Classical Electrodynamics.

 

1) Plasma Physics. introduction. Part 1. NOTES.

2) Plasma physics. Introduction. Part 2. NOTES.

3) Derivation of debye length. NOTES.

4) conditions of an ionized gas to be plasma. NOTES.

5) Motion of  plasma in uniform magnetic field and E = 0, Case I. NOTES.

6) Motion of plasma in perpendicular magnetic and electric field. Case II. NOTES.

7) Motion of plasma in nonuniform magnetic field. Case III. NOTES.

8) Magnetic mirrors. Conditions of  plasma confinement. NOTES.

9) Equation of Motion. Euler equation of motion. NOTES.

10) Equation of continuity in plasma. NOTES.

11) Ohm law in plasma. NOTES.

12) Pinch effect. NOTES.

13) Plasma oscillation and frequency derivation. NOTES.

14) Hydrodynamic wave equation. Alfven wave equation. NOTES.

15) Solution of wave equation for magnetic scaler potential. NOTES.

16) Solution of wave equation for magnetic vector potential.

17) Radiations from oscillating dipole. NOTES.

18) Plane equation for electric field.  NOTES.

19) Solution of plane wave equation for non conducting medium. NOTES.

20) wave propagation velocity and refractive index of medium. NOTES.

21) Solution of plane wave equation for conducting medium.

22) skin depth NOTES.

23) superposition of waves. NOTES.

24) Polarization. NOTES.

25) Reflection and refraction of electromagnetic waves at a plane interface between dielectrics.

26) Reflection and refraction of waves at a plane interface between dielectrics. Oblique incidence.

27) Polarization of Light by reflection.

28) Reflection of electromagnetic waves by conducting medium.