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IIT JAM Msc Physics Syllabus |
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Re: iit jam msc physics syllabus
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 |
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