Thermodynamics, Kinetics, and Microphysics of Clouds presents a unified theoretical foundation that provides the basis for incorporating cloud microphysical processes in cloud and climate models. In particular, the book provides:A theoretical basis for understanding the processes of cloud particle formation, evolution and precipitation, with emphasis on spectral cloud microphysics based on numerical and analytical solutions of the kinetic equations for the drop and crystal size spectra along with the supersaturation equationThe latest detailed theories and parameterizations of drop and crystal nucleation suitable for cloud and climate models derived from the general principles of thermodynamics and kineticsA platform for advanced parameterization of clouds in weather prediction and climate modelsThe scientific foundation for weather and climate modification by cloud seeding.This book will be invaluable for researchers and advanced students engaged in cloud and aerosol physics, and air pollution and climate research.

'I highly recommend Thermodynamics, Kinetics, and Microphysics of Clouds for atmospheric science professionals and advanced students. Its combination of analytical rigor, up-to-date references, and equations adapted for modeling applications makes it a valuable resource for modelers and experimentalists in cloud physics and climate research. This important work will also challenge readers with its novel approach to the field and provide a fresh perspective that they have likely not encountered.'

Nathan Magee Source: Physics Today