Learn Electromagnetic Field Theory -[EMFT]
Mr. Gaurav Verma
3 modules
English
Certificate of completion
Lifetime access
Unleash the Power of Electromagnetic Waves and Master the Fundamentals of EMFT!
Overview
Gain a thorough understanding of Maxwell's equations, the Poisson-Laplace equation, magnetostatics, self and mutual inductance, electric field polarization, and static and dynamic electric and magnetic fields as you study electromagnetic field theory (EMFT). Along with applications in microwave engineering and electromagnetic waves, this foundational course in electrical engineering also covers the principles of transmission lines, coaxial lines, waveguides, antennas, and dipole antennas. Perfect for professionals and students looking for a conceptual and practical understanding of transmission lines and electromagnetic theory with practical engineering applications.
Key Highlights
Understanding electrostatics and magnetostatics
Exploring Maxwell's equations and electromagnetic waves
Analyzing the behavior of electric and magnetic fields
Applying electromagnetic theory to practical engineering problems
Solving problems related to electric charges and currents
Understanding the concept of electromagnetic induction
Exploring electromagnetic wave propagation and antennas
Studying the principles of transmission lines and waveguides
What you will learn
Understand the fundamentals of electromagnetic fields
Gain a solid foundation in the basic principles and concepts of electromagnetic field theory.
Apply Maxwell's equations to solve electromagnetic problems
Learn how to use Maxwell's equations to analyze and solve various electromagnetic field problems.
Explore electromagnetic wave propagation and transmission lines
Discover the behavior of electromagnetic waves and transmission lines in different mediums and structures.
Understand the concepts of antennas and waveguides
Learn about the design, characteristics, and applications of antennas and waveguides in EMFT.
Modules
Course Content
16 attachments • 2 hrs
Lec-1 : Introduction to Electromagnetic Fields
Lec-2 : Electric Fields
Lec-3 : Poisson–Laplace equation
Lec-4 : Magnetostatics
Lec-5 : Self & Mutual -Inductance
Lec-6 : Electric field polarization
Lec-7 : Maxwell's equations
Lec-8 : Wave equations
Lec-9 : Poynting Theorem
Lec-10 : Fresnel's Laws
Lec-11 : Interference
Lec-12 : Coaxial Lines
Lec-13 : Transmission lines
Lec-14 : Waveguides
Lec-15 : Antenna
Lec-16 : Dipole Antenna
Certificate Badge Exam
Certification
When you complete this course you receive a ‘Certificate of Completion’ signed and addressed personally by me.
Testimonials
I'm grateful for your guidance and support. Your passion for teaching inspires me to learn more. You've shown me that education is a powerful tool. Your lessons have taught me valuable life skills. I respect your dedication to education and your students.
Dileep Bind
EMFT
FAQs
What is electromagnetic field formula?
The electromagnetic field formula is given by F = q(E + v × B), where F is the force on a charged particle, q is the charge, E is the electric field, v is the velocity of the particle, and B is the magnetic field.
What is electromagnetic field examples?
An electromagnetic field is a physical field produced by electrically charged objects, which includes both electric and magnetic components. Examples of electromagnetic fields include light waves, radio waves, microwaves, X-rays, and the Earth's magnetic field.
Who is the father of electromagnetic theory?
James Clerk Maxwell
What are the basic principles of EM theory?
The basic principles of Electromagnetic (EM) theory include the concept that electric and magnetic fields are interrelated and propagate as waves at the speed of light, governed by Maxwell's equations.
What are the applications of electromagnetic field?
Electromagnetic fields are used in communication, power generation, medical imaging, and radar systems.
Who introduced the electromagnetic theory?
James Clerk Maxwell introduced the electromagnetic theory.
What are the prerequisites for this course?
Basic knowledge of Electromagnetic is required for this course.
Who can enroll in this course?
This course is designed for undergraduate students of Electrical Engineering, Electronics, Physics, and related fields, but anyone interested in electromagnetic theory can join.
About the creator
Mr. Gaurav Verma
I'm Gaurav Verma. Completed B.Tech in Electronics from Delhi University in 2017. Cleared GATE on first attempt, pursued M.Tech in VLSI design at CDAC Mohali Chandigarh.
Achieved consecutive GATE clears in 2018 and 2019 with improved ranks. Also cleared JRF in Dec 2018 with 99.925 percentile.
Joined PhD in VLSI from Department of ECE, IIT Roorkee in July 2019. Currently with a VLSI corporate. Feel free to ask questions or discuss course topics. Enjoy the course!
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