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Lecture
Relativistic Equation of Motion
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Scalar, Vector or Tensor? Gravity
Discusses defining tensors, space-time dimensionality, and challenges in formulating a relativistic theory of gravity.
Charged Particle Trajectory in Electric Field
Explores the Lorentz covariant formulation of electrodynamics and the trajectory of a charged particle in an electric field.
Radiation-reaction Force: Lagrangian Formulation
Covers the radiation-reaction force, conservation of momentum, and correct force expressions.
Vector Fields and Lorentz Tensors: Representation Theory
Covers the transformation properties of vector fields and their representation in Lorentz tensors.
Causal Structure of Spacetime
Explores the causal structure of spacetime in special relativity, focusing on the relativistic interval and Lorentz transformations.
Lorentz Covariant Formulation: Maxwell Equations
Covers Lorentz transformations, Maxwell equations, and charge conservation in Lorentz invariant physics.
Relativistic Larmor Formula: Lagrangian for Electrodynamics
Covers the relativistic Larmor formula, synchrotron radiation, and Lagrangian for electrodynamics.
Quantum Field Theory: Poincaré Group
Explores Einsteinian relativity, the Lorentz group, and Poincaré transformations, emphasizing proper and non-orthochronous components.
Electromagnetic Waves and Optics
Covers electromagnetic fields, wave optics, wave interference, diffraction, induction, historical debates on light theories, the electromagnetic spectrum, and wave superposition.
Relativistic Kinematics
Explores relativistic kinematics, including the transformation of coordinates, the Lorentz transformation, and the invariance of the space-time interval.
