ageostrophic_wind#
- metpy.calc.ageostrophic_wind(height, u, v, dx=None, dy=None, latitude=None, x_dim=-1, y_dim=-2, *, parallel_scale=None, meridional_scale=None, longitude=None, crs=None)[source]#
Calculate the ageostrophic wind given from the height or geopotential.
- Parameters:
height ((M, N)
xarray.DataArrayorpint.Quantity) – The height or geopotential field.u ((…, M, N)
xarray.DataArrayorpint.Quantity) – The u wind field.v ((…, M, N)
xarray.DataArrayorpint.Quantity) – The u wind field.dx (
pint.Quantity, optional) – The grid spacing(s) in the x-direction. If an array, there should be one item less than the size of u along the applicable axis. Optional ifxarray.DataArraywith latitude/longitude coordinates used as input.dy (
pint.Quantity, optional) – The grid spacing(s) in the y-direction. If an array, there should be one item less than the size of u along the applicable axis. Optional ifxarray.DataArraywith latitude/longitude coordinates used as input.latitude (
xarray.DataArrayorpint.Quantity) – The latitude, which is used to calculate the Coriolis parameter. Its dimensions must be broadcastable with those of height. Optional ifxarray.DataArraywith latitude coordinate used as input. Note that an argument without units is treated as dimensionless, which is equivalent to radians.x_dim (int, optional) – Axis number of x dimension. Defaults to -1 (implying […, Y, X] order). Automatically parsed from input if using
xarray.DataArray.y_dim (int, optional) – Axis number of y dimension. Defaults to -2 (implying […, Y, X] order). Automatically parsed from input if using
xarray.DataArray.parallel_scale (
pint.Quantity, optional) – Parallel scale of map projection at data coordinate. Optional ifxarray.DataArraywith latitude/longitude coordinates and MetPy CRS used as input. Also optional if longitude, latitude, and crs are given. If otherwise omitted, calculation will be carried out on a Cartesian, rather than geospatial, grid. Keyword-only argument.meridional_scale (
pint.Quantity, optional) – Meridional scale of map projection at data coordinate. Optional ifxarray.DataArraywith latitude/longitude coordinates and MetPy CRS used as input. Also optional if longitude, latitude, and crs are given. If otherwise omitted, calculation will be carried out on a Cartesian, rather than geospatial, grid. Keyword-only argument.longitude (
pint.Quantity, optional) – Longitude of data. Optional ifxarray.DataArraywith latitude/longitude coordinates used as input. Also optional if parallel_scale and meridional_scale are given. If otherwise omitted, calculation will be carried out on a Cartesian, rather than geospatial, grid. Keyword-only argument.crs (
pyproj.crs.CRS, optional) – Coordinate Reference System of data. Optional ifxarray.DataArraywith MetPy CRS used as input. Also optional if parallel_scale and meridional_scale are given. If otherwise omitted, calculation will be carried out on a Cartesian, rather than geospatial, grid. Keyword-only argument.
- Returns:
A 2-item tuple of arrays – A tuple of the u-component and v-component of the ageostrophic wind
Changed in version 1.0: Changed signature from
(heights, f, dx, dy, u, v, dim_order='yx')