| Topic |
| Session 1 | Coulomb's law and electric lines of force |
| Session 2 | Electric lines of force, electric field, vector analysis (Inner product of vectors) |
| Session 3 | Vector analysis (Vector cross product, scalar field gradient, vector field divergence) |
| Session 4 | Vector analysis (Vector field rotation, vector integration) |
| Session 5 | Gauss's law of electrostatic field (Integral form) |
| Session 6 | Integral and differential forms of Gauss's law, examples of Gauss's law, vector flux and circulation |
| Session 7 | Maxwell's equations: Integral form |
| Session 8 | Maxwell's equations: Differential form |
| Session 9 | Calculation example of electrostatic potential, electric dipole potential and electric field |
| Session 10 | Conductors and electric fields, electrostatic energy |
| Session 11 | Electric fields in materials (Polarization and dielectrics) |
| Session 12 | Static magnetic field (Current and magnetic field) |
| Session 13 | Static magnetic field (Ampere's law) |
| Session 14 | Static magnetic field (Biot-Savart law) |
**This content is based on April 1, 2024. For the latest syllabus information and details, please check the