Abstract
Important information relevant to quantum properties of ferromagnetic insulating liquids has been secured through experimental coupled with analytical work. Calculations have been carried out to identify the total gyromagnetic energy expended during magneto-fluid load interaction in terms of exchange energy, anisotropic energy as well as dipole orientational energy. Separation of ferric solution quantum parameters, such as the exchange integral, thickness of domain wall and Coulomb interaction parameter are secured with the aid of an external magnetic field and a guided movement of the ferric solution through a cylindrical channel.
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