivity
5. Electrostatic forces and their use
6. Practical computing of capacity in electrical equipment
7. Practical calculations of inductance in electrical equipment
8. Energy in the electromagnetic field, the energy lost in the hysteresis cycle
9. Forces in the magnetic field
10. Eddy currents, skin effect and proximity effect, shielding electromagnetic fields
11. Electromagnetic interference due to radiation waves
Laboratories:
1. Forces of two conductors at different positions relative to each
2. The influence of the skin effect on the impedance conductive objects
3. Dependence of the coil impedance at the frequency
4. Effect AC conductor in ferromagnetic grooves
5. Practical calculation of the interaction of two devices via the electromagnetic interaction
Projects performed by computers:
1. Visualization of the effects of electrostatics in a specific case
2. Solving the effects of the magnetic field busbar