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1.1 Simple harmonic motion: Preliminary concepts, Superposition of S. H. Ms in two mutually perpendicular directions: Lissajous figure perpendicular directions: Lissajous figure.
1.2 Damped vibration: Differential equation and its solution, Logarithmic decrement, Quality factor.
1.3 Forced vibration: Differential equation and its solution, Amplitude and Velocity resonance, Sharpness of resonance
1.4 Application in L-C-R Circuit
2.1 Interference of electromagnetic waves: Conditions for sustained interference, double slit as an example
2.2 Qualitative idea of Spatial and Temporal Coherence, Conservation of energy and intensity distribution, Newton’s ring.
2.3 Diffraction of light: Fresnel and Fraunhofer class. Fraunhofer diffraction for single slit and double slits
2.4 Intensity distribution of N-slits and plane transmission grating (No deduction of the intensity distributions for N-slits is necessary), Missing orders
2.5 Rayleigh criterion, Resolving power of grating and microscope.for N-slits is (Definition and formulae)
3.1 Polarization: General concept of Polarization, Plane of vibration and plane of polarization, Qualitative discussion on Plane, Circularly and Elliptically polarized light
3.2 Polarization through reflection and Brewster’s law, Double refraction (birefringence)-Ordinary and Extra-ordinary rays
3.3 Nicol's Prism,Polaroid. Half wave plate and Quarter wave plate.
3.4 Laser: Spontaneous and Stimulated emission of radiation, Population inversion, Einstein’s A & B co-efficient (derivation of the mutual relation)
3.5 Optical resonator and Condition necessary for active Laser action, Ruby Laser, He-Ne Laser- applications of laser.
3.6 Holography: Theory of holography, viewing the hologram, Applications
4.1 Concept of dependence of mass with velocity, mass energy equivalence, energy- momentum relation (no deduction required)
4.2 Blackbody radiation: Rayleigh Jeans’ law (derivation without the calculation of number of states), Ultraviolet catastrophe, Wien’s law, Planck’s radiation law (Calculation of the average number of energy of the oscillator), Derivation of Wien's displacement law and Stephan's law from Planck's radiation law
4.3 Rayleigh Jean's law and Wien's law as limiting cases of Planck's law
4.4 Compton Effect (calculation of Compton wavelength is required).
4.5 Wave-particle duality and de Broglie’s hypothesis, Concept of matter waves, Davisson-Germer experiment, Concept of wave packets and Heisenberg’s uncertainty principle.
5.1 Elementary ideas of crystal structure : lattice, basis, unit cell, Fundamental types of lattices – Bravais lattice, Simple cubic, f.c.c. and b.c.c. lattices, (use of models in the class during teaching is desirable]Miller indices and miller planes, Co-ordination number and Atomic packing factor.
5.2 X-rays : Origin of Characteristic and Continuous X-ray, Bragg’s law (No derivation), Determination of lattice constant.
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CategoriesEngineering Physics
Format EPUB
TypeeBook