Instability in geophysical flows / William D. Smyth, Jeffrey R. Carpenter.
Material type:
TextPublisher: Cambridge University Press, Description: 1 online resource (xi, 327 pages) : digital, PDF file(s)ISBN: 9781108640084 (ebook)Subject(s): Geophysics | Geodynamics | Marine geophysicsAdditional physical formats: Print version: : No titleDDC classification: 551.46/8 LOC classification: QE501 | .S6375 2019Online resources: Click here to access online Summary: Instabilities are present in all natural fluids from rivers to atmospheres. This book considers the physical processes that generate instability. Part I describes the normal mode instabilities most important in geophysical applications, including convection, shear instability and baroclinic instability. Classical analytical approaches are covered, while also emphasising numerical methods, mechanisms such as internal wave resonance, and simple `rules of thumb' that permit assessment of instability quickly and intuitively. Part II introduces the cutting edge: nonmodal instabilities, the relationship between instability and turbulence, self-organised criticality, and advanced numerical techniques. Featuring numerous exercises and projects, the book is ideal for advanced students and researchers wishing to understand flow instability and apply it to their own research. It can be used to teach courses in oceanography, atmospheric science, coastal engineering, applied mathematics and environmental science. Exercise solutions and MATLAB® examples are provided online. Also available as Open Access on Cambridge Core.
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eBook
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Digital Library
Resources in this library are accessible in digital format e.g. eBooks or eJournals accessible online. |
QE501 .S6375 2019 (Browse shelf(Opens below)) | Link to resource | Available |
Title from publisher's bibliographic system (viewed on 19 Apr 2019).
Instabilities are present in all natural fluids from rivers to atmospheres. This book considers the physical processes that generate instability. Part I describes the normal mode instabilities most important in geophysical applications, including convection, shear instability and baroclinic instability. Classical analytical approaches are covered, while also emphasising numerical methods, mechanisms such as internal wave resonance, and simple `rules of thumb' that permit assessment of instability quickly and intuitively. Part II introduces the cutting edge: nonmodal instabilities, the relationship between instability and turbulence, self-organised criticality, and advanced numerical techniques. Featuring numerous exercises and projects, the book is ideal for advanced students and researchers wishing to understand flow instability and apply it to their own research. It can be used to teach courses in oceanography, atmospheric science, coastal engineering, applied mathematics and environmental science. Exercise solutions and MATLAB® examples are provided online. Also available as Open Access on Cambridge Core.
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