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r@282: #X text 17 293 based on the physics of;
r@282: #X text 280 299 Calculates the gain of the dipole source;
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r@267: #X text 101 35 Generates the sound associated with the lift dipole.
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r@282: #X text 17 306 the object and environment;
r@282: #X text 279 8 Source Speed;
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r@267: #X text 587 13 Distance;
r@267: #X text 48 531 Calculates Lift Dipole gain;
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r@267: #X text 763 12 Azimuth;
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r@267: #X text 512 235 Remember - Goldstein moves cylinder;
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r@267: #X text -214 358 If adding additional signal at 0 degrees then you
r@267: will have to add it before you divid by distance - for all sources!
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r@267: #X text -154 219 Scale factor to bring in line with CFD calcs (divided
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r@267: #X text 340 105 Speed of Sound to power 3 x 32;
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