PT20J Posted September 13 Report Posted September 13 I ran across this paper from a test pilot. It isn't all that well written and the math is a bit complex, but the idea is simple. If you fly a turn downwind by reference to to the instruments, the airplane doesn't care which way the air mass is moving. But if you fly the turn close to the ground with reference to the ground itself, you will lose airspeed and sink when turning downwind. The phenomenon is easily visualized considering a U-control model airplane flown in a steady wind. Turning upwind causes the airplane to climb; turning downwind causes it to sink. If the "pilot" were on a platform moving in the same direction and speed as the wind, the airplane would stay level. ADA368602.pdf Quote
Andy95W Posted September 13 Report Posted September 13 I found it interesting that 3 of the sources cited by the author were from Barry Schiff, who has been writing about this topic since the ‘70s. Quote
PeteMc Posted September 13 Report Posted September 13 3 hours ago, PT20J said: But if you fly the turn close to the ground with reference to the ground itself, you will lose airspeed and sink when turning downwind. Wouldn't it be wonderful if Primary "learners" had some exercise to show how that worked. Maybe we should create some practice maneuver where they went and, I don't know, maybe kept turning around one point on the earth? 1 3 Quote
midlifeflyer Posted September 13 Report Posted September 13 Yes, the big controversy is about an illusion caused by physical and optiical sensations. Quote
Ibra Posted September 13 Report Posted September 13 (edited) Without complicating things is this valid for left or right turns? valid in N-S or E-W? assuming flight in northern hemisphere, just making sure we are not missing anything from Coriolis effet and compass turn errors Maybe unrelated, I recall while circling thermals at lower levels in gliders, the upwind part feels strong where downwind part feels weak, I wonder if it’s a similar illusion, say lower part of thermals are “attached to ground reference ”? or it’s a genuine effect, say the lower part of thermal “have an asymmetric shape” in windy days? Edited September 13 by Ibra Quote
Fly Boomer Posted September 13 Report Posted September 13 11 minutes ago, Ibra said: Without complicating things is this valid for left or right turns? valid in N-S or E-W? assuming flight in northern hemisphere, just making sure we are not missing anything from Coriolis effet and compass turn errors Same same. Airplane only "knows" about the air mass it's moving with. Airplane cannot "see" the ground. As far as the airplane knows, there is no wind. This assumes steady wind -- wind shear is different. 1 Quote
midlifeflyer Posted September 14 Report Posted September 14 18 hours ago, Ibra said: Without complicating things is this valid for left or right turns? valid in N-S or E-W? assuming flight in northern hemisphere, just making sure we are not missing anything from Coriolis effet and compass turn errors Maybe unrelated, I recall while circling thermals at lower levels in gliders, the upwind part feels strong where downwind part feels weak, I wonder if it’s a similar illusion, say lower part of thermals are “attached to ground reference ”? or it’s a genuine effect, say the lower part of thermal “have an asymmetric shape” in windy days? You are definitely complicating things to find a reason for something aerodynamically nonexistent. 1 Quote
N201MKTurbo Posted September 14 Report Posted September 14 I have been flying for 44 years. I have been reading about this for 44 years. The story hasn’t changed. 2 Quote
Pinecone Posted September 14 Report Posted September 14 Now, how about an airplane on a treadmill. 2 Quote
Andy95W Posted September 14 Report Posted September 14 4 hours ago, Pinecone said: Now, how about an airplane on a treadmill. https://mythresults.com/episode97 Quote
Recommended Posts
Join the conversation
You can post now and register later. If you have an account, sign in now to post with your account.