Physics and dynamics of clouds and precipitation


Pao K. Wang.
Bok Engelsk 2013 · Electronic books.
Utgitt
Cambridge : : Cambridge University Press, , 2013.
Omfang
1 online resource (478 p.)
Opplysninger
Description based upon print version of record.. - Cover; Contents; Preface; 1 Observation of clouds; 1.1 Water vapor in the atmosphere; 1.2 Where do clouds occur in the atmosphere?; 1.3 Conventional classifications of clouds; 1.3.1 High clouds (base height greater than 6000 m); 1.3.2 Middle clouds (base height between 2000 and 6000 m); 1.3.3 Low clouds (base height lower than 2000 m); 1.3.4 Clouds with vertical development; 1.4 Precipitation; 1.5 Observing clouds from an aircraft; 1.6 Cloud classification according to the phase of water substance; 1.7 Remote-sensing techniques of cloud observation; 1.7.1 Radar and lidar techniques. - 1.7.2 Satellite techniquesProblem; 2 The shape and size of cloud and precipitation particles; 2.1 Clouds as a colloidal system; 2.2 Frequency of liquid water and ice clouds in subfreezing environment; 2.3 Types of particles in clouds and precipitation; 2.4 Sampling of cloud and precipitation particles; 2.5 Cloud droplet size distributions; 2.5.1 Mathematical expressions of cloud drop size distributions; 2.6 Raindrop size distributions; 2.6.1 Double-gamma distribution; 2.7 Raindrop shape problem; 2.7.1 Quasi-spheroid approach; 2.7.2 Conical particle approach. - 2.8 Size and shape of graupel and hail2.9 Shape and size of ice crystals and snowflakes; 2.9.1 Habit of ice crystals; 2.9.2 Magono-Lee classification; 2.9.3 Dimensional relations; 2.9.4 Ice crystal and snowflake size and shape distribution; 2.9.5 Mathematical representations of ice and snow crystal shapes; Problems; 3 Molecular structures of water substance; 3.1 Single water molecule; 3.1.1 Electronic structure of the water molecule; 3.1.2 Electric dipole moment; 3.1.3 Water isotopes; 3.2 Hydrogen bonds; 3.3 Structure of water vapor; 3.4 Molecular structure of ice; 3.4.1 Ice-Ih. - 4.11 Phase diagram for water substance4.12 Supercooling and the Bergeron-Findeisen process; 4.13 Order of phase change; 4.14 Calculation of the saturation vapor pressures; Problems; 5 Surface thermodynamics of water substance; 5.1 The interface as a phase; 5.2 Surface tension of liquids; 5.3 Surface tension of solids; 5.4 Mechanical equilibrium among curved interface systems; 5.5 Contact angle and wettability; 5.6 Component chemical potentials in an ideal gas mixture; 5.7 The chemical potential of water in an aqueous solution; 5.8 Ideal and non-ideal solutions. - 5.9 Equilibrium between two phases separated by curved interface. - Defects in ice-IhQuasi-liquid layer on ice surface; 3.4.2 Ice-Ic; 3.4.3 Other forms of ice; 3.5 Molecular structure of liquid water; Problems; 4 Bulk thermodynamic equilibrium among water vapor, liquid water, and ice; 4.1 Thermodynamic systems; 4.2 The first law of thermodynamics - conservation of energy; 4.3 Closed systems; 4.4 Adiabatic process for a closed system; 4.5 A simple conceptual model for small cumulus cloud formation; 4.6 Entropy; 4.7 Open systems; 4.8 Gibbs-Duhem relation; 4.9 General condition of thermodynamic equilibrium; 4.10 Clausius-Clapeyron equation. - "This key new textbook provides a state-of-the-art view of the physics of cloud and precipitation formation, covering the most important topics in the field: the microphysics, thermodynamics, and cloud-scale dynamics. Highlights include: the condensation process explained with new insights from chemical physics studies; the impact of the particle curvature (the Kelvin equation) and solute effect "--
Emner
Cloud physics.
Precipitation (Meteorology)
skyer struktur thermodynamikk
Sjanger
Dewey
ISBN
9781107005563

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