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Electromagnetism
1. Brief history of Electromagnetism
2. Principles of Classical Electromagnetism
2.1. Principles of Classical Electromagnetism in Free Space
2.2. Electromagnetism in Matter
2.2.6. Polarization
2.2.7. Magnetization
2.3. Galileian relativity in electromagnetism
3. Electromagnetic waves
3.1. Electromagnetic Potentials
3.2. Wave Equations in Electromagnetism
3.3. Plane Electromagnetic Waves
4. Force, moments, energy and momentum in electromagnetism
4.1. Force, moment, and power on elementary charge distributions
4.2. Energy and momentum balance in linear, local, isotropic, non-dispersive media
5. Regimes in Electromagnetic systems
5.1. Non-dimensional equations of electromagnetism
5.2. Electrostatics
5.3. Steady regime
5.4. Slow regime
Electrical Engineering
6. Circuit Approximation
7. Energy balance in circuit approximation
8. Electric circuits
8.1. Circuit Approximation
8.2. Elementary circuits
8.3. Electromagnetic Induction in Circuit Approximation
8.4. Operating Regimes
9. Electromagnetic Circuits
9.1. Transformer
10. Electromechanical Systems
10.1. Energy balance in electromechanic systems
10.2. Electromechanic systems: examples
10.2.1. Electromechanic systems: first examples with induction
10.2.2. Electromechanic lock
10.2.3. DC motors
10.2.4. AC motors
10.3. Electromechanical Systems - OLD
11. Network analysis
11.1. Network analysis of linear circuits
11.2. Network analysis of linear circuits - harmonic regime
11.3. Three-phase circuits
11.4. Exercises
11.4.1. Transient dynamics of linear electrical grids with one dynamic component
11.4.2. Harmonic regime of linear electrical grids
11.4.3. Three-phase electrical circuits in harmonic regime
11.4.4. Electromagnetic circuits
Numerical Methods
12. Green’s function method
13. Metodi numerici
Appendices
14. todo: appendices
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Energy balance in electromechanic systems
10.1.
Energy balance in electromechanic systems
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