AI Engineer - Learn how to integrate AI into software applications
Get 20% off all career paths from fullstack to AI
Overview
Google, IBM & Meta Certificates – 40% Off
One plan covers every Professional Certificate on Coursera.
Unlock All Certificates
Learn to solve electromagnetic problems computationally through a comprehensive video series covering fundamental concepts from boundary conditions to magnetization. Master the calculation of electric potential from both boundary conditions and charge density distributions, explore magnetic vector potential applications, and analyze current density patterns. Develop skills in computing magnetic fields and understanding magnetization phenomena using computational methods. Gain practical experience with numerical techniques for solving complex electromagnetic problems that are difficult or impossible to solve analytically, building a strong foundation for advanced electromagnetic simulations and modeling.
Syllabus
Potential from Boundary Conditions (Computational Electromagnetism 1)
Electric Potential from Charge Density (Computational Electromagnetism 2)
Magnetic Vector Potential (Computational Electromagnetism 6)
Current Density (Computational Electromagnetism 7)
Magnetic Fields (Computational Electromagnetism 8)
Computational EM 9 Magnetization
Taught by
Let's Code Physics