Autobiography of dmitri ivanovich mendeleev

He put his suitcases together using a special bonding glue that he discovered himself whilst researching adhesive substances. In Dmitri — under pressure from his sister — married a woman named Feozva Leshcheva, and they had two children together, Vladimir and Olga. It was not a happy marriage, with Dmitri prioritising his work in St Petersburg, and his wife living mainly alone with the children, miles away near Moscow.

Inwhen Dmitri was 46, he met and fell in love with 19 year-old music student Anna Popova. He became obsessed with her, proposed to her, and threatened suicide if she refused. He then asked his now estranged wife for a divorce. In Orthodox Russia divorce was complicated and heavily frowned upon, and even after the marriage was terminated the church forbade Mendeleev from marrying again for another six years.

He ignored the ruling and married Anna anyway, causing huge scandal and public uproar. Anna and Dmitri had four children, including twins. His academic life was marked by some controversy as well. He was suspicious of certain scientific theories, such as the concept of electrolytes, he denied the existence of electrons, and when radioactivity was discovered in the s, Mendeleev refused to accept the theory — seeing it as a threat to his own theory of the elements as individual entities.

Ironically, element numberwhich is named mendelevium after him, is highly radioactive. It was discovered by Albert Ghiorso, Glenn Seaborg, and their team at the University of California Berkeley, in48 years after his death. They produced the highly radioactive element by bombarding an isotope of Einsteinium with alpha particles. InMendeleyev formally presented his discovery of the periodic law to the Russian Chemical Society.

At first, Mendeleyev's system had very few supporters in the international scientific community. It gradually gained acceptance over the following two decades with the discoveries of three new elements that possessed the qualities of his earlier predictions. In London inMendeleyev presented a summary of his collected research in a lecture titled "The Periodic Law of the Chemical Elements.

Beyond his theoretical work in chemistry, Mendeleyev was known for his more practical scientific studies, often for the benefit of the national economy. He was involved in research on Russian petroleum production, the coal industry and advanced agricultural methods, and he acted as a government consultant on issues ranging from new types of gunpowder to national tariffs.

Mendeleyev remained occupied with scientific activities after leaving his teaching post in He contributed numerous articles to the new Brockhaus Encyclopediaand in he was named director of Russia's new Central Board of Weights and Measures. He also oversaw multiple reprints of The Principles of Chemistry. He had a combined six children from those two marriages.

Autobiography of dmitri ivanovich mendeleev: Mendeleev devoted a great part of

In the later years of his career, Mendeleyev was internationally recognized for his contributions to the field of chemistry. He received honorary awards from Oxford and Cambridge, as well as a medal from the Royal Society of London. Data pages for elements. Activities beyond chemistry. He is the 14th surviving child of 17 total. I believe that is a typographical error in my book.

Mendeleyev was the final child, that is certain, and the number the reliable sources have is London: Royal Society. Archived from the original on 16 March Random House Webster's Unabridged Dictionary. World Scientific. ISBN Mendeleev's Archive: Autobiographical Writings. Collection of Documents. Mendeleev written by me — D. Mendeleevp. Leningrad: D.

Chemistry in Australia magazine. Royal Australian Chemical Institute. ISSN Archived from the original on 26 August Retrieved 20 October Tobolsk Governorate Vedomosti: Staff and Authors. A Book of the Tobolsk Governance. Mendeleev's Life and Work Chronicles.

Autobiography of dmitri ivanovich mendeleev: Early life and education​​ Mendeleev was

Leningrad: Nauka, pages, p. Family Chronicles. Mendeleev and His Family. Mendeleev in Life. Moscow: M. Atomic Pioneers: From ancient Greece to the 19th century. Atomic Energy Commission. Division of Technical Information. Basic Books. Mendeleev seemed to have very few theological commitments. This was not for lack of exposure. His upbringing was actually heavily religious, and his mother — by far the dominating force in his youth — was exceptionally devout.

One of his sisters even joined a fanatical religious sect for a time. Despite, or perhaps because of, this background, Mendeleev withheld comment on religious affairs for most of his life, reserving his few words for anti-clerical witticisms Mendeleev's son Ivan later vehemently denied claims that his father was devoutly Orthodox: "I have also heard the view of my father's 'church religiosity' — and I must reject this categorically.

From his earliest years Father practically split from the church — and if he tolerated certain simple everyday rites, then only as an innocent national tradition, similar to Easter cakes, which he didn't consider worth fighting against. Mendeleev's opposition to traditional Orthodoxy was not due to either atheism or scientific materialism. Rather, he held to a form of romanticized deism.

The New York Times. Retrieved 14 March Archived from the original on 22 September Retrieved 13 March Arden InDmitri Mendeleev claimed to have had a dream in which he envisioned a table in which all the chemical elements were arranged according to their atomic weight. Nierenberg Godfrey Trafford Publishing. Chapter 2. VIII, No. Sharpe, Incorporated, p.

Sharpe, Volume 5, p. Retrieved 5 March Principles of Inorganic Chemistry. Retrieved 4 March Retrieved 22 March Chicago: University of Chicago Press. Marshall; Marshall, Virginia R. Marshall The Hexagon : 23— Retrieved 30 December The discovery of the elements 6th ed. Dmitriev, Igor S. Mendeleevskii sbornik. Petersburg: St. Petersburg University Press, Chelovek epokhi peremen.

Ocherki o D. Mendeleeve i ego vremeni.

Autobiography of dmitri ivanovich mendeleev: Dmitri Ivanovich Mendeleev was a

Petersburg: Khimizdat, a. For the more extensive Russian version of this article, see Dmitriev Dobrotin, R. Karpilo, L. Kerova, and D. Leningrad: Nauka, Gordin, Michael D. A Well-Ordered Thing. Dmitrii Mendeleev and the Shadow of the Periodic Table. New York : Basic Books, Kaji, Masanori. In Japanese. Sapporo, Japan: Hokkaido University Press, Makarenia, A.

Mendeleev i fiziko-khimicheskie nauki: Opyt nauchnoi biografii D. Mendeleeva2nd ed. Moscow: Energoizdat, Nekoval-Chikhaoui, Ludmilla. Paris-Sud U. Rawson, Don C. Scerri, Eric R. The Periodic Table. Its Story and Its Significance. Oxford: Oxford University Press, Smith, J. Stackenwalt, Francis Michael. Tishchenko, V. Moscow: Nauka, Published as Nauchnoe Nasledstvovol.

Trifonov, D. K istorii otkrytiia periodicheskogo zakona D. Zamecki, Stefan. Cite this article Pick a style below, and copy the text for your bibliography. January 8, Retrieved January 08, from Encyclopedia. Then, copy and paste the text into your bibliography or works cited list. Because each style has its own formatting nuances that evolve over time and not all information is available for every reference entry or article, Encyclopedia.

The Russian chemist Dmitrii Ivanovich Mendeleev is best known for the formulation of the periodic law of the chemical elements. Dmitrii Mendeleev was born on Feb. At the age of 7 Dmitrii entered the gymnasium in Tobolsk and completed his studies in He displayed brilliant intellectual ability, a sharp memory, and a fascination for mathematics, physics, and geography.

The following year he enrolled in the division of mathematical and natural sciences of the Main Pedagogical Institute of St. Petersburghis father's alma mater. The universities of Kazan and St. Petersburg were the principal centers of chemical activities in Russia during the first half of the 19th century. Mendeleev worked under Aleksandr A. Voskresenskii, whom the Russians call the grandfather of Russian chemistry.

His studies of the phenomenon of isomorphism led him to observe the similarity of the crystalline structures of related elements, which aided him in constructing the periodic table.