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Electromagnetic field - Behavior of the electromagnetic fields | | Electromagnetic field - Behavior of the electromagnetic fields: Encyclopedia II - Electromagnetic field - Behavior of the electromagnetic fields | |
Electromagnetic field - Incompressible fluids.
The electric and magnetic vector fields can be thought of as being the velocities of a pair of incompressible fluids which permeate space. In the absence of charges these fluids would be at rest, so that their velocity fields would be zero. Since both fluids are incompressible, their densities do not change: it is not possible to compress magnetic or electric fluid into a smaller space.
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See also:Electromagnetic field, Electromagnetic field - Behavior of the electromagnetic fields, Electromagnetic field - Incompressible fluids, Electromagnetic field - Source and Sinks, Electromagnetic field - The two fluids, Electromagnetic field - The vortex, Electromagnetic field - Summary, Electromagnetic field - Negative Feedback Loop, Electromagnetic field - Positive Feedback Loop, Electromagnetic field - Flaw in the velocity field interpretation, Electromagnetic field - The field as a stream of moving photons, Electromagnetic field - Light and electromagnetic waves, Electromagnetic field - The electromagnetic field as a feedback loop | | | Electromagnetic field, Electromagnetic field - Behavior of the electromagnetic fields, Electromagnetic field - Flaw in the velocity field interpretation, Electromagnetic field - Incompressible fluids, Electromagnetic field - Light and electromagnetic waves, Electromagnetic field - Negative Feedback Loop, Electromagnetic field - Positive Feedback Loop, Electromagnetic field - Source and Sinks, Electromagnetic field - Summary, Electromagnetic field - The electromagnetic field as a feedback loop, Electromagnetic field - The field as a stream of moving photons, Electromagnetic field - The two fluids, Electromagnetic field - The vortex, antenna, bremsstrahlung, Classification of electromagnetic fields, Closed waveguide, Coulomb's law, electric field, electrodynamics, electromagnetic interaction*, electromagnetic radiation, electromagnetic radiation hazard, electromagnetic spectroscopy, electromagnetic spectrum, far-field region, Flux, Fresnel zone, Fresnel equations, holography, intensity, list of environment topics, Magneto-optic effect, Mode field diameter, Near-field region, perinormal phenomenon, photoelectric effect, Radiometry, Speckle pattern, Surface wave | | |
| | | Electromagnetic field: Encyclopedia II - Electromagnetic field - Behavior of the electromagnetic fields
Electromagnetic field - Behavior of the electromagnetic fields
(A hydrodynamic interpretation)
Electromagnetic field - Incompressible fluids
The electric and magnetic vector fields can be thought of as being the velocities of a pair of incompressible fluids which permeate space. In the absence of charges these fluids would be at rest, so that their velocity fields would be zero. Since both fluids are incompressible, their densities do not change: it is not possible to compress magnetic or electric fluid into a smaller space.
Other related archivesAmpère's law, Classification of electromagnetic fields, Closed waveguide, Coulomb's law, Einstein, Electric charges, Faraday induction, Flux, Fresnel equations, Fresnel zone, Gauss's law, Lenz's law, Lorentz force, Lorentz transformations, Magneto-optic, Maxwell's equations, Michelson-Morley experiment, Mode field diameter, Near-field region, Poynting vectors, Protons, Radiometry, Speckle pattern, Surface wave, acceleration, anisotropic, antenna, boost, bremsstrahlung, conservation of energy, continuity equation, displacement current, electric field, electrodynamics, electromagnetic interaction, electromagnetic radiation, electromagnetic radiation hazard, electromagnetic spectroscopy, electromagnetic spectrum, electromagnetic wave, electron, electrostatic field, far-field region, fields, flux, harmonic, holography, hydrodynamic, incompressible fluids, inertial motion, intensity, invariant, lens, light, list of environment topics, luminiferous aether, magnetic charges, magnetic field, magnetostatic field, medium, negative feedback, no sources or sinks, oscillating, paradoxically, perinormal phenomenon, photoelectric effect, photonic, positive feedback, principle of relativity, quantum electrodynamic, quantum electrodynamics, right hand rule, sources or sinks, space, special relativity, speed, speed of light, tensor field, theory of relativity, vector, vectors, velocity, vortex, vortical, wave equation
 Adapted from the Wikipedia article "Behavior of the electromagnetic fields", under the G.N U Free Docmentation License. Please also see http://en.wikipedia.org/wiki |
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