Have they tried dimples on radio controlled aircraft? � The size and
speed could designed around the magic Reynolds number = 100,000 where
the coefficient of drag drops precipitously.
Dimpling could vastly extent the range of large and slow as well as
small and fast radio controlled aircraft.
A competitive cyclist is the right size and speed for Nre = 100,000 so
dimple suits can work. �Same for golf balls.
Nre = 100,000 for widebodies going 0.5 knots so dimples won't work
except on the runway.
From fluid mechanics the Reynolds number is the ratio of inertial
forces/viscous forces.
N re = Diameter X velocity X density of fluid/viscosity of fluid.
Bret Cahill
We competitive cyclists use dimples already on our disk wheels. And some
skinsuits incorporate them. But they don't look like the dimples on a golf
ball. They are shaped differently and they are shallow.
Check out Zipp disk wheel dimples hehttp://www.zipp.com/wheels/detail.php?ID=33
Over a 40K ITT this rear wheel can give you a 30-40 second advantage over
smooth disk wheels.
A model plane about the size of a cyclist would benefit most from
dimples if it only went cycling speeds, 20 - 25 knots.
Smaller aircraft would need to be designed to go faster inverse with
size.
A golf ball sized aircraft would have to go 200 mph for dimples to
work.
Bret Cahill