Electric spark

This article is about the electrical discharge. For fiery and other sparks, see Spark.
A spark on a spark plug
Lightning is a natural example of an electric spark.

An electric spark is an abrupt electrical discharge that occurs when a sufficiently high electric field creates an ionized, electrically conductive channel through a normally-insulating medium, often air or other gases or gas mixtures. Michael Faraday described this phenomenon as "the beautiful flash of light attending the discharge of common electricity".[1]

The rapid transition from a non-conducting to a conductive state produces a brief emission of light and a sharp crack or snapping sound. A spark is created when the applied electric field exceeds the dielectric breakdown strength of the intervening medium. For air, the breakdown strength is about 30 kV/cm at sea level.[2] Experimentally, this figure tends to differ depending upon humidity, atmospheric pressure, shape of electrodes (needle and ground-plane, hemispherical etc.) and the corresponding spacing between them and even the type of waveform, whether sinusoidal or cosine-rectangular.

At the beginning stages, free electrons in the gap (from cosmic rays or background radiation) are accelerated by the electrical field, resulting in a Townsend avalanche. As they collide with air molecules, they create additional ions and newly freed electrons which are also accelerated. At some point, thermal energy will provide a much greater source of ions. The exponentially-increasing electrons and ions rapidly cause regions of the air in the gap to become electrically conductive in a process called dielectric breakdown. Once the gap breaks down, current flow is limited by the available charge (for an electrostatic discharge) or by the impedance of the external power supply. If the power supply continues to supply current, the spark will evolve into a continuous discharge called an electric arc. An electric spark can also occur within insulating liquids or solids, but with different breakdown mechanisms from sparks in gases.

Sometimes, sparks can be dangerous. They can cause fires and burn skin.

Lightning is an example of an electric spark in nature, while electric sparks, large or small, occur in or near many man-made objects, both by design and sometimes by accident.

History

Benjamin Franklin drawing an electric spark to his finger from a key suspended from a kite string.

In 1671, Leibniz discovered that sparks were associated with electrical phenomena.[3] In 1708, Samuel Wall performed experiments with amber rubbed with cloth to produce sparks.[4] In 1752, Thomas-François Dalibard, acting on an experiment proposed by Benjamin Franklin, arranged for a retired French dragoon named Coiffier in the village of Marly to collect lightning in a Leyden jar[5] thereby proving that lightning and electricity are the same. In Franklin's famous kite experiment, he successfully extracted sparks from a cloud during a thunderstorm.

Uses

Gas stove burner - the electric spark flame igniter is shown at the left.
Spark transmitter used for ship to shore communication up to 10 km (c. 1900)."

Ignition sources

Electric sparks are used in spark plugs in gasoline internal combustion engines to ignite fuel and air mixtures.[6] The electric discharge in a spark plug occurs between an insulated central electrode and a grounded terminal on the base of the plug. The voltage for the spark is provided by an ignition coil or magneto that is connected to the spark plug with an insulated wire.

Flame igniters use electric sparks to initiate combustion in some furnaces and gas stoves in place of a pilot flame.[7] Auto reignition is a safety feature that is used in some flame igniters that senses the electrical conductivity of the flame and uses this information to determine whether a burner flame is lit.[8] This information is used to stop an ignition device from sparking after the flame is lit or restart the flame if it goes out.

Radio communications

A spark-gap transmitter uses an electric spark gap to generate radio frequency electromagnetic radiation that can be used as transmitters for wireless communication.[9] Spark gap transmitters were widely used in the first three decades of radio from 1887–1916. They were later supplanted by vacuum tube systems and by 1940 were no longer used for communication. The wide use of spark-gap transmitters led to the nickname "sparks" for a ship's radio officer.

Metalworking

Electric sparks are used in different kinds of metalworking. Electric discharge machining (EDM) is sometimes called spark machining and uses a spark discharge to remove material from a workpiece.[10] Electrical discharge machining is used for hard metals or those that are difficult to machine with traditional techniques.

Spark plasma sintering (SPS) is a sintering technique that uses a pulsed direct current that passes through a conductive powder in a graphite die.[11] SPS is faster than conventional hot isostatic pressing, where the heat is provided by external heating elements.

Chemical analysis

The light that is produced by electric sparks can be collected and used for a type of spectroscopy called spark emission spectroscopy.[12]

A high energy pulsed laser can be used to produce an electric spark. Laser induced breakdown spectroscopy (LIBS) is a type of atomic emission spectroscopy that uses a high pulse energy laser to excite atoms in a sample. LIBS has also been called laser spark spectroscopy (LSS).[13]

Electric sparks can also be used to create ions for mass spectrometry.[14] Spark discharge has been also applied in electrochemical sensing via the in-situ surface modification of disposable screen printed carbon electrodes (SPEs) with various metal and carbon sources.[15][16][17][18][19]

Hazards

An electric spark produced by a stun gun. At 150,000 volts, the spark can easily jump a gap greater than 25 mm (1 in).

Sparks can be hazardous to people, animals or even inanimate objects. Electric sparks can ignite flammable materials, liquids, gases and vapors. Even inadvertent static-discharges, or small sparks that occur when switching on lights or other circuits, can be enough to ignite flammable vapors from sources like gasoline, acetone, propane, or dust concentrations in the air, such as those found in flour mills or more generally in factories handling powders.[20][21]

Sparks often indicate the presence of a high voltage, or "potential field". The higher the voltage; the farther a spark can jump across a gap, and with enough energy supplied can lead to greater discharges such as a glow or an arc. When a person is charged with high-voltage static-charges, or is in the presence of high-voltage electrical supplies, a spark can jump between a conductor and a person who is in close enough proximity, allowing the release of much higher energies that can cause severe burns, shut down the heart and internal organs, or even develop into an arc flash.

High-voltage sparks, even those with low energy such as from a stun gun, can overload the conductive pathways of the nervous system, causing involuntary muscle-contractions, or interfere with vital nervous-system functions such as heart rhythm. When the energy is low enough most of it may be used just heating the air, so the spark never fully stabilizes into a glow or arc. However, sparks with very low energy still produce a "plasma tunnel" through the air, through which electricity can pass. This plasma is heated to temperatures often greater than the surface of the Sun, and can cause small, localized burns. Conductive liquids, gels or ointments are often used when applying electrodes to a person's body, preventing sparks from forming at the point of contact and damaging skin. Similarly, sparks can cause damage to metals and other conductors, ablating or pitting the surface; a phenomenon which is exploited in electric etching. Sparks also produce ozone which, in high enough concentrations, can cause respiratory discomfort or distress, itching, or tissue damage, and can be harmful to other materials such as certain plastics.[22][23]

See also

References

  1. ^ Faraday, Experimental Researches in Electricity, volume 1 paragraph 69.
  2. ^ Meek, J. (1940). "A Theory of Spark Discharge". Physical Review. 57 (8): 722–728. Bibcode:1940PhRv...57..722M. doi:10.1103/PhysRev.57.722.
  3. ^ Kryzhanovsky, L. N. (1989). "Mapping the history of electricity". Scientometrics. 17 (1–2): 165–170. doi:10.1007/BF02017730. S2CID 10668311.
  4. ^ Heilbron, J. L.; Heilborn, J. L. (1979). Electricity in the 17th and 18th centuries: a study of early Modern physics. Berkeley: University of California Press. ISBN 978-0-520-03478-5.
  5. ^ Michael Brian Schiffer, Draw the Lightning Down: Benjamin Franklin and Electrical Technology in the Age of Enlightenment. University of California Press, p 164
  6. ^ Day, John (1975). The Bosch book of the Motor Car, Its evolution and engineering development. St. Martin's Press. pp. 206–207. LCCN 75-39516. OCLC 2175044.
  7. ^ Bill Whitman; Bill Johnson; John Tomczyck (2004). Refrigeration and Air Conditioning Technology, 5E. Clifton Park, NY: Thomson Delmar Learning. pp. 677ff. ISBN 978-1-4018-3765-5.
  8. ^ Ed Sobey (2010). The Way Kitchens Work: The Science Behind the Microwave, Teflon Pan, Garbage Disposal, and More. Chicago, Ill: Chicago Review Press. p. 116. ISBN 978-1-56976-281-3.
  9. ^ Beauchamp, K. G. (2001). History of telegraphy. London: Institution of Electrical Engineers. ISBN 978-0-85296-792-8.
  10. ^ Jameson, Elman C. (2001). Electrical discharge machining. Dearborn, Mich: Society of Manufacturing Engineers. ISBN 978-0-87263-521-0.
  11. ^ Munir, Z. A.; Anselmi-Tamburini, U.; Ohyanagi, M. (2006). "The effect of electric field and pressure on the synthesis and consolidation of materials: A review of the spark plasma sintering method". Journal of Materials Science. 41 (3): 763. Bibcode:2006JMatS..41..763M. doi:10.1007/s10853-006-6555-2. S2CID 73570418.
  12. ^ Walters, J. P. (1969). "Historical Advances in Spark Emission Spectroscopy". Applied Spectroscopy. 23 (4): 317–331. Bibcode:1969ApSpe..23..317W. doi:10.1366/000370269774380662. S2CID 96919495.
  13. ^ Radziemski, Leon J.; Cremers, David A. (2006). Handbook of laser-induced breakdown spectroscopy. New York: John Wiley. ISBN 978-0-470-09299-6.
  14. ^ Dempster, A. J. (1936). "Ion Sources for Mass Spectroscopy". Review of Scientific Instruments. 7 (1): 46–49. Bibcode:1936RScI....7...46D. doi:10.1063/1.1752028.
  15. ^ Trachioti, Maria G.; Hrbac, Jan; Prodromidis, Mamas I. (May 2018). "Determination of Cd and Zn with "green" screen-printed electrodes modified with instantly prepared sparked tin nanoparticles". Sensors and Actuators B: Chemical. 260: 1076–1083. doi:10.1016/j.snb.2017.10.039.
  16. ^ Trachioti, Maria G.; Karantzalis, Alexandros E.; Hrbac, Jan; Prodromidis, Mamas I. (February 2019). "Low-cost screen-printed sensors on-demand: Instantly prepared sparked gold nanoparticles from eutectic Au/Si alloy for the determination of arsenic at the sub-ppb level". Sensors and Actuators B: Chemical. 281: 273–280. doi:10.1016/j.snb.2018.10.112. S2CID 106204477.
  17. ^ Trachioti, Maria G.; Tzianni, Eleni I.; Riman, Daniel; Jurmanova, Jana; Prodromidis, Mamas I.; Hrbac, Jan (May 2019). "Extended coverage of screen-printed graphite electrodes by spark discharge produced gold nanoparticles with a 3D positioning device. Assessment of sparking voltage-time characteristics to develop sensors with advanced electrocatalytic properties". Electrochimica Acta. 304: 292–300. doi:10.1016/j.electacta.2019.03.004. S2CID 104377649.
  18. ^ Trachioti, Maria G.; Hemzal, Dusan; Hrbac, Jan; Prodromidis, Mamas I. (May 2020). "Generation of graphite nanomaterials from pencil leads with the aid of a 3D positioning sparking device: Application to the voltammetric determination of nitroaromatic explosives". Sensors and Actuators B: Chemical. 310: 127871. doi:10.1016/j.snb.2020.127871. S2CID 213989070.
  19. ^ Trachioti, Maria G.; Hrbac, Jan; Prodromidis, Mamas I. (October 2021). "Determination of 8−hydroxy−2ˊ−deoxyguanosine in urine with "linear" mode sparked graphite screen-printed electrodes". Electrochimica Acta. 399: 139371. doi:10.1016/j.electacta.2021.139371. ISSN 0013-4686. S2CID 240654358.
  20. ^ An Introduction to Physical Science by James Shipman, Jerry D. Wilson, Charles A. Higgins, Omar Torres -- Cengage Learning 2016 Page 202
  21. ^ Dust explosion electrostatics hazardshttps://powderprocess.net/Safety/Electrostatics_Risks_ATEX_DSEAR.html Archived 2019-02-07 at the Wayback Machine
  22. ^ Management of Hazardous Energy: Deactivation, De-Energization, Isolation, and Lock-out By Thomas Neil McManus -- CRC Press 2013 Page 79--80, 95--96, 231, 346, 778, 780
  23. ^ Electrostatic Hazards by Günter Luttgens, Norman Wilson -- Reed Professional and Educational Publishing Ltd. 1997
Wikimedia Commons has media related to Electric sparks.

Read other articles:

Jimmy Greaves

Jimmy GreavesMBE Greaves bermain untuk Inggris pada 1959Informasi pribadiNama lengkap James Peter GreavesTanggal lahir (1940-02-20)20 Februari 1940Tempat lahir Manor Park, London, InggrisTanggal meninggal 19 September 2021(2021-09-19) (umur 81)Tempat meninggal Danbury, Essex, InggrisTinggi 5 ft 8 in (1,73 m)[1]Posisi bermain PenyerangKarier junior1955–1957 ChelseaKarier senior*Tahun Tim Tampil (Gol)1957–1961 Chelsea 157 (124)1961 AC Milan 12 (9)1961–1970 Tot...

 

 

Узбеки в Кыргызстане

Эта статья нуждается в переработке.Пожалуйста, улучшите статью в соответствии с правилами написания статей. УзбекиЎзбекларӨзбектер Современное самоназвание Узбеки, Oʻzbeklar, Ўзбеклар Численность 1 млн (23.11.2023 г.)[2] 964 379 (01.01.2020 г.)[3], 918 262 (01.01.2018 г.)[4]. 856 987 чел. (1.01.2015)...

 

 

Herodes Antipas

Herodes AntipasRaja (Tetrarki) wilayah Galilea dan PereaKoin Herodes AntipasBerkuasa4 SM – 39 MPendahuluHerodes yang AgungPenerusAgripa IAyahHerodes yang AgungIbuMalthaceIstriPhasaelis, putri Aretas IV Philopatris dari NabateaHerodias Herodes Antipas (singkatan dari Antipatros) (sebelum 20 SM – setelah 39 M) adalah raja wilayah Galilea dan Perea pada abad pertama Masehi, yang memiliki gelar Tetrarki. Ayahandanya adalah raja Herodes Agung. Ia terkenal atas perannya dalam peristiwa yang ber...

Hinduism by country

Hindu citizens in various countries Percentage of Hindus by country, according to the Pew Research Center. Hinduism by country Africa Algeria Angola Benin Botswana Burkina Faso Burundi Cameroon Cape Verde Central African Republic Chad Comoros Democratic Republic of the Congo Republic of the Congo Djibouti Egypt Equatorial Guinea Eritrea Eswatini Ethiopia Gabon Gambia Ghana Guinea Guinea-Bissau Ivory Coast Kenya Lesotho Liberia Libya Madagascar Malawi Mali Mauritania Mauritius Morocco Western ...

 

 

Operation Priboi

Code name for mass deportations by the Soviet Union in 1949 Part of a series onForced population transfer in the Soviet Union Policies Dekulakization Evacuation Forced settlements Gulag Peoples Azerbaijanis from Armenia Balkars Bessarabia and Northern Bukovina Chechens and Ingush Chinese Crimean Tatars Estonians Germans from Romania Greeks NKVD operation Ingrian Finns Kalmyks Karachays Koreans Kurds from Transcaucasia Latvians NKVD operation Lithuanians Meskhetian Turks Poles 1944–1946 1955...

 

 

大字 (数字)

この項目には、一部のコンピュータや閲覧ソフトで表示できない文字が含まれています(詳細)。 数字の大字(だいじ)は、漢数字の一種。通常用いる単純な字形の漢数字(小字)の代わりに同じ音の別の漢字を用いるものである。 概要 壱万円日本銀行券(「壱」が大字) 弐千円日本銀行券(「弐」が大字) 漢数字には「一」「二」「三」と続く小字と、「壱」「�...

约翰斯顿环礁

此條目可参照英語維基百科相應條目来扩充。 (2021年5月6日)若您熟悉来源语言和主题,请协助参考外语维基百科扩充条目。请勿直接提交机械翻译,也不要翻译不可靠、低品质内容。依版权协议,译文需在编辑摘要注明来源,或于讨论页顶部标记{{Translated page}}标签。 约翰斯顿环礁Kalama Atoll 美國本土外小島嶼 Johnston Atoll 旗幟颂歌:《星條旗》The Star-Spangled Banner約翰斯頓環礁�...

 

 

Dimitri Yachvili

Dimitri Yachvili Dimitri Yachvili a Lione nel 2015 Dati biografici Paese  Francia Altezza 182 cm Peso 84 kg Familiari Michel Yachvili (padre)Charles-Édouard Yachvili (fratello)Grégoire Yachvili (fratello) Rugby a 15 Ruolo Mediano di mischia Ritirato 2014 Carriera Attività giovanile 1995-1999 Brive Attività di club[1] 1999-2001 P.U.C.2001-2002 Gloucester18 (5)2002-2014 Biarritz207 (2 304) Attività da giocatore internazionale 2002-2012 Francia61 (373) Palmar�...

 

 

The World as It Is (book)

2018 book by Ben Rhodes The World as It Is AuthorBen RhodesCountryUnited StatesLanguageEnglishSubjectPresidency of Barack ObamaGenreMemoirPublishedJune 5, 2018PublisherRandom HousePages480ISBN978-0-5255-0935-6 The World as It Is is a memoir by Ben Rhodes, a former White House staffer and longtime adviser to former U.S. President Barack Obama. The book was released by Random House on June 5, 2018. It includes a recounting of many important events during Obama's two terms as President. It also ...

Marco Materazzi

Este artículo o sección necesita referencias que aparezcan en una publicación acreditada. Busca fuentes: «Marco Materazzi» – noticias · libros · académico · imágenesEste aviso fue puesto el 8 de mayo de 2021. Marco Materazzi Datos personalesApodo(s) The MatrixNacimiento Lecce, Italia19 de agosto de 1973 (50 años)País ItaliaNacionalidad(es) ItalianaAltura 1,93 m (6′ 4″)Peso 78 kgCarrera como entrenadorDeporte FútbolDebut como entrenador 2015(Chennaiy...

 

 

WFVL

For the radio station previously using this callsign, see WMGU. Radio station in Lumberton, North CarolinaWFVLLumberton, North CarolinaBroadcast areaFayetteville metropolitan areaFrequency102.3 (MHz)ProgrammingFormatContemporary ChristianOwnershipOwnerEducational Media FoundationHistoryFirst air date1964Former call signsWAGR-FM (1964–1972)WJSK (1972–1998)WFNC-FM (1998–2009)[1]Call sign meaningWFayetteViLleTechnical informationFacility ID41311ClassAERP6,000 wattsHAAT82 meters (26...

 

 

Stazione di Nozzano

Nozzanostazione ferroviariaLocalizzazioneStato Italia LocalitàLucca, frazione Nozzano Coordinate43°49′47.91″N 10°24′25.82″E43°49′47.91″N, 10°24′25.82″E LineeLucca-Viareggio StoriaStato attualeIn uso Attivazione1890 CaratteristicheTipoFermata in superficie, passante Binari1 GestoriRete Ferroviaria Italiana DintorniLucca Modifica dati su Wikidata · Manuale La stazione di Nozzano è una fermata ferroviaria della linea Viareggio-Lucca, situata nella frazione omonim...

Croatia–Japan relations

Bilateral relationsCroatian–Japanese relations Croatia Japan Croatia and Japan maintain diplomatic relations through mutual embassies. History The two countries established diplomatic relations with each other on March 5, 1993. The embassy of Croatia in Tokyo was founded in September 1993 while the Japanese embassy in Zagreb was founded in February 1998.[1] During World War II, the Empire of Japan maintained an embassy in Zagreb and recognized the Independent State of Croatia, which...

 

 

Potassium

This article is about the chemical element. For the use of potassium as a medication, see Potassium chloride (medical use). For the use of potassium in biology, see Potassium in biology. Chemical element with atomic number 19 (K)Potassium, 19KPotassium pearls (in paraffin oil, ~5 mm each)PotassiumAppearancesilvery white, faint bluish-purple hue when exposed to airStandard atomic weight Ar°(K)39.0983±0.0001[1]39.098±0.001 (abridged)[2] Potassium in the pe...

 

 

Cruzadas

Para otros usos de este término, véase cruzado. «Cruzada» redirige aquí. Para otras acepciones, véase Cruzada (desambiguación). Cruzadas Representación del asedio de Antioquía durante la primera cruzada en una miniatura medieval (Jean Colombe).Fecha 1096-1291Lugar Tierra SantaResultado Primera: Victoria cristianaSegunda: Victoria musulmanaTercera: Victoria cristianaCuarta: Victoria cristiana y Creación del Imperio latinoQuinta: Victoria musulmanaSexta: Victoria cristianaSéptima: V...

Andrea Occhipinti

Italian actor and film producer This biography of a living person needs additional citations for verification. Please help by adding reliable sources. Contentious material about living persons that is unsourced or poorly sourced must be removed immediately from the article and its talk page, especially if potentially libelous.Find sources: Andrea Occhipinti – news · newspapers · books · scholar · JSTOR (June 2023) (Learn how and when to remove this mes...

 

 

Adam

First man according to the Abrahamic creation and religions such as Judaism, Christianity and Islam This article is about the biblical figure. For the given name, see Adam (given name). For other uses, see Adam (disambiguation). For further information, see Adam and Eve. AdamDetail from Michelangelo's The Creation of Adam, Sistine Chapel ceilingEraEdenic and AntediluvianSpouseEve[a]ChildrenCain, Abel and Seth[b] AdamA Byzantine mosaic in Monreale depicting Adam encountering th...

 

 

羽前国

令制国一覧 > 東山道 > 羽前国 羽前国の位置 羽前国(うぜんのくに)は、東北戦争終結直後に出羽国を分割し制定された、日本の地方区分の国の一つ。東山道に位置する。別称は羽後国とあわせて、または単独で羽州(うしゅう)。領域は現在の山形県のうち、飽海郡と酒田市北部(最上川以北)を除いた大部分にあたる。 沿革 「旧高旧領取調帳」の記載に...

Greek colonisation

Archaic Greek expansion across the Mediterranean and Black Sea Greek territories and colonies during the Archaic period (750–550 BC) Greek colonisation refers to the expansion of Archaic Greeks, particularly during the 8th–6th centuries BC, across the Mediterranean Sea and the Black Sea. The Archaic expansion differed from the Iron Age migrations of the Greek Dark Ages, in that it consisted of organised direction (see oikistes) away from the originating metropolis rather than the simplist...

 

 

George Harris, 4th Baron Harris

British amateur cricketer, colonial administrator and Governor of Bombay (1851-1932) Lord Harris redirects here. For other people known as Lord Harris, see Lord Harris (disambiguation). The Right HonorableThe Lord HarrisGCSI GCIE CB TD ADCLord Harris in the 1880sPersonal informationFull nameGeorge Robert Canning HarrisBorn(1851-02-03)3 February 1851St Ann's, TrinidadDied24 March 1932(1932-03-24) (aged 81)Throwley, KentBattingRight-handedBowlingRight-arm fastRoleBatsm...