Engineering Physics Quantum Theory Module 2
Quantum Theory : Planck’s radiation formula, Ultraviolet catastrophe, Compton’s effect, de Broglie’s concept of matter waves, Heisenberg’s uncertainty relations, Schrodinger’s wave equation, Physical interpretation of wave function, Particle in a one-dimensional potential well.
Engineering Physics Quantum Theory Module 1
Quantum Theory : Planck’s radiation formula, Ultraviolet catastrophe, Compton’s effect, de Broglie’s concept of matter waves, Heisenberg’s uncertainty relations, Schrodinger’s wave equation, Physical interpretation of wave function, Particle in a one-dimensional potential well.
BEE Unit 3 part I Magnetic circuits
UNIT: 3 part-1 Magnetic circuits, definitions, B-H curves, Magnetic circuit calculations, laws of electro-magnetic induction. Hysteresis and eddy current losses
Engineering Physics Fibre optics module 3
Classification, acceptance angle, numerical aperture, V-number, attenuation, ray dispersion in fibers, fiber optics sensors, optical fiber communication system.
BEE Unit 4 Three Phase AC
UNIT: 4 Generation of three phase voltages & measurement, star and delta connection, Line and Phase quantities, Three phase power, prime mover, synchronous generator, diesel generator set overview.
Engineering Physics Unit 5 Fibre Optics by HK malik
UNIT 5. Fiber Optics : Classification, acceptance angle, numerical aperture, V-number, attenuation, ray dispersion in fibers, fiber optics sensors, optical fiber communication system.
Engineering physics Fibre optics module 4
Classification, acceptance angle, numerical aperture, V-number, attenuation, ray dispersion in fibers, fiber optics sensors, optical fiber communication system.
BEE full syllabus notes Unit 1,2,3,4,5
DC Networks: Kirchhoff's laws, node and mesh analysis, Delta-star and star-delta transformations. Superposition, Thevenin’s and Norton's theorem. Transients in R- L, R-C and R-L-C circuits with DC Excitation. Single Phase AC Circuits: Single phase EMF generation, average and effective values of sinusoids, j operations, complex representation of impedances, phasor diagrams, power factor, power in complex notation, solution of series and parallel circuits. Introduction to resonance in series RLC circuit. Three Phase AC Circuit: Three phase EMF generation, delta and star connection, Line and Phase quantities. Solutions of 3-phase circuits with balanced load. Power in 3-phase balanced circuits.Magnetic Circuits: B-H Curve, Hysteresis, Permeability and reluctance, solution of simple magnetic circuits, Hysteresis and Eddy current losses. DC Generator: Different types, Principle of Operation of DC generator, EMF equation, methods of excitation. DC Motor: Back e.m.f., speed and torque of a DC Motor, Conditions for maximum Power. Speed control of DC shunt motor. Transformers: Construction and Principle of operation of single-phase transformer, EMF equation, Single-phase autotransformer.
Engineering Physics Fibre Optics Module 1
Classification, acceptance angle, numerical aperture, V-number, attenuation, ray dispersion in fibers, fiber optics sensors, optical fiber communication system.
Engineering physics Fibre Optics Module 2
Classification, acceptance angle, numerical aperture, V-number, attenuation, ray dispersion in fibers, fiber optics sensors, optical fiber communication system.
Engineering Physics Fibre optics Module 5
Classification, acceptance angle, numerical aperture, V-number, attenuation, ray dispersion in fibers, fiber optics sensors, optical fiber communication system.
I-Year syllabus of physics semester (SEM-A)
This document contains syllabus of physics,Basic Electrical Engineering,basic civil engineering,Mathematics I , Engineering Drawing.