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Verlag: Glasgow: University Library, 1977
ISBN 10: 0852611471ISBN 13: 9780852611470
Anbieter: Plurabelle Books Ltd, Cambridge, Vereinigtes Königreich
Verbandsmitglied: GIAQ
Buch
Paperback. Zustand: Very Good. 93p paperback, cloth spine, text reproduced from typescript, with some notes in ink, still very good Language: English.
Verlag: Cambridge University Press, 2011
ISBN 10: 1108029795ISBN 13: 9781108029797
Anbieter: AHA-BUCH GmbH, Einbeck, Deutschland
Buch
Taschenbuch. Zustand: Neu. Druck auf Anfrage Neuware - Printed after ordering - A collection of Kelvin's scientific lectures on the science of the seas, particularly on navigation, tides and magnetic forces.
Verlag: Mayer & Müller, Berlin 1891. 2 Bl., VIII, 342 Seiten mit 56 Holzschnittabbildungen. Halbleder der Zeit. Gering berieben, Kanten beschabt. Etwas gebräunt. Gutes Exemplar., 1891
Anbieter: Antiquariat Kaner & Kaner GbR, Staufen, Deutschland
William Thomson (1824-1907), später Lord Kelvin, war einer der herausragenden Physiker des 19. Jahrhunderts. Er führte u.a. die nach ihm benannte Kelvin-Skala ein. Von dem dreibändigen Werk "Popular Lectures and Addresses" ist auf Deutsch nur der erste Ba nd erschienen. Inhalt: Kapillaranziehung. Elektrische Masseinheiten. Maxwells sortierender Dämon. Wellentheorie des Lichts. Elastizität als vielleicht eine Art von Bewegung betrachtet. Die Größe der Atome. Sonnenwärme u.a. Erste u. einzige Ausgabe. Selten.
Verlag: Royal Society of London, London, 1853
Anbieter: Craig Olson Books, ABAA/ILAB, Belfast, ME, USA
Erstausgabe
Hardcover. Zustand: Very Good. First Edition. Thomson's important paper that explains what became known as the Joule-Thomson Effect: the change in temperature of a gas when passed through a porous plug or valve. Also known as the "throttling process." Also contains George Gabriel Stokes' "On the Change of Refrangibility of Light.- No. II" (pp.385-386) and J. C. Adams' "On the Secular Variation of the Moon's Mean Motion" (pp. 397-406). iv, [1]-566, [1]-15 pp. 4to. Library binding, tan leather spine with gold embossed titling. Interiors clean, ex-library stamp on title page, and occurring sporadically within. Numerous folding plates that illustrate articles. Pages were trimmed slightly when rebound.
Verlag: Cambridge University Press, 2011
ISBN 10: 1108029000ISBN 13: 9781108029001
Anbieter: Buchpark, Trebbin, Deutschland
Buch
Zustand: Sehr gut. Zustand: Sehr gut - Gepflegter, sauberer Zustand. | Seiten: 546.
Verlag: London, 1883
Anbieter: Antiquariat Manfred Velden, Düsseldorf, Deutschland
Erstausgabe
Softcover. Zustand: Sehr gut. Ohne Schutzumschlag. 1. Auflage. Thomson, Sir William. The Size of Atoms. I-III pp. 203-205; 250-254; 274-278 with illustrations in: Nature. No.713, 715, 716 Vol.28. 1883. Ohne die Werbungs-Beilagen. Geheftet. Gut erhalten. Well preserved. Very rare!.
Erscheinungsdatum: 1892
Anbieter: Antiq. F.-D. Söhn - Medicusbooks.Com, Marburg, Deutschland
Buch
Proc. roy. Soc., 51. (1892) - London, Harrison and Sons, 1892, 8°, VIIII, 526, LVI pp., Leinenband der Zeit; St.a.Tit.
Erscheinungsdatum: 1892
Anbieter: Antiq. F.-D. Söhn - Medicusbooks.Com, Marburg, Deutschland
Buch
Proc. roy. Soc., 50 (1891/1892) - London, Harrison and Sons, 1892, 8°, VIIII, 541, XXI pp., Leinenband der Zeit; St.a.Tit.
Verlag: Glasgow Maclehose, 1885
Anbieter: Antiquariat Gerhard Gruber, Heilbronn, Deutschland
Buch Erstausgabe
(17,5 x 12 cm). 36 S. Mit 9 Abbildungen. Halbleinwandband der Zeit mit beigebundenem Original-Umschlag. (British Association Southampton meeting, 1882. Evening lecture). Erste Ausgabe seines Vortrags. - Thomson hat eine Gezeitenrechenmaschine konstruiert, die die Pegelstände der Themse unter Berücksichtigung von Mond, Sonne und Erdrotation berechnen konnte. Sie war auf der Pariser Weltausstellung 1878 ausgestellt. - Titel verso gestempelt, sonst sehr sauber und gut erhalten. - DSB 13, 374.
Verlag: Leipzig und Berlin, B. G. Teubner., 1909
XVIII, 590 S. Grüner Original-Leinenbd. Erste deutsche Ausgabe. - DSB XIII, 374-388. - 'Dreizehn und ein halbes Jahr, nachdem die Vorlesungen gehalten waren, wurden der zwölften Vorlesung einige größere Ergänzungen angefügt. In den Vorlesungen XIII, XIV, XV überlagern neugeschriebene Ergänzungen immer weitere Teile des autographierten Berichtes, der aber immer noch die Grundlage jeder Vorlesung ausmacht. Die Vorlesungen XVI-XX wurden in den Jahren 1901, 1902, 1903 neu geschrieben' (Vorwort des Herausgebers, S. V). - W. Thomson (1824-1907) förderte als ideenreicher Wissenschaftler fast alle Gebiete der Physik, darunter die Geophysik, Hydrodynamik, Thermodynamik, die Elektrodynamik, die Elastizitätstheorie und den Kristallmagnetismus. Der Einfluß und die Faszination, die er auf seine Zeitgenossen ausübte, sind zu einem guten Teil darin begründet, daß es ihm gelang, die Technik und die Industrie mit der naturwissenschaftlichen Forschung zu koordinieren. Th. besaß viele Patente für die Unterwassertelegraphie und Navigation; so erfand er das Quadrantelektrometer und verbesserte den Schiffskompaß. Th.'s größte wissenschaftliche Leistung (mit R. Clausius) bestand in der Aufstellung und Interpretation des 2. Hauptsatzes der Wärmelehre. Auch zur mechanischen Erklärung der elektromagnetischen Vorgänge im Äther entwickelte Th. mehrere Modelle. Sprache: Deutsch.
Verlag: London MacMillan, 1872
Anbieter: Antiquariat Gerhard Gruber, Heilbronn, Deutschland
Buch Erstausgabe
(22,5 x 14,5 cm). XV, 592 S. Mit Abbildungen und 3 Tafeln. Original-Leinwandband, unbeschnitten. Erste Ausgabe dieser Sammlung von wichtigen Arbeiten des bedeutenden Physikers. Er gehört zu den wichtigsten Naturforschern des 19. Jahrhundert und ist einer der Begründer der Thermodynamik. - Stempel auf Schmutztitel. Einband etwas bestoßen, sonst sauber und gut erhalten. - DSB 13, 374; Poggendorff III, 1341; Wheeler-Gift 1847.
Verlag: Prometheus, 2002
ISBN 10: 1573929840ISBN 13: 9781573929844
Anbieter: Untje.com, Roeselare, Belgien
Buch
Paperback. Zustand: Fine. English.
(London, Richard Taylor and William Francis, 1852). 4to. No wrappers as extracted from "Philosophical Transactions" 1852 - Part I. Pp. 65-82. (Thomson pp. 78-82). a. 1 engraved plate. The plate with a dampstain., otherwise clean and fine. First appearance of an importent paper in which both Joule and Lord Kelvin publish some thermo-dynamical results in connection with heat developed by air and mechanical work as further proofs of the conservation of energy.Joule is well known for his discovery of Joule's Law, the connection between heat and mechanical work, where heat is a form of energy. "In December of 1840 he presented a paper to the Royal Society on the production of heat by the electric current. His course of thought led him to the consideration of the relatio between heat and and mechanical work. The results of his investigations were embodied in a series of papers which culminated in his great memoir on the mechanical equivalent of heat, published in 1850. Joule was one of the founders of the principle of the cosservation of energy. Some of his work was done in collaboration with Lord Kelvin."(Source Book in Physics p. 203).
(London, Harrison and Sons, 1898). 4to. No wrappers as extracted from "Philosophical Transactions" Year 1897, Volume 191 - Series A. - Pp. 187-228 a. textillustrations showing experimental apparatus. First printing of a joint paper "in which we describe a long series of experiments on the electrification of air and other gases, with which we have been occupied from May, 1894, up to the present time (June, 1897).".
Verlag: Verlag von Wilhelm Engelmann, Leipzig, Berlin, 1914
Erstausgabe
Zustand: - keine Angabe -. 1. Aufl.;. 8° 212 Seiten, 6 Figuren im Text; Orig.-Pappband; 240g; [Deutsch]; Einband leicht lagerspurig, etwas bestaubt/beschmutzt, Rückenkanten leicht berieben, mit kleiner Fehlstelle; Papier schwach gebräunt, kaum Gebrauchsspuren 1. Auflage; Ins Deutsche übertragen und herausgegeben von Dr. Walter Block. Orig.-Titel: "On the dynamical Theory of heat" (Transactions of the Royal Society of Edinburgh; März 1851 und Philosophical Magazine IV, 1852) _ xXx_ Internat. Shipping (economy): A, B, CZ, DK, NL: 19,00 EUR / CH: 28,00 EUR / HU, I: 19,00 EUR / UK: 19,00 EUR / US, CA, CN, JP: 39,50 EUR / all others and priority: on request. BUCH.
London, Richard taylor and William Francis, 1853-54. 4to. No wrappers as extracted from "Philosophical Transactions" 1853, Vol. 143 and 1854, Vol. 144. With titlepages to vol. 143 a. 144. The papers: pp. 357-365 a. pp. 321-364, textillustrations. The first titlepage bears the name of P.G. Tait. First printing of these importent papers in which the authors found the so-called Joule-Thomson effect which should be the founding technology in refrigeration. They showed that a gas expanding into vacuum without addition of external work undergo a change in temperature, in spite of the theoretical speculations. The temperature change occurs due to the internal work required to overcome the attractive forces between molecules."The only substantial contribution to thermodnamics to which the joint names of Joule and Thomson, are attached belongs to an idea conceived by Thomson, who saw the possibility of analyzing the deviations of gas properties from the ideal behavior. In particular, a non-ideal gas, made to expand slowly through a porous plug (so as to approximate a specified mathematical condition?constant enthalpy), would in general undergo a cooling (essentially a transformation of atomic motion into work spent against the interatomic attractions). For the delicate test of this effect Thomson required Joule?s unsurpassed skill (1852). But the application of the Joule- Thomson effect to the technology of refrigeration belongs to a later stage in the development of thermodynamics."(DSB).Peter Guthrie Tait (1831 - 1901) was a Scottish mathematical physicist, best known for the seminal energy physics textbook Treatise on Natural Philosophy, which he co-wrote with Kelvin, and his early investigations into knot theory, which contributed to the eventual formation of topology as a mathematical discipline. His name is known in graph theory mainly for Tait's conjecture. (His name on the first titlepage).Parkinson "Breakthroughs" 1852 C.
(London, Richard Taylor and William Francis, 1853) 4to. No wrappers as extracted from "Philosophical Transactions" 1853, Vol. 143 - Part III. Pp. 357-365. Textillustrations. Clean and fine. First appearance of this highly importent paper in the development of thermodynamics, describing the experiments leading to the discovery of the cooling effect when a gas is allowed to expand freely. This is the founding theory, later used in refrigeration."The only substantial contribution to thermodynamics to which the joint names of Joule and Thomson are attached belongs to an idea conceived by Thomson, who saw the possibility of analyzing the deviations of gas properties from the ideal behavior. In particular a non-ideal gas, made to expand slowly through a porous plug so as to approximate a specified mathematical condition - constant enthalpy), would in general undergo cooling (essentially a transformation of atomic motion into work spent against the interatomic attractions).But the appliocation of the Joule-Thomson effect to technology of refrigeration belongs to a later stage in the development of thermodynamics."(DSB VII, p. 182).The Joule-Thomson effect or Joule-Kelvin effect describes the increase or decrease in the temperature of a real gas (as differentiated from an ideal gas) or a liquid when allowed to expand freely through a valve or other throttling device while kept insulated so that no heat is transferred to or from the fluid, and no external mechanical work is extracted from the fluid. The Joule-Thomson effect is an isenthalpic process, meaning that the enthalpy of the fluid is constant (i.e., does not change) during the process. It is named for James Prescott Joule and William Thomson, 1st Baron Kelvin who established the effect in 1852, following earlier work by Joule on Joule expansion in which a gas expands at constant internal energy. The Joule-Thomson effect is sometimes referred to as the Joule-Kelvin effect. Engineers often refer to it as simply the J-T effect.
London, Taylor and Francis, 1876-79. Witout wrappers as three issues from "Proceedings of the Royal Society of London", Vol. 24, No. 167+ Vol. 27, No.187+ Vol. 28, No. 191. Pp. 250-344, pp. 284-408 a. pp. 103-232. Papers: In No. 167:pp. 262-265 (James Thomson), pp. 266-68, pp. 269-271, pp. 271-275. In No. 187: pp. 371-373. In No. 191: pp. 111-113 (W. Thomson). Titlepages to vols. 24, 27 a. 28 present. 2 papers with textillustrations. First appearance of all the 6 founding papers around the invention of the "Harmonic Analyzer" and with the mathematical theory for the differential analyzor, containing both the mathematical theories and the practical descriptions of the analyzer and further also having the paper by Lord Kelvin's brother (the first paper offered) in which the machinery is shown for the first time."A ball and disk integrator was the vital invention needed to build the FIRST AUTOMATIC ANALOG COMPUTING MACHINES. Lord kelvin used this integrator -devised for a planimeter in the 1860s by his brother, James Thomson - on two new kinds of analog computers: a harmonic analyzer and a tide predictor. he later specified a more general machine - a differential analyzer."(Eames in "A Computer Perspective")."The harmonic analyzer was used in conjunction with Thomson's tide predictor.The present paper ("Harmonic Analyzer") contains the first full description of the harmoniz analyzer, which was "designed rudimentally" (p. 371) in Thomson's "On an integrating machine having a new kinematic principle"(also offered here),James Thomson's integrator - "one of the first really workable integrating devices" (Williams 1985, 207) - served as the basis for other analog machines designed by William Thomson for solving simultaneous linear equations and integrating differential equations. Thomson first described such a machine, composed of several Thomson integrators connedted together, in his paper on "Mechanical integration of the linear differentialequations of the decond order." (also offred here)" however the "idea could then hardly be carried out, forone reason because an integrator, which is simply a variable- speed drive, could not then be buitl both accurate and capable of carrying sufficient load to move numerous mechanical parts" (Bush 193, 450). The full realization of Thomson's idea did not come until fifty years later, when Vannevar Bush invented the torque amplifier for use in his differential analyzer."(Hook and Norman).