Madurai Kamaraj University Syllabus Msc Physics

Sumit Bhardwaj · #1 March 14th, 2016, 02:27 PM

Sir I am looking for the Madurai Kamaraj University syllabus M.Sc physics so can you please tell me the same

Madurai Kamaraj University is a public university in India located in Madurai city in southern Tamil Nadu, India. It was established in 1966 and has about 130,000 students in 18 schools comprising 72 departments, and 109 affiliated colleges.

Below I have given the Madurai Kamaraj University syllabus M.Sc physics which contains the below subjects

Paper Name Examination Code

I 1 Mathematical Physics PPHY01

2 Classical Mechanics & Statistical Mechanics PPHY02

3 Electromagnetic Theory PPHY03

4 Optics and Spectroscopy PPHY04

5 Practical – I: General Experiments PPHYL1

6 Practical – II: Electronics Experiments PPHYL2

7 Viva-I: Practical Records (25+25) PPHYR1

II 1 Quantum Theory PPHY05

2 Digital Electronics & Microprocessors PPHY06

3 Atomic & Nuclear Physics PPHY07

4 Condensed Matter Physics PPHY08

5 Practical – III: General Experiments PPHYL3

6 Practical – IV: Electronics Experiments PPHYL4

7 Viva-II: Practical Records (25+25) PPHYR2

Scheme of Examination for all M. Sc. Degree Courses
Duration: 3 Hrs.; Maximum: - 100 Marks; Passing Min.: - 50 Marks.

Eligibility
B.Sc. (Physics) / B.Sc. (Applied Science) Degree of Madurai Kamaraj University or of any other recognized University

Course Duration:
2 Years – (Non- Semester System)

Madurai Kamaraj University syllabus M.Sc physics

Unit — I
Columbo's law, electric ﬁeld, electrostatic paternal, conductors and Insulators,
Gauss law and its applications, the electric dipole, Multipole expansion. Poisson's
equation and Laplace's equation, Laplace's equation in oneiiidependent variable,
soultion to Laplace'scquation in spherical polar coordinates if Zonal harmonics,
Boundary value problems in electrostatics, conducting sphere in a uniform electric
ﬁeld, Laplace's equation in plane polar coordinates Method of images point charges
and a conducting sphere, Line charges and line iniages.

Unit — II
Polarization — electric ﬁeld in the presence of a dielectric medium, Gauss- law in a
dielectric and the electric displacement vector. Electric susceptibility and dielectric
cOnstant, Point charge in a dielectric ﬂuid, Boundary conditions on the ﬁeld vectors at
the interface of two different media, Boundary - value problems involving dielectrics,
Dielectric sphere in a uniform electric ﬁeld. Potential energy of a system of point
charges and that of a charge distributions Energy density of a system of point charges.
and that of a charge distributions. Energy density of an electrostatic ﬁeld, Energy of a
system of conductors and coefﬁcients of potential, Force of a dielectric slab partially
introduced in an electric ﬁeld,

Unit — ill
The deﬁnition of magnetic induction, Forces on current carrying conductors, Eliot
and Sayart's law and its elementary application. Ampcre's circuital law, the magnetic
\ector potential. The magnetic ﬁeld of a distant circuit, the magnetic scalar potential
2d magnetic flux.Magnetization, the magnetic ﬁeld produced by a magnetic material, magnetic
scalar potential and magnetic pole density - The sources of magnetic ﬁeld, Magnetic
intensity. The field equations, Magnetic susceptibility and permeability, Boundary
C-enditions of ﬁeld vectors.
Electromagnetic induction, Magnetic energy of coupled circuits, energy density
1% 35333 ﬁeld-forces and torques of rigid circuits. Electrical neutrality in a plasma,
set-,1" orbits and drift motion in a plasma, Magnetic mirrors, Magnets hydrodynamic
~iT‘Viyd-J'omagnetic) equations, Alfven waves, the pinch effect, magnetic confinement
systems for thermonuclear fusion - Plasma oscillations, and wave motion, the use of
“utilises for plasma measurements.

Unit — IV
Generalization of Ampere‘s law, displacement current - Maxwell’s equation and
electromagnetic energy - The wave equation with and without sources - Plane
Monochromatic wave in non conducting media, Polarization of electromagnetic waves,
Energy dmtsity and flux. Plane monochromatic waves in conducting media.
Reﬂection refraction at the boundary between two non-conducting media -
biennial incidence and oblique incidence, Brewster's angle, critical angle. Complex
erase-rt coefﬁcients - reﬂection from a conducting plane, Reﬂection and transmission
try the layers, interference. Propagation between parallel conducting plates, wave guide
tijpti-ai dispersion - Drude - Lorentz model, Resonance absorption by
quaeieiasti-ciig bound charges, The Drude free-electron theory.

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