Sorry to be bumping up an old thread.
Very interesting read, felt I was back in uni.
If I may, want to point to tiny disagreement (semantics, not the concept) :
Vyssion wrote: ↑20 Apr 2022, 23:25
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Flow over the Upper Surface of the Wing
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When a wing moves at subsonic speeds, the low pressure area on the upper surface kind of "sucks" in air ahead of it. If we pick some random packet of air for a moment, then as it's travelling towards this wing, then the other air packets above itself, and downstream of itself, there will be "less bouncing around of molecules" because they are being drawn towards this region of low pressure,
How did the 'low pressure area on the upper surface' get created in the first place ? Asking because, this is the root cause that leads to a series of events (which you have further described) , that ultimately results in low-pressure on top of the wing. Isn't this a chicken-egg problem ?
Probably you should add - "as the wing moves forward at a slow speed, it disproportionately vacates molecules that were erstwhile occupying an area (around where the top of the wing is now) into a completely different area several inches below (that now falls below the bottom of the wing). This creates a 'partial vacuum' like zone, which entices the molecules in front of the moving wing to rush into this vacated spot (enticed fast flow). But since the wing keeps moving, more erstwhile still molecules are shunted down, more enticement-flow caused and so on. The faster the wing is made to move forward, the greater this vacating rate and enticement rate ; thus leading to lower and lower pressure in a local zone just atop the forward half of wing."
Just a suggestion, to prevent someone else like me pointing out a chicken-egg problem.
