Ideal gas law/External Links: Difference between revisions
Jump to navigation
Jump to search
imported>Milton Beychok m (Added an External Link) |
imported>Daniel Mietchen (+one) |
||
Line 3: | Line 3: | ||
*[http://www.chm.davidson.edu/chemistryapplets/gaslaws/GasConstant.html Gas Laws:Ideal Gas Law and the Gas Constant, Concepts] (Chemistry Department, [[Davidson College]], [[North Carolina]]) | *[http://www.chm.davidson.edu/chemistryapplets/gaslaws/GasConstant.html Gas Laws:Ideal Gas Law and the Gas Constant, Concepts] (Chemistry Department, [[Davidson College]], [[North Carolina]]) | ||
*[http://videolectures.net/mit801f99_lewin_lec33/ Lecture 33: Kinetic Gas Theory - Ideal Gas Law - Isothermal Atmosphere - Phase Diagrams - Phase Transitions] An excellent, 52 minute video lecture by Professor Walter H.G. Lewin at the [[Massachussetts Institute of Technology]] (MIT) | *[http://videolectures.net/mit801f99_lewin_lec33/ Lecture 33: Kinetic Gas Theory - Ideal Gas Law - Isothermal Atmosphere - Phase Diagrams - Phase Transitions] An excellent, 52 minute video lecture by Professor Walter H.G. Lewin at the [[Massachussetts Institute of Technology]] (MIT) | ||
*[http://intro.chem.okstate.edu/1314F00/Laboratory/GLP.htm Java applet] allowing to manipulate [[volume]], [[pressure]], [[temperature]] and [[amount of substance]] within the constraints of the ideal gas law, using a [[piston]] as an example. |
Revision as of 11:54, 16 January 2009
- Please sort and annotate in a user-friendly manner and consider archiving the URLs behind the links you provide. See also related web sources.
- Gas Laws:Ideal Gas Law and the Gas Constant, Concepts (Chemistry Department, Davidson College, North Carolina)
- Lecture 33: Kinetic Gas Theory - Ideal Gas Law - Isothermal Atmosphere - Phase Diagrams - Phase Transitions An excellent, 52 minute video lecture by Professor Walter H.G. Lewin at the Massachussetts Institute of Technology (MIT)
- Java applet allowing to manipulate volume, pressure, temperature and amount of substance within the constraints of the ideal gas law, using a piston as an example.