Description
Combining rigorous theory with practical application, this book provides a unified and detailed account of the fundamental equations governing atmospheric and oceanic fluid flow on which global, quantitative models of weather and climate prediction are founded. It lays the foundation for more accurate models by making fewer approximations and imposing dynamical and thermodynamical consistency, moving beyond the assumption that the Earth is perfectly spherical. A general set of equations is developed in a standard notation with clearly stated assumptions, limitations, and important properties. Some exact, non-linear solutions are developed to promote further understanding and for testing purposes. This book contains a thorough consideration of the fundamental equations for atmospheric and oceanic models, and is therefore invaluable to both theoreticians and numerical modellers. It also stands as an accessible source for reference purposes.
- Provides a comprehensive and holistic account of the fundamental equations governing atmospheric and oceanic models to encourage further development in climate and weather forecasting
- Improves understanding of atmospheric and oceanic modelling by providing a bridge between theoretical geophysical fluid dynamics and quantitative weather and climate prediction
- Takes a fresh approach to the fundamental equations that underpin weather and climate prediction by working from the observation that the Earth has an equatorial bulge, rather than assuming it is perfectly spherical