Thermal Physics of the Atmosphere (2nd Ed.) Developments in Weather and Climate Science Series
Auteur : Ambaum Maarten H.P.
Thermal Physics of the Atmosphere, Second Edition offers a concise and thorough introduction on how basic thermodynamics naturally leads to advanced topics in atmospheric physics. Chapters cover the basics of thermodynamics and its applications in atmospheric science and describe major applications, specifically more specialized areas of atmospheric physics, including vertical structure and stability, cloud formation and radiative processes. The book is fully revised, featuring informative sections on radiative transfer, thermodynamic cycles, the historical context to potential temperature concept, vertical thermodynamic coordinates, dewpoint temperature, the Penman equation, and entropy of moist air.
This book is a necessary guide for students (graduate, advanced undergraduate, master?s level) of atmospheric science, meteorology, climate science and researchers in these fields.
Members of the Royal Meteorological Society are eligible for a 35% discount on all Developments in Weather and Climate Science series titles. See the RMetS member dashboard for the discount code.
1. Ideal gases 2. The first and second laws 3. General applications 4. The atmosphere under gravity 5. Water in the atmosphere 6. Vertical structure of the moist atmosphere 7. Cloud drops 8. Mixtures and solutions 9. Thermal radiation 10. Radiative transfer 11. Non-equilibrium processes
Appendix A. Functions of several variables B. Thermodynamic diagrams
- Introduces a wide range of areas associated with atmospheric physics
- Ideally suited for readers with a general physics background
- Includes self-assessment questions in each chapter
Date de parution : 11-2020
Ouvrage de 268 p.
19x23.4 cm
Thèmes de Thermal Physics of the Atmosphere :
Mots-clés :
activation; adiabatic lapse rate; boiling point; buoyancy; chemical affinity; chemical potential; Clausius–Clapeyron equation; climate feedbacks; climate thermodynamics; cloud drop; coalescence; collision; density; dewpoint temperature; energy; enthalpy; entropy; free energy; geopotential; Gibbs function; Gibbs–Duhem equation; gravity; greenhouse effect; Guoy–Stodola theorem; heat; heat engine; hydrostatic balance; ideal gas; ideal solution; Kirchhoff's law; Köhler theory; latent heat; laws of thermodynamics; lost work; maximum entropy production; moist static energy; non-equilibrium thermodynamics; Planck law; potential temperature; pressure; radiation; Raoult's law; relative humidity; saturation; saturation ratio; specific humidity; Stefan–Boltzmann law; surface tension; temperature; thermodynamic potential; virtual temperature; water; wet-bulb temperature; Wien displacement law; work