- Maxwell’s Equations in integral and differential notation
- Boundary conditions
- Laws of conservation for energy and charge
- Classification of electromagnetic field properties
- Integral characteristics of time-independent fields (R, L, C)
- Generic approaches to solving Poisson’s Equation
- Electrostatic fields and specific methods of solving
- Magnetostatic fields and specific methods of solving
- Fields of electrical current density and specific methods of solving
- Action of force within time-independent fields
- Numerical methods for solving time-independent problems
The practical application of numerical methods will be trained within specifically prepared lectures in an interactive manner using small MATLAB programs.