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I want the syllabus of Msc Physics of IIT Joint Admission Test for M.Sc. JAM Exam so can you provide me?

[Vishal Kotkar]

I am providing you the syllabus of Msc Physics of IIT Joint Admission Test for M.Sc. JAM Exam

IIT JAM Exam Msc Physics syllabus

Oscillations, Waves and Optics

Damped and forced oscillators
Diffraction gratings
Doppler Effect
Double refraction
Energy density and energy transmission in waves
Fermat’s Principle
Fraunhofer diffraction
General theory of image formation
Group velocity and phase velocity
Interference of light
Optical path retardation
Optical rotation
Polarization
Rayleigh criterion and resolving power
Simple harmonic oscillator
Sound waves in media
Wave equation

Modern Physics

Blackbody radia*tion
Bohr’s atomic model
Compton Effect
Laws of radioactive decay
Lorentz transformations
Mass and binding energy
Mass energy equivalence
Pauli Exclusion prin*ciple
Photoelectric effect
Postulates of special relativity
Ra*dioactivity and its applications
Relativistic velocity addi*tion theorem
Schrödinger equation
Structure of atomic nucleus
Uncertainty principle
Wave-particle duality
X-rays

Electricity and Magnetism

Alternating current
Ampere’s law
Biot-Savart law
Capacitors
Conductors
Coulomb’s law
Dielectric interface
Dielectric polarization
Dielectrics
Displacement current
Electric field
Electrostatic energy
Faraday’s law of electromag*netic induction
Gauss’s law
Lorentz Force
Maxwell’s equations
Poynting’s theorem
Self and mutual inductance

Mathematical Methods

Algebra of complex numbers
Bernoulli’s theorem
Calculus
Centre of mass
Conservation of linear and angular momentum
Divergence theorem
Elastic and inelastic collisions
Equation of continuity
Euler’s equation
Fixed axis rotations
Fourier series
Gravitational Law
Green’s theorem
Kepler’s laws
Kinematics of moving fluids
Matrices
Mechanics and General Properties of Matter
Mo*tion under a central force
Multiple integrals
Newton’s laws of motion
Partial derivatives
Rigid body motion
Stokes’ theorem
Taylor expansion
Vector algebra
Vector Calculus

Kinetic theory, Thermodynamics

Carnot cycle
Clausius-Clapeyron equation
Equi-partition of energy
Ideal gas
Irreversible
Iso*thermal and adiabatic processes
Kinetic theory of gases
Laws of thermodynamics
Maxwell’s thermodynamic relations
Mean free path
Phase transitions
Quasi-static processes
Reversible
Second law and entropy
Specific heat
Thermal equilibrium
Thermodynamic potentials
Velocity distribution
Zeroeth law

Solid State Physics, Devices and Electronics

Amplifier circuits with transistors
Bragg’s law
Braves lattices and basis
Crystal structure
Fermi level
Intrinsic and extrinsic semiconductors
Miller indices
Operational amplifiers
Transistor circuits
X-ray diffraction