LOYOLA COLLEGE (AUTONOMOUS), CHENNAI – 600 034
M. Sc. DEGREE EXAMINATION – PHYSICS
THIRD SEMESTER – NOVEMBER 2003
PH 3802 / PH 922 – ELECTRODYNAMICS II
07.11.2003 Max. : 100 Marks
1.00 – 4.00
PART – A
Answer ALL questions. (10 x 2 = 20)
- Write down the real electric and magnetic fields for a plane monochromatic wave of amplitude Eo, frequency w, and phase angle that is travelling in the negative y – direction and polarised in the z – direction
- What is anomalous dispersion?
- Why are the ‘retarded potentials’ so called?
- State the Larmor formula for the power radiated by a moving point charge.
- Define Contra – and Covariant tensors of rank – 2 by their transformation properties.
- What is the Darwin Lagrangian? Give an expression for the same.
- Write down the electrodynamic boundary conditions near the surface of a perfect conductor.
- Distinguish between TM and TE waves.
- How are the electric and the magnetic fields, in a perfectly conducting fluid, related?
- State the principle of the ‘pinch’ effect.
PART – B
Answer any FOUR questions (4 x 7.5 = 30)
- Derive expressions for the reflection and the transmission Coefficients for normal incidence of a plane em wave at the boundary between two linear media.
- An in finite straight wire carriers the current
0, for t £ 0
I(t) = . Find the resulting electric field.
Io, for t > 0
-2-
- a) Prove that the charge density transforms like the time component of the 4 – vector. (2)
- b) Obtain an expression for the relativistic Lagrangian for a charged particle.
(5.5)
- Assuming a sinusoidal time dependence for the em fields inside a cylindrical wave guides establish the Maxwells equations in terms of transverse and parallel components.
- Use the necessary em equation’s to explain the role played by the ‘magnetic Reynolds number’ to distinguish between the diffusion of magnetic lines of force and the freezing – in of the magnetic lines of force.
PART – C
Answer any FOUR questions (4 x 12.5 = 50)
- Explain the dispersion phenomenon in nonconductors and hence obtain the Cauchy’s equation.
- Derive expressions for the electric and magnetic fields of an oscillating electric dipole.
- Write down the field-strength tensors explicitly in matrix form and establish the covariance of the Maxwell’s equations
- Discuss the propagation of TE Waves in a rectangular wave guide with inner dimensions a, b (with a = 2b) and find the frequencies of the first four modes.
- Discuss the magneto hydrodynamic flow between boundaries with crossed electric and magnetic fields and bring out the role played by the Hartmann number.
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