Suchergebnisse
Suchergebnisse:
November 1837 in Leiden; † 8. März 1923 in Amsterdam) war ein niederländischer Physiker. 1910 erhielt er den Nobelpreis für Physik . Inhaltsverzeichnis. 1 Leben. 2 Leistungen. 3 Siehe auch. 4 Schriften. 5 Weblinks. 6 Einzelnachweise. Leben. Nach seiner Schulausbildung war er als Lehrer in seiner Heimatstadt Leiden tätig.
Johannes Diderik van der Waals (Dutch pronunciation: [joːˈɦɑnəz ˈdidərɪk fɑn dər ˈʋaːls] ⓘ; 23 November 1837 – 8 March 1923) was a Dutch theoretical physicist and thermodynamicist famous for his pioneering work on the equation of state for gases and liquids. Van der Waals started his career as a schoolteacher. He ...
Biographical. Johannes Diderik van der Waals was born on November 23, 1837 in Leyden, The Netherlands, the son of Jacobus van der Waals and Elisabeth van den Burg. After having finished elementary education at his birthplace he became a schoolteacher. Although he had no knowledge of classical languages, and thus was not allowed to take academic ...
15. Apr. 2024 · Johannes Diederik van der Waals (born Nov. 23, 1837, Leiden, Neth.—died March 9, 1923, Amsterdam) was a Dutch physicist, winner of the 1910 Nobel Prize for Physics for his research on the gaseous and liquid states of matter. His work made the study of temperatures near absolute zero possible.
- The Editors of Encyclopaedia Britannica
12. Nov. 2010 · Johannes Diderik van der Waals: A Pioneer in the Molecular Sciences and Nobel Prize Winner in 1910 - Tang - 2010 - Angewandte Chemie International Edition - Wiley Online Library.
- Kwong-Tin Tang, Jan Peter Toennies
- 2010
Johannes Diderik van der Waals. The Nobel Prize in Physics 1910. Born: 23 November 1837, Leiden, the Netherlands. Died: 8 March 1923, Amsterdam, the Netherlands. Affiliation at the time of the award: Amsterdam University, Amsterdam, the Netherlands.
An article that describes the life and scientific achievements of van der Waals, the author of the equation of state that bears his name. It also discusses the limitations of the equation and its applications to real gases.
