On Jan 3, 5:23*pm, "
wrote:
On Jan 3, 6:30*pm, ProfChrisReed wrote:



It seems to me that increased AoA must be a very large part of the
cause.

Imagine you are flying free @55kt. You have a sink rate of, say,
1.5kt. Now you are on tow, again @55kt, but this time the combination
is climbing @5kt. Your wings are generating 6.5kt more lift than in
free flight, and must therefore be at a substantially higher AoA.

Additionally, the faster you are climbing (in still air) the greater
the AoA must be for you to keep station with the tug.

I fly an Open Cirrus, towing from the C of G hook without ballast, and
never experienced this at my previous club which had a Citabria tug.
My current club has a Pawnee, and I have from time to time felt the
tow was too slow because the controls felt mushy and the glider
wallowed about, feeling as if it was close to the stall. The Pawnee
climbs much faster than the Citabria.

If in addition the tug's slipstream imparts a downward flow to the
airmass, even more lift and higher AoA is required.

I also disagree with you statement that the AoA *must be greater if
you climb more rapidly......not so....

Assuming a constant airspeed....

The rate of climb is strictly a factor of the power available. * More
powerful towplane = faster rate of climb......lift on the glider's
wing, and the *towlane's wing stays practically constant, therefore
the angle of attack is just about constant.

It is the climb angle (direction of flight) which changes with power,
not the AoA.

Cookie

Ugh?

The glider is flying, the towplane is not dragging the glider up an
incline. If the combination is going up faster (=steeper climb rate/
angle) then both aircraft wings are generating more lift and they get
this this from some combination of increased AoA and airspeed. The
more powerful towplane may allow both aircraft to fly at an increased
AoA and overcome the associated drag. The increased climb angle comes
from the increased lift. Assuming a constant airspeed means all the
increase is coming from an increase in AoA and the more powerful
towplane thrust is offsetting the increased drag. I'd be interested to
see an explanation of any other way of generating an increase in climb
angle without increasing the lift of the glider and/pr towplane.

Darryl