Introduction to modern thermodynamics:
Gespeichert in:
| 1. Verfasser: | |
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Chichester
Wiley
2008
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| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XIV, 500 S. Ill., graph. Darst. |
Internformat
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| 245 | 1 | 0 | |a Introduction to modern thermodynamics |c Dilip Kondepudi |
| 264 | 1 | |a Chichester |b Wiley |c 2008 | |
| 300 | |a XIV, 500 S. |b Ill., graph. Darst. | ||
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Datensatz im Suchindex
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|---|---|
| adam_text | CONTENTS
Preface
xiii
PART I THE FORMALISM OF MODERN THERMODYNAMICS
1
BASIC CONCEPTS AND THE LAWS OF GASES
3
Introduction
3
1.1
Thermodynamic Systems
4
1.2
Equilibrium and Nonequilibrium Systems
6
1.3
Biological and Other Open Systems
9
1.4
Temperature, Heat and Quantitative Laws of Gases
11
1.5
States of Matter and the van
der Waals
Equation
19
1.6
An Introduction to Kinetic Theory of Gases
29
Appendix
1.1
Partial Derivatives
37
Appendix
1.2
Elementary Concepts in Probability Theory
39
Appendix
1.3
Mathematica
Codes
41
References
44
Examples
44
Exercises
45
2
THE FIRST LAW OF THERMODYNAMICS
49
The Idea of Energy Conservation amidst New Discoveries
49
2.1
The Nature of Heat
50
2.2
The First Law of Thermodynamics: The Conservation of Energy
55
2.3
Elementary Applications of the First Law
64
2.4
Thermochemistry: Conservation of Energy in Chemical Reactions
68
2.5
Extent of Reaction: A State Variable for Chemical Systems
76
2.6
Conservation of Energy in Nuclear Reactions and Some
General Remarks
79
2.7
Energy Flows and Organized States
81
Appendix
2.1
Mathematica
Codes
87
References
88
Examples
88
Exercises
92
3
THE SECOND LAW OF THERMODYNAMICS AND THE
ARROW OF TIME
97
3.1
The Birth of the Second Law
97
3.2
The Absolute Scale of Temperature
106
Vlil
CONTENTS
3.3
The Second Law and the Concept of Entropy
108
3.4
Entropy, Reversible and Irreversible Processes
116
3.5
Examples of Entropy Changes due to Irreversible Processes
125
3.6
Entropy Changes Associated with Phase Transformations
128
3.7
Entropy of an Ideal Gas
129
3.8
Remarks about the Second Law and Irreversible Processes
130
Appendix
3.1
The Hurricane as a Heat Engine
132
Appendix
3.2
Entropy Production in Continuous Systems
135
References
136
Examples
137
Exercises
139
4
ENTROPY IN THE REALM OF CHEMICAL REACTIONS
141
4.1
Chemical Potential and Affinity: The Thermodynamic Force
for Chemical Reactions
141
4.2
General Properties of Affinity
150
4.3
Entropy Production Due to Diffusion
153
4.4
General Properties of Entropy
155
Appendix
4.1
Thermodynamics Description of Diffusion
158
References
158
Examples
159
Exercises
160
5
EXTRÉMŮM
PRINCIPLES AND GENERAL
THERMODYNAMIC RELATIONS
163
Extrémům
Principles in Nature
163
5.1
Extrémům
Principles Associated with the Second Law
163
5.2
General Thermodynamic Relations
173
5.3
Gibbs Energy of Formation and Chemical Potential
176
5.4
Maxwell Relations
179
5.5
Extensivity with Respect to
N
and Partial Molar Quantities
181
5.6
Surface Tension
183
References
187
Examples
187
Exercises
189
PART II APPLICATIONS: EQUILIBRIUM AND
NONEQUILIBRIUM SYSTEMS
6
BASIC THERMODYNAMICS OF GASES, LIQUIDS
AND SOLIDS
195
Introduction
195
6.1
Thermodynamics of Ideal Gases
195
6.2
Thermodynamics of Real Gases
199
CONTENTS ix
6.3
Thermodynamics Quantities for Pure Liquids and Solids
208
Appendix
6.1
Equations of State
211
Reference
211
Examples
212
Exercises
213
7
THERMODYNAMICS OF PHASE CHANGE
215
Introduction
215
7.1
Phase Equilibrium and Phase Diagrams
215
7.2
The Gibbs Phase Rule and Duhem s Theorem
221
7.3
Binary and Ternary Systems
223
7.4
Maxwell s Construction and the Lever Rule
229
7.5
Phase Transitions
231
References
235
Examples
235
Exercises
236
8
THERMODYNAMICS OF SOLUTIONS
239
8.1
Ideal and
Nonideal
Solutions
239
8.2
Colligative Properties
243
8.3
Solubility Equilibrium
250
8.4
Thermodynamic Mixing and Excess Functions
255
8.5
Azeotropy
259
References
260
Examples
260
Exercises
262
9
THERMODYNAMICS OF CHEMICAL TRANSFORMATIONS
265
9.1
Transformations of Matter
265
9.2
Chemical Reaction Rates
266
9.3
Chemical Equilibrium and the Law of Mass Action
273
9.4
The Principle of Detailed Balance
278
9.5
Entropy Production due to Chemical Reactions
280
9.6
Elementary Theory of Chemical Reaction Rates
285
9.7
Coupled Reactions and Flow Reactors
288
Appendix
9.1
Mathematica
Codes
295
References
298
Examples
298
Exercises
300
10
FIELDS AND INTERNAL DEGREES OF FREEDOM
305
The Many Faces of Chemical Potential
305
10.1
Chemical Potential in a Field
305
10.2
Membranes and Electrochemical Cells
311
CONTENTS
10.3
Isothermal
Diffusion 319
Reference
324
Examples
324
Exercises
325
11
INTRODUCTION TO NONEQUILIBRIUM SYSTEMS
327
Introduction
327
11.1
Local Equilibrium
328
11.2
Local Entropy Production, Thermodynamic Forces and Flows
331
11.3
Linear Phenomenological Laws and Onsager Reciprocal
Relations
333
11.4
Symmetry-Breaking Transitions and Dissipative Structures
339
11.5
Chemical Oscillations
345
Appendix
11.1
Mathematica
Codes
352
References
355
Further Reading
356
Exercises
357
PART HI ADDITIONAL TOPICS
12
THERMODYNAMICS OF RADIATION
361
Introduction
361
12.1
Energy Density and Intensity of Thermal Radiation
361
12.2
The Equation of State
365
12.3
Entropy and Adiabatic Processes
368
12.4
Wien s Theorem
369
12.5
Chemical Potential of Thermal Radiation
371
12.6
Matter-Antimatter in Equilibrium with Thermal Radiation:
The State of Zero Chemical Potential
373
References
377
Examples
377
Exercises
377
13
BIOLOGICAL SYSTEMS
379
13.1
The Nonequilibrium Nature of Life
379
13.2
Gibbs Energy Change in Chemical Transformations
382
13.3
Gibbs Energy Flow in Biological Systems
385
13.4
Biochemical Kinetics
399
References
406
Further Reading
406
Examples
406
Exercises
409
CONTENTS xi
14
THERMODYNAMICS OF SMALL
SYSTEMS 411
Introduction
411
14.1
Chemical Potential of Small Systems
411
14.2
Size-Dependent Properties
414
14.3
Nucleation
418
14.4
Fluctuations and Stability
421
References
430
Examples
430
Exercises
430
15
CLASSICAL STABILITY THEORY
433
15.1
Stability of Equilibrium States
433
15.2
Thermal Stability
433
15.3
Mechanical Stability
435
15.4
Stability with Respect to Fluctuations in
N 437
References
439
Exercises
439
16
CRITICAL PHENOMENA AND CONFIGURATIONAL
HEAT CAPACITY
441
Introduction
441
16.1
Stability and Critical Phenomena
441
16.2
Stability and Critical Phenomena in Binary Solutions
443
16.3
Configurational Heat Capacity
447
Further Reading
448
Exercises
449
17
ELEMENTS OF STATISTICAL THERMODYNAMICS
451
Introduction
451
17.1
Fundamentals and Overview
452
17.2
Partition Function Factorization
454
17.3
The Boltzmann Probability Distribution and Average Values
455
17.4
Microstates, Entropy and the Canonical Ensemble
457
17.5
Canonical Partition Function and
Thermodynamic Quantities
462
17.6
Calculating Partition Functions
462
17.7
Equilibrium Constants
469
Appendix
17.1
Approximations and Integrals
471
Reference
472
Examples
472
Exercises
473
xii CONTENTS
LIST OF VARIABLES
475
STANDARD THERMODYNAMIC PROPERTIES
477
PHYSICAL CONSTANTS AND DATA
485
NAME INDEX
487
SUBJECT INDEX
489
|
| adam_txt |
CONTENTS
Preface
xiii
PART I THE FORMALISM OF MODERN THERMODYNAMICS
1
BASIC CONCEPTS AND THE LAWS OF GASES
3
Introduction
3
1.1
Thermodynamic Systems
4
1.2
Equilibrium and Nonequilibrium Systems
6
1.3
Biological and Other Open Systems
9
1.4
Temperature, Heat and Quantitative Laws of Gases
11
1.5
States of Matter and the van
der Waals
Equation
19
1.6
An Introduction to Kinetic Theory of Gases
29
Appendix
1.1
Partial Derivatives
37
Appendix
1.2
Elementary Concepts in Probability Theory
39
Appendix
1.3
Mathematica
Codes
41
References
44
Examples
44
Exercises
45
2
THE FIRST LAW OF THERMODYNAMICS
49
The Idea of Energy Conservation amidst New Discoveries
49
2.1
The Nature of Heat
50
2.2
The First Law of Thermodynamics: The Conservation of Energy
55
2.3
Elementary Applications of the First Law
64
2.4
Thermochemistry: Conservation of Energy in Chemical Reactions
68
2.5
Extent of Reaction: A State Variable for Chemical Systems
76
2.6
Conservation of Energy in Nuclear Reactions and Some
General Remarks
79
2.7
Energy Flows and Organized States
81
Appendix
2.1
Mathematica
Codes
87
References
88
Examples
88
Exercises
92
3
THE SECOND LAW OF THERMODYNAMICS AND THE
ARROW OF TIME
97
3.1
The Birth of the Second Law
97
3.2
The Absolute Scale of Temperature
106
Vlil
CONTENTS
3.3
The Second Law and the Concept of Entropy
108
3.4
Entropy, Reversible and Irreversible Processes
116
3.5
Examples of Entropy Changes due to Irreversible Processes
125
3.6
Entropy Changes Associated with Phase Transformations
128
3.7
Entropy of an Ideal Gas
129
3.8
Remarks about the Second Law and Irreversible Processes
130
Appendix
3.1
The Hurricane as a Heat Engine
132
Appendix
3.2
Entropy Production in Continuous Systems
135
References
136
Examples
137
Exercises
139
4
ENTROPY IN THE REALM OF CHEMICAL REACTIONS
141
4.1
Chemical Potential and Affinity: The Thermodynamic Force
for Chemical Reactions
141
4.2
General Properties of Affinity
150
4.3
Entropy Production Due to Diffusion
153
4.4
General Properties of Entropy
155
Appendix
4.1
Thermodynamics Description of Diffusion
158
References
158
Examples
159
Exercises
160
5
EXTRÉMŮM
PRINCIPLES AND GENERAL
THERMODYNAMIC RELATIONS
163
Extrémům
Principles in Nature
163
5.1
Extrémům
Principles Associated with the Second Law
163
5.2
General Thermodynamic Relations
173
5.3
Gibbs Energy of Formation and Chemical Potential
176
5.4
Maxwell Relations
179
5.5
Extensivity with Respect to
N
and Partial Molar Quantities
181
5.6
Surface Tension
183
References
187
Examples
187
Exercises
189
PART II APPLICATIONS: EQUILIBRIUM AND
NONEQUILIBRIUM SYSTEMS
6
BASIC THERMODYNAMICS OF GASES, LIQUIDS
AND SOLIDS
195
Introduction
195
6.1
Thermodynamics of Ideal Gases
195
6.2
Thermodynamics of Real Gases
199
CONTENTS ix
6.3
Thermodynamics Quantities for Pure Liquids and Solids
208
Appendix
6.1
Equations of State
211
Reference
211
Examples
212
Exercises
213
7
THERMODYNAMICS OF PHASE CHANGE
215
Introduction
215
7.1
Phase Equilibrium and Phase Diagrams
215
7.2
The Gibbs Phase Rule and Duhem's Theorem
221
7.3
Binary and Ternary Systems
223
7.4
Maxwell's Construction and the Lever Rule
229
7.5
Phase Transitions
231
References
235
Examples
235
Exercises
236
8
THERMODYNAMICS OF SOLUTIONS
239
8.1
Ideal and
Nonideal
Solutions
239
8.2
Colligative Properties
243
8.3
Solubility Equilibrium
250
8.4
Thermodynamic Mixing and Excess Functions
255
8.5
Azeotropy
259
References
260
Examples
260
Exercises
262
9
THERMODYNAMICS OF CHEMICAL TRANSFORMATIONS
265
9.1
Transformations of Matter
265
9.2
Chemical Reaction Rates
266
9.3
Chemical Equilibrium and the Law of Mass Action
273
9.4
The Principle of Detailed Balance
278
9.5
Entropy Production due to Chemical Reactions
280
9.6
Elementary Theory of Chemical Reaction Rates
285
9.7
Coupled Reactions and Flow Reactors
288
Appendix
9.1
Mathematica
Codes
295
References
298
Examples
298
Exercises
300
10
FIELDS AND INTERNAL DEGREES OF FREEDOM
305
The Many Faces of Chemical Potential
305
10.1
Chemical Potential in a Field
305
10.2
Membranes and Electrochemical Cells
311
CONTENTS
10.3
Isothermal
Diffusion 319
Reference
324
Examples
324
Exercises
325
11
INTRODUCTION TO NONEQUILIBRIUM SYSTEMS
327
Introduction
327
11.1
Local Equilibrium
328
11.2
Local Entropy Production, Thermodynamic Forces and Flows
331
11.3
Linear Phenomenological Laws and Onsager Reciprocal
Relations
333
11.4
Symmetry-Breaking Transitions and Dissipative Structures
339
11.5
Chemical Oscillations
345
Appendix
11.1
Mathematica
Codes
352
References
355
Further Reading
356
Exercises
357
PART HI ADDITIONAL TOPICS
12
THERMODYNAMICS OF RADIATION
361
Introduction
361
12.1
Energy Density and Intensity of Thermal Radiation
361
12.2
The Equation of State
365
12.3
Entropy and Adiabatic Processes
368
12.4
Wien's Theorem
369
12.5
Chemical Potential of Thermal Radiation
371
12.6
Matter-Antimatter in Equilibrium with Thermal Radiation:
The State of Zero Chemical Potential
373
References
377
Examples
377
Exercises
377
13
BIOLOGICAL SYSTEMS
379
13.1
The Nonequilibrium Nature of Life
379
13.2
Gibbs Energy Change in Chemical Transformations
382
13.3
Gibbs Energy Flow in Biological Systems
385
13.4
Biochemical Kinetics
399
References
406
Further Reading
406
Examples
406
Exercises
409
CONTENTS xi
14
THERMODYNAMICS OF SMALL
SYSTEMS 411
Introduction
411
14.1
Chemical Potential of Small Systems
411
14.2
Size-Dependent Properties
414
14.3
Nucleation
418
14.4
Fluctuations and Stability
421
References
430
Examples
430
Exercises
430
15
CLASSICAL STABILITY THEORY
433
15.1
Stability of Equilibrium States
433
15.2
Thermal Stability
433
15.3
Mechanical Stability
435
15.4
Stability with Respect to Fluctuations in
N 437
References
439
Exercises
439
16
CRITICAL PHENOMENA AND CONFIGURATIONAL
HEAT CAPACITY
441
Introduction
441
16.1
Stability and Critical Phenomena
441
16.2
Stability and Critical Phenomena in Binary Solutions
443
16.3
Configurational Heat Capacity
447
Further Reading
448
Exercises
449
17
ELEMENTS OF STATISTICAL THERMODYNAMICS
451
Introduction
451
17.1
Fundamentals and Overview
452
17.2
Partition Function Factorization
454
17.3
The Boltzmann Probability Distribution and Average Values
455
17.4
Microstates, Entropy and the Canonical Ensemble
457
17.5
Canonical Partition Function and
Thermodynamic Quantities
462
17.6
Calculating Partition Functions
462
17.7
Equilibrium Constants
469
Appendix
17.1
Approximations and Integrals
471
Reference
472
Examples
472
Exercises
473
xii CONTENTS
LIST OF VARIABLES
475
STANDARD THERMODYNAMIC PROPERTIES
477
PHYSICAL CONSTANTS AND DATA
485
NAME INDEX
487
SUBJECT INDEX
489 |
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| genre | (DE-588)4123623-3 Lehrbuch gnd-content |
| genre_facet | Lehrbuch |
| id | DE-604.BV023018956 |
| illustrated | Illustrated |
| index_date | 2024-07-02T19:12:19Z |
| indexdate | 2024-07-09T21:09:06Z |
| institution | BVB |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016223077 |
| oclc_num | 180204969 |
| open_access_boolean | |
| owner | DE-29T DE-355 DE-BY-UBR DE-20 DE-91G DE-BY-TUM DE-19 DE-BY-UBM DE-703 DE-92 DE-91 DE-BY-TUM DE-573 |
| owner_facet | DE-29T DE-355 DE-BY-UBR DE-20 DE-91G DE-BY-TUM DE-19 DE-BY-UBM DE-703 DE-92 DE-91 DE-BY-TUM DE-573 |
| physical | XIV, 500 S. Ill., graph. Darst. |
| publishDate | 2008 |
| publishDateSearch | 2008 |
| publishDateSort | 2008 |
| publisher | Wiley |
| record_format | marc |
| spelling | Kondepudi, Dilip 1952- Verfasser (DE-588)134136624 aut Introduction to modern thermodynamics Dilip Kondepudi Chichester Wiley 2008 XIV, 500 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Thermodynamics Thermodynamique Thermodynamik (DE-588)4059827-5 gnd rswk-swf (DE-588)4123623-3 Lehrbuch gnd-content Thermodynamik (DE-588)4059827-5 s DE-604 Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016223077&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Kondepudi, Dilip 1952- Introduction to modern thermodynamics Thermodynamics Thermodynamique Thermodynamik (DE-588)4059827-5 gnd |
| subject_GND | (DE-588)4059827-5 (DE-588)4123623-3 |
| title | Introduction to modern thermodynamics |
| title_auth | Introduction to modern thermodynamics |
| title_exact_search | Introduction to modern thermodynamics |
| title_exact_search_txtP | Introduction to modern thermodynamics |
| title_full | Introduction to modern thermodynamics Dilip Kondepudi |
| title_fullStr | Introduction to modern thermodynamics Dilip Kondepudi |
| title_full_unstemmed | Introduction to modern thermodynamics Dilip Kondepudi |
| title_short | Introduction to modern thermodynamics |
| title_sort | introduction to modern thermodynamics |
| topic | Thermodynamics Thermodynamique Thermodynamik (DE-588)4059827-5 gnd |
| topic_facet | Thermodynamics Thermodynamique Thermodynamik Lehrbuch |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016223077&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT kondepudidilip introductiontomodernthermodynamics |