This Biography is about one of the best Chemist Irving Langmuir including his Height, weight, Age & Other Detail…
| Biography Of Irving Langmuir | |
| Real Name | Irving Langmuir |
| Profession | Chemists |
| Famous as | Chemist |
| Nationality | American |
| Personal life of Irving Langmuir | |
| Born on | 31 January 1881 |
| Birthday | 31st January |
| Died At Age | 76 |
| Sun Sign | Aquarius |
| Born in | Brooklyn |
| Died on | 16 August 1957 |
| Place of death | Woods Hole |
| Education | Columbia University, University of Columbia University School of Engineering and Applied Science, Chestnut Hill Academy |
| Hobbies | Mountaineering, Skiing, Piloting his own plane, and Classical music |
| Awards | 1932 – Nobel Prize in Chemistry
1918 – Hughes Medal 1920 – Rumford Prize Franklin Medal 1937 – John Scott Legacy Medal and Premium 1928 – Perkin Medal 1944 – Faraday Medal 1950 – John J. Carty Award for the Advancement of Science |
| Personal Fact of Irving Langmuir | |
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Irving Langmuir was an American chemist and physicist who won the 1932 Nobel Prize in Chemistry for his work in surface chemistry, becoming the first industrial chemist to receive this honor. Though his research was primarily focused on surface chemistry, he was also famous for his works in other scientific areas like atomic structure, surface phenomena in a vacuum, atmospheric science, and chemical reactions, thermal effects, and electrical discharges in gases. He is also credited to have popularized Gilbert N. Lewis’s cubical atom theory and Walther Kossel’s chemical bonding theory through his well known articleThe Arrangement of Electrons in Atoms and Molecules. Born as the son of inquisitive, nature loving parents, he was encouraged to be curious and observant from a young age. An intelligent boy, he performed well in school and graduated with a Bachelor of Science degree in metallurgical engineering (Met.E.) from the Columbia University School of Mines. He began working at the General Electric research laboratory after completing his doctorate and made many valuable contributions to the development of incandescent light bulbs. He also investigated thermionic emission and further research in the field ultimately led to the invention of a fast and efficient vacuum pump. |
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