Article Type:
Research Article

Angular Momentum Coordinates and Their Use in Zonal, Geostrophic Motion on a Hemisphere

G. J. Shutts Atmospheric Physics Group, Department of Physics, Imperial College, London

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Print Publication:
01 May 1980
DOI:
https://doi.org/10.1175/1520-0469(1980)037<1126:AMCATU>2.0.CO;2
Page(s):
1126–1132
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Abstract

The equations of motion for balanced, axisymmetric motion on a hemisphere are transformed to a somewhat simpler form employing angular momentum as a new, meridional coordinate.

The resulting equations may be regarded as a relative of the semi-geostrophic equations and have similar properties such as the stretching of zones of high vorticity. Wind and temperature fields may be obtained by solving an approximate linear equation given the Ertel potential given vorticity field and suitable boundary conditions.

Abstract

The equations of motion for balanced, axisymmetric motion on a hemisphere are transformed to a somewhat simpler form employing angular momentum as a new, meridional coordinate.

The resulting equations may be regarded as a relative of the semi-geostrophic equations and have similar properties such as the stretching of zones of high vorticity. Wind and temperature fields may be obtained by solving an approximate linear equation given the Ertel potential given vorticity field and suitable boundary conditions.

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