Paris, Masson, 1876. vii-192 pp., 5 planches hors-texte et 29 échantillons de tissus teints encollés dans le texte. (Suivi de) BOLLEY et KOPP. Traité des matières colorantes artificielles dérivées du goudron de houille... 1874. vii-444 pp., 26 figures. 2 ouvrages en un volumes in-8, reliure d’époque demi- basane verte, dos à nerfs orné. (dos bruni). (C5)
1930 Chez Gaston Doin et Cie éditeurs collection des actualités de médecine pratique. broché, 239p. Bon état, un accroc en haut du dos.
Avec 22 figures dans le texte et 2 planches hors texte. Table : définition des rayons ultra-violets et infra-rouges - appareillage - technique générale des irradiations ultra-violettes et infra-rouges - thérapeutique - incidents et accidents.
Phone number : 04 76 97 79 28
1889 Gauthier-Villars et Fils, 1889, 334 p., broché, manquent les 6 planches figurant en fin de volume. Dos insolé, haut et bas du dos émoussés, des mouillures sur le second plat et sur le bas du dos, dos fragile, un mors en partie fendu, quelques pages roussies, sinon intérieur propre, pages non coupées (jamais lu).
Sans les planches. Merci de nous contacter à l'avance si vous souhaitez consulter une référence au sein de notre librairie.
Bln., 1833. Cont.hcalf. Titlelabel with schratches. XII, 196 pp.
Paris, Crochard et Comp., 1837. 8vo. In half cloth with gilt lettering to spine. In: ""Annales de Chimie et de Physique, Par MM. Gay-Lussac et Arago."", tome 64, Cahier 2 (Fevrier 1837). Entire issue offered. Light occassional brownspotting. No institutional stamps, otherwise fine. Wöhler a. Liebig's papers: pp. 185-209 a. pp. 209-217. [Entire issue:] 447 pp.
First appearance of this classic paper in organic chemistry in which Wöhler and Liebig showed how Amygdalin could be decomposed by a vegetable emulsion, the first example of a glycoside. The papers were issued at the same time in ""Annalen der Physik und Chemie"".""The conclusions which you have drawn from the investigation of bitter-almond oil,"" wrote Berzelius to Liebig and Wöhler, ""are certainly the most importent which have so far been reached in the domain of vegetable chemistry, and give promise of shedding an unexpected light over this part of the science...The facts which you have set forth inspire such reflections that they may be regarded as the dawn of a new day in vegetable chemistry.""(Berzelius-Wöhler Briefwechsel).""During the years that Liebig was preoccupied with the ether theory and with organic acids, he also carried out two importent investigations with Wöhler. In october 1836 Wöhler wrote that he had discovered a way to transform amygdalin to oil of bitter almonds and hydrocyanid acis, by distilling it with manganese and sulfuric acid, and he invited Liebig to join in pursuing the topic. Two days later he made a more remarkable discovery. It had occurred to him that perhaps thetransformation of amygdalin could be effected by the albumin in the almonds, in a manner similar to the action of yeast in sugar...Wöhler suspected that the decomposition was an example of what Berzelius had recently defined as catalysis. Liebig and Wöhler then divided up the detailed examination of the properties and composition of amygdalin. They precipitated from the emulsion of almonds a substance which when dissolved retain its action. They named the active substance ""emulsion"". Its effectiveness in very small quantities confirmed that it acted like yeast.""(DSB VIII, p. 342).
"WÖHLER, F. et J. LIEBIG. - A GROUNDBREAKING PAPER ON ORGANIC COMPOUNDS.
Reference : 48330
(1832)
Paris, Crochard, 1832. No wrappers. In: ""Annales de Chimie et de Physique"", 2e Series, vol. 51, Cahier 3. With titlepage to vol. 51.Pp. 225-336 a. 1 engraved plate. (Entire issue offered with titlepage to vol. 51). Wöhler a. Liebig's paper: pp. 273-308 a.1 engraved plate - Berzeliu's paper: pp. 308-314. Some scattered brownspots.
First apperance, but together with the publication in Liebig's Annalen the same year, of Wöhler and Liebig's milestone paper in which they brought order to the complexity of organic compounds. The paper was followed with berzelius' letter in which he praised the authors for their remarkable work and he indicates how their compounds could be represented by formulas. The paper initiated a search for common radicals in other organic compounds from chemists all over the world.""The first significent step in finding the order behind the bewildering complexity of organic compounds was made by Wöhler and Liebig in their joint researc on benzaldehyde (oil of bitter almonds) and its derivatives. Here for the first time it was clealy seen that a group of atoms could remain intact throughout a series of reactions and function as a whole - as a radical..... Gay-Lussac's researches on cyanogen confirmed the possibility of the existence of organic radicals, but they first became really significant with the this study of Wöhler and Liebig."" (Leicester & Klickstein ""A Source Book in Chemistry 1400-1900"", pp. 312 ff.).Parkinson ""Breakthroughs"" 1832 C. - The issue contains also an importent paper by PIERRE JEAN ROBIQUET ""Nouvelles Observations sur les principaux Produits de l'Opium"", pp. 225-266, which constitute the ISOLATION OF CODEINE. - Garrison & Morton: 1853.
"WÖHLER, F. et J. LIEBIG. - THE DISCOVERY OF ""EMULSIN"" A MAIN WORK IN ORGANIC CHEMISTRY.
Reference : 48086
(1837)
Paris, Crochard et Comp., 1837. Orig. printed wrappers. No backstrip. In: ""Annales de Chimie et de Physique, Par MM. Gay-Lussac et Arago."", tome 64, Cahier 2 (Fevrier 1837). Pp. 113-224. (Entire issue offered with printed wrappers.). Wöhler a. Liebig's papers: pp. 185-209 a. pp. 209-217.
First appearance of this classic paper in organic chemistry in which Wöhler and Liebig showed how Amygdalin could be decomposed by a vegetable emulsion, the first example of a glycoside. The papers were issued at the same time in ""Annalen der Physik und Chemie"".""The conclusions which you have drawn from the investigation of bitter-almond oil,"" wrote Berzelius to Liebig and Wöhler, ""are certainly the most importent which have so far been reached in the domain of vegetable chemistry, and give promise of shedding an unexpected light over this part of the science...The facts which you have set forth inspire such reflections that they may be regarded as the dawn of a new day in vegetable chemistry.""(Berzelius-Wöhler Briefwechsel).""During the years that Liebig was preoccupied with the ether theory and with organic acids, he also carried out two importent investigations with Wöhler. In october 1836 Wöhler wrote that he had discovered a way to transform amygdalin to oil of bitter almonds and hydrocyanid acis, by distilling it with manganese and sulfuric acid, and he invited Liebig to join in pursuing the topic. Two days later he made a more remarkable discovery. It had occurred to him that perhaps thetransformation of amygdalin could be effected by the albumin in the almonds, in a manner similar to the action of yeast in sugar...Wöhler suspected that the decomposition was an example of what Berzelius had recently defined as catalysis. Liebig and Wöhler then divided up the detailed examination of the properties and composition of amygdalin. They precipitated from the emulsion of almonds a substance which when dissolved retain its action. They named the active substance ""emulsion"". Its effectiveness in very small quantities confirmed that it acted like yeast.""(DSB VIII, p. 342).
(Paris, Crochard, 1824). 8vo. Without wrappers. Extracted from 'Annales de Chimie et de Physique', Series 2 - Volume 27. Titlepage to vol. 27 and pp. 196-200. Some faint brownspots.
First appearance of an importent historical paper in chemistry.""Wöhler's analysis of cyanates appeared in 1824, (the paper offered), shortly after Liebig's analysis of fulminates. Gay-Lussac, then editor of the 'Annales de Chimie', noted that the analysis of cyanic and fulminic acid were identical - the first case of isomerism. This incident brought Wöhler and Liebig together, and there followed many years of collaboration in which the two studied the chemistry of benzaldehyde and numerous other compounds.""(Klickstein ""A Source in Chemistry.."", p. 309.Parkinson ""Breakthroughs"", 1823 C.
Paris, G. Masson, 1878, in-8°, XI + 803 p., rousseurs, ex-libris ms. sur titre ‘Alexis Forel’, reliure en demi-cuir d’époque.
Fittig was essentially an experimentalist, with little interest in theoretical chemistry. He wrote a massiv textbook of chemistry, publ. in 1871, this went through a number of editions, and he edited the 10th éd. of Wöhler's textbook of organic chemistry. His bibliography lists 399 research papers. DSB. Dict. of sc. biogr. Vol. 5, p.12.
Phone number : 41 (0)26 3223808
(Leipzig, 1828). 8vo. Pages 253-56 extracted from volume 12 of Annalen der Physik und Chemie. Recent paper wrappers.
First edition of this foundation work of organic chemistry. The first synthetic preparation of an organic compound from inorganic materials. Wöhler's most important contribution to chemistry is his synthesis of urea by heating ammonium cyanate. This discovery destroyed the vitalistic theory which held that organic compounds could be produced only by living organisms, and led eventually to the brilliant results that have been achieved in attempts to synthesize other organic compounds. The work is generally regarded as being the beginning of organic chemistry. Dibner: Heralds of Science, no. 45. Sparrow: Milestones of Science, no. 197 Garrison & Morton, no. 671.
Göttingen, C. O. Zimmermannsche Kunsthandlung, (ca. 1850). Lithographie von G. Küstner auf Japanpapier, montiert. Bildformat: 16,5 x 21 cm. Blattformat: 29 x 41,5 cm.
Stärker gebräunt u. stockfleckig. 1 Ecke mit grösserem Wasserfleck (Lithographie über 1 x 1 cm betroffen aber fleckenlos).
"WÖHLER, FRIEDRICH & JUSTUS LIEBIG - CLASSIFYING ORGANIC COMPOUNDS.
Reference : 43321
(1832)
Leipzig, Johann Ambrosius Barth, 1832. Without wrappers as issued in ""Annalen der Physik und Chemie. Hrsg.von Poggendorff"", Bd. 26, Stück 2-3. Pp. 193-352 a. pp. 353-496 a. 3 folded engraved plates. (2 whole issues offered having titlepage to vol. 26).). Wöhler & Liebig papers: pp. 325-343 (2. issue) a. pp. 465-485 (3. issue). Both issues clean and fine.
First appearance (but also in ""Annalen der Chemie"") of these outstanding researches on the benzoyl radical. where the importence of ""radicals"" to organic chemistry is illustrated.""Along with his collegue, Friedrich Wöhler..who had already synthetized urea, Liebig wrote a famous paper (1832, the paper offered) in which he showed, for the first time, that a complex organic group pf atoms - a ""radicale"" as it is now called - is capable of forming a long series of compounds, behaving throughout as though it were an element. THE DISCOVERY IS OF PRIMARY IMPORTENCE FOR OUR CONCEPTION OF THE CHEMICAL CHANGES IN THE LIVING BODY.""(Singer in ""The Story of Living Things"" p. 374).""In their classic paper - which was actually written by Wöhler although Liebig is listed as coauthor - they summarized their achievements: ""...we make the general assertion that as a result of our experiments, it is established that there is a body, composed of three elements, that remains stable in the presence of reagents and that can be regarded not only as the radical of benzoic acid, bur perhaps with slight variatioons, as the radical of a large number of similar compounds.....Incidentally, many of the compounds they first prepared and described (such as benzoyl chloride) were importent in the future development of organic chemistry.""(DSB XIV, pp. 476-477). - Parkinson ""Breakthroughs"", 1832 C
Paris, G. Masson, 1878. Cont. hcalf. Gilt back. X,(1),803 pp. 2 leaves with a tear to margin, no loss of text. On good paper.
First French edition. It is not a verbatim translation of Wöhler's ""Grundriss der Organischen Chemie"", but a rewritten version by Fittig, who was Wöhler's assistent in Göttingen.
(Paris, Crochard, 1828). 8vo. Without wrappers. Extract from 'Annales de Chimie et de Physique', Series 2 - Volume 37. Pp. 330-334.
First appearance in French of this milestone paper, marking the beginnings of organic chemistry, in which Wöhler describes how he managed to synthezise urea from cyanate of ammonia. The French version here is translated from the German paper ""Ueber künstliche Bildung des Harnstoffs."", which was issued the same year (1828). 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 discovery destroyed the vitalistic theory which held that organic compounds could be produced only by living organisms, and led eventually to the brilliant results that have been achieved in attempts to synthesize other organic compounds.Dibner: Heralds of Science, no. 45. - Sparrow: Milestones of Science, no. 197. - Garrison & Morton, no. 671. See also DSB XIV p.475.
Leipzig, Johann Ambrosius Barth, 1828. Without wrappers as issued in ""Annalen der Physik und Chemie. Hrsg.von Poggendorff"", Bd. 12, Zweites Stück. Pp. 161-336 (the entire issue offered (Heft 2) together with the titlepage to 12. Band). Wöhler's paper: pp. 253-256. Clean and fine, printed on good paper.
First appearance of this milestone paper, marking the beginnings of organic chemistry, in which Wöhler describes how he managed to synthezise urea from cyanate of ammonia. 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 discovery destroyed the vitalistic theory which held that organic compounds could be produced only by living organisms, and led eventually to the brilliant results that have been achieved in attempts to synthesize other organic compounds.Dibner: Heralds of Science, no. 45. - Sparrow: Milestones of Science, no. 197. - Garrison & Morton, no. 671. See also DSB XIV p.475.
"WÖHLER, FRIEDRICH - THE PREPATORY WORK OF ORGANIC CHEMISTRY.
Reference : 49580
(1823)
Leipzig, 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). (12),444 pp., 1 folded table and 5 engraved plates. Small stamp to verso of titlepages. Internally clean and fine. Wöhler's paper: pp. 157-172.
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.
(Paris, Crochard, 1838). No wrappers. In: ""Annales de Chimie et de Physique, Par MM. Gay-Lussac et Arago."", 2e Series, Tome 68, Cahier 3 entire issue offered. Pp. 225-352. Wöhler & Liebig's paper: pp. 225-336.
First French edition of this importent paper in the development of organic chemistry. It is the last joint paper of importence from ""these two men, ...pioneers in the development of organic chemistry, form a twin constellation in the chemical firmament""(Alexander Findley in ""A Hundred Years of Chemistry"", p. 23). The paper is a translation of ""Untersuchungen über die Natur der Harnsäure"", published at the same time in Justus Liebigs Annalen der Chemie (1838), Wöhler and Liebig collaborated on one more major piece of work, a study of uric acid. (The paper offered). Wöhler suggested the subject, and the idea seems to have come from his medical interests. Uric acid was not easily obtainable–snake excrement was the only substantial source–and relationships with urea and allantoin were suspected by Wöhler. As a student he had won a prize in 1828 for an essay on the conversion in the human body of chemicals taken orally and excreted in urine. The technique adopted by Liebig and Wöhler was to subject uric acid, ad the derivatives they prepared, to oxidation and reduction by reagents of different concentrations and strengths. Wöhler seems to have been the first to heat reagents together in sealed glass tubes, but after an explosion he thought metal ones safer.Their 100-page paper described fourteen new compounds and their preparation and analysis.7 An attempt to establish a new radical called ""uril"" (C8N4O4) was less successful. Perhaps even more significant than the sophisticated, practical and theoretical organic chemistry was the new spirit revealed. Writing to Berzelius in 1828, Wöhler was doubtful whether animal substances could be prepared in the laboratory. In 1832 he began the paper on the benzoyl radical with a description of organic chemistry as ""the dark region of organic nature."" But in 1838 his work with Liebig led him to write (at Liebig’s suggestion): ""The philosophy of chemistry will conclude from this work that it must be held not only as probable but [as] certain that all organic substances, insofar as they no longer belong to the organism, will be prepared in the laboratory. Sugar, salicin, morphine will be produced artificially. It is true that the route to these and products is not yet clear to us, because the intermediaries from which these materials develop are still unknown, but we shall learn to know them.""(DSB).
"WÖHLER, F. und J. LIEBIG. - PIONEER WORK IN ORGANIC CHEMISTRY.
Reference : 48918
(1838)
Paris, Crochard, 1838. Contemp. hcalf. Raised bands, spine gilt. In: ""Annales de Chimie et de Physique, Par MM. Gay-Lussac et Arago."", 2e Series, Tome 68. 448 pp. (entire volume offered). Wöhler & Liebig's paper: pp. 225-336. Clean and fine. small stamps to verso of titlepage.
First French edition of this importent paper in the development of organic chemistry. It is the last joint paper of importence from ""these two men, ...pioneers in the development of organic chemistry, form a twin constellation in the chemical firmament""(Alexander Findley in ""A Hundred Years of Chemistry"", p. 23). The paper is a translation of ""Untersuchungen über die Natur der Harnsäure"", published at the same time in Justus Liebigs Annalen der Chemie (1838), Wöhler and Liebig collaborated on one more major piece of work, a study of uric acid. (The paper offered). Wöhler suggested the subject, and the idea seems to have come from his medical interests. Uric acid was not easily obtainable–snake excrement was the only substantial source–and relationships with urea and allantoin were suspected by Wöhler. As a student he had won a prize in 1828 for an essay on the conversion in the human body of chemicals taken orally and excreted in urine. The technique adopted by Liebig and Wöhler was to subject uric acid, ad the derivatives they prepared, to oxidation and reduction by reagents of different concentrations and strengths. Wöhler seems to have been the first to heat reagents together in sealed glass tubes, but after an explosion he thought metal ones safer.Their 100-page paper described fourteen new compounds and their preparation and analysis.7 An attempt to establish a new radical called ""uril"" (C8N4O4) was less successful. Perhaps even more significant than the sophisticated, practical and theoretical organic chemistry was the new spirit revealed. Writing to Berzelius in 1828, Wöhler was doubtful whether animal substances could be prepared in the laboratory. In 1832 he began the paper on the benzoyl radical with a description of organic chemistry as ""the dark region of organic nature."" But in 1838 his work with Liebig led him to write (at Liebig’s suggestion): ""The philosophy of chemistry will conclude from this work that it must be held not only as probable but [as] certain that all organic substances, insofar as they no longer belong to the organism, will be prepared in the laboratory. Sugar, salicin, morphine will be produced artificially. It is true that the route to these and products is not yet clear to us, because the intermediaries from which these materials develop are still unknown, but we shall learn to know them.""(DSB).
"WÖHLER, F. und J. LIEBIG. - THE DISCOVERY OF ""EMULSIN"" A MAIN WORK IN ORGANIC CHEMISTRY.
Reference : 43739
(1837)
Leipzig, Johann Ambrosius Barth, 1837. Without wrappers as issued in ""Annalen der Physik und Chemie. Hrsg.von Poggendorff"", Bd. 41, Zweites Stück. (Entire issue No 6 offered). Titlepage to vol. 41. Pp. 225-448 a. 2 folded engraved plates. Wöhler & Liebig's papers: pp. 345-366, pp. 366-374 a. pp. 393-397. Clean and fine.
First appearance of this classic paper in organic chemistry in which Wöhler and Liebig showed how Amygdalin could be decomposed by a vegetable emulsion, the first example of a glycoside.""The conclusions which you have drawn from the investigation of bitter-almond oil,"" wrote Berzelius to Liebig and Wöhler, ""are certainly the most importent which have so far been reached in the domain of vegetable chemistry, and give promise of shedding an unexpected light over this part of the science...The facts which you have set forth inspire such reflections that they may be regarded as the dawn of a new day in vegetable chemistry.""(Berzelius-Wöhler Briefwechsel).""During the years that Liebig was preoccupied with the ether theory and with organic acids, he also carried out two importent investigations with Wöhler. In october 1836 Wöhler wrote that he had discovered a way to transform amygdalin to oil of bitter almonds and hydrocyanid acis, by distilling it with manganese and sulfuric acid, and he invited Liebig to join in pursuing the topic. Two days later he made a more remarkable discovery. It had occurred to him that perhaps thetransformation of amygdalin could be effected by the albumin in the almonds, in a manner similar to the action of yeast in sugar...Wöhler suspected that the decomposition was an example of what Berzelius had recently defined as catalysis. Liebig and Wöhler then divided up the detailed examination of the properties and composition of amygdalin. They precipitated from the emulsion of almonds a substance which when dissolved retain its action. They named the active substance ""emulsion"". Its effectiveness in very small quantities confirmed that it acted like yeast.""(DSB VIII, p. 342).
Dunod.. 1959.. In-12. Broché. Bon état, Couv. légèrement passée, Dos satisfaisant, Intérieur acceptable. 225 pages. Nombreux schémas en noir et blanc, dans le texte.. . . . Classification Dewey : 540-Chimie et sciences connexes
Monographies Dunod. Classification Dewey : 540-Chimie et sciences connexes
1934 Hermann et Cie éditeurs "collection ""actualités scientifiques et industrielles""" broché, 44p. Très bon état, un nom en première page.
Exposés de chimie biologique publiés sous la direction de G. Bertrand. Table : décomposition de la cellulose par les bactéries - synthèse de la cellulose par l'acetobacter xylinum.
Phone number : 04 76 97 79 28
MASSON ET CIE. 1962. In-8. Broché. Etat d'usage, Couv. légèrement passée, Coiffe en tête abîmée, Intérieur acceptable. 68 pages - couverture à rabats.. . . . Classification Dewey : 540-Chimie et sciences connexes
Sommaire : avant propos - introduction - exposé général - étude des petits échantillons - cartes de controle - conclusion - appendice - comparaison de plusieurs méthodes - tables - références bibliographique. Classification Dewey : 540-Chimie et sciences connexes
Imprint unknown 1974 451 pages in8. 1974. Cartonné jaquette. 451 pages.
livre en très bon état de conservation bords légèrement frottés intérieur frais avec jaquette (en bon état)
HIROKAWA PUBLISHING COMPANY, INC.. 1975. In-12. Broché. Etat d'usage, Couv. convenable, Dos satisfaisant, Intérieur acceptable. 333 pages. Nombreus shemas, graphiques et tableuax de données. Texte en anglais. Photocopies assemlée et cartonnage non d'origine.. . . . Classification Dewey : 540-Chimie et sciences connexes
Classification Dewey : 540-Chimie et sciences connexes
Un ouvrage de 321 pages, format 135 x 185 mm, illustré, broché couverture couleurs, publié en 1991, Educalivre, collection "A. Capliez", bon état
Mathématiques, physique, électricité-électronique, chimie, biologie, technologie, unités, vie pratique
Phone number : 04 74 33 45 19