Originally posted by Straiga
The horizontal stabilizer creates lift in a downward motion on all airplanes for equalibrium.
I feel bad picking on Straiga here, but this jumped out at me, and he said it more than once. The horizontal stabilizer is an airfoil, just like the wing. It creates lift, just like the wing. The only difference is the size and location. There is no such thing as lift in a downward direction. Downward force on an airplane is called weight. I don't have any handy pictures to link here and illustrate, so I'll try to draw this with words the best I can.
Imagine a side view of an airplane. Now imagine a big arrow coming up from about the middle of the wing, representing the lift generated by the wings. Imagine also a smaller arrow coming straight up from the horizontal stabilizer, representing the lift created by it. Now picture a dot somewhere between those two arrows, representing the Center of Gravity (CG). Do some simple physics-math (force x distance) and you can figure out where the equilbrium point is. Now if the CG slides too far forward, both arrows are behind it and the plane will go nose-down and start flipping. Likewise, if the CG moves too far back, the plane will go nose-up and flip. But assuming the CG stays where it should, slightly behind the lift vector from the wing, it makes sense when the empennage gets shot off that the aircraft would pitch nose-up, because the only lift remaining is in front of the CG.
Sorry, but for someone with these kind of credentials:
I have been a pilot for over 30yrs, 91/2 with the US Navy jet fighter pilot, the rest as an Airline Pilot with a major carrier flying DC10s and B767s. Im both airplane and helicopter flight instructor with ATP in both. I have a master in aeronautical engineering,with over 500 hrs in a P-51D
it just strikes me as odd that you can be that far off the mark about basic aerodynamic concepts.
