Lectures:
1. Maxwell's equations, integral and differential quantities, units, properties of the medium
2. Electromagnetic fields, basic types of fields, duality
3. Electrostatic field: field of a bundle conductor, the edge effect
4. Electrostatic field: spherical spark gap, droplet in a homogeneous field
5. Stationary current field: step voltage, terminal deflectors
6. Stationary magnetic field: capacitance of an overhead line and cable
7. Quasi-stationary fields: inductance of overhead lines
8. Poynting vector, losses in energy transmission
9. Heat propagation, thermal breakdown
10. Mechanics, catenary equations, short circuit effects
11. Mechanics: particle collisions, start-up of an electric drive
12. Induction heating
13. Dielectric heating
1. Maxwell's equations, integral and differential quantities, units, properties of the medium
2. Electromagnetic fields, basic types of fields, duality
3. Electrostatic field: field of a bundle conductor, the edge effect
4. Electrostatic field: spherical spark gap, droplet in a homogeneous field
5. Stationary current field: step voltage, terminal deflectors
6. Stationary magnetic field: capacitance of an overhead line and cable
7. Quasi-stationary fields: inductance of overhead lines
8. Poynting vector, losses in energy transmission
9. Heat propagation, thermal breakdown
10. Mechanics, catenary equations, short circuit effects
11. Mechanics: particle collisions, start-up of an electric drive
12. Induction heating
13. Dielectric heating