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Lorentz scalar
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Related lectures (30)
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Quantum Theory: Lorentz Transformation
Explores the Lorentz transformation in Quantum Theory, emphasizing Fock space representation and momentum concepts.
Tensors and Lorentz Transformations
Covers tensors, Lorentz transformations, and electrodynamics in relativistic notation.
Lorentz Invariance and Covariant Tensors
Explores Lorentz invariance, tensors in vector spaces, and electromagnetic potentials.
Relativistic Equation of Motion
Explores spacetime structure, 4-vectors, Lorentz force, and dispersion relation in relativistic motion.
Lorentz Transformations and Covariant Tensors
Explores Lorentz transformations, covariant tensors, rotational invariance, and linear transformations in vector spaces.
EM Field: Discrete Symmetries
Covers EM Field and Discrete Symmetries, emphasizing the importance of symmetries in quantum field theory.
Electromagnetic Fields
Covers the dynamics of electromagnetic fields and flat space-time properties.
Relativistic Larmor Formula: Synchrotron Radiation
Explores the relativistic Larmor formula and synchrotron radiation in the context of accelerated charged particles and electromagnetic fields.
Lorentz Transformations: Symmetries and Boosts
Explores Lorentz transformations, boosts, and symmetries in Newtonian mechanics.
Lorentz Covariant Formulation: Maxwell Equations
Covers Lorentz transformations, Maxwell equations, and charge conservation in Lorentz invariant physics.
Relativistic Invariants
Explores relativistic invariants, including the constancy of light speed and observer-independent event quantities.
Covariant Maxwell Equations
Covers the covariant form of Maxwell equations and properties of the field strength tensor.
Relativistic Charged Particle Dynamics
Covers the equation of motion for a relativistic charged particle and Lorentz transformations, along with tensors and electrodynamics.
Reading and Lorentz Transformation
Covers reading, finding, Lorentz transformation, diffusion, and isolated systems.
Quantum Field Theory II: EM Field and Particle States
Covers the EM field and particle states in quantum field theory.
Vector Fields and Lorentz Tensors: Representation Theory
Covers the transformation properties of vector fields and their representation in Lorentz tensors.
Special and General Relativity
Introduces special and general relativity, Einstein equations, and gravitational dynamics.
Quantum Field Theory: Normalization and Lorentz Invariance
Explores the relativistic normalization of states in quantum field theory.
Quantum Field Theory: Poincaré Group
Explores Einsteinian relativity, the Lorentz group, and Poincaré transformations, emphasizing proper and non-orthochronous components.
Time Dilation and Lorentz Contraction
Explores time dilation, Lorentz contraction, and isotropy in physics.
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