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200 10$aEnvironmental hazards$b[electronic resource] $ethe fluid dynamics and geophysics of extreme events /$feditors, H.K. Moffatt, Emily Shuckburgh
210   $aSingapore $cWorld Scientific$dc2011
215   $a1 online resource (330 p.)
225 1 $aLecture notes series / Institute for Mathematical Sciences, National University of Singapore ;$vv. 21
300   $a"The Institute for Mathematical Sciences at the National University of Singapore hosted a Spring School on Fluid Dynamics and Geophysics of Environmental Hazards from 19 April to 2 May 2009. This volume contains the content of the nine short lecture courses given at this School ..."--Back cover.
311   $a981-4313-28-9 
320   $aIncludes bibliographical references and index.
327   $aContents; Foreword; Preface; 1. A Brief Introduction to Vortex Dynamics and Turbulence H. Keith Moffatt; 1. Introduction; 2. Vorticity and the Biot-Savart Law; 3. The Euler Equation and its Invariants; 4. The Stretched Vortex of Burgers (1948); 5. Kelvin-Helmholtz Instability; 6. Transient Instability and Streamwise Vortices; 7. Turbulence, Viewed as a Random Field of Vorticity; 8. The Kolmogorov-Obukhov Energy-Cascade Theory; Acknowledgments; References; 2. Geophysical and Environmental Fluid Dynamics Tieh-Yong Koh and Paul F. Linden; 1. Introduction; 2. Stratified Flows
327   $a2.1. Surface Gravity Waves2.1.1. Dimensional analysis; 2.1.2. Exact dispersion relation; 2.2. Froude Number; 2.3. Stratification and Buoyancy Frequency; 2.4. Internal Gravity Waves; 2.5. Mountain Waves; 2.6. Mass, Momentum and Energy Fluxes; 3. Convection; 3.1. Unstable Stratification; 3.2. Parcel Argument; 3.3. Dimensional Analysis; 3.3.1. Rayleigh number; 3.4. Convection Strength; 3.5. High Rayleigh Number; 3.6. Very High Rayleigh Number; 4. Plumes; 4.1. Plumes-Dimensional Analysis; 4.2. Entrainment; 4.2.1. Entrainment assumption; 4.3. Self-similarity; 4.4. Plume Rise in a Stratified Fluid
327   $a4.4.1. Dimensional analysis4.4.2. Impact on the external environment - the "filling box"; 4.5. Fires; 5. Gravity Currents; 5.1. Horizontal Stratification; 5.2. Gravity Currents; 5.2.1. Dimensional analysis; 5.2.1.1. Constant velocity phase; 5.2.1.2. Similarity phase; 5.2.2. Laboratory verification; 5.3. The Front Froude Number; 6. Rotating Flows; 6.1. Rotating Frame and the Coriolis Force; 6.2. Inertial Oscillations; 6.3. Rossby Radius of Deformation and Eddies; 6.4. Buoyancy-Driven Coastal Currents; References; 3. Weather and Climate Emily Shuckburgh; 1. Introduction
327   $a2. Forcing of the Atmosphere and Ocean Circulation2.1. Atmospheric Properties; 2.2. Solar Forcing; 2.3. Greenhouse Effect; 2.4. Radiative Transfer; 2.5. Climate Change; 2.6. Further Atmospheric Properties; 2.7. Oceanic Properties; 2.8. Ocean Forcing; 3. Dynamics of the Atmosphere and Oceans; 3.1. Role of Dynamics; 3.2. Rotating Fluids; 3.3. Weather and Climate Models; 3.4. Dynamical Processes; 3.5. General Circulation of the Atmosphere; 3.6. Ocean Circulation; 3.7. Tropical Ocean-Atmosphere Coupling; 4. Conclusions; References
327   $a4. Dynamics of the Indian and Pacific Oceans Swadhin Behera and Toshio Yamagata1. Introduction; 2. The Tropical Climate Modes; 2.1. The ENSO; 2.2. The ENSO Modoki; 2.2.1. Ocean-atmosphere coupling; 2.2.2. ENSO Modoki vs ENSO impacts; 2.3. The Indian Ocean Dipole; 2.3.1. Ocean-atmosphere coupling; 2.3.2. Triggering and termination processes; 2.3.3. IOD impacts; 2.3.4. IOD predictions; 3. IOD, ENSO and ENSO Modoki Interactions; 4. Discussions; References; 5. The Hurricane-Climate Connection Kerry Emanuel; 1. Introduction; 2. Tropical Cyclone Variability in the Instrumental Record
327   $a3. Paleotempestology
330   $aThe Institute for Mathematical Sciences at the National University of Singapore hosted a Spring School on Fluid Dynamics and Geophysics of Environmental Hazards from 19 April to 2 May 2009. This volume contains the content of the nine short lecture courses given at this School, with a focus mainly on tropical cyclones, tsunamis, monsoon flooding and atmospheric pollution, all within the context of climate variability and change. The book provides an introduction to these topics from both mathematical and geophysical points of view, and will be invaluable for graduate students in applied mathem
410  0$aLecture notes series (National University of Singapore. Institute for Mathematical Sciences) ;$vv. 21.
606   $aClimatic extremes$vCongresses
606   $aAtmospheric turbulence$vCongresses
606   $aNatural disasters$vCongresses
606   $aFluid mechanics$vCongresses
615  0$aClimatic extremes
615  0$aAtmospheric turbulence
615  0$aNatural disasters
615  0$aFluid mechanics
676   $a551.5
701   $aMoffatt$b H. K$g(Henry Keith),$f1935-$01511758
701   $aShuckburgh$b Emily$01511759
712 02$aNational University of Singapore.$bInstitute for Mathematical Sciences.
712 12$aSpring School on Fluid Dynamics and Geophysics of Environmental Hazards
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200 00$aMesquite and Willow
210   $cUniversity of North Texas Press$d1957
210  1$a[s.l.]$cUniversity of North Texas Press$d1957
210  4$dİ1957
215   $a1 online resource (1 Online-Ressource (1 electronic resource ( p.)))
225 1 $aPublications of the Texas Folklore Society ;$vNumber 27
300   $aBibliographic Level Mode of Issuance: Monograph
311 08$a0-87074-018-0 
330   $aThe title of this book alludes to two branches of folklore that exist side by side in Texas, the English and the Mexican. The English tradition is symbolized by the willow and the Mexican by the Mesquite. Mezquite is the Spaniards' approximation of Nahuatl mizquitl, and of course Mexican folklore contains a mixture of Spanish and Indian elements. The mesquite and the willow both grow in Texas, but the mesquite has a much wider range because it can live in dry country. Mesquite belongs mainly to that part of Texas where the Mexican influence was the strongest, the country below San Antonio once occupied by Spanish and Mexican ranchers who traced their land titles back to grants made by the king of Spain.
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615  0$aFolklore.
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