Monday, 3 October 2016

RGPV TET PHYSICS Syllabus | Download RGPV TET Engg PHYSICS Syllabus www.rgpv.ac.in

RGPV TET PHYSICS Syllabus | Download RGPV TET Engg PHYSICS Syllabus

RGPV TET PHYSICS Syllabus | Download RGPV TET Engg PHYSICS Syllabus


Mathematical  Physics: Linear  vector  space;  matrices;  vector  calculus;  linear  differential equations; elements of complex analysis; Laplace transforms, Fourier analysis, elementary ideas about tensors. Classical  Mechanics: Conservation laws; central forces, Kepler problem and planetary motion; collisions  and  scattering  in  laboratory  and  centre  of  mass  frames;  mechanics  of  system  of particles; rigid body dynamics; moment of inertia tensor; noninertial frames and pseudo forces; variational  principle;  Lagrange’s  and  Hamilton’s  formalisms;  equation  of  motion,  cyclic coordinates, Poisson bracket; periodic motion, small oscillations, normal modes; special theory of relativity – Lorentz transformations, relativistic kinematics, mass-energy equivalence.
Electromagnetic  Theory: Solution  of  electrostatic  and  magnetostatic  problems includingboundary value problems;dielectrics andconductors; Biot-Savart’s and Ampere’s laws; Faraday’s law; Maxwell’s equations; scalar and vector potentials;  Coulomb and Lorentz gauges; Electromagnetic waves and their reflection, refraction, interference, diffraction and polarization. Poynting vector, Poynting theorem, energy and momentum of electromagnetic waves; radiation from a moving charge. Quantum  Mechanics: Physical basis of quantum mechanics; uncertainty principle; Schrodinger equation;  one,  two  and  three  dimensional  potential  problems;  particle  in  a  box,  harmonic oscillator, hydrogen atom; linear vectors and operators in Hilbert space; angular momentum  and spin; addition of angular momenta; time independent perturbation theory; elementary scattering theory.
Thermodynamics  and  Statistical  Physics: Laws  of  thermodynamics;  macrostates  and microstates;  phase  space;  probability  ensembles;  partition  function,  free  energy,  calculation  of thermodynamic  quantities;  classical  and  quantum  statistics;  degenerate  Fermi  gas;  black  body radiation and Planck’s distribution law; Bose-Einstein condensation; first and second order phase transitions, critical point. Atomic  and  Molecular  Physics: Spectra of one-  and many-electron atoms; LS and jj coupling; hyperfine structure; Zeeman and Stark effects; electric dipole transitions and selection rules; Xray  spectra;  rotational  and  vibrational  spectra  of  diatomic  molecules;  electronic  transition  in diatomic molecules, Franck-Condon principle; Raman effect; NMR and ESR; lasers. Solid  State  Physics: Elements  of  crystallography;  diffraction  methods  for  structure determination; bonding in solids; elastic properties of solids; defects in crystals; lattice vibrations and  thermal  properties  of  solids;  free  electron  theory;  band  theory  of  solids;  metals, semiconductors and insulators; transport properties; optical, dielectric and magnetic properties of solids; elements of superconductivity. Nuclear  and  Particle  Physics: Nuclear radii and charge distributions, nuclear binding energy, Electric  and  magnetic  moments;  nuclear  models,  liquid  drop  model  –  semi-empirical  mass formula,  Fermi  gas  model  of  nucleus,  nuclear  shell  model;  nuclear  force  and  two  nucleon problem;  Alpha  decay,  Beta-decay,  electromagnetic  transitions  in  nuclei;Rutherford scattering,nuclear  reactions,  conservation  laws;  fission  and  fusion;particle  accelerators  and detectors; elementary particles, photons, baryons, mesons and leptons; quark model. Electronics: Network  analysis;  semiconductor  devices;  Bipolar  Junction  Transistors,  Field Effect  Transistors,  amplifier  and  oscillator  circuits;  operational  amplifier,  negative  feedback circuits ,active  filters  and  oscillators; rectifier circuits, regulated power supplies; basic digital logic circuits, sequential circuits, flip-flops, counters, registers, A/D and D/A conversion.


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