Relevant bibliographies by topics / Mendeleev

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Mendeleev'

Author: Grafiati
Published: 4 June 2021
Last updated: 2 February 2022

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Journal articles on the topic "Mendeleev"

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Ginak, Elena. "The «D.I. Mendeleev’s Periodic System of the Elements» Mural Near the Mendeleev Institute for Metrology in Saint Petersburg: How Metrologists Celebrated the 100th Anniversary of the Scientist." Substantia 5, no. 2 (September 9, 2021): 79–84. http://dx.doi.org/10.36253/substantia-1028.

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This article is timed to the celebration of the International Year of the Periodic Table of Chemical Elements, declared by the UN and UNESCO in connection with the 150th anniversary of the discovery by D. I. Mendeleev of the Periodic Law of Chemical Elements (1869). The article highlights the metrological activity of D. I. Mendeleev and tells about how in the scientific metrological center, he created the Main Chamber of Weights and Measures. Now the D.I. Mendeleyev Institute for Metrology (VNIIM) preserves the memory of the life and activities of the great Russian scientist and encyclopedist. Based on the research carried out in the archives of St. Petersburg and the funds of Metrological Museum, the article for the first time details the history of the formation of the Mendeleev memorial complex on the territory of VNIIM. The contribution of the institute metrologists to the creation of such famous sights of St. Petersburg as the monument to D. I. Mendeleev (sculptor I. Ya. Ginzburg, 1932) and the mural (mosaic) «D. I. Mendeleev Periodic system of elements» (1935) on the occasion of the 100th anniversary of the scientist is shown. All peripteries, related to the installation of the monument - table are described: a selection of options for the arrangement of elements, decoration, manufacturer and manufacturing techniques, coordination with various organizations, solving financing issues.
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Belova, T. "Dmitriy Mendeleev’s Forecasts of the Population of Russia. and the Realities of its Present Development." Population and Economics 2, no. 3 (October 12, 2018): 1–41. http://dx.doi.org/10.3897/popecon.2.e36054.

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In his last work “The Sacred Thoughts” an outstanding Russian scientist and encyclopedist Dmitri Ivanovich Mendeleev has explored demographic processes, acting as an economist and sociologist. The author of this article examines methodical approaches and tools, repeats and continues calculations of Mendeleev using modern data and information technologies. Comparing Mendeleev’s forecasts of the size and age structure of population of Russia with the modern statistical data, the author discusses the reasons for the “failure” of forecasts. The arsenal of modern demographic tools can be supplemented with Mendeleev’s idea on using the formula (law) of the vertical parabola in studying the age structure (the dependence between the size of the group and age).
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Tsivadze, Aslan Yu. "Periodic Law, Mendeleev Society and Mendeleev Congresses." Vestnik RFFI, no. 1 (April 24, 2019): 17–24. http://dx.doi.org/10.22204/2410-4639-2019-101-01-17-24.

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In November 1868, the Ministry of Enlightenment of Russia approved the Charter of the Russian Chemical Society (RCS), one of the Founding Members of which had been Dmitri Mendeleev. The first report on Mendeleev Periodic Table of Chemical Elements was delivered during a meeting of the RCS in March 1869. Therefore 1869 is considered by the world science as the year of discovery of the Periodic Law and formulation of the Periodic Table of Chemical Elements. Year 2019 is the 150th anniversary since Dmitry Mendeleev discovered the Periodic System, and the United Nations proclaimed this year to be the International Year of the Periodic Table of Chemical Elements (IYPT2019). After a series of transformations, in 1992 the RCS became the Mendeleev Russian Chemical Society. In 2019, the RCS is holding anniversary events. The extraordinary Mendeleev Congress on General and Applied Chemistry is one of them. It will be held in Saint Petersburg in September 2019 and will host approximately 3,000 foreign and Russian participants. English-speaking symposia, conferences and round tables on current issues of strategic development of science and technology are planned as a part of the Congress.
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Reznick, David. "The tree and the table: Darwin, Mendeleev and the meaning of ‘theory’." Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences 378, no. 2180 (August 17, 2020): 20190309. http://dx.doi.org/10.1098/rsta.2019.0309.

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Darwin and Mendeleev revolutionized their respective disciplines by organizing diverse facts into simple, pictorial representations—a tree and a table. Each representation provides a foundation for a scientific theory for two reasons. First, a successful theory unites diverse phenomena under a single explanatory framework. Second, it does so in a way that defines paths for future inquiry that extends its reach and tests its limits. For Mendeleev, this meant creating a table that accommodated the current understanding of the elements but also contained blanks that predicted the discovery of previously unknown elements. More importantly, the structure of the table helped shape future research to define the structure of matter. For Darwin, envisioning life as a tree meant defining the rules that govern the origin of adaptations, species and shape the constantly shifting diversity of life. At the same time, his theory inspired research into the laws of inheritance and created diverse new areas of research, like behaviour, sexual selection and biogeography. The shared property of Darwin and Mendeleev's contributions was to provide a unifying rational explanation for natural phenomena. This article is part of the theme issue ‘Mendeleev and the periodic table’.
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Shiltsev, Vladimir. "Mendeleev: Lomonosov 2.0." Physics World 32, no. 5 (May 2019): 26. http://dx.doi.org/10.1088/2058-7058/32/5/25.

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Brooks, Nathan M. "Mendeleev and Metrology." Ambix 45, no. 2 (July 1998): 116–28. http://dx.doi.org/10.1179/amb.1998.45.2.116.

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Rosen, Stephen. "Mendeleev and Sputnik." Nature Biotechnology 9, no. 4 (April 1991): 396. http://dx.doi.org/10.1038/nbt0491-396.

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Смирнов, Николай, and Nikolay Smirnov. "On the birth of theatrical tradition in the estate of D. I. Mendeleev «Boblovo»." Service & Tourism: Current Challenges 9, no. 2 (June 15, 2015): 134–37. http://dx.doi.org/10.12737/11407.

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The present paper is the result of years of hard work of the author on the study traditions of family life of the great Russian scientist D. I. Mendeleev, his close and distant relatives. It is dedicated to the 150"1 anniversary of the purchase by D. I. Mendeleev in June 1865 of Boblovo, which is a resurgent Northern Moscow Region estate. In the circle of the descendants of the great scientist often talk about the «Clan ofD. I. Mendeleev». It included members of the first and second families of D. Mendeleev: Theosebia Nikitichna first wife, his second wife, Anna Ivanovna, and their children, six in two marriages of Mendeleev. Readers iare offered to learn about Mendeleev who led a unique family, which included brothers and sisters, nephews, great-nephews of the scientist, his friends. One of the traditions of Mendeleev>s clan was known as barn-theater productions with active participation of the poet Alexander Blok. Of course, the poet can be safely attributed to the «Clan of Mendeleev». This rather large community of citizens of modern Russia includes the author of the article, who belongs to the generation of great-great nephews ofD. I. Mendeleev. Author´s research methodology is original, it is dominated by information received from the mouth of the descendants of the great scientist. The article mentions a totally unique document that sheds light on the many pages of the history of Boblovo. This document adds new content road tour «Bol´shoe Shakhmatovo» linking Shakhmatovo (A. A. Blok estate) with the estate ofD. I. Mendeleev and villages Pokrovskoe, Rogachevo, Ivanovo, St. Nicholas-Peshnoshsky monastery, estate «Tarakanovo».
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Sharp, David. "Elementary, my dear Mendeleev." Lancet 363, no. 9415 (April 2004): 1092. http://dx.doi.org/10.1016/s0140-6736(04)15933-3.

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Howson, Colin, and Allan Franklin. "Maher, Mendeleev and Bayesianism." Philosophy of Science 58, no. 4 (December 1991): 574–85. http://dx.doi.org/10.1086/289641.

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Dissertations / Theses on the topic "Mendeleev"

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Butorac, Mark. "From the other oil field : Mendeleev, the West and the Russian oil industry." Thesis, McGill University, 2001. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=38161.

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This thesis attempts to determine whether the Russian chemist, Dmitrii Ivanovich Mendeleev, was open to Western ideas and capital in the Russian petroleum industry. It does so by examining five of his trips to study this business, as either an advisor to the Russian government or a private consultant. These voyages took place between 1863 and 1886 and saw Mendeleev in France, the United States and the Caucasus. Each trip produced a combination of personal letters, diaries, and published articles. This work employs a mixture of published and unpublished archival documents. In the process, much is revealed about the history of this industry, its industrialists, as well as Mendeleev's personality.
The introduction outlines the general questions that this thesis aims to answer. Chapter one summarizes Mendeleev's life until he first worked in the oil industry in 1863. These formative years were crucial for Mendeleev. His youthful travels around Europe, studies in Germany and personal inclinations, made him a multi-lingual and cosmopolitan individual. The remaining five chapters examine Mendeleev's trips to study the industry. An epilogue briefly recounts his final years.
The conclusion of this thesis is that contrary to Soviet scholarship, Mendeleev was open to the West. His only requirement was that Western ideas and capital assist in the growth of the Russian oil industry and result in abundant and cheap kerosene for the Russian population.
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Baia, Flávia Alves dos Santos Pereira. "Átomos, elementos químicos, planetas e estrelas - concepções de Mendeleev sobre o mundo microscópico." Universidade de São Paulo, 2011. http://www.teses.usp.br/teses/disponiveis/81/81132/tde-31052012-105355/.

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Este trabalho tem por objetivo analisar as concepções a respeito de átomos e elementos químicos, expressas pelo químico russo Dmitri I. Mendeleev (1834 - 1907). Para isso, recorremos a textos desse autor que foram traduzidos para o inglês, principalmente seu livro didático Principles of Chemistry, mas também os artigos \"An Attempt to Apply to Chemistry one of The Principles of Newton\"s Natural Philosophy\", (1889) e \"An Attempt towards a chemical conception of the ether\", (1902). No decorrer do século XIX, a hipótese atômica formulada por Dalton, e elaborada por outros químicos, ainda não era unanimemente aceita pela comunidade científica. Nesse contexto, observamos que Mendeleev se alinhava aos autores que tinham reservas quanto à realidade física dos átomos. Para compreender seus motivos, é importante considerar que os primeiros estudos científicos de Mendeleev se referiam aos chamados \"compostos indefinidos\", isto é, compostos que não obedeciam à lei das proporções múltiplas de Dalton. Mendeleev reconhecia que a hipótese atômica explicava uma série de fenômenos químicos, mas não era capaz de explicar os compostos indefinidos. Por outro lado, Mendeleev propôs uma clara distinção entre os conceitos de elemento químico e de corpo simples. Os elementos seriam entidades abstratas, portadoras da individualidade química, ideia considerada fundamental por Mendeleev e que o conduziu à formulação da lei periódica. Nos escritos analisados, Mendeleev fez uso, de maneira recorrente, da analogia entre o sistema solar e as moléculas. Nessa analogia, os planetas remetem à ideia de individualidade, essencial para a compreensão do conceito de elemento químico; mas, ao mesmo tempo, não remetem à ideia de indivisibilidade física - o ponto da hipótese atômica que por muito tempo foi objeto de descrença por parte de Mendeleev.
This work aims to analyze the concepts of atom and chemical elements, as presented in the writings of the Russian chemist Dmitri I. Mendeleev, (1834 - 1907). In this analysis were used English translations of Mendeleev\"s texts, especially his textbook Principles of Chemistry, but also the papers \"An Attempt to Apply to Chemistry one of The Principles of Newton\'s Natural Philosophy\", (1889) and \"An Attempt Towards a chemical conception of the ether\", (1902). During the nineteenth century, the atomic hypothesis, proposed by Dalton and elaborated by other chemists, was not unanimously accepted by the scientific community. In this context, one may note that Mendeleev was aligned with authors who had reservations about the physical reality of atoms. To understand his reasons, it is important to consider that the first scientific researches performed by Mendeleev were on the so-called indefinite compounds, that is, compounds that did not obey Dalton\"s law of multiple proportions. Mendeleev recognized that the atomic hypothesis explained a series of chemical phenomena, but it could not explain indefinite compounds. Moreover, Mendeleev proposed a clear distinction between the concepts of chemical elements and simple bodies. Elements were abstract entities with chemical individuality, a crucial idea to Mendeleev that led him to the proposition of the periodic law. In the analyzed texts, Mendeleev used, on a recurring basis, the analogy between the solar system and molecules. In this analogy, planets relate to the idea of individuality, which is essential to understand the concept of chemical element, but at the same time does not refer to the idea of physical indivisibility - the point of the atomic hypothesis that has long been subject to disbelief by Mendeleev.
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Burns, Elizabeth Stewart. "Revealing natures's blank spaces: Russian landscape paintings of Arkhip Ivanovich Kuindzhi (1842-1910) and the science of Dmitri Ivanovich Mendeleev(1834-1907)." The Ohio State University, 1999. http://rave.ohiolink.edu/etdc/view?acc_num=osu1247846729.

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Bazhenova, Evgenia [Verfasser], Rüdiger [Akademischer Betreuer] Stein, and Georgy [Akademischer Betreuer] Cherkashov. "Reconstruction of late Quaternary sedimentary environments at the southern Mendeleev Ridge (Arctic Ocean) / Evgenia Bazhenova. Gutachter: Rüdiger Stein ; Georgy Cherkashov. Betreuer: Rüdiger Stein." Bremen : Staats- und Universitätsbibliothek Bremen, 2012. http://d-nb.info/1072046423/34.

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Burns, Elizabeth Stewart. "Revealing nature's blank spaces : the Russian landscape paintings of Arkhip Ivanovich Kuindzhi (1842-1910) and the science of Dmitri Ivanovich Mendeleev (1834-1907) /." Connect to resource, 1999. http://rave.ohiolink.edu/etdc/view.cgi?acc%5Fnum=osu1247846729.

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Mehlecke, Clarissa de Mattos. "Um estudo do contexto histórico das contribuições de Mendeleev para construção da tabela periódica em livros didáticos de química para o ensino médio e inserção deste contexto em sala de aula." reponame:Biblioteca Digital de Teses e Dissertações da UFRGS, 2010. http://hdl.handle.net/10183/27042.

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Este trabalho visa a análise dos livros didáticos brasileiros de química de ensino médio em relação à temática de História e Filosofia da Ciência (HFC), e a inserção da História da Ciência em sala de aula, no tópico de tabela periódica. Para esta pesquisa num primeiro momento, foram selecionados os livros de química do Programa Nacional do Livro Didático de Ensino Médio (PNLEM) e para analisá-los foram utilizados critérios propostos por Niaz em uma pesquisa realizada na Venezuela em livros didáticos de química geral do Ensino Superior. Após esta etapa, foi realizada uma pesquisa em sala de aula para verificar como os alunos percebem a História da Ciência quando utilizada como estratégia de ensino para melhorar o entendimento do conteúdo de tabela periódica. Na análise dos livros didáticos percebemos que eles trazem informações sobre a história da ciência, porém, estas são apresentadas de uma forma desintegrada do conteúdo específico, as informações que se encontram nos livros são meramente ilustrativas, não sendo utilizadas como recurso didático. Em sala de aula percebemos que os alunos demonstraram receptividade por conhecer a origem da tabela periódica, mas não demonstram acreditar que isso interfere no seu aprendizado. No entanto foi verificado nos questionários realizados após o estudo de sala de aula, utilizando o contexto histórico de construção da tabela periódica que os alunos demonstraram facilidade na compreensão nos estudos sobre a estrutura da tabela periódica.
The aim of this work is to analyze Brazilian didactic books for intermediate education concerning the subject of History and Philosophy of Science (HPC) and the insertion of History of Science in the classroom within the periodic table topic. The first part of this research was the selection of chemistry books from the “Programa Nacional do Livro Didático de Ensino Médio” (PNLEM) (National Didactic Book Program for High school) and as analysis criteria it was used Niaz’s from a research carried out in Venezuela on chemistry didactic books used in Higher Education. Subsequently, that stage, a research was conducted out in classroom to assess how students perceive History of Science when it was used as a teaching strategy to improve understanding of the periodic table. From the analysis of the didactic books, it can be seen that they show information concerning history of science, however it is presented in a way that is detached from the specific content, all pieces of information found in the books are merely for illustrative purposes and are not used as a didactic resource. In the classroom it can be perceived that students show receptiveness in knowing the origin of the periodic table, but do not seem to believe that it interferes with their learning. However, it was found through questionnaires applied after the study in classroom, using the historic context of the construction of the periodic table, that students showed (more) gabbiness when studying the structure of the periodic table.
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Conocimiento, Dirección de Gestión del. "Mendeley." Elsevier, 2004. http://hdl.handle.net/10757/655361.

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Conocimiento, Dirección de Gestión del. "Guía de acceso para Mendeley." Elsevier, 2021. http://hdl.handle.net/10757/655361.

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Qar'a, Mohammad. "Hašpaʻat lšwn haMišnah ʻal yṣiyrwtayw šel Mendeley Mwker Spariym : dwgmaʼwt miktabayw šel Mendeley beyn Miqraʼ lMišnah /." Tönning : Der Andere Verlag, 2007. http://catalogue.bnf.fr/ark:/12148/cb41283523c.

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Texte remanié de: Dissertation--Fachbereich Geschichts- und Kulturwissenschaften--Berlin--Freie Universität Berlin, 2006.
Mention parallèle de titre ou de responsabilité : Der @Einfluss der Sprache der Mischna auf das Werk von Mendele Mocher Sefarim / Mohammad Al Qar'a. Contient un résumé en allemand. Bibliogr. p. 398-403.
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Montoya, Sermeño Kelly Isabel. "APA y Mendeley: citación de investigaciones en Diseño." Universidad Peruana de Ciencias Aplicadas (UPC), 2021. http://hdl.handle.net/10757/655074.

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Exploraremos en los cambios más notables de la última edición del estilo de citación APA, así como en las principales características de las citas y referencias, usadas en las disciplinas de Diseño. Aunque citar y referenciar con APA u otro estilo de citación puede resultar difícil para muchos investigadores, existen gestores bibliográficos como Mendeley, el cual es un sistema de almacenamiento y organización de referencias bibliográficas, que con sólo crear una cuenta permite manejar diferentes herramientas que facilitan la tarea de citar y referenciar.
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Books on the topic "Mendeleev"

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Okrepilov, V. V. Mendeleev i metrologii︠a︡. Sankt-Peterburg: Legasi, 2008.

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Dmitriĭ Ivanovich Mendeleev: Dialog s ėpokhoĭ. Moskva: Oktopus, 2010.

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Dzi︠u︡benko, P. V. D.I. Mendeleev i tamozhennyĭ tarif: Tamozhenno-tarifnai︠a︡ politika v nauchnom nasledii D.I. Mendeleeva : uroki dli︠a︡ Rossii. Moskva: Russkai︠a︡ novʹ, 2003.

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M.V. Lomonosov, D.I. Mendeleev, V.I. Vernadskij o Rossii. Moskva: Izd. Moskovskogo Univ., 2011.

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Kuznet︠s︡ov, O. A. Nauchno-issledovatelʹskoe sudno "Dmitriĭ Mendeleev" i ego ėkspedit︠s︡ii, 1969-1993. Moskva: GEOS, 2002.

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Vasilʹeva, T. N. Ot MendeleevO do MendeleevA: Byli, legendy i mify. Mendeleevo: VNIIFTRI, 2010.

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Tishchenko, V. E. Dmitrii Ivanovich Mendeleev, ego zhizn' i deyatel'nost': Universitetskii period, 1861-1890 gg. Moskva: Nauka, 1993.

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Gordin, Michael D. A well-ordered thing: Dmitrii Mendeleev and the shadow of the periodic table. New York: Basic Books, 2004.

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Gordin, Michael D. A well-ordered thing: Dmitrii Mendeleev and the shadow of the periodic table. New York: Basic Books, 2004.

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A well-ordered thing: Dmitrii Mendeleev and the shadow of the periodic table. New York: Basic Books, 2004.

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Book chapters on the topic "Mendeleev"

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Butsenko, Victor V., Yury G. Firsov, Evgeny A. Gusev, Valery D. Kaminsky, Sergey P. Kashubin, Alexey L. Piskarev, and Victor A. Poselov. "Mendeleev and Alpha Ridges." In Geologic Structures of the Arctic Basin, 239–68. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-77742-9_7.

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Thyssen, Pieter, and Koen Binnemans. "Mendeleev and the Rare-Earth Crisis." In Boston Studies in the Philosophy and History of Science, 155–82. Dordrecht: Springer Netherlands, 2014. http://dx.doi.org/10.1007/978-94-017-9364-3_11.

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Mainz, Vera V. "Mendeleev and the Chemistry Textbook in Russia." In ACS Symposium Series, 163–208. Washington, DC: American Chemical Society, 2018. http://dx.doi.org/10.1021/bk-2018-1273.ch008.

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de Oliveira, Alex Santos, Bruno Merlin, Heleno Fülber, João Elias Vidueira Ferreira, and Tatiana Nazaré de Carvalho Artur Barros. "QUIMIVOX MOBILE: Assistive Tool to Teach Mendeleev Table." In Universal Access in Human–Computer Interaction. Human and Technological Environments, 188–97. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-58700-4_16.

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Belyaeva, N. V., and T. A. Khusid. "Foraminiferal Assemblages in Sediments from Mendeleev Ridge, Arctic Ocean." In Geological History of the Polar Oceans: Arctic versus Antarctic, 447–54. Dordrecht: Springer Netherlands, 1990. http://dx.doi.org/10.1007/978-94-009-2029-3_25.

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Tuchkova, M. I., S. P. Shokalsky, S. D. Sokolov, and O. V. Petrov. "Correlation of Chukotka, Wrangel Island and the Mendeleev Rise." In Springer Geology, 165–86. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-46862-0_7.

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Cotton, Simon A. "The Rare Earths, a Challenge to Mendeleev, No Less Today." In Perspectives on the History of Chemistry, 259–301. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-67910-1_11.

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Robinson, Ann E. "Dmitri Mendeleev and the Periodic System: Philosophy, Periodicity, and Predictions." In Perspectives on the History of Chemistry, 13–33. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-67910-1_2.

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Byrne, Charles J. "The Western Far Side Region: Earth-rise, Tsiolkovskiy, Gagarin, and the Mendeleev Basin." In The Far Side of the Moon, 18–50. New York, NY: Springer New York, 2008. http://dx.doi.org/10.1007/978-0-387-73206-0_6.

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Gordin, Michael D. "The Textbook Case of a Priority Dispute: D. I. Mendeleev, Lothar Meyer, and the Periodic System." In Nature Engaged, 59–82. New York: Palgrave Macmillan US, 2012. http://dx.doi.org/10.1057/9780230338029_4.

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Conference papers on the topic "Mendeleev"

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Teleshov, Sergei, and Elena Teleshova. "THE INTERNATIONAL YEAR OF THE PERIODIC TABLE: AN OVERVIEW OF EVENTS BEFORE AND AFTER THE CREATION OF THE PERIODIC TABLE." In 3rd International Baltic Symposium on Science and Technology Education (BalticSTE2019). Scientia Socialis Ltd., 2019. http://dx.doi.org/10.33225/balticste/2019.227.

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It has been 150 years since D.I. Mendeleev formulated the Periodic law and expressed it visually in the form of a table of elements in 1869. As is clearly well known today, Mendeleev’s ideas, confirmed by the discovery of the elements he predicted, turned out to be very promising indeed. However, Mendeleev was not the first, nor the only scientist to have investigated the periodic arrangement of the elements. With this in mind, the present paper seeks to highlight some of the other efforts made in the field during Mendeleev’s lifetime. Keywords: D. Mendeleev, periodic table, table options, history of science.
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Semenov, Igor Vitalievich. "Dmitry Ivanovich Mendeleev - Creator of the Periodic System of Chemical Elements." In International Research and Practical Conference for Pupils, chair Irina Viktorovna Iakovleva. TSNS Interaktiv Plus, 2019. http://dx.doi.org/10.21661/r-508593.

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The author of the article addresses significant milestones in the life path of Dmitry Ivanovich Mendeleev, gives the statement of the historian of science, academician B.M. Kedrova, characterizing the personality of the creator of the Periodic system of chemical elements.
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Kuular, L. L., S.-S. R. Kuular, and CH V. Homushku. "Methodical materials “In the name of D.I. Mendeleev named ... "as a means extracurricular activities." In Scientific Trends: Pedagogy and Psychology. ЦНК МОАН, 2019. http://dx.doi.org/10.18411/sciencepublic-04-07-2019-03.

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Abramova, Nadezhda Leonidovna, Nadezhda Gennadievna Pytkeeva, and Ekaterina Leonidovna Baryshnikova. "THE LANGUAGE OF THE PERIODIC SYSTEM OF CHEMICAL ELEMENTS D.I. MENDELEEV IN THE PROPEDEUTIC SCHOOL CHEMISTRY COURSE." In Международный педагогический форум "Стратегические ориентиры современного образования". Уральский государственный педагогический университет, 2020. http://dx.doi.org/10.26170/kso-2020-181.

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Abuhani, Waleed A., Nabanita Dasgupta-Schubert, Jürgen Mattusch, Vijay R. Sharma, and Luis Manuel Villeseñor Cendejas. "IN THE FOOTSTEPS OF MENDELEEV: HEAVY ELEMENTS IN THREE GEOTHERMAL MICRO-ECOLOGICAL ZONES OF THE LOS AZUFRES (MEXICO) CALDERA." In Nineteenth Lomonosov Conference on Elementary Particle Physics. WORLD SCIENTIFIC, 2021. http://dx.doi.org/10.1142/9789811233913_0105.

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Islamov, R. S. "THE EXPERIENCE OF TEACHING ENGLISH SPECIAL LEXIS FOR THE MULTILINGUAL GROUPS OF CHEMICAL DEPARTMENTS (BASED ON THE ONOMASTICS OF D.I. MENDELEYEV'S PERIODIC TABLE)." In THEORETICAL AND APPLIED ISSUES OF LINGUISTIC EDUCATION. KuzSTU, 2020. http://dx.doi.org/10.26730/lingvo.2020.130-138.

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The paper observes the matter of proper names of chemical elements of the periodic table by D.I. Mendeleev, the history of their origin, and transformation while the morphemic and semantic loaning from Greek and Latin languages. Moreover, the name for this lexis is proposed as stoichonyms. The topic under discussion is actual for chemistry students in classes of English. The paper provides an example of multilingual group of the speakers of Russian, Tajik, and Kyrgyz languages. The special interest is the comparative lexemic analysis of the names of chemical elements in these three languages. By means of it, one can conclude on the students' perception of the scientific lexis in the light of its etymology, on the one hand. On the other hand, one can make an approach to teaching the special lexis not only by language teacher but chemistry as well.
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Stefanovsky, S. V., A. G. Ptashkin, Y. M. Kuliako, S. A. Perevalov, S. V. Yudintsev, A. M. Chekmarev, A. V. Ochkin, and A. M. Chemarev. "Development of Actinide-Containing Waste Immobilization Process." In ASME 2003 9th International Conference on Radioactive Waste Management and Environmental Remediation. ASMEDC, 2003. http://dx.doi.org/10.1115/icem2003-4673.

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Actinide wastes involve actinide or rare earth–actinide fractions of high level waste (HLW), Pu-contaminated materials, including incinerator ashes, excess weapons plutonium, and some wastes formed during plutonium conversion in MOX fuel and nuclear accidents. SIA Radon in cooperation with Vernadsky Institute of Geochemistry, Institute of Geology of Ore Deposits, and D. Mendeleev University of Chemical Technology deals with development and testing of actinide waste forms and preparation methods. Zirconolite, pyrochlore, and murataite are considered as host phases for plutonium and other actinides. Two-phase ceramics based on zirconolite-perovskite, pyrochlore-perovskite, perovskite–cubic zirconia-based solid solution, murataite-perovskite, and zirconolite-murataite assemblages were designed for incorporation of actinide and rare earth–actinide fractions of HLW. Glass-ceramics containing apatite-britholite phases have been proposed for incinerator ash fixation. All these matrices have high chemical durability and radiation stability. The most promising method for production of these waste forms is an inductive melting in a cold crucible. Cold pressing and sintering technology is considered as alternative route. Mechanical activation intensifies ceramization process and reduces sintering temperature. Some new methods such as selfsustaining synthesis and plasma melting are being also examined.
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Karyagin, Stanislav V. "Gamma-ray solid laser: variety of work nuclei and host matrixes in Mendeleev Table screened with use of system of criteria based on joint GG&RH theory." In Laser Optics 2000, edited by Alexander A. Andreev and Vladimir E. Yashin. SPIE, 2001. http://dx.doi.org/10.1117/12.418804.

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Vargas, Saúl, Maya Hristakeva, and Kris Jack. "Mendeley." In RecSys '16: Tenth ACM Conference on Recommender Systems. New York, NY, USA: ACM, 2016. http://dx.doi.org/10.1145/2959100.2959116.

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Henning, Victor, and Jan Reichelt. "Mendeley - A Last.fm For Research?" In 2008 IEEE Fourth International Conference on eScience (eScience). IEEE, 2008. http://dx.doi.org/10.1109/escience.2008.128.

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Reports on the topic "Mendeleev"

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Shiltsev, Vladimir. WHY GENIUS? WHAT'S GENIUS? Dmitrii Mendeleev: The Table and Beyond. Office of Scientific and Technical Information (OSTI), November 2019. http://dx.doi.org/10.2172/1596036.

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García-Casado, María-del-Mar. Mendeley y APA: cómo utilizar Mendeley para redactar la bibliografía en formato APA 7th: nivel básico. Universidad de León. Biblioteca Universitaria, 2020. http://dx.doi.org/10.18002/apa.

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Asoyan, Dolores, and Nataliya Kukushkina. Hazardous relief-forming processes and phenomena in the area Yuzhno-Kuril’sk –Mendeleyevo, Kunashir Island. Edited by Dolores Asoyan. DIK, March 2009. http://dx.doi.org/10.15356/dm2015-12-01-16.

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