Department of Physics [ Profile | Vision | Faculty | Courses | Resources | Other Information ] M.Tech Nano Technology
Intake Strength: 8 students Scheme
Syllabus
B.Tech The department also contributes to the following branches of B.Tech 1. I & II Semester : Civil Engg.
Computer Science & Engg.
Electrical Engg.
Electronics & Communication Engg.
Information Technology
Mechanical Engg. 2. VII Semester: Electronics Engg.
Physics-I
PHY 101
(B.Tech-I Sem all branches) UNIT-I: Wave Optics
Interference, Newtons Ring, Biprism, Michelson Interferometer, Diffraction -single slit, double slit and grating, Resolwing Power UNIT-II: Electron Ballistics
Motion of charged particle in Electric field, Magnetic field and combined Electric-Magnetic field, focusing of electron, basics of Electron microscope, CRT, Mass spectrograph. UNIT-III: Nuclear Physics
Nuclear structure and Nuclear properties, ,Liquid Drop and Shell Model, Particle Accelerator, Theory of a,ß and ? decay, nuclear cross section, Nuclear reaction Fission and Fusion UNIT-IV: SolidState/ Semiconductor Physics
Idea of energy bands in solids, Distinction between metal, semiconductor and insulator, Intrinsic and extrinsic semiconductor, Electron and hole mobility, Electrical conductivity and Hall effect, P-N Junction, Junction transistor, Transistor parameters, thermistor, Photo voltaic effect, Solar cell . UNIT-V: Dielectric and Magnetic properties of Materials
Dielectric polarization, Gauss`s law, E, P and D vectors, Different types of polarization,, Concept of internal field, Clausius Mosotti relation, Langevin`s theory, Idea of polar and non-polar dielectrics, Idea of lossy dielectrics, Loss tangent , Idea of complex permittivity, Magnetic field, Magnetization, Magnetic susceptibility, Magnetic materials, Dia- para- and ferro- magnetic materials. References: 1) Engg. Physics by PG Kshirsagar
2) Concept of Modern Physics by Arthur Beiser Physics-II
PHY-151
(B.Tech-II SEM all branches) UNIT-I: Modern Physics
Plancks theory, Photo-Electric effect, Einsteins equations, Wave-particle duality -De Broglie waves, Heisenberg uncertainty principle, Compton Effect, X-Ray spectra UNIT-II: Quantum Mechanics
Wave equation, Schrödinger Equation-Steady state form, Particle in box, Harmonic oscillator, Hydrogen atom, Vector atom model. UNIT-III: Theory of relativity
Transformation equations, Time dilation, Length contraction, Relativistic momentum, Mass energy equation, Relativistic mass, UNIT-IV: Laser
Introduction, Interaction of radiation with matter, Conditions for light amplification, Population Inversion, Pumping, Optical resonator, Types of LASER-solid state, gas and dye laser, Applications-Laser holography. UNIT-V: Fiber Optics
Introduction, Optical fibres, Propagation of light through cladded fibre, Types of optical fibres, Materials and fabrication of fibre, Attenuation, Fibre losses, Fibre optics communication. References: 1) Engg. Physics by PG Kshirsagar
2) Concept of Modern Physics by Arthur Beiser
|
