Abstract
A compound liquid drop system is comprised of three immiscible concentric fluids: a core fluid of density ρ(i) surrounded by a shell of density ρ(s) which is embedded in a medium of density ρ(0). In this analysis, the fluids are incompressible and inviscid. The effect of rotation upon the modes of oscillation of a compound drop is investigated. Rotation rate is considered as a small perturbation of the normal modes of the compound drop, thus introducing the effects of a Coriolis force and a centrifugal distortion.
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