2020 2021 Student Forum Dr Ram Manohar Lohia Avadh University Faizabad Syllabus

#1
12th May 2015, 09:32 AM
 Unregistered Guest

I want to pursue MSc Physics course from Dr. Ram Manohar Lohia Avadh University . Will you please provide the MSc Physics syllabus of Dr. Ram Manohar Lohia Avadh University for an idea ?
#2
12th May 2015, 11:27 AM
 Super Moderator Join Date: Apr 2013

It provides two year duration MSc Physics course .

Semester-I
PH 101: Mathematical Physics
PH 102: Quantum Mechanics - I
PH 103: Semiconductor Devices & Circuits
PH 104: Solid State Physics- I
PRACTICAL-I: Electronics Devices and Circuit Lab

Semester-II
PH 201: Numerical Analysis And FORTRAN Programming
PH 202: Quantum Mechanics -II
PH 203: Thermodynamics And Statistical Mechanics
PH 204: Solid State Physics-II
PRACTICAL-II: General Physics and Computer Programming Lab

Semester-III
PH 301: Nuclear Physics-I
PH 302: Classical Electrodynamics
PH 303: Integrated and Digital Electronics
PH 304: Electronics Communication Principles
PRACTICAL-III: Integrated Circuit And Communication Lab

Semester-IV
PH 401: Nuclear Physics-II
PH 402: Atomic And Molecular Physics
PH 403: Microprocessor And Computer Organization
PH 404: Laser And Optical Communication
PRACTICAL-IV: Microprocessor and Digital Electronics Lab
PROJECTS/SEMINAR
Dr. Ram Manohar Lohia Avadh University
MSc Physics syllabus

M.Sc. Previous – First Semester
PAPER-I: PH 101 MATHEMATICAL PHYSICS
Complex variable: Complex Variable & Complex Functions. Cauchy integral theorem,
Cauchy's integral formula, Evaluation of integrals by Contour integral, Residues,
Cauchy's residue theorem, Evaluation of integrals by residues methods.
Laplace and fourier transforms: Laplace transforms of various functions, Laplace
transform of derivatives and integrals, Convolution Theorem, Laplace transform of
certain special functions, Inverse Laplace transforms, Fourier transform, Application of
Fourier transforms.
Green function: Green Function, Green Function for one dimensional case, Properties of
Green function, Solution of inhomogeneous differential equation using Green Function.
Green Function for ∇2 operator, Solution of three dimensional Helmholtz equation
References:
1. Mathematical Physics by B.S.Rajpoot Pragati Prakashan
2. Mathematical Methods for Engineers: Morganeau and Murphy
3. Mathematical Physics: B. D. Gupta
4. Mathematical Physics: P. P. Gupta
5. Integral Transform: P. P. Gupta
PAPER- II: PH 102: QUANTUM MECHANICS - I
Matrix formulation and theory of angular momentum: Bra and Ket Notation, Matrix
form of wave function, Matrix representation of observable, Change of basis. Equation of
motion in Matrix form, Schrodinger, Heisenberg and interaction representation. Matrix
theory of linear harmonic oscillator and general proof of uncertainty principle in Matrix
mechanics. Angular momentum operators, Commutation relation of angular momentum,
j2=1/2 and j1=1, j2=1/2), Pauli matrices.
Klein-Gorden and Dirac equation: K.G. equation, Plane wave solution of Dirac
equation. Negative energy states and prediction of positron, Spin and Intrinsic magnetic
moment of Dirac electron.
Second quantization of fields: Quantization of non-relativistic Schrodinger equation,
Second quantization of Klein-Gordon, Dirac and em field (Lorentz guage), The number
representation, creation and annihilation operators and simple problems on algebra of
annihilation and creation operators, Fock space representations.
REFERENCES: -
1. Quantum Mechanics by L. I. Schiff
2. Quantum Mechanics by Pauling & Wilson
3. Quantum Mechanics by B. K. Agrawal
4. Quantum Mechanics by Merzbacher
5. Quantum Mechanics by Ghatak & Lokanathan
PAPER III: PH 103: SEMICONDUCTOR DEVICES & CIRCUITS
Bipolar Junction Transistors: Transistor action, configurations and characteristics,
current gains, h-parameters and analysis of transistor amplifier using h-parameter, inter
conversions in different configuration, thermal instability and bias stabilization, cascaded
transistors.
Multistage Amplifiers: BJT at high frequencies, frequency response of RC coupled
amplifiers and transformer coupled amplifier.
Power Amplifiers: Classification of amplifiers, transformer coupled class- A power
amplifier, efficiency and crossover distortion, class- B push pull amplifier, single tuned
and double tuned amplifier.
Classification of feedback amplifiers, effect of negative feedback, stability and response
of feedback amplifiers,
Oscillators: General theory of operation, Phase Shift, Wien’s Bridge, Hartley, Collpit and
Crystal Oscillators.
References:
1. Electronic Devices & Circuits: Mottershed
2. Electronic Devices & Circuits: Milliman and Halkias
3. Solid state Electronic devices: B. G. Streetman
4. Functional Electronics: Ramnan

Contact:
Dr. Ram Manohar Lohia Avadh University
05278 246 223

Map:

For detailed syllabus , here is the attachment ;
Attached Files
 Ram Manohar Lohia Avadh University .pdf (235.7 KB, 168 views)

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