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Lecture
Maxwell's Equations in Materials
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Interaction of E-M Waves with Matter: Transmission, Absorption, Reflection
Explores how electromagnetic waves interact with matter, emphasizing transmission, absorption, and reflection.
Maxwell's Equations: Derivation and Implications
Explores the derivation and implications of the 4th Maxwell's equation, emphasizing the importance of charge conservation and the role of displacement current.
Maxwell's Equations and Magnetic Fields
Covers a review of Maxwell's equations and the concepts of internal, demagnetization, and stray fields.
Maxwell's Equations and Induction Phenomenon
Explores Maxwell's equations, induction in moving conductors, electromotive force, and electrical fields.
Lorentz Covariant Formulation: Maxwell Equations
Covers Lorentz transformations, Maxwell equations, and charge conservation in Lorentz invariant physics.
Paradoxes with Coulomb's and Ampère's forces. Gauss's Law
Delves into paradoxes with Coulomb's and Ampère's forces, leading to the derivation of Gauss's Law from Maxwell's equations.
Understanding Displacement Vector and Plane Waves
Explores the displacement vector D, plane waves, and magnetic vector potential, addressing student questions and clarifying key concepts.
Constitutive Relations in Materials
Covers constitutive relations in materials, induced effects, related charges, and non-linear responses.
Optical Properties: Materials & Maxwell's Equations
Explores optical properties of materials, Maxwell's equations, and material response to light.
Electromagnetic Phenomena
Introduces the importance of studying electromagnetic phenomena and Maxwell's equations.
