Displacement current/Related Articles: Difference between revisions

	Main Article	Discussion	Related Articles  [?]	Bibliography  [?]	External Links  [?]	Citable Version  [?]
	A list of Citizendium articles, and planned articles, about Displacement current.

See also changes related to Displacement current, or pages that link to Displacement current or to this page or whose text contains "Displacement current".

Parent topics

Subtopics

Other related topics

Bot-suggested topics

Auto-populated based on Special:WhatLinksHere/Displacement current. Needs checking by a human.

• Ampere's law [r]: The integral of a magnetic field over a closed path is equal to the conduction current through the surface bounded by the path. ^[e]
• Biot-Savart's law [r]: Add brief definition or description
• Electricity [r]: The flow or presence of electric charge; the flow of electricity is an important carrier of energy. ^[e]
• Electromagnetic wave [r]: A change, periodic in space and time, of an electric field E(r,t) and a magnetic field B(r,t); a stream of electromagnetic waves, referred to as electromagnetic radiation, can be seen as a stream of massless elementary particles, named photons. ^[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]
• James Clerk Maxwell [r]: (1831 – 1879) Scottish physicist best known for his formulation of electromagnetic theory and the statistical theory of gases. ^[e]
• Magnetic field [r]: Vector field H caused by permanent magnets, conduction currents, and displacement currents. ^[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]
• Vector field [r]: A vector function on the three-dimensional Euclidean space ${\displaystyle \scriptstyle \mathbb {E} ^{3}}$ . ^[e]