| Courses Offered: |
B. Sc. (Hons)
M. Sc. |
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| B. Sc.(Hons) Programme. |
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| PAPER-A. |
PAPER- B |
| VECTOR ANALYSIS, MECHANICS AND THEORY OF RELATIVITY |
WAVES & OSCILLATIONS,
THERMODYNAMICS AND STATISTICAL MECHANICS |
Vector Analysis,
Particle Dynamics,
Work, Power and Energy,
Systems Of Particles,
Collisions, Rotational Dynamics,
Angular Momentum, Gravitation,
Bulk Properties of Matters,
Special Theory of Relativity.
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Harmonic Oscillations
Waves in Physical Media
Sound
Light
Interference
Diffraction
Polarization
Heat and Temperature
Thermodynamics
Transport phenomena
Statistical Mechanics |
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| PAPER-C |
PAPER-D |
| ELECTRICITY AND MAGNETISM |
ELECTRONICS & MODERN PHYSICS |
Electric Field
Electric Potential
Capacitors and dielectrics
D C Circuits
Magnetic Field Effects
Inductance
Alternating Current Circuits
Electro Magnetic Waves (Maxwell's Equations |
Electronics
Origin of Quantum
Wave Nature of Matter
Quantum Mechanics
Atomic Physics
Nuclear Physics
Natural Radioactivity
Nuclear Reactions
Introduction to Quantum Optics (Laser) and Plasma Physics |
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| PAPER 1 |
PAPER II |
| Mathematical Physics |
QUANTUM MECHANICS |
Vectors in Classical Physics
Differential equations in Physics
Complex Variables
Linear Vector Spaces and Matrices
Integral Transforms
Tensors in Physics
Boundary Value Problems and Green’s Functions
Integral Equations
Group Theory |
Quantum Mechanics of one Dimensional problems
Formalism of Quantum mechanics
Angular Momentum
Schrödinger Equation in three Dimensions
Approximate Methods
The Theory of Scattering
The Interaction of Quantum systems with Radiations
Quantization of Fields |
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| PAPER-III |
PAPER IV |
| CLASSICAL MECHANICS |
THERMAL PHYSICS |
Elementary Principles
Variational Principles
Two Body Central Force Problem
Kinematics of Rigid Body Motion
Rigid Body Equation of Motion
Hamilton Equation of Motion
Canonical Transformations |
The Thermodynamic Potential
Kinetic Theory and Velocity Distributions
Distribution in Phase Space
Fluctuations
Transport Phenomena
Ensembles and distribution Functions
Theory of Ensembles |
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| PAPER V |
PAPER VI |
| Spectroscopy |
NUCLEAR PHYSICS |
Sepctral parameters
Atomic Spertra
Molecular Spectra |
Properties of Nuclei
INTRODUCTION OF QUANTUM MECHANICS IN NUCLEAR PHYSICS
ANGULAR MOMENTUM OF NUCLEI
Interaction of radiation with matter
Nuclear Radiation Detectors
Nuclear Accelerators
Nuclear Models
Nuclear Fusion
Nuclear Reactions |
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| PAPER VII |
PAPER VIII |
| Solid State Physics |
ELECTRONICS |
Crystal growth and Structure
Imperfections in Solids
Free Electron Theory
Lattice Dynamics
Dielectric Properties |
Special Diodes
Operational Amplifiers
Oscillators
Voltage Regulators |
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| M. Sc. Programme |
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| PAPER 1 |
PAPER II |
| Mathematical Physics |
QUANTUM MECHANICS |
Vectors in Classical Physics
Differential equations in Physics
Complex Variables
Linear Vector Spaces and Matrices
Integral Transforms
Tensors in Physics
Boundary Value Problems and Green’s Functions
Integral Equations
Group Theory |
Quantum Mechanics of one Dimensional problems
Formalism of Quantum mechanics
Angular Momentum
Schrödinger Equation in three Dimensions
Approximate Methods
The Theory of Scattering
The Interaction of Quantum systems with Radiations
Quantization of Fields |
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| PAPER-III |
PAPER IV |
| CLASSICAL MECHANICS |
THERMAL PHYSICS |
Elementary Principles
Variational Principles
Two Body Central Force Problem
Kinematics of Rigid Body Motion
Rigid Body Equation of Motion
Hamilton Equation of Motion
Canonical Transformations |
The Thermodynamic Potential
Kinetic Theory and Velocity Distributions
Distribution in Phase Space
Fluctuations
Transport Phenomena
Ensembles and distribution Functions
Theory of Ensembles |
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| PAPER V |
PAPER VI |
| Spectroscopy |
NUCLEAR PHYSICS |
Sepctral parameters
Atomic Spertra
Molecular Spectra |
Properties of Nuclei
INTRODUCTION OF QUANTUM MECHANICS IN NUCLEAR PHYSICS
ANGULAR MOMENTUM OF NUCLEI
Interaction of radiation with matter
Nuclear Radiation Detectors
Nuclear Accelerators
Nuclear Models
Nuclear Fusion
Nuclear Reactions |
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| PAPER VII |
PAPER VIII |
| Solid State Physics |
ELECTRONICS |
Crystal growth and Structure
Imperfections in Solids
Free Electron Theory
Lattice Dynamics
Dielectric Properties |
Special Diodes
Operational Amplifiers
Oscillators
Voltage Regulators |
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| Paper I: |
Paper II: |
| Electromagnetism & Waves |
Statistical Mechanics |
Fundamental concepts
Static electromagnetic fields
Time dependent electromagnetic fields
reflection and refraction of electromagnetic waves
Propagation of plane electromagnetic waves
Skin effect and wave guide
Electrodynamics and special relativity |
Statistical Mechanics of a crystals
Statistical Mechanics of a gas
Grand canonical ensembles
Quantum statistics
Fermi Dirac statistics
Inter particle forces |
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| Paper III: |
Paper IV: |
| Theory of Relativity & Gravitation |
Computational Physics |
Special relativity
Formalism of tensors
Theory relativity
Field equation, solution and experiment tests |
Computer Language
Numerical Method
Modeling and simulations |
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| Paper V: |
Paper VI: |
Digital Electronics &
Computational Microprocessor Architecture |
Data Communication & Industrial Electronics |
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| Optional: |
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Project of 6 credit hours
One paper & project of three credit hours
Energy physics
Laser |
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