Inertial torque on a squirmer
Abstract
A small spheroid settling in a quiescent fluid experiences an inertial torque that aligns it so that it settles with its broad side first. Here we show that an active particle experiences such a torque too, as it settles in a fluid at rest. For a spherical squirmer, the torque is T = -98 mf (vs(0) vg(0)) where vs(0) is the swimming velocity, vg(0) is the settling velocity in the Stokes approximation, and mf is the equivalent fluid mass. This torque aligns the swimming direction against gravity: swimming up is stable, swimming down is unstable.
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