41. Untitled clapeyron Benoit Pierre emile clapeyron (1799-1864), a French engineer.See - clapeyron equation; - Clausius-clapeyron equation; http://www.sunderland.ac.uk/~hs0bcl/gg/clapeyron.htm

C lapeyron - Benoit Pierre Emile Clapeyron (1799-1864), a French engineer. See: Clapeyron equation Clausius-Clapeyron equation

42. Brooklyn Public Library /All Locations 2 Clapesattle, Helen B. See Clapesattle, Helen 1 clapeyron, Benoît Paul Émile,17991864 See clapeyron, E. (emile), 1799-1864 1 clapeyron, E. (emile http://catalog.brooklynpubliclibrary.org:90/kids/10,340,925/search/aClapham, A.

KEYWORD AUTHOR TITLE SUBJECT Mark Nearby AUTHORS are: Year Entries Clapés, Jaume See also Clapés Estrada, Jaume Clapés, Josep Bracons i See Bracons i Clapés, Josep Clapesattle, Helen. Clapesattle, Helen B. See Clapesattle, Helen Clapeyron, Benoît Paul Émile, 1799-1864 See Clapeyron, E. (Emile), 1799-1864 Clapeyron, E. (Emile), 1799-1864. 2 entries Clapham, A. R. (Arthur Roy), 1905- Clapham, A. W. See Clapham, Alfred William, Sir, 1883-1950 Clapham, Alfred William, Sir, 1883-1950. Clapham, Arthur Roy See Clapham, A. R. (Arthur Roy), 1905- Clapham, Arthur Roy, 1905- See Clapham, A. R. (Arthur Roy), 1905- Clapham, C. (Christopher) See Clapham, Christopher S.

43. Biografias Translate this page clapeyron - Assim como Charles, sabe-se pouco sobre Benoit Paul emile clapeyron.clapeyron nasceu em Paris, França, em 21 de fevereiro de 1799. http://alquimia.pessoal.bridge.com.br/alq1/biograf.htm

BIOGRAFIAS Aqui estão listadas as biografias daqueles que muito contribuíram para o desenvolvimento da química. Como não foi possível colocar o nome de todos aqui, foram escolhidos os principais cientistas e pesquisadores. ARRHENIUS AVOGADRO BAEYER BERZELIUS ... WÖHLER ARRHENIUS - Svante August Arrhenius nasceu em Wijk, Suécia, em 19 de fevereiro de 1859. Aos 27 anos de idade, ingressou na Universidade de Upsala, onde se doutorou em 1884. A partir de 1891, tornou-se professor na Universidade de Estocolmo. Por seus trabalhos, Arrhenius recebeu o Prêmio Nobel de Química em 1903. Arrhenius faleceu em Estocolmo, em 2 de outubro de 1927. AVOGADRO - Amedeo Avogadro nasceu em Turim, Itália, em 9 de agosto de 1796. Formado em direito, exerceu a advocacia por alguns anos; em 1809, tornou-se professor de física e química no colégio de Vercelli e, em 1820, na Universidade de Turim. Em 1850, Avogadro retirou-se da Universidade de Turim, cidade onde veio a falecer em 9 de julho de 1856. BAEYER - Adolf von Baeyer nasceu em Berlim, Alemanha, em 31 de outubro de 1835. Dedicou-se inicialmente ao estudo da física teórica, mas logo voltou seus interesse exclusivamente à química. Estudou com Bunsen e Kekulé . Em 1858, doutorou-se na Universidade de Berlim, da qual tornou-se professor dois anos depois; passou a lecionar em Estrasburgo e, em 1875, em Munique, onde permaneceu até a sua aposentadoria em 1915. Nessa cidade construiu um laboratório, reuniu um grupo de jovens químicos e iniciou uma série de pesquisas importantes sobre os compostos orgânicos, como, por exemplo, a síntese do corante índigo, o estudo dos compostos do arsênio, as reações dos aldeídos e cetonas com fenóis e hidratos de carbono etc. Na química teórica, Baeyer estudou os compostos cíclicos e criou uma teoria sobre a tensão dos anéis, além da caracterização da isomeria cis-trans.

44. L Clausius (1822-1888) et français emile clapeyron (1799-1864) . http://www.gfcombustion.asso.fr/MOTCOMB/L.htm

A B C D ... sommaire L LAGRANGE V. Lagrangien. LAGRANGIEN V. LAMINAIRE du latin lamina : lame V. Turbulent. LAPLACE V. Loi de compression adiabatique. LCO initiales pour Light Cycle Oil LE CHATELIER V. LIF initiales pour Laser Induced Fluorescence : fluorescence induite par laser (FIL) V. Fluorescence induite par laser. LIFT-OFF V. Flamme suspendue. LIGHT CYCLE OIL V. LCO. LIMITES D'AUTO-INFLAMMATION LIMITES DE DEFLAGRATION TE V. LIMITES DE DETONABILITE V. LIMITES DE DETONATION . Angl. limits of detonability, detonation limits. Allem. Detonationsgrenzen. TE V. LIMITES D'INFLAMMABILITE V. LIT FIXE LIT FLUIDISE V. Ecoulement diphasique. LIT FLUIDISE CIRCULANT V. LITHERGOL . Angl. hybrid propellant. Allem. hybrid Treibstoff. TE V. Propergol. LIT TRANSPORTE V. LOI D'ARRHENIUS V. Equation d'Arrhenius. LOI DE BEER-LAMBERT V. LOI DE CLAUSIUS-CLAPEYRON LOI DE COMPRESSION ADIABATIQUE LOI DE FICK du nom du physiologiste allemand Adolf Eugen Fick (1829-1901) V. Diffusion. LOI DE HOPKINSON LOI DE LE CHATELIER LOI DE VAN'T HOFF V. LOI DE VITESSE V. LONGUEUR DE CHAINE LONGUEUR DE FLAMME U0/stDZs.

45. C et physicien français emile clapeyron (1799-1864) . http://www.gfcombustion.asso.fr/MOTCOMB/C.htm

A B C D ... sommaire C CALEFACTION CALOPORTEUR . Angl. coolant. TE CALORIE du latin calor : chaleur V. Joule. CARBON BLACK V. Noir de carbone. CARBONE du latin carbo : charbon CARBONE CONRADSON CARBONE FIXE du latin carbo : charbon V. CARBONE PYROLYTIQUE CARBONE TOTAL : m3 de CO2/m3 de gaz. CARBONISAT V. Carbonisation. CARBONISATION CARBURANT CARBUREACTEUR V. CARNEAU CARS V. CATALYSE CATALYSEUR CATERGOL V. Monergol. CELERITE du latin celer : rapide CELERITE DE FLAMME V. Vitesse de flamme. CELLULE DE DETONATION CELSIUS V. CENDRES V. Taux de cendres. CENOSPHERE CENTRE ACTIF V. CHAINE V. CHAINE PYROTECHNIQUE CHALEUR DE COMBUSTION : comme toute chaleur, la chaleur de combustion doit s'exprimer en joule ou kilojoule (J ou kJ), la chaleur molaire en kJ/mol, la chaleur massique en kJ/g. CHALEUR DE REACTION V. Enthalpie. CHAMBRE DE COMBUSTION . Angl. combustion chamber, burner. Allem. Verbrennungskammer. TE V. Ergol. CHAMP DE TURBULENCE CHAMP DE VITESSE V. Champ dynamique. CHAMP DYNAMIQUE . Angl. velocity field. TE u V. CHAMP SCALAIRE CHAPMAN-JOUGUET V. Condition Chapman-Jouguet. CHARBON V.

46. Termodinamica. Translate this page English Italiano. emile clapeyron (1799 - 1864). clapeyron fu il primo a rappresentarele trasformazioni con dei grafici come quelli riportati qui sotto. http://www.geocities.com/Athens/Acropolis/6914/termod1.htm

Diagrammi di stato. English Italiano Emile Clapeyron (1799 - 1864). Clapeyron fu il primo a rappresentare le trasformazioni con dei grafici come quelli riportati qui sotto. Questi grafici erano già stati usati da J.Watt (che non li aveva divulgati). Si ha una trasformazione isobarica quando la pressione del gas viene mantenuta costante. In una trasformazione isobarica i volumi sono direttamente proporzionali alle temperature termodinamiche. Le temperaure termodinamiche sono le temperature (in gradi Celsius) calcolate partendo dallo Zero Assoluto. Si ha una trasformazione isometrica quando il volume del gas viene mantenuto costante. In una trasformazione isometrica le pressioni sono direttamente proporzionali alle temperature termodinamiche. Si ha una trasformazione isotermica quando la temperatura del gas viene mantenuta costante. La temperatura del gas rimane costante perchè è possibile scambiare colore con l'ambiente esterno. Si ha una trasformazione adiabatica quando la trasformazione avviene senza scambio di calore con l'esterno. La temperatura del gas quindi aumenta o diminuisce influenzando l'andamento della pressione.

47. Thermodynamics. emile clapeyron (1799 1864). clapeyron was the first man to graph the transformations.J.Watt had yet used those diagrams but he hadn't divulged them. http://www.geocities.com/Athens/Acropolis/6914/termod1e.htm

Diagrams. English Italiano Emile Clapeyron (1799 - 1864). Clapeyron was the first man to graph the transformations. J.Watt had yet used those diagrams but he hadn't divulged them. When the gas pressure keeps constant the transformation is named isobaric. In a isobaric transformation the volumes are directly proportionals to the thermodynamics temperatures. The inlet stroke in a steam engine is an isobaric stroke. For the thermodynamics temperatures is used the Celsius scale but the thermodynamic scale begin from -273°C (the absolute zero). When the gas volume keeps constant the transformation is named isometric. When the exhaust-valve of a steam engine opens, originates an isometric stroke. When the gas temperature keeps constant the transformation is named isotermic. The gas temperature can to keep constant when is possible to exchange the heat with the outer ambient. When the transformation occurs without heat exchange with the outer ambient the stroke is named adiabatic. The gas temperature increases (or decreases) affecting the pressure state. Theoretical Carnot cicle.

48. Quimica.net/piaia Translate this page Benoit Paul emile clapeyron. Assim como Charles, sabe-se pouco sobreclapeyron. Nasceu em Paris, França, em 21 de fevereiro de 1799. http://quimica.net/piaia/curiosidades/historia/clapeyron.htm

Benoit Paul Emile Clapeyron Assim como Charles, sabe-se pouco sobre Clapeyron. Nasceu em Paris, França, em 21 de fevereiro de 1799. Aos 17 anos iniciou os seus estudos na Escola Politécnica de Paris. Entre 1820 e 1830, ele lecionou matemática na Escola Superior de São Petersburgo, Rússia. De volta à frança, Clapeyron projetou e dirigiu a construção de várias ferrovias. P.V = n.R.T , entre várias outras fórmulas que correlacionam os calores latentes de compressão, dilatação e de vaporização dos gases com suas variáveis de estado. Em 1858, Clapeyron foi eleito para a Academia de Ciências de Paris. Clapeyron faleceu nessa mesma cidade no dia 28 de janeiro de 1864.

49. February In Chemistry Benoit Paul emile clapeyron born 1799 relationship between temperature, volume,and heat of vaporization (clapeyron and Clausiusclapeyron equations). http://webserver.lemoyne.edu/faculty/giunta/February.html

February in Chemistry Links in these month-by-month files are revised only yearly, when the events are posted on This Week in the History of Chemistry . Click here to view principal sources. February 1 born 1905: codiscovered technetium (Tc, element 43) and astatine (At, 85); spontaneous fission antiproton Nobel Prize (Physics) February 2 Jean Baptiste Boussingault born 1802: agricultural chemistry ; isolated and named sorbitol ; role of nitrogen in plant nutrition. Leaded gasoline first marketed in the US in Dayton, OH, 1923. Thomas Midgley, Jr. , of General Motors Research labs added tetraethyllead to gasoline February 3 Leonora Neuffer Bilger born 1893: asymmetric nitrogen compounds; Garvan Medal February 4 Joseph Goldberger begins the experiment that demonstrates that pellagra is a dietary disease Friedrich Hund born 1896: Hund's rules for electron configurations, the first of which predicts maximum multiplicity of spin; molecular-orbital theory (Hund-Mulliken approach). John Jacob Livingood made radium E Bi) by bombarding common bismuth with deuterons, 1936, the first synthetis of a radioactive substance in the US.

50. Physics Time-Line 1800 To 1899 Faraday, the electric transformer 1833 Michael Faraday, laws of electrolysis 1833Joseph Henry, self inductance 1834 emile clapeyron, entropy 1834 John http://www.weburbia.com/pg/hist2.htm

51. Chapter 4 Links that may be of interest. emile clapeyron (17991864) biography. RudolfClausius (1822-1888) biography. Coal Gas More information http://www.sasked.gov.sk.ca/docs/chemistry/mission2mars/contents/external/chap4l

The following links to sites are not part of the "Mission to Mars" material, but provide information that may be of interest. Emile Clapeyron (1799-1864) biography Rudolf Clausius (1822-1888) biography Coal Gas : More information about coal gas, and its environmental problems is available at: Environmental Remediation History and Contaminants at Marshalltown Coal Virtual Library Fuel Cells : Some interesting links to information about fuel cells are: What are fuel cells? (from NASA) Anuvu Inc: PEM Fuel Cells for Transportation, Stationary Power Generation, and Portable Power Fuel Cell Vehicles PET plastics : more information about the properties of PET plastics World Energy Reserves : Statistics and considerable other information about energy is available at: http://www.eia.doe.gov/

52. Virtual Librarie Leite Lopes Translate this page de funcionamento cíclico. emile clapeyron (1799-1864) foi o físicoque leu o trabalho de Carnot eo divulgou. Pois Carnot morreu http://www4.prossiga.br/lopes/ing/prodpol/cs/cs00895/cs00895a.html

Virtual Librarie Leite Lopes II- O século XIX: Carnot, Joule, Clausius século XIX viu florescer a ciência em Paris. Na Revolução Francesa, em 1789, segundo o historiador J. P. Maury, Biot tinha 15 anos, Ampère e Malus, 14, Gay-Lussac 11, Poisson, 8, Dulong, 4, Arago, 3, Fresnel, 1. A República estabeleceu o sistema métrico, fundou a École Normale, L' École Poiytechnique, mas a Faculdade de Ciências foi fundada no Império (1808). Data de 1824, a publicação das "Reflexions sur la puissance motrice du feu et les machines propres à developper cette puissance" , por Sadi Carnot (1796-1832). As máquinas eram inglesas, John Dalton (1764-1844), fundador da Escola de Manchester, é considerado como pioneiro no estudo de processos adiabáticos nos gases e na proclamação da necessidade de estudos caloríficos dos gases. E em Paris avançavam as pesquisas com Gay-Lussac, Pierre Laplace (1749-1827). A máquina da moda à época era a de Wolf que utilizava o condensador de James Watt (1736-1819). Carnot estudou a máquina em geral e teve a idéia da necessidade de uma fonte fria: todas as máguinas têm uma fonte quente de onde lhes vem o fluido quente, e uma fonte fria à qual é restituido o fluido frio.

53. Clapeyron Earth Sciences Uni Basel Thermodynamic Schnipsel. Benoît Paul emile clapeyron(1799 - 1864). * 26. (or 21.) February 1799 in Paris + 28. January 1864 http://therion.minpet.unibas.ch/minpet/groups/thermodict/archive/clapeyron.html

54. Chemie Im Rückblick Translate this page 1.1851 clapeyron, Benôit Pierre emile *26.2.1799 Clausius, Rudolf , *2. 1.1822 Corey,Elias James *12.7.1928 Cori, Gerty T. *15.8.1896 Cornforth, John Warcup http://schulen.eduhi.at/chemie/back.htm

55. Thermal Physics: Links photo; Satyendra Nath Bose biography; photo; Sadi Carnot biography;portrait; Benoit Paul emile clapeyron biography; Rudolf Clausius http://physics.weber.edu/thermal/links.html

Thermal Physics on the Web Links that may be of interest to readers of An Introduction to Thermal Physics About Temperature is actually a historical overview of a variety of important thermal physics concepts, written at an elementary level. The How Things Work Web site explains lots of everyday applications of thermal physics. Fuel cells are described in this Scientific American article. See also The Hypercar Center for more about super-efficient cars. Phil Nelson's home page has links to his fascinating articles on DNA elasticity and Statistical mechanics of membranes Several white dwarf stars are shown in this photo made by the Hubble Space Telescope. For comparison, here's a photo of a neutron star . (Sorry, I couldn't find a photo of a black hole , but here's a FAQ list The COBE Home Page has all sorts of information about the Cosmic Background Explorer satellite which has measured and mapped the background radiation. The BEC home page is a compilation of reports of recent results in Bose-Einstein condensation. The University of Colorado physics department has an elementary tutorial on the subject with java animations. See also the

56. The New Physics Of Information Only later did it attract the attention of emile clapeyron, a French engineer whopublicized the work through his own writings and designs, and of the British http://www.siam.org/siamnews/07-01/physics.htm

search: The New Physics of Information: From "Cogito ergo sum" to "It from bit" Book Review James Case The Bit and the Pendulum: From Quantum Computing to M Theory-The New Physics of Information Tom Siegfried John Wiley, New York, 2000, 281 pages, $27.95 (cloth), $15.95 (paper). Siegfried suggests, first of all, that machines and technology are more fruitful objects of study than nature itself, since particular machines and branches of technology tend to work on only a few scientific principles, which they accordingly isolate from other such principles in ways that nature seldom does. He focuses on three machines that stand out as what he calls "superparadigms" in the history of science: the clock, the steam engine, and the electronic computer. Each was, in its time, the "mother of all paradigms," in the sense that other paradigms were patterned after it. His observation that paradigms have genealogies brings to mind the Reagan cabinet member-the name escapes me-who used to tease youthful technocrats by singing a few bars of "brother, can you paradigm?" The Three "Superparadigms" Weight-driven mechanical clocks began to appear in European village squares about seven hundred years ago. The most intricate devices of their day, they reached a plateau of development after Galileo observed that the period of a pendulum's swing is (to an excellent first approximation) independent of the amplitude of that swing. Yet long before Galileo, others had begun to compare the turning of a clock's internal wheels with the motions of the heavenly bodies.

57. Un Sistema Periodico... Translate this page per i pistoni da parte di Cartwright 1799 Nascita di Ferdinand Reich , scopritoredell'iridio 1799 Nascita di Benoit Paul emile clapeyron 1799 Processo http://www2.polito.it/centri/cemed/sistemaperiodico/chrono.html

CRONOLOGIA indietro index home chrono avanti Ripresa dell'industria siderurgica in tutta Europa Utilizzo del Mulino per la concia 1150 circa: Introduzione della carta in Europa Produzione di acido nitrico, il solo acido conosciuto nel medioevo Sfruttamento dell'energia idraulica nella diocesi di Bergamo per la lavorazione dei metalli Impiego del carbon fossile nelle fucine Sfruttamento delle miniere d'argento nella diocesi di Trento XIII secolo: Utilizzo della soda in sostituzione del potassio nella produzione del vetro XIII secolo: Utilizzo del mulino per colori a Namour Prime istruzioni per la fabbricazione della polvere da sparo di Ruggero Bacone Introduzione del forno da ferro a Scalve (Alpi lombarde) Distillazione dell'alcol di frumento sotto la dinastia degli Yuan in Cina Introduzione della fucina idraulica a Brusolo (val di Susa) Comparsa delle lenti per presbiti e per ipermetropi Invenzione del mantice idraulico Tecnica del vetro in Normandia Primo mulino per la carta a Norimberga Estrazione dell'allume romano Prime opere a stampa di Gutenberg a Strasburgo Pubblicazione della Bibbia di Gutenberg Primi laminatoi in Europa Utilizzo del primo apparecchio per lavorare le pietre preziose Probabile primo altoforno a Nassau Nacita di Georgius Agricola, autore di

58. Liste Provisoire DicoMeca (A-E) Translate this page CLAIRAUT, Alexis Claude, 1713 - 1765, CdE, 103. clapeyron, Benoît emile,1799 - 1864, PP, 104. CLAUSIUS, Rudolf, 1822 - 1888, JC, 105. CLEBSCH, http://www.afm.asso.fr/aum/PROJETS/DicoMeca/ListDM_AE.html

(document de travail) Page 1 : A-E NOM Dates Responsable A b c d e ... n-z ACKERET Jakob [PAB] AGRICOLA [JF] AIRY George Bidell [JC] AL BIRUNI Abu Raihan [BE] AL-BAKRI A. A. [BE] AL-BATTANI (ALBATEGNUS) Mohammad Ibn Jabir ca. 868 - 929 [BE] AL-BETRUGI (ALPETRAGIUS) Nour Al-Dine - ca. 1100 [BE] AL-BUZJANI Abul Wafa Mohammad [BE] AL-FARABI (ABLUFARABIUS) Mohammed Abu Nasr (Avennasar) ca. 870 - 950 [BE] AL-FARGHANI (ALFRAGANUS) [BE] ALFVEN Hannes [BE] AL-KHAWARIZMI IBN MOUSA Mohammad ca. 800 - ca. 850 [BE] AL-KHAYYAM Omar ca. 1044 - 1123 [BE] AL-KHUJANDI Hamid Ibn Al-Khidr ca. 940 - 1000 [BE] ALMANSI Emilio [JC] AL-OURDI Mouayyed Al Dine [BE] AL-QUHI Abou Sahl Wayjan Ibn Rustom ca. 940 - ca. 1000 [BE] AL-SHIRAZI Qotb Al-Dine [BE] AL-TUSI Nasir Al-Dine [BE] AL-ZARQALI (ARZACHEL) Ibrahim Ibn Yahiya [BE] AMONTONS Guillaume [JF] APOLLONIOS de PERGA 200 AC - 100 AC [BE] APPELL Paul [JC] ARAGO [PO] ARCHARD John Frederic [JF] ARCHIMEDE ca. 287 AC - 212 AC [PAB] ARCHYTAS de TARENTE [BE] ARISTARQUE de SAMOS ca. 310 AC - ca. 230 AC [PAB] ARISTOTE 384 AC - 322 AC [PAB] ARYABHATA I [BE] ATWOOD George [PP] a B c d e f-m ... n-z BALIANI Giovan Battista [PAB] BARNARD Edward [BE] BARWELL [JF] BATCHELOR George Keith [AM] BAUSCHINGER [PP] BEECKMAN Isaac [PAB] BELANGER J.B.

59. Mécanique Et Thermodynamique puissance motrice du feu tiré de l'oubli par emile clapeyron (1799-1864 http://gallica.bnf.fr/themes/SciXVIIII7.htm

C' est au XIX e Pierre-Simon de Laplace (1749-1827) Joseph Fourier (1768-1830) et Karl Friedrich Gauss (1777-1855) avec leurs travaux sur les liaisons et les travaux virtuels, puis William Rowan Hamilton (1805-1865) et Carl Gustav Jacob Jacobi (1804-1851) Augustin Cauchy (1789-1857) et , l'hydrodynamique par Hermann von Helmholtz (1821-1894) Pierre-Simon de Laplace (1749-1827) , Ludwig Boltzmann (1844-1906) et Lord Rayleigh (1842-1919) , la propagation des mouvements par Henri Hugoniot (1851-1887). La science de la chaleur et la thermodynamique A Humphry Davy (1778-1829) Benjamin Thompson Rumford (1753-1814) James Clerk Maxwell (1831-1879) A la fin du XIX e Sadi Carnot (1796-1832) Augustin Cauchy (1789-1857) Rudolf Clausius (1822-1888) James Clerk Maxwell (1831-1879) Ludwig Boltzmann (1844-1906)

60. DUT Chemistry Option Chemistry (University Diploma Of Technology) balance, law of mass action, constants of balance, clapeyron's formula and Lecturer Mr ARTAUD Jacques Lecturer Professor GAYDOU emile Lecturer Mrs http://junon.u-3mrs.fr/ac020www/D000URGB.htm

Content : DUT Chemistry - Option Chemistry (University Diploma of Technology) Duration Purpose of the course Description ... Course units DUT Chemistry - Option Chemistry (University Diploma of Technology) Director of studies : Professor GAYDOU Emile Tel : +33 (0)4 91 28 93 02, +33 (0)4 91 28 93 24 Fax : +33 (0)4 91 28 94 02 e-mail : emile.gaydou@iut-chimie.u-3mrs.fr Duration 2 years Purpose of the course The Department of Chemistry of the IUT offer both theoretical and practical initial and continuing education, the principal objective of which is to train technicians, direct collaborators with the engineer or researcher in all domains of chemistry and associated industries concerning research development, production, analysis or control. In order to realize these objectives, the training must thus develop in the future graduate capacities of experimenting and exploitation of the results of experiments. It must provide the student with a wide knowledge of the different domains of chemistry in their fundamental and technological aspects. Description The university diploma of technology (D.U.T.) (Bac +2) in Chemistry is a national diploma awarded after a pluridisciplinary training. The course in Chemistry includes :

A  B  C  D  E  F  G  H  I  J  K  L  M  N  O  P  Q  R  S  T  U  V  W  X  Y  Z

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