<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://dbpedia.org/ontology/abstract>	"En mec\u00E1nica de fluidos, se conoce como expansi\u00F3n de Prandtl\u2013Meyer, al proceso que se produce cuando un flujo supers\u00F3nico gira en torno a una esquina convexa, formando un abanico divergente consistente en un n\u00FAmero infinito de ondas Mach. Si el fluido encuentra una esquina c\u00F3ncava, el abanico converge, dando lugar a una onda de choque oblicua. Cada onda en el abanico de expansi\u00F3n cambia la direcciprincipio de la termodin\u00E1mica|segunda ley de la termodin\u00E1mica]]. A trav\u00E9s del abanico de expansi\u00F3n, el flujo se acelera (aumenta de velocidad) y aumenta el n\u00FAmero Mach, mientras que la presi\u00F3n est\u00E1tica, temperatura y la densidad disminuyen. Dado que el proceso es isentr\u00F3pico, las propiedades de estancamiento ( ej. la presi\u00F3n total y temperatura total) permanecen constantes en todo el abanico."@es .
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<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://dbpedia.org/ontology/abstract>	"A supersonic expansion fan, technically known as Prandtl\u2013Meyer expansion fan, a two-dimensional simple wave, is a centered expansion process that occurs when a supersonic flow turns around a convex corner. The fan consists of an infinite number of Mach waves, diverging from a sharp corner. When a flow turns around a smooth and circular corner, these waves can be extended backwards to meet at a point. Each wave in the expansion fan turns the flow gradually (in small steps). It is physically impossible for the flow to turn through a single \"shock\" wave because this would violate the second law of thermodynamics. Across the expansion fan, the flow accelerates (velocity increases) and the Mach number increases, while the static pressure, temperature and density decrease. Since the process is isentropic, the stagnation properties (e.g. the total pressure and total temperature) remain constant across the fan. The theory was described by Theodor Meyer on his thesis dissertation in 1908, along with his advisor Ludwig Prandtl, who had already discussed the problem a year before."@en .
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<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://dbpedia.org/ontology/wikiPageWikiLink>	<http://dbpedia.org/resource/Stagnation_point> .
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<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://dbpedia.org/ontology/abstract>	"Un ventall d'expansi\u00F3 supers\u00F2nic, conegut t\u00E8cnicament com a ventall d'expansi\u00F3 de Prandtl-Meyer \u00E9s un proc\u00E9s d'expansi\u00F3 centrada que es dona quan un flux supers\u00F2nic gira a trav\u00E9s d'una cantonada convexa. El ventall consisteix en un nombre infinit d'ones de Mach, que divergeixen d'una cantonada punxeguda. En cas que la cantonada fos circular i llisa, les ones es podrien estendre enrere i trobar-se en un punt. Cada ona del ventall d'expansi\u00F3 fa girar el flux gradualment (en petits passos). \u00C9s f\u00EDsicament impossible per al flux girar en nom\u00E9s una oba de xoc, ja que aix\u00F2 violaria el segon principi de la termodin\u00E0mica. A trav\u00E9s del ventall d'expansi\u00F3, el flux accelera (la velocitat augmenta) i el nombre de Mach augmenta, mentre que la pressi\u00F3 est\u00E0tica, la temperatura i la densitat disminueixen. Com que \u00E9s un proc\u00E9s isentr\u00F2pic, les condicions d'estancament (per exemple, la temperatura total o la pressi\u00F3 total) es mantenen constant a trav\u00E9s del ventall. El model te\u00F2ric va ser derivat l'any 1907 per Ludwig Prandtl el 1907 i elaborada posteriorment per T. Meyer."@ca .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://dbpedia.org/ontology/wikiPageWikiLink>	<http://dbpedia.org/resource/Theodor_Meyer> .
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<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://dbpedia.org/ontology/wikiPageWikiLink>	<http://dbpedia.org/resource/Mach_number> .
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<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://dbpedia.org/ontology/wikiPageWikiLink>	<http://dbpedia.org/resource/Sonic_boom> .
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<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://www.w3.org/2000/01/rdf-schema#comment>	"Un ventall d'expansi\u00F3 supers\u00F2nic, conegut t\u00E8cnicament com a ventall d'expansi\u00F3 de Prandtl-Meyer \u00E9s un proc\u00E9s d'expansi\u00F3 centrada que es dona quan un flux supers\u00F2nic gira a trav\u00E9s d'una cantonada convexa. El ventall consisteix en un nombre infinit d'ones de Mach, que divergeixen d'una cantonada punxeguda. En cas que la cantonada fos circular i llisa, les ones es podrien estendre enrere i trobar-se en un punt. Cada ona del ventall d'expansi\u00F3 fa girar el flux gradualment (en petits passos). \u00C9s f\u00EDsicament impossible per al flux girar en nom\u00E9s una oba de xoc, ja que aix\u00F2 violaria el segon principi de la termodin\u00E0mica. A trav\u00E9s del ventall d'expansi\u00F3, el flux accelera (la velocitat augmenta) i el nombre de Mach augmenta, mentre que la pressi\u00F3 est\u00E0tica, la temperatura i la densitat disminueixen. "@ca .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://dbpedia.org/ontology/wikiPageWikiLink>	<http://dbpedia.org/resource/Mach_line> .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://dbpedia.org/ontology/wikiPageWikiLink>	<http://dbpedia.org/resource/Normal_component> .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://www.w3.org/2000/01/rdf-schema#comment>	"A supersonic expansion fan, technically known as Prandtl\u2013Meyer expansion fan, a two-dimensional simple wave, is a centered expansion process that occurs when a supersonic flow turns around a convex corner. The fan consists of an infinite number of Mach waves, diverging from a sharp corner. When a flow turns around a smooth and circular corner, these waves can be extended backwards to meet at a point. The theory was described by Theodor Meyer on his thesis dissertation in 1908, along with his advisor Ludwig Prandtl, who had already discussed the problem a year before."@en .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://www.w3.org/2000/01/rdf-schema#comment>	"La d\u00E9tente de Prandtl-Meyer est la d\u00E9tente isentropique d'un gaz \u00E0 partir d'un milieu homog\u00E8ne, plan, en \u00E9coulement supersonique. Elle a \u00E9t\u00E9 \u00E9tablie par Ludwig Prandtl et son \u00E9l\u00E8ve Theodor Meyer."@fr .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://www.w3.org/2000/01/rdf-schema#label>	"Expansi\u00F3 de Prandtl-Meyer"@ca .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://dbpedia.org/ontology/wikiPageWikiLink>	<http://dbpedia.org/resource/File:Maximum_turning_angle.png> .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://www.w3.org/2000/01/rdf-schema#label>	"D\u00E9tente de Prandtl-Meyer"@fr .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://www.w3.org/2002/07/owl#sameAs>	<http://ca.dbpedia.org/resource/Expansi\u00F3_de_Prandtl-Meyer> .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://dbpedia.org/ontology/wikiPageWikiLink>	<http://dbpedia.org/resource/Schlieren_photography> .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://www.w3.org/2000/01/rdf-schema#label>	"Expansi\u00F3n de Prandtl-Meyer"@es .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://www.w3.org/2002/07/owl#sameAs>	<http://fr.dbpedia.org/resource/D\u00E9tente_de_Prandtl-Meyer> .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://dbpedia.org/ontology/wikiPageWikiLink>	<http://dbpedia.org/resource/Ronald_Press> .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://www.w3.org/2000/01/rdf-schema#comment>	"\u666E\u6717\u7279\uFF0D\u8FC8\u8036\u81A8\u80C0\u6247\uFF08\u82F1\u8A9E\uFF1APrandtl\u2013Meyer expansion fan\uFF09\u662F\u6307\u8D85\u97F3\u901F\u6D41\u7ED5\u5916\u51F8\u8F6C\u89D2\u65F6\u6240\u5F62\u6210\u7684\u81A8\u80C0\u6247\u3002\u81A8\u80C0\u6247\u7531\u65E0\u7A77\u591A\u6761\u4ECE\u5C16\u9510\u8F6C\u89D2\u53D1\u6563\u3001\u89D2\u5EA6\u9010\u6E10\u504F\u8F6C\u7684\u7EC4\u6210\u3002\u800C\u5F53\u8F6C\u89D2\u4E3A\u5149\u6ED1\u5706\u89D2\u65F6\uFF0C\u8FD9\u4E00\u7CFB\u5217\u9A6C\u8D6B\u6CE2\u5219\u53CD\u5411\u4EA4\u6C47\u4E8E\u4E00\u70B9\u3002\u7269\u7406\u4E0A\uFF0C\u7ED5\u51F8\u89D2\u7684\u8D85\u97F3\u901F\u6D41\u4E0D\u53EF\u80FD\u4EC5\u7A7F\u8FC7\u4E00\u6761\u201C\u6FC0\u6CE2\u201D\uFF0C\u56E0\u4E3A\u90A3\u6837\u4F1A\u8FDD\u80CC\u70ED\u529B\u5B66\u7B2C\u4E8C\u5B9A\u5F8B\u3002\u5F53\u6D41\u52A8\u7A7F\u8FC7\u81A8\u80C0\u6247\u65F6\uFF0C\u6D41\u901F\u4E0E\u9A6C\u8D6B\u6570\u589E\u52A0\uFF0C\u3001\u6E29\u5EA6\u4E0E\u5BC6\u5EA6\u5219\u51CF\u5C0F\u3002\u7531\u4E8E\u8BE5\u8FC7\u7A0B\u4E3A\u7B49\u71B5\u8FC7\u7A0B\uFF0C\u6EDE\u6B62\u6027\u8D28\u5219\u4FDD\u6301\u4E0D\u53D8\u3002"@zh .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://www.w3.org/2000/01/rdf-schema#comment>	"En mec\u00E1nica de fluidos, se conoce como expansi\u00F3n de Prandtl\u2013Meyer, al proceso que se produce cuando un flujo supers\u00F3nico gira en torno a una esquina convexa, formando un abanico divergente consistente en un n\u00FAmero infinito de ondas Mach. Si el fluido encuentra una esquina c\u00F3ncava, el abanico converge, dando lugar a una onda de choque oblicua. Cada onda en el abanico de expansi\u00F3n cambia la direcciprincipio de la termodin\u00E1mica|segunda ley de la termodin\u00E1mica]]."@es .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://purl.org/dc/terms/subject>	<http://dbpedia.org/resource/Category:Conservation_equations> .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://dbpedia.org/ontology/wikiPageExternalLink>	<https://web.archive.org/web/20130216144918/http:/exploration.grc.nasa.gov/education/rocket/expans.html> .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://dbpedia.org/ontology/wikiPageExternalLink>	<https://web.archive.org/web/20070205180438/http:/meweb.ecn.purdue.edu/~meapplet/java/comp_calculator/expansionfan_calculator.html> .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://xmlns.com/foaf/0.1/isPrimaryTopicOf>	<http://en.wikipedia.org/wiki/Prandtl\u2013Meyer_expansion_fan> .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://dbpedia.org/ontology/wikiPageWikiLink>	<http://dbpedia.org/resource/McGraw-Hill> .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://dbpedia.org/ontology/abstract>	"La d\u00E9tente de Prandtl-Meyer est la d\u00E9tente isentropique d'un gaz \u00E0 partir d'un milieu homog\u00E8ne, plan, en \u00E9coulement supersonique. Elle a \u00E9t\u00E9 \u00E9tablie par Ludwig Prandtl et son \u00E9l\u00E8ve Theodor Meyer."@fr .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://dbpedia.org/ontology/wikiPageWikiLink>	<http://dbpedia.org/resource/Category:Aerodynamics> .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://dbpedia.org/ontology/wikiPageWikiLink>	<http://dbpedia.org/resource/Streamlines,_streaklines_and_pathlines> .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://www.w3.org/2002/07/owl#sameAs>	<https://global.dbpedia.org/id/47xEG> .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://dbpedia.org/ontology/wikiPageWikiLink>	<http://dbpedia.org/resource/NASA> .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://dbpedia.org/ontology/abstract>	"\u0422\u0435\u0447\u0435\u043D\u0438\u0435 \u041F\u0440\u0430\u043D\u0434\u0442\u043B\u044F \u2014 \u041C\u0430\u0439\u0435\u0440\u0430, \u0438\u043B\u0438 \u0446\u0435\u043D\u0442\u0440\u0438\u0440\u043E\u0432\u0430\u043D\u043D\u0430\u044F \u043F\u0440\u043E\u0441\u0442\u0430\u044F \u0432\u043E\u043B\u043D\u0430 \u0440\u0430\u0437\u0440\u0435\u0436\u0435\u043D\u0438\u044F, \u2014 \u0442\u0435\u0447\u0435\u043D\u0438\u0435, \u0440\u0435\u0430\u043B\u0438\u0437\u0443\u044E\u0449\u0435\u0435\u0441\u044F \u0432 \u0441\u0432\u0435\u0440\u0445\u0437\u0432\u0443\u043A\u043E\u0432\u043E\u043C \u043F\u043E\u0442\u043E\u043A\u0435 \u043E\u043A\u043E\u043B\u043E \u043E\u0441\u0442\u0440\u043E\u0439 \u043A\u0440\u043E\u043C\u043A\u0438 \u0440\u0430\u0441\u0448\u0438\u0440\u044F\u044E\u0449\u0435\u0439\u0441\u044F \u043E\u0431\u043B\u0430\u0441\u0442\u0438. \u041F\u0440\u0435\u0434\u0441\u0442\u0430\u0432\u043B\u044F\u0435\u0442 \u0441\u043E\u0431\u043E\u0439 \u0431\u0435\u0441\u043A\u043E\u043D\u0435\u0447\u043D\u044B\u0439 \u043D\u0430\u0431\u043E\u0440 \u0432\u043E\u043B\u043D \u0440\u0430\u0437\u0440\u0435\u0436\u0435\u043D\u0438\u044F, \u0432 \u043A\u0430\u0436\u0434\u043E\u0439 \u0438\u0437 \u043A\u043E\u0442\u043E\u0440\u044B\u0445 \u043F\u043E\u0442\u043E\u043A \u0438\u0437\u043E\u044D\u043D\u0442\u0440\u043E\u043F\u0438\u0447\u0435\u0441\u043A\u0438 \u043F\u043E\u0432\u043E\u0440\u0430\u0447\u0438\u0432\u0430\u0435\u0442\u0441\u044F \u043D\u0430 \u043C\u0430\u043B\u044B\u0439 \u0443\u0433\u043E\u043B. \u0412\u0435\u043B\u0438\u0447\u0438\u043D\u0430 \u043F\u0435\u0440\u0432\u043E\u0433\u043E \u0443\u0433\u043B\u0430 , \u043F\u043E\u0441\u043B\u0435\u0434\u043D\u0435\u0433\u043E \u2014 . \u041F\u0440\u0435\u0434\u0435\u043B\u044C\u043D\u044B\u0439 \u0443\u0433\u043E\u043B, \u043D\u0430 \u043A\u043E\u0442\u043E\u0440\u044B\u0439 \u043C\u043E\u0436\u0435\u0442 \u043E\u0442\u043A\u043B\u043E\u043D\u0438\u0442\u044C\u0441\u044F \u043F\u043E\u0442\u043E\u043A, \u0437\u0430\u0432\u0438\u0441\u0438\u0442 \u043E\u0442 \u043F\u043E\u043A\u0430\u0437\u0430\u0442\u0435\u043B\u044F \u0430\u0434\u0438\u0430\u0431\u0430\u0442\u044B \u0438 \u0432\u044B\u0440\u0430\u0436\u0430\u0435\u0442\u0441\u044F \u0444\u043E\u0440\u043C\u0443\u043B\u043E\u0439: \u0414\u043B\u044F \u0432\u043E\u0437\u0434\u0443\u0445\u0430 \u044D\u0442\u0430 \u0432\u0435\u043B\u0438\u0447\u0438\u043D\u0430 \u043F\u0440\u0438\u043C\u0435\u0440\u043D\u043E \u0440\u0430\u0432\u043D\u0430 130\u00B0. \u042D\u0442\u043E \u043F\u0440\u0435\u0434\u0435\u043B\u044C\u043D\u044B\u0439 \u0443\u0433\u043E\u043B \u043D\u0430 \u043A\u043E\u0442\u043E\u0440\u044B\u0439 \u043C\u043E\u0436\u0435\u0442 \u0440\u0430\u0437\u0432\u0435\u0440\u043D\u0443\u0442\u044C\u0441\u044F \u043F\u043E\u0442\u043E\u043A \u0432\u043E\u0437\u0434\u0443\u0445\u0430 \u0441 \u0447\u0438\u0441\u043B\u043E\u043C \u041C\u0430\u0445\u0430 , \u043F\u0440\u0438 \u044D\u0442\u043E\u043C \u0434\u0430\u0432\u043B\u0435\u043D\u0438\u0435, \u043F\u043B\u043E\u0442\u043D\u043E\u0441\u0442\u044C \u0438 \u0442\u0435\u043C\u043F\u0435\u0440\u0430\u0442\u0443\u0440\u0430 \u0432 \"\u0440\u0430\u0437\u0432\u0435\u0440\u043D\u0443\u0442\u043E\u043C\" \u043F\u043E\u0442\u043E\u043A\u0435 \u0441\u0442\u0440\u0435\u043C\u044F\u0442\u0441\u044F \u043A 0, \u0430 (\u043D\u0430\u043F\u0440\u0438\u043C\u0435\u0440, \u0435\u0441\u043B\u0438 \u0442\u0430\u043A\u043E\u0439 \u043F\u043E\u0442\u043E\u043A \u0432\u043E\u0437\u0434\u0443\u0445\u0430 \u0432\u044B\u0442\u0435\u043A\u0430\u0435\u0442 \u0432 \u0432\u0430\u043A\u0443\u0443\u043C). \u0414\u043B\u044F \u0442\u0435\u0447\u0435\u043D\u0438\u044F \u0441 \u043F\u0440\u0435\u0434\u0435\u043B\u044C\u043D\u044B\u0439 \u0443\u0433\u043E\u043B \u0431\u0443\u0434\u0435\u0442 \u0440\u0430\u0432\u0435\u043D , \u0433\u0434\u0435 - \u0444\u0438\u043A\u0442\u0438\u0432\u043D\u044B\u0439 \u0443\u0433\u043E\u043B \u043F\u043E\u0432\u043E\u0440\u043E\u0442\u0430 \u043F\u043E\u0442\u043E\u043A\u0430 \u043E\u0442 \u0434\u043E . \u041F\u0440\u0435\u0434\u0435\u043B\u044C\u043D\u044B\u0435 \u0443\u0433\u043B\u044B \u043F\u0440\u0430\u043A\u0442\u0438\u0447\u0435\u0441\u043A\u0438 \u043D\u0438\u043A\u043E\u0433\u0434\u0430 \u043D\u0435 \u0440\u0435\u0430\u043B\u0438\u0437\u0443\u044E\u0442\u0441\u044F \u0432\u0441\u043B\u0435\u0434\u0441\u0442\u0432\u0438\u0435 \u0432\u043B\u0438\u044F\u043D\u0438\u044F \u0432\u044F\u0437\u043A\u043E\u0441\u0442\u0438 \u0438 \u043E\u0442\u0440\u044B\u0432\u0430 \u043F\u043E\u0442\u043E\u043A\u0430 (\u0437\u0430 \u0438\u0441\u043A\u043B\u044E\u0447\u0435\u043D\u0438\u0435\u043C \u0432\u044B\u0442\u0435\u043A\u0430\u043D\u0438\u0439 \u0432 \u0441\u0438\u043B\u044C\u043D\u043E \u0440\u0430\u0437\u0440\u0435\u0436\u0435\u043D\u043D\u0443\u044E \u0441\u0440\u0435\u0434\u0443 \u0438\u043B\u0438 \u0432\u0430\u043A\u0443\u0443\u043C). \u041E\u0441\u043E\u0431\u0435\u043D\u043D\u043E\u0441\u0442\u044C \u0442\u0435\u0447\u0435\u043D\u0438\u044F \u041F\u0440\u0430\u043D\u0434\u0442\u043B\u044F \u2014 \u041C\u0430\u0439\u0435\u0440\u0430 \u0432 \u0442\u043E\u043C, \u0447\u0442\u043E \u043E\u043D\u043E \u044F\u0432\u043B\u044F\u0435\u0442\u0441\u044F \u0438\u0437\u043E\u044D\u043D\u0442\u0440\u043E\u043F\u0438\u0447\u0435\u0441\u043A\u0438\u043C \u0438 \u0432\u0441\u0435 \u0442\u0435\u0440\u043C\u043E\u0434\u0438\u043D\u0430\u043C\u0438\u0447\u0435\u0441\u043A\u0438\u0435 \u043F\u0430\u0440\u0430\u043C\u0435\u0442\u0440\u044B \u0432 \u043D\u0451\u043C \u044F\u0432\u043B\u044F\u044E\u0442\u0441\u044F \u0444\u0443\u043D\u043A\u0446\u0438\u044F\u043C\u0438 \u043E\u0434\u043D\u043E\u0433\u043E \u0438\u0437 \u043D\u0438\u0445 (\u043F\u0440\u043E\u0441\u0442\u0430\u044F \u0432\u043E\u043B\u043D\u0430)."@ru .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://purl.org/dc/terms/subject>	<http://dbpedia.org/resource/Category:Fluid_dynamics> .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://dbpedia.org/ontology/wikiPageWikiLink>	<http://dbpedia.org/resource/Category:Conservation_equations> .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://dbpedia.org/ontology/wikiPageWikiLink>	<http://dbpedia.org/resource/Tangential_component> .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://dbpedia.org/ontology/wikiPageWikiLink>	<http://dbpedia.org/resource/Ludwig_Prandtl> .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://dbpedia.org/ontology/wikiPageWikiLink>	<http://dbpedia.org/resource/Stagnation_pressure> .
<http://dbpedia.org/resource/Prandtl\u2013Meyer_expansion_fan>	<http://purl.org/dc/terms/subject>	<http://dbpedia.org/resource/Category:Aerodynamics> .