The differential equation of Chaplygin's jet problem is utilized to give a systematic development of particular solutions of the hodograph flow equations, which extends the treatment of Chaplygin into the supersonic range and completes the set of particular solutions. The particular solutions serve to place on a reasonable basis the use of velocity correction formulas for the comparison of incompressible and compressible flows. It is shown that the geometric-mean type of velocity correction formula introduced in part I has significance as an over-all type of approximation in the subsonic range. A brief review of general conditions limiting the potential flow of an adiabatic compressible fluid is given and application is made to the par...
The theory of the perturbation of thoae compressible flows in-which there are only two independent v...
A method is presented for obtaining numerical solutions of the Eulerian hydrodynamic equations for s...
The physical behavior of compressible fluid flow is quite different from incompressible fluid flow. ...
The differential equation of Chaplygin's jet problem is utilized to give a systematic development of...
The di#er & equation o f Ciiuplygin's jet problem is ZLtilized to giae a sy&emdi.c dmel...
Chaplygin introduced the hodograph method in the theory of compressible fluid flows and developed a ...
Elementary basic solutions of the equations of motion of a compressible fluid in the hodograph varia...
A large number of papers have been devoted to the problem of integration of equations of two-dimensi...
"The use of the linearized equations of Chaplygin to calculate the subsonic flow of a gas permits so...
The two‐dimensional supersonic irrotational flow of a gas in a jet is studied by use of the Kármán‐T...
The most important methods used in obtaining solutions to compressible flow around bodies at subsoni...
An integral method, previously used to obtain compressible flow past two-dimensional shapes, is appl...
By means of finite Fourier transtorms the Green's function and hence the general solution is found f...
The method described is an inverse one; the shock shape is chosen and the solution proceeds downstre...
A general method for studying the flow of a compressible fluid around a closed body was discussed in...
The theory of the perturbation of thoae compressible flows in-which there are only two independent v...
A method is presented for obtaining numerical solutions of the Eulerian hydrodynamic equations for s...
The physical behavior of compressible fluid flow is quite different from incompressible fluid flow. ...
The differential equation of Chaplygin's jet problem is utilized to give a systematic development of...
The di#er & equation o f Ciiuplygin's jet problem is ZLtilized to giae a sy&emdi.c dmel...
Chaplygin introduced the hodograph method in the theory of compressible fluid flows and developed a ...
Elementary basic solutions of the equations of motion of a compressible fluid in the hodograph varia...
A large number of papers have been devoted to the problem of integration of equations of two-dimensi...
"The use of the linearized equations of Chaplygin to calculate the subsonic flow of a gas permits so...
The two‐dimensional supersonic irrotational flow of a gas in a jet is studied by use of the Kármán‐T...
The most important methods used in obtaining solutions to compressible flow around bodies at subsoni...
An integral method, previously used to obtain compressible flow past two-dimensional shapes, is appl...
By means of finite Fourier transtorms the Green's function and hence the general solution is found f...
The method described is an inverse one; the shock shape is chosen and the solution proceeds downstre...
A general method for studying the flow of a compressible fluid around a closed body was discussed in...
The theory of the perturbation of thoae compressible flows in-which there are only two independent v...
A method is presented for obtaining numerical solutions of the Eulerian hydrodynamic equations for s...
The physical behavior of compressible fluid flow is quite different from incompressible fluid flow. ...