Electric displacement/Related Articles
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- See also changes related to Electric displacement, or pages that link to Electric displacement or to this page or whose text contains "Electric displacement".
Parent topics
Subtopics
- Vacuum (science) [r]: A realizable vacuum with a gaseous pressure that is much less than atmospheric. [e]
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- Clausius-Mossotti relation [r]: connects the relative permittivity εr of a dielectric to the polarizability α of the atoms or molecules constituting the dielectric. [e]
- Displacement current [r]: Time derivative of the electric displacement D; Maxwell's correction to Ampère's law. [e]
- Divergence [r]: A first order differential vector operator acting on a vector field resulting in a scalar function. [e]
- Electric constant [r]: A physical constant in the International System of Units (SI) relating capacitance to area in classical vacuum with an exact value ε0 = 107/(4πc02) F/m, c0 being the defined value for the speed of light in classical vacuum in the SI units. [e]
- Electricity [r]: The flow or presence of electric charge; the flow of electricity is an important carrier of energy. [e]
- Electromagnetism [r]: Phenomena and theories regarding electricity and magnetism. [e]
- Gauss' law (electrostatics) [r]: Relates the surface integral of the electric displacement through a closed surface to the electric charge enveloped by the closed surface. [e]
- Gaussian units [r]: A centimeter-gram-second system of units often used in electrodynamics and special relativity. [e]
- Relative permittivity [r]: A factor describing the polarizability of a material or medium as a proportionality between an electric displacement and an electric field in a dielectric. [e]
- Dielectric [r]: an insulating, but polarizable, material that can be solid, liquid or gas; its important characterizing property is the relative permittivity (aka dielectric constant). [e]
- Magnetic induction [r]: A divergence-free electromagnetic field, denoted B, determining the Lorentz force upon a moving charge, and related to the magnetic field H. [e]
- Maxwell equations [r]: Mathematical equations describing the interrelationship between electric and magnetic fields; dependence of the fields on electric charge- and current- densities. [e]