Table of Contents

  1. Title Page
  2. Copyright
  3. Translator’s Preface
  4. Preface to Second Edition
  5. Preface to First Edition
  6. Part II: Fundamental Facts and Definitions
    1. Chapter I: General Introduction
    2. Chapter II: Radiation at Thermodynamic Equilibrium. Kirchhoff’s Law. Black Radiation
  7. Part II: Deductions From Electrodynamics And Thermodynamics
    1. Chapter I: Maxwell’s Radiation Pressure
    2. Chapter II: Stefan-Boltzmann Law of Radiation
    3. Chapter III: Wien’s Displacement Law
    4. Chapter IV: Radiation of Any Arbitrary Spectral Distribution of Energy. Entropy and Temperature of Monochromatic Radiation
    5. Chapter V: Electrodynamical Processes in a Stationary Field of Radiation
  8. Part III: Entropy and Probability
    1. Chapter I: Fundamental Definitions and Laws. Hypothesis of Quanta
    2. Chapter II: Ideal Monatomic Gases
    3. Chapter III: Ideal Linear Oscillators
    4. Chapter IV: Direct Calculation of the Entropy in The Case of Thermodynamic Equilibrium
  9. Part IV: A System of Oscillators in a Stationary Field of Radiation
  10. Part V: Irreversible Radiation Processes
    1. Chapter I: Fields of Radiation in General
    2. Chapter II: One Oscillator in the Field of Radiation
    3. Chapter III: A System of Oscillators
    4. Chapter IV: Conservation of Energy and Increase Of Entropy. Conclusion
  11. Author’s Bibliography
  12. Appendix I
  13. Appendix II

Landmarks

  1. Begin Reading
  2. Table of Contents
  3. Copyright Page
  4. Part I. Fundamental Facts and Definitions
  5. Part II. Deductions From Electrodynamics And Thermodynamics
  6. Part III. Entropy and Probability
  7. Part IV. A System of Oscillators in a Stationary Field of Radiation
  8. Part V. Irreversible Radiation Processes