#441
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Re: Physics graduate from Daryn\'s alma mater\'s answer
This was a waste of an hour reading this whole thread.
If Airspeed = 0 then we cannot take off. The End |
#442
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Re: think about this...
It looks like people are starting to agree somewhat on the airplane problem. So, how about this?
[ QUOTE ] I'm also confused why people say that the fan-on-skateboard contraption won't move because there is no net force on the system. Would you say the same thing if the sail were just 1 square centimeter in area? If not, then any explanation must take into account the size of the sail. I don't believe that has happened yet, except for some people who observed that the sail cannot capture all the moving air blown by the fan. [/ QUOTE ] |
#443
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Re: Physics graduate from Daryn\'s alma mater\'s answer
[ QUOTE ]
To observers it would look like the plane was gliding along the treadmill. Wheels and treadmill both going the same speed in opposite directions. [/ QUOTE ] If the plane is gliding along the runway (i.e. moving with respect to the observer) then the wheels are not going the same speed as the runway. The distance the runway moves backward and the amount of track covered by the wheels are not equal for a given unit of time in this example and thus the speeds are not equal. |
#444
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Re: think about this...
Ok, I read maybe the first 20 or so pages, then decided there is too much confusion. Here is my attempt at explaining:
1) Everyone seems to agree/understand that if there is no air movement over the wings, then no lift. This is correct. What people are confused about is whether there is actually going to be any relative movement between the airplane (wings) and the air. The answer is yes. A simple FBD should be all that's required to establish whether the plane is moving forward or not. I'm not drawing gravity and lift since they have no effect on forward movement, and also not drawing drag, because we all agree that the thrust is going to overcome drag. Finally, and most importantly since the wheels/threadmill are frictionless they do not exert a force in anyway, so all that was a red herring. This FBD simply establishes whether the plane moves forward or not. Clearly since there is only one force, then it has to. (Side note: What if there was friction? Well, if the thrust is going to exeed friction, it still moves forward.) Ok, so what about the whole "wheel moving at the same speed" thing? Well this is a bit tricky. Clearly as the wheel rotates, velocity of different points on the wheel with respect to the runway is going to be different. Suppose point A, B and C are actually all moving at the same velocity along the runway. Then the wheel is not spinning! It would instead be sliding (or slipping (!) but more on this later) along the runway. In order for the wheel to spin, in one instant in time, point C has to move faster than point B, which has to move faster than point A! Now what are these speeds? Point B, which is where the plane is attached to the wheel has to move at the same speed as the airplane, lets call it V1. What about the speed at point A? This is where the "no slip condition" comes in. It simply means that the wheel is not slipping with respect to the runway. Imagine the wheel "rotating" about point A as it is moving down the runway. At that moment in time, point A has a velocity of exactly 0 with respect to the runway! (ie. it is not slipping on it) Ta da! Velocity of the wheel = velocity of runway. In fact, any point of the wheel that is in contact with the runway at any given time has velocity of zero w.r.t. the runway, regardless of how fast the rest of the wheel is moving. Hence, plane takes off, wheels are moving at the same speed as the runway, QED. Oh and I got to show of my MS paint skillz. Edit: However, I do suck at image hosting. Edit 2: Aha, got it. |
#445
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Re: think about this...
of course it can take off. obviously.
the wheels have nothing to do with anything. their spinning is irrelevant. theoretically, if there were no friction, the engines wouldnt have to be turned on at all. inertia would keep the plane still while the wheels spun. |
#446
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Re: think about this...
everyone understands the problem, the solution, and the "problem with the problem" - there is truly nothing more to discuss.
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#447
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Re: Physics graduate from Daryn\'s alma mater\'s answer
[ QUOTE ]
This was a waste of an hour reading this whole thread. If Airspeed = 0 then we cannot take off. The End [/ QUOTE ] lmao! This is the thread that keeps giving. |
#448
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Re: think about this...
why are the more than one posts?
if there is no wind with respect to the airplane, it will not take off. if there is no wind with respect to the runway, it will take off. lift cannot be generated without wind with respect to the plane. (wind in the negative direction of the plane's orientation.) |
#449
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Re: think about this...
[ QUOTE ]
why are the more than one posts? if there is no wind with respect to the airplane, it will not take off. if there is no wind with respect to the runway, it will take off. lift cannot be generated without wind with respect to the plane. (wind in the negative direction of the plane's orientation.) [/ QUOTE ] As far as I can tell, the system is impossible. The question seems to state that the plane is not moving wrt to the runnway, but this is not possible given the setup since the jets/props provide thrust and there is no way for the runway to exert an opposite force via the free rolling wheels. |
#450
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Re: think about this...
[ QUOTE ]
this doesnt require much thought [/ QUOTE ] see, no thought required! |
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