| 1. | |
Introduction & Vector Analysis 1 | Vector algebra, Differential calculus |  |
| 2. | |
Vector Analysis 2 | Integral calculus, Curvilinear coordinates, The Dirac delta function | |
| 3. | |
Electrostatics 1 | Electric field, Divergence & curl of electrostatic fields, Electric potential | |
| 4. | |
Electrostatics 2 | Work and energy in electrostatics, Conductors | |
| 5. | |
Potentials 1 | Laplace equation, The method of images | |
| 6. | |
Potentials 2 | Separation of Variables, Multipole expansion | |
|
Potentials 2 | Separation of Variables, Multipole expansion | |
|
| 7. | |
Electric Fields in Matter 1 | Polarization, The field of a polarized object | |
| 8. | |
Midterm Exam. | From Chapter 1 to Section 4.2 of Chapter 4 | |
| 9. | |
Electric Fields in Matter 2 | Electric displacement, Linear dielectrics | |
| 10. | |
Magnetostatics 1 | Lorentz force law, Biot-Savart law | |
| 11. | |
Magnetostatics 2 | Divergence & curl of B, Magnetic vector potential | |
| 12. | |
Magnetic fields in matter 1 | Magnetization, Field of a magnetized object | |
| 13. | |
Magnetic fields in matter 2 | Auxiliary field H, Linear & nonlinear media | |
| 14. | |
Electrodynamics 1 | Electromotive force, Electromagnetic induction | |
| 15. | |
Electrodynamics 2 | Maxwell’s equations, Boundary conditions | |
|
Final Examination | From Chapter 4 to chapter 7 | |
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