Add to ORKGA lift-cancellation technique is presented for determining load distributions on thin wings at supersonic speeds. The loading on a wing having a prescribed plan form is expressed as the loading of a known related wing (such as a two-dimensional or triangular wing) minus the loading of an appropriate cancellation wing. The lift-cancellation technique can be used to find the loading on a large variety of wings. Applications to swept wings having curvilinear plan forms and to wings having reentrant side edges are indicated
Lifting-line theory is one simple method of predicting the lift produced by a wing. The traditional ...
A method is described for using lifting-surface theory to obtain the pressure distribution on a wing...
Numerical methods for the design and analysis of arbitrary-planform wings at supersonic speeds are r...
A lift-cancellation technique is presented for determining load distributions on thin wings at super...
The method of superposition of linearized conical flows has been applied to the calculation of the a...
BASING their work on a linear theory, Evvard1 and Krasilshchikova2'3 independently developed an expr...
The point-source-distribution method of calculating the aerodynamic coefficients of thin wings at su...
On the basis of linearized supersonic-flow theory, generalized equations were derived and calculatio...
By the method of superposition of conical flows, the load distribution is calculated for regions of ...
A simplified lifting-surface theory is applied to the problem of evaluating span loading due to flap...
The spanwise and chordwise distribution of loading, the lift, and the induced drag of a swept-back w...
One of the problems connected with the sweptback wing is the difficulty of controlling the location ...
The greatest efficiency for a lifting surface at supersonic speeds, according to the theoretical con...
A series of publications on the source-distribution methods for evaluating the aerodynamics of thin ...
A simplified lifting-surface theory that includes effects of compressibility and spanwise variation ...
Lifting-line theory is one simple method of predicting the lift produced by a wing. The traditional ...
A method is described for using lifting-surface theory to obtain the pressure distribution on a wing...
Numerical methods for the design and analysis of arbitrary-planform wings at supersonic speeds are r...
A lift-cancellation technique is presented for determining load distributions on thin wings at super...
The method of superposition of linearized conical flows has been applied to the calculation of the a...
BASING their work on a linear theory, Evvard1 and Krasilshchikova2'3 independently developed an expr...
The point-source-distribution method of calculating the aerodynamic coefficients of thin wings at su...
On the basis of linearized supersonic-flow theory, generalized equations were derived and calculatio...
By the method of superposition of conical flows, the load distribution is calculated for regions of ...
A simplified lifting-surface theory is applied to the problem of evaluating span loading due to flap...
The spanwise and chordwise distribution of loading, the lift, and the induced drag of a swept-back w...
One of the problems connected with the sweptback wing is the difficulty of controlling the location ...
The greatest efficiency for a lifting surface at supersonic speeds, according to the theoretical con...
A series of publications on the source-distribution methods for evaluating the aerodynamics of thin ...
A simplified lifting-surface theory that includes effects of compressibility and spanwise variation ...
Lifting-line theory is one simple method of predicting the lift produced by a wing. The traditional ...
A method is described for using lifting-surface theory to obtain the pressure distribution on a wing...
Numerical methods for the design and analysis of arbitrary-planform wings at supersonic speeds are r...