The method of superposition of linearized conical flows has been applied to the calculation of the aerodynamic properties, in supersonic flight, of thin flat, swept-back wings at an angle of attack. The wings are assumed to have rectilinear plan forms, with tips parallel to the stream, and to taper in the conventional sense. The investigation covers the moderately supersonic speed range where the Mach lines from the leading-edge apex lie ahead of the wing. The trailing edge may lie ahead of or behind the Mach lines from its apex. The case in which the Mach cone from one tip intersects the other tip is not treated. Formulas are obtained for the load distribution, the total lift, and the drag due to lift. For the cases in which the trailing e...
The calculation of aerodynamic characteristics of wings based on linearised supersonic theory has be...
The well-known methods of thin-airfoil theory have been extended to oblique or sweptback airfoils of...
The theoretical lift and pitching moment due to angle of attack and pitching and the lateral force a...
The method of superposition of linearized conical flows has been applied to the calculation of the a...
By the method of superposition of conical flows, the load distribution is calculated for regions of ...
A method is derived for calculating the lift and the drag due to lift of point-forward triangular wi...
Steady, inviscid, supersonic flow past conical wings is studied within the context of irrotational, ...
Design curves are presented which permit rapid estimation of the lift-curve slope and damping-in-rol...
On the basis of linearized-supersonic-flow theory, the lateral force and yawing moment due to combin...
Design curves are presented which permit rapid estimations of lift and pitching moment for given val...
On the basis of linearized supersonic-flow theory, generalized equations were derived and calculatio...
The simplicity of the results and favorable properties of a class of conically cambered delta wings ...
The point-source-distribution method of calculating the aerodynamic coefficients of thin wings at su...
The first application of the method proves the equivalence in subsonic and supersonic flow of the do...
A previous report gave calculations for the pressure distribution over thin oblique airfoils at supe...
The calculation of aerodynamic characteristics of wings based on linearised supersonic theory has be...
The well-known methods of thin-airfoil theory have been extended to oblique or sweptback airfoils of...
The theoretical lift and pitching moment due to angle of attack and pitching and the lateral force a...
The method of superposition of linearized conical flows has been applied to the calculation of the a...
By the method of superposition of conical flows, the load distribution is calculated for regions of ...
A method is derived for calculating the lift and the drag due to lift of point-forward triangular wi...
Steady, inviscid, supersonic flow past conical wings is studied within the context of irrotational, ...
Design curves are presented which permit rapid estimation of the lift-curve slope and damping-in-rol...
On the basis of linearized-supersonic-flow theory, the lateral force and yawing moment due to combin...
Design curves are presented which permit rapid estimations of lift and pitching moment for given val...
On the basis of linearized supersonic-flow theory, generalized equations were derived and calculatio...
The simplicity of the results and favorable properties of a class of conically cambered delta wings ...
The point-source-distribution method of calculating the aerodynamic coefficients of thin wings at su...
The first application of the method proves the equivalence in subsonic and supersonic flow of the do...
A previous report gave calculations for the pressure distribution over thin oblique airfoils at supe...
The calculation of aerodynamic characteristics of wings based on linearised supersonic theory has be...
The well-known methods of thin-airfoil theory have been extended to oblique or sweptback airfoils of...
The theoretical lift and pitching moment due to angle of attack and pitching and the lateral force a...