#1
6th June 2015, 09:48 AM
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Physics IIT Ropar
Will you please provide here the syllabus of the physics subject of the BTRECT mechanical engineering 1st year course of the IIT Ropar ?
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#2
6th June 2015, 11:45 AM
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Re: Physics IIT Ropar
As you want I am here providing you syllabus of the physics subject of the BTRECT mechanical engineering 1st year course of the IIT Ropar, Syllabus : Physics PHL101 Electromagnetics, 4 (310) Gauss’ law in vector form and application to electrostatics, Electric polarization, electric permittivity, Displacement vector; Laplace’s equation and Poisson’s equation and solutions in simple situations; Amperes law, Magnetization, Faraday’s law of induction, Equation of continuity; Displacement current, Maxwell’s equations; electromagnetic waves in dielectrics; reflection and refraction of electromagnetic waves, polarization, transmission lines and metal waveguides; Special theory of relativity, Michelson Morley experiment, Lorentz transformations, time dilation, length contraction and velocity addition. PHL102 Quantum Physics, 4 (310) Particles and Waves in classical Physics: Need for quantum mechanics ( Planck's law of radiation, Photoelectric effect, Compton scattering, Raman effect and Stern Gerlach experiment); Double Slit experiment with light; Matter waves; Postulates of Quantum Mechanics: States and operators; Hilbert space; Dirac's bra and ket notations: Schroedinger equation (time dependent and time independent); Uncertainty principle; Applications of Schoredinger equation in one spatial dimension: Potential well and barrier: scattering and bound states: Tunneling. Harmonic oscillator; Symmetries in Quantum mechanics: Translational invariance; Rotational invariance and Angular momentum operators: Discrete symmetry: Parity, lattice translational symmetry Bloch equation; Time reversal symmetry; Schoredinger equation in higher dimension: Motion of a charged particle in a uniform magnetic field: Hydrogen atom: concept of degeneracy; Spin and dynamics of spin: Zeeman Effect; Entanglement in quantum system: EPR paradox, Philosophical issues. PHL103 Classical Mechanics, 4 (310) Constraints, virtual work and D'Alemberts principle. Generalized coordinates and Lagrange's equation, Basics of the calculus of variations. Hamilton's principle and Lagrange equations. Cyclic coordinates, conservation laws. Central force and analysis using effective potentials, Kepler's problem. Scattering of particles by a central force. Rutherford's law. Rigid body motion, body and space coordinates, Euler angles, non inertial frames. Eulers theorem, moment of inertia tensor, principal axis transformation and Euler'equations of motion. Centrifugal and Coriolis force. Precession and nutation of rigid bodies. Small oscillation theory, nature of equilibrium and normal modes. Hamilton equations of motion, principle of least action. Canonical transformations, Poisson brackets. Jacobi's action angle variables, Liouville's theorem. Phase space plots, stability of fixed points, period doubling bifurcations and chaos. classical theory of fields, Lagrangian and Hamiltonian formulation. Noether's theorem. PHL104 Optics and Lasers, 4 (310) Plane waves and spherical waves; Interference: two beam and multiple beam interference; Michelson, Sagnac, Fabry Perot interferometers; Diffraction: Fraunhofer and Fresnel diffraction, Fraunhofer diffraction by rectangular and circular apertures; Resolution of optical instruments; Fourier optics and spatial frequency filtering; Fresnel diffraction: Diffraction of a Gaussian beam; Polarization and polarization components; Basics of lasers, Einstein coefficients, population inversion and optical amplification; Threshold for laser oscillation; Optical resonators, stability condition, transverse and longitudinal modes; Mode selection; Qswitching and mode locking; Properties of laser beams; Types of lasers; Some laser applications. Address: Indian Institute of Technology Ropar Nangal Road Rupnagar, Punjab 140001 MAP: [MAP]Indian Institute of Technology Ropar[MAP] |
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