# geoana.em.fdem.MagneticDipoleLayeredHalfSpace.cross_orientation#

MagneticDipoleLayeredHalfSpace.cross_orientation(xyz)#

Cross products between a gridded set of vectors and the orientation of the source.

Where $$\mathbf{p}$$ is the vector defining the orientation of the source and $$\mathbf{v}$$ is a 3D vector, this method returns the cross product:

$\mathbf{v} \times \mathbf{p}$

for all vectors $$\mathbf{v}$$ supplied in the input argument vecs.

Parameters
vecs(n, 3) numpy.ndarray

A set of 3D vectors

Returns
1. numpy.ndarray Cross product between each vector supplied and the source orientation.