Lecture Materials are available at
Complete Course – Electromagnetic Field
Lecture Series #1 – Electric Field
Topic #1 - Coulombs Law - Derivation, Applications and Problems
Topic #2 - Electric Field due to Finite Charged Wire – Derivation
Topic #4 - Wok done, Potential and Potential Difference – Derivation
Topic #5 - Potential due to charged Disc and Ring – Derivation
Topic #6 - Gauss Law - Derivation, Applications and Problems
Topic #7 - Relation between Electric Field E and Potential V - Derivation and Problems
Topic #8 - Coordinate System in Electromagnetic Field Theory
Topic #9 - Divergence Theorem in Electromagnetic Theory, Laplace and Poisson Equations
Lecture Series #2 – Capacitance and Dielectric
Topic #1 - Capacitance - Definition, Derivation and Problems
Topic #2 - Cylindrical Capacitance Derivation
Topic #3 - Spherical Capacitor - Derivation and Problem
Topic #4 - Capacitance of Two Wire Transmission Line - Derivation and Problems
Topic #5 - Potential and Electric Field Intensity due to Dipole Derivation and Explanation
Topic #6 - Dielectric Boundary Conditions - Derivation and Explanation
Lecture Series #3 – Magnetic Field
Topic #1 – Biot Savart Law – Derivation
Topic #2 – Magnetic Field Intensity due to Finite Conductor – Derivation
Topic #3 – Magnetic Field Intensity due to Circular Current Loop - Derivation and Problems
Topic #4 – Magnetic Field Intensity due to Solenoid – Derivation
Topic #5 – Magnetic Boundary Condition - Derivation and Explanation
Topic #6 – Amperes Law - Definition and Applications
Topic #7 – Scalar and Vector Magnetic Potential – Explanation
Topic #9 – Current and Current Density - Definition and Derivation
Topic #10 – Curl and Stokes Theorem - Definition and Explanation
Lecture Series #4 – Inductance and Faraday’s Law
Topic #1 – Inductance of Coaxial Cable - Derivation and Explanation
Lecture Series #5 – Maxwell’s Equations and Wave Equations
Topic #1 – Maxwell's Equations in Integral form and Differential form
Topic #2 – Electromagnetic Wave Equation and Wave Equation for Free Space - Derivation
Topic #3 – Poynting Vector and Poynting Theorem in Electromagnetic Theory
Topic #4 – Polarization of Electromagnetic Waves
Complete Course in Single File
EMT 01 - Complete Course - Electromagnetic Theory - Electric
Field - https://youtu.be/OJEJMWJR-hE
EMT 02 - Complete Course - Electromagnetic Theory - Magnetic
Field - https://youtu.be/M-DQNqj8SEQ
EMT 03 - Complete Course - Electromagnetic Theory -
Capacitance - https://youtu.be/-UYfBrFneaE
EMT 04 - Complete Course - Electromagnetic Theory -
Inductance - https://youtu.be/34PMaSq9JTk
EMT 05 - Complete Course - Electromagnetic Theory - Maxwells
and Wave Equation - https://youtu.be/hptRVWsVidc
Electromagnetic Theory Laws – Coulombs Law, Gauss Law, Biot
Savarts Law and Amperes Law - https://youtu.be/dbv1_Tqe_7Y
Wok done, Potential, Potential Difference, Relation between
E and V, Coordinate System - https://youtu.be/INMQIDUtK6Q
Divergence Theorem, Laplace and Poisson Equations, Curl and
Stokes Theorem, and Current Density - https://youtu.be/EFJxIfWa2Rc
Electric Field Intensity due to Finite Charged Wire, Charged
Disc and Charged Ring - Derivation - https://youtu.be/p_e0vSlVVrM
Capacitance, Cylindrical & Spherical Capacitor and Two
Wire Transmission Line - Derivation - https://youtu.be/ACcKidZrYes
Dielectric and Magnetic Boundary Conditions - Derivation and
Explanation - https://youtu.be/tD-Y_VOsGvM
Energy Stored in a Capacitor & Inductor and Energy
Density - Derivation and Problems - https://youtu.be/uxiklsSoO_w
Magnetic Field Intensity due to Finite Conductor, Circular
Current Loop & Solenoid - Derivation - https://youtu.be/E6fZF0dmA80
Scalar & Vector Magnetic Potential, Force and Torque on
Closed Circuit - https://youtu.be/KugUHCCsONU
Inductance of Cable, Solid Conductor, 2 Wire
Transmission Line, Solenoid & Toroid - Derivations - https://youtu.be/5Dyxqhcygfg
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