This advanced course is the fourth installment in the Electrodynamics series, focusing on in-depth solutions for Maxwell’s Equations. Building upon the previous course, learners will gain a comprehensive understanding of the laws of induction, Maxwell's Equations, wave equations, and AC circuits.
Throughout the course, students will explore the relationship between Maxwell's Equations and the magnetic and electric potentials. They will also learn to solve problems related to moving charges, and add relativistic corrections to the equations. Additionally, this course covers the different components in AC circuits and how their presence can alter the circuit's function.
The knowledge gained from this course has practical applications in research fields such as materials science, information technology, electrical engineering, chemistry, energy storage, and more. With a unique emphasis on the practical implications of electrodynamics, students will gain insights into how this knowledge can be applied in real-world scenarios.
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This course is divided into six modules, covering the laws of induction, Maxwell's Equations, wave equations in free space, Maxwell's Equations with currents and charges, introduction to alternating circuits, and a final project.
The Laws of Induction module begins with an introduction to induction and electromotive forces. It then delves into alternating current generators, mutual inductance, and the values of physical constants.
The Maxwell Equations module provides a review of classical physics and analyzes traveling fields, setting the foundation for understanding Maxwell's Equations.
In the Maxwell's Equations in Free Space module, learners explore equations satisfying the wave equation and solutions for the wave equation, gaining a deep understanding of wave equations.
The Maxwell's Equations with Currents and Charges module introduces moving charges and relativistic corrections, deepening the understanding of Maxwell's Equations in dynamic scenarios.
The Introduction to Alternating Circuits module covers energy loss, complex circuit design, and their implications, providing insights into the practical applications of AC circuits.
The Final Project module allows students to apply their knowledge to a hands-on project, integrating the concepts learned throughout the course.
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