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Lecture
Optical Properties: Materials & Maxwell's Equations
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Related lectures (29)
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Lorentz Covariant Formulation: Maxwell Equations
Covers Lorentz transformations, Maxwell equations, and charge conservation in Lorentz invariant physics.
Special and General Relativity
Introduces special and general relativity, Einstein equations, and gravitational dynamics.
Maxwell Equations and Minkowski Spacetime
Explores Maxwell equations, Minkowski spacetime, Lorentz transformations, charge conservation, and spacetime structure in physics.
Covariant Maxwell Equations
Covers the covariant form of Maxwell equations and properties of the field strength tensor.
Tensors and Lorentz Transformations
Covers tensors, Lorentz transformations, and electrodynamics in relativistic notation.
Advanced Optics: Lorentz Model
Explores the Lorentz model in advanced optics, including the permittivity of hemoglobin and the Drude model for metals.
Relativistic Motion of Charged Particles
Explores the relativistic motion of charged particles in electric fields, focusing on Lorentz covariant electrodynamics and the relativistic Larmor power.
Planck Units and Lorentz Transformations
Explores Planck units, Klein-Gordon equation, Lorentz transformations, and Maxwell equations' invariance.
Quantum Theory: Lorentz Transformation
Explores the Lorentz transformation in Quantum Theory, emphasizing Fock space representation and momentum concepts.
Maxwell's Equations in Polarized Matter: Lorentz Transformation
Explores Maxwell's equations in polarized matter and fields transformation under different frames.
