Abstract
Ferromagnetic liquids at ambient temperature are characterized as dipolar, possessing magnetic properties that could be investigated through classical as well as quantum theories. Classical analysis identified the dipolar ions as loose enough to be considered freely rotating within the liquid continum while the quantum basical approach recognized the limited degrees of gyromagnetization with respect to the total angular momentum quantum number. Experimental work supported with rigorous analytical treatment identified the occurrence of ferroresonance for the gyromagnetic energy absorbed by the dipolar fluid at a unified level of magnetic field intensity, sudden and sharp reversal in the polarity of the dipole moment per unit volume at resonance, and the impulsive singularity nature for the magnetic susceptibility. Energy levels for Bloch walls distribution across a longitudinal channel of the dipolar liquid indicate reversible as well as irreversible locations.
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