Fundamentals of Electromagnetic Theory (1)

Dive into the foundational concepts of electromagnetism with this comprehensive course.

What's Inside

Dive into the foundational concepts of electromagnetism with this comprehensive course. Through a series of engaging video lectures and solved examples, you'll explore the intricacies of magnetic flux, flux density, and magnetomotive force (MMF). Understand the relationship between magnetic permeability, magnetic intensity, and reluctance, and learn to solve practical problems effectively.

Delve deeper into magnetic circuits as you uncover the fringing effect and master the representation of magnetic circuits. Through a series of solved examples, you'll gain confidence in analyzing and designing magnetic circuits for various applications.

Explore the Magnetization Curve and Hysteresis Loop, essential for understanding magnetic materials' behavior under different conditions. Learn about inductance and flux linkage, fundamental concepts crucial for understanding electromagnetic devices' operation.

Finally, grasp Faraday's Law of Induction and Lenz’s Law, fundamental principles that govern electromagnetic phenomena. By the end of this course, you'll have a solid understanding of the core principles of electromagnetism.

Course Curriculum

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45147+ Students
14 Lectures
2+ Hours of Video
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Engineer Ahmed Mahdy

I am Ahmed Mahdy an electrical power engineer, researcher, and the founder of Khadija Academy. I am also an electrical bestselling instructor and have helped more than 70,000 students from 191 countries achieve career success with simple and easy courses in the last 7 years.​ In addition to having a YouTube educational engineering channel called" Khadija Academy", where I regularly post videos related to electrical engineering. In 2018, I was nominated among the top 10% of instructors on Udemy, besides currently ranking among the top instructors in the engineering sector of Udemy.


Some of my published research works in the top electrical engineering journals worldwide:


1- ​Transient stability improvement of wave energy conversion systems connected to power grid using anti-windup-coot optimization strategy - Energy Journal - Impact Factor of 9.0.


2- Nonlinear Modeling and Real-Time Simulation of a Grid-Connected AWS Wave Energy Conversion System - IEEE Transactions on Sustainable Energy - Impact Factor of 8.8.


3- Modeling and optimal operation of hybrid wave energy and PV system feeding supercharging stations based on golden jackal optimal control strategy - Energy Journal - Impact Factor of 9.​0.


4- State-of-the-Art of the most commonly adopted wave energy conversion systems - Ain Shams Engineering Journal - Impact Factor of 6.0.


5- Optimal Design of Fractional-Order PID Controllers for a Nonlinear AWS Wave Energy Converter Using Hybrid Jellyfish Search and Particle Swarm Optimization - Fractal and Fractional - Impact Factor of 5.4


6- Dynamic performance enhancement of nonlinear AWS wave energy systems based on optimal super-twisting control strategy - Ain Shams Engineering Journal - Impact Factor of 6.0.

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