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Courses » Introduction to Electromagnetic Theory

Introduction to Electromagnetic Theory

ABOUT THE COURSE

This course introduces students to handling electromagnetic theory using vector calculus. This enables students to handle problems that are more complicated than they are used to from their school days.  Due to general nature of the mathematics they learn in this course, what they learn here will help them in their future courses like fluid dynamics that use similar mathematics.

INTENDED AUDIENCE

1st & 2nd year B. Tech. in Civil, Mechanical, Aeorospace and B.Sc. Students.

PRE-REQUISITES

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INDUSTRY SUPPORT – LIST OF COMPANIES/INDUSTRY THAT WILL RECOGNIZE/VALUE THIS ONLINE COURSE

Content will be updated soon.

3306 students have enrolled already!!

COURSE INSTRUCTOR



Dr. Manoj Kumar Harbola joined the Department in 2000. He obtained his doctoral degree at the City University of New York, USA, working under the supervision of Prof. Viraht Sahni. Subsequently he carried out postdoctoral research at the University of North Carolina, Chapel Hill, USA before joining the Centre for Advanced Technology, Indore as a Scientist.
He is a theoretical physicist , whose chief interest lies in Electronic Structure of Atoms, Molecules and Solids using Density Functional Methods.
COURSE LAYOUT

 Week 1:
Coulomb’s law Divergence of electric field Gauss’ law Curl of electric field Stokes’ theorem Electrostatic potential

Week 2:
Laplace’s equation for electrostatic potential Laplace’s equation in other fields Uniqueness of solution of Laplace’s equation Poisson equation and uniqueness of its solution Method of images for planar surfaces Work and energy in electrostatics

Week 3:
Conductors and capacitors Reciprocity theorem Polarization and bound charges Linear dielectrics Electric displacement Fields in dielectrics

Week 4:
Magnetic field due to a magnet Magnetic field due to a steady current Divergence and curl of magnetic field Ampere’s law The vector potential Magnetization and bound currents

Week 5:
Magnetic fields in matter Magnetic field in matter Faraday’s law Induced electric field Energy in magnetic field Displacement current

Week 6:
Maxwell’s equations Work done by electromagnetic field Poynting’s theorem Momentum in electromagnetic field Angular momentum in electromagnetic field Electromagnetic waves: the wave equation

Week 7:
Wave equation Plane electromagnetic waves Energy carried by electromagnetic waves Pressure due to electromagnetic waves Reflection and transmission of electromagnetic waves Reflection and transmission of electromagnetic waves

Week 8:
Review and Problem Solving

SUGGESTED READING

Physics of Materials
Content will be updated soon

MORE DETAILS ABOUT THE COURSE
Course url: https://onlinecourses.nptel.ac.in/noc16_ph03
Course duration : 8 Weeks
Start date and end date of course:18 July 2016 to 9 September 2016 
Dates of exams 18 Sep 2016 and 25 Sep 2016
Time of exam : 2pm - 5pm
Final List of exam cities will be available in exam registration form.
Exam registration url - Will be announced shortly
Exam Fee: The online registration form has to be filled and the certification exam fee of approximately Rs 1000(non-Programming) needs to be paid.

CERTIFICATE

E-Certificate will be given to those who register and write the exam. Certificate will have your name, photograph and the score in the final exam. It will have the logos of NPTEL and IIT Kanpur. 

It will be e-verifiable at nptel.ac.in/noc.