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The Einstein–de Haas effect is a physical phenomenon in which a change in the magnetic moment of a free body causes the body to rotate. The effect is a consequence of the conservation of angular momentum. It is strong enough to be observable in ferromagnetic materials. The experimental observation and accurate measurement of the effect demonstrated that the phenomenon of magnetization is caused by the alignment (polarization) of the angular momenta of the electrons in the material along the axis of magnetization. These measurements also allow the separation of the two contributions to the magnetization: that which is associated with the spin from that which is due to the orbital motion of the electrons.
The effect also demonstrated the close relation between the notions of angular momentum
in classical and in quantum physics.
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