Cantitate/Preț
Produs
Total produse
Vezi coșul
Atmospheric Thermodynamics de J. V. Iribarne

Atmospheric Thermodynamics: Emotions, Personality, and Psychotherapy

Autor J. V. Iribarne, W. L. Godson
en Limba Engleză Paperback – 13 noi 2013
The thermodynamics of the atmosphere is the subject of several chapters in most textbooks on dynamic meteorology, but there is no work in English to give the subject a specific and more extensive treatment. In writing the present textbook, we have tried to fill this rather remarkable gap in the literature related to atmospheric sciences. Our aim has been to provide students of meteorology with a book that can playa role similar to the textbooks on chemical thermodynamics for the chemists. This implies a previous knowledge of general thermodynamics, such as students acquire in general physics courses; therefore, although the basic principles are reviewed (in the first four chapters), they are only briefly discussed, and emphasis is laid on those topics that will be useful in later chapters, through their application to atmospheric problems. No attempt has been made to introduce the thermodynamics of irreversible processes; on the other hand, consideration of heterogeneous and open homogeneous systems permits a rigorous formulation of the thermodynamic functions of clouds (exclusive of any consideration of microphysical effets) and a better understanding of the approx­ imations usually implicit in practical applications.
Citește tot Restrânge

Din seria Emotions, Personality, and Psychotherapy

  • British Upper Carboniferous Stratigraphy
    Preț: 122938 lei
  • 18% Finding Meaning in Dreams: A Quantitative Approach
    Preț: 93774 lei
  • 15% States of Consciousness: Models for Psychology and Psychotherapy
    Preț: 63542 lei
  • 24% Marine Permian of England
    Preț: 106782 lei
  • 18% Sampling Inner Experience in Disturbed Affect
    Preț: 98706 lei
  • 5% Language in Psychotherapy: Strategies of Discovery
    Preț: 139686 lei
  • 5% What Develops in Emotional Development?
    Preț: 108802 lei
  • 15% The Emotional Brain: Physiology, Neuroanatomy, Psychology, and Emotion
    Preț: 63555 lei
  • 5% Shyness: Perspectives on Research and Treatment
    Preț: 108783 lei
  • 5% Human Emotions
    Preț: 109469 lei
  • 5% The Psychology of Emotions
    Preț: 109199 lei
  • 5% The Role of Emotions in Social and Personality Development: History, Theory, and Research
    Preț: 108640 lei
  • 18% Quantifying Consciousness: An Empirical Approach
    Preț: 94191 lei
  • 5% The Transformed Self: The Psychology of Religious Conversion
    Preț: 70818 lei
  • 5% The Psychobiology of Emotions
    Preț: 108965 lei
  • 5% The Cognitive Foundations of Personality Traits
    Preț: 109001 lei
  • 5% From Memories to Mental Illness: A Conceptual Journey
    Preț: 36168 lei
  • 15% The Stream of Consciousness: Scientific Investigations into the Flow of Human Experience
    Preț: 63332 lei
  • 5% Sampling Normal and Schizophrenic Inner Experience
    Preț: 70367 lei
  • 5% Imagery and Visual Expression in Therapy
    Preț: 101340 lei
  • 5% The Power of Human Imagination: New Methods in Psychotherapy
    Preț: 36870 lei
  • 5% Freud and Modern Psychology: The Emotional Basis of Human Behavior
    Preț: 35934 lei
  • Unconventional Photoactive Solids
    Preț: 38239 lei
  • Freud and Modern Psychology: Volume 1: The Emotional Basis of Mental Illness
    Preț: 38336 lei

Preț: 62832 lei

Preț vechi: 73920 lei
-15% Nou

Puncte Express: 942
Preț estimativ în valută:
12025 12527$ 9998£

Carte tipărită la comandă

Livrare economică 10-24 februarie 25

 Adaugă în coș

Wish list
Gift list
Am citit!
Adaugă în listă
Preluare comenzi: 021 569.72.76

Specificații

ISBN-13: 9789401026444
ISBN-10: 9401026440
Pagini: 236
Ilustrații: X, 223 p.
Dimensiuni: 170 x 244 x 12 mm
Greutate: 0.38 kg
Ediția:Softcover reprint of the original 1st ed. 1973
Editura: SPRINGER NETHERLANDS
Colecția Springer
Seria Emotions, Personality, and Psychotherapy

Locul publicării:Dordrecht, Netherlands

Public țintă

Research

Cuprins

I. Review of Basic Concepts and Systems of Units.- 1.1. Systems.- 1.2. Properties.- 1.3. Composition and State of a System.- 1.4. Equilibrium.- 1.5. Temperature. Temperature Scales.- 1.6. Systems of Units.- 1.7. Work of Expansion.- 1.8. Modifications and Processes. Reversibility.- 1.9. State Variables and State Functions. Equation of State.- 1.10. Equation of State for Gases.- 1.11. Mixture of Ideal Gases.- 1.12. Atmospheric Air Composition.- Problems.- II. The First Principle of Thermodynamics.- 2.1. Internal Energy.- 2.2. Heat.- 2.3. The First Principle. Enthalpy.- 2.4. Expressions of Q. Heat Capacities.- 2.5. Calculation of Internal Energy and Enthalpy.- 2.6. Latent Heats of Pure Substances. Kirchhoff’s Equation.- 2.7. Adiabatic Processes in Ideal Gases. Potential Temperature.- 2.8. Polytropic Processes.- Problems.- III. The Second Principle of Thermodynamics.- 3.1. The Entropy.- 3.2. Thermodynamic Scale of Absolute Temperature.- 3.3. Formulations of the Second Principle.- 3.4. Lord Kelvin’s and Clausius’ Statements of the Second Principle.- 3.5. Joint Mathematical Expressions of the First and Second Principles. Thermodynamic Potentials.- 3.6. Equilibrium Conditions and the Sense of Natural Processes.- 3.7. Calculation of Entropy.- 3.8. Thermodynamic Equations of State. Calculation of Internal Energy and Enthalpy.- 3.9. Thermodynamic Functions of Ideal Gases.- 3.10. Entropy of Mixing for Ideal Gases.- 3.11. Difference Between Heat Capacities at Constant Pressure and at Constant Volume.- Problems.- IV. Water-Air Systems.- 4.1. Heterogeneous Systems.- 4.2. Fundamental Equations for Open Systems.- 4.3. Equations for the Heterogeneous System. Internal Equilibrium.- 4.4. Summary of Basic Formulas for Heterogeneous Systems.- 4.5. Number of Independent Variables.-4.6. Phase-Transition Equilibria for Water.- 4.7. Thermodynamic Surface for Water Substance.- 4.8. Clausius-Clapeyron Equation.- 4.9. Water Vapor and Moist Air.- 4.10. Humidity Variables.- 4.11. Heat Capacities of Moist Air.- 4.12. Moist Air Adiabats.- 4.13. Enthalpy, Internal Energy and Entropy of Moist Air and of a Cloud.- Problems.- V. Aerological Diagrams.- 5.1. Purpose of Aerological Diagrams and Selection of Coordinates.- 5.2. Clapeyron Diagram.- 5.3. Tephigram.- 5.4. Curves for Saturated Adiabatic Expansion. Relative Orientation of Fundamental Lines.- 5.5. Emagram or Neuhoff Diagram.- 5.6. Refsdal Diagram.- 5.7. Pseudoadiabatic or Stüve Diagram.- 5.8. Area Equivalence.- 5.9. Summary of Diagrams.- 5.10. Determination of Mixing Ratio from the Relative Humidity.- 5.11. Area Computation and Energy Integrals.- Problems.- VI. Thermodynamic Processes in the Atmosphere.- 6.1. Isobaric Cooling. Dew and Frost Points.- 6.2. Condensation in the Atmosphere by Isobaric Cooling.- 6.3. Adiabatic Isobaric (Isenthalpic) Processes. Equivalent and Wet-Bulb Temperatures.- 6.4. Adiabatic Isobaric Mixing (Horizontal Mixing) Without Condensation.- 6.5. Adiabatic Isobaric Mixing with Condensation.- 6.6. Adiabatic Expansion in the Atmosphere.- 6.7. Saturation of Air by Adiabatic Ascent.- 6.8. Reversible Saturated Adiabatic Process.- 6.9. Pseudoadiabatic Process.- 6.10. Effect of Freezing in a Cloud.- 6.11. Vertical Mixing.- 6.12. Pseudo- or Adiabatic Equivalent and Wet-Bulb Temperatures.- 6.13. Summary of Temperature and Humidity Parameters. Conservative Properties.- Problems.- VII. Atmospheric Statics.- 7.1. The Geopotential Field.- 7.2. The Hydrostatic Equation.- 7.3. Equipotential and Isobaric Surfaces. Dynamic and Geopotential Height.- 7.4. Thermal Gradients.- 7.5.Constant-Lapse-Rate Atmospheres.- 7.6. Atmosphere of Homogeneous Density.- 7.7. Dry-Adiabatic Atmosphere.- 7.8. Isothermal Atmosphere.- 7.9. Standard Atmosphere.- 7.10. Altimeter.- 7.11. Integration of the Hydrostatic Equation.- Problems.- VIII. Vertical Stability.- 8.1. The Parcel Method.- 8.2. Stability Criteria.- 8.3. Lapse Rates for Dry, Moist and Saturated Adiabatic Ascents.- 8.4. The Lapse Rates of the Parcel and of the Environment.- 8.5. Stability Criteria for Adiabatic Processes.- 8.6. Conditional Instability.- 8.7. Oscillations in a Stable Layer.- 8.8. The Layer Method for Analyzing Stability.- 8.9. Entrainment.- 8.10. Potential or Convective Instability.- 8.11. Processes Producing Stability Changes for Dry Air.- 8.12. Stability Parameters of Saturated and Unsaturated Air, and Their Time Changes.- 8.13. Radiative Processes and Their Thermodynamic Consequences.- 8.14. Maximum Rate of Precipitation.- 8.15. Internal and Potential Energy of the Atmosphere.- 8.16. Internal and Potential Energy of a Layer with Constant Lapse Rate.- 8.17. Margules’ Calculations on Overturning Air Masses.- 8.18. Transformations of a Layer with Constant Lapse Rate.- 8.19. The Available Potential Energy.- Problems.- Appendix I.- Answers to Problems.