07-20-2009, 04:56 PM | #61 |
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07-20-2009, 05:00 PM | #62 | |
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Quote:
When a fighter jet lines up at the end of the runway, it typically runs its engines up to full speed before releasing brakes. The speed of the wheels on the jet is equal to the speed of the runway below it (0 mph). The air coming out of the back of the engine is over 1000 mph, much faster than the aircraft needs to get airborne. If the myth is right, the aircraft should lift off! And here is the argument you typically hear: But wait, the brakes are set!!! That is why it doesn’t work! So the second the pilot lets go of the brakes, the jet gets airborne? No, it gets airborne when the speed through the air (not over the ground) reaches the point to cause enough lift over the wings to overcome gravity (the weight of the jet.) The compressibility of air and temperature differences result in vast differences in one if you try to hold the other constant. Last edited by Lucky3623; 07-20-2009 at 05:06 PM.. |
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07-20-2009, 05:04 PM | #63 |
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In theory yes but because the wheels are a friction point it would take slightly longer to get to Vr(Rotate speed). Your V1, V2, and Vr would all be the same speed as normal takeoff, it would just take a little longer to get there dependent on how much faster the conveyor was running than the take off speed.
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07-20-2009, 05:05 PM | #64 |
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So you agree?
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07-20-2009, 05:08 PM | #65 |
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Rider, I know what you're saying.
But, I honestly think the friction increase woudld be so small that the bearings of the wheels would still be well within their operating range. |
07-20-2009, 05:12 PM | #66 |
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07-20-2009, 05:17 PM | #67 |
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07-20-2009, 05:20 PM | #68 |
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07-20-2009, 05:26 PM | #69 |
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Gentlemen: Since the plane is on a treadmill, it is not being forced through the air, creating an artificial headwind. The only thrust to create speed differential with the surrounding air is the plane's thrust.
If the plane is of a design as to have enough thrust to get airborne essentially with no headwind (at least none induced by moving the plane forward, which the treadmill assures cannot happen), and by its own thrust alone, then it will take off. The freewheel on the tires is exactly doubled, as has already been said. I believe the frictional losses, if within the spec of the wheels, is probably relatively inconsequential.
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07-20-2009, 05:40 PM | #70 | |
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Quote:
Now take a regular plane and do the same thing. Leave the engines off and its like the glider. With the tread mill moving at 300 mph and the wheels turning at 300 mph we have a plane sitting still. BUT...if the tread mill is moving 300 mph and the PLANE itself is moving 300 mph it will fly. The plane gets trust from engines that move air NOT a transmission connected to wheels. Try this one. The bottom of a small plane is about 3 feet off the ground or so, right? Lets take a crazy pilot and have them fly over the runway at 3 feet off the ground (in a small plane that can retract its wheels) its over the same height off the ground as the plane on its wheels. If it does this at 150 mph, the ground will be moving under it at 150. The plane flies. Now take this same crazy pilot and the same plane but have him fly the same way over a big ass tread mill the size of a runway. The ground (or treadmill belt) will be moving at 150 mph, the plane is going in the opposite direction at 150. Because of this it if you took the speed of the belt it should be like its going 300 mph. But the plane will still fly over it. It would have no affect on the plane. If the plane did this over a tread mill with the belt going in the SAME direction of the plane you could have someone hang from the plane and step off the plane and they would be standing beside the plane moving (well the 150 mph wind should not the guy on his ass but if he could stand in the wind he would be standing by the plane. The treadmill doesn't stop the air from moving. When the PLANE is doing the speed its needs to create life it will take off. It doesn't care what speed the ground is moving at, it only matters what speed the plane is moving throught the air. Thats the key there. Air speed. James
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