"THOMSON, WILLIAM (LORD KELVIN) & JAMES PRESCOTT JOULE. - THE JOULE-THOMSON EFFECT DISCOVERED.
Reference : 42715
(1853)
(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.
"THOMSON, WILLIAM (LORD KELVIN) - AND JAMES THOMSON. - THE ""HARMONIC ANALYZER"", THE FIRST AUTOMATIC ANALOG COMPUTING MACHINE.
Reference : 43524
(1876)
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).
"THOMSON, WILLIAM (LORD KELVIN) and J.P. JOULE. - THE JOULE-THOMSON EFFECT.
Reference : 48811
(1853)
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.
Cambridge, Macmillan and Co., 1846. 8vo. Bound with the original front wrapper in contemporary half calf with black and red title labels to spine with gilt lettering. In ""The Cambridge and Dublin Mathematical Journal"", Vol. I [1], (Being Vol. V [5], of the Cambridge Mathematical Journal), 1846. Bookplate pasted on to pasted down front free end-paper and library code written in hand to lower part of spine. Library cards in the back. A fine and clean copy. Pp. 75-96. [Entire volume: IV, 288, VIII pp.].
First English translation (and first translation in general) with 'considerable additions' (as stated on p. 75) of Thomson's highly influential paper in which he for the very first time occupies himself with - and anticipates the invention of - the quadrant electrometer, the portable electrometer, and the absolute electrometer. ""When resident in Paris he published in Lionville's Journal a paper [first publication of the present], in which he examined the experiments and deductions of Sir. W. Snow-Harris. This investigator had made an experimental examination of the fundamental laws of Coulomb. Thomson showed by pointing out the defects of Harris' electrometer that the results, instead of disproving these laws, actually confirmed them, so far as they went, from this examination dates Thomson's interest in electrometers, which led to the invention of the quadrant electrometer, the portable electrometer, and the absolute electrometer. "" (Lectures on Ten British Physicists of the Nineteenth Century, P. 57).""Thomson's extensive contact with Liouville led him to think more deeply about electrical theory. Liouville had heard of Faraday's work in electrostatics, or at least of the aspects in which Faraday claimed to have found that electrical induction occurs in ""curved lines."" The conception seemed to conflict with the action-at-a-distance approach, and Liouville asked Thomson to write a paper clarifying the differences between Faraday on the one hand and Coulomb and Poisson on the other. This request prompted Thomson to bring together ideas he had been turning over in his mind during the previous three years.From Thomson's new point of view, both the French approach to electrical theory and that of Faraday should consist only of sets of mathematical propositions about the ""distribution of electricity"" on conducting bodies. Of Coulomb, who had never written like Poisson of the ""thickness"" of the electrical layer, Thomson said that he had ""expressed his theory in such a manner that it can only be attacked in the way of proving his experimental results to be inaccurate."" He did not, therefore, believe that Coulomb's approach would stand or fall with the fate of the electrical fluid.Of course, it may be wondered how Thomson could have employed the phrase ""distribution of electricity"" without believing that some hypothetical entity is implicated. He did not think so, however. Instead, by 1845 he was drawing a distinction between a ""physical hypothesis"" and an elementary mathematical law."" By a physical hypothesis he meant an assumption concerning the physical existence of an unobservable entity like the electrical fluid or Faraday's contiguous dielectric particles. By an elementary mathematical law he meant a statement that can be directly applied in experiments because its referents are phenomenal entities and mathematical propositions about them. For example, when it is a question of the ""distribution of electricity"" a phrase that might appear in an ""elementary mathematical law,"" the actual subject concerns the effects produced when a proof-plane is applied to a point of an electrified conductor. The measure of those effects is the twist given to the torsion-bearing thread of an electrometer. Coulomb's laws, therefore, and also those aspects of Poisson's mathematical development of them that do not depend upon the conception of electricity as a physical fluid, were thus actually concise, mathematical laws applicable to the results of such experiments. They were not hypotheses concerning the nature of electricity."" (DSB)
(London, Richard Taylor, 1851). 4to. No wrappers as extracted from ""Philosophical Transactions"" 1851 - Part I. Pp. 247-268 a. pp. 269-285.
First appearance of Lord Kelvin's most importent paper on magnetism.""In Paris, Joseph Liouville (1809-1882) encouraged Thomson's professional interest in Michael Faraday, whom Thomson knew and interacted with in London, by suggesting that the reconciliation of Faraday's electrostatic experimental results and the views of the French mathematicians, Ampère, Coulomb, Poisson, etc., could be a fertile field of mathematical endeavor. Intrigued by Liouville's suggestion Thomson wrote several papers over the next few years based on Faraday's experimental results, including: On a Mechanical Representation of Electric, Magnetic and Galvanic Forces (1847). On the Mathematical Theory of Electricity (1848). On the Mathematical Theory of Magnetism (1851). (The paper offered).After receiving Maxwell's request for guidance, Thomson shared with him the challenge presented by interpreting Faraday's written experimental results using mathematical formalism. Faraday's work on electricity and magnetism intrigued Maxwell and he began his research by reading Thomson's papers on the subject.""(Alan T. Williams).
"THOMSON, WILLIAM (BARON KELVIN OF LARGS). - A NEW THERMO-ELECTRIC EFFECT.
Reference : 44047
(1856)
(London, Richard Taylor and William Francis, 1856). 4to. No wrappers as extracted from ""Philosophical Transactions"" Vol. 146 - Part III. Pp. 649-751 a. 58 textillustr. of experimental apparatus. Clean and fine.
First appearance of Lord kelvin's large account of his thermo-electric researches in which he found, that the Peltier-effect must be directly proportional to the absolute temperature in a circuit formed of two metals. ""This result, however, as Thomson well knew, was contradicted by the observations of Cumming, who had shown that when the temperature of the hot junction is gradually increased, the electromotive force rises to a maximum value and then decreases. The contradiction led Thomson to PREDICT THE EXISTANCE OF A HITHERTO UNRECOGNIZED THERMO-ELECTRIC PHENOMENON - namely, a reversible absorption of heat at places in the circuit other than the junctions.(Whittaker ""A History of the Theories of Aether & Electricity"", pp. 237-38).
[ Printed for G. G. J. and J. Robinson] - ANONYMOUS ; [ THOMSON, William ]
Reference : 63407
(1788)
8vo harcover, full contemporary calf binding, Printed for G. G. J. and J. Robinson, London, 1788, X-367 pp. with 6 plates
A charming travel trough Scotland and England, attributed to the scottish minister and historian William Thomson (1746-1817), who often wrote under the pseudonym of Captain Thomas Newte. Good (binding slightly rubbed, engraved ex-libris Taylor, with his motto : "Majorum Pietate", inscribed "W J Swift 1799" on title page, some foxing).
(London, Taylor and Francis, 1856). 4to. No wrappers as extracted from ""Philosophical Transactions"" 1856 - Vol. 146 - Part II. Pp. 481-498.
First edition of an importent paper on the elasticity of materials. ""The most importent contributions made to physics by Thomson during the first years of his work at Glasgow were in the field of thermodynamics, buthe also obtained a considerable amount of experimental data in strenght of materials and in the theory of elasticity. The result were later used in the preparation of articles which appeared in the ninth edition of the Encyclopedia Britannica and they became widely read and greatly valued.""(Timoshenko p. 263).Lord Kelvin ""was generally looked upon as the founder of British physics. Together with helmholtz in germany, he had been the foremost figure in transforming - indeed, in creating - the science of physics as it was known in 1900.""(DSB XIII, p. 387).
Paris, Berger-Levrault, 1981. 206 pages. (27x20 Cm). Cartonnage d'éditeur. Couverture imprimée et illustrée en couleurs. Plats frottés. Belle conservation avec de très nombreuses illustrations en couleurs in-texte et pleine-page. Exemplaire frais.
Zurich, éditons Silva, 1987. In-4, cartonnage titré or, jaquette couleurs. En belle condition. Index français-latin en fin de volume.
Comment utiliser ce livre - Le royaume végétal - Les meilleures plantes médicinales - Lexique - Maladies et troubles divers - L'héritage de la médecine traditionnelle - Les techniques de base de l'herboristerie - L'efficacité des substances thérapeutiques végétales. * La librairie la Bergerie est en plein déménagement - Nous ne sommes donc plus en mesure d’expédier certains livres dans l'immédiat. Si le livre qui vous intéresse est disponible immédiatement, une remise de 10% sera accordée jusqu'à fin décembre - Si ce n'est pas le cas et que vous n’êtes pas pressés, vous pouvez passer commande et, dès que les livres seront à nouveau accessibles, nous traiterons vos demandes, avec une remise de 20% pour vous remercier de votre patience *
Chapman and Hall Malicorne sur Sarthe, 72, Pays de la Loire, France 1997 Book condition, Etat : Bon paperback, editor's blue wrappers, illustrated by a figure with a red bridge and wave In-4 1 vol. - 558 pages
many black and white illustrations, mainly figures, few photographies Fourth edition, reprinted, 1997 Contents, Chapitres : Table, preface, units, xii, Text, 546 pages - Oscillatory motion - Free vibration - Harmonically excited vibration - Transient vibration - Systems with two or more degrees of freedom - Properties of vibrating systems - Lagrange's equation - Computational methods - Vibration of continuous systems - Introduction to the finite element method - Mode-summation procedures for continuous systems - Classical methods - Random vibrations - Nonlinear vibrations - Appendices - Answers to problems - Index very few folding tracks on the wrappers which remains near fine, else near fine copy, no markings, inside is fine
London, Longmans, Green and Co., (1957). Orig. full cloth. Dustjacket. IX,230 pp.
(London, Harrison and Sons, 1880). 4to. No wrappers as extracted from ""Philosophical Transactions"", Vol. 1710 - Part I. Pp. 55-85, 12 plates and textillustrations.
First printing. In the paper Lord kelvin describes the effects of magnetization on different metals, reaching a notion of ""critical stress"".
Book Club Associates. 1971. In-8. Relié. Bon état, Couv. convenable, Dos plié, Intérieur acceptable. 1006 pages. Illustré de très nombreux dessins et de très nombreuses photos en noir et blanc (et en couleur), dans et hors texte. Texte sur 2 colonnes. Jaquette abîmée.. Avec Jaquette. . . Classification Dewey : 420-Langue anglaise. Anglo-saxon
29th edition. With 356 Illustrations in the text and 24 plates (in 4 colour). Classification Dewey : 420-Langue anglaise. Anglo-saxon
, London, Sir Isaac Pitman & Sons, Ltd 1926, rel. demi-basane noire avec coins, tit. doré sur dos lisse, impression en double colonne, (couv. restaurée avec ruban adhésif, marque de bibl., coins lég. émoussés avec ptt mq.), intérieur très frais, VII-710p.
Phone number : 01 43 29 46 77
Zürich, Silva, 1987, in-4to, 206 p. richement ill. en couleurs, reure en toile original + jaquette ill.
Image disp.
Phone number : 41 (0)26 3223808
"THOMSON, JOHN (+) WILLIAM FLOYD (+) FELICE BEATO (+) HIPPOLYTE ARNOUX.
Reference : 60283
(1872)
1870-1872. Folio-oblong (395 x 320 mm). Original brown half calf, recased - the original cloth (with gilt lettering to the front) has been expertly mounted on to the new boards, and most of the original gilt leather spine has been preserved over a perfectly matching new lovely brown half calf. ""Tordenskjold / 1870 - 1873"" in gilt lettering, partly worn of, to front board. End-papers renewed. 71 albumen print in various sizes and by various photographers (see below) mounted on 59 contemporary white cardboard leaves (measuring 370 x 310 mm), all re-hinged. The album was water-damaged at some point, but has been expertly and neatly retored and appears in overall very good condition with good tones. 1, Oval photo of Tordenskjold (205 x 60mm) 2, Photo of Tordenskjold (190 x 143 mm) 3, Crew aboard Tordenskjold (200 x 14 mm) 4, Crew aboard Tordenskjold (157 x 128 mm) 5, Crew and equipment aboard Tordenskjold (228 x 176 mm) 6, Naval officers about Tordenskjold (167 x 130 mm). 7, 8 small photos of various places on one plate (274 x 190 mm) 8, The harbor of Port Said. By Hippolyte Arnoux (247 x 190mm) 9, Muddigging machines in the channel of Port Said. By Hippolyte Arnoux. (245 x 190mm) 10, Port Said. By Hippolyte Arnoux. 11, Malta (262 x 207 mm) 12, Two photos of Malta (each measuring 134 x 120 mm) 13, Two photos of Gibraltar (Each measuring 148 x 114) 14, Deep Water Bay, Hong Kong (194 x 130 mm). 15, Two photos depicting telegraph-house and ships in Deep Water Bay (each measuring 150 x 112) 16, Boat with people. By Felice Beato, coloured (294 x 235 mm) 17, House next to river. By John Thomson, December 1870 (278 x 225 mm) 17, Seamen’s hospital in Hong Kong. (261 x 190 mm) 18, Hong Kong. (270 x 195 mm) 19, Hong Kong, by Floyd (270 x 192 mm) 20, Hong Kong, by Floyd (240 x 190 mm) 21, Two photos of sites in Hong Kong (each measuring 165 x 127 mm) 22, Five Persians in Hong Kong (215 x 244 mm) 23, Group of women in Hong Kong, (326 x 215 mm) 24, Two photos of Hong Kong harbour, one photo depicting “Cella” (182 x 105" 130 x 98 mm) 25, Villa at Canton. (264 x 190 mm) 26, Pagode in Xuexiu Park, Guangdong. By William Pryor Floyd. (195 x 246 mm) 27, Boats in Canton. William Pryor Floyd,(270 x 223 mm) 28, Pou-Ting-Qua’s Garden, Canton. By John Thomson. (289 x 230 mm) 29, Fields in Canton. (205 x 155 mm) 30, Houses in Canton. (267 x 210 mm) 31, Canton harbor. By John Thomson. (245 x 202 mm) 32, Boat on the Canton river. (274 x 204 mm) 33, Wall around Canton. (260 x 200 mm). 34, Boats in Canton (293 x 225) 35, Telegraphstation in Woosung. (150 x 110 mm) 36, Boats in Foochow. (287 x 232 mm) 37, Temple in Foochow. By John Thomson (190 x 237 mm) 38, Pagode in Foochow. Presumably by John Thomson. (287 x 220 mm). 39, Tomb of Fou Tcheou. By John Thomson. (290 x 225 mm). 40, Temple in Shanghai. (237 x 188 mm). 41, Shanghai. (232 x 176 mm) 42, Chaochow bridge, Kwangtung. By John Thomson. (266 x 204 mm). 43. Panorama of Nagasaki consisting of two photos. (371 x142 mm) 44, Two photos of Nagasaki. Felice Beato. (Each measuring 169 x 119 mm). 45, Two photos from Nagasaki. Presumably by Felice Beato. (Each measuring 165 x 118 mm) 46, Two photos from Nagasaki. Presumably by Felice Beato. (Each measuring 165 x 118 mm) 47, Temple in Nagasaki. Presumably by Felice Beato. (169 x 118 mm). 48, Photo of Japanese woman in kimono. By Felice Beato. (205 x 255 mm). 49, Two photos of officers in house in Yokohama. (162 x 125 mm). 50, The Abbot and Monks of Kushan Monastery. By John Thomson. (287 x 204 mm). 51, Wooden structure, presumably Nagasaki. Presumably by Felice Beato. (270 x 208 mm) 52, Pagode, presumably Nagasaki. Presumably by Felice Beato. (234 x 185 mm) 53, Cityscape with lake, presumably Nagasaki. Presumably by Felice Beato.. (280 x 228 mm). 54, Two photos, cemetery and stairs to temple. By Felice Beato. (Each measuring 168 x 118 mm). 55, People standing outside house, presumably Hong Kong. By John Thomson. (185 x 155 mm) 56, Guangzhou Great Norh Gate, Canton. By John Thomson (245 x 156 mm). 57, Two photos, one of the building of a telegraph station (presumably in Wladivostok) and a view of Wladivostok from the sea (154 x 123 130 x 99 mm). 58, Seascape of two ships. (130 x 140 mm). 59, Ship laying for anchor. (170 x 123 mm)
Exceedingly rare photo-album documenting the Danish vessel Tordenskjold’s mission in laying the very first telegraph cables in East Asia thereby connecting China and Japan to the global telegraph system. The album consists of photos taken aboard the vessel Tordenskjold, of Tordenskjold itself along with its crew, by an unknown photographer, and of photographs of the visited cities and surrounding areas by some of the finest photographers operating in East Asia at the time, such as John Thomson, William Floyd, Felice Beato and, in Egypt, Hippolyte Arnoux - all photographs presumably brought home by William Lund, Captain on board Tordenskjold. The present album depicts a pivotal moment in international relations and communications and does so through some of the earliest photos taken in China, Japan, and of the excavation of the Suez Canal. Submarine telegraph cables were first brought to China by Danish magnate Carl Fredrick Tietgen (1829-1901), a Dane who in 1870 set up the Great Northern China and Japan Extension Company. The company was created to build and operate a telegraph cable linking Hong Kong, Shanghai, and Japan with each other, and on to Vladivostok on Russia's east coast. From Vladivostok, a cable ran along the Trans-Siberian Railway, linking Hong Kong to telegraph networks in Britain, Europe, and America. Tietgen fought off strong, primarily English, competition and eventually won the concession to lay and operate new telegraph cables connecting Russia, China and Japan. It was a grand and risky project Tietgen and his partners were embarking on. Undersea cables would need to be laid in waters that had not been sounded, and cables were to be brought ashore on coasts where the prevailing conditions were not known and it was uncertain whether the respective governments would grant permission. Everything – cables, stations, wire, and apparatus – was to be brought from Europe and had to function as a coherent system. Two chartered English steamships ‘Cella’ and ‘Great Northern’ were to transport and lay the cables, and the propeller-driven Danish frigate ‘Tordenskjold’ was to sound the waters near Nagasaki and Vladivostok and also carry a relative small amount of cables and keep uninvited guests - which the South China Sea had plenty of – away. “As a small nation with negligible military resources, Denmark could provide a useful – politically neutral – centre for telegraph links to major European powers such as Britain, Russia and the emerging new power of Prussia. The Danes were able to utilize the technical know-how which had been accumulated with great difficulty, and occasionally heavy economic losses, in the preceding decades by British and American entrepreneurs. The competition between the Danish and British groups of telegraph entrepreneurs for first access to the Chinese market was preliminarily resolved when the directors of the two companies negotiated a secret agreement in May 1870. The Danish group had acquired an advantage in terms of timing by winning the Russian concession in 1869, and had to cover shorter distances by sea cables from Vladivostok to Nagasaki and Shanghai. But the British group had the advantage of better access to capital and a more extensive technical experience with submarine cable manufacture and operation. The essence of the agreement was that the line between Hong Kong and Shanghai should be established and operated by the Great Northern the companies would share the income for telegrams which passed this section of the line and they would run offices in Hong Kong and Shanghai jointly. The agreement provided the Danes with assured landing rights in Hong Kong and with British diplomatic support for attempts to secure landing rights in China. Permission to bring submarine telegraph cables into Chinese treaty ports was obtained in 1870 from the Chinese Government (i.e., the office of foreign affairs, known as the Zongli Yamen) by the British Minister in Peking, Thomas Wade. At the same time, the Danish government had dispatched a diplomatic envoy, Chamberlain Julius Sick, at the Great Northern’s expense to China and Japan to obtain the necessary concessions. The cable between Hong Kong and Shanghai was laid in 1870–1871 with the assistance of the frigate Tordenskjold, which the Danish government had generously allocated to the task. The Great Northern had a great deal of technical problems with the cables they had bought from the British manufacturer since the quality of the insulation was not as good as expected. Therefore, the official opening of the line between Shanghai and Hong Kong was delayed until April 1871. During the remainder of that year the company struggled to finish cable sections from Shanghai to Nagasaki, and from Nagasaki to Vladivostok. Communication between Shanghai and Europe via these cables and the Russian Siberian lines was officially inaugurated on 1 January 1872.” (Erik Baark: Wires, Codes and People The Great Northern Telegraph Company in China 1870–90) The album covers and illustrates one on the most fascinating periods in the process of internationalization in the late modern period: The Suez Canal had just opened and ‘Tordenskjold’ was the first Danish ship to sail through it. The submarine cables linked the major hubs in East Asia to the Western world and helped facilitate an unprecedented growth in the region. Overall, the laying of the submarine cable in 1870-71 was a transformative event for East Asia in general. It played a critical role in the area's economic and social development, helping to make it the global commercial center it is today.
Librairie Hachette et cie, 1912. In-4 relié de pleine percaline estampée (26 x 19 cm), décor et ritre doré sur le dos et au premier plat, VIII-190 (2) pages, Illustré de quarante illustrations en couleurs à pleine page contrecollées et sous serpentes, de Hugh Thomson : (1860-1920) est un aquarelliste et illustrateur anglais particulièrement connu pour ses dessins de style XVIIIe. Outre des publications dans la presse, Hugh Tomson illustra plusieurs romans d'auteurs classiques comme Jane Austen, Fanny Burney, Gaskell, ou de contemporains comme Austin Dobson et J. M. Barrie.- 1,4kg.- Très bon état.
Librairie Hachette et Cie à Paris. Imprimerie Ballantyne and Co. LTD. Londres, 1912. Cartonnage relié de pleine percaline bleu-turquoise estampé, ornements et titre dorés, tête dorée, orné de quarante illustrations en couleurs hors-texte par Hugh THOMSON, sous serpentes légendées.- (1860-1920) est un aquarelliste et illustrateur anglais particulièrement connu pour ses dessins de style XVIIIe. Outre des publications dans la presse, Hugh Tomson illustra plusieurs romans d'auteurs classiques comme Jane Austen, Fanny Burney, Gaskell, ou de contemporains comme Austin Dobson et J. M. Barrie.-1330g.C. - Très jolies illustrations : Le dessinateur, Contemporain des frères Brock, partage leur goût pour la ligne, le détail et l'atmosphère d'époque. Il crée des séries de personnages qui participent à la création de l'Englishness et à la nostalgie d'une Angleterre rurale plus ou moins mythique. Peu de rousseurs, couverture en très bon état, bel exemplaire.
Chelsea Publishing Company, New York Malicorne sur Sarthe, 72, Pays de la Loire, France 1976 Book condition, Etat : Bon hardcover, editor's binding, full red clothes, no D.-J. as issued In-8 2 vol. - 1327 pages
Volume 1 : 1 plate in frontispiece (Lord Kelvin in 1897), 7 other plates (complete, plates I to XVI) and illustrations - Volume 2 : 1 plate in frontispiece (Lord Kelvin and his Compass), 7 other plates (complete, plates IX to XVI) and illustrations (complete of the 16 plates) Reprint 1976 of the 1910's Edition Contents, Chapitres : Volume 1. Foreword, Preface, Contents, List of plates, xx, Text, 584 pages (Pages 1 to 584) - Volume 2. Contents, List of plates, xi, Text, pages 585 to 1297 (712 pages) - Volume 1. Childhood and upbringing at Glasgow - Cambridge - Postgraduate studies at Paris and Petershouse - The Glasgow chair - The young professor - Thermodynamics - The laboratory - The Atlantic telegraph : Failure - Strenuous years - The Epoch-making treatise - The Atlantic telegraph : Success - Labour and sorrow - The geological controversy - Later telegraphic work : The siphon recorder - Volume 2. The Lalla Rookh, the British Association and the Hooper - In the Seventies - Navigation : The Compass and the Sounding Machine - Gyrostatics and Wave Motion - In the Eighties - The Baltimore Lectures - Gathering up the threads - The Peerage - The Julilee : Retirement - The great comprehensive theory - Views and opinions - The closing years - Appendices : List of distinctions, academic and other - Printed books, Scientific communications and addresses - List of patents - Index - William Thomson, mieux connu sous le nom de Lord Kelvin (Belfast, 26 juin 1824 - Largs, 17 décembre 1907), 1er baron Kelvin, est un physicien britannique d'origine irlandaise reconnu pour ses travaux en thermodynamique. Une des innovations de Kelvin est l'introduction d'un « zéro absolu » correspondant à l'absence absolue d'agitation thermique et de pression d'un gaz, dont il avait remarqué les variations liées selon un rapport linéaire. Il a laissé son nom à l'échelle de température, dite absolue, ou température « thermodynamique », mesurée en kelvins. Son titre de Lord Kelvin fait référence à la rivière du même nom, qui coule à proximité de son laboratoire à l'université de Glasgow. (source : Wikipedia) Complete set in 2 volumes of Lord Kelvin's Life by Silvanus P. Thompson, near fine copy, no markings, few foxings on the right side of the page but not inside, else fine copy, no markings, complete of the 16 plates of illustrations (high quality reprint, Chelsea)
(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).
1893 Paris, Gauthier-Villars et fils, 1893. In-8, demi-chagrin lie de vin , dos lisse, orné de faux nerfs, titre auteur entre des filets dorés, ix, 379 p., diagrammes et illustrations in et hors texte. Première et unique traduction française de "Popular lectures and addresses" du célèbre physicien britannique, mieux connu en tant que Lord Kelvin
Ray E2
"THOMSON, THOMAS & WILLIAM HYDE WOLLASTON. - THE LAW OF MULTIPLE PROPORTIONS CONFIRMED - THE FOUNDATIONS OF ATOMIC THEORY.
Reference : 42626
(1808)
(London, W. Bulmer and Co., 1808). 4to. No wrappers as extracted from ""Philosophical Transactions"" 1808 - Part I. Pp. 63-95 (Thomson) and pp. 96-102 (Wollaston:). Clean and fine.
First appearance of these two historical papers in chemistry in which Thomson and Wollaston, independently, presents experimental proofs of John Dalton's ""Law of Multiple Proportions"", and thereby laying the foundations of the Atomic Theory. - These demonstrations went far to influence chemists favorably toward Dalton's atomic theory. ""In January 1808 Thomson was the first to submit an experimental illustration of the law of multiple proportions, doing so at least four months before the publication of Dalton's ""New System of Chemistry Philosophy"" (1808). This paper, ""On Oxalic Acid"" also established a usefull method of determining empirical formulas.""(DSB XIII, p. 373).""This paper is also importent as he here introduces quantified chemical symbolism for compounds, a compound with, for instance, two parts oxygen (w) and one part carbon (c) being denoted by 2w + c."" (Parkinson in ""Breakthroughs"", 1808 C).""In 1808 he (Wollaston) described his experiments on carbonates, sulfates, and oxalates, which proved that the composition of these substances was regulated by the law of multiple proportions. These additional instances of the law were easely verifiable and were often mentioned as standard examples. Wollaston accepted that his findings were merely particular instances of Dalton's assertion that the atoms of elements united one to one, or by simple multiple relation.""(DSB XIV, p.488).
"THOMSON, THOMAS & WILLIAM HYDE WOLLASTON. - THE LAW OF MULTIPLE PROPORTIONS CONFIRMED - THE FOUNDATIONS OF ATOMIC THEORY.
Reference : 45166
(1808)
London, W. Bulmer and Co., 1808. 4to. No wrappers as extracted from ""Philosophical Transactions"" 1808 - Part I. Pp. 63-95 (Thomson) and pp. 96-102 (Wollaston:). Clean and fine. With titlepage to 1808, Part I.
First appearance of these two historical papers in chemistry in which Thomson and Wollaston, independently, presents experimental proofs of John Dalton's ""Law of Multiple Proportions"", and thereby laying the foundations of the Atomic Theory. - These demonstrations went far to influence chemists favorably toward Dalton's atomic theory. ""In January 1808 Thomson was the first to submit an experimental illustration of the law of multiple proportions, doing so at least four months before the publication of Dalton's ""New System of Chemistry Philosophy"" (1808). This paper, ""On Oxalic Acid"" also established a usefull method of determining empirical formulas.""(DSB XIII, p. 373).""This paper is also importent as he here introduces quantified chemical symbolism for compounds, a compound with, for instance, two parts oxygen (w) and one part carbon (c) being denoted by 2w + c."" (Parkinson in ""Breakthroughs"", 1808 C).""In 1808 he (Wollaston) described his experiments on carbonates, sulfates, and oxalates, which proved that the composition of these substances was regulated by the law of multiple proportions. These additional instances of the law were easely verifiable and were often mentioned as standard examples. Wollaston accepted that his findings were merely particular instances of Dalton's assertion that the atoms of elements united one to one, or by simple multiple relation.""(DSB XIV, p.488).
Paris Hachette 1912 In-4 (h.26 cm.), viii-190-(2) pp. percaline bleue estampée. Edition illustrée de quarante illustrations en couleurs à pleine page contrecollées. Bon exemplaire (malgré de petites déchirures marginales consolidées à 3 feuilles et d'infimes marques de frottement à la reliure).
Hugh Thomson (1860-1920) est un aquarelliste et illustrateur anglais particulièrement connu pour ses dessins de style XVIIIe. Outre des publications dans la presse, Hugh Tomson illustra plusieurs romans d'auteurs classiques comme Jane Austen, Fanny Burney, Gaskell, ou de contemporains comme Austin Dobson et J. M. Barrie. (Simon Houfe, The Dictionnary of 19th Century British Book Illustrators). Libraire membre du S.L.A.M. (Syndicat national de la Librairie Ancienne et Moderne) et de la L.I.L.A. (Ligue Internationale de la Librairie Ancienne). N'hésitez pas à prendre contact par mail pour des photographies et des détails supplémentaires, pour des recherches ou des estimations de livres anciens et rares.