Book Details

APPLIED PHYSICS

APPLIED PHYSICS

Published by uLektz

Course Code:BSCM1202

Author:uLektz

University: Biju Patnaik University of Technology (BPUT)

Regulation:2010

Categories:Engineering Physics

Format : ico_bookePUB3 (DRM Protected)

Type :eBook

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Description :APPLIED PHYSICS of BSCM1202 covers the latest syllabus prescribed by Biju Patnaik University of Technology (BPUT) for regulation 2010. Author: uLektz, Published by uLektz Learning Solutions Private Limited.

Note : No printed book. Only ebook. Access eBook using uLektz apps for Android, iOS and Windows Desktop PC.

Topics
MODULE-I CLASSICAL DYNAMICS

1.1 Principle Of Virtual Work, De-lambert Principle,Action Principle,Langrage Equation Of Motion And Its Application To Simple Harmonic Oscillator,Velocity Dependent Potential

1.2 Oscillation&Waves,Simple Harmonic Oscillation,Damped Harmonic Oscillation,Forced Oscillator,Resonance,Coupled Oscillation,Concept Of Wave And Wave Equation

1.3 Optics, Concept Of Interference, Two Source Interface Pattern, Bi-Prism, Michelson Interferometer & Measurement Of Wavelength

1.4 Diffraction: Huygens Principle, Fresnel&Fraunhofer’s Diffraction, Zone Plate

MODULE-II SOLID STATE PHYSICS

2.1 Crystalline and amorphous solid, unit cell, Miller Indices, Reciprocal lattice, Bragg’s law, Brillouin’s zone

2.2 Concept of Fermions and Bosons, Maxwell-Boltzmann, Fermi-Dirac And Bose-Einstein, Distribution Function (Only Statement And Formula)

2.3 Classification of materials: metals,semiconductor and insulator in terms of band theory

2.4 LASER and fiber Optics: principle and application, stimulated emission, population inversion, Lasing material (solid and gas), He-Ne laser, Ruby- LASER, Application of LASER (Engineering Application)

2.5 Principle of optical fibre and its application to communication.

MODULE-III ELECTROMAGNETISM

3.1 a) Vector Calculus, Gradient Of Scalar Field, Divergence, Curl Of Vector Field (Only Physical Significance), Gauss Divergence Theorem, Stoke’s Theorem, Green’s Theorem (Only Statements)

3.2 b) Gauss’s Law Of Electrostatics In Free Space And In a Medium(Only Statements), Electric Displacement (d), Magnetic Induction (b), Amperes Circuital Law (Only Statements), Displacement Current, Faraday’s Law Of Electromagnetic Induction(Only Statements)

MODULE-IV QUANTUM PHYSICS

4.1 a) Need for Quantum physics, Historical overviews, Particle aspects of radiation, Black body radiation, photoelectric effect, Compton scattering, pair production.( No derivations)

4.2 Wave aspect of particles, Matter wave, de Broglie Hypothesis

4.3 Heisenberg Uncertainty principles, Statement, Interpretation and example

4.4 b) Basic features of Quantum mechanics, Transition from deterministic to probabilistic States of system

4.5 Wave function, probability density, superposition principle, observables and operators, expectation values

4.6 Schrodinger equation:Time dependent and time independent wave packets

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