On the Einstein-de Haas and Barnett Effects

The orthogonal relation between the magnetic aspect (spin) of scatterable elementary particles’ energy with respect to their direction of motion can be demonstrated at the macroscopic level by mechanical means. It can be proven that force aligning the spins of unpaired electrons in ferromagnetic materials causes the unidirectional carrying energy of the electrons involved to align orthogonally to the macroscopic magnetic field generated, which can cause a motion detectable at the macroscopic level when this motion is not mechanically restrained (The Einstein-de Haas Effect). Alternately, it can also be proven that mechanically forcing unpaired electrons in ferromagnetic materials to move in a common direction forces the spin of their carrying energy to align parallel, causing their combined magnetic field to become detectable at the macroscopic level (the Barnett Effect).