Title:
Physical chemistry a guided inquiry : thermodynamics
Personal Author:
Publication Information:
Boston, Mass. : Houghton Mifflin Company, 2004
ISBN:
9780618308538
Available:*
Library | Item Barcode | Call Number | Material Type | Item Category 1 | Status |
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Searching... | 30000010046345 | QD504 S63 2004 | Open Access Book | Book | Searching... |
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Summary
Summary
Designed to encourage active and collaborative learning in the physical chemistry classroom, this text is a collection of group activities (ChemActivities) that can accompany any physical chemistry text. These ChemActivities teach students how to think like scientists, rather than simply memorizing important conclusions arrived at by great scientists of the past.
Table of Contents
Gases G1 Gases (I) |
G1A The Maxwell-Boltzmann Speed Distribution Law |
G1B Average Values G2. Gases (II) Thermodynamics |
T1 Work |
T2 The First Law of Thermodynamics |
T3 Enthalpy |
T3A Enthalpy |
T4 Heat Capacity |
T5 Temperature Dependence of the Enthalpy of Reaction |
T6 Entropy |
T7 Entropy Changes as a Function of Temperature |
T8 The Third Law of Thermodynamics |
T9 Gibbs Energy and Helmholtz Energy |
T10 Gibbs Energy as a Function of Temperature and Pressure |
T10A Euler's Criterion |
T11 Equilibrium |
T12 Temperature Dependence of the Equilibrium Constant |
T13 Temperature and Pressure Dependence of Phase Equilibria for Pure Phases |
T14 Vapor Pressure and One Component Phase Diagrams |
T15 The Ideal Solution |
T16 Chemical Potential for a Component of a Solution |
T17 Partial Molar Quantities |
T18 Colligative Properties |
T19 Osmotic Pressure |
T20 The Phase Rule |
T21 Solid-Liquid Phase Equilibria |
T22 More Complicated Soli-Liquid Phase Equilibria |
T23 Liquid-Vapor Phase Equilibria Electrochemistry |
E1 Electrolyte Solutions |
E2 The Debye-H?ckel Theory of Electrolyte Solutions |
E3 The Structure of Electrolyte Solutions |
E4 Electrode Potentials |
E5 Electrochemical Cells |
E6 Temperature Dependence of Cell Voltage Kinetics |
K1 Introduction to Chemical Kinetics |
K2 Integrated Rate Laws |
K3 The Method of Isolation for Determining Rate Laws |
K4 Reaction Mechanism |
K5 Activation Energy (I) |
K5A Activation Energy (II) |
K6 Enzyme Kinetics |
K6A Collision Theory of Gas Phase Reactions |
K6B Analysis of a Gas Phase Chain Reaction |
K7 Transition State Theory MathActivity Mathematics for Thermodynamics |
Appendix A.1 Values of Selected Fundamental Constants |
A.2 Selected Conversion Factors |
A.3 SI Derived Units |