Abstract
Liquid-liquid separation near a steel ball surface during etching and deposition processes in crossing gravity and magnetic field was investigated here both experimentally and theoretically. The influence of the Earth gravitation on the shape of the interface between the two quasi-stationary liquid phases in an electrolyte with different magnetic susceptibilities was experimentally observed. The shape of the interface is described theoretically based on the equation of the balance of osmotic, magnetic, and hydrostatic pressures in the Earth’s gravity. The impact of Earth’s gravity on the shape of the interface in electrolyte is described theoretically for the first time.
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