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#9
February 27th 05, 11:03 PM
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"Larry Dighera" wrote in message
... Given the "clean" design of the glider, the increase in parasitic drag at higher speeds is probably insignificant compared to the "skin friction drag" reduction. I think so. Words for drag vary, and I've always used parasite drag to include skin friction, but I think we mean the same thing. For a laminar boundary layer, skin friction is proportional to Re^-0.5, and for a turbulent boundary layer to Re^-0.2. If skin friction drag is about 2/3 of the total parasite drag (by which I mean skin friction + form drag), which in turn is 1/2 the total drag at best glide, that would suggest that the L/D should improve by between 1/15 and 1/6 of the increase in speed. The data you quoted, with a 50% speed difference for a 2-3% difference in L/D suggest something like the 1/15 expected of a turbulent boundary layer. Julian 
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