Add to ORKGA previous report gave calculations for the pressure distribution over thin oblique airfoils at supersonic speed. The present report extends the calculations to subsonic speeds. It is found that the flows again can be obtained by the superposition of elementary conical flow fields. In the case of the swept-back wing the pressure distributions remain qualitatively similar at subsonic and supersonic speeds. Thus a distribution similar to the Ackeret type of distribution appears on the root sections of the swept-back wing at Mach=0. The resulting positive pressure drag on the root section is balanced by negative drags on outboard sections
An investigation was conducted at a Mach number of 1.90 to determine spanwise pressure distribution ...
A method is derived for calculating the lift and the drag due to lift of point-forward triangular wi...
Pressure distributions are calculated for some symmetrical wing-body combinations at zero lift. The ...
The well-known methods of thin-airfoil theory have been extended to oblique or sweptback airfoils of...
A previous report gave calculations for the pressure distribution over thin oblique airfoils at supe...
The well-known methods of thin-airfoil theory have been extended to oblique or sweptback airfoils of...
It is pointed out that, in the case of an airfoil of infinite aspect ratio moving at an angle of sid...
The well-known methods of thin-airfoil theory hare been ertended to oblique or smeptback airfm”18 of...
By the method of superposition of conical flows, the load distribution is calculated for regions of ...
The method of superposition of linearized conical flows has been applied to the calculation of the a...
The point-source-distribution method of calculating the aerodynamic coefficients of thin wings at su...
At subsonic speeds the pressure drag arising from the thickness of the body or wings is negligible s...
The spanwise lift-distribution measurements in straight air flow on a straight and a 35 deg swept-ba...
Theoretical pressure distributions on nonlifting circular-arc airfoils in two-dimensional flows with...
On the basis of linearized supersonic-flow theory, generalized equations were derived and calculatio...
An investigation was conducted at a Mach number of 1.90 to determine spanwise pressure distribution ...
A method is derived for calculating the lift and the drag due to lift of point-forward triangular wi...
Pressure distributions are calculated for some symmetrical wing-body combinations at zero lift. The ...
The well-known methods of thin-airfoil theory have been extended to oblique or sweptback airfoils of...
A previous report gave calculations for the pressure distribution over thin oblique airfoils at supe...
The well-known methods of thin-airfoil theory have been extended to oblique or sweptback airfoils of...
It is pointed out that, in the case of an airfoil of infinite aspect ratio moving at an angle of sid...
The well-known methods of thin-airfoil theory hare been ertended to oblique or smeptback airfm”18 of...
By the method of superposition of conical flows, the load distribution is calculated for regions of ...
The method of superposition of linearized conical flows has been applied to the calculation of the a...
The point-source-distribution method of calculating the aerodynamic coefficients of thin wings at su...
At subsonic speeds the pressure drag arising from the thickness of the body or wings is negligible s...
The spanwise lift-distribution measurements in straight air flow on a straight and a 35 deg swept-ba...
Theoretical pressure distributions on nonlifting circular-arc airfoils in two-dimensional flows with...
On the basis of linearized supersonic-flow theory, generalized equations were derived and calculatio...
An investigation was conducted at a Mach number of 1.90 to determine spanwise pressure distribution ...
A method is derived for calculating the lift and the drag due to lift of point-forward triangular wi...
Pressure distributions are calculated for some symmetrical wing-body combinations at zero lift. The ...