DaveBB:Earl is a very enthusiastic player and a very experienced pilot.I would never wish to debate Earl on best practices when piloting aircraft.And I would love to fly with Earl in my RV.
I have been wanting to make a series of video , mostly on where to look when performing maneuvers, hence the head cam. Here is my first attempt.
http://www.youtube.com/watch?v=ulpdOHcCiNE
But I do not see anyone telling early how a plane flew or how to fly a plane. I see a technical discussion of aerodynamics about what make planes fly. In this particular case, adverse yaw. A pilot must be taught about adverse yaw so as to know he must apply rudder to compensate for it. Thinking and remembering that a downward aileron causes drag is a good way to remember.
But i have learned that most pilots only have a basic understanding of the physics of flight. Pilots are taught in a way that they understand the basics of physics as is required to best operate an airplane. The diagram on the wiki sight is 100 % correct. But it also does not tell the entire story. It is showing what causes adverse yaw in a steady state roll. There is also adverse yaw immediately when applying aileron Pryor to the roll developing . This is basically do to the downward deflected aileron. But more accurately it is do to the shifting of the lift vs AOA curve due to the increase camber of the wing caused by the downward deflected aileron. This lift curve shift creates more lift & hence more induced drag and possibly more profile/parasitic drag. Once the roll is steady state, (not a steady state turn but ROLL) then both wings must be producing approximately the same lift or the roll would be increasing or decreasing in RPM. The AOA is greater on one wing vs the other , but the camber is greater on the lower AOA wing so both are creating the same lift. The steady state condition is what the wiki is describing. Also that diagram is very similar to why makes a helicopter auto rotate.
Now notice this quote from early "Don't know who posted that explanation on Wiki, but it is not quite true". With out any physics explanation of why he thinks it is not true. And when debated Earl simply states i have all this back ground I teach ,I fly and I have written articles.
HiTech
Would love to kick the tires, light the fires and leap into the blue with you sometime! Just to set the record straight, I would refere anyone who is taking exception with me about the discussion which is going on, I refere you to this:
http://www.faa.gov/regulations_policies/handbooks_manuals/aircraft/airplane_handbook/The is the Federal Aviation Agency basic handbook on what the instructor should be teaching his or her student! It is in PDF form, so when you visit and want to view, right click on 1-3, save target as! The PDF will open up and you can view all the different subjects which we have been talking about. Section 3-8 is the one which references effects of the down aileron and its effects.
Any of you can test this for your self: next time you are in a/c in flight, apply a little left or right aileron and see for your self which way the nose moves FIRST! If you apply left aileron, your aircraft nose will move right FIRST, before it begins to bank to the left. The reason the nose moves right to begin with is the drag created by the down aileron, not the additional lift created by the high wing. In this chapter I am referring you to, there is a good diagram of how relative and resultant lift works on the aircraft wing.
