pyroknife said:
Oh I didn't know that, so lift is like analogous to the normal force for an object resting on the surface of the earth?
Thanks.
Yeah sort of. Again, to emphasize: if the vertical acceleration of the plane was just g, then it would start to accelerate downward just like any object in free fall. Since it doesn't do that, there must be some force counteracting the weight.
I think the way lift is generated, to put it simply, is that when air runs over a wing, the wing exerts a downward force on the air. (How/why, I do not know). By Newton's 3rd law, the air must exert a corresponding upward force on the wing of equal magnitude. We call this upward force "lift." The faster the plane goes, the more lift you get.
The issue of "what makes a plane fly" is somewhat controversial, because an incorrect explanation is given in many school textbooks. The statement is that the upper surface of a wing is curved, and that the air flow splits and goes over the top surface and bottom surface in equal time. Therefore, the air must flow over the top surface faster (since it has more distance to cover due to the curve), and the Bernoulli equation says that the pressure on the top is therefore lower (due to the faster flow). The difference in pressure between the top and bottom is cited as the cause of the lift. I want to emphasize that this explanation involving the Bernoulli equation is
totally wrong as far as I can see. There is no reason why the air should flow over the top and bottom surface in the same amount of time. Furthermore, this does not explain why a plane can fly perfectly well upside down. Yet, somehow, this explanation of lift continues to be taught.
What I said before is the correct explanation: a wing applies a downforce to the air somehow. I fully admit that I do not know how it does so.
