Unlocking the Power of Electromagnetic Fields – Radhe Global
Exploring Theory, Applications, and Breakthroughs
Instructor Names: Dr. Shailendra Kumar Mittal
link: https://www.udemy.com/course/unlocking-the-power-of-electromagnetic-fields/
Objective
This course is designed to review the fundamentals and application of Electromagnetic Field Theory. This course also enables the Learners to understand to solve real life problem related to Electromagnetics. To introduce the basic mathematical concepts related to Electromagnetic vector fields.
Curriculum
Module 1, Vector Analysis (Part 1), Vector Analysis (Part 2), Cylindrical Co-ordinate System in Vector Analysis, Application of Dot Product & Cross Product, Concept of Differential length, Surface and Volume, Coulomb’s Law of Forces, Module 2, Different types of Charge Distribution, Electric field intensity due to point charges, Electric Field Intensity due to Infinite Sheet of Charge, Electric Field Intensity due to Infinite Line Charge, Concept of Electric Flux & Electric Flux Density, Gauss’s Law, Divergence of Electric Flux Density, Maxwell’s First Equation in Electrostatics, Divergence Theorem, Module 3, Concept of Potential Difference and Potential due to point Charge, Concept of Potential Gradient, Concept of Electric Dipole, Energy Density in Electrostatics Field(part-1), Electric Density in Electrostatic Field (Part-2), Continuity Equation of Current, Module 3, Boundary Conditions at a Conductor – Free Space Boundary, Boundary Conditions between Two Perfect Dielectrics, Conductor-Dielectric Boundary Conditions, Capacitance of Parallel Plate Capacitor, Poisson’s & Laplace’s Equation, Cylindrical Capacitor or Capacitor for Coaxial Cable, Spherical Capacitor, Module 4, Different Types of Current Distributions, Numerical 1 on Electrostatic Field, Numerical 2 on Electrostatic Field, Module 5, Biot-Savart Law, Magnetic Field due to Infinite Long Filament Conductor, Ampere’s Circuital Law, Numerical 3 on Electrostatic Field, Composite Capacitor Part I, Composite Capacitor Part II, Application of Ampere’s Circuital Law – Coaxial Cable Part I, Application of Ampere’s Circuital Law – Coaxial Cable Part II, Numerical 4 on Electrostatic Fields, Numerical 5 on Electrostatic Field, Numerical 6 on Electrostatic Field, Curl of Magnetic Field Intensity Part I, Curl of Magnetic Field Intensity Part II, Lorentz Force Equation, Application of Lorentz Force Equation Part I, Stoke’s Theorem, Magnetic Boundary Conditions, Maxwell’s Equations for Time Varying Fields Part I, Maxwell’s Equations for Time Varying Fields Part II, Maxwell’s Equations for Time Varying Fields Part III, Numerical 7 on Electrostatic Field, Numerical 8 on Electrostatic Field, Numerical 9 on Electrostatic Field, Numerical 10 on Electrostatic Field, Numerical 11 on Electrostatic Field, Energy stored in Magnetic Field, Test, Quiz 1, Quiz 2
Paid (True/ False): True
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Rating: 4.698864
No. Of Reviews: 43
Instructional Level: All Levels