词条 | Richard Abegg |
释义 |
|name = Richard Abegg |image = Richard Abegg.jpg |caption = Richard Wilhelm Heinrich Abegg (1869–1910) |birth_date = {{birth date|1869|1|9|mf=y}}[1] |birth_place = Danzig, Prussia |residence = Germany |nationality = German |death_date = {{death date and age|1910|4|3|1869|1|9|mf=y}}[1] |death_place = Köslin, German Empire [1][2] |field = Chemist |work_institution = University of Göttingen University of Stockholm Wrocław University of Technology |alma_mater = University of Kiel University of Tübingen University of Berlin |doctoral_advisor = August Wilhelm von Hofmann |doctoral_students = Clara Immerwahr |known_for = Abegg's rule |prizes = |religion = |footnotes = |signature = Richard_Abegg_singature.svg }} Richard Wilhelm Heinrich Abegg (January 9, 1869 – April 3, 1910) was a German chemist[3] and pioneer of valence theory. He proposed that the difference of the maximum positive and negative valence of an element tends to be eight. This has come to be known as Abegg's rule. He was a gas balloon enthusiast, which caused his death at the age of 41 when he crashed in his balloon in Silesia. Abegg received his PhD on July 19, 1891 as the student of August Wilhelm von Hofmann at the University of Berlin. Abegg learned organic chemistry from Hofmann, but one year after finishing his PhD degree he began researching physical chemistry while studying with Friedrich Wilhelm Ostwald in Leipzig, Germany. Abegg later served as private assistant to Walther Nernst at the University of Göttingen and to Svante Arrhenius at the University of Stockholm. Abegg discovered the theory of freezing-point depression and anticipated Gilbert Newton Lewis's octet rule by revealing that the lowest and highest oxidation states of elements often differ by eight. He researched many topics in physical chemistry, including freezing points, the dielectric constant of ice, osmotic pressures, oxidation potentials, and complex ions.[4] Personal life and educationRichard Abegg was the son of Wilhelm Abegg and Margarete Friedenthal. He had a brother, Wilhelm Abegg, who became the Prussian Secretary of State.[3] After attending Wilhelm High School in Berlin, Abegg studied organic chemistry at the University of Kiel and the University of Tübingen. He then attended the University of Berlin, from which he received his doctorate as the student of August Wilhelm von Hofmann. In 1895, he married Line Simon, who became also a ballooning enthusiast. Abegg occupied himself with photography and balloon excursions. He was the initiator and chairperson of the Silesian Club for Aeronautics in Breslau. Furthermore, he had an assessor's function with the presidency of the German Air Sailors' Association. WorkDuring school, Abegg fulfilled his duties in the military. In 1891, he became an officer of the German Reserves. In 1900, he became an Oberleutnant in the Reserves in the 9th Regiment of Hussars. During this year, he made his first flight in a balloon, for military purposes. Balloon flights became a frequent pastime of both Abegg and his wife. He made many scientific observations during his subsequent flights, which were never published.[5] In 1894, Abegg worked as an assistant to Walther Nernst, one of the founders of physical chemistry and, at the time, Professor of Physical Chemistry. In 1897, he took a position as a professor of chemistry at the University of Breslau. Two years later, Abegg became a Privatdozent (chemistry chair) at the Wrocław University of Technology in Wrocław, Poland.[1] A year later he became a professor. Clara Immerwahr, the first wife of Fritz Haber, studied and graduated as his student. In 1909 he became a full professor. Together with his colleague Guido Bodländer, he published on electro-affinity, then a new principle of inorganic chemistry. Abegg is known best for his research recognizing the role that valence had with respect to chemical interactions. He found that some elements were less likely to combine into molecules, and from this concluded that the more stable elements had what are now called full electron shells. He was able to explain the attraction of atoms through opposite electrical charges. He also made the distinction between normal valence and contravalence. He found that the sum of these two valences always comes to eight, a rule that is now known as Abegg's rule.[1] Abegg was the editor of Zeitschrift für Elektrochemie from 1901 until his death in 1910.[5] Books by Abegg
See also
References1. ^1 2 3 4 {{cite encyclopedia |editor-first=Dale H. |editor-last=Hoiberg|encyclopedia=Encyclopædia Britannica |title=Abegg, Richard Wilhelm Heinrich|edition=15th |year=2010|publisher=Encyclopædia Britannica Inc. |volume=I: A-ak Bayes |location=Chicago, Illinois |isbn=978-1-59339-837-8|pages=24}} 2. ^{{cite book|editor-first=Allen G.|editor-last=Debus|title=World Who's Who in Science|year=1968|publisher = Western Publishing Company| location= Hannibal, MO|isbn=0-8379-1001-3|page=3}} 3. ^1 {{cite book|title = Chambers Biographical Dictionary|isbn = 0-5501-8022-2|pages = 3}} 4. ^{{cite encyclopedia|year = 2010 |title = Abegg, Richard Wilhelm Heinrich|encyclopedia = Encyclopædia Britannica Ultimate Reference Suite |publisher = Encyclopædia Britannica|location = Chicago}} 5. ^1 {{cite journal|last1 = Hills|first1 = Walter|title = Richard Abegg|journal = Journal of the Chemical Society, Transactions|year = 1911|volume = 99|pages = 599–602|doi = 10.1039/CT9119900599|url = http://pubs.rsc.org/en/Content/ArticleLanding/1911/CT/CT9119900599|accessdate = 4 September 2010|format = PDF}}
| author = Walther Nernst | title = Obituary Richard Abegg | journal = Berichte der deutschen chemischen Gesellschaft | year = 1913 | volume = 46 | issue = 1 | pages = 619–628 | doi = 10.1002/cber.19130460182}}
External links
13 : German physical chemists|German chemists|1869 births|1910 deaths|German balloonists|Prussian Army personnel|People from Gdańsk|People from the Province of Prussia|University of Tübingen alumni|University of Kiel alumni|University of Göttingen faculty|Stockholm University academics|Humboldt University of Berlin alumni |
随便看 |
|
开放百科全书收录14589846条英语、德语、日语等多语种百科知识,基本涵盖了大多数领域的百科知识,是一部内容自由、开放的电子版国际百科全书。