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Maxwell's equations in curved spacetime
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Maxwell's Equations: Faraday and Ampère Laws
Covers Maxwell's equations in vacuum, focusing on Faraday's and Ampère's laws and the absence of sources.
Versatile EM Wave Description
Summarizes EM chapters, emphasizing wave description, reflection laws, and light intensity calculations.
Charged Particle Trajectory in Electric Field
Explores the Lorentz covariant formulation of electrodynamics and the trajectory of a charged particle in an electric field.
Intensity: Light, Heat, and Energy Transport
Explores heat generation from light-matter interactions, energy transport through electromagnetic waves, and the concept of intensity.
Application of Maxwell Tensor
Explores the application of the Maxwell tensor in force of attraction examples.
Electromechanical Systems: Induction and Mutual Couple Calculation
Covers the calculation of induction, force of attraction, actuators, electromechanical systems, and mutual couple calculation.
Force Calculation Methods: Electromechanical Systems
Covers the calculation of forces in electromechanical systems using the Maxwell tensor.
Rotating Frame, Geodesics and Maxwell Equations
Covers exercises on rotating frame, geodesics, and Maxwell equations to deepen understanding of tensor quantities.
Electromagnetic Waves Interaction: Transmission, Reflection, and Matter
Explores the interaction of electromagnetic waves with matter, covering reflection, transmission, absorption, and polarization effects.
Light-Materials Interaction: Optical Properties and Applications
Explores light-material interaction, absorption mechanisms, transmission spectra, and laser processing applications.
