Chapter 5 review guide - 5.9 Mean Free Path, Diffusion, and...

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Chapter 5 review guide: (continued) 5.7 Gases in Chemical Reactions: Stoichiometry Revisited Understand how stoichiometry can be related to gases via the amount and volume in the ideal gas law. Perform and understand calculations relating mass, moles, and the ideal gas law. 5.8 Kinetic Molecular Theory: A Model for Gases Define the kinetic molecular theory for gases. Understand that the kinetic molecular theory arises from several factors— the size of molecules being negligibly small, the average kinetic energy being proportional to temperature, and collisions being elastic (exchanging energy with no loss). Understand how kinetic molecular theory explains Boyle’s, Charles’s, Avogadro’s, and Dalton’s Laws. Understand the relationship between kinetic energy, mass, and volume for a particle. Recognize the mathematical and graphic representation of molecular velocity versus distribution of molecules with that speed.
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Unformatted text preview: 5.9 Mean Free Path, Diffusion, and Effusion of Gases Define and understand the mean free path. Define diffusion and effusion and understand how they are due to the kinetic molecular theory. 5.10 Real Gases: The Effects of Size and Intermolecular Forces Understand that real gases have behavior that varies from the ideal gas law and depends on their individual properties. Understand that nonideal behavior arises for the finite volume of gases and the intermolecular forces between particles. Recognize and identify the various components of the Van der Waals equation. 5.11 Chemistry of the Atmosphere: Air Pollution and Ozone Depletion Know the portions of the atmosphere and some information describing them. Know the identity and nature of molecules that contribute to air pollution. Define and understand the phenomenon of ozone depletion....
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This note was uploaded on 05/03/2010 for the course CHM 2045 taught by Professor Brant during the Fall '08 term at University of South Florida - Tampa.

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