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Statistical Thermodynamics
An Engineering Approach

$80.00 USD

  • Date Published: January 2019
  • availability: This ISBN is for an eBook version which is distributed on our behalf by a third party.
  • format: Adobe eBook Reader
  • isbn: 9781108246354

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  • Statistical Thermodynamics: An Engineering Approach covers in a practical, readily understandable manner the underlying meaning of entropy, temperature and other thermodynamic concepts, the foundations of quantum mechanics, and the physical basis of gas, liquid and solid phase properties. It presents simply the relationship between macroscopic and microscopic thermodynamics. In addition, the molecular basis of transport phenomena and chemical kinetics are explored, as are basic concepts in spectroscopy. Modern computational tools for solving thermodynamic problems are explored, and the student is assured that he or she will gain knowledge of practical usefulness. This essential text is suitable for mechanical or aerospace engineering graduate students who have a strong background in engineering thermodynamics, those entering advanced fields such as combustion, high temperature gas dynamics, environmental sciences, or materials processing, and those who wish to build a background for understanding advanced experimental diagnostic techniques in these or similar fields.

    • Employs a simple postulatory approach to make it easier to understand basic concepts
    • Provides unified notation across classical and statistical thermodynamics
    • Coverage includes statistical thermodynamics, kinetic theory, spectroscopy and chemical kinetics
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    Product details

    • Date Published: January 2019
    • format: Adobe eBook Reader
    • isbn: 9781108246354
    • contains: 109 b/w illus. 21 tables
    • availability: This ISBN is for an eBook version which is distributed on our behalf by a third party.
  • Table of Contents

    1. Introduction
    2. Fundamentals of macroscopic thermodynamics
    3. Microscopic thermodynamics
    4. Quantum mechanics
    5. Ideal gases
    6. Ideal gas mixtures
    7. The photon and electron gases
    8. Dense gases
    9. Liquids
    10. Crystalline solids
    11. Thermodynamic stability and phase change
    12. Kinetic theory of gases
    13. Spectroscopy
    14. Chemical kinetics.

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    Statistical Thermodynamics

    John W. Daily

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  • Author

    John W. Daily, University of Colorado Boulder
    John Daily is currently a Professor of Mechanical Engineering and Director of the Center for Combustion and Environmental Research at the University of Colorado Boulder and previously was a faculty member at University of California, Berkeley. He is a Fellow of The American Institute of Aeronautics and Astronautics (AIAA) and serves on the AIAA Executive Publications Committee. He has regular contributor to the AIAA Journal, the Combustion Institute Journal and the ASME Heat Transfer Journal. He teaches both undergraduate and graduate courses in the thermal-sciences, including thermodynamics. He is a founder of Precision Biopsy, LLC., a company that is developing optical biopsy instrumentation for cancer detection.

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