Yuh-Lang Lin, North Carolina State Universityĭr Yuh-Lang Lin is a Professor in the Department of Physics and Department of Energy and Environmental Systems at the North Carolina A&T State University (NCAT), and is Senior Scientist at the NCAT Interdisplinary Scientific Environmental Technology (ISET) Center. If you are having problems accessing these resources please contact Author Lecturers are permitted to view, print or download these resources for use in their teaching, but may not change them or use them for commercial gain. Supplementary resources are subject to copyright. Other lecturers may wish to use locked resources for assessment purposes and their usefulness is undermined when the source files (for example, solution manuals or test banks) are shared online or via social networks. Please use locked resources responsibly and exercise your professional discretion when choosing how you share these materials with your students. Or register for a Cambridge user account. To gain access to locked resources, lecturers should Access to locked resources is granted exclusively by Cambridge University Press to lecturers whose faculty status has been verified. This title is supported by one or more locked resources. Modelling projects, providing hands-on practice for building simple models of stratified fluid flow from a one-dimensional advection equation, are also described. With over 100 problems, and password-protected solutions available to instructors at this book could also serve as a textbook for graduate students. This is an ideal book on the subject for researchers in meteorology and atmospheric science. The subsequent chapters cover four major areas of mesoscale dynamics: wave dynamics, moist convection, front dynamics and mesoscale modelling. The opening chapters introduce the basic equations governing mesoscale weather systems and their approximations. This 2007 book provides a systematic approach to this subject. A fundamental understanding of the underlying dynamics involved in these weather systems is essential in forecasting their occurrence. Mesoscale weather systems are responsible for numerous natural disasters, such as damaging winds, blizzards and flash flooding.
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