Book contents
- Frontmatter
- Contents
- Preface to the Second Edition
- 1 Introduction
- 2 Atmospheric thermodynamics
- 3 Atmospheric radiation
- 4 Basic fluid dynamics
- 5 Further atmospheric fluid dynamics
- 6 Stratospheric chemistry
- 7 Atmospheric remote sounding
- 8 Climate change
- 9 Atmospheric modelling
- Appendix A Useful physical constants
- Appendix B Derivation of the equations of motion in spherical coordinates
- References
- Index
2 - Atmospheric thermodynamics
Published online by Cambridge University Press: 05 June 2012
- Frontmatter
- Contents
- Preface to the Second Edition
- 1 Introduction
- 2 Atmospheric thermodynamics
- 3 Atmospheric radiation
- 4 Basic fluid dynamics
- 5 Further atmospheric fluid dynamics
- 6 Stratospheric chemistry
- 7 Atmospheric remote sounding
- 8 Climate change
- 9 Atmospheric modelling
- Appendix A Useful physical constants
- Appendix B Derivation of the equations of motion in spherical coordinates
- References
- Index
Summary
In this chapter we show how basic thermodynamic concepts can be applied to the atmosphere. We first note in Section 2.1 that the atmosphere behaves as an ideal gas. Some basic information on the various gases comprising the atmosphere is presented in Section 2.2. The fact that the atmosphere is fairly close to being in hydrostatic balance is used in Section 2.3 to develop some very simple ideas about the vertical structure of the atmosphere. An important quantity related to entropy, the potential temperature, is discussed in Section 2.4. The concept of an air parcel is introduced in Section 2.5 and is used to develop ideas about atmospheric stability and buoyancy oscillations. A brief introduction to the concept of available potential energy is given in Section 2.6.
The rest of the chapter is devoted to the thermodynamics of water vapour in the air. Section 2.7 recalls the basic thermodynamics of phase changes and introduces several measures of atmospheric water vapour content. These ideas are exploited in Section 2.8, in which some effects of the release of latent heat are investigated in a calculation of the saturated adiabatic lapse rate, which gives information on the stability of a moist atmosphere. The tephigram, a graphical method of representing the vertical structure of temperature and moisture and calculating useful physical results, is introduced in Section 2.9. Finally, some of the basic physics of the formation of cloud droplets by condensation of water vapour is considered in Section 2.10.
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- An Introduction to Atmospheric Physics , pp. 19 - 51Publisher: Cambridge University PressPrint publication year: 2010
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