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{{Infobox person | |||
| image = Jean Charles Athanase Peltier.jpg | |||
|caption = 220 px | |||
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| name = Jean Charles Athanase Peltier | |||
| birth_date = February 22, 1785 | |||
| birth_place = Ham | |||
| death_date = October 27, 1845 | |||
| death_place = [[Paris, France|Paris]], [[France]] | |||
| yearsactive = | |||
| occupation = Physicist | |||
| birthname = | |||
| othername = | |||
| spouse = | |||
| children = | |||
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}} | |||
'''Jean Charles Athanase Peltier'''<ref>[http://books.google.com/books?id=trcHAQAAIAAJ Catalogue of the Wheeler gift of books], Volume 2. By [[American Institute of Electrical Engineers]]. Library, [[Latimer Clark]], [[Schuyler Skaats Wheeler]], [[Andrew Carnegie]], [[William Dixon Weaver]], Engineering Societies Library, [[Joseph Plass]]</ref> ({{IPAc-en|ˈ|p|ɛ|l|t|i|.|eɪ}};<ref>"[http://dictionary.reference.com/browse/peltier+effect Peltier effect]". dictionary.reference.com (ed. though transcribed as two syllables, the recording is more natural, with three)</ref> {{IPA-fr|pɛlˈtje|lang}}; February 22, 1785, in [[Ham, Somme|Ham]] – October 27, 1845, in Paris) was a French [[physicist]]. He was originally a [[watchmaker|watch dealer]], but at 30 years old took up experiments and observations in the field of physics. | |||
Peltier was the author of numerous papers in different departments of physics, but his name is specially associated with the thermal effects at junctions in a voltaic circuit.<ref>A Handy Book of Reference on All Subjects and for All Readers, Volume 6. Edited by [[Ainsworth Rand Spofford]], [[Charles Annandale]]. Gebbie publishing Company, limited, 1900. [http://books.google.com/books?id=251HAAAAYAAJ&pg=PA341 p341] (ed., also Gebbie, 1902 version, [http://books.google.com/books?id=z9FZprCIO-4C&pg=PA341 p341]</ref> He introduced the [[Peltier effect]]. Peltier also introduced the concept of [[electrostatic induction]] (1840), based on the modification of the distribution of electric charge in a material under the influence of a second object closest to it and it's an electrical charge. This effect has been very important in the recent development of non-polluting cooling mechanisms | |||
==Biography== | |||
Peltier initially trained as a watchmaker and was up to his 30s working as a watch dealer. Peltier worked with [[Abraham Louis Breguet]] in Paris. Later, he worked with various [[experiments]] on [[electrodynamics]] and noticed that in an [[Electronic component|electronic element]] when current flows through, a [[temperature gradient|temperature difference]] or temperature difference is generated at a current flow. In 1836, he published his work to and in 1838 were confirmed by [[Emil Khristianovich Lenz|Emil Lenz]]. Furthermore, Peltier dealt with topics from the [[atmospheric electricity]] and [[meteorology]]. In 1840, he published a work on the causes and formation of [[hurricanes]]. | |||
Peltier's papers, which are numerous, are devoted in great part to atmospheric electricity, waterspouts, cyanometry and polarization of sky-light, the temperature of water in the spheroidal state, and the boiling-point at great elevations. There are also a few devoted to curious points of natural history. But his name will always be associated with the thermal effects at junctions in a voltaic circuit, a discovery of importance quite comparable with those of Seebeck and Cumming.<ref name="TNWTCE">The New Werner Twentieth Century Edition of the Encyclopaedia Britannica: A Standard Work of Reference in Art, Literature, Science, History, Geography, Commerce, Biography, Discovery and Invention, Volume 18. Werner Company, 1907. [http://books.google.com/books?id=QQ8EAAAAYAAJ&pg=PA491 p491]</ref> | |||
Peltier discovered the [[thermoelectricity|calorific]] effect of [[electric current]] passing through the junction of two different [[metal]]s. This is now called the [[Peltier effect]]<ref>Contemporarily, known as the [[thermoelectric effect]].</ref> (or [[thermoelectric effect|Peltier–Seebeck effect]]). By switching the direction of current, either heating or cooling may be achieved. Junctions always come in pairs, as the two different metals are joined at two points. Thus heat will be moved from one junction to the other. | |||
=== Peltier effect === | |||
{{main|Peltier effect}} | |||
The ''Peltier effect'' is the presence of heating or cooling at an electrified junction of two different conductors (1834). His great experimental discovery was the heating or cooling of the junctions in a heterogeneous circuit of metals according to the direction in which an electric current is made to pass round the circuit. This reversible effect is proportional directly to the strength of the current, not to its square, as is the irreversible generation of heat due to resistance in all parts of the circuit. It is found that, if a current pass from an external source through a circuit of two metals, it cools one junction and heats the other. It cools the junction if it be in the same direction as the thermoelectric current which would be caused by directly heating that junction. In other words, the passage of a current from an external source produces in the junctions of the circuit a distribution of temperature which leads to the weakening of the current by the superposition of a thermo-electric current running in the opposite direction.<ref name="TNWTCE" /> | |||
When electromotive current is made to flow through a [[Electrical junction|electronic junction]] between two [[Electrical conductor#Conductance|conductors]] (A and B), heat is removed<ref>or generated</ref> at the junction. To make a typical pump, multiple junctions are created between two plates. One side heats and the other side cools. A dissipation device is attached to the hot side to maintain cooling effect on the cold side.<ref>This is usually a heatsink and fan assembly.</ref> Typically, the use of the Peltier effect as a [[heat pump]] device involves multiple junctions in series, through which a current is driven. Some of the junctions lose heat due to the Peltier effect, while others gain heat. Thermoelectric pumps exploit this phenomenon, as do [[thermoelectric cooling]] [[Peltier module]]s found in refrigerators.<ref>The Peltier effect, where current is forced through a junction of two different metals, also forms the basis of the small 12/24 volt vehicular HVAC systems. It forms the basis of the relatively costly, but stable, junction heated soldering irons. It is used for spot cooling of certain integrated circuits. </ref> | |||
The ''Peltier effect'' generated at the junction per unit time, <math>\dot{Q}</math>, is equal to | |||
<center><math>\dot{Q} = \left( \Pi_\mathrm{A} - \Pi_\mathrm{B} \right) I,</math></center> | |||
where, | |||
: <math>\Pi_A</math> (<math>\Pi_B</math>) is the [[Peltier coefficient]]<ref name="YAS-AIK">Yu. A. Skripnik, A. I. Khimicheva. Methods and devices for measuring the Peltier coefficient of an [[inhomogeneous]] electric circuit. Measurement Techniques July 1997, Volume 40, Issue 7, pp 673-677</ref><ref name="SA-AB-TC"> See also: [[Current source#Constant current source with thermal compensation|Constant current source with thermal compensation]]</ref> of [[primary circuit|conductor A]] ([[secondary circuit|conductor B]]), and | |||
: <math>I</math> is the [[electric current]] (from A to B). | |||
''Note:'' Total heat generated at the junction is ''not'' determined by the Peltier effect alone, being influenced by [[Joule heating]] and [[thermal gradient]] effects. | |||
The [[Peltier coefficient]]s<ref name="YAS-AIK" /><ref name="SA-AB-TC" /> represent how much heat is carried per unit charge. With charge current continuous across a junction, the associated heat flow will develop a discontinuity if <math>\Pi_A</math> and <math>\Pi_B</math> are different. | |||
The Peltier effect can be considered as the back-action counterpart to the [[Seebeck effect]] (analogous to the [[Counter-electromotive force|back-emf]] in [[Electromagnetic induction|magnetic induction]]<ref>The [[magnetic field]] '''B''' is sometimes called magnetic induction.</ref>): if a simple thermoelectric circuit is closed then the Seebeck effect will drive a current, which in turn (via the Peltier effect) will always transfer heat from the hot to the cold junction. | |||
The true importance of this "Peltier effect" in the explanation of thermoelectric currents was first clearly pointed out by [[James Prescott Joule]]; and [[Sir William Thomson]]<ref>Mathematical and physical papers, by Sir William Thomson. Collected from different scientific periodicals from May, 1841, to the present time. Kelvin, William Thomson, Baron, 1824-1907., Larmor, Joseph, 1857-, Joule, James Prescott, 1818-1889. vol. viii. p. 90 </ref> further extended the subject by showing, both theoretically and experimentally, that there is something closely analogous to the Peltier effect when the heterogeneity is due, not to difference of quality of matter, but to difference of temperature in contiguous portions of the same material. Shortly after Peltier's discovery was published, Lenz effected by means of it the freezing of small quantities of water by the cold developed in a bismuth-antimony junction when a voltaic current was passed through the metals in the order named.<ref name="TNWTCE" /> | |||
{{also|Thermoelectric materials}} | |||
==See also== | |||
;Voltaic Electricity: [[Crystal structure#Defects and impurities|Magnetic alterations]], [[Saturation (magnetic)|magnetic saturation]], [[South Magnetic Pole|southern magnetic axis]], [[voltage|tension]]s, [[coercivity|coercion]], [[Electrical contacts|contact]], [[induces|induce]] ([[induced current]]), [[Magnetic moment|magnetic event]], [[Hydrogenography|metal changes]], [[Magnetic field#Magnetic field and electric currents|neighboring electric current]], [[electrical polarity]], [[electrical phenomenon]], [[biasing]] ([[grid bias]], [[AC bias]]), [[Electric charge|positive charge]] and [[electrical polarity]] ([[polarity (mutual inductance)]], [[polarity (physics)]]), [[Repulsive force (magnetism)|repulsion]] | |||
;Conduction: [[Electrical conductor]], [[electrical conduction]], [[fast ion conductor]], [[conduction (heat)]] | |||
;Metrology: [[Condensation]] ([[condensation cloud]], [[condensation reaction]]), [[Water vapor feedback|tion through vapor]] ([[Clausius–Clapeyron relation|action through vapor]]), [[evaporation]], [[fog]] | |||
;People:[[Antoine César Becquerel]] | |||
;Instruments: [[Leyden jar]], [[Influence machine]] ([[Electrostatic induction|electrostatic influence]]), | |||
;Materials: [[Atom]]s and [[Orbital magnetization#Atomic sphere approximation|atomic spheres]] ([[kissing number problem]]), [[state of matter]] ([[chemical state]]), [[particles]] ([[neutral particle]]), [[Tin-glazed|glazed zinc]] ([[Zinc oxide]]), [[maghemite]], [[awaruite]], [[oxygen]], [[liquid]]s, [[ponderable matter]], [[pole figure]], [[chemical polarity]], [[Molecular formula|molecular substance]], [[Tetrahedrite|copper-antimony]] ([[copper]], [[antimony]], [[List of alloys|alloys list]]), [[germanium]] | |||
;Power: [[Power (physics)]], [[electric power]], [[motive power]], [[AC power|power in an alternating current electric]]s, [[Transmitter power output|transmitter output]], [[effective radiated power]], [[power spectral density]] signal | |||
;Other: [[Reaction (physics)|Reaction]], [[Chemical thermodynamics|chemical heat]], [[Cohesion (chemistry)|cohesion]], [[combination]], [[Complete (complexity)|complete]], [[Inter-rater reliability|concordance]] ([[concordance correlation coefficient]]), [[vitreous body]], [[Piezoelectricity|crystal electricity]], [[electric charge]], [[field of view]], [[spectrum|zone]] ([[crystallography]]), [[affinity laws]] ([[electron affinity]], [[chemical affinity]]), [[List of types of equilibrium|equilibrium]] and [[dynamics (mechanics)|dynamics]] ([[diffusiophoresis]]), [[St. Elmo's fire]], [[wave]]s, [[luminescence]] ([[luminance]], [[luminosity]]), [[Plastic Principle|aethereal movements]], [[physics|phys]]<!-- "phys" is the enlightenment term of relating to or concerning existent materials; physical; --> and [[spacetime|portion of the aether]] ([[Aether theories|quantity of aether rays]]/[[Photon|aethereal spheres]]), [[prism|aethereal glut]], [[nervous system]] ([[sense]]), [[Charge ordering|order of phenomena]] ([[critical phenomena]], [[strongly correlated material]]), [[Will (philosophy)|will]], [[Bias (statistics)|statistical bias]] ([[biased sample]], [[estimator bias]]), [[Encircled energy|projection spread]], [[quantity of electricity]], [[Dynamics of the celestial spheres|sphere to another sphere]] ([[celestial spheres]], [[Plane (esotericism)|esoteric plane]]), [[meridian arc]] ([[meridian (astronomy)]], [[meridian (geography)]]), [[Levi-Civita parallelogramoid|resulting segments]] ([[gnomonic projection]]) | |||
==Publications== | |||
''Listed by date'' | |||
{{col-begin}} | |||
{{col-2}} | |||
* Collection of pamphlets on electricity. 1833.<ref>Also contains the papers of: [[Achille Barbier]], [[Edouard Ernest Blavier]], [[Hippolyte Marié-Davy]], [[comte Th Du Moncel]], [[François Victor Périn]], [[Karl Albert Holmgren]], [[B. Galletti]], [[A. Jounin]], [[Achille Cazin]], [[Emil Kopp]], [[Breton frères]]</ref> | |||
* Collection of pamphlets on electromagnetism and electricity. 1835. | |||
* Observations sur une nouvelle espèce de floscularia.<ref>Tr. Observations on a new species of [[Floscularia ringens|floscularia]]</ref> 1838. | |||
* Notice des faits principaux et des instrumens nouveaux ajoutés à la science de l'électricité.<ref>Tr. Notice of the main facts and [[Scientific instrument|new instrument]]s ([[laboratory equipment]]) added to the science of electricity.</ref> impr. E.J. Bailly, 1839. | |||
* Notice de faits principaux ajoutés à la science de l'Electricité.<ref>Tr. Notice key facts added to the science of [[Electricity]]</ref> Bailly, 1839. | |||
* [http://books.google.com/books?id=tQa2zRzRgnsC Observations sur les multiplicateurs et sur les piles thermo-électriques.]<ref>Tr. Observations on [[Multiplier effect|multipliers]] and on [[thermo-electric batteries]]</ref> Imprimerie de E.J. Bailly, 1839. | |||
* Mémoire sur la formation des tables des rapports qu'il y a entre la force d'un courant électrique et la déviation des aiguilles des multiplicateurs: suivi de recherches sur les causes de perturbation des couples thermo-électriques et sur les moyens de s'en garantir dans leur emploi a la mesure des températures moyennes.<ref>Tr. Memory training tables reports that between the strength of an electric current and the deflection of needles [[Multiplier effect|multipliciateurs]]: follow-up research on the causes of disruption of [[thermocouples]] and how to ensure in their job measuring [[Average surface temperature|average temperature]]s</ref> E.-J. Bailly, 1839. | |||
*Mémoire sur les diverses espèces de brouillards.<ref>Tr. Memory on the various species of [[mist]]</ref> Hayez, 1841. | |||
*[http://books.google.com/books?id=go85AAAAcAAJ Météorologie: Observations et recherches expérimentales sur les causes qui concourent à la formation des trombes.]<ref>Tr. [[Meteorology]]: [[Observations]] and [[experimental research]] on the causes that contribute to the formation of [[tornadoes]].</ref> Soc. Belgian library , 1841. | |||
* Considérations générales sur l'éther, suivies d'une notice sur les étoiles filantes.<ref>Tr. General considerations on the [[Aether theories|ether]], followed by instructions on [[Meteoroid|shooting stars]]</ref> rue de Seine Saint-Germain, 1844. | |||
* [http://books.google.com/books?id=DUNUAAAAcAAJ Essai sur la coordination des causes qui précèdent, produisent et accompagnent les phénomènes électriques.]<ref>Tr. Essay on the coordination of the above causes, produce and accompany electrical phenomena</ref> Hayez, 1844. | |||
* Observations faites dans les Alpes sur la température d'ébullition de l'eau.<ref>Tr. Observations in the [[Alps]] on the boiling temperature of water.</ref> Institut de France. Académie royale des sciences, 1844 | |||
{{col-2}} | |||
* Lettre sur la cause des différences existant entre les résultats des expériences de MM. Bravais et Peltier sur la température de l'ébullition de l'eau et les résultats d'expériences de cabinet.<ref>Tr. Letter to the cause of differences between the results of the experiments of MM. [[Auguste Bravais|Bravais]] and Peltier on the temperature of [[boiling water]] and the results of [[Science lab|experiments cabinet]].</ref> Institute. April 22, 1844. (Reports, vol. 18, p. 768.)<ref>institut. 22 avril 1844. (Comptes-rendus, vol. 18, p. 768.)</ref> | |||
*[http://books.google.com/books?id=_EJUAAAAcAAJ Recherches sur la cause des variations barométriques.]<ref>Tr. Research on the cause of variations in atmospheric pressure.</ref> Hayez. 1844. | |||
* De la cyanométrie et de la polarimétrie atmosphérique: ou notice sur les additions et les changements fait au cyano-polariscope de M. Arago, pour le rendre cyano- polarimètre dans l'observation de tous les points du ciel.<ref>Tr. The [[Cyanometer|cyanométrie]] and air [[Polarimeter|polarimetry]]: or user of the additions and changes made to the cyano-[[Photoelasticity|polariscope]] of M. Arago, to make cyano-polarimeter in the observation of all [[Celestial sphere|points of the sky]].</ref> 1845. | |||
* Notice sur le galvanisme.<ref>Tr. Notice of [[galvanism]]</ref> 1845. | |||
* Notice sur les fluides, les forces, et la foudre.<ref>Tr. Notice on the [[hydraulics|fluid force]]s ([[hydrometeorology]]), and [[lightning]]</ref> rue de Bussy, 6, 1845 | |||
* Notice sur la vie et les travaux scientifiques.<ref>Tr. Notice on the life and [[scientific work]]</ref> Bautruche, 1847. | |||
* [[Robert Hare (chemist)|Robert Hare]] (M.D., Professor of Chemistry in the University of Pennsylvania.), [[James Pollard Espy]]. Of the conclusion arrived at by a Committee of the Academy of Sciences of France, agreeably to which tornados are caused by heat; while agreeably to Peltier's report to the same body, certain insurers had been obliged to pay for a tornado as an electrical storm; also abstracts from Peltier's report; moreover, quotations shewing the ignorance which existed in the Academy respecting [...] the meteor in question [...] with objections to the opinions of Peltier and Espy. Second edition, revised. 1852. | |||
{{col-end}} | |||
''Other'' | |||
* [http://books.google.com/books?id=XSNWAAAAcAAJ Notice des faits principaux et des instrumens nouveaux ajoutés à la science de l'Electricité par M. Peltier.]<ref>Tr. Notice of the main facts and new instruments added to the science of Electricity by Mr. Peltier</ref> | |||
* Mémoires sur l'électricité des vapeurs, sur l'électricité atmosphérique et sur les trombes.<ref>Tr. Memoirs of electricity [[vapor]] on atmospheric electricity and [[waterspouts]]</ref> Imprimerie de Cosson. | |||
* Météorologie électrique: Première partie<ref>Power Meteorology: Part One</ref> | |||
==References and notes== | |||
;General | |||
* [http://books.google.com/books?id=LmIFAAAAQAAJ The Annual Report Of The Board Of Regents Of The Smithsonian Institution]. 1867 Doc. No. 86. 1868. [http://books.google.com/books?id=LmIFAAAAQAAJ&pg=PA158 p158]+. | |||
* [[Florian Cajori]], [http://books.google.com/books?id=XNtUAAAAYAAJ A history of physics in its elementary branches]. 1922. [http://books.google.com/books?id=XNtUAAAAYAAJ&pg=PA269 p269]. | |||
;Citations | |||
{{Reflist|2}} | |||
{{Authority control|VIAF=4921535}} | |||
{{Persondata <!-- Metadata: see [[Wikipedia:Persondata]]. --> | |||
| NAME = Peltier, Jean Charles Athanase | |||
| ALTERNATIVE NAMES = | |||
| SHORT DESCRIPTION = French physicist | |||
| DATE OF BIRTH = February 22, 1785 | |||
| PLACE OF BIRTH = Ham | |||
| DATE OF DEATH = October 27, 1845 | |||
| PLACE OF DEATH = [[Paris, France|Paris]], [[France]] | |||
}} | |||
{{DEFAULTSORT:Peltier, Jean Charles Athanase}} | |||
[[Category:French physicists]] | |||
[[Category:1785 births]] | |||
[[Category:1845 deaths]] | |||
[[Category:People from Somme]] |
Revision as of 22:11, 3 February 2014
Template:Infobox person Jean Charles Athanase Peltier[1] (Template:IPAc-en;[2] Template:IPA-fr; February 22, 1785, in Ham – October 27, 1845, in Paris) was a French physicist. He was originally a watch dealer, but at 30 years old took up experiments and observations in the field of physics.
Peltier was the author of numerous papers in different departments of physics, but his name is specially associated with the thermal effects at junctions in a voltaic circuit.[3] He introduced the Peltier effect. Peltier also introduced the concept of electrostatic induction (1840), based on the modification of the distribution of electric charge in a material under the influence of a second object closest to it and it's an electrical charge. This effect has been very important in the recent development of non-polluting cooling mechanisms
Biography
Peltier initially trained as a watchmaker and was up to his 30s working as a watch dealer. Peltier worked with Abraham Louis Breguet in Paris. Later, he worked with various experiments on electrodynamics and noticed that in an electronic element when current flows through, a temperature difference or temperature difference is generated at a current flow. In 1836, he published his work to and in 1838 were confirmed by Emil Lenz. Furthermore, Peltier dealt with topics from the atmospheric electricity and meteorology. In 1840, he published a work on the causes and formation of hurricanes.
Peltier's papers, which are numerous, are devoted in great part to atmospheric electricity, waterspouts, cyanometry and polarization of sky-light, the temperature of water in the spheroidal state, and the boiling-point at great elevations. There are also a few devoted to curious points of natural history. But his name will always be associated with the thermal effects at junctions in a voltaic circuit, a discovery of importance quite comparable with those of Seebeck and Cumming.[4]
Peltier discovered the calorific effect of electric current passing through the junction of two different metals. This is now called the Peltier effect[5] (or Peltier–Seebeck effect). By switching the direction of current, either heating or cooling may be achieved. Junctions always come in pairs, as the two different metals are joined at two points. Thus heat will be moved from one junction to the other.
Peltier effect
Mining Engineer (Excluding Oil ) Truman from Alma, loves to spend time knotting, largest property developers in singapore developers in singapore and stamp collecting. Recently had a family visit to Urnes Stave Church. The Peltier effect is the presence of heating or cooling at an electrified junction of two different conductors (1834). His great experimental discovery was the heating or cooling of the junctions in a heterogeneous circuit of metals according to the direction in which an electric current is made to pass round the circuit. This reversible effect is proportional directly to the strength of the current, not to its square, as is the irreversible generation of heat due to resistance in all parts of the circuit. It is found that, if a current pass from an external source through a circuit of two metals, it cools one junction and heats the other. It cools the junction if it be in the same direction as the thermoelectric current which would be caused by directly heating that junction. In other words, the passage of a current from an external source produces in the junctions of the circuit a distribution of temperature which leads to the weakening of the current by the superposition of a thermo-electric current running in the opposite direction.[4]
When electromotive current is made to flow through a electronic junction between two conductors (A and B), heat is removed[6] at the junction. To make a typical pump, multiple junctions are created between two plates. One side heats and the other side cools. A dissipation device is attached to the hot side to maintain cooling effect on the cold side.[7] Typically, the use of the Peltier effect as a heat pump device involves multiple junctions in series, through which a current is driven. Some of the junctions lose heat due to the Peltier effect, while others gain heat. Thermoelectric pumps exploit this phenomenon, as do thermoelectric cooling Peltier modules found in refrigerators.[8]
The Peltier effect generated at the junction per unit time, , is equal to
where,
- () is the Peltier coefficient[9][10] of conductor A (conductor B), and
- is the electric current (from A to B).
Note: Total heat generated at the junction is not determined by the Peltier effect alone, being influenced by Joule heating and thermal gradient effects.
The Peltier coefficients[9][10] represent how much heat is carried per unit charge. With charge current continuous across a junction, the associated heat flow will develop a discontinuity if and are different.
The Peltier effect can be considered as the back-action counterpart to the Seebeck effect (analogous to the back-emf in magnetic induction[11]): if a simple thermoelectric circuit is closed then the Seebeck effect will drive a current, which in turn (via the Peltier effect) will always transfer heat from the hot to the cold junction.
The true importance of this "Peltier effect" in the explanation of thermoelectric currents was first clearly pointed out by James Prescott Joule; and Sir William Thomson[12] further extended the subject by showing, both theoretically and experimentally, that there is something closely analogous to the Peltier effect when the heterogeneity is due, not to difference of quality of matter, but to difference of temperature in contiguous portions of the same material. Shortly after Peltier's discovery was published, Lenz effected by means of it the freezing of small quantities of water by the cold developed in a bismuth-antimony junction when a voltaic current was passed through the metals in the order named.[4]
See also
- Voltaic Electricity
- Magnetic alterations, magnetic saturation, southern magnetic axis, tensions, coercion, contact, induce (induced current), magnetic event, metal changes, neighboring electric current, electrical polarity, electrical phenomenon, biasing (grid bias, AC bias), positive charge and electrical polarity (polarity (mutual inductance), polarity (physics)), repulsion
- Metrology
- Condensation (condensation cloud, condensation reaction), tion through vapor (action through vapor), evaporation, fog
- People
- Antoine César Becquerel
- Instruments
- Leyden jar, Influence machine (electrostatic influence),
- Materials
- Atoms and atomic spheres (kissing number problem), state of matter (chemical state), particles (neutral particle), glazed zinc (Zinc oxide), maghemite, awaruite, oxygen, liquids, ponderable matter, pole figure, chemical polarity, molecular substance, copper-antimony (copper, antimony, alloys list), germanium
- Power
- Power (physics), electric power, motive power, power in an alternating current electrics, transmitter output, effective radiated power, power spectral density signal
- Other
- Reaction, chemical heat, cohesion, combination, complete, concordance (concordance correlation coefficient), vitreous body, crystal electricity, electric charge, field of view, zone (crystallography), affinity laws (electron affinity, chemical affinity), equilibrium and dynamics (diffusiophoresis), St. Elmo's fire, waves, luminescence (luminance, luminosity), aethereal movements, phys and portion of the aether (quantity of aether rays/aethereal spheres), aethereal glut, nervous system (sense), order of phenomena (critical phenomena, strongly correlated material), will, statistical bias (biased sample, estimator bias), projection spread, quantity of electricity, sphere to another sphere (celestial spheres, esoteric plane), meridian arc (meridian (astronomy), meridian (geography)), resulting segments (gnomonic projection)
Publications
Listed by date Template:Col-begin Template:Col-2
- Collection of pamphlets on electricity. 1833.[13]
- Collection of pamphlets on electromagnetism and electricity. 1835.
- Observations sur une nouvelle espèce de floscularia.[14] 1838.
- Notice des faits principaux et des instrumens nouveaux ajoutés à la science de l'électricité.[15] impr. E.J. Bailly, 1839.
- Notice de faits principaux ajoutés à la science de l'Electricité.[16] Bailly, 1839.
- Observations sur les multiplicateurs et sur les piles thermo-électriques.[17] Imprimerie de E.J. Bailly, 1839.
- Mémoire sur la formation des tables des rapports qu'il y a entre la force d'un courant électrique et la déviation des aiguilles des multiplicateurs: suivi de recherches sur les causes de perturbation des couples thermo-électriques et sur les moyens de s'en garantir dans leur emploi a la mesure des températures moyennes.[18] E.-J. Bailly, 1839.
- Mémoire sur les diverses espèces de brouillards.[19] Hayez, 1841.
- Météorologie: Observations et recherches expérimentales sur les causes qui concourent à la formation des trombes.[20] Soc. Belgian library , 1841.
- Considérations générales sur l'éther, suivies d'une notice sur les étoiles filantes.[21] rue de Seine Saint-Germain, 1844.
- Essai sur la coordination des causes qui précèdent, produisent et accompagnent les phénomènes électriques.[22] Hayez, 1844.
- Observations faites dans les Alpes sur la température d'ébullition de l'eau.[23] Institut de France. Académie royale des sciences, 1844
- Lettre sur la cause des différences existant entre les résultats des expériences de MM. Bravais et Peltier sur la température de l'ébullition de l'eau et les résultats d'expériences de cabinet.[24] Institute. April 22, 1844. (Reports, vol. 18, p. 768.)[25]
- Recherches sur la cause des variations barométriques.[26] Hayez. 1844.
- De la cyanométrie et de la polarimétrie atmosphérique: ou notice sur les additions et les changements fait au cyano-polariscope de M. Arago, pour le rendre cyano- polarimètre dans l'observation de tous les points du ciel.[27] 1845.
- Notice sur le galvanisme.[28] 1845.
- Notice sur les fluides, les forces, et la foudre.[29] rue de Bussy, 6, 1845
- Notice sur la vie et les travaux scientifiques.[30] Bautruche, 1847.
- Robert Hare (M.D., Professor of Chemistry in the University of Pennsylvania.), James Pollard Espy. Of the conclusion arrived at by a Committee of the Academy of Sciences of France, agreeably to which tornados are caused by heat; while agreeably to Peltier's report to the same body, certain insurers had been obliged to pay for a tornado as an electrical storm; also abstracts from Peltier's report; moreover, quotations shewing the ignorance which existed in the Academy respecting [...] the meteor in question [...] with objections to the opinions of Peltier and Espy. Second edition, revised. 1852.
Other
- Notice des faits principaux et des instrumens nouveaux ajoutés à la science de l'Electricité par M. Peltier.[31]
- Mémoires sur l'électricité des vapeurs, sur l'électricité atmosphérique et sur les trombes.[32] Imprimerie de Cosson.
- Météorologie électrique: Première partie[33]
References and notes
- General
- The Annual Report Of The Board Of Regents Of The Smithsonian Institution. 1867 Doc. No. 86. 1868. p158+.
- Florian Cajori, A history of physics in its elementary branches. 1922. p269.
- Citations
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i imagine there are good ethical brokers in Singapore. But i have encounter unhealthy experiencing the Christina Fong from realty master. She is admittedly an unprofessional and never moral one. Only considering of undercutiing and squeezing money from ptther people without defending interest of her personal shopper. Proceed to the section Training and look at a map of all worldwide colleges in Singapore or visit the section residential areas for detailed data on the place to stay and why. Information District and Location Have completed no less than 30 property transactions up to now three years. At least 10 of these transactions will have to be for private properties, and at the very least one other 10 needs to be for HDB flats (also known as public housing); Singapore-Indonesia Commercial Affiliation
Agents need to be very resourceful and so they have to work doubly onerous to succeed in out to extra consumers as a result of when the market swings, it turns into very aggressive," said PropNex Chief Executive Mohamed Ismail. "Beforehand, an agent might focus on one space, comparable to HDB, however at this time you may't." An motion for misrepresentation arises beneath the law of tort. A Misrepresentation happens when the Representor (Property Agent) makes a false assertion of existing truth with data of its falsity and with the intention that the Representee (Buyer or Seller) ought to act on it with the consequence that the Representee does act on it to his detriment. Metropolis & South West (D01-08) Tiong Bahru MRT Quiet C/Room F/Furnished w AC No Agent Price
On February 19 we had an appointment with the proprietor and his agent (A and H!) at the condominium to hand over the keys. They went by means of all the things with a wonderful tooth comb. An important lesson we learned over all this is that you simply MUST ENGAGE YOUR PERSONAL AGENT and never rely on the homeowners agent as his priority is to the proprietor not you. Nevertheless, last night time my own agent called me and informed me suddenly that ECG instructed them a buyer goes handy them a check within the morning, so we higher act fast or we may lose the property. Stamp responsibility is to be paid inside 14 days from the date of acceptance of the OTP or Sale and buy a house in singapore (click hyperlink) (S&P) Settlement. For more information, please go to www.iras.gov.sg - Gown Up Your House Woodlands East Industrial & Industrial Affiliation
There may also be a Code of Ethics and a Skilled Conduct Commonplace, as well as the introduction of disciplinary motion in opposition to errant brokers/businesses and dispute decision mechanisms. Preparations shall be made to manage the transition of existing agencies and agents to these new standards, which have but to be finalized. The Proposed Enchancment in High quality for Actual Property Businesses Wheelock Properties put up 95 items of The Panorama in Ang Mo Kio for balloting. With a reduction of 12 p.c, they claimed to promote 80 to eighty five units. Whereas developers are clearing their existing stock, every month there are new projects acquiring their HIGH and new sites released by the government to construct more private housing. The due date of each rental payment; or
To know who pays actual property commissions - whether or not it's sellers or buyers or both or if it is Landlord's or Tenant's or both Divisions vary. All Brokers work on a commission scheme that is determined by the experience, efficiency and various other elements equivalent to recruitment and many others. New brokers can receive from a range of 60%-70% of the full fee received by them from the closure of a deal. High producing brokers would possibly obtain 100% and pay the company (broker) a desk fee. Everybody else falls somewhere in between. Kindly discuss with the FAQ part of the CEA web site-www.cea.gov.sg Co-Broking / sharing of fee There isn't a set formulation. This is based on the demand and supply circumstances in the market. present agents have tertiary education.
- ↑ Catalogue of the Wheeler gift of books, Volume 2. By American Institute of Electrical Engineers. Library, Latimer Clark, Schuyler Skaats Wheeler, Andrew Carnegie, William Dixon Weaver, Engineering Societies Library, Joseph Plass
- ↑ "Peltier effect". dictionary.reference.com (ed. though transcribed as two syllables, the recording is more natural, with three)
- ↑ A Handy Book of Reference on All Subjects and for All Readers, Volume 6. Edited by Ainsworth Rand Spofford, Charles Annandale. Gebbie publishing Company, limited, 1900. p341 (ed., also Gebbie, 1902 version, p341
- ↑ 4.0 4.1 4.2 The New Werner Twentieth Century Edition of the Encyclopaedia Britannica: A Standard Work of Reference in Art, Literature, Science, History, Geography, Commerce, Biography, Discovery and Invention, Volume 18. Werner Company, 1907. p491
- ↑ Contemporarily, known as the thermoelectric effect.
- ↑ or generated
- ↑ This is usually a heatsink and fan assembly.
- ↑ The Peltier effect, where current is forced through a junction of two different metals, also forms the basis of the small 12/24 volt vehicular HVAC systems. It forms the basis of the relatively costly, but stable, junction heated soldering irons. It is used for spot cooling of certain integrated circuits.
- ↑ 9.0 9.1 Yu. A. Skripnik, A. I. Khimicheva. Methods and devices for measuring the Peltier coefficient of an inhomogeneous electric circuit. Measurement Techniques July 1997, Volume 40, Issue 7, pp 673-677
- ↑ 10.0 10.1 See also: Constant current source with thermal compensation
- ↑ The magnetic field B is sometimes called magnetic induction.
- ↑ Mathematical and physical papers, by Sir William Thomson. Collected from different scientific periodicals from May, 1841, to the present time. Kelvin, William Thomson, Baron, 1824-1907., Larmor, Joseph, 1857-, Joule, James Prescott, 1818-1889. vol. viii. p. 90
- ↑ Also contains the papers of: Achille Barbier, Edouard Ernest Blavier, Hippolyte Marié-Davy, comte Th Du Moncel, François Victor Périn, Karl Albert Holmgren, B. Galletti, A. Jounin, Achille Cazin, Emil Kopp, Breton frères
- ↑ Tr. Observations on a new species of floscularia
- ↑ Tr. Notice of the main facts and new instruments (laboratory equipment) added to the science of electricity.
- ↑ Tr. Notice key facts added to the science of Electricity
- ↑ Tr. Observations on multipliers and on thermo-electric batteries
- ↑ Tr. Memory training tables reports that between the strength of an electric current and the deflection of needles multipliciateurs: follow-up research on the causes of disruption of thermocouples and how to ensure in their job measuring average temperatures
- ↑ Tr. Memory on the various species of mist
- ↑ Tr. Meteorology: Observations and experimental research on the causes that contribute to the formation of tornadoes.
- ↑ Tr. General considerations on the ether, followed by instructions on shooting stars
- ↑ Tr. Essay on the coordination of the above causes, produce and accompany electrical phenomena
- ↑ Tr. Observations in the Alps on the boiling temperature of water.
- ↑ Tr. Letter to the cause of differences between the results of the experiments of MM. Bravais and Peltier on the temperature of boiling water and the results of experiments cabinet.
- ↑ institut. 22 avril 1844. (Comptes-rendus, vol. 18, p. 768.)
- ↑ Tr. Research on the cause of variations in atmospheric pressure.
- ↑ Tr. The cyanométrie and air polarimetry: or user of the additions and changes made to the cyano-polariscope of M. Arago, to make cyano-polarimeter in the observation of all points of the sky.
- ↑ Tr. Notice of galvanism
- ↑ Tr. Notice on the fluid forces (hydrometeorology), and lightning
- ↑ Tr. Notice on the life and scientific work
- ↑ Tr. Notice of the main facts and new instruments added to the science of Electricity by Mr. Peltier
- ↑ Tr. Memoirs of electricity vapor on atmospheric electricity and waterspouts
- ↑ Power Meteorology: Part One