ON THE STABILITY OF NORMAL SHOCK WAVES WITH VISCOSITY AND HEAT CONDUCTION,
Abstract
The stability problem, for small arbitrary one-dimensional disturbances of a normal shock wave with viscosity and heat conduction in a thermodynamically perfect gas with a Prandtl Number of 3/4 is treated, and is formulated explicitly as an eigenvalue problem involving ordinary linear differential equations with polynomial coefficients in a fixed finite domain whose end points are singular points of the differential equations. It is shown by a simple general type of mathematical argument that one possible mode shape for the perturbations is a translation of the shock-structure, and that such a disturbance is neutrally stable. For the limiting case of a weak-shock structure, the equations developed are shown to reduce systematically to a perturbed form of Burger's equation. The weak shock structure is shown to be stable for any Prandtl Number and general equation of state, and a complete solution for the disturbance eigenvalues and eigenfunctions in this case is derived and discussed. (Author)
Document Details
- Document Type
- Technical Report
- Publication Date
- Jan 01, 1970
- Accession Number
- AD0705657
Entities
People
- Alvin J. Paullay
- Morris Morduchow
Organizations
- New York University Tandon School of Engineering