Electromagnetism And Electromagnetic Theory
Electromagnetism And Electromagnetic Theory
Published 2/2025
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 311.57 MB | Duration: 1h 4m
Published 2/2025
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 311.57 MB | Duration: 1h 4m
A comprehensive and concise guide
What you'll learn
Review EM theory, properties of medium, polarization vector, physics of electricity and magnetism
Study electrodynamics and Maxwell’s equations
Identify uniform plane wave, TEM Wave and wave impedance
Understand the general form of wave equations, skin depth and wave polarization
Requirements
Vector analysis and artial differential equations
Description
Electromagnetic theory describes the interaction between electric and magnetic fields, how charges and currents create light and radio waves, and how these waves propagate through a medium. The behavior of electric and magnetic fields is unified under Maxwell's equations. EM theory provides the basis for understanding antenna transmission, transmission lines, microwave devices, electric machines, and space science. This concise course equips the reader with the foundations and key principles of electromagnetism. With some background knowledge in vector analysis and partial differential equations, you can master the subject in under 2 hours.Course HighlightsElectromagnetic (EM) theoryProperties of medium and polarization vectorPhysics of electricity and magnetismConservative and solenoidal fieldsElectrostatic and magnetostatic energiesEquipotentialsElectrodynamics and Faraday’s LawDifferent forms of Maxwell’s equationsPoynting’s theoremUniform plane waveTransverse EM (TEM) waveWave impedanceGeneral form of wave equationsSkin depthPolarization of uniform plane waveAbout the InstructorThe instructor was a technical editor for the IEEE Wireless Communications Magazine for 10 years and has also guest edited for the IEEE Communications Magazine (2 issues) and the IEEE Journal on Selected Areas on Communications. His IEEE online tutorials were sponsored 8 times by industry. His research has appeared in the IEEE Spectrum and he received 2 IEEE best paper awards. He was invited by the National Science Foundation to participate in a workshop on Residential Broadband and received the National Association of Broadcasters Technology Innovation Award. He has also served as an IEEE Communications Society Distinguished Lecturer with 10 invited lectures worldwide as well as an expert witness. He has trained thousands of engineers globally, including China, Taiwan, Korea, India, Malaysia, Germany, Spain, Portugal, Chicago, Colorado, Atlanta, San Diego, and San Francisco.
Overview
Section 1: Introduction
Lecture 1 Introduction
Section 2: Physics of Electricity and Magnetism, and Equipotentials
Lecture 2 Physics of Electricity and Magnetism, and Equipotentials
Section 3: Electrodynamics and Maxwell’s Equations
Lecture 3 Electrodynamics and Maxwell’s Equations
Section 4: Uniform Plane Wave, TEM Wave and Wave Impedance
Lecture 4 Uniform Plane Wave, TEM Wave and Wave Impedance
Section 5: General Form of Wave Equations, Skin Depth and Wave Polarization
Lecture 5 General Form of Wave Equations, Skin Depth and Wave Polarization
Any engineer or student who is interested in electromagnetism