Add to ORKGA numerical method, based on linearized theory, for designing minimum-drag supersonic wing camber surfaces of arbitrary planform for a given lift, with options for constraining the pitching moment and/or the surface deformation at the trailing edge of the root chord and for selecting any desired combination of eight specified wing-loading distributions to be employed in the optimization procedure is presented. Two examples are given to illustrate applications of the method. The results indicate that relatively small drag penalties are incurred in designing wings to be self-trimming and to have a reasonable camber surface
A cambered and twisted triangular wing of aspect ratio 2 in combination with a cambered body was inv...
Numerical methods incorporated into a computer program to provide estimates of the subsonic aerodyna...
A theoretical investigation is made of the airfoil profile for minimum pressure drag at zero lift in...
This paper describes methodology and an associated computer program for the design of wing lifting s...
A linearized theory wing design and optimization procedure which allows physical realism and practic...
A survey of research on drag-due-to-lift minimization at supersonic speeds, including a study of the...
Digital computer program using influence coefficients method for optimizing camber surfaces for wing...
One of the problems connected with the sweptback wing is the difficulty of controlling the location ...
A new subsonic method has been developed by which the mean camber surface can be determined for trim...
A new method has been developed by which the mean camber surface can be determined for trimmed nonco...
Numerical methods for the design and analysis of arbitrary-planform wings at supersonic speeds are r...
A wind-tunnel study was conducted to determine the capability of a method combining linear theory an...
A theoretical method is presented for determining the optimum camber shape and twist distribution fo...
Numerical procedure for analyzing and designing wings and wing-body combinations in supersonic flo
A series of arrow wings employing various degrees of twist and camber were tested in the Langley 4- ...
A cambered and twisted triangular wing of aspect ratio 2 in combination with a cambered body was inv...
Numerical methods incorporated into a computer program to provide estimates of the subsonic aerodyna...
A theoretical investigation is made of the airfoil profile for minimum pressure drag at zero lift in...
This paper describes methodology and an associated computer program for the design of wing lifting s...
A linearized theory wing design and optimization procedure which allows physical realism and practic...
A survey of research on drag-due-to-lift minimization at supersonic speeds, including a study of the...
Digital computer program using influence coefficients method for optimizing camber surfaces for wing...
One of the problems connected with the sweptback wing is the difficulty of controlling the location ...
A new subsonic method has been developed by which the mean camber surface can be determined for trim...
A new method has been developed by which the mean camber surface can be determined for trimmed nonco...
Numerical methods for the design and analysis of arbitrary-planform wings at supersonic speeds are r...
A wind-tunnel study was conducted to determine the capability of a method combining linear theory an...
A theoretical method is presented for determining the optimum camber shape and twist distribution fo...
Numerical procedure for analyzing and designing wings and wing-body combinations in supersonic flo
A series of arrow wings employing various degrees of twist and camber were tested in the Langley 4- ...
A cambered and twisted triangular wing of aspect ratio 2 in combination with a cambered body was inv...
Numerical methods incorporated into a computer program to provide estimates of the subsonic aerodyna...
A theoretical investigation is made of the airfoil profile for minimum pressure drag at zero lift in...