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Unformatted text preview: compiled by Lemmuel L. Tayo PhD Chapter 1 Gases Physical Chemistry Application of physics to the study of chemistry Develops rigorous and detailed explanations of central, unifying concepts in chemistry Contains mathematical models that provide quantitative predictions . Mathematical underpinning to concepts applied in analytical, inorganic, organic, and biochemistry Includes essential concepts for studying advanced courses in chemistry Source: American Chemical Society Divisions of Physical Chemistry • Main Problems – Position of Chemical Equilibrium A + B <=> C + D – Rate of Chemical Reactions  Kinetics – Other special topics • Approaches – Top down (Traditional/Analytical/Historical Approach) • Begin with things we observe in the world/laboratory • Examine how those observables relate to the underlying structure of matter – Bottom up (Synthetic/Molecular Approach) • Consider the underlying structure of matter • Derive observables Traditional Approach Equilibrium Thermodynamics Chapters 110 Chemical Kinetics Chapters 24, 25, 26, 27 Quantum Theory/ Spectroscopy Statistical Thermodynamics Special Topics P ic tu r e 2 Equations of State...
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This note was uploaded on 07/31/2011 for the course CHM 170 taught by Professor Lemtayo during the Spring '11 term at MIT.
 Spring '11
 LemTayo
 Physical chemistry, pH

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