Electrodynamics: In-depth Solutions for Maxwell's Equations
Master advanced electrodynamics concepts focusing on Maxwell's Equations, wave propagation, and AC circuits. Perfect for physics and engineering.
Master advanced electrodynamics concepts focusing on Maxwell's Equations, wave propagation, and AC circuits. Perfect for physics and engineering.
This course cannot be purchased separately - to access the complete learning experience, graded assignments, and earn certificates, you'll need to enroll in the full Electrodynamics Specialization program. You can audit this specific course for free to explore the content, which includes access to course materials and lectures. This allows you to learn at your own pace without any financial commitment.
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English
پښتو, বাংলা, اردو, 2 more
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What you'll learn
Master Maxwell's Equations and their relationship to magnetic and electric potentials
Solve problems involving moving charges with relativistic corrections
Analyze and understand AC circuit components and their functions
Apply wave equations to complex electromagnetic systems
Understand electromagnetic field propagation in free space
Skills you'll gain
This course includes:
6.8 Hours PreRecorded video
5 quizzes, 1 peer review
Access on Mobile, Tablet, Desktop
FullTime access
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There are 6 modules in this course
This comprehensive course delves deep into advanced electrodynamics concepts, focusing on Maxwell's Equations and their applications. Students learn to analyze wave equations, understand electromagnetic field propagation, and study AC circuits. The curriculum combines theoretical foundations with practical applications in materials science, electrical engineering, and energy systems. The course uniquely incorporates Feynman's approach to understanding physical phenomena.
The Laws of Induction
Module 1 · 3 Hours to complete
The Maxwell Equations
Module 2 · 2 Hours to complete
Maxwell's Equations in Free Space
Module 3 · 2 Hours to complete
Maxwell's Equations with Currents and Charges
Module 4 · 2 Hours to complete
Introduction to Alternating Circuits
Module 5 · 3 Hours to complete
Final Project
Module 6 · 5 Hours to complete
Fee Structure
Instructor
Pioneer in Nanoscale Materials Characterization and Engineering
Prof. Seungbum Hong graduated summa cum laude from KAIST with a B.S. in 1994 and earned his Ph.D. in nanoscale observation of ferroelectric thin films in 2000. After postdoctoral research at EPFL in Switzerland, he led the probe storage project at Samsung Advanced Institute of Technology. From 2007 to 2017, he served as a principal investigator at Argonne National Laboratory, focusing on local domain and transport studies of oxide heterostructures and polymer ferroelectrics. Prof. Hong returned to KAIST in 2017, became a full professor in 2021, and currently serves as the head of the Department of Materials Science and Engineering. With extensive experience linking fundamental science to industrial applications, he has authored 160 peer-reviewed journal papers, edited five books, and holds 79 patents. Recognized for his contributions, Prof. Hong has received numerous awards, including the Young Investigator Outstanding Achievement Award, and is actively involved in international collaborations and conference leadership roles.
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Frequently asked questions
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