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NACA-TR-892
Damping in pitch and roll of triangular wings at supersonic speeds
Year: 1948
Abstract: A method is derived for calculating the damping coefficients in pitch and roll for a series of triangular wings and a restricted series of sweptback wings at supersonic speeds. The elementary "supersonic source" solution of the linearized equation of motion is used to find the potential function of a line of doublets, and the flows are obtained by surface distributions of these doublet lines. The damping derivatives for triangular wings are found to be a function of the ratio of the tangent of the apex angle to the tangent of the Mach angle. As this ratio becomes equal to and greater than 1.0 for triangular wings, the damping derivatives, in pitch and in roll, become constant. The damping derivative in roll becomes equal to one-half the value calculated for an infinite rectangular wing, and the damping derivative in pitch for pitching about the apex becomes equal to 3.375 times that of an infinite rectangular wing.
Subject: COMPUTATIONAL
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| contributor author | NASA - National Aeronautics and Space Administration (NASA) | |
| date accessioned | 2017-09-04T18:42:36Z | |
| date available | 2017-09-04T18:42:36Z | |
| date copyright | 01/01/1948 | |
| date issued | 1948 | |
| identifier other | JZWUYDAAAAAAAAAA.pdf | |
| identifier uri | http://yse.yabesh.ir/std;jsessionid=3826AF679D40527318548F1EFDEC014A/handle/yse/224071 | |
| description abstract | A method is derived for calculating the damping coefficients in pitch and roll for a series of triangular wings and a restricted series of sweptback wings at supersonic speeds. The elementary "supersonic source" solution of the linearized equation of motion is used to find the potential function of a line of doublets, and the flows are obtained by surface distributions of these doublet lines. The damping derivatives for triangular wings are found to be a function of the ratio of the tangent of the apex angle to the tangent of the Mach angle. As this ratio becomes equal to and greater than 1.0 for triangular wings, the damping derivatives, in pitch and in roll, become constant. The damping derivative in roll becomes equal to one-half the value calculated for an infinite rectangular wing, and the damping derivative in pitch for pitching about the apex becomes equal to 3.375 times that of an infinite rectangular wing. | |
| language | English | |
| title | NACA-TR-892 | num |
| title | Damping in pitch and roll of triangular wings at supersonic speeds | en |
| type | standard | |
| page | 9 | |
| status | Active | |
| tree | NASA - National Aeronautics and Space Administration (NASA):;1948 | |
| contenttype | fulltext | |
| subject keywords | COMPUTATIONAL | |
| subject keywords | DAMPING | |
| subject keywords | DELTA | |
| subject keywords | DERIVATIVES | |
| subject keywords | DISTRIBUTION | |
| subject keywords | DYNAMICS | |
| subject keywords | EQUATIONS | |
| subject keywords | FLOW | |
| subject keywords | FLUID | |
| subject keywords | INCLINATION | |
| subject keywords | LINEAR | |
| subject keywords | MOTION | |
| subject keywords | PITCH | |
| subject keywords | PRESSURE | |
| subject keywords | ROLL | |
| subject keywords | STABILITY | |
| subject keywords | SUCTION | |
| subject keywords | SUPERSONIC | |
| subject keywords | SWEPTBACK | |
| subject keywords | WINGS |