Pinnau, Ingo, "Transport of gases and vapors in glassy and rubbery polymers" in, Yampolskii, Yuri Freeman, Benny D. Matteucci, Scott Yampolskii, Yuri Freeman, Benny D.Li, Jian-Min Talu, Orhan, "Effect of structural heterogeneity on multicomponent adsorption: benzene and p-xylene mixture on silicalite", in Suzuki, Motoyuki (ed), Fundamentals of Adsorption, pp.Joos, Georg Freeman, Ira Maximilian, Theoretical Physics, Courier Corporation, 1958 ISBN 0486652270.Ismail, Ahmad Fauzi Khulbe, Kailash Matsuura, Takeshi, Gas Separation Membranes: Polymeric and Inorganic, Springer, 2015 ISBN 3319010956.Freude, D., Molecular Physics, chapunpublished draft, retrieved and archived 18 October 2015.Breck, Donald W., "Zeolite Molecular Sieves: Structure, Chemistry, and Use", New York: Wiley, 1974 ISBN 0471099856.^ a b c d e f g h Matteucci et al., p.For a fast moving particle (that is, one moving much faster than the particles it is moving through) the kinetic diameter is given by, d 2 = 1 π l n
#Methanol molecule diameter free#
Mean free path is the average distance that a particle will travel without collision. Kinetic diameter is related to the mean free path of molecules in a gas. Rather, it is the size of the sphere of influence that can lead to a scattering event. The kinetic diameter is not the same as atomic diameter defined in terms of the size of the atom's electron shell, which is generally a lot smaller, depending on the exact definition used. It is an indication of the size of the molecule as a target. Kinetic diameter is a measure applied to atoms and molecules that expresses the likelihood that a molecule in a gas will collide with another molecule.
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