geoana.em.fdem.MagneticDipoleWholeSpace.distance#
- MagneticDipoleWholeSpace.distance(xyz)#
Scalar distance from dipole to a set of gridded xyz locations
Where \(\mathbf{p}\) is the location of the source and \(\mathbf{q}\) is a point in 3D space, this method returns the scalar distance:
\[d = \sqrt{(q_x - p_x)^2 + (q_y - p_y)^2 + (q_z - p_z)^2}\]for all locations \(\mathbf{q}\) supplied in the input argument xyz. For dipoles, \(\mathbf{p}\) is the dipole location. For circular loops, \(\mathbf{p}\) defines the center location for the loop.
- Parameters:
- xyz(n, 3) numpy.ndarray
Gridded xyz locations
- Returns:
numpy.ndarray Scalar distances from dipole to xyz locations