3 018 résultats
187747000Paris Gauthier-Villars 1877. 4to. No wrappers. In: "Comptes Rendus Hebdomadaires des Séances de L'Academie des Sciences" Tome 85 No 26 entire issue offered. With htitle and titlepage to vol. 85. Titlepage with a stamp on verso seen on front. Pp. 1185-1248. Cailletet's paper: pp. 1213-1214. Pictet's paper: pp. 1214-1217. With an illustration of the apparatus in the text. <br/><br/><em>First printing of these two milestone papers in Low-temperature Chemistry. This process of liquefaction of oxygene was achieved independently in the same year by Cailletet and Pictet using different methods. Cailletet used the Joule-Thomson effect; oxygen was cooled while highly compressed then allowed to rapidly expand cooling it further resulting in the production of small droplets of liquid oxygen. Pictet's method was more elaborate using compounds pumps. This compound is shown on the illustration in the text.Parkinson "Breakthroughs" 1877 C. - Magee "Source Books in Physics" p. 192-93 Cailletet and pp. 194-96 Pictet. </em> unknown
185847569Paris Mallet-Bachelier 1858. 4to. No wrappers. In: "Comptes Rendus Hebdomadaires des Séances de L'Academie des Sciences" Tome 46 No 24. Pp. 1121- 1173 entire issue offered. Couper's paper: pp. 1157-1160. A faint dampstain to right margins. <br/><br/><em>First appearance of this milestone announcement in organic chemistry - a longer memoir was published in "Annales de Chimie et de Physique" later in the same year 1858 - in which independently of Kekulé Couper introduces the CONCEPT OF BONDS represented as a dash or a dotted line in chemistry and also observes the very importent fact that carbon atoms forms the backbone of organic compounds."It was not till 1858 that a satisfactory theory of molecular constitution was advanced simultaneously and endependently by thwo young chemists Friedrich August Kekulé and Archibald Scott Couper. The theory of molecular constitution put foreward.by Couper and Kekulé rested on two main postulates the quadriivalency of carbon.and the capacity of the carbon atom for mutual linking or combining together to form a carbon "chain". By this hypothesis of the mutual linking together of carbon atoms - which waslater confirmed by experiment - it was possible to explain the formation of organic compounds containing a large number of carbon atoms. On the foundation of their postulates two postulates moreover they showed how the molecular constitution or mutual linking together of the atoms of a compound could be represented diagrammatically and the relstions between different compounds made readily intelligible. In his classic paper "On a New Chemical Theory" the paper offered here in its first appearance advanced beyond Kekulé by representing the constitutions of the compounds by means of GRAPHIC FORMULA in which as at the present day the valencies pf the atoms are represented by lines.his formulae are similar to those at present in use."Findlay pp. 34 ff"The theory of Kekulé and Couper gave the chemists the maeans of solving the problems of chemical constitution; and by means of the graphic or constitutional formulae it became possible to represent the molecular constitution of known compounds and to foresee the possible existence of isomeric compounds."Findlay.Parkinson "Breakthroughs" 1858 C. </em> unknown
182143117London W. Bulmer and W. Nicol 1821. 4to. No wrappers as extracted from "Philosophical Transactions" 1821 - Part I. Pp. 47-74. Clean and fine. <br/><br/><em>First appearance of Faraday's first breakthrough in chemistry as he here synthesized for the first time chloro-carbons."In 1820 he Faraday produced the first known compounds of chlorine and carbon C2Cl6 and C2Cl4. These compounds had been produced by the substitution of chlorine for hydrogen in "olefiant gas" our modern ethylene. This was the first substitution reaction; such reactions in the hands of Charles Gerhardt and August Laurent in the 1840's were to be used as a serious challenge to the dualistic electrochemical theories of J.J. Berzelius." DSB IV p. 531.Parkinson "Breakthrough" 1820 C. </em> unknown
183342378London Richard Taylor 1833. 4to. No wrappers as extracted from "Philosophical Transactions" 1833 - Part II. Pp. 253-284. Clean and fine. <br/><br/><em>First appearance of a main paper in the history of chemistry. "Graham's major contribution to inorganic chemistry is presented in a paper entitled "Researcheson thee Arseniates Phosphates." 1833 the paper offered.his elucidation of the differences between the three phosphoric acids and his discovery of their polybasicity provided Liebig with the clue to the modern concept of polybasic acids."A Source Book in Chemistry p. 333."In the Preface to.Graham's papers.Dr. Angus Smith has indicated in precise.language Graham's position in that chain of thinkers which includes Leucippus Lucretius Newton and Dalton Thorpe"Thomas Graham the Scottish Chemist first president of the Chemical Society of London and one of the chief founders of physical chemistry. He formulated Graham's Law of diffusion relating the rate of diffusion of gases to their densities discovered and named the process of dialysis used for separating colloids from crystalloids studied the three forms of phosphoric and arsenics acids that led to the developpement of the concept of polybasic acids a major contribution to inorganic chemistry the paper offered. </em> unknown
182349580Leipzig Johann Ambrosius Barth 1823. 8vo. Contemp. hcalf. Gilt spine and with gilt lettering. Some scratches to spine. In: "Annalen der Physik und der Physikalischen Chemie. Hrsg. Ludwig Wilhelm Gilbert" Bd. 13 = Bd. 73 der Reihe. 12444 pp. 1 folded table and 5 engraved plates. Small stamp to verso of titlepages. Internally clean and fine. Wöhler's paper: pp. 157-172. <br/><br/><em>First printing of Wöhler's importent paper in which he in reality for the first time synthezised an organic substance leading to his historic preparation of "artificial" urea in 1828 "Ueber künstliche Bildung des Harnstoffs". This broke down the old distinction between organic and inorganic substances. "This was the first synthesis of an organic compound and this accomplishment is generally regarded as the beginning of organic chemistry."Sparrow "Milestones of Science" p.37 the 1828 paper."In his published paper the 1828 paper Wöhler referred to his work of 1823 the offered paper in which he had shown that cyanogen and aqueous ammonia yielded oxalic acid and a white crystalline solid that he now realized was urea. This and his new method he considered to be remarkable examples of the preparation "by art" of a substance of animal origin from inorganic materials."DSB.The volume contains other notable papers BECQUEREL: "Ueber die Electricitäts-Erregung durc Druck nach versuchen des herrn becquerel; ein bericht abgestatt. von Biot. Frei übersetzt von Gilbert" pp. 117-129. A pioneer paper on Piezoelectricity. SEEBECK "Notiz von neuen electrisch-magnetischen Versuchen des Herrn Seebeck. mitgeteilt von Hrn Oersted." pp. 430-32. Also papers by Heinr. Rose Döbereiner Lampadius Sertürner etc. etc. </em> unknown
2009Atlantic-9781847558374RSC 2009. Hardcover. New. RSC hardcover
2009Atlantic-9781847558374RSC 2009. Hardcover. New. RSC hardcover
2010Atlantic-9781847550392RSC 2010. Hardcover. New. RSC hardcover
2010Atlantic-9781847550392RSC 2010. Hardcover. New. RSC hardcover
2010Adhya-9781849730563RSC 2010. Hardcover. New. RSC hardcover
2010Adhya-9781849730563RSC 2010. Hardcover. New. RSC hardcover
6e2932Hüthig & Wepf Verlag. Basel 1991 - 1997. Zusammen ca. 3300 S. neue Leineneinbände mit goldgeprägten Rückentiteln Beiheft mit einigen Knickspuren/ Name auf Vorsatz/ teils leicht bestoßen. unknown
2001x-0854043284Turpin Dist 2001. Hardcover. New. 550 pages. 9.21x6.30x1.50 inches. Turpin Dist hardcover
2004x-0854043381Turpin Dist 2004. Hardcover. New. 464 pages. 9.21x6.38x1.26 inches. Turpin Dist hardcover
1999x-0854043187Royal Society of Chemistry 1999. Hardcover. New. 480 pages. 8.74x5.75x1.65 inches. Royal Society of Chemistry hardcover
2002x-0854042334Royal Society of Chemistry 2002. Hardcover. New. 430 pages. 8.58x5.75x1.57 inches. Royal Society of Chemistry hardcover
2001x-0854042326Turpin Dist 2001. Paperback. New. 382 pages. 9.13x6.14x1.02 inches. Turpin Dist paperback
2001x-0854042288Turpin Dist 2001. Hardcover. New. 454 pages. 9.13x6.14x1.18 inches. Turpin Dist hardcover
1998x-0854042172Royal Society of Chemistry 1998. Hardcover. New. 438 pages. 8.80x5.50x1.20 inches. Royal Society of Chemistry hardcover
1997x-0854042237Turpin Dist 1997. Hardcover. New. 438 pages. 9.13x6.06x1.10 inches. Turpin Dist hardcover
2004x-0854042423Turpin Dist 2004. Hardcover. New. 330 pages. 9.13x6.22x0.94 inches. Turpin Dist hardcover
2003x-0854042385Turpin Dist 2003. Hardcover. New. 416 pages. 9.13x6.22x1.10 inches. Turpin Dist hardcover
1999x-0854042229Turpin Dist 1999. Hardcover. New. 414 pages. 8.80x5.50x1.20 inches. Turpin Dist hardcover
17856982646J. Murray 1785. This is an ex-library book and may have the usual library/used-book markings inside.This book has hardback covers. In good all round condition. No dust jacket. Re-bound by library. Full cloth covers. Gilt lettering on backstrip. Foxing present within. Tightly bound. Please note the Image in this listing is a stock photo and may not match the covers of the actual item700grams ISBN: J. Murray hardcover
1930ZB391106Prague: 1930-75. volumes 2-7 11 13-16 18-19 25-40; complete volumes partly bound ex library good-very good price is for the lot;. - If you are reading this this item is actually physically in our stock and ready for shipment once ordered. We are not bookjackers. Buyer is responsible for any additional duties taxes or fees required by recipient's country. Photos available upon request. Prague: unknown