The external wave drag of bodies of revolution moving at supersonic speeds can be expressed either in terms of the geometry of the body, or in terms of the body-simulating axial source distribution. For purposes of deriving optimum bodies under various given conditions, it is found that the second of the methods mentioned is the more tractable. By use of a quasi-cylindrical theory, that is, the boundary conditions are applied on the surface of a cylinder rather than on the body itself, the variational problems of the optimum bodies having prescribed volume or caliber are solved. The streamline variations of cross-sectional area and drags of the bodies are exhibited, and some numerical results are given
A method is presented for the automatic synthesis of minimum drag hull shapes for axisymmetric vehic...
Hypersonic aerodynamic performance of minimum wave drag bodies having various cross section
A unified treatment is given to the problem of finding minimum total drag bodies-both two-dimensiona...
The external wave drag of bodies of revolution moving at supersonic speeds can be expressed either i...
By means of linearized-body theory and reverse-flow theorems, the wave drag of a system of fusiform ...
By use of an approximate equation for the wave drag of slender bodies of revolution in a supersonic ...
Several variational problems involving optimum wing and body combinations having minimum wave drag f...
By use of an approximate equation for the wave drag of slender bodies of revolution in a supersonic ...
The relation of Whitcomb's "area rule" to the linear formulas for wave drag at lightly supersonic sp...
The minimization of inviscid fluid drag is studied for aerodynamic shapes satisfying the conditions ...
The problem of determining the shape of slender boattail bodies of revolution for minimum wave drag ...
For a given wing and supersonic Mach number, the problem of shaping an adjoining fuselage so that th...
A comprehensive, universally valid, elegant and yet simple method to design slender axisymmetric bod...
Approximate shapes of nonlifting bodies having minimum pressure foredrag at high supersonic airspeed...
A new method was developed to optimize, in terms of aerodynamic wave drag minimization, arbitrary (n...
A method is presented for the automatic synthesis of minimum drag hull shapes for axisymmetric vehic...
Hypersonic aerodynamic performance of minimum wave drag bodies having various cross section
A unified treatment is given to the problem of finding minimum total drag bodies-both two-dimensiona...
The external wave drag of bodies of revolution moving at supersonic speeds can be expressed either i...
By means of linearized-body theory and reverse-flow theorems, the wave drag of a system of fusiform ...
By use of an approximate equation for the wave drag of slender bodies of revolution in a supersonic ...
Several variational problems involving optimum wing and body combinations having minimum wave drag f...
By use of an approximate equation for the wave drag of slender bodies of revolution in a supersonic ...
The relation of Whitcomb's "area rule" to the linear formulas for wave drag at lightly supersonic sp...
The minimization of inviscid fluid drag is studied for aerodynamic shapes satisfying the conditions ...
The problem of determining the shape of slender boattail bodies of revolution for minimum wave drag ...
For a given wing and supersonic Mach number, the problem of shaping an adjoining fuselage so that th...
A comprehensive, universally valid, elegant and yet simple method to design slender axisymmetric bod...
Approximate shapes of nonlifting bodies having minimum pressure foredrag at high supersonic airspeed...
A new method was developed to optimize, in terms of aerodynamic wave drag minimization, arbitrary (n...
A method is presented for the automatic synthesis of minimum drag hull shapes for axisymmetric vehic...
Hypersonic aerodynamic performance of minimum wave drag bodies having various cross section
A unified treatment is given to the problem of finding minimum total drag bodies-both two-dimensiona...