30 books for « mendeleev d »Edit

‎Sootnoshenie svoistv s atomnym vesom elementov [i.e. On the Relation of the Properties to the Atomic Weights of the Elements]. In: Zhurnal Russkogo khimicheskogo obshchestva [i.e. Journal of the Russian Chemical Society], vol.1, parts II-III. - [THE PERIODIC TABLE OF THE ELEMENTS]‎

‎St. Petersburg, 1869. 8vo. Extract in contemporary or slightly later blank blue paper wrappers. Wrappers with neat professional restorations from verso, barely noticeable. A very fine and clean copy. Pp. 60-77. ‎

‎Exceedingly scarce first printing of Mendeleev’s seminal Russian Chemical Society-paper of March 1869, presenting for the first time the periodical table of the elements. “His newly formulated law was announced before the Russian Chemical Society in March 1869 with the statement “elements arranged according to the value of their atomic weights present a clear periodicity of properties.” Mendeleev’s law allowed him to build up a systematic table of all the 70 elements then known.” (Encycl. Britt.) “Early in 1869, Russian chemist Dmitrii Mendeleev was in a predicament many people are familiar with—he was facing a deadline. He had delivered the first volume of his inorganic chemistry textbook to his publisher but was struggling with how to organize the second volume. This struggle would culminate in a remarkable discovery, a system that classified all of the chemical elements. In March 1869, Mendeleev delivered a full paper to the Russian Chemical Society spelling out the most significant aspect of his system, that characteristics of the elements recur at a periodic interval as a function of their atomic weight. This was the first iteration of the periodic law.” (OSU) Mendeleev’s system was not yet perfect when it appeared in 1869, but it would prove to be one of the most fundamental of scientific laws, one that would hold true through new discoveries and against all challenges. Mendeleev not only recognized that what seemed to be a randomness of the elements fitted into a system, he also suggested that the gaps in his system would later be filled with elements yet unknown to the scientific world. The discovery of new elements in the 1870s fulfilled several of Mendeleev’s predictions and brought increased interest to the periodic system, making it an invaluable tool for research. “He had such faith in the validity of the periodic law that he proposed changes to the generally accepted values for the atomic weight of a few elements and predicted the locations within the table of unknown elements together with their properties. At first the periodic system did not raise interest among chemists. However, with the discovery of the predicted elements, notably gallium in 1875, scandium in 1879, and germanium in 1886, it began to win wide acceptance. Gradually the periodic law and table became the framework for a great part of chemical theory. By the time Mendeleev died in 1907, he enjoyed international recognition and had received distinctions and awards from many countries.” (Encycl. Britt.) Horblit 74 Barchas 1412 [Dibner 48 - citing the German translation of 1891]‎

‎Remarque à propos de la découverte du gallium.‎

‎Paris, Gauthier-Villars, 1875. 4to. No wrappers. In: ""Comptes Rendus Hebdomadaires des Séances de L'Academie des Sciences"", Tome 81, No 21. Pp. (909-) 992. With titlepage to vol. 81. A stamp to verso of titlepage, showing on recto. Mendelejeff's paper: pp. 969-972.‎

‎First apperance of this importent paper which established that Gallium is identical with Eka-aluminum (the missing element between Aluminum and Indium) in Mendelejeff's periodic table. The properties of the new element corresponded well with those predicted. A bitter contorversy was raised between the discoverer of Gallium, Lecog de Boisbaudran and Mendelejeff. ""The discovery of the three elements predicted by Mendeleev was, however, of decisive importance in the acceptance of his law. In 1875 Lecoq de Boisbaudran, knowing nothing of Mendeleev’s work, discovered by spectroscopic methods a new metal, which he named gallium. Both in the nature of its discovery and in a number of its properties gallium coincided with Mendeleev’s prediction for eka-aluminum, but its specific weight at first seemed to be less than predicted. Hearing of the discovery, Mendeleev sent to France ""Zametka po povodu otkrytia gallia"" (the paper offered) (""Note on the Occasion of the Discovery of Gallium""), in which he insisted that gallium was in fact his eka-aluminum. Although Lecoq de Boisbaudran objected to this interpretation, he made a second determination of the specific weight of gallium and confirmed that such was indeed the case. From that moment the periodic law was no longer a mere hypothesis, and the scientific world was astounded to note that Mendeleev, the theorist, had seen the properties of a new element more clearly than the chemist who had empirically discovered it. From this time, too, Mendeleev’s work came to be more widely known""(DSB).Parkinson Breakthroughs"" 1875 C.‎

‎Remarque à propos de la découverte du gallium.‎

‎Paris, Gauthier-Villars, 1875. 4to. No wrappers. In: ""Comptes Rendus Hebdomadaires des Séances de L'Academie des Sciences"", Tome 81, No 21. Pp. (909-) 992. With titlepage to vol. 81. Mendelejeff's paper: pp. 969-972. Titlepage lightly browned and with a punched stamp in lower margin. Otherwise clean and fine.‎

‎First apperance of this importent paper which established that Gallium is identical with Eka-aluminum (the missing element between Aluminum and Indium) in Mendelejeff's periodic table. The properties of the new element corresponded well with those predicted. A bitter contorversy was raised between the discoverer of Gallium, Lecog de Boisbaudran and Mendelejeff. ""The discovery of the three elements predicted by Mendeleev was, however, of decisive importance in the acceptance of his law. In 1875 Lecoq de Boisbaudran, knowing nothing of Mendeleev’s work, discovered by spectroscopic methods a new metal, which he named gallium. Both in the nature of its discovery and in a number of its properties gallium coincided with Mendeleev’s prediction for eka-aluminum, but its specific weight at first seemed to be less than predicted. Hearing of the discovery, Mendeleev sent to France ""Zametka po povodu otkrytia gallia"" (the paper offered) (""Note on the Occasion of the Discovery of Gallium""), in which he insisted that gallium was in fact his eka-aluminum. Although Lecoq de Boisbaudran objected to this interpretation, he made a second determination of the specific weight of gallium and confirmed that such was indeed the case. From that moment the periodic law was no longer a mere hypothesis, and the scientific world was astounded to note that Mendeleev, the theorist, had seen the properties of a new element more clearly than the chemist who had empirically discovered it. From this time, too, Mendeleev’s work came to be more widely known""(DSB).Parkinson Breakthroughs"" 1875 C.‎

‎O soprotivlenij schidkostey i o vuzduchoplavani. [On the Resistance of Liquids and Air flying/ About Liquids Resistance and Aeronautics]. - [THE BASIS OF RUSSIAN AERONAUTICS]‎

‎S.-Peterburg, 1880. 8vo. Contemporary half calf. Capitals and corners with wear. Some crayon-underlinings and some brownspotting. (2),160" 80 pp + 12 folded plates.‎

‎Scarce first edition of this fundamental guide of aeronautics, which constitutes one of the most important works in aviation history. The work formed the basis for Russian aeronautics, influencing the likes of Tsiolkovsky. The great Russian chemist D.I. Mendeleev suspected that, in the highest levels of the Earth atmosphere, the Ether might exist at natural vacuum. It is this thought that sparks his growing interest in meteorology and aeronautics, which begins to take form in the 1870'ies. For Mendeleev aerodynamics and aeromechanics was inseparably linked to hydrodynamics and hydromechanics, and also to the theory of shipbuilding. He viewed these as belonging to one general problem, which he called media resistance and which he summarized and described in detail in his important work ""On the Resistance of Liquids and Air flying""/"" About Liquids Resistance and Aeronautics"", 1880 [i.e. the present work]. A great part of the work is dedicated to the questions of hydrodynamic theory and contains important analyses of the development of liquids resistance theory from Newton till Froud. Pinpointing the weakest points of the hitherto most important theories, he concluded that even the most important scientists were not able to understand the not examined resistance and thus that theoretical studies alone will not be able to resolve the issue, but require conjoint regular tests of models in hydrodynamic laboratories. Thus, Mendeleev initiated a new school, namely that of experimental hydrodynamics of ships, and the present work became one of the fundamental guides for work in shipbuilding, aeronautics, airplane construction, and ballistics. It greatly influenced the likes of Tsiolkovsky and Zhukovsky and thus formed the basis of Russian aeronautics. It is in the present work that Mendeleev first describes his famous aerostat, the first attempt by Russian. His aerostat was supposed to be able to reach the stratosphere, but the project was never realized. His interest in aerostatics, however, as presented in the present work, led to his famous baloon ride in 1887, to watch the full solar eclipse.""The earliest attempts to establish the theoretical possibility of air flight were made by Leonardo da Vinci, whose observations of bird flight inspired him to conceive the ideas of flying on heavier-than-air machines, of the helicopter, and of the parachute. But credit for the further development of his theoretical ideas and their realization belongs to the Russians... A large contribution to the development of aviation was made by D.I. Mendeleev, who conceived of a stratospheric balloon and devised plans for its construction in 1875. The first foreigner to construct a stratospheric balloon was Picard in 1931. In 1887, Mendeleev ascended 3,350 meters in the balloon to observe a solar eclipse. Mendeleev defined the future significance of aviation with great foresight. His ""On the Resistance of Liquids and Aeronautics"" (1880) served as one of the fundamental guides for work in shipbuilding, aeronautics, airplane construction, and ballistics."" (Geldern & Stites edt.: Mass Culture in Soviet Russia, p. 480).‎

‎D. Mendeleev, Osnovy Khimii [Principles of Chemistry], 1869-1871, First edition‎

‎Short description: In Russian. Mendeleev, D.I. Osnovy Khimii. [Principles of Chemistry]. With polytypes. In 2 parts. Parts 1-2. St. Petersburg: Printing house Public benefit, 1869-1871. In Russian. First edition. Principal work of the great Russian scientist-chemist D.I. Mendeleev (1834-1907), dedicated to the periodic law of chemical elements discovered by him. Mendeleev s Principles of Chemistry was included to the list of 100 greatest books of all times and peoples. In this work Mendeleev first expounded inorganic chemistry based on his periodic law. Great rarity. Please feel free to contact us for a detailed description of the copies available. SKUMS001802 kn_nat‎

‎Mendeleev D. Mendeleev D. Future force resting on the banks of the Donets. / / N‎

‎Mendeleev D. Mendeleev D. Future force resting on the banks of the Donets. / / N. St. Petersburg 1888. Nefedov F.D.: Ionych (From the Life and Morals of the Forest Region). Eliseev A.: The Position of Women in the East. Lecture fifth. Zasodimsky I.: The Song of Song (Ending). Alphonse Dode: The Immortal (Ending). Zarin A. After reading Hartman. (You say that life is a chain of hard trials..).Emil Zola: Dreams. Ian Liam: The Big Light in the Gospels. Stasov V.: Russian illustrations to the Bible and the Gospel. Prof. D. Mendeleev: The Future Force resting on the banks of the Donets. The World Meaning of Stone Coal and the Donetsk Basin. SKUalb096603ed86458ae6.‎

‎Die periodische Gesetzmässigkeit der chemischen Elemente" (Aus dem Russischen von Felix Wreden). (On the periodical law of the chemical elements).‎

‎Leipzig und Heidelberg, C.F. Winter'sche Verlagshandlung, (1871) 1872. Recent marbled marbled boards. Spine gilt and with titlelabel in leather with gilt lettering: ""Annalen der Pharmacie VIII Suppl. Band. In ""Annalen der Chemie und Pharmacie. Hrsg. und Redigiert von Friedrich Wöhler, Justus Liebig und Hermann Kopp"", VIII. Supplementband. Pp. (4),392 pp. (entire volume offered). 2 small stamps on title-page. Mendelejeff's paper pp. 133-229, 2 (periodic) tables on p. 149 a. 151. Internally fine and clean.‎

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‎First printing of the first German translation of this milestone paper, ONE OF THE GREAT CLASSICS OF CHEMISTRY, in which Mendelejeff first coined the word ""periodic"", and in which he, for the first time, presented his great discovery of the periodicity of the elements in its full and complete form. At the same time the paper is the first to present his discoveries in a western language. In the paper he described and predicted the properties of a number of undiscovered elements - three of them were discovered in his lifetime. His periodic table was more complete than any of the preceding ones, and more thoroughly founded on experiment. The periodicity of the elements he himself formulated as ""Elements placed according to the value of their atomic weights present a clear periodicity of properties.""The offered paper is the German translation of his paper which was issued in ""Journal of the Russian Chemical Society"", vol. 3, pp. 25-56, the same journal in which he first announced his discovery (vol. 1, pp.66-77 (1869) ).""In March 1871, two years after his discovery of the law, Mendeleev first named it ""periodic"". That summer he published in Justus Liebigs Annalen der Chemie his article ""Die periodische Gesetzmässigkeit der chemischen Elemente."" - the paper offered - which he later characterized as ""the best summary of my views and ideas on the periodicity of the elements and the original after which so much was written later about this system. This was the main reason for my scientific fame, because much was confirmed - much later.""""(DSB IX, p. 289-90)""Lothar Meyer and Dimitri Mendeleev independently discovered the periodic system, but ""Meyer did not publish this work until after the appearance of Mendeleev's first paper on the subject in 1869. His table was very similar to that of Mendeleev, but it contained some improvements and was, perhaps, influential in causing some of the revisions made by Mendeleev in the second version of his table, published in 1870. In general, Meyer was more impressed by the periodicity of the physical properties of the elements, while Medeleev saw more clearly the chemical consequences of the periodic law.""(Source Book in Chemistry, p. 434).Horblitt, ""100 Books famous in Science"" (the Russian paper 1869) No 74. - Dibner, ""Heralds of Science"" No 48 (only the later book of 1891) - Partington IV: pp. 891-897. - Source Book in Chemistry pp. 442 ff. - PMM: 407 (under Moseley). - Neville ""Historical Chemical Library"" II: p. 162 (only the French edition from 1879).‎

‎Mendeleev D.I. Works. Volume VI. Gases In Russian (ask us if in doubt)/Mendeleev‎

‎Mendeleev D.I. Works. Volume VI. Gases In Russian (ask us if in doubt)/Mendeleev. The Academy of Sciences of the USSR. Under the joint editorial of V.E. Tishchenko L.-M. GONTI 1939. 692 p. SKUalb16a81dabf6142a17.‎

‎Mendeleev D. Solutions. In Russian (ask us if in doubt)/Mendeleev D. Rastvory.‎

‎Mendeleev D. Solutions. In Russian (ask us if in doubt)/Mendeleev D. Rastvory.. Classics of Science of the Academy of Sciences of the USSR 1959. 1164 p. SKUalb2b1e51cb7be141b2.‎

‎Mendeleev D. Periodic Law. In Russian (ask us if in doubt)/Mendeleev D. Periodic‎

‎Mendeleev D. Periodic Law. In Russian (ask us if in doubt)/Mendeleev D. Periodic. Classics of Natural Science 1926. 254 p. SKUalb553050931c6abc66.‎

‎Actes du XIIe Congrès International d'Histoire des Sciences - Tome VI (6). Histoire de la Chimie depuis le XVIIIe siècle , Paris, Conservatoire des Arts et Métiers, du 25 au 31 août 1968 (P.J. Macquer et le Rapport sur les Opuscules physiques et chimiques de Lavoisier - Lockyer and the chemists - William Cullen and practical chemistry - Comte and Berthollet, a Philosophical View of Chemistry - The Emergence of a Specialty, a Case Study, Physical Chemistry - The Way from Chemical Principles to the Principles of Chemistry - Vaudrimont and the Theory of Chemical Types - Arturo Miolati, 1869-1956 and the Chemistry of Comple Compounds - Thomas Charles Hope and Strontium - Transcendental part of Chemistry - Solution to some fundamental Scientific Problems by Historico-Scientific Methods, some Examples from the History of Chemistry - Les facteurs du développement de la pharmacie au tournant des XVIIIe et XIXe siècle - Criteria for Chemical Combination in the late 18th Century - Problems of History and Methodology of Science in Prominent Chemists' Work - réflexions sur la théorie du calorique et la découverte de l'oxygène par Scheele - Gay-Lussac and Berthollet's theory - Early Chemical Ideas on Unsaturation - La correspondance Berthollet-Blagden - Monism vs. Dualism in Chemical Atomism - Les premières connaissances japonaises sur la théorie de Lavoisier avant Meiji - Development of chemistry in Modern Japan - Emanuele Paterno di Sessa, his Contribution to the Development of Stereochemistry - Centenaire de la Classification périodique des éléments chimiques : La loi de la périodicité des élémenst chimiques de D. Mendéleev et la découverte des éléments nouveaux - Centenaire de la découverte de la Loi périodique par D.J. Mendéléev - Hinrichs découvrit le système périodique des éléments en 1867)‎

‎Librairie Scientifique et Technique Albert Blanchard , Congrès International d'Histoire des Sciences Malicorne sur Sarthe, 72, Pays de la Loire, France 1971 Book condition, Etat : Très Bon broché, sous couverture imprimée éditeur verte grand In-8 1 vol. - 133 pages‎

‎ 1ere édition, 1971 Contents, Chapitres : W. C. Ahlers : P.J. Macquer et le Rapport sur les Opuscules physiques et chimiques de Lavoisier - W.H. Brock : Lockyer and the chemists - J.K. Crellin : William Cullen and practical chemistry - Maurice Crosland : Comte and Berthollet, a Philosophical View of Chemistry - R.G.A. Dolby : The Emergence of a Specialty, a Case Study, Physical Chemistry - E. Farber : The Way from Chemical Principles to the Principles of Chemistry - S.C. Kapoor : Vaudrimont and the Theory of Chemical Types - G.G. Kauffman : Arturo Miolati, 1869-1956 and the Chemistry of Comple Compounds - A. Kent : Thomas Charles Hope and Strontium - D.M. Knight : Transcendental part of Chemistry - V.I. Kuznetsov : Solution to some fundamental Scientific Problems by Historico-Scientific Methods, some Examples from the History of Chemistry - B. Kuznicka : Les facteurs du développement de la pharmacie au tournant des XVIIIe et XIXe siècle - S. Mauskopf : Criteria for Chemical Combination in the late 18th Century - Y. S. Mussabekov : Problems of History and Methodology of Science in Prominent Chemists' Work - D. Papp : Réflexions sur la théorie du calorique et la découverte de l'oxygène par Scheele - S. Pierson : Gay-Lussac and Berthollet's theory - C.A. Russell : Early Chemical Ideas on Unsaturation - M. Sadoun-Goupil : La correspondance Berthollet-Blagden - W.L. Scott : Monism vs. Dualism in Chemical Atomism - K. Takeda : Les premières connaissances japonaises sur la théorie de Lavoisier avant Meiji - M. Tanaka : Development of chemistry in Modern Japan - A. J.H. Umans : Emanuele Paterno di Sessa, his Contribution to the Development of Stereochemistry - Centenaire de la Classification périodique des éléments chimiques : N.A. Figurovsky : La loi de la périodicité des élémenst chimiques de D. Mendéleev et la découverte des éléments nouveaux - B.M. Kedrov : Centenaire de la découverte de la Loi périodique par D.J. Mendéléev - J.W. Van Spronsen : Hinrichs découvrit le système périodique des éléments en 1867 bords des plats à peine jaunis, sinon bel exemplaire, intérieur frais et propre, papier à peine jauni - Actes du XIIeme Congrès International d'Histoire des Sciences - Tome 6 seul, complet en lui-même sur l'Histoire de la Chimie depuis le XVIIIe siècle‎

‎Actes du XIIe Congrès International d'Histoire des Sciences - Tome VI (6). Histoire de la Chimie depuis le XVIIIe siècle , Paris, Conservatoire des Arts et Métiers, du 25 au 31 août 1968 (P.J. Macquer et le Rapport sur les Opuscules physiques et chimiques de Lavoisier - Lockyer and the chemists - William Cullen and practical chemistry - Comte and Berthollet, a Philosophical View of Chemistry - The Emergence of a Specialty, a Case Study, Physical Chemistry - The Way from Chemical Principles to the Principles of Chemistry - Vaudrimont and the Theory of Chemical Types - Arturo Miolati, 1869-1956 and the Chemistry of Comple Compounds - Thomas Charles Hope and Strontium - Transcendental part of Chemistry - Solution to some fundamental Scientific Problems by Historico-Scientific Methods, some Examples from the History of Chemistry - Les facteurs du développement de la pharmacie au tournant des XVIIIe et XIXe siècle - Criteria for Chemical Combination in the late 18th Century - Problems of History and Methodology of Science in Prominent Chemists' Work - réflexions sur la théorie du calorique et la découverte de l'oxygène par Scheele - Gay-Lussac and Berthollet's theory - Early Chemical Ideas on Unsaturation - La correspondance Berthollet-Blagden - Monism vs. Dualism in Chemical Atomism - Les premières connaissances japonaises sur la théorie de Lavoisier avant Meiji - Development of chemistry in Modern Japan - Emanuele Paterno di Sessa, his Contribution to the Development of Stereochemistry - Centenaire de la Classification périodique des éléments chimiques : La loi de la périodicité des élémenst chimiques de D. Mendéleev et la découverte des éléments nouveaux - Centenaire de la découverte de la Loi périodique par D.J. Mendéléev - Hinrichs découvrit le système périodique des éléments en 1867)‎

‎Librairie Scientifique et Technique Albert Blanchard , Congrès International d'Histoire des Sciences Malicorne sur Sarthe, 72, Pays de la Loire, France 1971 Book condition, Etat : Bon broché, sous couverture imprimée éditeur verte grand In-8 1 vol. - 133 pages‎

‎ 1ere édition, 1971 Contents, Chapitres : W. C. Ahlers : P.J. Macquer et le Rapport sur les Opuscules physiques et chimiques de Lavoisier - W.H. Brock : Lockyer and the chemists - J.K. Crellin : William Cullen and practical chemistry - Maurice Crosland : Comte and Berthollet, a Philosophical View of Chemistry - R.G.A. Dolby : The Emergence of a Specialty, a Case Study, Physical Chemistry - E. Farber : The Way from Chemical Principles to the Principles of Chemistry - S.C. Kapoor : Vaudrimont and the Theory of Chemical Types - G.G. Kauffman : Arturo Miolati, 1869-1956 and the Chemistry of Comple Compounds - A. Kent : Thomas Charles Hope and Strontium - D.M. Knight : Transcendental part of Chemistry - V.I. Kuznetsov : Solution to some fundamental Scientific Problems by Historico-Scientific Methods, some Examples from the History of Chemistry - B. Kuznicka : Les facteurs du développement de la pharmacie au tournant des XVIIIe et XIXe siècle - S. Mauskopf : Criteria for Chemical Combination in the late 18th Century - Y. S. Mussabekov : Problems of History and Methodology of Science in Prominent Chemists' Work - D. Papp : Réflexions sur la théorie du calorique et la découverte de l'oxygène par Scheele - S. Pierson : Gay-Lussac and Berthollet's theory - C.A. Russell : Early Chemical Ideas on Unsaturation - M. Sadoun-Goupil : La correspondance Berthollet-Blagden - W.L. Scott : Monism vs. Dualism in Chemical Atomism - K. Takeda : Les premières connaissances japonaises sur la théorie de Lavoisier avant Meiji - M. Tanaka : Development of chemistry in Modern Japan - A. J.H. Umans : Emanuele Paterno di Sessa, his Contribution to the Development of Stereochemistry - Centenaire de la Classification périodique des éléments chimiques : N.A. Figurovsky : La loi de la périodicité des élémenst chimiques de D. Mendéleev et la découverte des éléments nouveaux - B.M. Kedrov : Centenaire de la découverte de la Loi périodique par D.J. Mendéléev - J.W. Van Spronsen : Hinrichs découvrit le système périodique des éléments en 1867 coin inférieur droit à peine corné en début d'ouvrage, 'bords des plats à peine jaunis, sinon bel exemplaire, intérieur frais et propre, papier à peine jauni - Actes du XIIeme Congrès International d'Histoire des Sciences - Tome 6 seul, complet en lui-même sur l'Histoire de la Chimie depuis le XVIIIe siècle‎

‎Ueber die Verbindungen des Alkohols mit Wasser. Im Auszuge aus d. russischen Originalarbeit von Victor Richter. (On the Compounds of Alcohol with Water). (2 Theile).‎

‎Leipzig, Johann Ambrosius Barth, 1869. Conemp. hcalf. 5 raised bands, gilt spine and gilt lettering to spine. A few scratches to spine. Small stamp on verso of first -and general- titlepage and small stamps to verso of plates. In: ""Annalen der Physik und Chemie. Hrsg. von J.C. Poggendorff"", Fünfte Reihe Bd. 18 (138. Bd. der Reihe). X,652 pp. a. 6 folded plates (The entire volume offered). Mendeléev's paper: pp. 103-141 a. pp. 230-279. Clean and fine.‎

‎First German edition of Mendeléev's doctoral dissertation ""O soedineni spirta s vodoyu"" from 1865. ""In it he first developed the characteristic view that solutions are chemical compounds and that dissolving one substance into another is not to be distinguished from other forms of chemical combination. In this thesis, he also adhered to the principles of chemical atomism.""(DSB). - This work contributed to the birth of a popular legend, which claims that Mendeleev invented the standard for Russian vodka, saying it should contain 40% of alcohol by volume. Mendeléev is credited as being the creator of the first version of the periodic table of elements. Using the table, he predicted the properties of elements yet to be discovered.The volume contains other notable papers by Kohlrausch, Fizeau, Zöllner etc. and Julius Thomsen's ""Thermochemische Untersuchungen""‎

‎Sur la Dilatation des Liquides.‎

‎Paris, G. Masson, 1884. 8vo. Contemp. hcalf, raised bands, gilt spine. Light wear along edges and to top of spine. Small stamps on verso of titlepage. In: ""Annales de Chimie et de Physique"", 6e Series, Tome II. 568 pp. and 1 folded engraved plates. (Entire volume offered). Mendeleev's paper: pp. 271-282.‎

‎Mendeleev's first step towards his chemical theory of solutions.""After 1884, Mendeleev concerned himself with the expansion of liquids and in particular with the specific weights of aqueous solutions of various substances. He was able to conclude that in such solutions discontinuous relationships exist between the solvent and the solute, attesting to the existence of determinate chemical relationships - a necessary condition, according to chemical atomic theory. Mendeleev thus arrived at a chemical theory of solutions, which he opposed to the theory of electrolytic dissociation of dilute aqueous solutions set forth by Arrhenius.""(DSB).The volume contains further notable papers LECOQ DE BOISBAUDRAN ""Séparation du Gallium d'avec les autres Éléments"", pp. 176-271 - he discovered Gallium in 1877, this long paper describes describes the separation of a long sereis of other metals, also the rare earth metals. - 3 importent papers by FRANCOIS MARIE RAOULT on molecular weight of organic compounds, follwing up his discovery of Raoult's Law two years before.‎

‎Mendeleev D. Osnovy himii. 1872-1873. / Mendeleev D. The Principles of Chemist‎

‎In Russian. Short description: Mendeleev D. Osnovy himii. [The Principles of Chemistry] 1872-1873. In 2 volumes 2nd edition supplemented. Part 1 with 158 polytypes. Part 2 with 28 polytypes. Please feel free to contact us for a detailed description of the copies available. SKUMS001054 kn_nat‎

‎Mendeleev D. I. Fundamentals of chemistry. In Russian (ask us if in doubt)/Mende‎

‎Mendeleev D. I. Fundamentals of chemistry. In Russian (ask us if in doubt)/Mendeleev D. I. Osnovy khimii. Short description: In Russian (ask us if in doubt).6th edition. Newly amended and supplemented. St. Petersburg: Demakov's Type 1895. XVI + 780 p. + 1 hp. We have thousands of titles and often several copies of each title may be available. Please feel free to contact us for a detailed description of the copies available. SKUalb4d94c5a5a1d9c0cf‎

‎Mendeleev D. To the knowledge of Russia. In Russian (ask us if in doubt)/Mendele‎

‎Mendeleev D. To the knowledge of Russia. In Russian (ask us if in doubt)/Mendeleev D. K poznaniyu Rossii. With the attachment of a map of Russia. 2nd amended and supplemented edition. St. Petersburg Tipolitography by N.P.Frolova 1906. 122s. Life Edition. With the attached unfolding map 48x58 sm. We have thousands of titles and often several copies of each title may be available. Please feel free to contact us for a detailed description of the copies available. SKUalbfce17ddb1d3ab506‎

‎Mendeleev D.I. Ural Iron Industry in 1899 according to the reports of the trip ‎

‎Mendeleev D.I. Ural Iron Industry in 1899 according to the reports of the trip . Fax reproduction of the 1900 edition. Ekaterinburg. Aqua-Press. 2006. 880 p. SKUalb4a13804625ad8b59.‎

‎Mendeleev D.I. Fundamentals of Chemistry. In 2 volumes. Twelfth edition (fourth ‎

‎Mendeleev D.I. Fundamentals of Chemistry. In 2 volumes. Twelfth edition (fourth . M L Goskhimtekhizdat 1934. SKUalbd2f4a4a00e37282c.‎

‎Mendeleev D. I. Fundamentals of chemistry. In 2 volumes. In Russian (ask us if i‎

‎Mendeleev D. I. Fundamentals of chemistry. In 2 volumes. In Russian (ask us if i. 13th edition (5th posthumous). Moscow-Leningrad: State Chemizdat 1947 624 p. SKUalb0674b302c357d002.‎

‎Mendeleev D.I. Periodic Law. Additional materials. In Russian (ask us if in doub‎

‎Mendeleev D.I. Periodic Law. Additional materials. In Russian (ask us if in doub. Series: Classics of Science. Editorial and Commentary by B.M. Kedrov. Moscow Academy of Sciences of the USSR 1958.1960 832.712s. SKUalb4b2eaed54d6b7866.‎

‎Mendeleev D.I. Works in agriculture and forestry. In Russian (ask us if in doubt‎

‎Mendeleev D.I. Works in agriculture and forestry. In Russian (ask us if in doubt. Moscow: Publishing House of the USSR Academy of Sciences. 1954. 620 p. SKUalbe0695408865b3732.‎

‎Historical Studies in the Physical and Biological Sciences - Volume 34, Part 2 (2004) , (Early responses to Avery et al.'s paper on DNA as hereditary material - Scientific discovery in statu nascendi : The case of Dmitrii Mendeleev's Periodic Law - Investigative and pedagogical styles in French chemistry at the end of seventeenth century - Organized criticism of Einstein and relativity in China, 1968-1976 - Project Vista, Caltech, and the dilemmas of Lee DuBridge - The SIRIO satellite, 1968-1977 : Between scientific engagement and managerial inexperience)‎

‎University of California Press, History of Science and Technology , Historical Studies in the Physical and Biological Sciences Malicorne sur Sarthe, 72, Pays de la Loire, France 2004 Book condition, Etat : Bon paperback, editor's white wrappers, title in blue grand In-8 1 vol. - 199 pages‎

‎few black and white illustrations and text-figures 1st edition, 2004 Contents, Chapitres : Ute Deichmann : Early responses to Avery et al.'s paper on DNA as hereditary material - Igor S. Dmitriev : Scientific discovery in statu nascendi : The case of Dmitrii Mendeleev's Periodic Law - Frederic Lawrence Holmes : Investigative and pedagogical styles in French chemistry at the end of seventeenth century - Danian Hu : Organized criticism of Einstein and relativity in China, 1968-1976 - W. Patrick McCray : Project Vista, Caltech, and the dilemmas of Lee DuBridge - Lucia Orlando : The SIRIO satellite, 1968-1977 : Between scientific engagement and managerial inexperience near fine copy, no markings - pages 208 to 406‎

‎Grundlagen der Chemie. Aus dem Russischen übersetz von L. Jawein und A. Thillot. - [THE PERIODIC LAW]‎

‎St. Petersburg, Carl Ricker, 1891. Royal8vo. Contemporary half calf with spine lettering. (2),1126,(1) pp. and 3 tables (1 folded). A fine fresh copy.‎

‎First german edition: Dibner 48 - The Periodic Law.Mendeleev's milestone text book 'The Principles of Chemistry' first published in Russian 1869. In this work Mendeleev first published his great discovery that the elements exhibit an apparent periodicity of properties when arranged by their atomic mass. ‎

‎Sur la compressabilité des Gaz soumis aux faibles Pressions.‎

‎Paris, G. Masson, 1883. 8vo. Contemp. hcalf, raised bands, gilt spine. Light wear along edges. Small stamps on verso of titlepage. In: ""Annales de Chimie et de Physique"", 5e Series, Tome IX. 576 pp. and 3 folded engraved plates. (Entire volume offered). Mendeleev's paper: pp. 111-119.‎

‎First printing of this paper in which Mendeleev, in connection with his aerobautical researches, investigated the compressability and elasticity of gases.The volume contains other importent papers DES CLOIZEAU'S ""Mémoire sur L'Existence, les propriétes optique et christallographiques, et la Composition chimique du Microline,nouvelle Espèce de feldspath..."", pp. 433-499 and illustrated with 12 ORIGINAL PHOTOGRAPHIC textillustrations. Also with original contributions by Berthelot, Raoult, and CLAUDE BERNARD ""Critique experimentale sur la ormation du Sucre dans le Sang ou sur la Fonction de la Glycémie physiologique"", pp. 207-265.‎