Media Storage Type : DVD-ROM
NPTEL Course Name : Electromagnetic Fields
NPTEL Subject Matter Expert : Dr. Ratnajit Bhattacharjee
NPTEL Co-ordinating Institute : IIT Guwahati
NPTEL Lecture Count : 74
Lecture Titles:
Lecture 1 - Introduction
Lecture 2 - Vector Analysis
Lecture 3 - Coordiante systems and Transformations
Lecture 4 - Line, surface and volume integrals
Lecture 5 - Divergence Theorem
Lecture 6 - Stoke's theorem
Lecture 7 - Introduction
Lecture 8 - Coulomb's Law
Lecture 9 - Electric Field
Lecture 10 - Electric flux density
Lecture 11 - Gauss's Law with Application
Lecture 12 - Electrostatic Potential and Equipotential Surfaces
Lecture 13 - Boundary conditions for Electrostatic fields
Lecture 14 - Capacitance and Capacitors
Lecture 15 - Electrostatic Energy and Energy Density
Lecture 16 - Poisson?s and Laplace?s Equations
Lecture 17 - Uniqueness Theorem
Lecture 18 - Method of Images
Lecture 19 - Electrostatic boundary value problem
Lecture 20 - Introduction
Lecture 21 - Current Density and Ohm's Law
Lecture 22 - Electromagnetic force and Kirchoff's Voltage Law
Lecture 23 - Continuity Equation and Kirchoff's Current Law.
Lecture 24 - Power Dissipation and Joule's law
Lecture 25 - Introduction
Lecture 26 - Biot- Savart Law and its Applications
Lecture 27 - Ampere's Circuital Law and its Applications
Lecture 28 - Magnetic Flux Density
Lecture 29 - Magnetic Scalar and Vector Potentials
Lecture 30 - Boundary Condition for Magnetic Fields
Lecture 31 - Inductance and Inductor
Lecture 32 - Energy stored in Magnetic Field
Lecture 33 - Introduction
Lecture 34 - Faraday's Law of electromagnetic Induction
Lecture 35 - Maxwell's Equation
Lecture 36 - Boundary Conditions for Electromagnetic fields
Lecture 37 - Time Harmonic Fields
Lecture 38 - The Helmhotz Equation
Lecture 39 - Plane waves in Lossless medium
Lecture 40 - Plane waves in a lossy medium
Lecture 41 - Poynting Vector and Power Flow in Electromagnetic Fields
Lecture 42 - Polarisation of plane wave
Lecture 43 - Behaviour of Plane waves at the inteface of two media
Lecture 44 - Introduction
Lecture 45 - Fundamentals of Radiation
Lecture 46 - Radiated field of an Herzian dipole
Lecture 47 - Basic Antenna Parameters
Lecture 48 - Half Wave Dipole Antenna
Lecture 49 - Quarter Wave Monopole Antenna
Lecture 50 - Small Loop Antennas
Lecture 51 - Introduction to Antenna Arrays
Lecture 52 - Introduction
Lecture 53 - Finite difference Method
Lecture 54 - Basic Concepts of the Method of Moments
Lecture 55 - Method of Moment for Wire Antennas and Wire Scatterers
Lecture 56 - Additional Solved Example-Mathematical Fundamentals
Lecture 57 - Assignment Problems-Mathematical Fundamentals
Lecture 58 - Additional Solved Example-Static Electric Fields
Lecture 59 - Assignment Problems-Static Electric Fields Fundamentals
Lecture 60 - Additional Solved Example-Steady Electric Currents
Lecture 61 - Assignment Problems-Steady Electric Currents
Lecture 62 - Additional Solved Example-Steady Magnetic Field
Lecture 63 - Assignment Problems-Steady Magnetic Field
Lecture 64 - Additional Solved Example-Time varying fields and Maxwell's equations
Lecture 65 - Assignment Problems-Time varying fields and Maxwell's equations
Lecture 66 - Additional Solved Example-Electromagnetic wave
Lecture 67 - Additional Solved Example-Fundamentals of Antennas and Radiating systems
Lecture 68 - Introductory and Intermediate
Lecture 69 - Advanced level
Lecture 70 - Web resources
Lecture 71 - Quick Links
Lecture 72 - Appendix 1
Lecture 73 - Appendix 2
Lecture 74 - Appendix 3