NOC:Electromagnetic Waves in Guided and Wireless Media


Lecture 1 - Introduction and Types of Transmission Lines


Lecture 2 - Distributed Circuit Model of Uniform Transmission Line


Lecture 3 - Voltage and Current Equation of the Transmission line


Lecture 4 - Sinusoidal Excitation of Transmission Line (Propagation constant, Characteristic Impedance)


Lecture 5 - Properties of Transmission Line (Reflection Coefficient, Input Impedance, Standing Wave Ratio)


Lecture 6 - Power Calculations and Introduction to Smith Chart


Lecture 7 - Smith Chart


Lecture 8 - Additional Applications of Smith Chart


Lecture 9 - Time domain Analysis of Transmission Line - I


Lecture 10 - Time domain Analysis of Transmission Line - II


Lecture 11 - Usage of Lattice Diagrams


Lecture 12 - TDR analysis of Transmission Lines


Lecture 13 - Introduction to Propagation of Electromagnetic Waves


Lecture 14 - Uniform Plane Waves - I


Lecture 15 - Uniform Plane Waves - II


Lecture 16 - Poynting Vector, Average Power, Polarization


Lecture 17 - Uniform Plane Waves in Lossy Medium


Lecture 18 - Normal Incidence of Plane Waves


Lecture 19 - Oblique Incidence of Plane Waves - I


Lecture 20 - Oblique Incidence of Plane Waves - II


Lecture 21 - Total Internal Reflection


Lecture 22 - Slab Waveguides


Lecture 23 - Optical Fibers


Lecture 24 - Parallel Plate Waveguides


Lecture 25 - Rectangular Waveguides


Lecture 26 - Modes of Rectangular Waveguides


Lecture 27 - Waveguides summary and Introduction to Radiation


Lecture 28 - Solution to Electric Scalar Potential and Magnetic Vector Potential Equations


Lecture 29 - Further discussion on Magnetic Vector Potential and Elementary Hertzian Dipole


Lecture 30 - Near field and Far-field Antenna and Properties of Antennas


Lecture 31 - Linear antenna - I


Lecture 32 - Linear antenna - II and Properties of Transmitting and Receiving Antenna


Lecture 33 - Friis Transmission Formula


Lecture 34 - Antenna Array


Lecture 35 - Wireless Channel


Lecture 36 - Further discussion on Wireless Channel Modelling


Lecture 37 - Diffraction - I


Lecture 38 - Diffraction - II


Lecture 39 - Distribution of Laser Beam


Lecture 40 - Interference (Double slit experiment, Fabry Perot Interferometer)


Lecture 41 - Summary