The rotational motions of compressible fluids. II
Abstract
The fundamental equations for planar steady motion are used, with two families of characteristics of the flow when the relative velocity surpasses a critical velocity, to verify the stream function of relative motion starting from a system of potential velocity. Basic analytical premises for linear aerodynamic motion are defined for a rotating thin profile and at small angles of attack, by linearizing the absolute velocity potential equation. The influence of pressure on the linear aerodynamics of rotating motion are accounted for.
 Publication:

Revue Roumaine des Sciences Techniques Serie de Mecanique Appliquee
 Pub Date:
 August 1982
 Bibcode:
 1982RvRST..27..437J
 Keywords:

 Compressible Fluids;
 Computational Fluid Dynamics;
 Flow Theory;
 Potential Theory;
 Rotating Fluids;
 Linear Equations;
 Stream Functions (Fluids);
 Fluid Mechanics and Heat Transfer