Electric discharge: Difference between revisions
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{{short description|Flow of electric current through a non-metal medium}} |
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[[File:Glow discharge current-voltage curve English.svg|thumb|right|Voltage versus current characteristics for neon gas at 1 [[Torr]] pressure between flat electrodes spaced 50 |
[[File:Glow discharge current-voltage curve English.svg|thumb|right|Voltage versus current characteristics for neon gas at 1 [[Torr]] pressure between flat electrodes spaced 50 cm. <br /> A-D dark discharge |
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<br> A-B: non-self-sustaining discharge and collection of spontaneously-generated ions. |
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<br> |
<br /> A-B: non-self-sustaining discharge and collection of spontaneously generated ions. |
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<br /> B-D: the [[Townsend discharge|Townsend region]], where the cascade multiplication of [[Charge carrier|carriers]] takes place. |
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<br> D-I glow discharge |
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<br> D-E: transition to a glow discharge, breakdown of the gas. |
<br /> D-I [[glow discharge]] |
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<br /> D-E: transition to a glow discharge, breakdown of the gas. |
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<br> E-G: transition to a normal glow; in the regions around G, voltage is nearly constant for varying current. |
<br /> E-G: transition to a normal glow; in the regions around G, voltage is nearly constant for varying current. |
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<br> G-I: represents abnormal glow, as current density rises |
<br /> G-I: represents abnormal glow, as current density rises |
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<br> I-K arc discharge.]] |
<br /> I-K [[arc discharge]].]] |
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In [[electromagnetism]], an ''' electric discharge''' is the release and transmission of electricity in an applied [[electric field]] through a medium such as a [[gas]] (i.e., an outgoing flow of [[electric current]] through a non-[[metal]] medium).<ref>American Geophysical Union, National Research Council (U.S.). Geophysics Study Committee (1986) ''The earth's electrical environment''. National Academy Press, Washington, DC, p. 263. {{ISBN|9780309036801}}</ref> |
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==Applications== |
==Applications== |
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The properties and effects of electric discharges are useful over a wide range of magnitudes. Tiny pulses of current are used to detect [[ionizing radiation]] in a [[Geiger–Müller tube]]. A low steady current can |
The properties and effects of electric discharges are useful over a wide range of magnitudes. Tiny pulses of current are used to detect [[ionizing radiation]] in a [[Geiger–Müller tube]]. A low steady current can illustrate the gas spectrum in a [[gas-filled tube]]. A [[neon lamp]] is an example of a [[gas-discharge lamp]], useful both for illumination and as a [[voltage regulator]]. A [[flashtube]] generates a short pulse of intense light useful for [[photography]] by sending a heavy current through a gas arc discharge. [[Corona discharge]]s are used in [[photocopier]]s. |
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Electric discharges can convey substantial energy to the electrodes at the ends of the discharge. A [[spark gap]] is used in internal combustion engines to ignite the fuel/air mixture on every power stroke. Spark gaps are also used to switch heavy currents in a [[Marx generator]] and to protect electrical apparatus. In [[electric discharge machining]], multiple tiny electric arcs |
Electric discharges can convey substantial energy to the electrodes at the ends of the discharge. A [[spark gap]] is used in internal combustion engines to ignite the fuel/air mixture on every power stroke. Spark gaps are also used to switch heavy currents in a [[Marx generator]] and to protect electrical apparatus. In [[electric discharge machining]], multiple tiny electric arcs erode a conductive workpiece to a finished shape. [[Arc welding]] is used to assemble heavy steel structures, where the base metal is heated to melting by the arc's heat. An [[electric arc furnace]] sustains arc currents of tens of thousands of amperes and is used for steelmaking and the production of alloys and other products. |
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==Examples== |
==Examples== |
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==See also== |
==See also== |
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* [[Electrical breakdown]] |
* [[Electrical breakdown]] |
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* [[Electric discharge in gases]] |
* [[Electric discharge in gases]] |
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* [[Lichtenberg figure]] |
* [[Lichtenberg figure]] |
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* [[Space charge]] |
* [[Space charge]] |
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==References== |
==References== |
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{{reflist |
{{reflist}} |
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{{Authority control}} |
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[[Category:Electrical phenomena]] |
[[Category:Electrical phenomena]] |
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[[Category:Plasma |
[[Category:Plasma phenomena]] |
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Latest revision as of 15:01, 24 January 2024
A-D dark discharge
A-B: non-self-sustaining discharge and collection of spontaneously generated ions.
B-D: the Townsend region, where the cascade multiplication of carriers takes place.
D-I glow discharge
D-E: transition to a glow discharge, breakdown of the gas.
E-G: transition to a normal glow; in the regions around G, voltage is nearly constant for varying current.
G-I: represents abnormal glow, as current density rises
I-K arc discharge.
In electromagnetism, an electric discharge is the release and transmission of electricity in an applied electric field through a medium such as a gas (i.e., an outgoing flow of electric current through a non-metal medium).[1]
Applications[edit]
The properties and effects of electric discharges are useful over a wide range of magnitudes. Tiny pulses of current are used to detect ionizing radiation in a Geiger–Müller tube. A low steady current can illustrate the gas spectrum in a gas-filled tube. A neon lamp is an example of a gas-discharge lamp, useful both for illumination and as a voltage regulator. A flashtube generates a short pulse of intense light useful for photography by sending a heavy current through a gas arc discharge. Corona discharges are used in photocopiers.
Electric discharges can convey substantial energy to the electrodes at the ends of the discharge. A spark gap is used in internal combustion engines to ignite the fuel/air mixture on every power stroke. Spark gaps are also used to switch heavy currents in a Marx generator and to protect electrical apparatus. In electric discharge machining, multiple tiny electric arcs erode a conductive workpiece to a finished shape. Arc welding is used to assemble heavy steel structures, where the base metal is heated to melting by the arc's heat. An electric arc furnace sustains arc currents of tens of thousands of amperes and is used for steelmaking and the production of alloys and other products.
Examples[edit]
Examples of electric discharge phenomena include:
- Brush discharge
- Dielectric barrier discharge
- Corona discharge
- Electric glow discharge
- Electric arc
- Electrostatic discharge
- Electric discharge in gases
- Leader (spark)
- Partial discharge
- Streamer discharge
- Vacuum arc
- Townsend discharge
- St. Elmo's fire
- Lightning
- Electric organ
See also[edit]
References[edit]
- ^ American Geophysical Union, National Research Council (U.S.). Geophysics Study Committee (1986) The earth's electrical environment. National Academy Press, Washington, DC, p. 263. ISBN 9780309036801
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