Linear Stability of Self-Similar Flow. 4. Convective Instability of a Spherical Cloud Expanding into Vacuum.

Abstract

The well-known class of self-similar solutions for an ideal polytropic gas sphere of radius R(t) expanding into a vacuum with velocity u(r,t) = r R-dot/R is shown to be convectively unstable. The physical mechanism results from the buoyancy force experienced by anisentropic distributions in the inertial gravitational field. An equation for the perturbed displacement, derived from the linearized fluid equations in Lagrangian coordinates, is solved by separation of variables. Because the basic state is nonsteady, the perturbations do not grow exponentially, but can be expressed in terms of hypergeometric functions.

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Document Details

Document Type
Technical Report
Publication Date
Oct 25, 1978
Accession Number
ADA060835

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  • D. L. Book

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  • United States Naval Research Laboratory

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