unit_vectors_from_cross_section¶
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metpy.calc.unit_vectors_from_cross_section(cross, index='index')[source]¶ Calculate the unit tanget and unit normal vectors from a cross-section.
Given a path described parametrically by \(\vec{l}(i) = (x(i), y(i))\), we can find the unit tangent vector by the formula
\[\vec{T}(i) = \frac{1}{\sqrt{\left( \frac{dx}{di} \right)^2 + \left( \frac{dy}{di} \right)^2}} \left( \frac{dx}{di}, \frac{dy}{di} \right)\]From this, because this is a two-dimensional path, the normal vector can be obtained by a simple \(\frac{\pi}{2}\) rotation.
Parameters: - cross (
xarray.DataArray) – The input DataArray of a cross-section from which to obtain latitudes. - index (str, optional) – A string denoting the index coordinate of the cross section, defaults to ‘index’ as
set by
metpy.interpolate.cross_section.
Returns: unit_tangent_vector, unit_normal_vector (tuple of
numpy.ndarray) – Arrays describing the unit tangent and unit normal vectors (in x,y) for all points along the cross section.- cross (