The well-known methods of thin-airfoil theory have been extended to oblique or sweptback airfoils of finite aspect ratio moving at supersonic speeds. The cases considered thus far are symmetrical airfoils at zero lift having plan forms bounded by straight lines. Because of the conical form of the elementary flow fields, the results are comparable in simplicity to the results of the two-dimensional thin-airfoil theory for subsonic speeds. In the case of untapered airfoils swept back behind the Mach cone the pressure distribution at the center section is similar to that given by the Ackeret theory for a straight airfoil. With increasing distance from the center section the distribution approaches the form given by the subsonic-flow theory. The pressure drag is concentrated chiefly at the center section and for long wings a slight negative drag may appear on outboard sections. (author)
Thin oblique airfoils at supersonic speed
1946-01-01
Miscellaneous
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English
Thin oblique airfoils at supersonic speed
Engineering Index Backfile | 1946
|Thin oblique airfoils at supersonic speed
NTRS | 1976
|Thin oblique airfoils at supersonic speed
TIBKAT | 1946
|Thin Oblique Airfoils at Supersonic Speed
NTRS | 1946
|Subsonic flow over thin oblique airfoils at zero lift
TIBKAT | 1947
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