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Mathematical descriptions of the electromagnetic field
Natural sciences
Physics
Electromagnetism
Electrodynamics
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Related lectures (27)
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EM Field: Discrete Symmetries
Covers EM Field and Discrete Symmetries, emphasizing the importance of symmetries in quantum field theory.
Electromagnetic Field
Covers the electromagnetic field in astrophysics and field theory, including the symmetry principle and interaction terms.
Gupta-Bleuler Quantization
Covers the Gupta-Bleuler quantization method in Quantum Field Theory, focusing on redundancy in the electromagnetic field and the recovery of Maxwell equations.
EM Field: Quantum Field Theory II
Covers the electromagnetic (EM) field in Quantum Field Theory II, discussing gauge transformations, symmetry principles, and field quantization.
Discrete Symmetries Introduction
Introduces the concept of discrete symmetries in Quantum Field Theory and their impact on particles and anti-particles.
Quantum Field Theory II: EM Field and Particle States
Covers the EM field and particle states in quantum field theory.
Discrete Symmetries Introduction
Introduces discrete symmetries, operators, and tetraquarks in quantum field theory.
Electromagnetic Waves: Energy and Momentum
Discusses the energy, momentum, and generation of electromagnetic waves, along with their applications in optics and radiation pressure.
Discrete Symmetries Introduction
Covers the introduction to discrete symmetries and the violation of symmetry by weak interactions.
Quantum Field Theory II: Maxwell Field and Symmetries
Covers the Maxwell field, symmetries, and making shifts in local and covariant derivatives.
EM Field: Discrete Symmetries
Explores electromagnetic fields and discrete symmetries in theoretical physics.
Magnetostatics: Magnetic Field and Force
Covers magnetic fields, Ampère's law, and magnetic dipoles with examples and illustrations.
Gauge Invariance and Poisson Equation
Explores gauge invariance in Maxwell equations and delves into the Poisson equation in 3D space.
Dipolar Radiation and Larmor Formula
Explores dipolar radiation, the Larmor formula, and macroscopic electromagnetic fields.
Time-dependent Perturbation Theory: Fermi's Golden Rule
Covers time-dependent perturbation theory, focusing on Fermi's Golden Rule and spontaneous emission.
Electrodynamics: Gauge Invariance and Electrostatics
Explores gauge invariance, electrostatics, Maxwell's equations, and boundary conditions.
Radiation and Antennas: Lorenz Gauge and Potentials
Explores the relationship between radiation and antennas, covering Lorenz gauge, potentials, spherical waves, and antenna examples.
Magnetostatics: Magnetic Dipoles and Torque
Explores magnetic potential energy, dipoles, torque, and analytical solutions for magnetic fields.
Gauss's Law: Charges, Electric Flux, and Field Evaluation
Explores Gauss's law, electric flux evaluation, Gaussian surfaces, and field simplification using symmetry arguments.
Multipole Expansion in Electrodynamics
Explores multipole expansion in Electrodynamics, covering Maxwell Equations, EM Potentials, Lorenz Gauge, and Magnetization.
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