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Publishers, Russian

Izvestiya Akademii Nauk, Seriya Khimicheskaya [Izv. Akad. Nauk, Ser Khim.] (1993-). In Russian. Formerly Izvestiya Akademii Nauk SSSR, Seriya Khimicheskaya [Izv. Akad. Nauk SSSR, Ser. Khim.] (1936-1992). Izvestiya Akademii Nauk SSSR, Otdelenie Khimicheskikh Nauk [Izv. Akad. Nauk SSSR, Otd. Khim. Nauk] was an alternative title from 1940 to 1963. There is an English language translation called Russian Chemical Bulletin [Russ. Chem. Bull] (1993-) from July 2000, also called Russian Chemical Bulletin, International Edition. Formerly Bulletin of the Academy of Sciences of the USSR, Division of Chemical Sciences [Bull Acad. Sci USSR, Div. Chem. Sci (Engl. Transl.)]. The Russian language version has no volume numbers volume numbers were assigned to the translation from 1971 (Vol. 20). Publisher Russian Academy of Sciences/Springer. [Pg.31]

Mendeleev Communications [Mendeleev Commun.] (1991-). Publisher Russian Academy of Sciences/Elsevier. [Pg.35]

Uspekhi Khimii [Usp. Khim] (1932-). In Russian. There is an English language translation entitled Russian Chemical Reviews [Russ. Chem. Rev.] (I960-). Publisher Russian Academy of Sciences/Turpion Ltd., London. [Pg.39]

The summer of 1931 Vernadsky spent in Peterhof (a suburb of Leningrad) working much on the space-time problems (Aksenov, 1994, pp. 404-405). He planned to write a book, ylbout Life (Biological) Time" but did not finish this work. However, in December 1931 Vernadsky made a report, J roblem of Time in the Modem Science" which later was published (Russian version 1932 French version 1934, 1935). [Pg.66]

Two theoretical analyses of the electronic structures of carbonates and related species have been published. - Russian workers have reported the results of MO calculations of the isoelectronic series of oxy-anions BO , CO ", and NOj. The derived data, when compared to the results of Jf-ray spectral investigations, accurately describe the principal characteristics of the spectra. Perkins has studied the electronic structure of inter alia H2CS3, CS ", and CS4 using a self-consistent MO method. Perhaps the most interesting conclusion to come from the investigations is the fact that the molecule H2CS3 is shown to be quite stable. [Pg.277]

The CD-ROM has been revised to include PowerPoint programs for each of the Chapters of the book and the remarkable advances that occurred since 2000 as a result of the development of the NOBEL code. The complete PDF files for the seven Los Alamos Data Volumes are included on the CD-ROM along with the recently published Russian Shock Wave Data generated between 1949 and 2000 by their Federal Nuclear Centers. The FORTRAN codes along with the executable codes for Windows 95, 98, ME, XP and VISTA operating systems are on the CD-ROM. The FORTRAN codes along with the executable codes for the OS X operating system on the Apple IMAC computer are also on the CD-ROM. [Pg.533]

A.V Goncharsky, V.V.Popov and V.V Stepanov, Introduction in Computer Optics, Moscow State University Publisher, Moscow, 1991, (in Russian). p310. [Pg.269]

Although Russian Zaitsev published most of his work in German scientific journals where his name was translit erated as Saytzeff The spelling used here Zaitsev) corresponds to the currently preferred style... [Pg.204]

Filippov, Tarzimanov, and Totsldy, Thermal Conductivity of Liquids ana Gases (in Russian), Standartov, Moscow, 1978, now published in English translation by CRC Press, Miami, FL. [Pg.362]

Serious science started in Russian empire in the middle of the XVIII century. The first known Russian scientist M.V. Lomonosov obtained (in the I750sJ experimental data on the preservation of the mass of substances in chemical reactions. T.E. Lovits discovered adsorption from solutions he used wood carbon as an adsorbent. Among other scientists, Lovits detected compounds using characteristic forms of their crystals. V.M. Severgin published a book on analysis of mineral raw materials. [Pg.20]

The report gives eonsideration to the eontribution of the seientists from Russia to the development of XRF analysis in the period from 1999 to nowadays. The state of XRF in the earlier period was diseussed in the reviews. Presented in detail are only the most important advanees eonneeted to the speeial features of XRF method. The reviews and the monographs, published in this period, the Conferenees on XRF problems, held in Russia, the defended dissertations are separately diseussed (-380 papers, 5 monographs and 17 dissertations). The statistieal analysis of the publieations on XRF is presented (the distribution in the Russian and foreign journals and in the towns Moseow, Irkutsk, Novosibirsk, St. Petersburg and others). [Pg.415]

Garanin, V.J., U.M. Korkehi and Kh. M. Minachev, 1967, Kinetika I Kataliz., 8, 3, pp. 701-703. (Translated from Russian, IGuver Academic/Plenum Publishing.)... [Pg.213]

A. B. Sheremetev and N. N. Makhova (N. D. Zelinsky Institute of Organic Chemistry, Moscow, Russia) and W. Friedrichsen (University of Kiel, Germany) have reviewed the monocyclic furazans and furoxans. While much of the early work in this area was published in the German and Italian literature, more recently, a large amount has appeared in Russian journals, much of it being released for publication only during the last ten years. This survey should be of great utility to Western readers. [Pg.316]

D. L. Rakhmankulov, V. V. Zorin, F. N. Latypova, R. S. Musavirov, and I. N. Siraeva, Metody Sinteza 1,3-Digeteroanalogov Tsikloalkanov [in Russian], Reaktiv, Ufa (Russia), Nova Science Publishers (USA), 1998. [Pg.299]

This volume ends with part 7 of the ongoing series on the literature of heterocyclic chemistry, by Professor L. I. Belen kii and Drs. N. D. Kruchkovskaya and V. N. Gramenitskaya, all of the Russian Academy of Sciences, Moscow. It is a sequel to six earlier parts published in Advances in Heterocyclic Chemistry, which started in 1966 in Volume 7 of Advances, and have also appeared in Volumes 25, 44, 55, 71, and 73. The present part covers monographs and reviews published during the three-year period, 1997-1999. [Pg.321]

While still a student at the Academy, Ipatieffbegan to make a name for himself in the Russian chemical community as he began to publish some of his laboratory findings. His first professional milestone as a chemist came in 18h() when he joined Russia s Physical-Chemical Society. Here he came into close contact with Russia s most famous chemists, including Dimitri Mendeleev, discoverer of the periodic table and one of the founders ol the Society. In 1891, upon graduating from the school, he was appointed lecturer in chemistry at the Academy where he also continued to undertake original chemical research for his doctoral dissertation. In 1895, he was made assistant professor and, upon completion and acceptance of his dissertation in 1899, he became a full professor of chemistry. [Pg.679]

While the history of CA can be traced back to early Systems Theory and rigorous mathematical analyses conducted primarily by Russian researchers in the 1930s and 40s, their more recent incarnation as simple models of complexity in nature can arguably be traced to a single landmark review paper published by Wolfram in the Reviews of Modern Physics in 1983 [wolf83a]. [Pg.835]

Fig. 3. Potassium fluorotantalate, KfTaFy, solubility in HF solutions at 25°C Reproduced from [53], G. S. Savchenko, I. V. Tananaev, Zh. Prikl. Khim 20 (1947) 385, Copyright 1947, with permission of Nauka (Russian Academy of Sciences) publishing. Fig. 3. Potassium fluorotantalate, KfTaFy, solubility in HF solutions at 25°C Reproduced from [53], G. S. Savchenko, I. V. Tananaev, Zh. Prikl. Khim 20 (1947) 385, Copyright 1947, with permission of Nauka (Russian Academy of Sciences) publishing.
Table 4. Compounds precipitated from tantalum-containing solutions Reproducedfrom [61], D. V. Tsikaeva, A. /. Agulyansky, Y. I. Balabanov, V Y. Kuznetsov, V. T. Kalinnikov, Zh. Neorg. Khim. 34 (1989) 3046, Copyright 1989, with permission of Nauka (Russian Academy of Sciences) publishing. Table 4. Compounds precipitated from tantalum-containing solutions Reproducedfrom [61], D. V. Tsikaeva, A. /. Agulyansky, Y. I. Balabanov, V Y. Kuznetsov, V. T. Kalinnikov, Zh. Neorg. Khim. 34 (1989) 3046, Copyright 1989, with permission of Nauka (Russian Academy of Sciences) publishing.
Fig. 30. Projection of NH4NbOF4 structure on the planes (001) and (010). Reproduced from [204], V. 1. Pakhomov, T.A. Kaidalova, Kristallografiya 19 (1974) 733, Copyright 1974, with permission of Nauka (Russian Academy of Sciences) publishing. Fig. 30. Projection of NH4NbOF4 structure on the planes (001) and (010). Reproduced from [204], V. 1. Pakhomov, T.A. Kaidalova, Kristallografiya 19 (1974) 733, Copyright 1974, with permission of Nauka (Russian Academy of Sciences) publishing.
Fig. 31 Crystal structure of Rb sNb30Ft8. Projection on the plane (001). Numbers in brackets are the atom coordinates on the z-axis in percents of c parameter. Structure of NbOFj chains and NbFf polyhedron. Reproduced from [209], A. I. Agulyansky, V. E. Zavodnik, V. Y. Kuznetzov et al. Neorgan. Mater. 27 (1991) 380, Copyright 1991, with permission of Nauka (Russian Academy of Sciences) publishing. Fig. 31 Crystal structure of Rb sNb30Ft8. Projection on the plane (001). Numbers in brackets are the atom coordinates on the z-axis in percents of c parameter. Structure of NbOFj chains and NbFf polyhedron. Reproduced from [209], A. I. Agulyansky, V. E. Zavodnik, V. Y. Kuznetzov et al. Neorgan. Mater. 27 (1991) 380, Copyright 1991, with permission of Nauka (Russian Academy of Sciences) publishing.
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