A Conceptual Guide to Thermodynamics
Paperback Engels 2014 9781118840535Samenvatting
Thermodynamics is the science that describes the behavior of matter at the macroscopic scale, and how this arises from individual molecules. As such, it is a subject of profound practical and fundamental importance to many science and engineering fields. Despite extremely varied applications ranging from nanomotors to cosmology, the core concepts of thermodynamics such as equilibrium and entropy are the same across all disciplines.
A Conceptual Guide to Thermodynamics serves as a concise, conceptual and practical supplement to the major thermodynamics textbooks used in various fields. Presenting clear explanations of the core concepts, the book aims to improve fundamental understanding of the material, as well as homework and exam performance.
Distinctive features include:
Terminology and Notation Key: A universal translator that addresses the myriad of conventions, terminologies, and notations found across the major thermodynamics texts.
Content Maps: Specific references to each major thermodynamic text by section and page number for each new concept that is introduced.
Helpful Hints and Don t Try Its: Numerous useful tips for solving problems, as well as warnings of common student pitfalls.
Unique Explanations: Conceptually clear, mathematically fairly simple, yet also sufficiently precise and rigorous.
A more extensive set of reference materials, including older and newer editions of the major textbooks, as well as a number of less commonly used titles, is available online at http://www.conceptualthermo.com. Undergraduate and graduate students of chemistry, physics, engineering, geosciences and biological sciences will benefit from this book, as will students preparing for graduate school entrance exams and MCATs.
Specificaties
Lezersrecensies
Inhoudsopgave
<p>Acknowledgments xiii</p>
<p>Textbook Guide xv</p>
<p>0.1 List of Thermodynamics Textbooks by Discipline xv</p>
<p>0.2 Terminology and Notation Used in This Book xvi</p>
<p>0.3 Terminology and Notation Used in Textbooks xviii</p>
<p>1 About This Book 1</p>
<p>1.1 Who Should Use This Book? 2</p>
<p>1.2 Philosophy of This Book 3</p>
<p>1.3 Four Core Concepts of Thermodynamics 3</p>
<p>1.4 How to Use This Book 5</p>
<p>I Equilibrium</p>
<p>2 Philosophy of Thermodynamics 11</p>
<p>2.1 Thermodynamics 11</p>
<p>2.2 Scientific Models & Laws 12</p>
<p>2.3 Statistical Mechanics 14</p>
<p>3 Thermodynamic States, Variables & Quantities 17</p>
<p>3.1 Thermodynamic Variables & Quantities 17</p>
<p>3.2 More on Thermodynamic Quantities 19</p>
<p>3.3 Thermodynamic & Molecular States 20</p>
<p>4 Zeroth Law & Thermodynamic Equilibrium 23</p>
<p>4.1 Equation of State 23</p>
<p>4.2 Thermodynamic Equilibrium 26</p>
<p>4.3 Zeroth Law 27</p>
<p>4.4 Ideal Gases & Non–ideal Systems 29</p>
<p>II Energy</p>
<p>5 Molecular Energy, Internal Energy, & Temperature 33</p>
<p>5.1 Energy at the Molecular Scale 33</p>
<p>5.2 Internal Energy 35</p>
<p>5.3 Intermolecular Interactions & the Kinetic Model 37</p>
<p>5.4 Equipartition Theorem & Temperature 38</p>
<p>6 Boltzmann Distribution & the Kinetic Model 41</p>
<p>6.1 Boltzmann Distribution 41</p>
<p>6.2 Maxwell–Boltzmann Distribution 42</p>
<p>6.3 Maxwell Distribution of Speeds 44</p>
<p>III Thermodynamic Change</p>
<p>7 First Law & Thermodynamic Change 49</p>
<p>7.1 System & Surroundings 49</p>
<p>7.2 Thermodynamic Change 50</p>
<p>7.3 First Law 52</p>
<p>8 Work, Heat, & Reversible Change 55</p>
<p>8.1 State Functions & Path Functions 55</p>
<p>8.2 Definition of Work 57</p>
<p>8.3 Definition of Heat 59</p>
<p>8.4 Reversible & Irreversible Change 60</p>
<p>8.5 A Gas Expansion Example 62</p>
<p>9 Partial Derivative Quantities 65</p>
<p>9.1 Internal Energy & Heat Capacity at Constant Volume 66</p>
<p>9.2 Enthalpy & Heat Capacity at Constant Pressure 67</p>
<p>9.3 Other Partial Derivative Quantities 70</p>
<p>9.4 Partial Derivatives & Differentials 71</p>
<p>IV Entropy</p>
<p>10 Entropy & Information Theory 77</p>
<p>10.1 Why Does Entropy Seem So Complicated? 77</p>
<p>10.2 Entropy as Unknown Molecular Information 79</p>
<p>10.3 Amount of Information 80</p>
<p>10.4 Application to Thermodynamics 84</p>
<p>11 Entropy & Ideal Gas 87</p>
<p>11.1 Measuring Our Molecular Ignorance 87</p>
<p>11.2 Volume Contribution to Entropy 88</p>
<p>11.3 Temperature Contribution to Entropy 91</p>
<p>11.4 Combined Entropy Expression 92</p>
<p>11.5 Entropy, Heat, & Reversible Adiabatic Expansion 94</p>
<p>12 Second Law & Spontaneous Irreversible Change 97</p>
<p>12.1 Heat Engines & Thermodynamic Cycles 97</p>
<p>12.2 Traditional Statements of the Second Law 98</p>
<p>12.3 Entropy Statement of the Second Law 99</p>
<p>12.4 Information Statement of the Second Law 100</p>
<p>12.5 Maximum Entropy & the Clausius Inequality 103</p>
<p>13 Third Law, Carnot Cycle, & Absolute Entropy 107</p>
<p>13.1 Entropy & Reversible Change 107</p>
<p>13.2 Carnot Cycle & Absolute Zero Temperature 109</p>
<p>13.3 Third Law & Absolute Entropy 111</p>
<p>V FreeEnergy</p>
<p>14 Free Energy & Exergy 115</p>
<p>14.1 What Would Happen If Entropy Were a Variable? 116</p>
<p>14.2 Helmholtz and Gibbs Free Energies 117</p>
<p>14.3 Second Law & Maximum Work 119</p>
<p>14.4 Exergy 121</p>
<p>15 Chemical Potential, Fugacity, & Open Systems 123</p>
<p>15.1 What Would Happen If n Were a Variable? 123</p>
<p>15.2 Chemical Potential 125</p>
<p>15.3 Ideal Gas & Fugacity 126</p>
<p>VI Applications</p>
<p>16 Crazy Gay–Lussac s Gas Expansion Emporium 131</p>
<p>16.1 Sales Pitch 131</p>
<p>16.2 How to Solve Gas Expansion Problems 132</p>
<p>16.3 Comprehensive Compendium 135</p>
<p>17 Electronic Emporium: Free Online Shopping! 139</p>
<p>VII Appendices</p>
<p>Appendix A: Beards Gone Wild! Facial Hair & the Founding Fathers of Thermodynamics 143</p>
<p>Appendix B: Thermodynamics, Abolitionism, & Sha Na Na 147</p>
<p>Appendix C: Thermodynamics & the Science of Steampunk 149</p>
<p>Steampunk Gallery 151</p>
<p>Travel Try Its 153</p>
<p>Photo Credits 155</p>
<p>Index 159</p>
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