On the shape and stability of a conducting fluid drop rotating in an electric field
C. E. Rosenkilde,R. R. Randall +1 more
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The equilibrium and stability of an isolated, inviscid, incompressible, neutral conducting fluid drop whose axis of uniform rotation coincides with the direction of a uniform applied electric field are examined by using an appropriate extension of the virial method developed by Chandrasekhar.Abstract:
The equilibrium and stability of an isolated, inviscid, incompressible, neutral conducting fluid drop whose axis of uniform rotation coincides with the direction of a uniform applied electric field are examined by using an appropriate extension of the virial method developed byChandrasekhar Rotating spherical, spheroidal, and ellipsoidal equilibrium shapes are shown to satisfy the first twelve moment equations A linear, one-parameter (the elongation) family of equilibrium curves relates the electrostatic energy,x, to the square of the angular momentum,y, of a given spheroidal shape Conditions for the onset of instability, obtained from a linearized normal-mode analysis associated with second-harmonic deformations, restrict stable spheroidal configurations to a closed region of thisx−y configuration plane Genuine triaxial configurations are shown to bifurcate from these axisymmetric configurations in the same manner as the classical, self-gravitating Jacobi ellipsoids bifurcate from the Maclaurin spheroidsread more
Citations
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Evolution, stability and equilibrium shapes of rotating drops which are charged or subject to electric fields
TL;DR: In this article, the effect of rotation at constant angular momentum L on the evolution of a conducting and viscous drop when it holds an amount of charge Q on its surface or is immersed in an external electric field of magnitude E∞ acting in the direction of the rotation axis was studied.
Journal ArticleDOI
Capillary oscillations and stability of a charged drop rotating about the axis of symmetry
TL;DR: In this article, the stability of a charged conductive liquid drop rotating about the axis of symmetry against the pressure of the self-charge electric field and inertial force pressure was investigated in an approximation linear in oscillation amplitude and square of the spheroidal drop deformation eccentricity.
References
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On the shape of a rotating liquid drop in an electric field
TL;DR: In this article, the axisymmetric relative equilibrium shape of a finite dielectric liquid mass held together by surface tension and rotating uniformly in a uniform axial electric field is determined by expressing the slope of its tangent in terms of confluent hypergeometric functions and following a numerical integration.
Journal ArticleDOI
Effect of Electromagnetic Radiation on the Secular Stability of a Homogeneous, Charged, Rotating Drop
TL;DR: In this paper, it was shown that electromagnetic radiation induces a secular instability in a homogeneous rotating charged drop, held together by surface tension, at the point of bifurcation at which a triaxial sequence of equilibrium figures branches from the axially symmetric figures.