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Verlag: Hachette Livre - Bnf, 2014
ISBN 10: 2013415834ISBN 13: 9782013415835
Anbieter: Buchpark, Trebbin, Deutschland
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Zustand: Sehr gut. 442 Seiten Gepflegter, sauberer Zustand. 25166492/2 Altersfreigabe FSK ab 0 Jahre Taschenbuch, Größe: 15.6 x 2.3 x 23.4 cm.
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Verlag: Hachette Livre BNF, 2014
ISBN 10: 2013415826ISBN 13: 9782013415828
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Zustand: Sehr gut. 476 Seiten Gepflegter, sauberer Zustand. 25166491/2 Altersfreigabe FSK ab 0 Jahre Taschenbuch, Größe: 15.6 x 2.4 x 23.4 cm.
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Anbieter: Allgovia-Antiquariat Gerhard Zech, Oberostendorf, Deutschland
Aus dem Franz. übersetzt und mit e. Anhange versehen v. Georg Westphal. Mit einer Vorrede v. M. Rühlmann. 3. Aufl. Hannover, Helwing, 1851. XXVI, 406 SS. 8°. Hldr.-Band d. Zeit mit Rückentitelprägung. Namensstempel auf dem Titelblatt. Rücken etw. berieben. Vorsätze, Titelei und erste bzw. letzte Seiten etw. stockig. Zusätzlich zum Text wurden etw. 50 Blankoblätter miteingebunden, darauf befindet sich die zeitgenössische handschriftl. Abschrift des Textes von Schwarz, Von der rückwirkenden Festigkeit der Körper", Zeitschrift für Bauwesen, 4. Jahrgang, Berlin, 1854, pp. 517 530. Erste deutsche Auflage! Claude Louis Marie Henri Navier (1785-1836), französischer Mathematiker und Physiker. Navier gilt als Begründer der Baustatik. Wir versenden die von uns angebotenen Bücher mit der Deutschen Post (Büchersendung) und der DHL (Pakete). Die Versandart und Versanddauer ist abhängig vom Preis des Titels, dessen Gewicht und dem Versandziel und beträgt in der Regel innerhalb Deutschlands 3 bis 5 Tage, in der EU zwischen 7 und 14 Tage. Mathematik, Mechnik, Architektur, Bauwesen, Statik,
Verlag: Hannover Hahn, 1866
Anbieter: Neusser Buch & Kunst Antiquariat, Neuss, NRW, Deutschland
0. 2. Bd. / 3. verm. Aufl. 8. XI, 465 S., m. Tab., HLdr., berieben u. bestossen, Schnitt gebräunt u. etwas fleckig, Vors. u. Tit.-Bl. leicht fleckig, innen minim. fleckig, Besitzerverm. a. Vors. von Louis Navier. Mit Zusätzen von Liouville. Deutsch hrsg., und mit einer Abhandlung der Methode der kleinsten Quadrate vermehrt von Theodor Wittstein Sprache: Deutschu 0,700 gr.
Quedlinburg und Leipzig, Gottfr. Basse, 1839. Contemp. clothbacked marbled boards. Stamps on title-page. A paperlabel pasted on upper part of spine. 55,(1) pp. Browning to title-page. Somewhat brownspotted throughout. First German edition.
Verlag: WENTWORTH PR, 2018
ISBN 10: 1385938536ISBN 13: 9781385938539
Anbieter: moluna, Greven, Deutschland
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Zustand: New.
Verlag: WENTWORTH PR, 2018
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ISBN 10: 0274660695ISBN 13: 9780274660698
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Zustand: New.
Verlag: Quedlingburg und Leipzig, Gottfried Basse,, 1839
Anbieter: Galerie Joy Versandantiquariat UG (haftungsbeschränkt), Boppard, Deutschland
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55 S., 1 S. Verlagsanzeigen Extrem seltene Schrift! - Macneill (1793-1880) hatte 1836 das Werk Naviers (1785-1836) ins Englische übersetzt. - Papierbedingt etwas gebräunt. - The indicated shipping costs refer to books weighing up to one kilogram. - Bücher, die schwerer als ein Kilogramm oder größer als 35 x 25 cm sind, werden als Paket verschickt und kosten innerhalb Deutschlands bis zu zwei Kilogramm 6 Euro, darüber hinaus 7 Euro Porto. - Sprache: Deutsch Gewicht in Gramm: 550 8°, moderner Kalbslederband, mit Zierbünden, goldgepr. RTitel, goldgepr. Deckelttitel und goldgepr. arabesker Umrahmung auf den Deckeln.
Verlag: BIBLIOLIFE, 2012
ISBN 10: 1249958288ISBN 13: 9781249958284
Anbieter: moluna, Greven, Deutschland
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Zustand: New.
Verlag: Hannover, Helwing 1879., 1879
Anbieter: Antiquariat Löcker, Wien, Österreich
XXIII, 589 S., mit vielen graph. Darst., HLdr. d. Zt., Kanten stark berieben, Aussengelenke angeplatzt, mehrf. gestemp. Bibl.-Expl.,
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ISBN 10: 0341561088ISBN 13: 9780341561088
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Gebunden. Zustand: New.
(Paris, Crochard, 1821). No wrappers. In 'Annales de Chimie et de Physique', Volume 19, Cahier 3. Pp. 225-236 (Entire issue offered with halftitle to vol. 19). Navier's paper: pp. 244-260. A few scattered brownspots. Some browning to halftitlepage. First appearance of Navier's famous paper in which he describes the relations between fluid flow and friction, giving the FUNDAMENTAL EQUATIONS OF THE MATHEMATICAL THEORY OF ELASTICITY. The full paper was not published until 1828. Stokes's analysis of the internal friction of fluids was published in 1845, and as he was not familiar with the French litterature of mathematical physics, he derived independently his own equations, which accounts for the double-name of the equations. "The Navier-Stokes equation is now regarded as the universal basis of fluid mechanics, no matter how complex and unpredictable the behavior of its solutions may be. It is also known to be the only hydrodynamic equation that is compatible with the isotropy and linearity of the stress-strain relation." (Olivier Darrigol)."Navier studied the motion of solid and liquid bodies, deriving the partial differential equations to which he applied Fourier's methods to find particular solutions. This theoretical research led him to formulate the well-known equation identified with his name and that of Stokes. Navier viewed bodies as made up of particles which are close to each other and which act on each other by means of two opposing forces - one of attraction and one of repulsion - which, when in a state of equilibrium, cancel each otherout. The repelling force resulted from the caloric that a body possessed. When equilibrium is disturbed in a solid, a restoring force acts which is proportional to the change in distance between the particles."(DSB, X, p. 4)."The equations are useful because they describe the physics of many things of academic and economic interest. They may be used to model the weather, ocean currents, water flow in a pipe and air flow around a wing. The Navier-Stokes equations in their full and simplified forms help with the design of aircraft and cars, the study of blood flow, the design of power stations, the analysis of pollution, and many other things. Coupled with Maxwell's equations they can be used to model and study magnetohydrodynamics. "(Wikipedia).
Paris, Crochard, 1821. Without wrappers. In 'Annales de Chimie et de Physique', Volume 19, Cahier 3. Titlepage to vol. 19. Pp. 225-335. Navier's paper: pp. 244-260. Verso of titlepage with small stamps. Clean and fine. First appearance of Navier's famous paper in which he describes the relations between fluid flow and friction, giving the FUNDAMENTAL EQUATIONS OF THE MATHEMATICAL THEORY OF ELASTICITY. The full paper was not published until 1828. Stokes's analysis of the internal friction of fluids was published in 1845, and as he was not familiar with the French litterature of mathematical physics, he derived independently his own equations, which accounts for the double-name ofthe equations. "The Navier-Stokes equation is now regarded as the universal basis of fluid mechanics, no matter how complex and unpredictable the behavior of its solutions may be. It is also known to be the only hydrodynamic equation that is compatible with the isotropy and linearity of the stress-strain relation." (Olivier Darrigol)."Navier studied the motion of solid and liquid bodies, deriving the partial differential equations to which he applied Fourier's methods to find particular solutions. This theoretical research led him to formulate the well-known equation identified with his name and that of Stokes. Navier viewed bodies as made up of particles which are close to each other and which act on each other by means of two opposing forces - one of attraction and one of repulsion - which, when in a state of equilibrium, cancel each otherout. The repelling force resulted from the caloric that a body possessed. When equilibrium is disturbed in a solid, a restoring force acts which is proportional to the change in distance between the particles."(DSB, X, p. 4)."The equations are useful because they describe the physics of many things of academic and economic interest. They may be used to model the weather, ocean currents, water flow in a pipe and air flow around a wing. The Navier-Stokes equations in their full and simplified forms help with the design of aircraft and cars, the study of blood flow, the design of power stations, the analysis of pollution, and many other things. Coupled with Maxwell's equations they can be used to model and study magnetohydrodynamics. "(Wikipedia).
Paris, Crochard, 1821. Contemp. hcalf. Spine gilt with tome-and titlelabels with gilt lettering. Wear to top of spine. A crack along first hinge, but cover not loose. In 'Annales de Chimie et de Physique', Volume 19. (Entire volume offered). 448 pp. a. 2 plates. Navier's paper: pp. 244-260. A faint dampstain to margins of the first 20 leaves and a bit seen on the following pages, decreasing. First appearance of Navier's famous paper in which he describes the relations between fluid flow and friction, giving the FUNDAMENTAL EQUATIONS OF THE MATHEMATICAL THEORY OF ELASTICITY. The full paper was not published until 1828. Stokes's analysis of the internal friction of fluids was published in 1845, and as he was not familiar with the French litterature of mathematical physics, he derived independently his own equations, which accounts for the double-name of the equations. "The Navier-Stokes equation is now regarded as the universal basis of fluid mechanics, no matter how complex and unpredictable the behavior of its solutions may be. It is also known to be the only hydrodynamic equation that is compatible with the isotropy and linearity of the stress-strain relation." (Olivier Darrigol)."Navier studied the motion of solid and liquid bodies, deriving the partial differential equations to which he applied Fourier's methods to find particular solutions. This theoretical research led him to formulate the well-known equation identified with his name and that of Stokes. Navier viewed bodies as made up of particles which are close to each other and which act on each other by means of two opposing forces - one of attraction and one of repulsion - which, when in a state of equilibrium, cancel each otherout. The repelling force resulted from the caloric that a body possessed. When equilibrium is disturbed in a solid, a restoring force acts which is proportional to the change in distance between the particles."(DSB, X, p. 4)."The equations are useful because they describe the physics of many things of academic and economic interest. They may be used to model the weather, ocean currents, water flow in a pipe and air flow around a wing. The Navier-Stokes equations in their full and simplified forms help with the design of aircraft and cars, the study of blood flow, the design of power stations, the analysis of pollution, and many other things. Coupled with Maxwell's equations they can be used to model and study magnetohydrodynamics. "(Wikipedia).