<--- Back to Details
First PageDocument Content
Storm / Tornadogenesis / Tornado / Wind / Mesoscale meteorology / Supercell / Mesocyclone / Hydrodynamical helicity / Thunderstorm / Meteorology / Atmospheric sciences / Weather
Date: 2005-11-03 11:10:18
Storm
Tornadogenesis
Tornado
Wind
Mesoscale meteorology
Supercell
Mesocyclone
Hydrodynamical helicity
Thunderstorm
Meteorology
Atmospheric sciences
Weather

Add to Reading List

Source URL: www.crh.noaa.gov

Download Document from Source Website

File Size: 664,55 KB

Share Document on Facebook

Similar Documents

Meteorology / Atmospheric sciences / Storm / Vortices / Tornadogenesis / Fluid dynamics / Tornado / Supercell / Hydrodynamical helicity / Mesocyclone / Tropical cyclone / Vorticity

MM5 Simulations of the 24 September 1999 Tornadic Outbreaks in the Outer Rainband Associated with Typhoon Bart Jun Yoshino, Hirohiko Ishikawa and Hiromasa Ueda Disaster Prevention Research Institute, Kyoto University, Uj

DocID: 1q8mX - View Document

Fluid dynamics / Mesoscale meteorology / Aerodynamics / Radar meteorology / Atmospheric dynamics / Vorticity / Baroclinity / Mesovortices / Hydrodynamical helicity / Tornadogenesis / Vortex / Rear-inflow jet

PDF Document

DocID: 1prmw - View Document

Plasma physics / Fluid dynamics / Solar phenomena / Hydrodynamical helicity / Helioseismology / Helicity / Solar cycle / Sun

On solar cycle variation of subsurface kinetic helicity Mei Zhang (National Astronomical Observatory, Chinese Academy of Sciences) Collaborators:

DocID: 1oPzm - View Document

Vector calculus / Differential forms / Analytic geometry / Curl / Divergence / Hydrodynamical helicity / Integral / Closed and exact differential forms / Volume / Vector space

Helicity is the only integral invariant of volume-preserving dieomorphisms Daniel Peralta-Salas ICMAT, CSIC Let M be a compact 3-dimensional manifold without boundary, endowed with a Riemannian metric. We denote by X1e

DocID: 1oMRZ - View Document

Fluid dynamics / Aerodynamics / Mechanics / Continuum mechanics / Vortex / Turbulence / Lift / Lagrangian coherent structure / Reynolds number / Hydrodynamical helicity / Vorticity / Strouhal number

Quantitative flow analysis of swimming dynamics with coherent Lagrangian vortices F. Huhn, W. M. van Rees, M. Gazzola, D. Rossinelli, G. Haller, and P. Koumoutsakos Citation: Chaos 25, ); doi:

DocID: 1nRSw - View Document