M.Sc. (Physics)  I^st SEM

Paper: Mathematical Physics

Course learning outcomes: After completion of course, students will be able to

• Solve ordinary differential equations and some special differential equations, their generating functions & solutions.
• Solve Laplace transform and Fourier integral transform
• Learn about Green’s function and its application in solving many physical problems
• Learn about complex variables and contour integration

M.Sc. (Physics)  I^st SEM

Paper: Classical Mechanics

Course learning outcomes: After completion of course, students will be able to

• Learn Lagrangian and Hamiltonian of one and many particle systems, principle of virtual work and solution of two body problems.
• Learn about canonical transformation and its applications
• Understand mechanics of  small oscillations
• Understand symmetries of space & time and Covariant four dimensional vector and its application

M.Sc. (Physics)  I^st SEM

Paper: Quantum Mechanics

Course learning outcomes: After completion of course, students will be able to

• Solve time independent Schrodinger equation for simple quantum mechanical problems
• Learn about linear vector space, Dirac notations for state vectors and Heisenberg Uncertainty relation
• Solve harmonic oscillator problem and hydrogen atom problem
• Learn about Eigen functions and Eigen values of angular momentum
• Understand time independent perturbation theory

M.Sc. (Physics) I^st SEM

Paper: Electronic devices

Course learning outcomes: After completion of course, students will be able to

1. Learn working principle and applications of BJT, JFET, MOSFET and MESFET devices
2. Learn working principle of some Photonic devices and their applications
3. Learn about different types of memory devices
4. Learn electro-optic effect, magneto-optic effect and Acousto-optic effects  in materials

M.Sc. (Physics) II^nd SEM

Paper: Quantum Mechanics-II

Course learning outcomes: After completion of course, students will be able to

• Learn different approximation methods for determination of bound states
• Solve time dependent perturbation problems
• Learn about scattering theory and it application
• Learn about Klein-Gordan equation and Dirac’s relativistic equation

M.Sc. (Physics) II^nd SEM

Paper: Statistical Mechanics

Course learning outcomes: After completion of course, students will be able to

• Foundations of statistical mechanics , Micro canonical, Canonical & Grand Canonical ensembles and calculation of statistical quantities
• Learn about Maxwell- Boltzmann(MB) , Fermi- Dirac (FD)and Bose-Einstein (BE) statistics
• Learn about mean field theory and Ising models in one ,two & three dimensions
• Learn about fluctuation theory and Fokker-Planck equation

M.Sc. (Physics)  II^nd SEM

Paper: Electrodynamics and Plasma Physics

Course learning outcomes: After completion of course, students will be able to

1. Learn the basics of electrostatics and magnetostatics
2. Learn about electromagnetic field tensors and relativistic variation of E and H field
3. Understand the basics of plasma
4. Learn magneto-hydrodynamics and its applications

M.Sc. (Physics)  II^nd SEM

Paper: Atomic and molecular physics

     Course learning outcomes: After completion of course, students will be able to

1. Understand the basic concept of atomic spectra
2. Learn about the quantum states of one electron atoms and many electron atoms
3. Understand effect of external fields to spectra
4. Learn about vibrational and absorption spectroscopy

M.Sc. (Physics)  III^d SEM

Paper: Condensed Matter Physics-I

     Course learning outcomes: After completion of course, students will be able to

• Learn about Bravais lattices in two & three dimensions and some simple crystal structures
• Understand Reciprocal lattices and know about crystal structure determination techniques
• Learn about elastic properties of solids
• Understand lattice vibrations in solids and thermal specific heat of solids
• Learn band theory of solids, concept of effective mass

M.Sc. (Physics)  III^d SEM

Paper: Nuclear and Particle Physics

     Course learning outcomes: After completion of course, students will be able to

• Understand the basics of nuclear interaction and nuclear reaction
• Learn about the working of particle accelerators
• Learn nuclear models and its applications
• Learn nuclear decay(Alpha, Beta & Gamma)
• Learn about elementary particles and their properties & interactions

M.Sc (Physics)  III^d SEM

Paper: Digital Electronics

     Course learning outcomes: After completion of course, students will be able to

1. Learn about number system ( binary, octal, decimal, hexadecimal ) and their conversion
2. Understand about codes (BCD,Gray,ASCII, EBCDIC) and Design and verification of digital gates (OR,AND,NOT,NOR,NAND,XOR,XNOR)
3. Learn about elements of computer like MUX, DEMUX and flip flops
4. Learn about different types of counters

M.Sc. (Physics)  III^d SEM

Paper: Atomic and Molecular physics

     Course learning outcomes: After completion of course, students will be able to

1. Learn about concept of nuclear magnetic resonance spectroscopy(NMR)
2. Learn about electronic spectra of Diatomic Molecules
3. Learn about Raman spectroscopy of molecules
4. Learn about Mossbauer spectroscopy and electronic spin resonance spectroscopy(ESR)

M.Sc.(Physics)  III^d SEM

Paper: Condense Matter Physics-II

     Course learning outcomes: After completion of course, students will be able to

1. Understand the basics of superconducting properties of materials
2. Understand magnetic properties of materials
3. Understand imperfections in solids
4. Understand about thin films properties and its determination
5. Understand synthesis and properties of nanostructure

M.Sc. (Physics)  IV^thSEM

Paper: Laser physics

     Course learning outcomes: After completion of course, students will be able to

1. Learn about basic principal of laser
2. Learn about properties of Laser Beams and Resonators
3. Learn about types of laser (solid state laser , Gas laser , chemical laser )
4. Learn about application of laser and basic principal of holographs
5. Learn about basic idea about non linear optics

M.Sc. (Physics)  IV^th SEM

Paper:  Computer programming and informatics

     Course learning outcomes: After completion of course, students will be able to

1. Learn about Conceptual framework of computer languages and basic structure of C program
2. Learn about input and output statement and control statement
3. Learn about arrays and string functions
4. Learn about network according to range (LAN,MAN,WAN) according to topologies ( BUS, RING, STAR, Mesh Network)
5. Learn about Web Browser ( internet Explorer, Netscape Navigation ,Station and Dynamic Web page and introduction to HTML,HTML tags

M.Sc. (Physics)  IV^th SEM

Paper:  Environmental physics

     Course learning outcomes: After completion of course, students will be able to

1. Learn about essentials of Environmental physics
2. Learn about solar and terrestrial spectra
3. Learn about environmental pollution and Degradation
4. Learn about environmental change and Remote sensing
5. Learn about elements of global and regional climate